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PARTS FEEDER

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corporation

CONTENTS

Outline and Features

Standard Series Dimensions and Specifications

Standard Series Combination Table

Vibratory Drive Unit/Bowl/Controller

Parts Feeders for Special Applications

Standard Series Bowl Feeder Series Bowl Series Linear Feeder Series Hopper Series Controller Series Selection of Vibratory Driving Unit Bowl Feeder Bowl Auxiliary Vibrator Hopper Isolated Bottom/Fixed Bottom Auxiliary Hopper in the Bowl Controller Control Functions and Timing Chart Ordering Parts Feeders Vibratory Drive Unit/Vibratory Trough/Controller Bowl Feeder Linear Feeder Monodrive 2-way Feeder Non-slip Composite Feeder SMD Feeder Micro-chamfered Parts Orientating/Aligning Unit Spring Untangling Feeder One-touch Bowl Clamp Globalized Parts Feeder Series Flexible Feeder Spare Part and Peripheral Dimensions Estimate Requests

4

5 6 7 8 8 9 10

11 22 30 34

21 29 33 36 37

38

48 49

50 52 62

64 66 68 70 72

51 61 63

65 67 69 71 73 74

75

80 81

Warranty

NTN warrants, to the original purchaser only, that the delivered product which is the subject of this sale (a) will conform to drawings and specifications mutually established in writing as applicable to the contract, and (b) be free from defects in material or fabrication. The duration of this warranty is one year from date of delivery. If the buyer discovers within this period a failure of the product to conform to drawings or specifications, or a defect in material or fabrication, it must promptly notify NTN in writing. In no event shall such notification be received by NTN later than 13 months from the date of delivery. Within a reasonable time after such notification, NTN will, at its option, (a) correct any failure of the product to conform to drawings, specifications or any defect in material or workmanship, with either replacement or repair of the product, or (b) refund, in part or in whole, the purchase price. Such replacement and repair, excluding charges for labor, is at NTN's expense. All warranty service will be performed at service centers designated by NTN. These remedies are the purchaser's exclusive remedies for breach of warranty. NTN does not warrant (a) any product, components or parts not manufactured by NTN, (b) defects caused by failure to provide a suitable installation environment for the product, (c) damage caused by use of the product for purposes other than those for which it was designed, (d) damage caused by disasters such as fire, flood, wind, and lightning, (e) damage caused by unauthorized attachments or modification, (f) damage during shipment, or (g) any other abuse or misuse by the purchaser. THE FOREGOING WARRANTIES ARE IN LIEU OF ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. In no case shall NTN be liable for any special, incidental, or consequential damages based upon breach of warranty, breach of contract, negligence, strict tort, or any other legal theory,and in no case shall total liability of NTN exceed the purchase price of the part upon which such liability is based. Such damages include, but are not limited to, loss of profits, loss of savings or revenue, loss of use of the product or any associated equipment, cost of capital, cost of any substitute equipment, facilities or services, downtime, the claims of third parties including customers, and injury to property. Some states do not allow limits on warranties, or on remedies for breach in certain transactions. In such states, the limits in this paragraph and in paragraph (2) shall apply to the extent allowable under case law and statutes in such states. Any action for breach of warranty or any other legal theory must be commenced within 15 months following delivery of the goods. Unless modified in a writing signed by both parties, this agreement is understood to be the complete and exclusive agreement between the parties, superceding all prior agreements, oral or written, and all other communications between the parties relating to the subject matter of this agreement. No employee of NTN or any other party is authorized to make any warranty in addition to those made in this agreement. This agreement allocates the risks of product failure between NTN and the purchaser. This allocation is recognized by both parties and is reflected in the price of the goods. The purchaser acknowledges that it has read this agreement, understands it, and is bound by its terms.

© NTN Corporation. 2006 Although care has been taken to assure the accuracy of the data compiled in this catalog, NTN does not assume any liability to any company or person for errors or omissions.

PARTS FEEDER

NTN Parts Feeders

From precision machine parts to foods...

Four series of drive units for a broad range of applications, for anything from miniature parts to large billets

NTN Parts Feeders can automatically align a wide variety of components (machine parts, electronic parts, plastic parts, chemicals, pharmaceuticals, foods, miscellaneous goods, etc., as illustrated below), and feed them via a vibratory trough for processing in automated production machines. Parts feeders are simple devices comprised of leaf springs, electromagnets, the vibratory vessel and various other parts. Their main functions are to align and feed parts in manufacturing and assembly processes­critical tasks in today's increasingly diversified and technologically complex production systems. For improved production efficiency, parts feeders must be both faster and more reliable. To meet these demands, NTN has developed the following four series of vibratory drive units, each of which is designed for different applications, depending on the size and material of work pieces. HF-series, high-frequency drive, for miniature electronic parts and low profile parts. K-series, simple, high-performance feeders, for small parts from 1 mm to approx. 10 mm. N-series, the best-selling traditional horizontal vibration feeder, with an isolated bottom, for general mediumsize parts. G-series, fitted with a powerful W spring, for larger parts. With these four series to choose from, you can always select the optimum drive unit for your parts. To fully utilize the performance potential of these highly stable vibratory drive units, a variety of tooling units are available, including bowls (vibratory vessels) and controllers (control devices). Using the combinations lists (pages 52 to 63), anyone can quickly, and easily find the ideal combination of equipment for the job at hand. In addition, many other accessories, including the standard stay assembly parts, which are required for setting linear feeders and vibratory troughs, are also available. We are confident that NTN Parts Feeders can satisfy your demands for higher levels of automation and labor savings.

Excellent tooling technology through long years of experience

Attachments of various shapes which are fitted either inside or outside the bowls to aid in aligning the parts are also available. The attachments used for particular types of work pieces greatly affect the performance of parts feeders. NTN's tooling technology, which spans everything from design and production through to fine tuning attachments, has been developed out of many years of experience, and handles the automatic alignment and feeding of many kinds of traditionally difficult parts. NTN products are peerless in their workmanship and finish.

Outline, features, and applications

Standard series

Bowl feeder series

(Refer to page 6)

HF-series

K-series

N-series

G-series

Bowl series

(Refer to page 7)

Precision machined bowl

Cascade bowl

Stainless steel cascade bowl

Straight wall bowl

Cone bowl

Dish bowl

Outline, features, and applications

Linear feeder series

(Refer to page 8)

HS-series

S-series

L-series (Refer to page 8)

Hopper series

Detached hopper

Space-saving hopper

Automatic auxiliary hopper

Rotary hopper

Controller series

(Refer to page 9)

Variable frequency controller

SMD controller

Constant voltage controller

Constant amplitude controller

Timer unit

I/O controller unit

Outline, features, and applications

Bowl feeder series

HF-series

Numbers in shaded area indicate reference pages.

11

HF-series bowl feeders can smoothly feed miniature and low profile parts at high speed through an F-series horizontal drive running at high-frequency via a variable frequency controller. Use in conjunction with HS-series. (1) High-speed, stable feeding (2) Highly rigid isolating vibration (3) Height adjustment mechanism

K-series

K-series bowl feeders are intended for small parts, including electronic components. Simple, open construction and well thought out spring mechanism design allow precise and stable vibration for long periods of time. (1) Precise full wave drive (2) Height adjustment mechanism (3) Attractive coverless construction

12 13

N-series (See exploded view below.)

14 to 19

The N-series are NTN's most representative bowl feeders featuring stable operation and high durability by incorporating a traditional isolated bottom and horizontal drive. The new N32 model has been added to expand the N-series range. (1) Low noise (2) No adjustment required (3) High-speed, stable feeding (4) Auxiliary hopper can be fitted. (5) Fastening base plate fitted as standard. Isolated bottom construction Since the bottom is isolated from the bowl, it does not vibrate. Only the tracks around the bowl are vibrated during operation. This design generates less noise, and keeps the vibrating mass unchanged. Thus, feed speed is always constant. In addition, an auxiliary hopper can be installed in the bowl. Vibration system Unlike conventional vertical drive feeders, which have high-capacity electromagnets, a horizontal drive is employed in N-series bowl feeders by evenly distributing several weaker electromagnets around the circumference so that force is distributed evenly and smoothly in the direction of vibration. Good balance in vibrational amplitude allows high-speed feeding without the need for frequent adjustments.

Exploded view of N25 type

Auxiliary hopper

Bowl

w/Isolated bottom

Upper vibrator Electromagnet

G-series

G-series are powerful bowl feeders for large and heavy work pieces. This series of feeders includes the G50 and the more powerful G63. (1) Powerful leaf spring (2) Enhanced drive system (3) Reduced vibration transmission (4) Isolated bottom can be installed.

20

21

Outline, features, and applications

Bowl series

Precision machined bowl

22 29

Numbers in shaded area indicate reference pages.

Cascade bowl

22 23

Suitable for aligning and feeding minute parts (1) Precision machined tracks (2) Selection of bowl shapes for different applications (3) NC tooling is possible (4) Machined inside surface

For general applications (all-purpose) (1) A virtually non-stick bowl (2) Light weight (aluminum alloy casting) (3) Cost-effective (mass-produced by precision casting) (4) Inside surface is protected with a black polyurethane coating.

Stainless steel sheet cascade bowl

24 25

Straight wall bowl

26 27

Suitable for foods and medicine (1) All tracks surfaces can be smooth-finished for complete discharge of minute components. (2) A virtually non-stick bowl (3) Unfinished stainless steel surface inside the bowl

Suitable for special applications (1) Uniform circumference permits easy installation of attachments. (2) Longer, more complex attachments than for cascade bowl can be used. (3) Easy incorporation of recycling tracks (smooth recycling is possible by returning work pieces to the bottom of the bowl and guiding them to below the first tracks) (4) Untreated, as-rolled stainless steel surface inside the bowl

Cone bowl

28

Dish bowl

29

For general applications (1) A virtually non-stick bowl (2) Uniform circumference permits easy installation of attachments. (3) Easier incorporation of recycling tracks than the cascade bowl (4) Unfinished, stainless steel surface inside

For high-speed feeding of low-profile parts. (1) Low-profile parts can be easily fed at high speed via narrow tracks without special reworking for attachments. (2) Unfinished, stainless steel surface inside

Outline, features, and applications

Linear feeder series

S-series

30 31

Numbers in shaded area indicate reference pages.

HS-series

32

L-type

32

S-series feeders connect NTN bowl feeders with automated production equipment nearhorizontally and near-linearly. (1) Constant feed speed (2) Stable operation for long periods (3) Easy installation and adjustment

HS-series feeders feed miniature parts, including chips and other electronic components at high speed. Use in conjunction with HF-series. (1) Built-in height adjustment mechanism (2) Stable positioning

L-type feeders can be operated after a simple adjustment, and are also applicable for low profile parts. (1) Easy design of vibratory troughs (2) Smooth, high-speed feeding

Hopper series

Detached hopper

34

Numbers in shaded area indicate reference pages.

Space-saving hopper

35

The detached hopper has a specially designed storage tank to allow the automatic supply of a large number of parts for a long time. Eleven models are available. The level switch and controller which control hopper operation according to the quantity of parts in the bowl are standard equipment. (1) Low noise (2) Stable discharge of work

The space-saving hopper is compact for maximum utilization of available space. The tank and vibratory trough are supported by a round bar, so that the whole hopper unit can be installed directly above the bowl feeder. A compact, highly sensitive level switch is also provided. (1) Space-saving (2) Easy inspection and maintenance (3) Stable discharge of work

Automatic auxiliary hopper

36

Rotary hopper

36

The range of applications is expanded by the automatic up/down movement of the auxiliary hopper in the bow. (1) Suitable for light-weight, complicated work pieces (2) Fully pneumatic level control eliminates need for electrical installations. (3) Space-saving

This detached storage hopper feeds work ranging from fine powder to minute parts. (1) Stable discharge of minute parts (2) No vibration, no noise (3) Reliable regardless of shape and material of work

Outline, features, and applications

Controller series

Variable frequency controller

38 39

Numbers in shaded area indicate reference pages.

SMD controller

40 41

The SMD controller supplies stable power tooptimally drive the SMD feeder. Simple to set up, the variable frequency controller reliably controls parts feeders regardless of the power frequency. (1) No adjustment of the leaf spring is needed. (2) Simple digital setup. (3) Capable of controlling a larger parts feeder. (1) One twin-type controller unit is capable of controlling both a bowl feeder and a linear feeder. (2) The arrangement of the digital switch allows the user to read the settings directly. (3) Wider variable frequency range. (4) The highly functional type features built-in I/O control for selection, overflow and other factors.

Constant voltage controller

42 44

Constant amplitude controller

45

The constant voltage controller features standard controller functions as well as a constant voltage function to compensate for variations in the supply voltage. (1) Automatically corrects the variation in supply voltage. (2) Capable of controlling a larger parts feeder. (3) One twin-type controller unit is capable of controlling both a bowl feeder and a linear feeder. The constant amplitude controller features a powerful constant amplitude to provide stable power with higher accuracy. (1) Automatically corrects variations in the load with higher accuracy. (2) Capable of controlling a larger parts feeder. (3) Wider range of functions.

I/O controller unit

48

Optional unit

47

To control the parts feeder system with the I/O controller unit, the operator need only enter a program number and define the timer setting. (1) The controller unit is ready to operate once the operator has entered a program number and timer setting. (2) Space requirements for installation are greatly reduced. (3) Low cost and short lead time

Optional units enhance the functionality and applicability of various controllers while expanding the variety of applicable sensors. (1) Additional functions and applications are available through retrofitting. (2) A wide variety of applicable sensors.

Selection of Vibratory Driving Unit

Once the outer diameter of the bowl and vibratory trough length are determined, suitable vibratory drives can be selected from the graphs below. For details, refer to pages 6 and 7 in the "Parts Feeder Guide Book" (CAT.No.7019/E).

Appropriate bowl sizes for bowl feeders

HF 14 G 50 HF 10 N 40 N 32 N 25 K 20 K 16 K 14 K 10

G 63

500

1 000

Bowl outer diameter (mm) Bowl mass (kg)

1.5

5

10

20

35

55

75

Bowl outer diameter and mass figures include attachments.

Appropriate vibratory trough sizes for linear feeders

HS 07 HS 05 S 30

S 20 L 20 S 10 S 08 S 05

500

1 000

Vibratory trough length (mm) Vibratory trough mass (kg)

0.3

2

4

15

Bowl feeder dimensions and specifications

NTN parts feeder

K- HF 14 R 2 1

Voltage and drive system Design revision code Supply direction (R: clockwise, L: counterclockwise) Size Model

HF

series

High-frequency bowl feeder

K-HF10 R21 L

K-HF14 R 21 L

170 154 M8

220 204 M8

204 4 9 160 120 50 -0.1 -0.15 190

1

154

4-

9 120 50

-0.1 -0.15

170

1.5

31

80

140

Model and Part number Rated size voltage V HF10 HF14 K-HF10R21 L 100 K-HF14R21 L

Rated current A 0.2

Applicable controller

Applicable leaf spring K-PLS2-35 12

Leaf spring angle

Vibration frequency Hz

Mass kg 4.5 10.9

30

100 - 1.5

+2 - 1.5

+2

1.5

220

Remarks w/ height adjustment mechanism

K-ET818 0.9 K-PLS2-50 20

12

200 300

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table on page 52.

Bowl feeder dimensions and specifications

K10,14 NTN parts feeder

K- K 10 R

1

Voltage and drive system Design revision code Supply direction (R: clockwise, L: counterclockwise) Size Model

K

K-K10 R1 L2

84

series

K-K14 R1 L2

100

150

4 9 Mounting hole M8 Tapped 12

126

4 10 M8 Tapped 14

100 50 1.5

Bowl mounting face 1.5

150 120 50

Bowl mounting face

MAX.16 145 150

100

10

M8

Model and Rated Rated Part number size voltage V current A K10 K14 K-K10 1 K-K10 R2 L K-K14 R1 L K-K14 R2 L

R L

Applicable controller K-EG177 K-ECA46

1

Applicable leaf spring K-PLS2-35 5

Leaf spring angle

Vibration frequency (Hz)

Mass kg 3.6 10.0

144

Remarks

100 200 100 200

0.3 0.15 0.7 0.35

1

2

20° K-PLS2-50 9

100/120

w/ height adjusting mechanism

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 53. 2 Part No. K-ECA46 accommodates vibratory driving units rated at 200 V.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 1 100V 2 200V Full wave 50 Hz area 6000 cycles/min 60 Hz area 7200 cycles/min

Bowl feeder dimensions and specifications

K16,20 NTN parts feeder

K- K 16 R 3 1

Voltage and drive system Design revision code Supply direction (R: clockwise, L: counterclockwise) Size Model

K

K-K16 R 3 1 L 2

160

series

K-K20 R 1 , L 2

250 200 8

4 10 M8 Tapped 14

200

4-M10 Tapped Thru M12 Tapped 18

250 200 150 10 Bowl mounting face 2 200 Bowl mounting face

MAX.16 164 169

164

M8

Rated Model and Part number voltage V size K16 K-K16 K-K16 K-K20 K-K20 K-K20 K-K20

R L R L R L R L R L R L

Rated current A 1.8 0.3 2.5 1.5 2.0 1.0

Applicable controller

1

189

Applicable leaf spring K-PLS2-67 12-1

Leaf spring angle 20 15 25

Vibration frequency (Hz)

Mass kg 20

Remarks w/ height adjusting mechanism Full wave

K20

31 32 1 2 3 4

100 200 100 200 100 200

1

K-EG177 K-ECA46

2

K-PLS2-116 35-1 K-PLS2-116 20-2

100/120 or 50/60

35 Half wave

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 53. 2 Part No. K-ECA46 accommodates vibratory driving units rated at 200 V.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 1 100V 2 200V 3 100V 4 200V Full wave Half wave 50 Hz area 6000 cycles/min 3000 cycles/min 60 Hz area 7200 cycles/min 3600 cycles/min

Bowl feeder dimensions and specifications

N25 NTN parts feeder

K- N 25 R A M 2

Voltage and drive system Bowl mounting type Design revision code Supplying direction (R: clockwise, L: counterclockwise) Size Model

N

K-N25 R M 1 L 2

298 165-0.05 -0.15

series

K-N25 R H 1 L 2

8-M6 Tapped P.C.D186 15 300

200

230 570

290

Bowl mounting surface

2.5

K-N25 R F 1 2 L

8 7Thru P.C.D250

336 220 4-M10 Tapped Thru Counterbore 15 Depth 10 Controller Bowl mounting plate

30 45

245

245

220

198.5 18

Dimensions of base plate (top view)

Model and Rated Part number voltage V size K-N25R M1 L K-N25R M2 L K-N25R H1 L K-N25R H2 L K-N25R T1 L K-N25R T2 L K-N25R F1 L K-N25R F2 L 100 200 100 200 100 200 100 200

Rated current A 3.6 1.8 3.6 1.8 3.6 1.8 3.6 1.8

Applicable controller

1

245

314

Applicable leaf spring

Leaf spring angle

Vibration frequency cycles/min

Mass kg 48 52

Remarks Basic type w/ aux. hopper in the bowl w/ isolated bottom w/ bowl mounting flange

1

N25

K-EG177 K-ECA46 2

K-PLS2-86 20

15

100/120 49 49

1The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 54. 2 Part No. K-ECA46 accommodates vibratory driving units rated at 200 V.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 1 100V 2 200V Full wave 50 Hz area 6000 cycles/min 60 Hz area 7200 cycles/min

245 270

25 2

K-N25 RT 1 L 2

269 225 -0.1 -0.3

Bowl feeder dimensions and specifications

N25 A

K-N25 R AM 1 L 2

8-M6 Tapped P.C.D186 15

K-N25 R AH 1 L 2

K-N25 R AF 1 2 L

300

8 7 Thru P.C.D250

25 230 290 200 Bowl mounting surface 25 2 K-P0800 )

15 15

256

2.5

K-PB-N251

45

15

211 256 15

K-N25 R AT 1 L 2

198.5 Details of A-part Hex.bolt M10 18 80

D3

P.

C.

15

336

3- 9 Rubber insulator fitting hole

P.C .D 2 20

256 (325

45

15

37.5

Free set base dimensions (top view)

Model and Rated Part number voltage V size K-N25R AM1 L K-N25R AM2 L K-N25R AH1 L K-N25R AH2 L K-N25R AT1 L K-N25R AT2 L K-N25R AF1 L K-N25R AF2 L 100 200 100 200 100 200 100 200

Rated current A 3.6 1.8 3.6 1.8 3.6 1.8 3.6 1.8

Applicable controller

1

Applicable leaf spring

Leaf spring angle

Vibration frequency cycles/min

Mass kg 44 w/ free set base

Remarks basic type w/ aux. hopper in the bowl w/ isolated bottom w/ bowl mounting flange

1

2

N25 A

K-EG177 K-ECA46

48

3

K-PLS2-86 20

15

100/120 45 45

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 54. 2 25.A will be supplied with three height adjusting bolts (M10 80) and three clamps (K-P0800). 3 Part No. K-ECA46 accommodates vibratory driving units rated at 200 V.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 1 100V 2 200V Full wave 50 Hz area 6000 cycles/min 60 Hz area 7200 cycles/min

281

A-part

15

298 165-0.05 -0.15

15

(580

R75 (R43)

3-Hex.bolt M10

15

)

269 225 -0.1 -0.3

Bowl feeder dimensions and specifications

N32 NTN parts feeder

K- N 32 R 2 M 2

Voltage and drive system Bowl mounting type Design revision code Supplying direction (R: clockwise, L: counterclockwise) Size Model

N

K-N32 R2M L

2 4

series

K-N32 R2F 2 L 4

K-N32 R2T 2 L 4

Controller Bowl mounting face 6-M8 Tapped 15 P.C.D250 386 2.5 230

-0.05 -0.15

Controller 6 9 Thru P.C.D280 300 230 2 (35)

-0.05 -0.15

Bowl mounting face

Drain oil chute (L rotation) Drain oil chute (R rotation) 268 21

250 285

266

4-M10 Tapped Thru Counterbore 15 Depth 10

28 47

410

250

K-N32 R2H 2 L 4

345

290 340

266

230

Base plate dimensions (top view)

Model and Rated Rated Part number voltage V current A size

K-N32 2M2 K-N32 R 2M4 L K-N32 R 2H2 L K-N32 R 2H4 L K-N32 R 2T2 L K-N32 R 2T4 L K-N32 R 2F2 L K-N32 R 2F4 L

R L

Applicable controller

1

N32

2

200

2.8 3.5 2.8 3.5 2.8 3.5 2.8 3.5

K-ECA46

Vibration Applicable Leaf spring frequency leaf spring angle (Hz) K-PLS2-116 40 1 K-PLS2-116 20 K-PLS2-116 40 100/120 K-PLS2-116 20 or 15° K-PLS2-116 40 50/60 K-PLS2-116 20 K-PLS2-116 40 K-PLS2-116 20

250

630

Mass kg

68 76 72 69

250

Remarks basic type

w/ aux. hopper in the bowl w/ isolated bottom

w/ bowl mounting flange

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 55 to 56.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 2 200V 4 200V Full wave Half wave 50 Hz area 6000 cycles/min 3000 cycles/min 60 Hz area 7200 cycles/min 3600 cycles/min

351

Bowl feeder dimensions and specifications

N32 A NTN parts feeder

K- N 32 R AM 2

Voltage and drive system Bowl mounting type Design revision code Supplying direction (R: clockwise, L: counterclockwise) Size Model

N

K-N32 R AM L

2 4

series

K-N32 R AF 2 L 4

K-N32 R AT 2 L 4

6-M8 Tapped 15 P.C.D250

6-M8 Tapped 15 P.C.D250 386 230

-0.05 -0.15

Bowl mounting face 2.5

6 9 Thru P.C.D280 300 230

-0.05 -0.15

Bowl mounting face

Drain oil chute (L rotation) Drain oil chute (R rotation) 268 21

2 (35)

222

20

20

20

20

321

3-Hex.bolt M16 3-M10 Tapped Rubber insulator mounting thread 15 P.C.D3 00

100

K P0801 3-Hex.bolt M16

64

K PB N323

20

286

K-N32 R AH 2 L 4

0 42 .D .C 450 P

286

345

Controller

100

290 340

230

27

Free set base dimensions (top view)

Model and Rated Rated Part number voltage V current A size

K-N32 K-N32 K-N32 K-N32 K-N32 K-N32 K-N32 K-N32 AM2 AM4 AH2 AH4 AT2 AT4 AF2 AF4 2.8 3.5 2.8 3.5 2.8 3.5 2.8 3.5

Applicable controller

1

2

N32

A

200

K-ECA46

Applicable leaf spring K-PLS2-116 40 K-PLS2-116 20 K-PLS2-116 40 K-PLS2-116 20 K-PLS2-116 40 K-PLS2-116 20 K-PLS2-116 40 K-PLS2-116 20

Leaf spring angle

Vibration frequency (Hz)

286

20

665

2-M6 Tapped

20

Mass kg

64 72 68 65

1

basic type

w/ aux. hopper in the bowl w/ isolated bottom

15°

100/120 or 50/60

w/ bowl mounting flange

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 55 to 56. 2 N32.A will be supplied with three height adjusting bolts (M16 100) and three clamps (K-P0801).

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 2 200V 4 200V Full wave Half wave 50 Hz area 6000 cycles/min 3000 cycles/min 60 Hz area 7200 cycles/min 3600 cycles/min

286

Remarks w/ free set base

387

20

Specifications and dimensions of bowl feeder

N40 NTN parts feeder

K- N 40 R 1 M 2

Voltage and drive system Bowl mounting type Design revision code Supplying direction (R: clockwise, L: counterclockwise) Size Model

N

K-N40 R M 2 L 4

series

K-N40 R H 2 L 4

12 M6 Tapped Depth 15 P.C.D320 430

K-N40 R F4 L

6- 9 Thru P.C.D400

290 350

250

Bowl mounting face 452 300-0.05 -0.15

Bowl mounting face (650) 35 (3)

90

1

2.5

420 365-0.1 -0.5

260

490 4-M10 Tapped Thru Counterbore 15 Depth 10 Controller

325

28 43 260

K-N40 R T 2 L 4

334 21

K-N40 R1F4 L

35 (3)

basic type w/ aux. hopper in the bowl w/ isolated bottom w/ bowl mounting flange N40 wide amplitude basic type w/ aux. hopper in the bowl w/ isolated bottom w/ bowl mounting flange

472 420 -0.5 365 -0.1 (363)

325

Base plate dimensions (top view)

Rated Model and size Part number voltage V

K-N40 M2 K-N40RM4 L K-N40RH2 L K-N40RH4 L K-N40RT2 L K-N40RT4 L K-N40RF4 L K-N40R1M4 L K-N40R1H4 L K-N40R1T4 L K-N40R1F4 L

R L

1 Rated Leaf spring Applicable controller Applicable leaf spring angle current A

Vibration frequency (Hz)

Mass kg

N40

200

2.8 3.5 2.8 3.5 2.8 3.5

K-PLS2-86 K-PLS2-116 K-PLS2-86 K-PLS2-116 K-PLS2-86

20 20 20 20 20 15

98 100/120 or 50/60 94 93 110 118 114 113

K-ECA46

K-PLS2-116 20

N40 1

200

3.5

K-PLS2-150 30

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 50 Hz area 60 Hz area 2 200V 4 200V Full wave Half wave 6000 cycles/min 3000 cycles/min 7200 cycles/min 3600 cycles/min

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 57 to 59.

310 345

260

260

Remarks

295

Specifications and dimensions of bowl feeder

N40 A NTN parts feeder

K - N 40 R A M 2

Voltage and drive system Bowl mounting type Design revision code Supplying direction (R: clockwise, L: counterclockwise) Size Model

N

K-N40 R AM 2 L 4

30 °

15°

series

K-N40 R AH 2 L 4

K-N40 R AF4 L

15°

12-M6 Tapped

60

°

15 430 6- 9 Thru P.C.D400 250 290 350 (662+40 ) 0

P.C.D320 R45 R90 25 3-Hex.bolt M16 452 -0.15 300 -0.05 Bowl mounting face 2.5

227 0 272 +40

227 272 +40 0

K-PB-N401

0 45+40

4-M10 Tapped Rubber insulator hole 00 .D5 P.C 530

Area A

K-N40 R AT 2 L 4

334 227 21 272 +40 0 (375+40) 0

Details of area A Hex.bolt M16 K 45+40 0 100

2-M6 Tapped Controller Free set base dimensions (top view)

48

Rated Model and size Part number voltage V K-N40RAM2 L K-N40RAM4 L K-N40RAH2 L K-N40RAH4 L K-N40RAT2 L K-N40RAT4 L K-N40RAF4 L

1 Rated Leaf spring current A Applicable controller Applicable leaf spring angle

0 45 +40

Vibration frequency (Hz)

Mass kg w/ free set base 88 96 92 91

Remarks basic type w/ aux. hopper in the bowl w/ isolated bottom w/ bowl mounting flange

N40 A

2

200

2.8 3.5 2.8 3.5 2.8 3.5

K-ECA46

K-PLS2-86 K-PLS2-116 K-PLS2-86 K-PLS2-116 K-PLS2-86

20 20 20 20 20

1

15

100/120 or 50/60

K-PLS2-116 20

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 57 to 58. 2 40.A will be supplied with three height adjusting bolts (M16 100) and three clamps (K-P0801).

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 50 Hz area 60 Hz area 2 200V 4 200V Full wave Half wave 6000 cycles/min 3000 cycles/min 7200 cycles/min 3600 cycles/min

45 +40 0 P0801

227 0 307 +40

45+40 0

35 (3)

420 365-0.1 -0.5

Bowl mounting face

P.

10 0

C. D3 50

Specifications and dimensions of bowl feeder

G50 NTN parts feeder

K- G 50 R 1 T 4

Voltage and drive system Bowl mounting type Design revision code Supplying direction (R: clockwise, L: counterclockwise) Size Model

G

K-G50 R 1T4 L

series

K-G50 R1G4 L

12- 9 P.C.D525 12- 9 P.C.D525

K-G50 R 1M4 L

Slot for 4-M12 3° P.C.D400

30°

575 541

Bowl mounting face 575 25

20

560 600

320 P.C.D610 70

20

( 410

20

580)

340

410

20

70

70

20

320

640

6-M10 Rubber insulator part Controller 3- 17

Free set base dimensions (top view)

Model and size Part number

2

Rated voltage V 200

1 Leaf spring Rated current A Applicable controller Applicable leaf spring angle

Vibration frequency (Hz)

Mass kg 220 190 185

Remarks w/ isolated bottom and drain oil chute w/ mounting adapter basic type (w/o isolated bottom and adapter)

G50

K-G50R 1T4 L K-G50R 1G4 L K-G50R 1M4 L

1

4

K-ECA46

K-PLS2-180 40

20

50/60

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 60. 2 G50 will be supplied with three height adjusting bolts (M16 100) and three clamps (K-P0801).

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 50 Hz area 60 Hz area 4 200V Half wave 3000 cycles/min 3600 cycles/min

390

20

20

15°

3-Hex.bolt M16 541

Bowl mounting face

15°

3-Hex.bolt M16 ( 575) 440 -0.3

-0.1

3-Hex.bolt M16 Bowl mounting face

P. C. D4 00

Specifications and dimensions of bowl feeder

G63 NTN parts feeder

K- G 63 R 2 T 4

Voltage and drive system Bowl mounting type Design revision code Supplying direction (R: clockwise, L: counterclockwise) Size Model

G

K-G63 R 2T4 L

series

K-G63 R 2G4 L

780

(11

K-G63 R 2M4 L

8-Hex. bolt M10 (324) 780

(220)

12- 9 Thru P. C. D 525 Bowl fixture

25

0)

Drain oil chute

Mounting face of bowl mounting adapter

16 388 4-M10 Tapped thru

8 48

780

475 (25) 534 560 570

Mounting face of bowl mounting adapter

428

16

388

428

Controller Baseplate dimensions (top view)

Model and size Part number K-G63 2T4 K-G63R2G4 L K-G63R2M4 L

R L

Rated voltage V 200

Rated Leaf spring Applicable controller Applicable leaf spring current A angle 10 K-ECB96 K-PLS2-250 70 20

1

Vibration frequency (Hz)

Mass kg 400 370 360

1

G63 2

50/60

w/ isolated bottom and drain oil chute w/ mounting adapter basic type (w/o isolated bottom and adapter)

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination table in page 61.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 50 Hz area 60 Hz area 4 200V Half wave 3000 cycles/min 3600 cycles/min

48 8

Remarks

416

Bowl dimensions and specifications

NTN parts feeder

K- B 10 R C 14 01

Bowl suffix Bowl outer dia. Bowl type (C: cascade, D: dish, Z: straight wall, K: cone) Supply direction (R: clockwise, L: counterclockwise) Size Bowl type code

Cascade bowl (1)

K-B10 RC1201 L

A

D

D

K-B10 R C1401 L

A

B

C

C

8.5 50

8.5 50 E

K-B10 RC1403,1501,1502,1701 L L K-B14 RC1801,2001

A

D

K-B16RC2101 K-B16 RC2601 L

A D

B 9 120 150 E

C

8.5 50 E

B

Specifications Part number K-B10R C1201 1 L K-B10R C1401 12 L K-B10R C1403 12 L K-B10R C1501 1 L K-B10R C1502 12 L K-B10R C1701 12 L K-B14R C1801 1 L K-B14R C2001 1 L K-B16RC2101 K-B16R C2601 L

A 120 140 145 150 150 175 188 200 225 260

Dimensions mm B C D 30 4.0 8.8 40 6.0 11.0 35 6.0 11.0 34 4.3 9.3 34 3.2 9.2 40 13.6 7.8 32 12.0 6.0 18.0 65 10.0 18.0 56 4.3 30.0 77 19.0

E 120 100 100 116 116 138 120 120 170 202

Turns Material 3.0 3.0 3.0 3.0 3.0 2.3 1.5 3.0 2.0 1.5 A R A R A R A R A R A R A R A R AR AR

Mass kg 0.47 0.38 0.48 0.55 0.52 1.00 1.20 1.80 1.10 1.70

Standard capacity Applicable unit, remarks R

0.07 0.10 0.10 0.09 0.09 0.12 0.15 0.22 0.22 0.40

K10

w/ outer apron

2-tracks For conventional Part No. K10·A HF14 For high-frequency K14 2-tracks K16

1 The Al alloy bowl is precision machined. 2 Part Nos. C1401, C1403, C1502, C1701 and C2101 are manufactured on special order.

C

B

Specifications and dimensions of bowls

NTN parts feeder

K- B 25 R C D 39 1

Cascade bowl (2)

K-B25 R CD L K-B40 R CD L

A D D

Design revision code Bowl outer dia. (rounded off to cm) Bowl bottom type (D: no-bottom(isolated bottom type), F: integrated bottom, B: w/ fixed bottom) Bowl type (C: cascade, D: dish, Z: straight wall, K: cone) Supply direction (R: clockwise, L: counterclockwise) Size Bowl unit code

K-B63 RCD83 L

A

C

C

B

F

E

8P.C.D 186 P.C.D 320 B25 B40 12

7

B25 7 B40 P. C. D 525

12-M8 Tapped

F

E

B 15 B 15

K-B25 RCB L K-B40 RCB L

A D M12 Tapped D

K-B63 R CB83 L

A

C

E

B

F

C

8 P. C. D 186 P. C. D 320

Height of outlet

7

B25 P. C. D 525

B25 B40

12

7 B40

12-M8 Tapped

Specifications Part number K-B25 RC D 33 L B K-B25 RC D 39 L B K-B25 RC D 391 L B K-B40 RC D 54 L B K-B40 RC D 58 L B K-B40 RC D 64 L B K-B40 RC D 641 L B K-B63 RC D 83 L B

A 330 396 396 540 588 640 640 830

Dimensions mm B C D E 82 32 20 105 98 40 32 129 121 151 40 671 32 120 32 50 162 160 210 60 871 40 148 50 64 203 186 241 64 1121 50 160 68 230 90

F 73 89 92 111 130 139 141 140

Turns Material 2.0 2.0 2.0 2.0 2.0 2.0 2.0 1.5 AR AR AR AR AR AR AR AR

Mass Approx. capacity up Applicable unit, remarks kg to the first step R 1.6 2.5 2.5 4.5 8.0 10.0 10.0 22.0 1.5 2.5 2.5 5 7 9 9 20 N25 Steep steps Steep steps Steep steps G50 1, G63 2

N40

1 The lead of the last turn of the track.

F

E

Bowl specifications and dimensions

NTN parts feeder

K- B 25 R S D 39 1

Design revision code Bowl outer dia. (to nearest cm) Bowl bottom type (D: no-bottom (isolated bottom), F: integrated bottom, B: w/ fixed bottom) Bowl type (C: cascade, D: dish, Z: straight wall, K: cone, S: stainless steel cascade) Supply direction (R: clockwise, L: counterclockwise) Size Bowl Code

Cascade bowl (3)

K-B25 R SD L K-B40 R SD L

A D D

K-B63 R SD83 L

A

C

B

C

E

F

8 P.C.D 186 P.C.D 320 B25 B40 12

7 7

B25 B40 P.C.D 525

12-M8 Tapped

F

E

B 15

K-B32 R SD491 L

A D

C

6 P.C.D 250

9

Height of outlet

Specifications Part number K-B25 RSD39 L K-B25 RSD391 L K-B32 RSD491 L K-B40 RSD54 L K-B40 RSD58 L K-B40 RSD64 L K-B40 RSD6412 L K-B63 RSD832 L A 390 390 496 538 582 636 636 828

Dimensions mm B C D 40 32 137 157 40 671 32 55 36 182 32 50 168 217 60 871 40 50 64 210 246 64 1121 50 68 227 90

F

E

B

E 99 119 136 121 161 149 185 160

F 97 127 137 146

Turns Material 2.0 2.0 2.0 2.0 2.0 2.0 2.0 1.5 SUS SUS SUS SUS SUS SUS SUS SUS

Mass Approx. capacity up Applicable unit, remarks kg to the first step R 4.3 4.4 10.2 10.0 12.0 14.0 15.2 30.1 2.5 2.5 3.7 5 7 9 9 20 N25 N32 Steep steps Steep steps G63 2 Steep steps

N40

1 The lead of the last turn of the track. 2 Part Nos. SD641 and SD83 are manufactured on special order.

Bowl specifications and dimensions

NTN parts feeder

K- B 25 R S F 39 1

Design revision code Bowl outer dia. (to nearest cm) Bowl bottom type (D: no-bottom (isolated bottom type), F: integrated bottom, B: w/ fixed bottom) Bowl type (C: cascade, D: dish, Z: straight wall, K: cone, S: stainless steel cascade) Supply direction (R: clockwise, L: counterclockwise) Size Bowl code

Cascade bowl (4)

K-B20 R S3201 L

D A D

K-B32 R SF49 L

A

E 6-M8 Tapped F

13

C

E

B

130 190

231 P.C.D 280 298

K-B25 RSF L K-B40 RSF L

A D

K-B63 R SF83 L

A D M12 F

C

E

B

13

226 B25 366 B40 P.C.D250 B25 P.C.D400 B40

Height of outlet

8-M6 B25 6-M8 B40

504 536 566

Specifications Part number K-B20 R S3201 L K-B25 R SF39 L K-B25 R SF391 L K-B32 R SF49 L K-B40 R SF54 L K-B40 R SF58 L K-B40 R SF64 L K-B40 R SF641 L K-B63 R SF83 L A 320 390 390 496 538 582 636 636 828

Dimensions mm B C D E 108 34 25 73 131 40 32 93 151 40 671 32 113 182 55 36 136 165 50 32 118 212 60 871 40 156 207 64 146 50 243 64 1121 50 182 277 90 210 68

F

Turns Material 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 1.5 SUS SUS SUS SUS SUS SUS SUS SUS SUS

Mass Approx. capacity up Applicable unit, remarks kg to the first step R 3.1 4.7 4.8 13.2 12.5 14.5 16.0 17.0 42.1 1.3 2.5 2.5 3.7 5 7 9 9 20 K20 N25 N32 Steep steps Steep steps G63 2 Steep steps

91 127 132 135

N40

1 The lead of the last turn of the track. 2 Part Nos. SF641 and SF83 are manufactured on special order.

15

E B

18 C

M16

B 20

13

M12

C

Bowl specifications and dimensions

NTN parts feeder

K- B 25 R Z F 30 1

Design revision code Bowl outer dia. (to nearest cm) Bowl bottom (D: no-bottom (isolated bottom type), F: integrated bottom, B: w/ fixed bottom) Bowl type (C: cascade, D: dish, Z: straight wall, K: cone) Supply direction (R: clockwise, L: counter-clockwise) Size Bowl size code

Straight wall bowl (1)

K-B10 R Z1201 L K-B14 R Z2001 L L K-B16 R Z K-B20 R Z L

G A D C D

K-B25 R ZF L

A

13

M12 B F

C

13 B20

B

9

8-M6 15 Hex. bolt

P. C. D250 275

E F

K-B25 R ZD L K-B32 R ZD401 L

A D A

K-B32 RZF401 L

D

B

B

M12 13 C

E

C

8- 7 B25 6-M8 Tapped 10 231 P. C. D 280 298 6- 9.5 B32

166 B25 231 B32 P.C.D186 B25 P.C.D250 B32 220 B25 298 B32

Specifications Part number K-B10 R Z1201 L K-B14 R Z2001 L K-B16 R Z2301 L K-B16 R Z23021 L K-B16 R Z2501 L K-B20 R Z2801 L K-B20 R Z3003 L K-B25 R Z D 301 L F K-B25 R Z D 3011 L F K-B25 R Z D 3021 F L K-B25 R Z D 35 F L K-B25 R Z D 3511 F L K-B25 R Z D 352 L F K-B25 R ZD3541 L K-B32 R ZD401 L K-B32 R ZF401 L

D F

Dimensions mm A 120 200 234 234 250 280 300 304 304 304 354 354 354 354 400

D F

B 45 55 65 55 65 75 85 85 85 110 100 100 125 135 140

D F D F

C 13 23 28 20 30 33 36 36 30 36 42 35 42 42 48

D 10 20 20 15 20 25 25 25 20 25 30 30 30 30 40

E 50 80 80 80 80 130 130 95 95 120 106 106 131 141 148 143

F 100 130 150 150 150 190 200 116 116 141 128 128 153

G

Turns Material 2.0 1.5 1.5 2.0 1.5 1.5 1.5 1.5 2.0 2.0 1.5 2.0 2.0 2.5 2.0 SUS SUS SUS

Mass kg 0.7 1.6 2.2 2.0 2.3 3.1 3.9 4.8 4.9 5.4 6.0 6.1 6.7 6.2 10.0

Standard capacity Applicable unit, remarks R

SUS

91 91 116 103 103 128

SUS

0.07 0.35 0.45 0.40 0.60 1.20 1.70 1.80 1.60 1.80 2.80 2.20 2.80 2.80 4.00

K10 K14 K16

K20

Low lead, 2-tracks Standard lead, 2-tracks N25 Low lead, 2-tracks Standard lead, 2-tracks Standard lead, 2.5-tracks N32

SUS

1 Part Nos. Z2302, Z 30, Z 301, Z 302, Z 351 and ZD354 are manufactured on special order.

E

200 B25 270 B32

Bowl specifications and dimensions

NTN parts feeder

K- B 40 R Z F 45 2

Design revision code Bowl outer dia. (to nearest cm) Bowl bottom (D: no-bottom (isolated bottom type), F: integrated bottom, B: w/fixed bottom) Bowl type (C: cascade, D: dish, Z: straight wall, K: cone) Supply direction (R: clockwise, L: counterclockwise) Size Bowl code

Straight wall bowl (2)

K-B40 RZF L

A D D

K-B40 R ZD L

A

13 G C

M12 B F C

336 B 301 12 7 P. C. D320 360 E F

6

M8 20

P. C. D400 420

Hex.bolt

K-B50 R ZF651 L

A D D

K-B63 R ZF75 L

A

G B C

C

Bowl mounting face

15

440.5 448

8-M12 Tapped 22 P. C. D400

536 566

Specifications Part number K-B40 RZ D45 L F K-B40 RZF4511 L K-B40 RZF4521 L K-B40 RZ D50 L F K-B40 RZF5011 L K-B40 RZF5021 L K-B40 RZD5031 L K-B40 RZF55 L K-B40 RZF601 L K-B50 RZF6511 L K-B63 RZF751 L A 454 454 454 504 504 504 504 554 604 655 755 B 130 130 160 140 140 175 195 150 170 193 220

Dimensions mm C D E 56 40 139 46 40 56 40 62 45 145 52 45 62 45 62 45 200 68 50 74 55 80 65 85 70

F 175 175 205 182 182 217 188 204 270

G 140 140 170 147 147 182 153 169 190

Turns Material 1.5 2.0 2.0 1.5 2.0 2.0 2.5 1.5 1.5 1.5 1.5 SUS SUS SUS SUS SUS SUS SUS SUS SUS SUS SUS

Mass kg 12.0 12.2 13.0 13.0 13.2 14.0 13.0 14.0 16.0 30.0 48.0

Standard capacity Applicable unit, remarks R

5.0 4.0 5.0 7.0 6.0 7.0 7.0 10.0 13.0 17.0 25.0

Low lead, 2-tracks Standard lead, 2-tracks N40 Low lead, 2-tracks Standard lead, 2-tracks Standard lead, 2.5-tracks

G50 1 G63 2

1 Part Nos. ZF451, ZF452, ZF501, ZF502, ZD503, ZF60, ZF651 and ZF75 are manufactured on special order.

17

B

Bowl specifications and dimensions

NTN parts feeder

K- B 25 R K D 35

Bowl outer dia. (to nearest cm) Bowl bottom (D: no-bottom (isolated bottom type), F: integrated bottom, B: w/ fixed bottom) Bowl type (C: cascade, D: dish, Z: straight wall, K: cone) Supply direction (R: clockwise, L: counterclockwise) Size Bowl code

Cone bowl

Manufactured only on special order.

K-B16 R K2601 L

A D

K-B25 R KF35 L

A D 13 C M12

K-B25 R KD35 L

A D 200 F C

B

C

B

B 53 B 55

55 9 193

53 P. C. D250 275

8 M6 15 Hex. bolt

166 8 7 P. C. D186 220 275

K-B40 R KF55 L

A D 13 C

K-B40 R KD55 L

A D

B

12 55

F

C

301 6 M8 Hex. bolt 20 P. C. D400 420 12 7 P. C. D320 360 420

Specifications Part number K-B16 RK26011 L K-B25 RKF351 L K-B25 RKD351 L K-B40 RKF551 L K-B40 RKD551 L A 260 355 355 555 555 B 75 90 90 135 135

Dimensions mm C D E 20 30 30 40 102 30 40 35 50 35 146 50

F 123 182

Turns Material 1.5 1.5 1.5 1.5 1.5 SUS SUS SUS SUS SUS

Mass kg 2.0 4.5 2.5 10.0 7.0

Standard capacity Applicable unit, remarks R

0.6 1.5 1.5 5.0 5.0

K16 N25 F N25 N40 F N40

1 Manufactured only on special order.

E

336

E

Bowl specifications and dimensions

NTN parts feeder

K- B 40

D F 64 1

Design revision code Bowl outer dia. (to nearest cm) Bowl bottom (D: no-bottom (isolated bottom type), F: integrated bottom, B: w/ fixed bottom) Bowl type (C: cascade, D: dish, Z: straight wall, K: cone) Supply direction (R: clockwise, L: counterclockwise) Size Bowl code

Dish bowl

K-B10 RD1301,1402,1701 L

A

K-B16D2801

C

D

45

A

B

B

8.5 50 E 80 E

9

K-B10 RD2001 L K-B14 RD2002 L

A

K-B25DF42 K-B40DF64,641

D

B

B P. C. D250 B25 P. C. D400 B40 E

8.5 50 E

Specifications Part number K-B10 RD1301 1 L K-B10 RD1402 12 L K-B10 RD1701 12 L K-B10 RD2001 12 L K-B14 RD2002 1 L K-B16D2801 K-B25DF42 2 K-B40DF64 2 K-B40DF641 2

A 134 148 178 204 204 280 420 640 640

B 32 38 60 60 60 71 80 97 150

Dimensions mm C D 10 1.0 12 1.0 14 3.7 30 1.5 31 1.5

E 100 110 100 124 127 150 281 446 466

F

Turns Material 3.0 2.7 5.0 2.1 2.0

Mass kg

Standard capacity R

Applicable unit, remarks

113 142 195

AR alloy 0.44 AR alloy 0.49 AR alloy 0.84 AR alloy 1.3 AR alloy 1.5 SUS 1.7 SUS 4.0 SUS 13.0 SUS 18.0

0.06 0.08 0.20 0.20 0.20 0.35 1.20 3.50 5.00

K10

w/ overhang For K-10 A K14 K16 N25 F N40 F

1 Aluminum alloy bowl is precision machined. Since the standard stainless steel dish bowl does not have any tracks, the R/L code is not required. 2 Part Nos. D1402, D1701, D2001, DF42 , DF64 and DF641 are manufactured on special order.

F

C

45

A

Dimensions and specifications of linear feeders

S05,08,10 NTN parts feeder

K- S 10 B 1

Voltage and drive system Design revision code Size Model

S

K-S051 1 2 K-S05A 1 2

1

series

15 Lead wire

25

K-S10B 1 ,S10C 1 2 2

1

1 2

10 29

15

40 4-M4 Depth 8 100 60 250 80 max.

Vibratory trough

1

280

2

1

Loosening the four M6 nuts allows dimension 1 to be adjusted up to 10 mm in the feed direction. Loosening the two M10 setscrews allows the counterweight to be adjusted. It can be moved up to 20 mm in the forward direction and up to 30 mm in the rearward direction relative to the position shown here.

19

Counter-weight

Feed direction

50 65

1

140 110 11

11

11

50

3

96

46

12

4 (slot) 37

2

45

120 90

67

1 17 2 Position adjustment bolts for vibrating section

123 Max. 138 7 25

Counterweight position adjustment bolt

1

67

40

40 54 14 80 150 300 600

4-M6 Depth 14

Baseplate dimensions (top view)

44 115

50

2 Baseplate mounting slots 3

8

1

1 This dimension can be adjusted ±2 mm along the feed direction by loosening and retightening the two position adjustment bolts securing the vibrating section. 2: This dimension can be adjusted with the counterweight position adjustment bolt. 3: The height of the new design is 4 mm less than that of the conventional optional insulated mount (K-UH001). Regarding the two baseplate mounting slots, the position of the downstream slot relative to the chute mounting screws (4-M4) remains unchanged while the position of the upstream side slot in the new design differs from that of the conventional mount (K-UH001).

12

Feed direction

Vibratory trough

140 max. 90

Counterweight

64

3

93

113

110

K-S082

3

1 2

12

58

Rubber insulator 11 34 Baseplate

20 20 33.5 80

32

20

25

1

15

1

Vibratory trough

190 240 4-Nut M6

2

13.5

250 120

300 100 max. Counter-weight

(13) (with 4 leaf springs)

40

1 2

4-M5 Depth 15

1

40

Feed direction

2-Setscrew M10

Baseplate dimensions (top view)

10 (slot)

1

25 20 6.5

96

240 190

50

12

45

25

75 199 2 Max. 224 2 Position adjustment bolts for vibrating section 7 8 Counterweight position adjustment bolt

Baseplate dimensions (top view) 50 190 120

1 This dimension can be adjusted ±2 mm along the feed direction by loosening and retightening the two position adjustment bolts securing the vibrating section. 2: This dimension can be adjusted with the counterweight position adjustment bolt.

Model, Rated Rated Part number size voltage V current A K-S0511 K-S0512 K-S05A1 K-S05A2 K-S0821 K-S0822 K-S10B1 K-S10B2 K-S10C1 K-S10C2 100 200 100 200 100 200 100 200 100 200 0.10 0.05 0.10 0.05 0.20 0.10 0.40 0.20 0.40 0.20

Applicable 1 controller

Applicable leaf spring

Vibration Leaf spring frequency Vibratory trough angle (Hz) Length mm Mass kg

15

32

65

64 140 23

Machined surface (for mounting the stay)

120

34

60

Lead wire

Use of vibratory trough mount (K-T101) is recommended.

Mass kg 1.3

Remarks Insulated type Fixed type Insulated type w/ baseplate w/o baseplate

S05

K-EG117 K-ECA46 2

250 K-PLS2-35 5 15°

1

0.4 0.4

S08

100/120

300

1.2

2.4 7 5.5

S10

K-EG177 K-ECA46

2

K-PLS4-40 6

12°

600

2.5 50Hz 2.0 60Hz

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination list. 2 Part No. K-ECA46 accommodates vibratory driving units rated at 200 V.

Linear feeder dimensions and specifications

S20,30 NTN parts feeder

K- S 20 C 2

Voltage and drive system Design revision code Size Model

S

30 45 160 135 95 64 58 33

series

K-S20B1 ,S20C 1 2 2

570 185 155 13 12 550 43 140 69 310 83 15 95 92

200 160

120

115

80 80 210 400 800

6-M6 Depth 14

35 71 36 80 130 130 330 600 1100 Feed direction

Vibratory trough

6-M8 Depth 15

Feed direction

Vibratory trough

15°

15°

150

140 (120)

12 76 128

Counter weight

Rubber insulator

12

(14)

(with 8 leaf springs Base plate dimensions (top view)

70

310 4-Nut M6 310 270

20 7 20

(22) 390 100 (with 4 leaf springs) 172 490 50 M8 hexagon socket head cap screw

31

(80)

2-Setscrew M10 30

70

Baseplate

Base plate dimensions (top view)

70

95 160

50 10

490 390

45

90 32

246 350

1 Loosening the four M6 nuts allows dimension 1 to be adjusted up to 10 mm in the feed direction. 2 Loosening the two M10 setscrews allows the counterweight to be adjusted. It can be moved up to 10 mm in the forward direction and up to 30 mm in the rearward direction relative to the position shown here.

1 Loosening the four M8 nuts allows dimension 1 to be adjusted up to 20 mm in the feed direction. 2 Loosening the two M10 setscrews allows the counterweight to be adjusted. It can be moved up to 10 mm in the forward direction and up to 65 mm in the rearward direction relative to the position shown here.

Use of a vibratory trough mount (K-T201

for S20, K-T301

for S30) is recommended.

Model, Rated Rated Part number size voltage V current A K-S20B1 K-S20B2 K-S20C1 K-S20C2 K-S30B4 K-S30C4 100 200 100 200 200 1.0 0.5 1.0 0.5 0.9

Applicable 1 controller

Applicable leaf spring

Leaf spring angle

Vibration frequency (Hz)

Vibratory trough Length mm Mass kg 800 5.0 50Hz 3.5 60Hz

20

104 185 25.5

13

40

Machined surface (for mounting the stay)

Machined surface (for mounting the stay)

Mass kg 14

120

200

Remarks w/ baseplate w/o baseplate w/ baseplate w/o baseplate

S20

K-EG117 K-ECA46 2

K-PLS4-70 12 15° K-PLS4-86 15

100/120

11.5 41 33

S30

50/60

1100

15 60Hz

1 The applicable controllers in the list above are typical ones. For other applicable controllers, refer to the standard series combination list. 2 Part No. K-ECA46 accommodates vibratory driving units rated at 200 V.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 50 Hz area 60 Hz area 1 100V 2 200V 4 200V Full wave Half wave 6000 cycles/min 3000 cycles/min 7200 cycles/min 3600 cycles/min

19

270

48

70 Baseplate 2-Setscrew M10 53

(40)

131 211

215 (184)

Counter weight

110

80

20

Rubber insulator

Linear feeder dimensions and specifications

HS05,07,L20 NTN parts feeder

K- HS 05 2 1

Voltage and drive system Design revision code Size Model

HS

20.8 20 15 6 14.8 100 100 Feed direction Vibratory trough 88 2 250

series

L type

K-HS0711

25 315 5 22 28 24 9 16 9

K-HS0521 high-frequency

112 80 40

high-frequency

123 90 45 25 332 70 105 8 42 47.2 50 50Hz 36 60Hz 27 85

4-M3 Tapped

6-M5 Tapped

200 300 45 max. Feed direction 60 max.

Vibratory trough

Height adjustment screw

110 Height adjustment screw 8-M6 10 70

K-L20 1 2

600 max. 160 50 Feed direction Vibratory trough 70 160 10 C/G of vibratory trough 10

2

100

100 400

100

105 100

320

37 285 M6 6

Vibration frequency Hz

12.5

Model, Rated Rated Part number size voltage V current A HS05 HS07 L20 K-HS0521 K-HS0711 K-L201 K-L202 100 100 100 200 0.16 0.5 1.0 0.5

Applicable 1 controller K-EC118 K-EG177

Applicable leaf spring K-PLS2-35 9 K-PLS4-40 6 K-PLS2-67 15

Leaf spring angle 10° 0°

Vibratory trough Length mm Mass kg 0.3 250 200 300 300 0.6

1

Mass kg 1.1 2.5 8.0

5

Remarks w/ isolation mount using leaf springs Rubber insulator

600

5.0 50Hz 4.0 60Hz

1 The applicable controllers in the list above are typical examples. For other applicable controllers, refer to the standard series combination table.

1 Relation between voltage/drive system and vibration frequency Voltage and drive system 50 Hz area 60 Hz area 1 100V 2 200V Full wave 6000 cycles/min 7200 cycles/min

Vibratory trough mount, auxiliary vibrator

Vibratory trough mount

K-T081

Mass: 0.07 kg

Material: Aluminum casting

K- T 10 1

Vibratory trough type Size Vibratory trough code

60 20

120 80 16 4

K-T201

Mass: 0.85 kg

Material: Aluminum casting

500 190 29 4 210 25 80 80 64 93 6-7 Drill Thru 190 4 40 206 850 370 330 35130 130 80 98 120 128 128 158 (8) B A 55 25 A B 158 A A 6-9.5 Drill Thru B1 G C1 F Tapped mounting hole I

2-5.5 Drill Thru

70 10 12 3 7 14 4

80 240

70

4-3.5 Drill Thru 42 15 10 E 8

25

K-T101

Mass: 0.3 kg

Material: Aluminum casting

120 40

150 80 40 55

K-T301

Mass: 3.0 kg

Material: Aluminum casting

7 65 A-A 100 10 25 20 330 B-B 5 10 50

98 7

110

100

4-4 Drill Thru 4-7 Drill Thru

24 65

7

Auxiliary vibrator

K- M 05 1 / M1 3

Control capacity Control function (including shape) Voltage/drive system Size Type code A

D

Tapped mounting hole H

An auxiliary vibrator, to be installed on the back of the vibratory trough, generates minute vibrations to help those pieces that are prone to jam on the vibratory trough to feed smoothly. The auxiliary vibrator is also handy for various other vibration applications.

Cord outlet

Vibration direction

Specifications Part number K-M051 /M13 2 K-M101 /M13 2 A 72 90 B1 C1 68 93 92 120

Dimensions mm D E F G H 27 22 2-M6 10 30 60 9 60 2-M8 15

I 2-M8 15

Approx. mass of Approx. mass vibratory trough of controller kg kg

Rated voltage Rated current V A 200 100 0.2 0.4 0.5 1.0

1.2 3.7

0.8 0.8

1 Does not include dimensions of cover mounting screws.

Hopper dimensions and specifications

V7,V01 NTN parts feeder

12

K- V 01 S 4/ G1 7

Control capacity Control function (including shape) Voltage and drive system 1 Tank material (S: stainless steel) Storage capacity Type code

Detached hopper

K-V7S2 3 4

Vibratory trough

K-V01S 3 4

Vibratory trough

V12S4

I

A A L40 40 5 V01 08 L50 50 6 V12

C

Level switch C

D2

E3 4-

L30

30

3.2 E3

10 412 mounting hole

H

B

D2

I

G

F

G

F

The tilt angle of the vibratory trough is adjustable within the range 0°-10°.

The tilt angle of the vibratory trough is adjustable within the range 0°-10° (V03, 04, 06, 08) or 5°-15° (V01, 12).

Specifications Part number K-V7S2 3 /G17 4 K-V01S 3 /G17 4 K-V03S 3 /G17 4 K-V03S13/G17 4 K-V04S 3 /G17 5 4 K-V04S13/G17 5 4 K-V06S 3 /G17 4 K-V06S13/G17 4 K-V08S 3 /G17 5 4 K-V08S13/G17 5 4 K-V12S4/G17 5 A 220 350 400 400 400 400 500 500 500 500 640 B 260 385 435 435 435 435 505 505 505 505 635 C 514 735 735 735 860 860 1 017 1 017 1 127 1 127 1 186

Dimensions D2 E3 286 333 435 542 418 570 417 670 418 570 417 670 574 721 574 771 574 721 574 771 596 852

mm F 20 40 50 50 50 50 50 50 50 50 70

G 180 270 300 300 300 300 400 400 400 400 500

H 240 350 400 400 400 400 470 470 470 470 590

I 100 185 225 225 225 225 270 270 270 270 380

Tank Max.work Approx. Rated capacity input mass mass voltage R (kg) kg V

Rated current A

H

B

Tank Vibratory trough material material SUS

7 15 30 30 45 45 60 60 80 80 120

20 50 100 100 100 100 120 120 120 120 120

12 55 65 70 68 73 80 85 84 90 200

0.2(0.4)

200 (100)

1.0 (3.2)

A 5 R SUS4 casting (as cast)

200

2.0

1 The code "4" of the voltage/drive system in the part number means 200 V, full wave, and "3" means 100 V, half wave. The 100 V variants of V03 through V08 are available by special order. 2 The dimension D is corresponds to the vibratory trough set to horizontal position. 3 The dimension E will vary according to the adjusted angle of the vibratory trough. The quoted dimension is the minimum value. 4 Polyurethane-coated tanks and vibratory troughs are available upon request. 5 Part Nos. V04, V08 and V12 are manufactured on special order.

Hopper dimensions and specifications

SV1,3,01,03,06 NTN parts feeder

K- SV 01 S 4/ G1 7

4

Space-saving hopper

K-SV1S4

Outlet width of vibratory trough 55

Control capacity Control function (including shape) Voltage/drive system 1 Tank material (S: stainless steel) Storage capacity Type code

SV3S4

360 ° ro tata ble

K-SV01S 3 4

Outlet width of vibratory trough G

SV06S4

ot °r ata ble

36

0

Level switch K-UE017 (sold separately) Tank

83

(298) 219

(124)

110

Max. C D E

1

HS 55 Frame

B 65 Tank

1

192

Vibratory trough

B

F

Vibratory trough

5

Outlet height of vibratory trough H

Outlet height of vibratory trough C

I1 Bowl

J

0

10°

1

A Controller Base 90

Frame

25

Supporter

Supporter

A 30

130 130 180

100

75

3- 14 (for M12) (25) 90

90

(218)

4- 14 Thru (for M12)

Base part dimensions (top view)

K SV01 SV03 Base part dimensions (top view)

K SV06 Base part dimensions (top view)

Part number K-SV1S4 K-SV3S4 Part number K-SV01S3/G17 K-SV01S4/G17 K-SV03S3/G17 K-SV03S4/G17 K-SV06S4/G17

Dimensions mm A B C1 310 400 233 155 245 400 490 323

1

Tank capacity R

Max.work input mass (kg)

Mass kg 5.6 6.5

1

Rated voltage V

Rated current mA

Tank Vibratory Applicable controller trough material material (variable frequency) SUS2 SUS2 K-ECA464

1.5 3

1

6 8

1

200

80

A 760 810

905 975

B 340 390 510

C

D 380 480 585

E 300 400 480

F

G 180 218 270

H

I

J

Tank Max.work capacity input mass R (kg)

500 600 720

315 365 430

335 465

520 590

305 40 315 445 50

15 30 60

40 80 160

Mass Rated Rated Tank Vibratory trough kg voltage current material material V A 100 1.7 34 200 0.9 SUS2 SUS2 100 1.7 40 200 0.9 200 68 1.5 50 Hz area 60 Hz area 3600 cycles/min

1 The dimensions in the diagram correspond to a vibratory trough tilt angle of 10°.

1 Relationship between voltage/drive system and vibration frequency Voltage and drive system

2 Polyurethane-coated tanks and vibratory troughs are available upon request.

3 The stay of Model SV06 does not protrude from the top of the frame. 4 The applicable controller (K-ECA46) cannot be mounted to the stay.

3 100V Half wave 3000 cycles/min 4 200V

180

36

4- 9 (for M8)

(R172)

R2

60

5

(21)

SV01

A

(167)

36

15°

SV06

03

Level switch

3

Hopper dimensions and specifications

NTN parts feeder

NTN parts feeder

Automatic auxiliary hopper

300 Air tube Aux. hopper Max. 25 mm movable Inside: stainless steel plate Work quantity check lever E Pneumatic level switch K-UE013

Rotary hopper

A

B

Depth H D C

G

700 550

45 Bowl Bowl feeder F Mounting stay I

400

Dimensions

Part number

Diagram shows K-UV021.

K-UV001 118 130 170 75 290 220 55 118 K-PZ0509

K-UV002 150 172

K-UV003 182 214 250

K-UV004 222 264

A Dimensions mm B C D E F G H Mounting stay I

Part number Applicable unit Hopper capacity R Max. load kg Air pressure MPa Applicable unit part number

K-UV021

K-UV022 N25 7

K-UV023 1

100 400 320 92 174

150 430 400 115 208

180 470 520 145 252 K-PZ0090

3 9 air pressure 0.3 to 0.5 MPa. 0.3 0.5 3 5kgf/cm2 K-N25 R M 1 L 2 K-N25 RAM 1 L 2 K-N25 K-N25 R A H 1 L T 2

When using in place of auxiliary hoppers in the bowl or units with isolated bottoms.

RH 1 LT 2

K-PZ0505

Specifications

Part number Max. drum capacity P Max. load kg Drum speed 50Hz rpm 60Hz Rated voltage V Power 50Hz consumption 60Hz W Discharge rate P/min 2

Max. allowable work piece size mm

K-UV001 300 1 6.7 8

1

1

1

K-UV002 600 2 8 9.6

K-UV003 1200 4 7.5 9

K-UV004 2400 8 8.3 10

Remarks

When used with When used with round base freely settable standard units. base standard units.

All bowls are isolated bottom type. 1 Automatic auxiliary hoppers can not be retrofitted to your NTN parts feeder. If considering retrofitting, consult NTN Engineering.

100 3 3 2 5 A2024 3 5.3 5.3 10 7 AC4CH 15 12 8 A2024 5.5 7 18 15 6 6 20

10 AC4CH

Material as machined

1 The K-UV002 through UV004 (600 - 2,400P) are available upon a special order. 2 Discharge rate values in the list above are measured by discharging river sand at a drum angle of 45°. Some parts cannot be discharged, depending on shape. Remark 1) Using a level switch (K-UE010) (optional) that can be operated by a slight pressure together with a proximity switch enables more effective control. Remark 2) Sensor for detecting residual work pieces in the bowl (optional) can be also installed in place of K-UV001.

Isolated bottom/auxiliary hopper in the bowl/fixed bottom

Isolated bottom

K- PS - 25 L

Length of shaft 1 Size Isolated bottom code

In a case w/ hopper shaft (aux. hopper in the bowls used)

Approx. 200 mm Approx. 30 mm

An isolated bottom means a bottom that is vibrationally isolated forming the central, bottom section of the cascade bowl. Although these bottoms rotate as pieces in the bowl are rotated, they have a vibration-free construction. As a result, noise is kept very low, the rate of damaged parts fed is reduced, and feed speed is more stable. The adoption of various damping materials, such as laminated damping steel sheet, has resulted in a dramatic drop in noise level for hoppers loaded with parts. If a hopper with a particularly narrow clearance is required, please consult NTN Engineering.

Clearance A In cases w/o hopper shaft aux. hopper in the bowl not used

Specifications Part number

A mm 198.5 268 334 476

K-PS-25 L

S

K-PS-32 S L K-PS-40

S L

Bottom angle Standard Applicable Standard clearance material unit mm 1.6 15 N25 Stainless steel w/ damping material 2.0 20 N32 15 2.0 4.0 N40

Mild steel w/ stainless steel lamination

K-PS-63S

G50/G63 Al casting

1 S : short shaft, L: long shaft (for aux. hopper in the bowl)

Auxiliary hopper in the bowl

K- H 25

Size Aux. hopper code

A Knob

An auxiliary hopper in the bowl is a small hopper for storing parts for feeding; it can be fitted in the bowl using the shaft of the isolated bottom. This helps to make the feeding system more compact, since extra bench or floor space is not required, unlike conventional separate hoppers. The run-off of parts fed can be adjusted by turning the upper knob to adjust the lower clearance. Note that the auxiliary hopper is not suitable for parts that can be easily tangled or that do not slide well. For such work pieces, use the NTN hopper series.

B Clearance

Specifications Part number

Dimensions mm Applicable unit A B 300 340 430 200 230 250 N25 N32 N40

Standard material

Mild steel, stainless steel skin inside

Approx. capacity R

K-H25 K-H32 K-H40

7 12 20

Stainless steel

Mild steel, inside stainless steel skin

Fixed bottom

K- PBB - 25

Size Fixed bottom code

P. C. D.C

Hole for M6 Hex. socket bolt 4 pos. (for 25) 6 pos. (for 40) B

If an isolated bottom cannot be used together with a bottomless bowl, use a fixed bottom. The handling quality of the fixed bottom is the same as that of integrated bottom bowls.

A

Specifications Part number

Dimensions mm A B C 200 336 64 74 186 320

Applicable unit N25 N40

Standard material Polyurethanecoated Al casting

K-PBB-25 K-PBB-40

Controller dimensions and specifications

NTN parts feeder

K- E CA 4 6

Voltage and drive system Control capacity Control function (application) Controller code

Variable frequency controller

Standard type

K-ECA46 49

Mounting foot 15 7 80 160 66 116

K-ECB96

215 6.5 180

Optional unit K-UE092

35 90.5

MODEL

K-ECA46

LIMIT

110

SPEED ADJ. ON

196

210

180

OFF

V. F. CONTROLLER

JAPAN

140

STABILIZED UNIT JAPAN

6.5 66 116

6.5 Dimensions in parentheses apply to Part No. ECB96.

Control capacity A Supply voltage V

Part number K-ECA46 K-ECA49 K-ECB96

Control functions 1

30

Applicable drive unit

External control ON/OFF control with sensor operation instructions

4 12

200 100 2 200

K-series, S-series, N-series, G50 1 G63 2

1 For details of control functions, refer to page 49. For details, contact NTN Engineering. 2The supply voltage is 100 VAC; however, the output voltage is 200 VAC. Therefore, use only feeders rated at 200 VAC.

K-ECA49 K-ECA46 K-ECB96 Single-phase Rated voltage Single-phase 100V AC to 115V AC 10% 200V AC to 230V AC 10% Frequency 50/60 Hz common Voltage Single phase 0 to 200V AC (in 1-volt increments) Frequency 20 150Hz (in 0.1-Hz increments) 15 125Hz (in 0.1-Hz increments) Rated current 12A (effective value) 4A (effective value) Drive system Sine wave PWM type Service power supply DC24V 50mA DC24V 80mA Microprocessor Control Run/stop, sensor input Control input Software start / stop Yes Constant voltage Output voltage remains within 5% in the event of a ±10% function variation in supply voltage. 1 Constant amplitude function Control output Operating temperature range Protection Mass Output Run signal 2

Model

Features

¡The digital display offers voltage and frequency values, allowing the user to readily set up and reproduce an optimal amplitude. ¡Provides a full line of safety features including overload protection and ground fault protection (short-circuit to ground).

1 When output voltage setting is 170 V or lower.

Power supply

Optional unit

Model Powersupply Applicable controller Constant amplitude function Mass K-UE092 DC24V 5 Supplied from controller K-ECA46 K-ECA49 K-ECB96 Inhibits the variation in amplitude that results from the variation in load, ensuring stable feed of work pieces. An amplitude variation of -10% is limited to within 3%. 1 Approx. 0.5 kg (excluding accessories) Vibration sensor K-P1395 Unit mounting screws Screwdriver for adjustment

0 40°C Short-circuits, ground-faults, overloads, voltage drops About 2 kg About 5 kg

Accessories

1 The data in this table are typical values obtained through NTN tests at output voltages in the range of 100­170 V. The above constant amplitude performance value is not guaranteed, as constant amplitude performance can vary with adjustments to the parts feeder spring.

Controller dimensions and specifications

NTN parts feeder

K- E CC 4 6

Voltage and drive system Control capacity Control function (application) Controller code

Variable frequency controller

Multifunction types

K-ECC46

2- 7 Mounting hole Heat radiation fin 100 80 66 10 180

K-ECE96

150 130 116 10 180

2- 7 Mounting hole

MODEL

K-ECC46

MODEL

K-ECE96

MODE RESET

RUN STOP

196

210

180

DATA ENTER

SHIFT

210

196

180

SPEED ADJ.

FUSE 5A

SPEED ADJ.

FUSE 10A

MIN

MAX

MIN

MAX

POWER

POWER

ON

ON

OFF

V. F. CONTROLLER

JAPAN

OFF

V.F. CONTROLLER

INPUT:AC200-230V 10A JAPAN

30

7

2 R3.25 Mounting hole

66

Dimensions in parentheses apply to Model ECC16.

Control capacity A

6.5 Mounting hole

6.5

Part number K-ECC46 K-ECE96

Control functions1 External control ON/OFF control with sensor operation instructions constant amplitude control

Supply voltage V

Applicable drive unit S30, K20, N25, N32, N40, G50 1

4 200 10

G63 2

1 For details of control functions, refer to page 49. For details, contact NTN Engineering.

Part number Rated voltage Frequency Voltage Frequency Rated current Drive system Service power supply

15

K-ECC46 K-ECE96 Single-phase200V AC to 230V AC 10% 50/60 Hz common Single phase 0 to 200V AC (in 1-volt increments) 150Hz (in 0.1-Hz increments) 15 70Hz (in 0.1-Hz increments) 4A (effective value) 10A (effective value) Sine wave PWM type

Features

¡The constant amplitude function requires no vibration sensor. ¡The resonance point auto tracing function automatically maintains the frequency at the resonance point. ¡Driving the unit at the resonance point contributes to highly energy-efficient operation. ¡A full line of safety features is provided, including overload protection and ground fault protection (short-circuit to ground).

Control Control input Software start / stop Constant voltage function Constant amplitude function Control output Operating temperature range Protection Mass

DC24V 80mA DC24V 100mA Microcomputer-based constant amplitude control without sensor Run/stop, sensor input, speed selection Yes Output voltage remains within 5% in the event of a ±10% variation in supply voltage. 1 ±10% variation in supply voltage or work piece mass, amplitude variation is limited to within 3%. 2 Run signal, valve control, alarm signal, fault signal 0 40°C Short-circuits, ground-faults, overloads, voltage drops About 3 kg About 4.5 kg

1 When output voltage setting is 170 V or lower. 2 The data in this table are typical values obtained by NTN tests at output voltages in the range of 100­170 V. The above-mentioned constant amplitude performance value is not guaranteed, as constant amplitude performance can vary with adjustments to the parts feeder spring.

The products introduced on this page are manufactured under license from an international manufacturer. Their use in countries other than Japan might be restricted. Before ordering any of these products, contact NTN Engineering.

30

Power supply

Output

Controller dimensions and specifications

NTN parts feeder

K- E T9 1 8

Voltage and drive system Control capacity Control function (application) Controller code

SMD controller

K-ET918 (standard twin type, with metal connectors)

220 (94) 80

- - + + + +

K-EC118

(102) 140 80

- - + + +

+

100

(137) 2.3

20

10

119 100

I 0

137

46 35

128 150

11

2-

2- 6 17 3 100 134

2

K-UE410 (highly functional twin type)

31.5 238 175

MODEL VOLTS

POWER TRIP

K-UE450

25 90 73 31.5 238 175 2- 5 (95) 78 3.2

K-UE400 AC100V

LINEAR FEEDER

BOWL FEEDER

POWER TRIP

1 9 9

123

9 Hz

1 9 9

9 Hz

ON

ON

!

LINEAR FEEDER

BOWL FEEDER

135

1 9 9 . 9

150

Hz

1 9 9 . 9

Hz

170

OFF

SPEED ADJ.

3.2

JAPAN

(170) 150 135 123 96

OFF

SPEED ADJ.

SMD FEEDER CONTROLLER

96

POWER

L. F.

B. F.

VALVE

SPARE SENSOR

SMD FEEDER CONTROLLER

JAPAN

.

.

.

.

231.5 175 190 7.5

7

2- 7 31.5 175 190 7.5

Part number

Control functions 1 External control

Control capacity A

Supply voltage V

Applicable drive unit HS05, HS07, S05, S08, S10

0.5 100 1.8 0.5 1.0 1.5 100 100/200

K-ET918

ON/OFF control with sensor operation instructions

HF10, HF14, K-series HS05, HS07 HF10, HF14 HF10, HF14, HS05, HS07

External control + sequence control K-UE410 K-UE450 (For head/tail orientation of chip resistors)

K-EC118

External control

1 For details of control functions, refer to page 49.

16

Controller dimensions and specifications

Model Rated voltage Frequency Voltage Voltage stability

K-UE410 K-UE450 AC 100V 115V 10% 50/60 Hz common 0 95V 1 Maximum output voltage varies within 3% in the event of a 10% variation in supply voltage when the output voltage is 85 V or lower.

K-ET918

K-EC118 AC 100V/200V (selectable)

1 Depending on the measuring instrument used, the output voltage may exceed the 0­95 V range. Also, the maximum output voltage can vary depending on the frequency setting. 2 With a special programming tool, you can vary the timer constant and the number of inputs and outputs used. The maximum numbers of controllable inputs and outputs are seven inputs and five outputs for Model K-UE400 and 10 inputs and eight outputs for Model K-UE450. 3 This is the driving frequency. The frequency of the parts feeder is approximately twice as high and within the range of 40.0­399.8 Hz. 4 The supply voltage is applied to the solenoid valve. 5 Do not use the controller in the presence of corrosive gas or in a very dusty environment; or where substances capable of damaging the electrical components, resins, or sheet metal can contact the controller.

Power supply

10%

0 100V/0 200V Within 2%, provided that output voltage does not exceed 85 V (100 V type) or 170 V (200 V type)

Output

Frequency 3 Frequency stability

Frequency setting accuracy

Max. allowable current Service power supply Drive system Control Control input (S1-S2) Control input (S3-S4) Control input (for timer)

20.0 199.9Hz 100.0 199.9Hz Maximum frequency varies within 0.2% in the event of a 10% variation in supply voltage. 1% of the max. frequency 1.8 A for bowl feeder, 1.0 A for bowl feeder, 0.5 A for linear feeder 1.5A 0.5 A for linear feeder DC 12V 80mA DC 24V 250mA PWM Analog system Open-collector connectable (Run at close, and stop when opened)

Open-collector connectable (Switch-selectable between linear feeder input and "unused.") Open-collector connectable (2-wire sensor connectable) (polarity reversible)

4 points (Requirements are the same 9 points (Requirements are the same Sequence input as those for control inputs [S1, S2].) 2 as those for control inputs [S1, S2].) 2 Timer setting ON 0.1 - 10 sec OFF 0.1 - 10 sec. Timer settings are predetermined by the internal program.2 1 point: No-voltage relay output 2 points: Open-collector transistor output (run, bowl feeder synchronization) Control output (synchronous with bowl feeder) 1 point: 100 VAC solenoid valve 2 6 points, 24 VDC solenoid valve 2 Valve control output (synchronized with bowl feeder) 4 3 points, 24 VDC solenoid valve Software start Variable 0.2 - 2.0 sec Operating temperature range 0 40°C

0.4 sec., fixed

Wiring of connection system to vibratory driving unit Mass 2.8kg

Connections with metal connector (Connections with terminal block) 2.9kg 1.5kg

Controller dimensions and specifications

NTN parts feeder

K- E G1 7 7

Voltage, drive system Control capacity Control function (application) Controller code

Constant voltage controller

K-EG1

100 86 65 55

K-EG2(4)

196 86 65 55

177 169

141

8

177 2-Slot 7 8

8

169 141

156

156

2-Slot 7 8

Mounting dimensions

Output voltage fluctuation 2-M6

Mounting pitch

+50 +20 0 -20 -50

Measuring conditions Model K-N25RM2/CD39 Constant Power supply frequency 60 Hz voltage Output voltage 140 V characteristics Constant voltage controller

EZ1 2.4 130 2mm Bowl feeder base N25:336mm Diameter N40:490mm

When mounting on a flat surface, flatten the stay. Mounting pitch will be 130 mm respectively.

Standard controller

170 -15

200 Supply voltage V

230 +15

Note 1) The constant voltage characteristics above are based on an output voltage set from 30 V to 85 V (for 100 V) or from 60 V to 170 V (for 200 V). Note 2) In certain cases, errors may occur in measured values depending on measuring instruments, because output voltage is adjusted via a phase control technique.

Model Supply voltage Supply frequency Drive system Max. allowable current Constant voltage characteristics Software start Valve operation control Mass

K-EG11 K-EG17 K-EG27, -EG47 Single-phase, 100 115/200 230V AC (switch-selectable), 10% 50 Hz/60 Hz switch-selectable Full wave / half wave switch-selectable Full wave 7A 0.3A 3% or less of output voltage fluctuation against 10% of supply voltage fluctuation Possible (variable in eight increments of 0.1 to 1 second)

Solenoid valve is controlled according to the load.

Approx. 1.2 kg

Approx. 2.5 kg

1 A voltage output. Prepare a solenoid valve whose rated voltage is the same as that of the power supply. Note 1) Do not use the controller in the presence of corrosive gas or in a very dusty environment; or where substances capable of damaging the electrical components, resins, or sheet metal can contact the controller.

Part number K-EG117 K-EG177 K-EG277 K-EG477

Control function 1 External control ON/OFF control with level switch External control ON/OFF control with sensor operation instruction External control ON/OFF control with sensor no-work alarm+operation instruction

Control capacity A

Applicable unit S05, S08 K10 G50, S10 30, L20, V7 12, SV01 06

K10

G50

1 For details of control functions, refer to page 49.

Controller dimensions and specifications

NTN parts feeder

K- E T2 7 7

Voltage, drive system Control capacity Control function (application) Controller code

Constant voltage twin controller

K-ET277 (477) twin type

220 106 101 80

178

140

Bleeder resistance 28 Protective cover

194

2-Slot7

10

100

138

K-ET277 477 Single phase AC100 115/200 230V 50/60Hz Full wave/half wave (separately switchable) 3A (for linear feeders) 7A (for bowl feeders) 3% or less of output voltage fluctuation against Constant voltage characteristics 10% of supply voltage fluctuation Possible Software start Valve operation control Possible (synchronous with bowl feeder) Mass Approx. 2.5 kg Type Rated voltage Rated frequency Drive system Max. allowable current

Note 1) The constant voltage characteristics above are based on an output voltage set from 30V to 85V (for 100V) or from 60V to 170V (for 200 V). Note 2) In certain cases, errors may occur in measured values depending on measuring instruments, because output voltage is adjusted via a phase control technique. Note 3) Do not use the controller in the presence of corrosive gas or in a very dusty environment; or where substances capable of damaging the electrical components, resins, or sheet metal can contact the controller. 1 A voltage output. Prepare a solenoid valve whose rated voltage is the same as that of the power supply.

Mounting dimensions

2-M6 Mounting pitch ET277 175 2mm Bowl feeder base N25:336mm Diameter N40:490mm

When mounting on a flat surface, flatten the stay. The mounting pitch will be 180 mm.

Part number K-ET277

Control function External control ON/OFF control with sensor operation instruction External control ON/OFF control with sensor no-work alarm+operation instruction

Control capacity A For linear feeders 3A For bowl feeders 7A

Applicable unit S05 1, S08 1, S10, S20, S30, L20 (V71, V01, V03, V04, V06, V08, V12, SV01, SV03, SV06) 2 K-series, N-series, G50

K-ET477

1 Bleeder resistance is needed. 2 Level switch can be connected by adjusting the internal jumper pins, and hoppers can be used in place of linear feeders.

Options

Part number K-PZ0460 K-PZ0461 Description Protective cover Bleeder resister Applications Hinged cover for protecting the operation panel. Easily opened/closed. Need to use K-S052 and K-S082.

Controller dimensions and specifications

NTN parts feeder

K- E J1 1 2

Voltage, drive system Control capacity Control function (application) Controller code

Constant voltage controller

K-EJ1 inside cabinet

110 82 6 1.6

7

15 6.5

71 41

20

120 68

V1 V2 V3 G L1 L2 VR S1 S2 60Hz 50Hz

Model Supply voltage Supply frequency Drive system Max. allowable current Constant voltage characteristics Mass

Specific to 100 VAC or 200 VAC 50 Hz/60 Hz switch-selectable Specific to full wave/half wave Full wave 7A 0.3A 5% or less of output voltage fluctuation against 15% of supply voltage fluctuation Approx. 0.75 kg Control Supply capacity A voltage V 0.3 100 200 200 Drive system Full wave Half wave

Part number2 K-EJ11

1 2

Control function 1

20

Applicable drive unit S05, S08 K-series, S10, S20, L20, N25, N32, N40 S30, N32, N40, N40 1, G50

K-EJ17 1 2 K-EJ174

External control

7

Applicable units marked with are for 200 V only. 1 For details of control functions, refer to page 49. 2 The K-EJ1 (for mounting in the cabinet) cannot be ordered with a combination part number that includes the part feeder.

Controller dimensions and specifications

NTN parts feeder

K- E B7 7 7

Voltage, drive system Control capacity Control function (application) Controller code

Constant amplitude controller

K-EB177

K-EB777 477, 577 K-EB297

130 105 80 220 104 90

140

168

224 156 128 2-Slot 7

43.2 10

20

170

200

141

2-Slot 7

10

Mounting dimensions to parts feeders are dentical to those for EG controllers. Mounting dimensions to parts feeders are identical to those for ET277 controllers.

12

or less

standard accessory

Amplitude fluctuation

¡Vibration sensor K-P1395 is included in the controller proper. ¡If extending the leads, use a shielded cable.

Constant amplitude controller 0

Amplitude fluctuation

2

2

3.5

+50

Constant amplitude controller 0

3

Standard controller -50 0 0.2 0.4 kg

Model Rated voltage

K-EB177, K-EB777 (477, 577)

K-EB297

Standard controller -50 90 100 110 V

100VAC or 200 VAC (switch-selectable) allowable fluctuation range 10%

50 Hz/60 Hz switch-selectable Supply frequency Full wave/half wave switch-selectable Drive system Max. allowable current 7A 10A Vibration sensor K-P1395 Amplitude detector Mass Approx. 3.2 kg (K-EB177 is approx. 1.6 kg)

Controllers can be factory-set to be fully compatible with your NTN parts feeders. Make sure to specify your parts feeder model when placing orders to NTN. Note 1) Do not use the controller in the presence of corrosive gas or in a very dusty environment; or where substances capable of damaging the electrical components, resins, or sheet metal can contact the controller.

Supply voltage

Work piece mass

NOTE 1) The constant amplitude characteristics plotted above were obtained with the controller together with the operating NTN parts feeder K-K10R1/C1501. Note 2) In certain cases, errors may occur in measured values depending on the measuring instruments used, since output voltage is adjusted via a phase control technique.

Part number K-EB177 K-EB777 K-EB577 K-EB477 K-EB297

Control function 1 External control External control ON/OFF control with sensor operation control External control ON/OFF control AND logic circuit with 2 sensors operation instruction External control ON/OFF control with sensor no-work alarm operation instruction External control ON/OFF control with sensor operation instruction

Control Supply capacity A voltage V

Drive system

Applicable unit

7

K-series, Full wave N25, N32, N40, N40 1, G50 100/200 / half wave

10

G63 2

Applicable units marked with are for 200 V only. 1 For details on control functions, refer to page 49.

3

or less

18

Vibration sensor K-P1395

26 8 8

33 10

2000 5

Supply voltage fluctuation +50 characteristics Work piece mass fluctuation characteristics

Controller dimensions and specifications

NTN parts feeder

K- E M13 1

Voltage, drive system Control capacity Control function (application) Controller code

Standard controller

Model Supply voltage Supply frequency Drive system K-EM Specific to 100 VAC or 200 VAC 50 Hz/60 Hz selectable with jumpers Specific to full wave

K-EM1

65

(95) 83

ON

100

6 7

OFF

5

4 3

2

1

1.6 2 7

15 40

12.5 21.5

Model K-EM13 1 2

Control functions 1 External control

Control Supply capacity A voltage V 3 100 200

10

Drive system Full wave

Mass kg 0.9

(118)

8

9 10

1 Applicable sensors are voltage output type (for K-EE23 ) and OMRON E3C-series only.

NTN parts feeder

Optional unit

100 VAC power unit A dedicated unit for the Model K-ECC46 highfunctional controller

Part number Rated voltage Frequency Voltage Rated current Operating temperature range

Power supply

K-UE082 Single-phase 100V AC to 115V AC 50/60 Hz common DC280V 4A (effective value) 0 40°C

Functions Mass

This unit steps up the supply voltage, enabling the Model K-ECC46 variable frequency controller (highfunction type) to operate on a 100 VAC power supply. Use only with 200 V vibratory driving units.

Approx. 1.2 kg

This unit steps up the voltage from 100 VAC to 200 VAC. Use only with a high-function controller.

180

0

Applicable unit M05, M10

K-UE082

Unit number Unit code Semi-standard unit

Optinal unit K-UE082 (100 VAC power unit)

40

K-UE082

10%

160

Output

Lead wire

Controller dimensions and specifications

NTN parts feeder

K- U E 200

Unit number Unit code Semi-standard unit

Optional unit

K-UE100 200 , K-UE101 201

MAX.12 50 80

Timer unit

110

119

100

6 4

22 4 42

4

2-Slot 6 10

2.0

Red White Green Black Blue

6

1500

Power supply (Green: GND) Operation instruction signal output

Standard mounting pitch should be 28 mm or 30 mm.

Part number Rated current 1 Supply frequency Power consumption

K-UE100 AC100V

K-UE200 AC200V 50/60Hz 2VA

K-UE101 AC100V

K-UE201 AC200V

Connectable sensor

q DC NPN transistor voltage output w DC NPN O/C output Sensors of these types are available e DC 2-wire system NPN output (select with built-in switch). r Contact output Built-in signal input selector (NO, NC) switch. No-voltage contact or O/C signal (Should be able to open/close at 10 VDC, 5 mA) Max. 12 VDC 10% 50 mA (w/ short-circuit protective function) No-voltage contact output 1a 2 Contact capacity AC200V 0.25A COS 1 No-voltage contact output 1a 1 Contact capacity AC200V 0.25A COS Voltage contact output 1a 1 Load of 100 VAC, 20 VA or lower is connectable Load of 200 VAC, 20 VA or lower is connectable 1

1 For all ratings, the allowable voltage fluctuation range is

Input Output

External control S1-S2 Service power supply Operation instruction signal Valve control signal

Output circuit

Black

Ry Blue C

Ry NO Black

Ry Blue 1

AC100 /200V

Ry 2

ON/OFF delay function Mass

10%.

ON delay variable 0.1 to 10 sec. OFF delay variable 0.1 to 10 sec. Approx. 0.7 kg

Controller dimensions and specifications

NTN parts feeder

K - U E 300

Unit number Unit code Semi-standard unit

I/O controller unit

Part number

The I/O control unit contains a program package that enables parts sorting and multi-lane parts feed in the bowl by means of sensors. It also controls the sorting mechanism at the exit. Thus, even an inexperienced operator can control the feeder system by specifying only a program number and defining a timer setting.

K-UE300

Power supply voltage Frequency Number of points Input current Service power supply Number of points Output current Rated voltage

K-UE300 AC 100 115V/200 230V 50/60Hz

8 points 4.8 mA max. (per point)

Program examples

A 3-point work sorting (with synchronize sensor)

X4 Y1 X3 X6 Y2 X5 SOL2 SOL1 X1 Y0

Mass 2.5kg 1 A free program is a programmable area in which a user can freely create a parts feed program. Note, however, that the user must purchase an optional programming tool for this purpose.

B Escapement control (work request signal + work take-up signal)

Outline of function

On-chute work detect Escapement forward end detect Escapement origin detect X6 X3 X2 Y1 Escapement work detect READY signal User's Work request signal control panel Work take-up signal Y0 X1 Y2 X4 X5

Power supply

Input Output Timer

DC24V 500mA

Transistor output 7 points (for DC) Photo MOS relay output 3 points (common to AC and DC) Total 10 points (Because the same signal is redundantly fed at 2 points of the above 10 points.) Transistor, 0.2A/point Photo MOS relay, 0.1A/point Transistor, 24V DC Photo MOS relay, 230V AC/DC 10 settings (per program) 0.1 - 99.9 sec. Resident programs, 10 Free programs, 9 1

Number of allowable settings Duration of setting Allowable number of settings Operating temperature range

0 40°C

Outline of function

Sorting of work pieces is controlled at up to three points X2 according to the signals from a synchronize sensor + judgment sensor.

X7

The escapement is triggered according to a work request signal. The escapement is reset when a work take-up signal is detected.

SOL3

Basic functions

standard feature possible with additional wiring not permitted Overflow function In-run airblow No work alarm

Basic functions

standard feature possible with additional wiring not permitted Overflow function In-run airblow No work alarm

Timing chart

X2 (Work identify 1) X1 (Synchronize 1) Y0 (SOL 1) X7 (Work detect) Y6 (RUN command) Y4 (No work signal))

ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF NG

Timing chart

Y0 turns ON when both X2 and X1 turn ON (to eject a reject). T1 T7 X3, X4, Y1, T2, and X5, X6, Y2 and T3 operate in a manner identical to Y0. T8 T9 X1 (Escapement work detect) X4 (Work request signal) X5 (Work take-up signal) Y0, Y1cylinder, bidirectional SOL) Y2 (READY) X6 (Work detect) Y6 (RUN command) Y4 (No work signal)

ON OFF ON OFF ON OFF Forward Origin ON OFF ON OFF ON OFF ON OFF Possible

T1 T3 T2 T4

The cylinder (bidirectional SOL) starts a forward motion after [T1] seconds have elapsed after X1 is urned ON and the X4 turns ON. The cylinder returns to its origin [T2] seconds after the X5 turns ON.

T5 T6 T7

C 2-lane air-overflow control

Work detect 1 Work detect 2

D 5-lane air-overflow control

SOL1 X1 X2 SOL2 Y1 SOL3 Y2 SOL4 Y3 SOL5 Y4 Work detect 1 Work detect 2 Work detect 3 Work detect 4 Work detect 5 X1 X2 X3 X4 X5

E 2-point work sorting (with synchronize sensor) F 4-point work sorting

X4 Y1 X3 X5 Y2 Jam detect sensor 2 SOL4 Synchronize sensor 2 Jam detect sensor 1 SOL3 Judgment sensor 1 Work detect Judgment sensor 2 SOL2 Synchronize sensor 1 SOL1 X1 Y0 X2 X7 Y3 X4 Y4 SOL6 Y5 Judgment sensor 4 SOL5 X2 Y1 X3 Y2 SOL4 Work detect 1 Work detect 2 X5 X6 Judgment sensor 3 SOL3 Judgment sensor 2 SOL2 SOL1 Y0 Judgment sensor 1 X1

SOL1 Y0 SOL2 Y1

X6 Y3

G Escapement control (work request signal) H Escapement control (2-lane sorting)

On-chute work detect Escapement forward end detect Escapement origin detect SOL2 Y1

SOL1(Bidirectional solenoid)

J Escapement control for test (continuous RUN) K Escapement control for test (manual reset)

On-chute work detect Escapement forward end detect Escapement origin detect X4 X2 X1 SOL1 SOL1 Y0 Escapement work detect X3 RESET switch X4 Escapement work detect Y0 X3 On-chute work detect Escapement forward end detect Escapement origin detect X5 X2 X1

X5 X3 X2

PAF exit work detect Escapement forward end detect Escapement BACK end detect SOL2

X6 X2 X3

Y0 Escapement work detect READY signal User's control panel Work request signal X1 Y2 X4

Y1 SOL1(Bidirectional solenoid) Y0 Sorter work detect X1 On-chute work detect 1 X4 On-chute work detect 2 X5

*For detailed information about control, contact NTN Engineering.

Control functions and timing chart of controllers

Control functions and timing chart

External control

Timing chart

External control contact Close (Lo) 2 input Open (Hi)

External control ON/OFF control with level switch

Timing chart

External control contact Close input Open Level switch ON (No parts) OFF

Parts feeder

ON OFF

Detached ON hopper OFF Detached hopper is automatically turned ON/OFF by the level switch which detects the quantity of any pieces in the parts feeder bowl.

The parts feeder is turned ON/OFF with an external signal.

External control ON/OFF control with sensor operation instruction

Timing chart

External control ON/OFF control with sensor no-work alarm operation instruction

Timing chart

External control Close contact input Open

External control contact input

Close Open

Part Detect sensor 1 Not detect Parts feeder ON OFF OFF delay ON delay

Part Detect sensor 1 Not detect Parts feeder ON OFF 1 Close Open Close Open OFF delay ON delay

Operation instruction Close contact output Open Parts feeder is turned OFF if the sensor does not detect any pieces during a predetermined time . (Built-in ON/OFF delay timer)

Alarm signal output Operation instruction contact output

ON delay

If the sensor has failed to detect any parts for a predetermined duration (max. 60 sec.), the contact signal is output for alarm.

External control ON/OFF control logic circuit with 2 sensors operation instruction

Timing chart

External control Close contact input Open Part Detect sensor 1 Not detect Part Detect sensor 2 Not detect Parts feeder ON OFF

OFF delay

ON delay

Operation instruction Close contact output Open

1 The blue line represents high-function controllers. 2 Use a relay contact to open the external control input for the EG1, EJ1 and EM1. Use an open collector transistor to control other controllers. The input logic can be reversed on the standard type and high-function type of variable frequency controllers. ¡Note: If you are considering the use of a relay contact, choose a relay whose minimum applicable load does not exceed 1 V and 1 mA and whose minimum permissible contact voltage is 250 V. 3 The standard setting for whether a controller is turned ON with a Low signal or High signal varies depending on the controller. 4 The necessary supply voltage for parts sensors 1 and 2 varies depending on the controller. For details, refer to the section of the controller service power supply. The supply voltage for controller models that accept sensor connections whose applicable power supply is not specified is 12 VDC. Use an NPN open collector sensor. The input logic for the sensor signal can be reversed at the controller side. 5 The run instruction output is a signal for controlling standalone hoppers. It can also be used as a run signal for controllers. 6 When using an external transformer, calculate its capacity using the formula below. parts feeder supply voltage parts feeder Half wave: supply voltage Full wave: parts feeder rated current parts feeder rated current transformer capacity 2 transformer capacity

Parts feeder is turned OFF if neither sensors detect any pieces, or when either sensor no longer detects any pieces. (Built-in ON/OFF delay timer)

Note: For details, refer to the controller manual or contact NTN Engineering.

Ordering parts feeders

Ordering parts feeders

Ordering parts feeders

Part number categories and notation

Part number categories

NTN parts feeders can be designated and ordered using any of the three part number categories given below. 1) Unit part number: Units, such as vibratory drive units, bowls, and controllers (pages 11 through 48), and special-purpose parts feeders (pages 64 through 73). 2) Combination part numbers: Combinations of units as described in the standard series combination lists (pages 52 through 63). 3) Component part numbers: Specific parts such as leaf springs, mounting brackets, and optional parts (pages 75 through 80).

Part number notation

1) Unit part number notation ¡Simply write the unit part number of the vibratory driving unit, bowl, or controller, etc. that you wish to order. 2) Combination item number notation ¡As shown in the standard series combination lists (pages 52 to 63): Specify a part number (blue characters in the table) after K-, and connect them with slash marks (/) in the order of K-! (vibratory drive unit) /@(bowls) / #(controllers). Possible combinations are: K-!/@/#, K-!/@, K-!/# only. Combination such as [email protected]/@, [email protected]/# are not acceptable. If such a combination is required, itemize the unit part numbers. ¡You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No. ¡An optional part cannot be included in a combination part number. Instead, order separately specifying its component number. 3) Component part number notation ¡When ordering a component, such as a spring or stay mounting part, order by component number (pages 75 through 80).

Notes for ordering parts feeders

¡NTN parts feeder series can be optimized for a specific application by combining various units. The combination of the three standard unit types the vibratory drive units, bowls (vibratory trough mount), and controllers provides for many different variations, allowing users to select the optimum configuration for aligning and feeding. ¡Functions can be further expanded by incorporating peripheral accessories, such as auxiliary weights. ¡Refer to the standard series combination lists on pages 52 through 63. Any combination of units identified by blue lines is possible. To order, specify your configuration by separating selected units with slash marks (/). ¡Any combination of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for guidance. To purchase such a combination, units must be ordered individually. Remember however, that NTN cannot guarantee the performance and proper functioning of such combinations.

Standard Series Combination Table

Standard Series Combination Table

HF10,14

High-frequency bowl feeder

188

POWER SPEED ADJ.

0 0 0 0

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- HF 14 R 2 1 / C 18 01 / T9 1

Drive unit model Unit size Voltage and drive system Design revision code Supply direction Bowl type Bowl outer dia. Bowl suffix Control capacity Control function (including form)

VARLABLE FREQUENCY CONTROLLER

100 30

190

Model, size

! Vibratory drive unit

@ Bowl

# Controller

H F 10

K-HF10 R21 L

C1201 C1403 1 C1501 C1701 1 Z1201 D1301 D1402 1

Cascade Straight wall bowl Dish

T91

C11

SMD SMD twin

H F 14

K-HF14 R21 L

C1801

Cascade

1 Manufactured only on special order.

Standard Series Combination Table

Standard Series Combination Table

K10,14,16,20

¡You may combine any units interlinked with blue lines in the combination table. However, note that Model K-ECA46 and Model K-ECC46 variable-frequency controllers can be combined only with a vibratory driving unit rated at 200 V. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part number

! Vibratory drive unit @ Bowl # Controller

K- K 10 R

Drive unit model Unit size Supply direction

1 / C 14 01 / G1 7

Voltage and drive type Design revision code Bowl type Bowl outer dia. Bowl suffix Control capacity Control function (including form)

Model, size

! Vibratory drive unit

@ Bowl

# Controller

K 10

K-K10

R1 L2

C1201 C14011 C1501 C15021 Z1201 D1301 D14021

G17

Cascade Straight wall Dish

G27 G47 T27 T47 B17 B47 B57 B77 K-ECA46

Constant voltage

Standard

Constant amplitude

K 14

C2001

Cascade Straight wall Dish

K-K14

R 1 L 2

Z2001 D2002

Variable frequency

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

C2601

Cascade Straight wall Cone Dish

G17 G27 G47 T27 T47 B17 B47 B57 B77 K-ECA46 K-ECC46

K 16

2 K-K16 R 3 1 L

Z2301 Z23021 Z2501 K26011 D2801

Constant voltage

Variable frequency

K 20

K-K20 K-K20

R 1 L 2 R 3 L 4

S3201 Z2801 Z3003

Cascade Straight wall

Variable frequency

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

1 Manufactured only on special order.

Standard Series Combination Table

Standard Series Combination Table

N25

396 305

¡You may combine any units interlinked with blue lines in the combination table. However, note that Model K-ECA46 and Model K-ECC46 variable-frequency controllers can be combined only with a vibratory driving unit rated at 200 V. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part number

! Vibratory drive unit @ Bowl # Controller

K- N 25 R A H 2 / C D 39

Drive unit model Unit size Design revision code Supply direction Voltage and drive system Bowl mounting type Bowl type Bowl bottom type Bowl outer dia. Design revision code 374 470 530 570

/ G1 7

Control function (including form) Control capacity

336

Designs revision code A means free set base.

Model, size

! Vibratory drive unit

@ Bowl

# Controller

N 25 H N 25 T

L K-N25 R H 1 2

K-N25 AH

R L

1 2

CD33 CD39 CD391 SD39 SD391 ZD301 ZD3011 ZD3021 ZD35 ZD3511 ZD352 KD35

Cascade Stainless steel cascade G17 G27 G47 T27 T47 Standard

w/ Aux. hopper in the bowl

L 2 K-N25 R T 1

Straight wall

K-N25 R AT 1 L 2

w/ Isolated bottom

Cone

SF39 SF391

N 25 F

K-N25 RF 1 L 2 K-N25 AF

w/ Flange

R L 1 2

ZF301 ZF3011 ZF3021 ZF35 ZF3511 ZF352 KF351 DF42

Stainless steel cascade Integrated bottom Straight wall

B17 B47 B57 B77 Constant amplitude

Cone Dish

K-ECA46 K-ECC46

Variable frequency

N 25 M

K-N25 R M 1 L 2 K-N25 R AM 1 L 2

Basic type

CB33 CB39 CB391

w/ Fixed bottom Cascade

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

1 Manufactured only on special order.

Standard Series Combination Table

Standard Series Combination Table

N32 Full wave

496 340 590 640

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- N 32 R 2 H 2 / S D 49 1 / G1 7

Drive unit model Unit size Supply direction Design revision code Voltage and drive system Bowl mounting type Bowl bottom type Bowl type Bowl outer dia. Design revision code Control capacity Control function (including form)

410

Model, size

! Vibratory drive unit

430 530

@ Bowl

# Controller

N 32

K-N32 R 2H2 L K-N32 R AH2 L

w/ Aux. hopper in the bowl

SD491 G17

N 32

N 32

N 32

Full wave

H

Stainless steel cascade

G27 G47 T27 T47

Constant voltage

K-N32 R 2T2 L K-N32 R AT2 L

w/ Isolated bottom

ZD401

Straight wall

Full wave

T

B17 B47 B57 B77

Constant amplitude

K-N32 2F2

L K-N32 R AF2

R L

SF491

Stainless steel cascade Integrated bottom Straight wall Integrated bottom

Full wave

F

w/ Flange

ZF401

K-N32 2M2 K-N32 AM2

Basic type

R L

R L

K-ECA46 K-ECC46

Variable frequency

Full wave

M

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

Standard Series Combination Table

Standard Series Combination Table

N32 Half wave

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- N 32 R 2 H 4 / S D 49 1 / G1 7

Drive unit model Unit size Design revision code Supply direction Voltage and drive system Bowl mounting type Bowl type Bowl bottom type Bowl outer dia. Design revision code Control capacity Control function (including form)

Model, size

! Vibratory drive unit

@ Bowl

# Controller

N 32

K-N32 R 2H4 L K-N32 R AH4 L

w/ Aux. hopper in the bowl

G17 SD491

N 32

N 32

N 32

Half wave

H

Stainless steel cascade

G27 G47 T27 T47

Constant voltage

L K-N32 R 2T4

ZD401

Straight wall

Half wave

T

L K-N32 R AT4

w/ Isolated bottom

B17 B47 B57 B77

Constant amplitude

L K-N32 R 2F4

SF491

Stainless steel cascade Integrated bottom Straight wall Integrated bottom

Half wave

F

L K-N32 R AF4

w/ Flange

ZF401

K-N32 2M4 K-N32 AM4

Basic type

R L

R L

K-ECA46 K-ECC46

Variable frequency

Half wave

M

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

Standard Series Combination Table

Standard Series Combination Table

N40 Full wave

540 435 421 550 615

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- N 40 R

Drive unit model Unit size Supply direction 650

H 2 / C D 54

Voltage and drive system Bowl mounting type Design revision code Bowl type Bowl bottom type Bowl outer dia. Design revision code

/ G1 7

Control capacity Control function (including form)

490

Design revision code A means free set base.

Model, size

! Vibratory drive unit

@ Bowl

# Controller

N 40 Full wave H N 40 Full wave T N 40 Full wave M

K-N40 R H2 L K-N40 R AH2 L

w/ Aux. hopper in the bowl CD54 Cascade G17 G27 G47 T27 T47 Stainless steel cascade B17 B47 B57 B77 Constant amplitude Constant voltage

SD54

K-N40 R T2 L K-N40 R AT2 L

w/ Isolated bottom

K-N40 R M2 L

CB54

K-N40 AM2

Basic type

R L

w/ Fixed bottom Cascade

K-ECA46 K-ECC46

Variable frequency

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

Standard Series Combination Table

Standard Series Combination Table

N40 Half wave

588 435 471 550 615 650

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- N 40 R

Drive unit model Unit size Supply direction

H 4 / C D 58

Voltage and drive system Bowl mounting type Design revision code Bowl type Bowl bottom type Bowl outer dia. Design revision code

/ G1 7

Control capacity Control function (including form)

490

Design revision code A means free set base.

Model, size

! Vibratory drive unit

L K-N40 RH4

@ Bowl

# Controller

N

Half wave

H

40

K-N40 R AH4 L

w/ Aux. hopper in the bowl

CD54 CD58 CD64 CD641 SD54 SD58 SD64 SD641 ZD45 ZD50 KD551

Cascade

G17

N

Stainless steel cascade Straight wall Cone

G27 G47 T27 T47

40

K-N40 T4 K-N40 R AT4 L

w/ Isolated bottom

R L

Constant voltage

Half wave

T

N 40 Half wave F N 40 Half wave M

K-N40 F4

L K-N40 R AF4 R L

SF54 SF58 SF64 SF641 ZF45 ZF4511 ZF50 ZF5011 ZF5021 ZF55 ZF601 KF551 DF64 DF641

Stainless steel cascade Integrated bottom

B17 B47 B57 B77

Constant amplitude

Straight wall

w/ Flange

Cone Dish

K-ECA46 K-ECC46

Variable frequency

K-N40 RM4 L

L K-N40 R AM4

CB54 CB58 CB64 CB641

w/ Fixed bottom Cascade

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

Basic type

1 Manufactured only on special order.

Standard Series Combination Table

Standard Series Combination Table

N40 1

640 435

N40 type applicable to large amplitude

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- N 40 R 1 H 4 / C D 64

Drive unit model Unit size Design revision code Supplying direction Bowl mounting type Voltage and drive system Bowl type Bowl bottom type Bowl outer dia. Design revision code 513 600 665 700

/ G1 7

Control capacity Control function (including form)

490

Model, size

! Vibratory drive unit

@ Bowl

# Controller

N 40 1 H N 40 1 T

L K-N40 R1H4

w/ Aux. hopper in the bowl

CD54 CD58 CD64 CD641 SD54 SD58 SD64 SD641

Cascade

G17

Stainless steel cascade Straight wall Cone

G27 G47 T27 T47

Constant voltage

K-N40 R1T4 L

w/ Isolated bottom

ZD45 ZD50 KD551

N 40 1 F

SF54 SF58 SF64 SF641 ZF45 ZF4511 ZF50 ZF5011 ZF5021 ZF55 ZF601 KF551 DF64 DF641

Stainless steel cascade Integrated bottom

B17 B47 B57 B77

Constant amplitude

K-N40 R1F4 L

w/ Flange

Straight wall

Cone Dish

K-ECA46 K-ECC46

N 40 1 M

Variable frequency

K-N40 R1M4 L

Basic type

CB54 CB58 CB64 CB641

w/ Fixed bottom Cascade

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

1 Manufactured only on special order.

Standard Series Combination Table

Standard Series Combination Table

G50

830 640

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- G 50 R 1 T 4 / C D 83

Drive unit model Supply direction Voltage and drive system Bowl mounting type Design revision code Bowl bottom type Bowl outer dia. Design revision code 340

20

/ G1 7

Control capacity Control function (including form)

Model, size

! Vibratory drive unit

70

580

20

410

@ Bowl

# Controller

G 50 T G 50 G G 50 M

L K-G50 R 1T4

G17 CD83 Cascade G27 G47 T27 T47 Constant voltage

w/ Isolated bottom

K-G50 R 1G4 L

w/ Adapter

CB83

w/ Fixed bottom Cascade

B17 B47 B57 B77

K-ECA46 K-ECC46

Constant amplitude

K-G50 1M4

Basic type

R L

Variable frequency

ZF6511

Straight wall

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

1 Manufactured only on special order.

Standard Series Combination Table

Standard Series Combination Table

G63

830 658

¡Any combinations of units identified by blue lines are available for order. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Bowl # Controller

K- G 63 R 2 T 4 / C D 83

Drive unit model Unit size Voltage and drive system Bowl mounting type Design revision code Supply direction Bowl type Bowl bottom type Bowl outer dia. Design revision code 416

/ B2 9

Control capacity Control function (including form)

Width across flats on octagonal cover 780

Model, size

! Vibratory drive unit

@ Bowl

# Controller

G 63 T G 63 G G 63 M

L K-G63 R2T4

CD83 SD83

Cascade Stainless steel cascade

w/ Isolated bottom

B29

Constant amplitude

K-G63 R2G4 L

w/ Adapter

CB83

w/ Fixed bottom Cascade

K-ECB96 K-ECE96

L K-G63 R2M4

Variable frequency

ZF751 SF83

Straight wall Stainless steel cascade Integrated bottom

Basic type

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

1 Manufactured only on special order.

Standard Series Combination Table

Standard Series Combination Table

S05,S08,S10 S20,S30,L20

¡You may combine any units interlinked with blue lines in the combination table. However, note that Model K-ECA46 and Model K-ECC46 variable-frequency controllers can be combined only with a vibratory driving unit rated at 200 V. ¡Any combinations of units not identified by blue lines may pose certain technical problems. If such a combination is required, consult NTN Engineering for technical advice. To purchase such a combination, units must be ordered individually. Remember however that NTN cannot guarantee the performance and proper functioning of such a combination.

Examples of combination part numbers

! Vibratory drive unit @ Vibratory trough mount # Controller

K- S 10 C 1 /

Drive unit model Unit size Voltage and drive system Design revision code

1

Vibratory trough mount type

/ G1 7

Control capacity Control function (including form)

Design revision code A means no base plate.

Model, size

! Vibratory drive unit

K-S051 1 2

Vibratory @ through mount

# Controller

S 05

G11

Constant voltage

K-S05A 1 2

Variable frequency

K-ECA46

S 08

K-S082 1 2

1

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

S 10

K-S10B 1 2

1 G17

Constant voltage

K-S10C 1 2

Variable frequency

S 20

K-S20B 1 2

1

K-ECA46

K-S20C

1 2

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

G17

Constant voltage Variable frequency

S 30

K-S30B4

1

K-ECA46 K-ECC46

K-S30C4

You cannot custom order a variable-frequency controller (basic type and high-function type) by combining item numbers. Please specify an existing unit part No.

L 20

K-L20 1 2

G17

Constant voltage

Standard Series Combination Table

Standard Series Combination Table

HS05,07

High-frequency linear feeder

Examples of combination part numbers

! Vibratory drive unit

. . . .

# Controller

K- HS 05 2 1 / C1 1

Drive unit type Unit size Voltage and drive system Design revision code Control capacity Control function (including form)

88 Height adjustment screw

2

Model, size

! Vibratory drive unit

# Controller

H S 05 H S 07

K-HS0521

SMD

C11

K-HS0711

Monodrive 2-way feeder

Monodrive 2-Way FeederTM

This revolutionary two-way feeder comprises only one linear feeder. It is capable of storing, aligning/orienting, and feeding parts.

Features

1. One linear feeder drives two chutes in different directions -- one for the aligning/orienting side and one for the returning side. This novel return feeder comprises a conventional linear feeder and an innovative leaf spring unit mounted above the linear feeder. The linear feeder and leaf spring unit generate mutually counteracting vibrations in two different planes in order to align/orient and feed parts. (Patent pending) 2. Compact, light and energy-efficient Compared to bowl feeder designs, this liner aligning/orienting parts feeder is simpler, more compact, and requires roughly half the installation space. Furthermore, since one linear feeder can store, align/orient and feed parts, the entire production system can be made lighter and more energy-efficient. 3. This simplified design is the ideal choice for multiproduct, small-lot production. The simplified construction ensures easier maintenance. This unique feeder handles a diversity of parts types and can be fitted with a chute suitable for a particular part type.

Plan view Conventional bowl feeder

Monodrive two-way feeder

Note: NTN does not market the main body of this product separately. This product is available only in combination with its tooling, etc. For details, contact NTN Engineering.

Applications and compatible work pieces

¡Handles a diversity of parts types ranging from miniature to medium-sized. ¡Accommodates machine parts, electronic components, plastic parts, and the like.

Specifications

1

Model

Part No.

Power supply (V/A)

Applicable leaf spring

Inclination angle of return trough (possible range)

Maximum volume of work pieces Length (mm) Mass (kg) loaded (R)

Mounted chute

2

Applicable controller

Mass (kg)

MD10 MD20 MD30

K-MD10 R2 L K-MD10 RA2 L K-MD20 2 K-MD20 RA2 L K-MD30 4 K-MD30 RA4 L

R L R L

200/0.2

K-PLS4-40 6 K-PLS2-35 5 Standard: 5° 4 7.5°

450 600 550 800 850 1100

1.1 3.0 2.0 5.5 7 15

0.25 0.6 1.5 K-ECA46

9 7.5 17.5 15 49 41

200/0.5 K-PLS4-70 12 K-PLS2-35 5 200/0.9 K-PLS4-86 15 K-PLS2-50 7

1 Two main feeder body types are available: R (clockwise) and L (counterclockwise). Also, feeder models are available with a baseplate or without (identified by suffix A). 2 The mass of the mounted chute is the mass value of a chute that can be added. The value in parentheses beneath the mass value of the mounted chute represents the maximum mass that can be mounted and includes the return trough, chute mount, and other parts.

Monodrive 2-way feeder

Structure and dimensions

K-MD10 R 2 (with baseplate) L

277

K-MD10 R A2 (without baseplate) L

450 600 73 11 AT mounting portion Parts delivery 30 15 64 95 18

10 4 22

Baseplate dimensions (top view)

25 6.5 20 60 120 240 190 23

366 320 310 Return trough

(standard inclination: 5°)

AT mounting dimensions

120 95 35 38 80 23 318 80 55 40 25

AT mounting portion

5-M5 Depth 12 29.5 2

175 (189 max.) 39 (51 max.)

15

65

23

64 140

156

4-Nut M6

Baseplate 34 90

20

11 110 190

K-MD20 R 2 (with baseplate) L

K-MD20 R A2 (without baseplate) L

550 800 358 40 85 9 AT mounting portion Parts delivery 87 128

10

25

Baseplate dimensions (top view)

20 7 20 310 270 214 (229 max.) 45 (60 max.) 29

AT mounting dimensions

14 6 29 458 412 400 Return trough 166 128 42 400 30 45 AT mounting 6-M6 Depth 12 portion 2 80 80 80 35 50

(standard inclination: 5°)

95 160

70

12.5

45 25.5

104 185

135

20

232

4-Nut M6

Baseplate 70 155 270

12

K-MD30 R 4 (with baseplate) L

K-MD30 R A4 (without baseplate) L

850 1100 519 23.5 127 8 AT mounting portion Parts delivery 58 170

Baseplate dimensions (top view)

50 40 10 316.5 (342 max.) 120 200 64.5 (90 max.) 70 490 390

32

110

22 11 44

40

663 596 580 Return trough

(standard inclination: 5°)

AT mounting dimensions

205 168.5 63.5 6-M6 Depth 18 AT mounting portion PT3/8 Dust outlet 4-Hex. socket head bolt M8 40 75 120 40 590 120 120 60 60

3

20

90 32

166

70 160

31

246 350

15 310 390

For specific dimensions of a linear feeder, see the specifications/dimensions page in this catalog.

215

Linear travel S30

15

75

104

140

Linear travel S20

31.5

PT1/4 Dust outlet

15

50

12

113

Linear travel S10

PT1/4 Dust outlet

34

10

38

51.5

Non-slip composite feeder

Non-slip composite feeder

This unique feeder combines a rotary disk with a vibratory bowl feeder. It offers the orientating/aligning capabilities of a vibratory bowl feeder as well as the feed stability to handle even oiled work pieces. What's more, it's designed for low noise operation.

Features

1. Stable parts feeding The special rotary disk reliably delivers problem parts (oiled pins and bolts) that conventional vibrator systems cannot handle easily. Parts are delivered to the outer circumference of the bowl's vibratory section. 2. Low-noise operation The vibratory section is limited to the circumferential portion of the bowl, which orients or aligns the parts. This design contributes to low-noise operation. 3. Versatility Because the orientating/aligning section is a vibratory type, it can handle complex parts as easily as conventional parts feeders. 4. High-speed parts feeding The speed of the rotary disk can be adjusted as desired to accommodate specific types of work pieces. What's more, the vibration angle of the vibratory section on the circumference can be adjusted to a near-horizontal orientation with the installation of an appropriate leaf spring. As a result, the work pieces can be oriented/aligned at higher speeds.

Applications and compatible work pieces

¡Metal parts such as oiled pins and bolts ¡General mechanical components (metal or plastic) and automotive components Accommodates the same maximum allowable work piece size as the conventional Model N25. Does not accommodate miniature work pieces (those measuring less than 4 mm in general) or thin work pieces (those measuring less than 3 mm in thickness in general)

Specifications

Model Power supply Direction of rotation (Basic vibratory drive unit) Vibration frequency Disk rotation speed Mass (including bowl) Bowl mass Standard capacity of bowl Vibratory section Applicable controller Rotary section Protection K-UP051 K-UP052 K-UP053 AC100V / 4.5A AC200V / 2.4A Clockwise Counterclockwise Clockwise Counterclockwise K-N25LM2 K-N25RM1 K-N25LM1 K-N25RM2 100Hz/120Hz 1 1-20 rpm variable (common to both 50 and 60 Hz current) 52kg 3kg 1.5L Controller for N25 (K-EG177, K-EC646 2, etc.) K-UE250 (model-specific controller) K-UE260 (model-specific controller) Motor overload protection and others K-UP050

1 Refer to page 15 in the section on "Bowl feeder dimensions and specifications." 2 Model K-ECA46 is rated at 200 VAC. To operate the device with a 100 VAC power supply, use Model K-ECA49.

Non-slip composite feeder

Structure and dimensions

R (Clockwise) rotation K-UP050 K-UP052

Base mounting position 4-M10 Tapped, Counterbore 15-mm dia., Depth 10

L (Counterclockwise) rotation K-UP051 K-UP053

(Rotary section) Model-specifi controller (Vibratory section) Controller for Model N25 (Attachment) Rotary disk Bowl

45

220

(Scraping wiper) 1 (Delivery wiper) 1

45°

(Outlet) 220

Deepest area of disk

Bowl Rotary disk (Attachment) (Vibratory section) Controller for Model N25 (Rotary section) Model-specific controller

Deepest area of disk (Outlet)

Base mounting position 4-M10 Tapped, Counterbore 15-mm dia., Depth 10

(Delivery wiper) 220 (Scraping wiper)

220

1 1

Note: An optional wiper mount unit (K-UP060) is available.

dia. outer Bowl 14°

357

Center of rotation

Vibratory feeder N25

290 336

Bowl

(Included with the vibratory drive unit)

8-M6 Tapped (spaced at uniform intervals)

Wiper mounting unit

32

24

2-

4.2

45 °

39

30

22.5°

C.

15

300

P.

(Assemble and mount the wiper to accommodate the dimensional relation to the parts feeder.) 180 10

20 min 19 24

357 2 51.2

52 39

14°

140

(Adjustment allowance for bowl) (Rotary disk)

6

12

8

13 20

D

33

4

min 26

(Optional)

245

310.3

354

390

1/4 Oil recovery port

24°

SMD feeder

SMD feeder

Configured with an HF Series High-Frequency Bowl Feeder and an HS series Linear Feeder, the SMD Feeder rapidly orients/aligns standard chip components and feeds them to an inspection device, taping machine or the like. The linear feeder section has been improved and now incorporates an innovative super-high-speed feeding device.

Features

1. A new design eliminates the possibility of work pieces jamming at the relay point between the bowl and the chute, significantly improving equipment availability. 2. Provides super-high-speed and high-precision parts feeding (up to 3,500 units of R1005 chips per minute, or 5,500 units of C0603 chips per minute). 3. More compact design - The floor space requirement is no more than 70% that of NTN's conventional equipment for feeding chip resistors. 4. The unique system for orienting/aligning parts does not use compressed air (for feeding chip capacitors), thus helping to prevent possible damage to chip components.

Typical applicable work pieces and specifications

Chip resistor specifications Applicable work pieces Chip resistor (involving head/tail orientation) R0603 R1005 Max. 3,000 chips/min (R0603) Max. 3,500 chips/min (R1005) Chip capacitor specifications Chip capacitor C0603, C1005 (not involving head/tail or front/back orientation) Chip inductor L0603, L1005 (not involving head/tail or front/back orientation) Max. 5,500 chips/min (C0603) Max. 5,000 chips/min (C1005)

Typical orientation/ alignment capabilities Power supply Compressed air supply Feeder dimensions

Single-phase 100 V, 50/60 Hz 0.1MPa 1kg/cm2 400mm 160mm 190mm 300mm 165mm 150mm

The above data reflect typical applications. The equipment is capable of feeding other miniature work pieces. For details, refer to CAT. Nos. [email protected]/E.

Micro-chamfered parts orientating / aligning unit

Micro-chamfered parts orientating / aligning unit

With a unique mechanical sorting mechanism, this unit can orient and align flat parts whose front and back sides are so similar that conventional vibratory parts feeders cannot differentiate between them. The micro-chamfered parts orientating/aligning unit permits orientation and feeding of pieces, chamfered face upward, after the pieces are aligned in a single row and single layer by the bowl feeder.

Features

1. High-precision orientating / aligning unit NTN's unique mechanical sorting mechanism enables this unit to continuously and very accurately orient and align flat parts whose front and back sides appear virtually identical. 2. High reliability The combination of simple orientating/aligning unit with a simple bowl attachment ensures very high reliability. 3. Space-saving By making the orientating/aligning unit compact and locating it as part of the tooling, major space savings are gained, compared to conventional mechanisms whose orientating/aligning device is located directly out of the parts feeders.

A

Examples of work pieces that can be orientated/aligned

Flat washers Chain link plates

Discharged w/chamfered side up

40

Micro-chamfered parts orientating / aligning unit

C

F 30 adjustable

D

E

R0.2 or larger Mounting stay Pin corner

To accurately determine whether a part can be reliably orientated /aligned, a confidence test using actual pieces is necessary.

K-PZ0505

Specifications Part number

A 100 140

B 233 250

Dimensions mm C D1 E1 90 127 81 99 65 64

F 215 310

G1 293 398

Rated Rated voltage current V A

Frequency Mass Hz kg 4.0 6.0

Transporting disk dia. mm

Applicable work Applicable Applicable2 piece sizes mm controller unit Flat parts of 20 20 max.

4

K-UA105 K-UA106 K-UA107 K-UA108

1 2 3 4

100 200 100 200

0.15 0.08 50/60 0.15 0.08

80

K-EG277

3

120 Flat parts of 30 30 max.

K16 N25 N32, N40

Dimensions (D, E, G) are reference values for a unit tilt angle of 40°. For combination involving a bowl feeder other than (2), a separate special controller must be designed and fabricated. The applicable units (3) are only for 200 V, full wave drive type. A dedicated motor control unit is also required. For details, contact NTN Engineering.

G

85

B

10

adjustable

Spring untangling feeder

Spring untangling feeder

The spring untangling feeder, compact and self-contained, can reliably feed springs, simultaneously untangling coil springs that often become entangled.

Features

1. Effective spring untangling

The mechanical actions of rotor blades (pulsator) allows simultaneous untangling of virtually any kind of springs. overcomes the space problems associated with similar feeders from other companies.

3. Highly cost-effective

By simplified manufacture and the use of fewer parts, a highly cost effective piece of equipment (N25, N40 type) has been developed, without sacrificing the performance of conventional feeders.

370

2. Compact construction

Since the spring untangling mechanism of equipment (N25, N40 type) is incorporated in the unit, the outer dimensions are almost the same as those of standard series feeders, which

K16

210 290 adjustable

Applicable bowl Z2301

120

Separator case Pulsator

N25

Return lane Separator case Pulsator Driving motor

200

Bowl cover Bowl outer dia. 354 385 Upper vibratory member Lower vibratory member Rubber insulator Base

336

Motor

Applicable bowl feeder K16R

Spring separator (untangling unit)

N40

Return lane

520 Bowl cover Bowl outer dia. 504 465

The bowl cover (PVC) which prevents springs from jumping out is included as standard. To determine the maximum height to the top plate, add approximately 80 mm to the respective heights of models N25 and N40 in the above diagram.

d

Separator case Pulsator Driving motor

Upper vibratory member Lower vibratory member Rubber insulator Base 490

L

Model, size K16 N25 N40

Part number K-UP500 K-UP501 K-N25 RCM1 L K-N25 RCM2 L K-N40 RCM4 L

Rated Rated Vibration speed 1 voltage V current A cycles/min 100 200 100 200 200 0.2 0.1 4.2 2.2 4.1

Mass kg 2.5

Applicable Applicable bowl controller K-B16 R L Z2301 K-B25 ZD354 R K-B40 L ZD503

R L

D 2

Applicable works mm d L (max.) 5 0.15 0.3 0.8 0.5 1.5 2.0 18 30 45

100/120 65 50/60 140

2

K-EG277

3.0 8.0

12 20

Remark 1) Bowl attachments are estimated separately. Remark 2) To accurately determine if particular springs can be reliably untangled, a confidence test using actual work pieces is necessary. Remark 3) The sorting function operates pneumatically except for certain types of work pieces. 1 Refer to pages 13 through 19 in the section on "Bowl feeder dimensions and specifications." 2 A dedicated motor control unit is also required. For details, contact NTN Engineering.

D

One-touch bowl clamp

One-touch bowl clamp

With this bowl mounting adaptor, you can easily mount or detach a bowl simply by turning one center bolt two or three turns. When used in conjunction with a microcomputer-based variable frequency controller, this clamp greatly reduces bowl replacement time.

Features (1) The bowl can be quickly and easily replaced with two or three turns of the center bolt.

Flange K-PU-N25 K-N25 M Bowl

(2) Because the components of the clamp are lightweight, all necessary attachments can be mounted on the bowl. (3) This device can be used on a variety of solid or isolated bottom bowls. (It is compatible with NTN's standard bowls.) (4) The center bolt and fastening knob can be stowed in the rear of the bowl, allowing the bowl to be stored on a flatbed.

Center bolt Bowl bottom

Flange K-PU-N25 Fastening knob Adjustment nut

Part number K-UT003 K-UT006 K-UT004 K-UT007 K-UT005

1 2 1 2

Applicable unit K-N25 M Solid-bottom 3 type for Model N25 K-N25 M solated-bottom type for Model N25 K-B25 RZF30, L K-B25 RZF35, L K-B25 RKF35 L K-B25 RCD33, L K-B25 RZD30, L K-B25 RKD35 L

Applicable bowl K-B25 RZF301, K-B25 RZF302, L L K-B25 RZF351, K-B25 RZF352, L L K-B25 R CD39, K-B25R CD391, L L K-B25 RZD35 L

Straight wall Cone Cascade Straight wall Cone

K-N25 M

(Adaptor for vibratory drive unit: Part for installation on K-PU-N25)

1 This is a part number for a set of parts comprising a one-touch bowl clamp. 2 When more than one bowl is to be used, each additional bowl requires one set of parts of this part number. 3 The bowl must be provided with a hole for the center bolt (12.2-13.0 mm diameter drill).

Globalized parts feeder series

Globalized parts feeder series

Features

1. Globalized products for use outside Japan

NTN strongly supports its clients' efforts to export to European and North American markets. Consequently, these products conform to European CE marking and have acquired NRTL certification from the U.S.A. (which also conforms to the corresponding Canadian certification through the U.S.A.-Canada reciprocal-certification system).

2. A diverse product line

NTN globalized products feature a wide-ranging product line encompassing bowl feeders, linear feeders and standalone auxiliary hoppers.

Table of globalized products (as of October 2003)

Globalized product part No. K16 K-K16R L Y2 K-N25R L ZM2 K-N25R L ZF2 K-N25R L ZT2 K-N25R L ZH2 K-N25R L YM2 N25 K-N25R L YF2 K-N25R L YT2 K-N25R L YH2 K-N25R L WM4 K-N25R L WF4 Bowl feeder K-N25R L WT4 K-N25R L WH4 K-N40R L ZM2 K-N40R L ZT2 K-N40R L ZH2 K-N40R L ZM4 K-N40R L ZF4 K-N40R L ZT4 N40 K-N40R L ZH4 K-N40R L YM2 K-N40R L YT2 K-N40R L YH2 K-N40R L YM4 K-N40R L YF4 K-N40R L YT4 K-N40R L YH4 Part No. of product dedicated to Japanese market K-K16R L 32 Bowl feeder K-N25R L M2 K-N25R L F2 K-N25R L T2 K-N25R L H2 K-N25R L AM2 K-N25R L AF2 K-N25R L AT2 K-N25R L AH2 Linear feeder K-N25R L M4 K-N25R L F4 K-N25R L T4 K-N25R L H4 K-N40R L M2 K-N40R L T2 Hopper K-N40R L H2 K-N40R L M4 K-N40R L F4 K-N40R L T4 K-N40R L H4 K-N40R L AM2 K-N40R L AT2 K-N40R L AH2 K-N40R L AM4 K-N40R L AF4 K-N40R L AT4 K-N40R L AH4 V01 V03 V06 S10 N40 1 Globalized product part No. K-N40R L WM4 K-N40R L WF4 K-N40R L WT4 K-N40R L WH4 K-G50R L ZM4 G50 1 K-G50R L ZG4 K-G50R L ZT4 K-S10Z2 K-S10Y2 K-S20Z2 S20 K-S20Y2 K-S20W4 K-S20V4 S30 K-S30Z4 K-S30Y4 K-V01SZ4 K-V03SZ4 K-V06SZ4 Part No. of product dedicated to Japanese market K-N40R L 1M4 K-N40R L 1F4 K-N40R L 1T4 K-N40R L 1H4 K-G50R L 1M4 K-G50R L 1G4 K-G50R L 1T4 K-S10B2 K-S10C2 K-S20B2 K-S20C2 K-S20B4 K-S20C4 K-S30B4 K-S30C4 K-V01S4 K-V03S4 K-V06S4

Notes 1. The specifications for vibratory driving units for globalized products (rated voltage, current, leaf spring, mass, external dimensions, mounting dimensions, etc.) are the same as those of units intended for the Japanese market. For the specifications of a particular globalized product, see the specifications for the part No. intended for the Japanese market. 2. For applicable controllers, see page 73.

Notes 1. The CE marking acquisition process for a particular product includes a review of the final product and requires the submission of a self-declaration of conformity. If the specifications or appearance of the NTN parts feeder differs from that of the original parts feeder shipped from NTN because the unit has been incorporated into a system or has been modified by tooling, the client who has modified or is intending to export the system that has incorporated the parts feeder must submit a selfdeclaration of conformity for the entire system to be exported. 2. Controllers and vibratory driving units are tested in combination as a set (particularly for the EMC test). Conformity with CE marking and NRTL certification becomes invalid if the NTN globalized product is combined with an NTN product intended for the Japanese market or with a product from another manufacturer. 3. Post-processed products including bowls, tooling (aligning/orienting mechanisms) and the like are outside the scope of NTN's responsibility. A client who intends to export such products is responsible for undertaking the review and submitting a self-declaration for these products. Important: Conformity with CE marking and NRTL certification can be rendered invalid if the NTN globalized product is used in certain environments. For further information, contact NTN Engineering. The products listed on this page do not conform to the RoHS Directives.

Globalized controllers

Globalized controllers

Features

1. Globalization

These products conform to European CE marking and have acquired NRTL certification from the U.S.A. (which also conforms to the corresponding Canadian certification through the U.S.A.-Canada reciprocal-certification system).

2. Jogging function

A jog button is provided so that work pieces can be fed manually and delivered with ease.

3. Constant voltage function (Model K-EUA77)

To ensure stable feeding of parts, the output voltage is maintained at a constant level even when the supply voltage fluctuates.

4. Constant amplitude function (Model K-EUB77)

A powerful constant amplitude function is provided to ensure stable feeding of parts with increased precision.

Globalized controllers K-EUA77

120 100.4

POWER

K-EUB77 (Accessories: Vibration sensor, adjustment screwdriver)

120 151 100.4

POWER LIMIT

151

RUN

RUN STOP

RUN

RUN STOP

JOG

4 3 5 6 7 3 4

JOG

5 6 7 8 9 0 10

225

225

2 1 0 10

8 9

2 1

15

30

13

Part No.

K-EUA77 K-EUB77

1

74

Mounting hole 2- 7

30

15

13

74

Mounting hole 2- 7

Control functions

External control + synchronized operation External control + synchronized operation + constant amplitude control

Control capacity

6.0A

Applicable parts feeders

All models of NTN globalized parts feeders (See page 72.)

1 The included vibration sensor is Model K-P1396. The mounting system is the same as that for Model K-P1395 (page 45). For details about control functions and applicable parts feeders, contact NTN Engineering.

Model

Supply voltage Supply frequency Control-drive system Control capacity Soft start function Constant voltage function Constant amplitude function External control input Synchronized input/output Auto operation signal Mass

K-EUA77

50/60 Hz (switch-selectable) Phase control, full-wave/half-wave (switch-selectable) Max. 6 A (effective value) Available (fixed time setting) Output voltage remains within 5% in the event of a ±10% variation in supply voltage.1

K-EUB77

Single-phase, 100­115 VAC/200­230 VAC ±10% (switch-selectable)

Amplitude variation remains within 3% under a ±10% variation in supply voltage or work piece mass. 2 The parts feeder can be started or stopped with an external signal (polarized). Control with a PNP transistor is also possible. The controller has an I/O terminal that accepts a signal for switching between auto operation and individual operation. This signal is output to an external device to signal that auto operation is in progress. About 3 kg

1 This data is valid when the output voltage setting is 170 V or lower (or 85 V when the supply voltage is 100 V). 2 This is a representative value obtained when the output voltage setting falls in the range of 100 to 170 V (or 50 to 85 V when the supply voltage is 100 V). Note that the constant amplitude performance can vary depending on the adjustment of the spring on the feeder. Important: Conformity with CE marking and NRTL certification can be rendered invalid if the NTN globalized product is used in certain environments. For further information, contact NTN Engineering. The products listed on this page do not conform to the RoHS Directives.

Flexible feeder outline, features, and specifications

Flexible feeder

Adoption of the Z spring in place of the standard spring on NTN parts feeder can provide optimum vibratory characteristics that are ideally suited to the physical properties of specific product parts and further expanded applications. The Z springs are fully compatible with the vibratory drive units in the list below. Thus, the standard springs in your parts feeder can be replaced with the Z springs without any change in spring setting dimensions. ¡For high-speed feeding

Feeding state

To set the feeder for a high speed application, fit the spacer on the upper end of the Z spring fitting part, as shown in Fig.1. When feeding oil-contaminated pieces, or when parts feeding is sluggish due to a steep track slope, reverse the Z springs, and fit the spacer at the lower end of the Z spring fitting part as shown in Fig.3. In this manner, any of three kinds of vibratory angles including the standard angle can be selected. ¡For grade feeding

Feeding state

¡

Standard

Feeding state

1

2

3

If the parts feeder can be adjusted to a lower spring setting angle, the jump stroke of the parts fed will be smaller, and consequently, feeding can be made smoother and faster.

If the parts feeder is adjusted for a standard spring setting angle, its behavior will be intermediate between high-speed feeding and grade feeding. This setting will be suitable for virtually any standard product.

If the parts feeder is adjusted for a larger spring setting angle, the friction between the parts fed and the feeding surface will be greater. Consequently, grading will tend to be more stable, even at low speed.

Fig.1 A B

Fig.2

Fig.3 A B

Z spring Spacer

1

Z spring

Standard spring Use 2 spacers

1 2

Z spring

Z spring

3

3

Spacer

Use 2 spacers

Model and size of parts feeder K14 K16 N25 N40 Full wave K20 Half wave N40 Half wave G63 S20 S30

Spring setting angle

1 2 3

Part number of Z spring 28 29 22 22 25 25 27 27 21 K-PLS2-50 K-PLS2-67 K-PLS2-86 K-PLS2-86 K-PLS2-116 K-PLS2-116 K-PLS2-250 K-PLS4-70 K-PLS4-86 9-1 12-2 20-1 20-1 20-2 20-2 70-1 12-1 15-1

Part number of spacer K-P0430 K-P0427 K-P0426 K-P0426 K-P0408 K-P0426 K-P0408 K-P0426 K-P0423 K-P0411 K-P0431

Standard number per unit. Z spring (pcs.) 20 20 18 24 9 24 16 16 10 Spacer (pcs.) 4 4 3 4 3 Each 4 Each 16 2 2

12 15 8 8

2 2 3 1 1

13 13 9

20 22 15 15 15 15 20 20 15

High-speed type ( =5°) of K20(Half wave) and N40 (Half wave) are unavailable. For K20(Half wave) and N40 (Half wave), fit two spacers of different thickness on the Z spring fitting part shown in Fig.1B and 3B. For G63, fit two spacers of same thickness on the Z spring fitting as shown in Fig.1B and 3B.

Parts feeder spare parts

NTN parts feeder

K- PLS 2 - 86

20

Thickness mm 10 Spring hole pitch Number of spring holes Leaf spring code

Leaf spring, vibration isolating leaf spring

Leaf spring

D C A E F G T

Vibration isolating leaf spring 21 For HS05 2- 4.6 10.5 K-PLS5-18 3 0.3

Fig.1 18 27 4 13 35 40 20 7 7 0.4 28 38 6 26 4.5 3 15

B 2D C G A T

B A T

Fig.2

For HS07 K-PLS3-25

4

G

F

C

B

4-

D

Fig.3

Part number K-PLS4-32 K-PLS2-35 K-PLS2-35 K-PLS2-35 K-PLS2-50 K-PLS2-50 K-PLS2-50 K-PLS2-67 K-PLS2-67 K-PLS2-86 K-PLS2-86 K-PLS2-116 K-PLS2-116 K-PLS2-116 K-PLS2-150 K-PLS2-150 K-PLS2-180 K-PLS2-250 K-PLS2-250 K-PLS4-40 K-PLS4-70 K-PLS4-70 K-PLS4-86 K-PLS4-85 K-PLS4-85 K-PLS4-125 3.5 5 9 12 7 9 20 12-1 15 15 20 20 35-1 40 25 30 40 60 70 6 9 12 15 16 16-1 30

Fig. 3 1

A 25 46

B 14 35

C 5.5 5

Dimensions mm D E 5.5 5.1 2

25

F 32 5.2

G 44 10

64 64 87 87 106 2 136

50 50 67 67 86

7 7 10 10 10

8 7 10 9 12.2 12.2 13.5 12.2 14.2 19 21 7 7 10.5 13 13 13 28 35 50 120 240 330

14 14 20 20 35

116

10

35

174 215 300 54 3 88 106 115 115 155

150 180 250 40 70 86 85 85 125

12 17.5 25 7 9 10 15 15 15

40 50 50 42 50 80 150 270 360

T 0.35 0.5 0.9 1.2 0.7 0.9 2.0 1.2 1.5 1.5 2.0 2.0 3.5 4.0 2.5 3.0 4.0 6.0 7.0 0.6 0.9 1.2 1.5 1.6 1.6 3.0

Applicable unit Rubber insulator for S051 and S082 K10, S051, S05A, S082 HS05 HF10 K14 HF14 K16 L20 V01, SV01, SV03 N25, N40 Full wave N32, N40 Half wave K20 Full wave N32 Full wave N40 G50 G63 S10, HS07 V72 S20, M05 S30, M10, SV06 V01, V03, V04 V06, V08 V12 1 1

Spare parts for parts feeder

NTN parts feeder

K- PMG - 2 1 3

Number of bundled pieces Voltage Magnet size Magnet code

Magnet

22 15

28

22

20

8

6 2- 5.8 40.5

2- 4.8 33 21

12

3.5

20

28 11.5

41

24.5

12

28

35

12

31

21

2-M5 4 23.5 10 9

12

20 36

Fig.1

L

Fig.2

A E 3-M12 3- 9 C 2- 9

Fig.3

A E

Fig.4

C

B H G F

A

E I J

B

Fig.5

Fig.6

B

Fig.7

Part number

K-PMG-011-5 K-PMG-021-2 K-PMG-017-3 K-PMG-027 K-PMG-011-3 K-PMG-017-1 K-PMG-017-2 K-PMG-1 1-1 K-PMG-2 1 K-PMG-2 1-1 K-PMG-2 3 K-PMG-311-1 K-PMG-321 K-PMG-311-3 K-PMG-321-4 K-PMG-323 K-PMG-323-1 K-PMG-324 K-PMG-411-1 K-PMG-411-2 K-PMG-421-1 K-PMG-421-2 K-PMG-521 K-PMG-521-1

Fig.

1 2 3 4

A

B

C

D

Dimensions mm E F G

C

F

F

2-D Tapped

K

H

I

J

K

L

Applicable unit

S0511, S05A1 S0512, S05A2 S0821 S0822 HS05 HS07 HF14

58 78 78 78 90 5 90 90 90 90 90 90

50 75 75 75 87 87 87 87 87 87 87

43 48 48 48 60 60 60 60 60 60 60 M6 M6 13 13 28 28 28 28 M6 12 22

6.5 7 7 7 8.5 8.5 8.5 8.5 8.5 8.5 8.5

0 4 4 4 5 5 5 5 5 5 5

6 10 10 10 11 11 11 11 11 11 11

24 37 37 37 44 44 44 44 44 44 44

36 54 54 54 66 66 66 66 66 66 66

16 22 22 22 33 33 33 33 33 33 33

12 10 10 10 11 11 11 11 11 11 11

K10, S10, M05, V71 S20, L20, M10, SV01, SV03 K14 N25 3 pcs. bundled V01 K16 K16 N32·2, half wave, 3 pcs. bundled N32·2, full wave, 3 pcs. bundled N40, N40 K20 100V K20 100V K20 200V K20 200V G63 G50 2 1 1 4 pcs. bundled V08 V12, SV06 S30, V01

6

110

70

75

80

56

7

144

82

75

128

60

39

13 16

35

Parts feeder spare parts

NTN parts feeder

K - PIR - 40

Rubber insulator outer dia. Rubber insulator code

F-shape magnet, rubber insulator, armature

F-shape magnet

A 2-D Tapped C C B

Rubber insulator

D D C 30

40 24

12 B 32

9 M8 Fine thread

E

B

D A H G A

Fig.1

Fig.2

Fig.3

Part number K-PMG-119-1

A 58

B 34

Dimensions mm C D E F 34 M4 16.6 24

G 39

H 22

Applicable unit HF10

Dimensions mm Part number Fig. A B C D E K-PIR-15 K-PIR-25 K-PIR-301 K-PIR-40 K-PIR-50 1 1 3 2 2 15 15 15 M5 15 25 20 8 M6 18 40 30 13 M8 50 40 17 M10

Applicable unit K14 K16, S10, S20, V72, SV01, SV03 HF10, HF14 N25, S30, V01 V08, K20 N32, N40, N40 1, G50, G63 2, V12

Armature

B

2-M5 Tapped Thru E A F 41 14 28

16 28 60 80 20 10 6 4.5 50 29 96 2-M3 Tapped 12 Fig.4 Fig.5 16

D

G

G B 2-D Tapped C

E 75 A

6 2-F 6 C 12 13 18 12

20 11

3

22

Fig.1

Fig.2

Fig.3

Part number Fig. K-P0300 K-P0301 K-P0302 K-P0303 K-P0317 K-P0310 K-P0311 K-P0315 K-P0314 K-P0316 1

A 36 54 66

B 16 20 22 20 22 60

Dimensions mm C D E 16 22 33 22 33 17.5 M5 10 M6 13 100 30 34 40

16

F 6.5 7 8.5 7 8.5 12

G 4 4 5 4 5 15

Applicable magnet K-PMG-1 1-1 11 K-PMG-2 23 K-PMG-311-1 K-PMG-321 K-PMG-32 3 K-PMG-323 K-PMG-323-1 4 K-PMG-2 11-1 2 K-PMG-311-3 K-PMG-321-4 K-PMG-521 K-PMG-017- 1 2 K-PMG-011-3 K-PMG-521-1 K-PMG-411- 1 K-PMG-421- 1 2 2

1 2

54 66 2 105 3 4 2 105 5

60

17.5

70

40

M10

35

8

18

23

F

E

D nut

Parts feeder spare parts

Dimensions of parts feeder peripherals

Bowl mounting flange

K-P0100 For N25 Material; Aluminum K-P0129 For N32 Material; Aluminum K-P0101 For N40 Material; Aluminum

P.C.D250 225

0 -0.15

8-7 Drill

P.C.D400

0 365 -0.5

6-9 Drill

25

165+0.15 +0.05

300

0.5 0.1

Bowl center fixture

K-UT001 For B25 Material; Aluminum SS400 SUS303 K-UT002 For B40 Material; Aluminum SS400 SUS303 K-P0220

Aux. weight

For K10 Material; FC200

P.C

.D8

8

100 5

4-

7

80 140

Narrow type mount

K-UH003

130

For S10 Material; FC200

K-UH006

150

For S20 Material; FC200

7 34 60 90

47.5

20

190 230

20

13

20 30

270 310

K-PZ0086 2-Hex. socket head bolt M6 30 K-PZ0084 2-setscrew M8 10 K-PZ0085

30

K-PZ0094 4-indentations M8 8 K-PZ0084 K-PZ0090 2-indentations M8 8 60

MAX.370

30

13

45

20 60

110 140

100

40

9

30 10

9

10

10

20

12

130

60

MAX.370

40

12.5

20

7

95 127.5

30

70

27

35

Dimensions of parts feeder peripherals

Fixed type mount

4For S10, 20 9 Material; SS400 K-PZ0530 For S30 Material; FC200

310 11

Height adjusting plate

K-PZ0087 For K10 Material; SS400

2-M10 2200 7

B C

D 4

70

84

4-M10 Nut

160

A

0 D12 P.C.

H

40

Unit mm

350

4-M12

4-M6 84 2-Hex. screw head bolt M6 30

Component part number

H 100 150 200 70 110 150

A 110 110 110 155 155 155

4

B 90 90 90 135 135 135

C 120 120 120 160 160 160

D 140 140 140 185 185 185

Applicable to

K-PZ9514 K-PZ9515 K-PZ9516 K-PZ9517 K-PZ9518

S10 S10 S20 S20 S20

150

K-PZ9513

S10

15 15

138 9 2-setscrew M10 20

Stay mounting parts

K-PZ0501

20

For N25 Material; FC200

R168

K-PZ0502

For N25 Material; FC200

R168

K-PZ0568

For N32 Material; FC200

R205

18 10

18 10

18

20

20 25

20 230 2-Hex.socket head bolt M6 30 2-M6 Screw 30 27 20 15 7 7 41 44 14 7 2-Socket head bolt M6 30 70

10

25

20 2 7 30

2-M6 Screw

(20)

2-M6 Screw 15 7

2-Socket head bolt M6 30

41

74

9

9

(120)

9

(120)

(122)

Stay mounting parts

K-PZ0569 For N32 Material; FC200

R205

K-PZ0511

For N40 Material; FC200

20 R245

K-PZ0512

For N40 Material; FC200

R245

10

10

20 25

18 10

18

18

2-Socket head bolt M6 30

(70)

2-M6 Screw

30

20 2- 7 2-Socket head bolt M6 30

2-Socket head bolt M6 30

2 2-M6 Screw 7 14 30

7 20 15 7 9

2-M6 Screw 15 7 74

70

30

2- 7 20

41

41

41

44

9

9

(122)

(120)

(120)

44

41

74

Dimensions of parts feeder peripherals

Stay mounting parts

K-P1153 For 15 Material; Aluminum

54 25

K-P1152

For 15 Material; FC200

8

K-PZ0509

For 15 Material; FC200

Set screw M6

35 10 26 30 42 54

15

2-

7

2- 15

17 58 2-Socket head bolt M6 18 25 45 15 15 2- 7 26

25

2-set screw M6 8 50

20 34

26

17

15

Stay mounting parts

K-PZ0503 For 20 Material; FC200

20 40 2- 7 40 60 4 30 60 80 4- 7 32 20 30 40 20 20 9 2-M6 220 40

R 5

K-PZ0504

For 20 Material; FC200

K-PZ0505

For 20 Material; FC200

230

7

10 7

1

70 R15 70 16 13.5 36

M6 Tapped 20

2-Set screw M6 8 70 5 12 43 11 35

38

Clamps

K-P0800 For N25 Material; FCD50 K-P0801 For N32, N40, G50 Material; FCD50 K-PZ0510 For standard round base Material; FCD50

22 30

11

17

17 30 40

21

11

25 75 85

25

25 90 105

30

43 110 120

30

10 9

7 8

19 21

23 18

27 30

2

8

8

12

92

2

12 10

60

15

10

NTN Parts Feeder Estimate Request Sheet

For correct design and estimates, please complete the bold outlined sections, and supply three or more specimens of the work pieces you intend to feed, along with associated drawings for reference.

Date Month Year

Estimation classification

Company Name Postal code Address

Department Tel No.

1. Formal estimation 2. Rough estimation 3. Alignment judgment capability

Receipt date Inquiry < Job description

Requested reply date Part shape and alignment posture

Person in charge

Name

Fax No.

End user Required quantity Name Operation Customer End user Description/Material Work Aligning requirements Power supply Remarks Projected budget Connected machines Parts feeder specifications Weight/Burr Foreign matter/ Residual liquid g/Yes Yes Max. Feed rate Normal Min No. of Feeding lines Allowable noise level Voltage Frequency Frequency conversion Yes No Types Work capacity Atmosphere 100V 200V Your site 50 Work responsibility Work site Assembling machine Processing machine Cycle time Dust, mist present sec. pcs .m/min high 60Hz No No Water-base Rust prevention oil Oil-base Cutting fluid Rinsing liquid m/min/line m/min/line m/min/line Requested delivery date Code

Date Month Year

CW

top view Aligning direction is commissioned to NTN

Contact person

Code

CCW Up

Yes No pcs./min/line pcs./min/line pcs./min/line

Down side view Connecting chute

Lines Success rate dB A scale V User's site 50 You Your site User 60Hz Required Not required NTN Linear feeder Required Not required Commissioned to NTN Hopper Required Not required Commissioned to NTN

A a b c

Type

Vibratory trough length

a Horizontal top b Downward ° required c Vertical fall A mm required

NTN

User's site

K

Commissioned to NTN mm

temperature, humidity

Type Tank material Input amount Type Control

Bowl inside type Detached type Commissioned to NTN

Steel

SS

Commissioned to NTN hour/time

Attachments, etc.

Intended unit type K Type Bowl Material Al

Commissioned to NTN

Cascade Straight wall Commissioned to NTN Cone Dish

pcs./time

aFeeding works w/ enough intervals Escapement Required Not required

bAbove requirement keeping a specific position Your company NTN Control VAC DC V Available kg cm2 or more Unavailable

Supplying direction CW

CCW Decided later Ss Commissioned to NTN

Inside treatment Commissioned to NTN Control of feeding over aControl in the bowl System

Polished Urethane rubber coated

Compressed air K-series Paint color N-series Base plate, etc.

Particular color

NTN standard Silver and black Gray Munsell N-6.0 Black

bPhotosensor or proximity sensor Purchase Your company Your company Your company NTN NTN

NTN Your company

Sensor

Installation Control

Base plate NTN

A

Attachment opening

aHorizontal discharge

Mount plate Required Not required

Rack Carrier

Works outlet height Slide handle serial No. No Send to:

mm Required Not required

a b

bDownward °discharge A mm required

Repeat order Similar item has been shipped

Original inquiry No. Yes Inquiry No.

NTN CORPORATION

Contact person

Head Office/3-17, 1-chome, Kyomachibori, Nishi-ku, Osaka, 550 Japan Phone: 81-6-443-5001 Telex: J63750, NTN CORP. Fax: 81-6-445-8581

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