NCRBIBwserbs P(D Appendix e/How to caculate a rnomenl of ineriia .e@ Difilensions ..,,.,.,.,,.,.,,.,.,., C6 with Auto switch.-. e@ Auto Swilch DiagramgRolatron Into. ..
Nh9 RW L LA0.1 LB PD0.05 PB0.02 E PC0.05 PA0.02 GB GA C 2 x 2 x P H7 depth D 2 x 2 x MM depth J 2 x 2 x NPT 1/4 G Rc Hexagon socket head plug RD B [mm] Bore size B C D E GA GB J L LA LB MM N P Rubber cover Metal cover 50 92 48 12 13.7 95 166 12 376.6 155.5 78.4 78.4 M8 x 1.25 19 8 63 110 54 15 16.6 99 171.5 12 391.6 161 78 78.4 M10 x 1.5 22 10 Bore size PA PB PC PD R RA RB RC RD RR W XB XC
M9 M9V F9W(V) B Electrical entry is in the direction C (mm) Proper mounting position Proper mounting position Proper mounting position D-M9 D-F9W D-M9V D-F9WV D-M9 D-F9W D-M9V D-F9WV D-M9 D-F9W D-M9V D-F9WV Model Model Model A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C D E A B C
"#$ " %# &'# D t D D t t c c e c e e u u u s s s d d d i i i Rotary Gripper g g g o o o n n n r r r P P P A A A 9 9 9 MRHQ 10/16/20/25 w w w 9 9 m 9 I m I 1 1 n 9 9 9 9 n 9 9 d u d u r u a a a r u 9 o 9 9 s o s F tr F ie tr ie r r r 1 1 1 Modular construction D r D r d d d e e e e v v s s o o i i n g n g n n n n a a H H n P n P g g r r Gripper section is unitized for simple replacement.
L1 L2+A5 L3 2 1 V 2 E = W () 2 1000 Collision speed V = 1.4 Va 1 420 2 E = 1 () = 0.088 2 1000 Find the kinetic energy E (J) of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Ea = K E max Find the allowable kinetic energy Ea (J). Confirm that the kinetic energy of the load does not exceed the allowable kinetic energy.
t t y w w e e q q q 1 port 2 port 1 port 2 port 1 port 2 port r r r !
Brazil EXW1-BMJAAE E EXW1-BMJAAN N EXW1-BMJABE E EXW1-BMJABN N A Base MJ B A B EXW1-RDXNE4AE E EXW1-RDXNE4AN N EXW1-RDXNE4BE E EXW1-RDXNE4BN N EXW1-RDYNE4AE E EXW1-RDYNE4AN N EXW1-RDYNE4BE E EXW1-RDYNE4BN N EXW1-RDMPE3AE E EXW1-RDMPE3AN N EXW1-RDMPE3BE E EXW1-RDMPE3BN N EXW1-RDMNE3AE E EXW1-RDMNE3AN N EXW1-RDMNE3BE E EXW1-RDMNE3BN N A DX N B E4 A EXW1 DY N B Remote R A P B DM E3 A N B -17No.EX-OMZ0016
P(D Appendix e/How to caculate a rnomenl of ineriia .e@ Difilensions ..,,.,.,.,,.,.,,.,.,., C6 with Auto switch.-. e@ Auto Swilch DiagramgRolatron Into. ..
E NF 10 N JD N JC 10 A K F NA S + Stroke F H WH B ZZ + Stroke (mm) A B C D E F GA GB H H1 H2 I Bore size (mm) Stroke range (mm) Effective thread length 26 8 5 44 47.5 53.5 16 14.5 10 18 40.5 32 15.5 200 to 700 20 31 8 6 48 49.5 56.5 16 18 12 22 45.5 36 19.5 200 to 700 25 38 9 6 51 51.5 55 19 18 12 22 51.5 44 19.5 200 to 1000 32 47 11 8 54.5 51.5 56 21 20.5 16 24 61.5 53 21 200 to 1000 40
A C B Applicable model Dimensions [mm] A B C HECR002-A5-E 14 230 35 HECR004-A5-E 45 HECR006-A5-E HECR008-A5-E 44 HECR010-A2-E HECR008-W5-E 46 HECR012-W2-E 310 13 400 15 Option symbol F With Flow Switch F HECR Applicable model HECR002-A5-F HECR004-A5-F HECR006-A5-F HECR008-A5-F HECR010-A2-F HECR008-W5-F HECR012-W2-F With flow switch This is an ON/OFF switch detecting low levels of the circulating
Valve side exhaust Refer to page 478 for the maintenance parts. 470 XLAQ Series Aluminum One-touch Connection and Release High Vacuum Angle Valve Dimensions C D E E C G H I H V A C F U U M V E A V L Heater (Option) (Maintenance space) Auto switch (Option) B J XLA XL H XLQ XLQ G XM XY DXSA A XVD XGT CYV A (mm) Model A 120 133 178 190 B 38 48 66 79 C 1 1 2 2 D 12 11 11 E 30 40 55 75 F 17
NO. 19 NO. , 26 , 41 - 10-2 CEU5 , ROM , , ,SMC RAM , ,SMC 2ROM E ,, , , 2ROM E 2ROM 80 E , , ,SMC , 42 -
H w H w H e e H H r 2.2-2 Series KJ Male connector: KJH Thread (T) UNF NPT 10-32UNF <10-32UNF> <10-32UNF> Tube O.D. (inch) H (Hex.) Min. hole dia.
Common exhaust: VV3P7-41Stations 1-04 (G) (E) (T) (D, Y) N.C.
Without brake C section Brake electric circuit YellowC;*1 Y e l l o w O Y !
Specialty Regulators NAR Series Pressure Regulator NAR425, 435, 625, 635, 825, 835, 925, 935 s n o i t a c i f i c e p S l e d o M 5 2 4 R A N 5 3 4 R A N 5 2 6 R A N 5 3 6 R A N 5 2 8 R A N 5 3 8 R A N 5 2 9 R A N 5 3 9 R A N e z i S t r o P 2 / 1 8 / 3 4 / 1 1 4 / 3 2 / 1 1 4 / 1 1 2 ) a P M ( g i s p e r u s s e r p f o o r P ) 5 . 1 ( 0 2 2 e r u s s e r p g n i t a r e p o . x a
L1 L2+A5 L3 Kinetic Energy 2 1 V 2 E = W () 2 1000 Collision speed V = 1.4 Va 1 420 2 E = x 1 () = 0.088 2 1000 Find the kinetic energy E (J) of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Ea = K E max Find the allowable kinetic energy Ea (J). Confirm that the kinetic energy of the load does not exceed the allowable kinetic energy.