Air Cylinder CBM2-20-PS CBM2-25-PS CBM2-32-PS CBM2-40-PS With double end lock Kit no. CBM2-20-PS-W CBM2-25-PS-W CBM2-32-PS-W CBM2-40-PS-W 11 Lock spring Stainless steel 12 Bumper Urethane * Seal kit includes @6 and @7. Order the seal kit, based on each bore size. (Except #3.) * Seal kit includes a grease pack (10 g). Order with the following part number when only the grease pack is needed.
20 20 20 20 20 20 15 The combination of metal bowl: 2 and 8 is not available. 16 When choosing with W: Filter drain port, the drain cock of a lubricator will be with barb fittings. 17 For pipe thread type: NPT.
C Port W W B port C Port D port A port D port 30 20 172 87 35 48 9 21 30 25 177 87 40 48 9 21 30 32 183 91 40 50 9 23 20 40 208 99 50 57 8 24 20 50 241 117 58 64 12 28 20 63 241 117 58 64 12 28 H SA + Stroke SB + Stroke Please contact SMC for long stroke (301 mm or more) since SA-dimensions and ZZ-dimensions are different from those in the above table.
The Volume Flow of 9.44 l/min applies to an element (Valve, fining, tub etc.) with an equivalent orifice "S" of 1 mm'. lf an lement has for example an "S' ot 4,5 mm', the flow would be 4.5 times higher, in this case 4.5 . 54.44 limin = 245 Umln Example 2: Given an element wilh an 'S'ol 12 mm", a working pressure of 7 bar and an air consumption ot 600 ymin.
If the leakage volume is 30 L/min (ANR), the vacuum pressure of the S type is 20 kPa q w e, and for the L type it is 33 kPa q' w' e'. If the leakage volume is 5 L/min (ANR), the vacuum pressure of the S type is 80 kPa r t y, and for the L type it is 47 kPa r' t' y'.
port WA WB W WH GA GB P 20 12 10 (12) M5 x 0.8 16 15 (16) 25 1.5 25 12.5 10 (12.5) M5 x 0.8 16 14.5 (16) 25 1.5 32 12 10 (12) 1/8 16 14 (16) 25 1.5 40 13 10 (13) 1/8 17 15 (17) 20 1.5 50 14 12 (14) 1/4 18 16 (18) 20 3 63 14 12 (14) 1/4 18 17 (18) 20 3 80 20 16 (20) 3/8 24 20 (24) 20 4 100 20 16 (20) 1/2 24 20 (24) 20 4 (Reference) JW Bore size e f h IJ JH Bore size NA S W X Y Z ZZ (Reference
Grease pack part number: GR-S-010 (10 g), GR-S-020 (20 g) 20 MWBW Series Dimensions Basic: MWBWB (Rc, NPT, G) BP GD GB GB Unlocked when pressurized GC GD GB GD (Rc, NPT, G) P Rod side cylinder port GC GA (Rc, NPT, G) P Head side cylinder port GE W GE W GE W (Rc, NPT, G) BP GF GA Manual lock release bolt Width across flats KC Cushion valve 32 4 x J Width across flats KA Thread depth MC Width
The Volume Flow of 9.44 l/min applies to an element (Valve, fining, tub etc.) with an equivalent orifice "S" of 1 mm'. lf an lement has for example an "S' ot 4,5 mm', the flow would be 4.5 times higher, in this case 4.5 . 54.44 limin = 245 Umln Example 2: Given an element wilh an 'S'ol 12 mm", a working pressure of 7 bar and an air consumption ot 600 ymin.
W X Y M X Y Z LS + Stroke LX LZ ZZ + Stroke (mm) 7 7 6 6 LD 4 4 4 4 LC 3 3 3 3 LT 30 25 22 20 LH 51 53 53 53 LS Z 135 125.5 123.5 118 ZZ 16.5 16 15 15 X 8.5 8 7 7 Y 4 3.5 3.5 3 M B 54 44 36 32 LX 10 10 10 10 W 71 58 49 44 LZ Bore size 63.5 53 52 47 54.5 45 38.5 34 40 32 25 20 50 63 80 100 4.5 4.5 4.5 6 17.5 17.5 20 20 75.5 75.5 95 95 157.5 157.5 188.5 192 55 55 60 60 10 12 11 14 5 5 6 6 40
NA Enclosure IP67 Refer to Note 1) of the w SI unit specifications. w q e r y t u i q Series t P, E port location r Valve stations 1 2 3 U D B For 32-output SI unit 10-SV1000 10-SV2000 10-SV3000 U side (2 to 10 stations) D side (2 to 10 stations) Both sides (2 to 20 stations) Symbol 02 Stations Note 2 stations Double wiring Note 1) w SI unit specifications 16 02 16 stations y SUP/EXH block
[] 60Hz 50Hz Fig. 9-5 Heating capacity(HRS050-A-20-(BJM)) 9.5.2 HRS050-W-20-(BJM) 2000 2000 Ambient Ambient temperature temperature 5 20 25 32 40 1500 1500 5 20 25 32 40 Heating capacity [W] Heating capacity [W] 1000 1000 500 500 0 0 5 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 Circulating fluid temperature[] Circulating fluid temperature[] 50Hz 60Hz Fig. 9-6 Heating capacity(HRS050-W-20
Read off Q0 when P1 is 0.8 and P is 0.008 in Graph (2), the reading is 20 kg/h. Therefore, the flow rate is calculated as the formula: Q = 0.05/1 x 20 = 1 [kg/h]. 161 VXD Series Flow Rate Characteristics Note) Use this graph as a guide. In the case of obtaining an accurate flow rate, refer to pages 157 through to 161.
W: 13 [kW] HRZD W Efficiency Power supply output VI: 8.8 [kVA] Q = P = Q = P = V x I x Power factor HRW In this example, using an efficiency of 0.7: In this example, using a power factor of 0.85: 5.1 0.7 HECR = = 7.3 [kW] = 8.8 [kVA] x 0.85 = 7.5 [kW] Cooling capacity = Considering a safety factor of 20%, HEC Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 8.8 [kW]
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 4 Electric Actuator with Integrated Guide Series LTF Lead screw lead mm Mounting orientation Motor type Series Page Model Guide type Ground ball screw Rolled ball screw 6 10 20 10 20 10 20 10 20 6 10 20 10 20 10 20 10 20 LTF6 LTF8 LTF6 LTF8 LTF6 LTF8
20 20 65 28 27.3 25A(28) 27 20 Motor cable length 300 102 0.3 LEC 7.5 LEC S Note 1) [ ] for when the direction of return to origin has changed.
XC47 to to XC58 XC58 XC59 XC59 S, W, Y S, W, Y S, W, Y S, W, Y S, W, Y 30 to 100 to Change of port direction to XC61 XC61 XC63 One side hydro, One side air XC62 XC62 Reverse mounting of auto switch 50, 63 80, 100 XC64 One side hydro, One side air Chart 8. Combination between -X and -XC (Refer to page 11-7-49 for made-to-order/details on -X.)
Manufacturers Association) Body Series VXN material Air Air Medium vacuum Medium vacuum Oil Water C37 (Brass), Stainless steel Power consumption 4.5 W (Size 1) 7 W (Size 2) 20 W (Size 3) (DC) C37 (Brass) body Stainless steel body Body Series VX2 material Air Air Aluminum, Resin Power consumption 4.5 W (Size 1) 7 W (Size 2) 10.5 W (Size 3) (DC) Aluminum body Resin body CAT.ES70-48A Series
Cooling Capacity: 012 [1000/1200, (50/60 Hz)], Cooling Method: A (Air-cooled), Pipe Thread: N [NPT (w/Rc-NPT Conversion Fitting Set)], Option: DMT1UY (DM+T1+U+Y)