Slider Type/Ball Bushing Bearing

Review of bore size, stroke and L0 W > WA Calculate (WA) from the formula for the tentatively determined bore size F > FA W WA F FA Review with magnet holding force (H) Note 1) Yes Intermediate stop? Note 1) This cylinder cannot perform an intermediate stop using an air pressure circuit in vertical operation.

MY1

Wall mounting z P. 26 P. 58 y x y Wa: Connection plate t = 10 (880g) x z MY1C40-500 3. Ceiling mounting 4.

MY1

Wall mounting z y Wd: Workpiece (500 g) P. 8-11-6 x y Wc: MHL2-16D1 (795 g) x z Wa: Connection plate t = 10 (880 g) x MY1M40-500 3. Ceiling mounting 4.

CM2

51 to 100 151 to 200 201 to 300 101 to 150 151 to 200 201 to 300 20 68 81 93 106 131 12.5 25 37.5 50 75 143 156 168 181 206 36 17 25 72 85 97 110 135 12.5 25 37.5 50 75 147 160 172 185 210 36 17 32 72 85 97 110 135 12.5 25 37.5 50 75 149 162 174 187 212 36 17 40 77 90 102 115 140 12.5 25 37.5 50 75 181 194 206 219 244 46 19 Boss-cut With air cushion Built-in One-touch fitting (mm) Bore WA

17

WB Section XX details T-slot dimensions b a XB XAH7 X (Mounting hole position) c d e X0.02 (Pin hole position) XA (mm) XC XL b c d e Bore size (mm) a 6.5 6.5 8.5 11 10.5 10.5 13.5 17.8 5.5 5.5 7.5 10 3.5 4 4.5 7 9.5 11 13.5 18.5 32 40 50 63 Section XX 4 x YY depth YL 4 x MM depth ML 4 x NN through L Z WA 4 x OA through 4 x OB counterbore depth OL Section XX Section XX (OL) HA: T-slot for

Air Slide Table Series MXP

Wa = 1 x 1.2 = 1.2 Wa = 1 x 1.2 = 1.2 Allowable load mass coefficient : Graph (1) Allowable load mass coefficient : Graph (1) = 1 = 1 Max. allowable load mass Wmax: Table (2) Max. allowable load mass Wmax: Table (2) Wmax = 1.2 1 = 0.2/1.2 = 0.17 Wmax = 1.2 1 = 0.2/1.2 = 0.17 1 = W/Wa 1 = W/Wa Find the load factor of the load mass 1. 3-2 Load Factor of Static Moment M = W x 9.8 (Ln + An)

Rotary Table/

4.8 2 3.7 9 3.3 6 3.5 M4 x 0.7 2.2 5.3 M4 x 0.7 4 5H9 5.5 34 18.5 12.6 9.2 35 4.5 29h9 29.5h9 14H9 3.8 5.3 2.5 4.2 10 3.3 6 3.5 M4 x 0.7 2.2 5.3 M4 x 0.7 4 34h9 6H9 5.5 38 23 15.5 10.5 40 4.5 33h9 17H9 5 5.3 2.5 4.2 10 4.2 7.5 4.5 M5 x 0.8 2.5 6 M4 x 0.7 4 40h9 7H9 5.5 45 30 18.4 12.2 50 5 39h9 20H9 6 6.5 2.5 4.5 11.5 4.2 7.5 4.5 M5 x 0.8 2.5 6 M5 x 0.8 5 (mm) JJ JK JU P Q S SD SF SU UU WA

Rotary Table Rack & Pinion Style Series MSQ Size: 1, 2, 3, 7, 10, 20, 30, 50, 70, 100, 200 1

9 @0 @1 @2 @3 @4 Size: 3, 7 @3 The hexagon socket head set screws are tightened at different positions depending on the position of the connecting port. 11-9-14 15 Rotary Table Series MSQ Dimensions: Size 1, 2, 3, 7 Basic type: MSQBA High precision type: MSQAA BJ 2-JF depth JG DI DH CRB2 DJ WB effective depth WC BI CRBU2 HA 8-WD depth WE (Circumference: 8 equivalents) FE 1 WA (UV) CRB1 4

Compact Guide Cylinder

Grease pack part number: GR-S-010 (10 g) 7 Compact Guide Cylinder MGPK Series Dimensions: 12 to 25 WA Z (Mounting hole position) XAH9 depth 6 WB X 0.02 (Pin hole position) X 4 x YY depth YL Section XX 4 x MM depth ML Bottom view 4 x NN through XAH9 XB Section XX 4 x OA through Section XX Z WA 2 x Counterbore diameter OB, depth OL L HA: T-slot for hexagon bolt 3 (12 and 16 only) DA DB X 0.02

C85

WA WBWB G1 G1 8 8 to 25 HR N1 N1 Rail mounting type (A) Band mounting type (B) or non-magnet S + Stroke ZZ + 2 x Stroke Wh KK With rod boot C e K 9 9 I f AM h (mm) ND h8 BE KK EE N1 G1 KW NA D F KV HR K ZZ Bore C AM WA SW S WB H WH 12 10 M4 x 0.7 M5 x 0.8 M12 x 1.25 4 16.7 15 12 19 6 28 16 7 7 11.5 48{54} 104{110} 8 12 12 10.5 M4 x 0.7 M5 x 0.8 M12 x 1.25 4 16.7 15 4.5 12 19 6 10.5 28

Electric Actuator

less 55st or more, 180st or less 181st or more, 300st or less 51.5 74.5 105 67.5 100.5 138 74 107 144 90st or less 91st or more, 200st or less 114st or less 115st or more, 190st or less 191st or more, 300st or less 114st or less 115st or more, 190st or less 191st or more, 300st or less 75 105 91 115 133 97.5 116.5 134 K X 16 8 16 10 25 10 25 12 (0.5) Section XX XB Section XX 32 13 Z WB WA

Compact Guide Cylinder with One-way Lock Series MLGP ø40, ø50, ø63

Section XX 8.5 50 4.5 13.5 7.5 13.5 11 7 18.5 63 10 17.8 Bottom view L 4-OA through 4-OB counter bore depth OL Section XX WA Z Section XX IA 4-NN through IC 4-MM depth ML R X0.02 HA T-slot for hexagon bolt X0.02 DA DB mIB ID X U VB VA H T PW 2-Rc P (plug) Rc 1/8 unlocking port Unlocks when pressurized GC GA XAH7 depth XL 2-Rc P PB A + Stroke E B + Stroke FA FB C + Stroke PA + Stroke GB Q

2 Finger, 3 Finger, 4 Finger Air Gripper Parallel Type Series MHS

MHS2-32D MHS2-40D Q 11 12 RA 38 44 SA 4.5 5.5 FX 23 26.5 G 30.5 32 AA 44 47 NA 14 16 J 20 21 AB 41 44 L 2H9 3H9 B 56 62 DO 64 70 DC 56 62 EO 24 28 EC 16 20 CA 8 9 CB 16 17 FY 20.5 23.5 FZ 5 6 +0.025 0 +0.025 0 Model MHS2-32D MHS2-40D UA M5 x 0.8 M6 x 1 UB 10 12 VA VB 3 4 WA XA XB 3 4 SB 8 9.5 +0.025 0 +0.030 0 +0.025 0 +0.030 0 +0.062 0 +0.062 0 34H9 3H9 4H9 3H9 4H9 42H9 6 Series MHS 2

AC Servo Motor Driver LECYM/LECYU Series Compatible LEF  Position control, speed control and torque control Power supply voltage (V) LEJ can be used. 200 to 230 VAC 
Control encoder: Absolute 20-bit encoder LEL Motor capacity (W) (Resolution: 10485

Section XX XA H9 depth XA 4 x M OA thread depth OB XB 2 x NA thread depth NC XA H9 XA K X [mm] LEYGlM (Sliding bearing) [mm] LEYGlL (Ball bushing bearing) Size Stroke range (mm) L DB Size Stroke range [mm] L DB (0.5) Section XX 25 15 to 55 67.5 12 60 to 185 100.5 190 to 300 138 25 15 to 110 91 10 115 to 190 115 195 to 300 133 Z WB WA WC + Stroke 32 20 to 55 74 16 60 to 185 107 190 to 300

Battery-less

Make sure workpieces mounted on the rod do not interfere with other workpieces or the facilities around the rod. 2 Position after returning to origin 3 [ ] for when the direction of return to origin has changed DA P X C FB 0.5 Connector Motor cable (0.5) Z 4 x G through DB 24 L + Stroke WA Cable length 300 Section Y details 65 4 x OA through 24 Rod operating range1 Stroke end [Origin]3

SMC Pneumatic Clean Series

With air cushion WW WW WA WB Piping port M5 x 0.8 Cover surface MM NN GA GB F GC Piping port 3-M5 x 0.8 C D LY LB LH A LT X Y NA NB B 0 -0.3 LX S + Stroke H Z + Stroke LZ Head cover port location Axial direction (R) 2-LC Mounting hole (mm) LZ 42 42 LY 25 25 LX 33 33 LT 2.3 2.3 LH 14 14 Y 9 9 NN Z WW WA WB Bore size A M4 x 0.7 D GC B F H MM GB GA C 102.5 101.5 5.5 4.5 20 20 NB LB 21.5 23 S

15

Load Blocking Xb,Xc,Xd zb A za CY3B CY3R Wb X Z CY1S CY1S Wc yc yd CY1L Wa Wd CY1H Y zc,zd Y CY1F CYP Mass and center of gravity of the load Calculation for Overall Center of Gravity Center of gravity mt = mn q Load no.

C85

WA WBWB G1 G1 8 8 to 25 HR N1 N1 Rail mounting type (A) Band mounting type (B) or non-magnet S + Stroke ZZ + 2 x Stroke Wh KK With rod boot C e K 9 9 I f AM h (mm) ND h8 BE KK EE N1 G1 KW NA D F KV HR K ZZ Bore C AM WA SW S WB H WH 12 10 M4 x 0.7 M5 x 0.8 M12 x 1.25 4 16.7 15 12 19 6 28 16 7 7 11.5 48{54} 104{110} 8 12 12 10.5 M4 x 0.7 M5 x 0.8 M12 x 1.25 4 16.7 15 12 4.5 19 6 10.5 28

Precision Air Slide Table Series MXP ø6, ø10, ø12, ø16, (ø8: new addition, see 8-8-23 ) 1

Allowable kinetic energy Emax: Table (1) Load Factor 3 3-1 Load Factor of Load Weight Wa = bWmax Find the allowable load weight Wa (kg). Note) No need to consider this load factor in the case of using perpendicularly in a vertical position. (Define 1 = 0.)

Air Slide Table

Wa = K Wmax Workpiece mounting coefficient K: Fig. (3) Allowable load weight coefficient : Graph (1) Max. allowable load weight Wmax: Table (2) 1 = W/Wa Wa = 1 x 1 x 4 = 4 K = 1 = 1 Wmax = 4 1 = 1/4 = 0.25 Load Factor of the Static Moment 3-2 Rolling Yawing Examine My. My = 1 x 9.8 (10 + 30)/1000 = 0.39 A3 = 30 May = 1 x 1 x 18 = 18 Mymax = 18 K = 1 = 1 2 = 0.39/18 = 0.022 Examine Mr.