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For encoder connector Screw size: M2 Tightening torque: 0.1 N m For brake connector Screw size: M2 Tightening torque: 0.2 N m For power supply connector Screw size: M2 Tightening torque: 0.2 N m -16- 4.4 Handling Warning 1. Do not touch the motor during operation. The surface temperature of the motor can increase to approx. 80C due to operating conditions.

https://smccatalog.partbuilder.smcpneumatics.com/dl_catalogs/assets/manual/en-jp/files/LEKF-OMZ0035.pdf

Electric Slide Table / High Precision Type 《 AC servo motor 》

For encoder connector Screw size: M2 Tightening torque: 0.1 N m 2.4 Handling For brake connector Screw size: M2 Tightening torque: 0.2 N m For power supply connector Screw size: M2 Tightening torque: 0.2 N m Warning 1. Do not touch the motor during operation. The surface temperature of the motor can increase to approx. 80C due to operating conditions.

https://smccatalog.partbuilder.smcpneumatics.com/dl_catalogs/assets/manual/en-jp/files/LESx-OMZ0014.pdf

11- Series MXP/MXPJ6 Air slide table 22- ø6, ø10, ø12, ø16

x 0.4 depth 2.2 12 Metal stopper 11-/22-MXP6-10 Max. 10.5 F 4-M3 x 0.5 depth 3 12 2-M2 x 0.4 depth 3 (mm) E F H J M Q QL S W Y Z AA Model 23 25 38 33.5 37 28 8 5 42 22 45 2 11-/22-MXP6-51 30 35 42 48.5 47 37 11 10 53 27.5 60 9.5 11-/22-MXP6-10 101 Air slide table MXP/MXPJ6 11221122Dimensions: MXP10 2-M3 x 0.5 depth 5 Z 3 Metal stopper V K C 4 5 C Max. 5.5 20 G Without stroke adjuster N M

https://www.smcpneumatics.com/pdfs/mxp_clean.pdf

CL

Static Load) 40 1 2 Ek= m2 Bore size 1000 Holding force (N) 32 500 25 20 60 40 50 0 0.1 0.2 0.3 0.4 0.5 Load weight (kg) 40 Air pressure to pressurized lock port (MPa) 32 Cautions when Locking Caution 40 30 25 20 32 The holding force is the lock's ability to hold a static load that does not involve vibrations or impacts, when it is locked without a load.

https://www.smcpneumatics.com/pdfs/smc/70acl.pdf

MK

3 I = m a2 12 I = m2 2r 2 5 4.1-21

https://www.smcpneumatics.com/pdfs/smc/70amk.pdf

MRQ

Referring to case u where "W2" is a sphere, 4a +b 2 2 2 4a +b 2 1 2 1=m1 +m2 12 12 2 r K=m2 5 2 tThin rectangle board (Parallelogram) !0Gear transmission Position of rotation axis: Passes through center of gravity and perpendicular to the board. (Same formula regardless of board thickness.) 1. Find moment of inertia1B around the rod (B). 2.

https://www.smcpneumatics.com/pdfs/smc/70amrql.pdf

V100

Mounting thread is also reinforced from size M1.7 to M2.

https://www.smcpneumatics.com/pdfs/smc/70d3ssolenoid.pdf

Rotary Table/

Find the inertial moment B for the rotation of shaft (B). 3 + m2 a22 + K (Example) When shape of m2 is a sphere, refer to 7, and K = m2 2r2 2.

https://www.smcpneumatics.com/pdfs/smc/70amsq.pdf

Low Profile

: 6 or more Tightening torque: 0.1 to 0.14 Nm 3 4 4 1.7 1.7 11.6 0.8 2.45 1.5 2.3 (Lead wire AWG#26) 300 54 3.4 10 5 3 3 1.7 10 Base hole dimension w Mounting screw (Included) M2 x 11 2 x M2 x 0.4 Thread depth: 6 or more Tightening torque: 0.1 to 0.14 Nm 3 4 4 (11.6) 4 4 2.1 1.7 1.7 3 2.45 Universal 0.8 4.9 10 2 (OUT) 1.5 2.3 1 (SUP) 3 (EXH) 3 3 1.7 3 (EXH) port 1 (SUP) port 2 (OUT) port

https://www.smcpneumatics.com/pdfs/sx90_090.pdf

Rotary Actuator Vane Style Series CRB2 Size: 10, 15, 20, 30, 40 1

M1 M2 Body (B) N Body (A) 2-R A port S N A port B port 2-R Y Y A1 M1 A2 SMC SMC J 27 H X For single vane: Above illustrations show actuators for 180 when B port is pressurized.

https://www.smcpneumatics.com/pdfs/crb.pdf

CRB2/CRBU2/CRB1

M1 M2 Body (B) N Body (A) 2-R A port J E2 H E1 F S N A port B port 2-R CRB1 Y Y A1 M1 A2 P 6-Q X A1 (mm) R (RC) E2 (h9) F (h9) E1 (g6) V B W C Model A1 D G M2 X U A2 Y H N P J Z M1 S Q K T L CRB1BW 50CRB1BW 50-E CRB1BW 63CRB1BW 63-E CRB1BW 80CRB1BW 80-E CRB1BW 100CRB1BW 100-E 26 21 29 27 30 29 35.5 38 18 22 30 32 14 18 15 25 20 30 24 38 M6 x 1 depth 9 12 0.006 0.017 11.9 0 0.043 25 0

https://www.smcpneumatics.com/pdfs/smc/70ancrb.pdf

Rotary Cylinder Series MRQ Size: 32, 40 1

Load at end of lever Position of rotational axis: Perpendicular to the plate through one end 2 1 2 2 a + K = m1 + m2 3 a Ex.) When shape of W2 is a sphere, refer to u, and 4a + b 2 1 2 4a + b 2 2 2 = m1 + m2 12 12 It becomes K = m2 2r2 5 5. Thin rectangular plate (Rectangular parallelepiped) 10.

https://www.smcpneumatics.com/pdfs/smc/70armrq.pdf

Table of Contents

M1 M2 Body (B) N Body (A) 2-R A port S N A port B port 2-R Y Y A1 M1 A2 SMC SMC J 27 H X For single vane: Above illustrations show actuators for 180 when B port is pressurized.

https://www.smcpneumatics.com/pdfs/smc/70arrotary.pdf

Rotary Actuator Vane Style Series CRB2 Size: 10, 15, 20, 30, 40 1

M1 M2 Body (B) N Body (A) 2-R A port S N A port B port 2-R Y Y A1 M1 A2 SMC SMC J 27 H X For single vane: Above illustrations show actuators for 180 when B port is pressurized.

https://www.smcpneumatics.com/pdfs/smc/70arrotaryv.pdf

Table of Contents

Allowable M1 (= M3) moment (Nm) Load weight (kg) Cylinder stroke (mm) 32 Allowable Moment (M2) (Nm) 10 16 20 25 Bore size (mm) CXWM 0.108 0.549 0.809 1.029 2.695 Cylinder speed (mm/s) CXWL 0.108 0.549 0.809 1.201 2.695 Note) M2 is steady regardless of the strokes. 8-26-6 5 Series CX Before Operation 1. Changing from the non-auto switch specifications to the auto switch specifications 2.

https://www.smcpneumatics.com/pdfs/smc/70astgguide.pdf

Mechanically Jointed Rodless Cylinder with Brake, Hy-rodless Cylinder Series ML1C ø25, ø32, ø40 1

Calculate (1) (Wmax) from the graph of max. payload (W1, W2, W3) and calculate (2) and (3) (Mmax) from the maximum allowable moment graph (M1, M2, M3).

https://www.smcpneumatics.com/pdfs/smc/70astlml1c.pdf

Thermo-chiller

+ 0.43 m2 0.37 m2 0.19 m2 965 mm 970 mm 500 mm 445 mm 377 mm 377 mm Globally compatible power supplies 50 Hz 60 Hz 50/60 Hz Power consumption reduced by 17% Energy saving 3-phase 200 VAC 3-phase 200 to 230 VAC 3-phase 380 to 415 VAC 3-phase 460 to 480 VAC Single-phase 200 to 230 VAC HRLE Series : HRLE090 : HRLE050 CAT.ES40-75A A Circulating Fluid Temperature Controller Thermo-chiller Compact

https://www.smcpneumatics.com/pdfs/hrle.pdf

IZN10_C

IZN10 IZN10 IZN10 IZN10 01 01 01 01 P P P P 06 06 06 06 Z Z Z Z B1 B1 B1 B1 IZN10 AC 01 02 11 Rc1/8 NPN P PNP 06 6 07 6.351/4) 16 6 ( 17 6.351/4() (3m) Z (10m) N IZN10-NT L DIN IZN10A002 IZN10B1 L B2 B3 DIN 01 06 ES 2 01 ES 17mm 2 2 02 3 3 11 Rc1/8 4 4 /IZS30 /IZS30 /IZS30 /IZS30-M2 M2 M2 M2 06 6: 07 6.351/4: 16 6 :( 17 6.35(1/4):() IZN10-CP(3m) IZN10-CPZ(10m) IZN10A003 NPN

https://smccatalog.partbuilder.smcpneumatics.com/dl_catalogs/assets/manual/zh-cn/files/IZN10_C.pdf

180

= d x e x f x Specific gravity m2 = 5 x 10 x 12 x 2.7 x 10-6 = 0.002 (kg) Moment of inertia around Z2 axis IZ2 = {m2 (d2 + e2)/12} x 10-6 IZ2 = {0.002 x (52 + 102)/12} x 10-6 = 0.02 x 10-6 (kgm2) IB = 0.02 x 10-6 + 0.002 x 472 x 10-6 = 4.4 x 10-6 (kgm2) I = 9.0 x 10-6 + 4.4 x 10-6 = 13.4 x 10-6= 0.13 x 10-4 (kgm2) Moment of inertia around Z axis IB = IZ2 + m2r22 x 10-6 Total moment of

https://www.smcpneumatics.com/pdfs/mhy2.pdf

180 Angular Style Air Gripper Series MHY2/MHW2 Cam Style Rack & Pinion Style 1

= d x e x f x Specific gravity m2 = 5 x 10 x 12 x 2.7 x 10-6 = 0.002 (kg) Moment of inertia around Z2 axis IZ2 = {m2 (d2 + e2)/12} x 10-6 IZ2 = {0.002 x (52 + 102)/12} x 10-6 = 0.02 x 10-6 (kgm2) IB = 0.02 x 10-6 + 0.002 x 472 x 10-6 = 4.4 x 10-6 (kgm2) I = 9.0 x 10-6 + 4.4 x 10-6 = 13.4 x 10-6= 0.13 x 10-4 (kgm2) Moment of inertia around Z axis IB = IZ2 + m2r22 x 10-6 Total moment of

https://www.smcpneumatics.com/pdfs/mhy2_mhw2.pdf