MXQ 5 y e o r !0 !6 !5 y e o i r q !9 r u e y o i !0 i t !2 q !1 @0 !7 t !2 u !1 !7 !0 t !2 !7 !1 !5 !6 Component Parts Description Note Description No. Material Material Note No.
-LD Piping port P Operating direction A 7 Piping port P Operating direction B W K G With switch rail Q + Stroke Z + Stroke Piping port P (plug) Operating direction B HS CR HR Plug 22 8 Piping port P Operating direction B Piping port P (plug) Operating direction B 8 Piping port P Operating direction A 16 19.5 16 Plug REBR15 REBR15 (mm) A B C CB CR D F G GP GW H HA HB HC HP HR HS HT Model REBR15
Load rate Ea= K E max Ea=1 0.11=0.11 Work mounting coeficient K: Fig.3 Max. allowable kinetic energy Emax: Table 1 Kinetic energy (E)Allowable kinetic energy (Ea) Possible to use by E=0.0 3 3-1 Load rate of work Calculate static work Wa (N) Wa=1 X 1 X 4=4 K=1 b=1 Wmax=4 a1=1/4=0.25 Wa=K b Wmax Work mounting coeficient K: Fig.3 Allowable load coeficient b: Graph 1 Max.
Unit AC10A to 40A Dimensions AC10A, 20A A N F E P K C G G IN OUT Q B Pressure gauge (Option) K H OUT Pressure gauge port size Square embedded type pressure gauge (Option) J L Port size Lubricator M Drain Min. clearance for maintenance Filter regulator D A N F AC30A, 40A E P K C G G OUT IN Q B Pressure gauge (Option) K OUT Pressure gauge port size J L Square embedded type pressure gauge (
1 t i With auto switch (Built-in magnet) 20, 25 12, 16 t y e !2 !0 q r !3 !1 w t !1 !2 !0 o q r !3 w y e Component Parts No.
2 VBAT10-Y-2 Accessorys part no.
N R Y P EA EB N.O N.O 2 Note 2) 2 position double (rubber) 4 position dual 3 port valve (C) Seal 4 2 A B CNote) Note 3) 0 1 Metal seal Rubber seal Note 4) D: Slide locking type (Manual) 1 5 3 P EA EB N.C N.O Note 1) When specifying more than one option, enter symbols in alphabetical order.
Power consumption P: 1000 [W] Q = P = 1000 [W] Cooling capacity = Considering a safety factor of 20%, 1000 [W] x 1.2 = 1200 [W] V: Power supply voltage HRSH 090 P HRSH Power consumption HRSE HRSE e Derive the heat generation amount from the output. Output (shaft power etc.) W: 800 [W] w Derive the heat generation amount from the power supply output.
M 9 N K M O H 1 CE1 O 1 H CE2 PP ML2B ML2B NN NN MM MM KK LL KK LL 2 x PA (Port for operating cylinder) J I J 2 x PA (Port for operating cylinder) F F F 76.5 91 110 H 73 88 106 J 40 46.5 55 K 46 58 68 M 13 15 19 N 16 15 19 O 18.5 19.5 21.5 F 93.5 107.5 130.5 H 73 88 106 I 76.5 91 110 J 40 46.5 55 K 46 58 68 M 30.9 32.4 41.5 N 16 15 19 Applicable cylinder ML2B25 ML2B32 ML2B40 Applicable cylinder
opening from the port 1 (P) to 2 (A) of VEX X . e: The air in the lower cylinder chamber is blocked at the port 1 (P) of VEX X , while the air in the upper cylinder chamber is blocked at the port 2 (A) of VEX Y .
Model Z ARP20(K) H J H J M N Q R S T U V W Y 27.8 1021 1021 1021 44 40 69 30 34 47 5.4 15.4 55 2.3 28 28.5 14 6 ARP30(K) 27.8 44 41 70 41 40 44 6.5 8 53 2.3 31 38.5 19 7 ARP40(K) 27.8 44 45 74 50 54 54 8.5 10.5 70 2.3 35.5 42.5 21 7 Note 1) The total length of B direction is the length when the filter regulator knob is unlocked.
Model Z ARP20(K) H J H J M N Q R S T U V W Y 27.8 1021 1021 1021 44 40 69 30 34 47 5.4 15.4 55 2.3 28 28.5 14 6 ARP30(K) 27.8 44 41 70 41 40 44 6.5 8 53 2.3 31 38.5 19 7 ARP40(K) 27.8 44 45 74 50 54 54 8.5 10.5 70 2.3 35.5 42.5 21 7 Note 1) The total length of B direction is the length when the filter regulator knob is unlocked.
Z directions for 2 hrs. each 490m/s2 in X, Y, Z directions 3 times each 1000Vp-p, Pulse width 1s, Rise time 1ns Resistance Note 1) In the case of PF2W711, 3% of F.S. or less (15C to 35C, based on 25C).
Load at end of lever Position of rotational axis: Perpendicular to the plate through one end 2 1 2 2 a + K = m1 + m2 3 a Ex.) When shape of W2 is a sphere, refer to u, and 4a + b 2 1 2 4a + b 2 2 2 = m1 + m2 12 12 It becomes K = m2 2r2 5 5. Thin rectangular plate (Rectangular parallelepiped) 10.
QQ PP NE NH MY1H PP TT TT UU P (Port) G MY1B 2 x T counterbore depth E P (Port) G A N P(MY1BG) MY1M Z + Stroke (Hexagon socket head taper plug) (WW) MY1C P (Port) ZZ XXX (Hexagon socket head taper plug) MY1H (WW) XXX XX MY1 HT P (Hexagon socket head taper plug) P (Port) MY1 W (Hexagon socket head taper plug) 2 x 2 x J depth K VV ZZ ZZ(MY1BG) (Hexagon socket head taper plug) VV MY1BG MY1BG
(Plug) A + Stroke E B + Stroke FA FB C + Stroke PA + Stroke GB PB Q 2-Rc P G J K S XA H7 depth XL IE XA H7 depth XL T-slot dimensions Note 1) The intermediate strokes other than the standard strokes at left are manufactured by means of installing a spacer.
(Plug) A + Stroke E B + Stroke FA FB C + Stroke PA + Stroke GB PB Q 2-Rc P G J K S XA H7 depth XL IE XA H7 depth XL T-slot dimensions Note 1) The intermediate strokes other than the standard strokes at left are manufactured by means of installing a spacer.
Code D33 SST Sensor Dual Module Code D44 Namur Sensor Dual Module Code I02 P+F NJ2-12GK-SN Code I09 P+F NCB2-12GM35-N0 Code I32 Omron E2E-X2Y1 Code I41 P+F NJ4-12GK-SN Code I45 P+F NJ3-18GK-S1N Code I56 IFC 2002-ARKG/UP Code K05 Omron D2VW-5 Code K06 Omron D2VW-01 Code B06 Omron D2VW-01 (ND9100F/P, ND9200F/P and ND9300F/P only) 2.5 Recycling and disposal WARNING (ND9000, ND7000): During automatic