MHC2 A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)
Particularly when a cylinder operates at a high frequency or is installed in a place where there is a lot of vibration, ensure that all parts remain secure. 4. A deceleration circuit may be required. When a driven object is operated at high speed or the load is heavy, a cylinder's cushion will not be sufficient to absorb the impact.
force at least 10 to 20 times the workpiece weight The 10 to 20 times or more of the workpiece weight recommended by SMC is calculated with a margin of a = 4, which allows for impacts that occur during normal transportation, etc. 2 x F > mg Number of fingers and therefore, When = 0.2 When = 0.1 mg F > 2 x mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 With a representing the margin, F is determined
can monitor the flow rate of 4 different sensors. 1 1 2 2 4 independent flow rate ranges can be monitored by a single controller. 4 4 3 3 4-channel Flow Monitor Series PF2200 76 % reduced intallation space Connection (Compared with a PF2A3 and PF2W3, when panel mounted.)
Aluminum (setting temp.: 120C [248F]) Stainless steel (setting temp.: 120C [248F]) Uniform baking temperature Excellent thermal conductivity results in a uniform temperature for the entire valve body and a marked decrease in the condensation of gases inside the valve. 3, 4, 5 3 120 120 Comparison with KF25 flange 100 100 Body 1 4 Temperature (C) Body 2 80 5 2 Temperature (C) Body 3 1 1, 2
x 3) L1000 (L250 x 4) A B C D AIR VENT Note) For a comparison with the nominal filtration accuracy according to the element category, refer to Best Pneumatics No.7.
x 3) L1000 (L250 x 4) A B C D AIR VENT Note) For a comparison with the nominal filtration accuracy according to the element category, refer to Best Pneumatics No.7.
N Port 2 (A),1 (P) Port size A Model E F G H I J L M P R T U B C D K N O Q S Port 3 (R) VEX5510 VEX5511 160 50 25 10 7 25 173 80 60 98 Center 1 2 3 4 , , 1 1 2 3 4 60 150 79 70 53 13 18 100 2 x M6 Thread depth 9 116.5 , ,1 25 VEX5710 VEX5711 177.5 167.5 84.5 90 60 30 15 7 190.5 54.5 100 60 13 105.5 103.5 18 4 x M6 Thread depth 6 136.5 17 82 1 4 1 4 1,1 1 c Bracket mounting dimensions g Grommet
VZ (A) 2 (A) 2 VS 3 (R) 1 (P) 3 (R) 1 (P) r e w q r e w q N.O. N.O. (A) 2 (A) 2 3 (R) 1 (P) 3 (R) 1 (P) Component Parts Material Description Notes No.
Next, IB is entered to find IA the moment of inertia for the rotation of shaft (A) as a + b 2 2 A = ( ) b a 2 B = m 12 No. of teeth = b 11-10-3 4 Technical Data 3: Theoretical Output 5.
Changing the entry direction The cable entry direction of a connector can be changed as desired (4 directions at 90 intervals), depending on the combination of a housing r and a terminal block e. 1.
-X Technical Data 1501 A CY1S Series Construction CY1S/Bilateral piping type For 6 #8 For 6 For 10 23a 29a o !5 !1 @4 !2 !3 @1 !8 !7 !6 $4 !9 @0 @7 @2 #1 r q w e y t i u !5 !1 !4 #2 #0 !
Cylinder identification symbol Piping direction R L Centralized piping on right Centralized piping on left Bore size (mm) CY3B CY3R 10 15 25 10 15 25 Thread type Symbol Thread type M Rc NPT G Bore size (mm) 10, 15 CY1S Nil 25 TN TF CY1L CY1H CY1F CY1F CYP D-X Technical Data 1553 CY1F Series Construction #2 #3 #4 @0 #0 @4 @5 @6 q A @1 #7 #8 #9 !9 #1 $0 !6 #6 @9 r A $1 $2 $3 $4 t y w e !
Position of rotation axis: Parallel to side b and passes a center of gravity. 1=m 12 a 2 1=m 4 r 2 oWith a load at the lever end rThin rectangle board (Parallelogram) Position of rotation axis: Perpendicular to the board and passes through center line. 2 1 2 2 a +K 1=m1 +m2 3 a Ex.)
effective depth RA Y Q F Depth of counterbore RB I 4-N through 4-N through M0.2 D E K B + Stroke L M0.2 A + Stroke E 25, 30, 40 H effective thread depth C 2 x 4-OA effective depth RA 2-Rc1/8 (NPT1/8, G1/8) 2 x 4-OB Y Q F Depth of counterbore RB E J I M0.2 D W K B + Stroke L A + Stroke M0.2 E (mm) Bore size (mm) Stroke range (mm) Note) F A H B C D E OA I J K L M N OB Q RA W Y RB 10 10 to
(or within 3 kPa ) 1/8 ARP ARP 1/4 For 0.2 MPa setting With backflow function (ARP20K/30K/40K) 3/8 IR-A 1/2 Installable between a solenoid valve and a cylinder : Standard : Semi-standard IR Direct operated precision regulator now available as a series!! (ARP20/30/40) IRV VEX SRH Applications Applications SRP a Apply a constant pressure to fluid. b Adjust the blow-line pressure.
3 Sleeve 7 Iron Spacer 8 PBT r Return spring 9 Stainless steel w Board assembly 10 e Casing 11 PBT q Plug 12 NBR O-ring 13 NBR 3 Diaphragm Type Direct Acting 2/3 Port Solenoid Valve for Chemicals Series LVM10/100 Construction/Base Mounted Type LVM13R LVM14R LVM16R !2 !0 !2 !0 !2 !0 !1 !1 !1 y y y t t t u u i i u i o o !3 !3 o !3 r r r e e w w e w q !4 !4 q q !4 LVM115 Description No.
1 I N e A 2 OUT A IN OUT t BLEED A-A w y Note Component Parts Material No.
NPT1/4 G1/8 G1/8 G1/8 G1/8 G1/4 G1/4 512 Compact Guide Cylinder/Wide Type MGPW Series 20 to 63/MGPWL, MGPWA Stroke Z 4 x YY depth YL Stroke Z L 4 x MM depth ML 4 x NN through DA DB T R U H X V PW MGJ 2 x P JMGP OL MGP GA GB MGPW MGPW 4 x OA through 2 x OB counterbore FA FB MGQ C + Stroke Q J K B + Stroke E S G MGG A + Stroke MGC For intermediate strokes other than standard strokes, refer
Optional specifications Bracket mount P A B C D E G J M N Q R S T U V AFJ20 1/8, 1/4 40 79.2 9.8 20 25 20 30 27 22 5.4 8.4 40 2.3 28 AFJ30 1/4, 3/8 53 104.1 14 26.7 30 35 26.7 41 35 23 6.5 13 53 2.3 30 AFJ40 1/4, 3/8, 1/2 70 136.1 18 35.4 38.4 40 35.4 50 52 26 8.5 12.5 70 2.3 35 785 AFJ Series Specific Product Precautions 1 Be sure to read this before handling the products.