Lubrication Equipment Distributor Series VA, VB How to Order V A 4 6 Applicable tube O.D. 6 6 Oil Distributor Number of distribution ports (VA) (VB) VB6-6 Distribution 4 ports 6 ports 8 ports 4 ports 6 ports 10 ports 16 ports 4 6 8 4 6 10 16 Both sides exhaust One side exhaust A B VA4-6 Dimensions VAl-6 VBl-6 A B C Model # Ports Applicable tubing 4 6 10 16 36.5 60 88 130 VA4-6 VA6-6 VA10-6 VA16-6 Model # Ports
Pilot valve A Pilot valve B Discharge port (FLUID OUT) Pump chamber B Pump chamber A Check valve Shaft Suction port (FLUID IN) Diaphragm B Diaphragm A Drive chamber A Drive chamber B Control unit 1.
Bore size [mm] 10 16 20 25 Fluid Air Action Double acting A large amount of gripping force is provided through the use of a double piston mechanism, while maintaining a compact design.
M5 : With 10-32 Nom. (M5) s Port 5 A ] I "4;f D q-ttFor subplate/type 41, S41,46S46 manibld.
M5 : With 10-32 Nom. (M5) s Port 5 A ] I "4;f D q-ttFor subplate/type 41, S41,46S46 manibld.
Description Material Model Color Zinc die-cast AR10-A 1 Body White Aluminum die-cast AR20(K)-B to AR60(K)-B AR20K-B to AR60K-B (Regulator with Backflow Function) AR10-A Polyacetal White AR20(K)-B to AR40(K)-B 2 Bonnet A-A Aluminum die-cast AR50(K)-B/ AR60(K)-B y A Replacement Parts [AR10-A] 2 OUT 1 I N No. Description Material Part no.
M5 : With 10-32 Nom. (M5) s Port 5 A ] I "4;f D q-ttFor subplate/type 41, S41,46S46 manibld.
KQ2E Inch size tube/metric thread (formerly IQ) e l b a c i l p p A . D .
Base setting screen -33No.EX##-OMV0017-D Click (a) [Reset module] and (b) [Refresh] and check that the registration status changes to Registered. Base setting screen (a) (b) * The example below shows two Remote modules registered on channel 1 and channel 2.
DFSIIWDJ59W> lmm) DA59W DF5BA:DE5NT (mm) DF5BA A B A B A .B A B A B , 32 0.5 0 4.5 2 7 4.5 11 8.5 12 9.5 , 40 0.5 0 4.5 2 7 4.5 11 8 .5 12 9.5 , SO 1 0 5 2.5 7.5 5 11 .5 9 12.5 10 Ht H~ HI Hs 32 24.S 35 25 32.5 t 40 27.S 38.5 27.5 36.5 I SO 34.5 43.5 34 41 ; 80 4 2.5 6 6 .5 10.5 9 14.5 13 15.5 14 , 100 4 2.5 8 6.5 10.5 9 14.5 13 15.5 14 J 63 39.5 46.5 39 46 '. 63 1 0 5 2.5 7.5 5 11 .5 9 12.5
) A B Coil voltage 24 VDC 5 P EA EB 3 position closed center A B 3 Function Note 1) EAPEB Standard type (1 W) External pilot Low wattage type (0.5 W) Nil R Y 3 position exhaust center A B Note 2) 4 Note 1) When specifying more than one option, enter symbols in alphabetical order.
D-F9WV D-F8 Model A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E 18.5 31 6.5 20.5 41 8.5 20.5 33 4.5 17 20.5 31 4.5 15 20.5 41 4.5 15 20.5 51 4.5 35 22.5 43 6.5 27 22.5 33 6.5 17 22.5 43 6.5 27 22.5 53 6.5 37 MIW12-12D MIW20-20D 6 4 4 2 18.5 29 6.5 20.5 31 8.5 MIS12-10D MIS20-10D 4 2 6 4 2.5 4 18.5 39 6.5 20.5 41 8.5 MIS12-20D MIS20-20D 6 4
(L + A) x 103 Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYP15 CYP32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m : Load mass [kg] L : Distance to load center of gravity [mm] A, B : Distance to guide shaft [mm] g : Gravitational acceleration [9.8 m/s2] M2 M1 M3 m x g m x g Guide shaft mounting surface Guide central axis m x g Cylinder central axis Dynamic Moment Moment
(A contact) or N.C. (B contact). Contact output signal 2 FLT alarm selects N.O. (A contact) or N.C. (B contact). Contact output signal 3 WRN alarm selects N.O. (A contact) or N.C. (B contact). (1) (2) (3) Setting of contact output signal 1 to 3 Table 5.4-28 Setting of contact output signal 1 to 3 No.
-LD Piping port P Operating direction A 7 Piping port P Operating direction B W K G With switch rail Q + Stroke Z + Stroke Piping port P (plug) Operating direction B HS CR HR Plug 22 8 Piping port P Operating direction B Piping port P (plug) Operating direction B 8 Piping port P Operating direction A 16 19.5 16 Plug REBR15 REBR15 (mm) A B C CB CR D F G GP GW H HA HB HC HP HR HS HT Model REBR15
(FLUID OUT) Pump chamber B Pump chamber A Check valve Shaft Suction port (FLUID IN) Diaphragm B Diaphragm A Drive chamber A Drive chamber B Control unit 1.
B C L A B C Series Equivalent Lead (Including pulley 5(2.86) 20 10 5 20 10 5 (Pulley ratio 4/7) ratio) Parameter *1,*2 Para.
(19) AS221F-02-04(S)A 4 8.2 AS221F-02-06(S)A 6 10.4 23.4 32.7 (32.8) AS221F-02-08(S)A 8 13.2 23.9 33.2 (33.3) 14.2 19 (20) AS221F-02-10(S)A 10 15.9 26.9 36.2 (36.3) 15.6 20 (21) AS321F-02-06(S)A 6 1/4 17 (17.5) 13 13.3 40 (40) AS321F-02-08(S)A 8 13.2 22.7 33 14.2 41 (41) AS321F-02-10(S)A 10 15.9 26.7 37 35.7 15.6 42 (42) AS321F-02-12(S)A 12 18.5 29.7 40 34.5 17 43 (43) AS321F-03-06(S)A 6
-M3 X 0.5 (Piping port) 33 36 (Non-locking) Manual override B P R R 7 7 SlA 36 2 35 7 13.5 28.5 15 A 21 R2 P R1 VlA 13 1 (Bleed port) 11 10 4 15 10 10 5-M5 X 0.8 (Piping port) 8.2 14 14 15 Bracket VM/VR VH 2 position double: SYJA3220-M3(-F) 2 position double: SYJA3240-M5 10 9 36 7.1 2-M3 X 0.5 (Pilot port) 10 1.8 4 A B (Mounting holes) 3.2 21.5 1.5 22 7 8.2 2.5 (Mounting holes for manifold
I1 = 0.03 x (0.02 + 0.01)/12 = 1.25 x 10-kgm I2 = 0.006 x (0.005 + 0.005)/12 + 0.006 x 0.007 = 0.32 x 10-kgm I = 1.25 x 10+ 0.32 x 10-6 I1 = m x (a + b)/12 I2 = m x (a + b)/12 + m x H I = I1 + I2 Inertial moment = 1.57 x 10-kgm Kinetic energy 6 1/2 x I x Allowable energy = 2 /t (: Terminal angular velocity) : Rotation angle (rad) 1/2 x 1.57 x 10-6 x (2 x ( /2)/0.2) Confirm that the load's