Table of Contents 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
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
(It is an example of model "HRS040-A-20".)
: 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.
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.
[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.
CEP1 CE1 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.
471 OUT IN OUT IN OUT IN OUT IN OUT IN OUT IN OUT IN 50 37 113 84 201 150 314 235 490 358 804 603 1,256 942 Bore size (mm) Part no. 8 MT-S8 8 12 MT-S12 12 MT-S16 16 16 MT-S20 20 20 MT-S25 25 MT-S32 32 25 MT-S40 40 Replacement parts for rod end male thread.