AC Servo Motor Driver (CC-Link Type ）

P . (12.1) A K T where, A : Heat dissipation area [m2] P : Loss generated in the control box [W] T : Difference between internal and ambient temperatures [ ] K : Heat dissipation coefficient [5 to 6] When calculating the heat dissipation area with Equation 12.1, assume that P is the sum of all losses generated in the enclosure. Refer to Table 12.1 for heat generated by the driver.

CG5-S

47 10 85 93 Clevis pin and snap ring are packed together. 5 Stainless Steel Cylinder Series CJ5-S Accessory Dimensions Single knuckle joint Clevis pin Knuckle pin MM ND hole H10 L L l t t l t t RR1 m m m m d Dd9 d Dd9 0.1 0.3 NX +0.2 0 A1 U1 L 7 12 Material: Pin and snap ring both SUS304 Material: SUS304 Material: Pin and snap ring both SUS304 Part no.

Table of Contents

Wall mounting z y P. 8-13-5 Wb: MGGLB25-200 (4.35 kg) x y x z Wa: Connection plate t =10 (880 g) MY2H40G-500 3. Ceiling mounting P. 8-13-5 4.

Hygienic Design Cylinder Series HY

P UA [ 3] 2 x PE (4.7) PA (Supply port of head end) F C H 11.5 (Supply port of rod end) P [ 25] MA PB + Stroke N E A + Stroke B + Stroke (Supply port of head end) P (Plug: Width across flats PF) (Supply port of rod end) P (Plug: Width across flats PF) [SB] [SA] M5 x 0.8 (Plug: Width across flats 8) Note 3) (Breathing port on guide) PD QA PA PB + Stroke (mm) A B P Bore size C D E F G H J

CG5-S

Applicable bore size (mm) A1 L NDd9 MM B C d H B C d H 0.030 0.060 0.030 0.060 Y-J010SUS 10 SNJ-016SUS 10 NTJ-010SUS 10 3.3 14 7 8 15.2 21 M4 x 0.7 16.2 M10 x 1.0 4 8.1 M4 x 0.7 3.2 Y-J016SUS SNKJ-016SUS NTJ-015SUS 16 16 16 5 17 8 11 16.6 21 M5 x 0.8 19.6 M12 x 1.0 4 9.2 M5 x 0.8 4 NDH10 U1 NX R1 Part no. +0.048 0 Y-J010SUS 3.3 3.2 8 10 +0.048 0 Y-J016SUS 5 6.5 12 10 Rod end cap T-bracket

AC Servo Motor Driver ( ＳＳＣＮＥＴⅢ Type ）

P . (10.1) A K T where, A : Heat dissipation area [m2] P : Loss generated in the control box [W] T : Difference between internal and ambient temperatures [ ] K : Heat dissipation coefficient [5 to 6] When calculating the heat dissipation area with Equation 10.1, assume that P is the sum of all losses generated in the enclosure. Refer to Table 10.1 for heat generated by the driver.

CJ5-S

Accessory Dimensions Single Knuckle Joint Clevis Pin Knuckle Pin MM L ND hole H10 L l t t l t t m m R1 m m d Dd9 d Dd9 0.1 0.3 NX + 0.2 0 A1 U1 RE A B L1 7 12 REC Material: Stainless steel 304 Material: Pin and snap ring both stainless steel 304 Material: Pin and snap ring both stainless steel 304 Part no.

CJ5-S

e t q o i r y !

21

P(2) P(1) P(1) Note 1) P P P P P P P P P P P P P P P P P P P P P P P P P Note 5) P Basic Foot Rod flange Head flange Integral clevis Single clevis Double clevis Note 3) Note 1) Note 1) P(1) Note 2) P(1) Note 2) P(1) P(1) P(1) Rod trunnion Head trunnion Boss-cut/Basic Boss-cut/Rod flange Boss-cut/Rod trunnion Note 1) Mounting nuts are not attached to the integral clevis, single clevis and

Dual Rod Cylinder Series CXSJ/CXS

) N Z L V (Opposite side: Same) QQ TT Q T U R UU (Piping port) (Opposite side: Same) Z L I N W G NN (mm) A B C D E G H I J K L M N P NN F Model 2 x 5.5 through 2 x M4 x 0.7 thread depth 6 2 x M5 x 0.8 thread depth 7.5 2 x M5 x 0.8 thread depth 8 CXS20 64 25 62 23 11.5 50 28 6 12 12 30 10 53 2 x M5 x 0.8 2 x 9.5 counterbore depth 5.3 2 x 6.9 through CXS25 80 30 78 28 14 60 35 6 12 12 30 12

Electric Grippers

4 q u w e r t !7 Component Parts No.

JXCx-OMT0023

device selection 3 (CN1-11) P, S, T PC12 TC Internal torque command T PD18 *DO4 Output signal device selection 4 (CN1-12) P, S, T PC13 *ENRS Encoder output pulses selection P, S, T PD19 *DIF Input filter setting P, S, T PC14 TL2 Internal torque limit 2 P, S, T PD20 *DOP1 Function selection D-1 P, S, T PC15 ERZL Error excessive alarm detection level P, S, T PD21 For manufacturer setting PC16

Integrated Controller

L Speed: V [mm/s] Cycle time: T can be found from the following equation. a1 a2 T = T1 + T2 + T3 + T4 [s] T1: Acceleration time and T3: Deceleration time can be found by the following equation. Time [s] T1 T2 T3 T4 T1 = V/a1 [s] T3 = V/a2 [s] T2: Constant speed time can be found from the following equation.

CNG

t t t B1 H1 Dd9 Applicable bore size (mm) L L Dd9 d l l d m t Applicable bore size (mm) Part no.

CNG

t t t B1 H1 Dd9 Applicable bore size (mm) L L Dd9 d l l d m t Applicable bore size (mm) Part no.

Compact Manifold Regulator Series ARM5

V L4=50+T+X 50 SMC H H L L O O S S U U C C P P K K 8 U 57 (at handle locked) DIN rail part no.

New

g d C J IN OUT G1/2 j f 2 x M Depth 5 J J IN OUT H G A 2 x P Port size B B1 2 x M Depth 5 H B1 G A 2 x P Port size B i b Faston type D 11 Q F Terminal part Faston connector 250 Series Bracket mounting hole dimensions a1 (VXZ23, 25) Note) a a1 (VXZ24, 26) Note) 11 E C R 9 6.5 6.5 IN OUT 15 2 x M Depth 5 H B B1 G A 10.5 2 x P Port size (mm) Model A B B1 C D E F G Port size P 1/4, 3/8 1/2 3/

Table of Contents

Bore size Standard stroke (mm) MM YY L X K W J V H GA GB TA TB U G T F S DA R C Z NN Q B ML P PW YL (mm) 12 16 20 25 18 50 13 5 16 40 58 5 7.5 5 36 29 56 8 22 6 48 29 12 14 39 7 10, 20, 30, 40, 50, 75, 100 M4 x 0.7 10 M4 x 0.7 M5 x 0.8 7 M4 x 0.7 11 22 54 15 7 18 42 64 2.5 8 5.5 38 33 62 8 25 8 52 33 13 16 43 8 10, 20, 30, 40, 50, 75, 100 M5 x 0.8 13 M5 x 0.8 M5 x 0.8 5 M5 x 0.8 11 20, 30

Electric Rotary Table

= Tf x 1.5 Note 1) Necessary torque: T = Ta x 1.5 Note 1) Necessary torque: T = Ts Resistance load: Gravity or friction force is applied to rotating direction.

Air Cylinder

E N T S Air Cylinder CJ2 Series Air Cylinder: Standard Type Double Acting, Single Rod CJ2 Series How to Order P.46 Specifications P.47 Construction P.49 Dimensions P.50 Dimensions of Accessories (Options) P.63 Precautions P.63-2 Air Cylinder: Standard Type Double Acting, Double Rod CJ2W Series How to Order P.64 Specifications P.65 Construction P.67 Dimensions P.68 Air Cylinder: