MTS A B Hs A B Hs Hv Hv Hv Hv 12/16/20 12/16/20 Hs Hs 25/32/40 25/32/40 Proper Auto Switch Mounting Position Solid state switch Bore size (mm) 2-color indication solid state switch Reed switch D-A9 D-A9V D-M9 D-M9V D-F9W D-F9WV A B C A B Hs Hv A B A B Hs Hv A B C A B Hs Hv C 15.5 15 20 20 15 19.5 19.5 19.5 19.5 46 46 46 46 18 13 15.5 35.5 42 31.5 42 31.5 12 17 17 22 22 17 21 21 21 21 47.5 47.5
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
MT-S8 8 40 MT-S12 12 Caution Do not apply a load that is 50% or more of the theoretical output.
A Auto switch 50 to 100 50 to 100 HS HS 12 12 SMC SMC 24.5 24.5 A 33 B A 33 Auto switch B D-C73C/C80C 20 to 40 D-H7C 20 to 40 HS HS Auto switch Auto switch B A B A 50 to 100 50 to 100 HS HS 8.5 8.5 SMC SMC 16 16 A 36.7 Auto switch A 38.2 B Auto switch D-A3/G39/K39 D-A44 Auto switch HS HS 36 36 Auto switch A 49 B A 49.5 B G 1/2 (Applicable cable O.D. 6.8 to 11.5) G 1/2 (Applicable
Note 3) A particulate generation test has been conducted in a vacuum environment of 105 Pa. a t e l u g c Stainless steel linear guide & low particulate generation vacuum grease e i 2 t n r a e p r a 0.0 10 0 20 10 w t i o o n L Operation cycles a t e l u g c e i t n 1 r a e Particulate generation from the linear guide unit has been reduced with the use of a stainless steel linear guide and
Wn Mass mn X-axis xn xa xb xc xd Y-axis yn ya yb yc yd Z-axis zn za zb zc zd X 1 mt = x (mn x xn)w Wa Wb Wc Wd ma mb mc md Y 1 mt = x (mn x yn)e D1 mt = x {mn x (A + zn)} r Z -X (n = a,b,c,d) Refer to the following sections 1 to 4 to calculate the center of gravity and the total load.
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
Momentary MT N.C.type B External N.O.type A Used Used Alternate ALT switch signal N.C.type B Used Used SW N.O.type A Used Used Momentary MT input N.C.type B Used Used N.O.type A Without Alternate ALT N.C.type B intput OFF N.O.type A signal Momentary MT N.C.type B N.O.type A Alternate ALT Stop N.C.type B signal STOP N.O.type A Contact input signal 2 Momentary MT N.C.type B External N.O.type
IDF6E-20 IDF8E-20, IDF11E-20 (mm) Dimensions 5 A IDU3E-20, IDU4E-20 IDU6E-20, IDU8E-20, IDU11E-20 A B C D E F Model IDF22E-20 IDF37E-20 IDF22E-30 IDF37E-30 IDF55E-30 IDF75E-30 IDU22E-30 IDU37E-30 IDU55E-30 IDU75E-30 59 40 IDF15E1-20, IDF22E-20, IDF37E-20 IDU15E1-20 IDF22E-30, IDF37E-30 IDF55E-30 IDU22E-30, IDU37E-30, IDU55E-30 30 mA 25 46 125 10 A 60 39 200 V type 60 81 148 50 36 73 133 IDF75E
: m (kg) 30 16 20 10 When selecting a model with a longer l dimension, be sure to choose a bore size which is sufficiently large. 4 5 3 Caution 2 Handling precautions Note 1) When using as a stopper, select a model with a stroke of 25mm or less. 1 5 10 20 30 40 50 Note 2) Model MGPL (ball bushing) cannot be used as a stopper.
5 x 20 Symbol Size 6 x 20 8 x 20 4 x 30 5 x 30 6 x 30 8 x 30 N S U F GN GS 3507 4010 5010 6010 4020 5020 6020 8020 4030 5030 6030 8030 Pad type Type Oval Symbol W Dimensions: Pad Unit ZP2W ZP220 W ZP230 W 7 7 8 7 12 20 30 8 8 Y Y Y a A a A a A C C C b 20 30 B 31 21 Dimensions Dimensions Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y a 4 5 6 8 A 5 6 7 9 C 2 x 1.8 2 x 2 2.5 3 Y a 4 5 6 8 A
r3.045 {Mrl M45 x r.5 12.7 38.0 44.5 8.0 ||/A 35.0 60 ||/A l|/A Pt|t575 t -1, -2, -3 246.0 264.0 45 {Mt} ll45 x 1.5 12.7 38.0 44.5 143.0N/A 35.0 t3 N/A illA Pttt2050tit -1, -2, -3 226.0 32S^0 243.0 64 {Mt) M64 " 2.0 19.0 50.0 57.0 140.0N/A 38.0 t0 N/A N/A Pfzt00fiI t, -2, -3 345.0 64 lMFlMt4 " 2.0 It0 50.0 57.0 191.0N/A 380 95 N/A N/A Ptil2t50illt t, -2, -3 456.0 473.0 64 {Mr) M64 , 2.0 r9.0
Example 1:How many sctm will flow through a valve with a C, of 1 .0 given a supply pressure ot 80 psig and a 20 psi pressure drop? From the chart Fig. 3.10 find 80 psig on the criticalflow line. Next, lind 60 psig (80 psig minus a 20 psi pre*sure drop) on the horizontral axis at the bottom.
Example 1:How many sctm will flow through a valve with a C, of 1 .0 given a supply pressure ot 80 psig and a 20 psi pressure drop? From the chart Fig. 3.10 find 80 psig on the criticalflow line. Next, lind 60 psig (80 psig minus a 20 psi pre*sure drop) on the horizontral axis at the bottom.
[Horizontal and lateral mounting] A B SOL.3 W RE A B A magnetic field of 14.5 mT is equivalent to a position that has about 18 cm radius from a welded part using about 15,000 amperes of welding amperage. When using it in a stronger magnetic field, cover the sensor with magnetic and shield it.