One-touch Fittings [mm] Weight [g] Nylon Urethane 4 1/8 KQ2F04-G01 14 7.9 24.7 9.5 13.3 5.6 4 3 12.4 1/4 KQ2F04-G02 17 7.9 30.1 13.9 13.3 5.6 4 3 21.3 6 1/8 KQ2F06-G01 14 9.9 24.3 9.5 13.3 13.1 10.4 4.5 12.6 1/4 KQ2F06-G02 17 9.9 29.6 13.9 13.3 13.1 10.4 4.5 21.4 3/8 KQ2F06-G03 21 9.9 31.1 13.7 13.3 13.1 10.4 4.5 29.6 Applicable tubing Connection thread H 8 1/8 KQ2F08-G01 14 13 24.7 9.5 14.2 26.1 18 6 15.1
AS-F D3 D1 Y TMH ASD M L3 AS L5 A AS-FE L4 D2 KE AS-FG AS-FP L2 L1 T H (Width across flats) AS-FM AS-D Metric Size [mm] AS-T Model d T H D1 D2 D3 L1 L2 L3 L4 L5 A M W1 Y Weight [g] Unlocked Locked Unlocked Locked AS231FS1-G01-23 3.2 ASP 14 AS231FS1-G01-04 4 8.2 13.9 25.1 15 AS231FS1-G01-06 6 10.4 26.2 20.4 38.5 15 AS231FS1-G01-08 8 13.2 10.2 16.4 30.1 21.5 39.7 14.2 16 AS231FS1-G02-04 4 7.2
TMH L4 L3 M ASD AS D2 AS-FE L5 A KE AS-FG AS-FG AS-FP T L2 L1 AS-FM H (Width across flats) AS-D Metric Size [mm] AS-T Model d T H D1 D2 D3 L1 L2 L3 L4 L5 A M Weight [g] Unlocked Locked Unlocked Locked AS23l1FG-G01-23A 3.2 ASP 10 AS23l1FG-G01-04A 4 8.2 13.9 25.1 10 AS23l1FG-G01-06A 6 10.4 26.2 20.4 38.5 11 AS23l1FG-G01-08A 8 13.2 10.2 16.4 30.1 21.5 39.7 14.2 12 AS23l1FG-G02-04A 4 7.2 13.3
D3 D1 Y TMH ASD M L3 AS L5 A AS-FE L4 D2 KE AS-FG AS-FG AS-FP L2 L1 T H (Width across flats) AS-FM AS-D Metric Size [mm] AS-T Model d T H D1 D2 D3 L1 L2 L3 L4 L5 A M W1 Y Weight [g] Unlocked Locked Unlocked Locked AS231FSG1-G01-23 3.2 ASP 14 AS231FSG1-G01-04 4 8.2 13.9 25.1 15 AS231FSG1-G01-06 6 10.4 26.2 20.4 38.5 15 AS231FSG1-G01-08 8 13.2 10.2 16.4 30.1 21.5 39.7 14.2 16 AS231FSG1-G02-
) the conditions under which the workpiece will not drop are n x F > mg and therefore, F F mg F > n x m x g With a as the safety margin, F is determined as follows: a x mg F = n x MHZ MHF Multiples of Gripping Force by Workpiece Mass MHL Number of fingers: When n = 2 SMC performs calculations allowing for impacts which occur during normal transfer, etc., using a safety margin of a = 4.
N] F=-q x PA+w x PC F=q x PA+(e-q) x PC F=-q x PA+r x PB+(w-e) x PC F=q x PA q, w and e are piston areas.
AMF150C AMF-EL150 AMF-EL150-F AMF250C AMF-EL250 AMF-EL250-F AMF350C AMF-EL350 AMF-EL350-F AMF550C AMF-EL550 AMF-EL550-F AMF650 AMF-EL650 AMF850 AMF-EL850 Except option F For option F Element assembly Glass fiber, others AMF-EL450 AMF-EL450-F 4 Industrial Filters Replacement Procedure Actuators Modular F.R.L.
Calculation of applied lateral load The lateral load F equals the total load of the workpiece. Thus, F= 5 x 0.05 x 9.8 = 2.5 (N) 1. Calculation of applied lateral load F F = N m g (N) = 0.2 x 10 x 0.1 x 9.8 = 2.1 (N) CC 70 Lateral load F (N) RB 60 0.4 MPa 50 J 40 2.
Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 1. Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 2.
Calculation of applied lateral load The lateral load F equals the total load of the workpiece. Thus, F= 5 x 0.05 x 9.8 = 2.5 (N) 1. Calculation of applied lateral load F F = N m g (N) = 0.2 x 10 x 0.1 x 9.8 = 2.1 (N) CC 70 Lateral load F (N) RB 60 0.4 MPa 50 J 40 2.
Replacement part/Grease pack part no.: MH-G01 (30 g) MHKL2 Replacement Parts Description MHKL2-12 MHKL2-16 MHKL2-20 MHKL2-25 Main parts wyu !6!7!8!
Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.
Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.
M5 x 0.8 NN MM C D B 0 0.3 B 0 0.3 A F NA H Z + Stroke S + Stroke NB F For details of the mounting nut, refer to page 376.
01 02 2 position double: VFS2200-F-01 02 3 position closed center: VFS2300-F-01 02 3 position exhaust center: VFS2400-F-01 02 3 position pressure center: VFS2500-F-01 02 2-5 mounting hole Manual override 150.5 (3 position: 158) (Non-locking) 2-5 mounting hole Manual override (Non-locking) With light/surge voltage suppressor 163.5 (3 position: 171) With light/surge voltage suppressor 1 8 (
position double: VFR420 -F 3 position closed center: VFR430 -F 3 position exhaust center: VFR440 -F 3 position pressure center: VFR450 -F (Mounting hole) (Electrical entry) Manual override (Non-locking) (PE port) 1278 Series VFR4000 5 Port Pilot Operated Solenoid Valve Rubber Seal, Plug-in/Non Plug-in Non Plug-in: 2 Position Single/Double, 3 Position Closed Center/Exhaust Center/Pressure
VK Nil F N T Rc G NPT NPTF Passage symbol Body size N.C. (Normally closed) A N.O.
-2.312.31MPa 10.0-111.0kPa -121.0121.0kPa -29No.PS-OMM0002CN-F [F 5] <> [F 5] 1000 100 [F 5] MPa(ISE)kPa(ZSE)barpsi barpsi 23 [F 0] -30No.PS-OMM0002CN-F [F 7] 5R.D. <> [F 7] [F 7] -31No.PS-OMM0002CN-F [F 8] <> [F 8] [F 8] -32No.PS-OMM0002CN-F OUT1 AP1 (OUT1 AP1 1 AP2) OUT1 OUT1 OUT1 A1L A1H (A1L 1 AP2) OUT2 P_1H_1(n_1H_1)AP2 (OUT2 AP2 1 ) OUT2 OUT2 OUT1 OUT2
-F 3 position exhaust center: VFR440 -F 3 position pressure center: VFR450 -F 2-6.5 (Mounting hole) 3-2.3 (Electrical entry) Manual override (Non-locking) Rc 1/8 (PE port) G 1/2 Other dimensions are the same as the single type. 3-5-57 58 Series VFR4000 2 position single/double, 3 position closed center/exhaust center/pressure center Non Plug-in 2 position single: VFR411 -E, VFR411 -D 0
1 G 02 F With bracket For type 30 manifold Not installed when delivered.