NCA1

D MP2 Double Detachable Rear Clevis T MT4 Center Trunnion C MP4 Single Detachable Rear Clevis Rod Boot Without Boot J Nylon Boot K Neoprene Boot X MP1 Double Rear Clevis S MS2 Side Lug U MT1 Rod Trunnion J MT2 Head Trunnion Standard Stroke Inches Air Cushion Both Ends N None H Head End R Rod End Stroke Hundredths Of An Inch Mounting Bracket Part Numbers Part Number Mounting Bracket

MHS

J)3-40DA MHSH(J)3-40DB M50.8 3.2 10 MHSH(J)3-50DA MHSH(J)3-50DB M61 7.3 12 MHSH(J)3-63DA MHSH(J)3-63DB M81.25 18 16 MHSH(J)3-80DA MHSH(J)3-80DB M81.25 18 16 10 MHSJ3MHSH(J)3 MHS2 Nm MHSJ3-16D MHSH3-16D M30.5 0.88 Nm MHSJ3-20D MHSH3-20D M30.5 0.88 MHS2-16D M30.5 0.88 20D M30.5 0.88 MHSJ3-25D MHSH3-25D M30.5 0.88 25D M30.5 0.88 MHSJ3-32D MHSH(J)3-32D M40.7 2.1 32D M40.7 2.1 40D M50.8 4.3 MHSJ3

MXS Series Air Slide Table

Absorbing Energy ft lb (J) Absorbing Stroke mm Max. Impact Speed mm/sec Max. Frequency cycles/min Max.

MXS

J J mm Nm Nm Nm Nm Nm mm/s Load equivalent to collision Max. allowable static load Load rate Allowable static load coeficient Allowable moment coeficient Damper coeficient Work mounting coeficient 3.11-11 Series MXS Dimensions MXS 6 2-M2.5 X 0.45 thread 3 deep Operating port 2-M3 X 0.5 6 3 2 J I 5 Max. 10.5 (With stroke adjuster at retraction end) Basic style 5.5 3 5.5 5.5 3 6.5 2-M2.5 X

Vacuum Pad: Ball Joint Type, Series ZPT/ZPR

32 F J/K10-0-A14 (With Buffer) S S M14 x 1 M14 x 1 Width across flats 19 I 5 Width across flats 19 5 I 5 J 5 J Width across flats 12 Width across flats 12 Applicable tube O.D.

Vacuum Pad: Ball Joint Type Series ZPT/ZPR Pad Diameter: ø10, ø13, ø16, ø20, ø25, ø32, ø40, ø50 1

H I J K Stroke 5 5 D C 20 +38 +10 +28 I 30 +48 +20 40 +84 +30 +54 50 +94 +40 J H F Width across flats 7 Hexagon width across flats 12 M8 x 1.25 Y 2.5 A B Stroke 20 to 50 mm Dimensions: 10 mm Stroke (mm) A B C D F H I J Y Model ZPT40F10-B01-A14 40 43 12.5 18.5 39 51.5 118 5 50 ZPT50F10-B01-A14 50 53 13.5 19.5 40 52.5 119 6 Additional Dimensions by Stroke (mm) I J H Stroke 20 +10 +5.5 0 30

Vacuum Pad: Ball Joint Type

Series ZPT F 10-0-A14 (With buffer/One-touch fitting) 20 25 32 J K ZPT F 10-0-A14 (With buffer/One-touch fitting) 40 50 J K Applicable tubing O.D.

Magnetically Coupled Rodless Cylinder Series CY3 B R /CY1 1

W K CY1RG50/63 HB HC N X MX H MTS CB HA 2-P (Piping port) 4-J x E (Depth) 4-Counterbore dia.

MXQ

of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Find the allowable kinetic energy Ea (J).

RB/RBL/RBQ

J J N m/s2 1.

MY1

depth K M5 x 0.8 (Hexagon socket head plug) XX XX M5 x 0.8 (Port) VV VV 2-M5 x 0.8 (Hexagon socket head plug) 2-M5 x 0.8 (Hexagon socket head plug) MY1CG MY1CG (mm) LH A B C G GA GB H K J LD L LL LW M MM N NC Model A B C G GA GB H K J LD L LL LW M MM N NC LH 6 16.2 6 M4 x 0.7 MY1C16 22.5 80 3.5 13.5 8.5 40 10 M5 x 0.8 3.6 80 40 54 20 14 7.5 20 7.5 MY1C20 23 100 4.5 12.5 12.5 46 12 M6 x 1

RSQ

QA Tubing O.D. 6 J QB Q F Built-in One-touch Fittings Stroke 13 20 Stroke 8 Applicable tubing O.D.

ML2B

A G G 2-PA (Hexagon socket head taper plug) I F B + Stroke 2-PA (Port for operating cylinder) J J J J D D 2-PB 2-PB 2-MB, Depth LB II II (Hexagon socket head taper plug) (Hexagon socket head taper plug) J J 28 32 36 G 30 37 45 J 40 46.5 55 DD 11 15 16.5 A 110 140 170 H 73 88 106 EE 14.5 16 22 K 46 58 68 FF 63.5 77.5 95 L 45.5 54 64 GG 22 27 35 M 30.9 32.4 41.4 HH 24 32 37 N 16 15 19 O 69

Floating Joint

J J Centering is unnecessary. A high level of machining accuracy is unnecessary. Spherical rotation The installation time is dramatically reduced. It is compact and is suitable for high tensile stresses.

ML2B

A G G 2-PA (Hexagon socket head taper plug) I F B + Stroke 2-PA (Port for operating cylinder) J J J J D D 2-PB 2-PB 2-MB, Depth LB II II (Hexagon socket head taper plug) (Hexagon socket head taper plug) J J 28 32 36 G 30 37 45 J 40 46.5 55 DD 11 15 16.5 A 110 140 170 H 73 88 106 EE 14.5 16 22 K 46 58 68 FF 63.5 77.5 95 L 45.5 54 64 GG 22 27 35 M 30.9 32.4 41.4 HH 24 32 37 N 16 15 19 O 69

CJ2

10 0.035 J Allowable kinetic energy MB 0.090 J 16 No freezing MB1 Standard Stroke (N) Spring Force CA2 Made to Order Specifications (For details, refer to page 6-17-1.)

LEH_C

-4 M30.5 0.9 6 LEHZ(J)16(L)K2-6 M40.7 1.4 6 LEHZ(J)20(L)K2-10 M50.8 3.0 8 LEHZ(J)25(L)K2-14 M61 5.0 10 LEHZ32K2-22 M61 5.0 10 LEHZ40K2-30 M81.25 12.0 14 17 - LEHF [Nm] LEHZ(J)10(L)K2-4 M30.5 0.9 LEHZ(J)16(L)K2-6 M30.5 0.9 LEHZ(J)20(L)K2-10 M40.7 1.4 LEHZ(J)25(L)K2-14 M50.8 3.0 LEHZ32K2-22 M50.8 3.0 LEHZ40K2-30 M61 5.0 [Nm] L[mm] LEHZ(J)10(L)K2-4 M40.7 1.4 6 LEHZ(J)16(L)K2-6 M40.7 1.4 6

MY1

A Model Model 15 15 181 221 9 9 MY-J 80 MY-J100 MY-J 80 MY-J100 Note) Flat bar or round bar mounting are possible for the support bracket (slanted lines) mounted by the customer. The floating bracket is packaged with (4) hexagon socket head cap screws and (2) parallel pins at the time of shipment.

ø 40, ø 50, ø 63, ø 80, ø 100 Series CLA2 Fine Lock Cylinder Double Acting, Single Rod

With rod boot/cushion Built-in Magnet Cylinder Model Rod boot Nil Without rod boot J Nylon tarpaulin K Heat resistant tarpaulin If a built-in magnet cylinder without an auto switch is required, there is no need to enter the symbol for the auto switch. (Example) CDLA2L40-100-E Cylinder stroke [mm] For details, refer to page 2.

CY1

Refer to page 30 for details regarding Series CY1S with shock absorber. 23 Series CY1S Model Selection Method 1 Operating conditions E: Kinetic energy of load (J) W V 2 E = x () 2 1000 Es: Allowable kinetic energy for intermediate stop using an air pressure circuit (J) Ps: Operating pressure limit for intermediate stop using an external stopper, etc.