CRB2-OM00001 Secure either Body (A) or Body (B) and push out Vane Shaft , then separate Body (A) from Body (B). Remove Vane Shaft , Stoppers and . [How To Assemble] Mount O-ring and Vane Shaft to Body (B) . Mount Stopper Packing to Stopper . Mount Stoppers and to Body (B) . (Note: Be careful of stopper position) Insert Body (A) into Vane Shaft .
The screw[B] that is the fixation of "Motor" is loosened (To extent in which the slide can be done), and "Belt" is removed. Screw[B] Belt -25- 5. After "Belt" is installed, the root of "Motor" is pulled in a string or a long banding band. With tensile force adjusted, tighten the screw[B] which fix the actuator to the motor. See the table below pull 6. Screw[A] is tighten to fix Motor.
8370: JIS B 8361: JIS B 9960-1: (1) JIS B 8433: *2) 1. 2. 3. 1. 2. 3. 4. 4 - LEC-G Series/ / 11.5 5 - 2. 2.1 TM 1 (GW)(LEC)DeviceNet *1(LEC) 8 *1 12 2.2 DIN D DIN DN1 DeviceNetTM G 6 - 2.3 PLC LEC-T1-G TM DeviceNet LEC-W2 LEC-GDN1 LEC (RS485) Modbus LEC Series LE Series 7 - 2.4() (1) 1 (LECGDN1) 1 (2) 3.4 (3)(LEC) (LEC)4.3 (LEC) (4) (LEC) 4 (5) (CN1CN3) 5. 8 - (6) DC24V
manufacturer. 2017 SMC Corporation All Rights Reserved VT307-OMQ0002-B
Name Application 1 Communication connector (Port1/IN) Connect to EtherNet/IPTM line. 1 2 Communication connector (Port2/OUT) 3 Power supply connector Connector to supply power to the output devices such as solenoid valves and input and control equipment such as sensors. 1 4 Branch port A(COM A) 5 Branch port B(COM B) Connect the SI unit (with manifold valves) or input unit using a branch
Selection of parameter Explanation of screen a) Name of each parameter to be set b) The next parameter is displayed with the and buttons. c) Parameters that can be set in each unit only. d) Parameters that can be set in each channel only. 2. Explanation of parameter Explanation of screen a) Name of each parameter to be set b) Parameter details -34No.EX-OML0011-C 3.
B B B A A A A A A A A Unit: mm Model A B C D E Fn Fd G H XLF-16 40 103 38 1 30 17 40 XLF-25 50 113 48 1 12 40 26 39 XLF-40 65 158 66 2 11 55 41 63 XLF-50 70 170 79 2 11 75 52 68 XLF-63 88 196 100 3 11 87 95 70 69 XLF-80 90 235 117 3 11 114 110 83 96 XLF-100 108 300 154 3 11 134 130 102 131 XLF-160 138 315 200 3 11 190 180 153 112 9 XL*-OMJ0003-D 5.
Use an electric circuit for control and solenoid valve with high response. b. Keep the lock release solenoid valve and lock release port as close as possible. c. If b is difficult, install a rapid exhaust valve between the lock release solenoid valve and lock release port. Piston speed is the most significant factor in stopping accuracy.
See the table below Bolts Refer to
Normal output Reversed output P_1 = A-(A-B)/4 n_1 = B+(A-B)/4 A = Max. pressure H_1 = (A-B)/2 H_1 = (A-B)/2 B = Min. pressure The set values of OUT2 become as follows "_", i.e. "P_2", "n_2" and "H_2".
(B) Within the acceptable range (Seats correctly).
a PA + Stroke E FB FA e c d A + Stroke B + Stroke C + Stroke T-slot dimensions [mm] [mm] Bore size [mm] a b c d e Bore size [mm] f f 12 3.3 5.8 2.6 1.6 4.8 16 3.7 6.2 3 2.5 6.5 20 5.4 8.4 4.5 2.8 7.8 25 5.4 8.4 4.5 3 8.2 12 7 16 2.5 20 8.5 25 6 50 mm stroke or less Top-ported type The use of a slot (width XA, length XB, depth 3) allows for a relaxed pin pitch tolerance, with the pin hole
Due to meter-in control, the cylinder moves from A to B regardless of whether it is an initial operation or a normal operation. When it reaches B, the head pressure (PH) rises quickly as indicated by the line from C to D.
(extension) A B Air pressure supplied from B operates on surface 3. (retraction) A B Mounting accuracy improved Positioning holes are provided on the work piece mounting surface for easy alignment.
C B A A B A B A B ML1C25 ML1C32 ML1C40 MY-S25 MY-S32 MY-S40 5.5 9.5 5 8 M6 X 1 50 35 117 103 6.6 11 6 11.7 M8 X 1.25 64 45 146 128 9 14 5 14.8 M10 X 1.5 80 55 170 148 4.7-9 Series ML1 Construction Component Parts Component Parts Description Note Material No Description Note Hard anodized Hard anodized Hard anodized Hard anodized Hard anodized Material No Aluminum alloy Aluminum alloy Aluminum
Flow Characteristics/Weight Flow characteristics 1 2 (P A) 2 3 (A R) 3 2 (R A) 2 1 (A P) Port size Weight Valve model Grommet C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv VT307 VT307V (Vacuum spec. type) VT307E (Continuous duty type) VT307Y (Energy-saving type) VT307W (Energy-saving, Vacuum spec. type) VT307 VT307V (Vacuum spec. type) VT307E
Cv C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv VT325 VT325V (Vacuum spec. type) VT325 VT325V (Vacuum spec. type) 0.55 kg (For AC) 0.60 kg (For DC) Note) Values for a single valve unit.
Operating pressure (MPa) Flow Characteristics/Weight Flow characteristics Pilot port size Weight (kg) b Cv b C [dm3/(sbar)] 1 4/2 (P A/B) 4/2 5/3 (A/B EA/EB) C [dm3/(sbar)] Cv Function Port size Valve model 2 position single 2 position double 3 position closed center 3 position exhaust center 3 position pressure center 2 position single 2 position double 3 position closed center 3 position
4 123128PA 123129A 123182 124230 12318 123111 123126 113136 123128PA 123314A 12335A 124232 12318 123111 123313 113136 JIS B 2401G90 123128PA 123128PA 123221A 123182 124230 12318 123111 123126 113136 123128PA 123128PA 123292A 12325A 124231 12318 123111 123213 113136 JIS B 2401G80 123032 124232 12318 123111 123011 113136 JIS B 2401G90 124232 12318 123111 Urethane resin Urethane resin NBR NBR
) The IN air passes the check valve to pressure boosting chambers A and B.