VCA D U 25 Approx. 44 R C C R G1/2 E E G1/2 B B 2-P Port size A A D 2-P Port size (S) Port size G1/2 Compatible heavy duty cord Cable O.D. 6.8 to 10 L L K 2-M Thread depth 6 K 2-M Thread depth 6 (mm) Electrical entry P Port size B C Model A D E F K L M Grommet: G Conduit: C DIN connector: D Conduit terminal: T U 81 91.5 101 103.5 Q 98 101 104 104 R 36 44 53 55.5 S 68 71 74 74 Q 46 50 52 52 R
Thus, in spite of using pneumatic equipment, it performs similarly to a RE A B REC CX CY MQQ M A selection of valve unit is available to suit your application. High cylinder driving speed.
ST Edition B Added centralized lead wire. Added the AR-B series regulator (control unit). Added AC type 2 port solenoid valve (control unit). Number of pages increased from 16 to 24. US Edition C Safety Instructions Be sure to read the Handling Precautions for SMC Products (M-E03-3) and Operation Manual before use.
B Released SET Work 1 Work 2 Work n Atmosphere Max. A: Maximum pressure value when workpiece is adsorbed. A B 4 ON = A A B 4 SET OFF = B + Min. B: Minimum pressure value when workpiece is not adsorbed. OUT1 auto preset For adsorption verification: In this mode, repeat the adsorption and release of the workpiece for a few times. The optimum values will be set automatically.
4413: Hydraulic fluid power -General rules relating to systems IEC 60204-1: Safety of machinery -Electrical equipment of machines (Part 1: General requirements) ISO 10218-1992: Manipulating industrial robots -Safety JIS B 8370: JIS B 8361: JIS B 9960-1: 1 ) JIS B 8433-1993: *2) 1. 2. 3. 1. 2. 3. 4
Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 2 Calculate corrected air flow by using A or B and C. Corrected air flow = (Air flow) (Data A x Data C) Corrected air flow = (Air flow) (Data B x Data C) 3 Select a model having an air flow capacity that is higher than the corrected air flow.
Referring to case u where "W2" is a sphere, 4a +b 2 2 2 4a +b 2 1 2 1=m1 +m2 12 12 2 r K=m2 5 2 tThin rectangle board (Parallelogram) !0Gear transmission Position of rotation axis: Passes through center of gravity and perpendicular to the board. (Same formula regardless of board thickness.) 1. Find moment of inertia1B around the rod (B). 2.
industrial robots-Safety JIS B 8370: JIS B 8361: JIS B 9960-1: -(1 :) JIS B 8433-1993: *2) : : : 1. 2. 3. 1. 2. 3. 4
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
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.
Auto switch a b d c Proper mounting positions (mm) A B Bore size (mm) 63 80 100 10 13 17.5 14 18.5 23.5 Proper mounting positions (mm) a b 14 18 17 c 20 24 23 d D-A9 type D-F9 type D-F9 W type 2 6 5 8 12 11 In order that adjacent switches do not misoperate, they should be set within 1mm of the proper mounting positions indicated in the table above.
21 22 21 22 19 21 19 21 21 23 21 23 21 23 23 24 23 24 23 24 22 23 30 31 39 41 47 49 61 63 69 74 73 78 95 100 6 8 6 8 8 10 8 10 8 10 10 12 10 12 10 12 10 R 1/8 23.4 27.4 39.8 45.8 17.6 14 R 1/4 25.4 31.4 39.8 45.8 17.6 12 R 1/8 26.7 30.7 45.3 52.8 24 14 R 1/4 28.7 34.7 45.3 52.8 24 17 R 3/8 30.4 36.7 45.3 52.8 24 17 R 1/4 33.8 39.8 49.6 55.6 30 17 R 3/8 35.5 41.8 49.6 55.6 30 22 R 1/2 37.6
L ZY O L ZF G H F ZP K J SP ZCUK B C E D I A 2 x 4.5 AMJ AMV AEP HEP Related Equipment A B C D E F G H I J K L Model ZFC050-02 ZFC050-23 ZFC050-04 ZFC051-01 ZFC051-03 58.5 12.75 12.75 2 3.2 33 25 10 10.5 10.5 12 8.5 13.75 4 58 12.5 12.5 1/8" 5/32" ZFC100-04 4 ZFC100-06 6 30 10 18 11.6 19.5 23 20 29 53.2 9.1 14.1 ZFC101-03 5/32" ZFC101-07 1/4" ZFC200-06 6 ZFC200-08 8 34 14 22 15.6 23.1 27
Model Selection 1 Obtain the correction factor for the temperature from data A or B and the correction factor for the air pressure from data C. Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 3 2 Calculate corrected air flow by using A or B and C.
0 0.043 43 8 50 16 40 13 22 5 2 8 12 1.0 M5 1.1-10
Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 2 Calculate corrected air flow by using A or B and C. Corrected air flow = (Air flow) (Data A x Data C) Corrected air flow = (Air flow) (Data B x Data C) 3 Select a model having an air flow capacity that is higher than the corrected air flow.
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