VXD21/22/23 N) 99(4) 100(4) AC DC AC/DC 60 40 1 80 60 10(1) 60 40 40 60 Maximum Minimum 10 5(2) Note 1) Dew point: 10C or less Note 2) 50 cSt or less Note 3) D, E, N, P etc. in parentheses are option symbols.
Single clevis MUC25SMU25, #5 (#1+#5+#11) MUC32SMU32, #5 (#1+#5+#11) MUC40SMU40, #5 (#1+#5+#11) MUC50SMU50, #5 (#1+#5+#11) MUC63SMU63, #5 (#1+#5+#11) 2.4-5 Plate Cylinder/Double Acting Double Rod Series MUW 20, 32, 40, 50, 63 How to Order Standard MUW B 25 30 D M MDUW B 25 30 D M A73 S With auto switch Built-in magnet Number of auto switches 2 1 n Double rod S n Mounting B L F Basic Foot
direction (N) Load from lateral direction (N) MGPA25 MGPA100 0.6 Plate displacement amount (mm) Plate displacement amount (mm) 0.7 MGPA100-400 0.6 0.5 MGPA25-400 MGPA100-300 MGPA100-250 0.5 MGPA25-300 0.4 0.4 MGPA100-200 MGPA100-150 0.3 MGPA25-200 0.3 0.2 MGPA25-150 MGPA25-100 0.2 MGPA100-100 0.1 0.1 MGPA100-50 MGPA25-50 0 0 0 20 40 60 80 0 100 200 300 Load from lateral direction (N) Load
The tightening torque should be 0.1 to 0.2 Nm. 5 to 6 10 e-Rodless Actuator Series E-MY2H High precision guide type/Nominal size: 16, 25 How to Order High precision guide type E-MY2H 16 N 100 TA M9B Nominal size Number of auto switches 16 25 Nil S n 2 pcs. 1 pc. n Stroke Refer to the standard stroke table.
Key Position and Rotation Range Single vane type Double vane type 90 180 270 90 n o r a a ti r n n g n a o e g n o t ti r a ti o n a a 2 e g t r t o 7 e o 1 r y 0 r 9 8 y e 0 y +4 0 e 0 Key K e K +4 0 +4 0 K +4 0 Key Key 0 (45) 9 Key e Standard Optional g n a r n o ti a t o r (90) y e K (45) (45) A port B port A port A port A port B port B port B port 100 190 280 100 a r n n n r o a g
5 w o !0 i e r y !3 !4 @0 !9 t !8 @2 @4 !
drain port (Rc3/8 w/ valve and plug) switch Level Sub tank switch Sub tank drain port (Rc3/8 w/ valve and plug) Refrigerant pressure gauge Water regulating (high) valve Facility water outlet (Rc1/2 w/ plug) * The water regulating valve is used for each channel.
Lead wire with connector for pressure switch with energy saving function Lead wire length: 2m Lead wire length: 3m (pressure sensor) Y When N is selected for (3) 2m (pressure switch) (without supply and release valve) Y1 None N When N is selected for both (3) and (5) (without supply and release valve, without pressure sensor and pressure switch) Note 14) Select L1, L3 when the connector assembly
Manual override Nil B Non-locking push type Locking slotted type Number of auto switches Nil S N 2 pcs. 1 pc. n pcs.
Description Material Surface treatment ZR t NBR, Silicone rubber, Urethane rubber, Fluoro rubber, EPR u o Pad q ZM r e w Adapter plate Aluminum w ZH w Hard chrome plated Piston rod Carbon steel e w Spring Stainless steel r ZU Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com
Body material: Aluminum, C37, Stainless steel Body material: Resin q q t t w w y u i y u i e e r r o o IN OUT IN OUT !0 !0 Component Parts Component Parts No.
dimensions Piping port S T U V W Y Z 25 A 59 36 48 58 70 7 2 -89No.PF-OMM0005-N Dimensions of rotating part of display Dimensions of lead wire with M8 connector (ZS-40-A) -90No.PF-OMM0005-N Made to Order Change the seal material of the wetted parts to EPDM.
0.50 2-ZD NE ZC MM E N KK UNF-2A N B -0.003 0.000 PILOT YC WA WB D ACROSS FLATS Y NN MOUNTING NUT Bore MM KK A B D E K N 075 (3/4") 0.250 1/4-28 0.50 0.624 0.86 0.75 106 (1 1/16") 0.312 5/16-24 0.50 0.624 0.25 1.12 0.12 0.88 150 (1 1/2") 0.437 7/16-20 0.75 0.749 0.38 1.56 0.25 1.25 200 (2") 0.625 1/2-20 0.88 1.374 0.50 2.06 0.38 1.75 WC CUSHION NEEDLE (HEX 1.5MM) NE NN W WA WB WC Y YC ZB
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10.0 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10.0 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)