0.4 (B) (A)4 r r (R1)5 1 (P) 3(R2) (R1)5 1 (P) 3(R2) e q w e w q VQC1201 VQC1200 2(B) (A)4 2(B) (A)4 (R1)5 1 (P) 3(R2) (R1)5 1 (P) 3(R2) r r e q w e q w VQC1300 VQC1400 VQC1301 VQC1401 2(B) (A)4 2(B) (A)4 2(B) (A)4 2(B) (A)4 (R1)5 1 (P) 3(R2) (R1)5 1 (P) 3(R2) (R1)5 1 (P) 3(R2) (R1)5 1 (P) 3(R2) VQC1500 VQC1501 r r 2(B) (A)4 2(B) (A)4 (R1)5 1 (P) 3(R2) (R1)5 1 (P) 3(R2) e q w VQC1A01 VQC1B01
Mitsubishi Electric Corporation Yaskawa Electric Corporation None F R L T B Nil W Axial Right Left Top Bottom 100/115VAC (50/60Hz) G 1 N.C. (B contact) 2 pcs.
Mitsubishi Electric Corporation Yaskawa Electric Corporation Nil W G 1 N.C. (B contact) 2 pcs.
For connector cable of M8 connector, refer to page 1-5-78. 1-5-6 7 4/5 Port Solenoid Valve Rubber Seal Series SYJ3000 Construction (A) 4 (B) 2 (A) 4 (B) 2 2 position single 2 position double 5 (R) 3 (R) 1 (P) 5 (R) 3 (R) 1 (P) t e q t r w qr w (B) 2 (A) 4 (B) 2 (A) 4 SV SZ u u 3 (R) 1 (P) 5 (R) 3 (R) 1 (P) 5 (R) SY y 3 position closed center/exhaust center/pressure center SYJ 3 position closed
Valve Rc 1 8 Rc 1 4 Rc 1 8 Rc 1 4 A, B port location P, EA, EB port Rc 1 4 M5 x 0.8 C4 (One-touch fitting for 4) C6 (One-touch fitting for 6) C4 (One-touch fitting 4) C6 (One-touch fitting for 6) C8 (One-touch fitting for 8) Port size C8 (One-touch fitting for 8) C10 (One-touch fitting for 10) A, B port SV Manifold base weight W (g) n: Stations W = 19n + 45 W = 43n + 77 W = 51n + 81 SZ Note
Bore size (mm) Contents 32 40 50 63 80 100 32 40 50 63 80 100 MBB32-PS MBB40-PS MBB50-PS MBB63-PS MBB80-PS MBB100-PS MBB32-PS-W MBB40-PS-W MBB50-PS-W MBB63-PS-W MBB80-PS-W MBB100-PS-W Set of the No. @9, #0, #1, #2 and #3. Set of the No. @9, #0, #1, #2 and #3.
7 i q @0 w y @1!8t @2 q !1 !0!3 o r !4 !5 !9u !2 CHM CHS CH2 CHA CHA @0 Related Products D40 Description Material Note Parts List Replacement Parts: Seal Kit No. Bore size (mm) Seal kit no.
K = WITH ADJUSTING KNOB W/S = WITH 1/4" SHAFT W/0S = FLUSH SHAFT P80 = 1/16" ID BARBS P85 = 1/8" ID BARBS NOTE: UNITS COME STANDARD WITH STRAIGHT CONNECTIONS FOR 1/16" ID TUBING Back to Top .
0.5 1 MHZ2-25, MHZL2-25 0.5 0.4 0.5 1 0.5 1 MRHQ MHZ2-32 0.5 0.4 0.5 1 0.5 1 MHZ2-40 0.5 0.4 0.5 1 0.5 1 Misc.
2 w i @5 !4 e !7 !1 @4 !5 !6 r t u q @3 !3 @0 !9 !
Dynamic moment U: Maximum speed U Calculation examples Operating conditions Cylinder: REBH15 Mounting: Horizontal wall mounting Maximum speed: U = 500 [mm/s ] Load weight: W = 1 [kg] (excluding weight of arm section) L1 = 200 [mm] L2 = 200 [mm] W L2 L1 Item Load factor n Note 1. Maximum load weight W 1 = W/Wmax = 1/3 = 0.111 = 0.333 Review W.
possible if the sum of the load factors does not exceed 1. 8-8-6 6 Precision Air Slide Table Series MXP Fig. (1) Load Weight: W (kg) Fig. (2) Overhang: Ln (mm), Correction Values for Moment Center Distance: An (mm) Pitch moment Yaw moment Roll moment W L2 A2 L1 A1 L3 A3 Mp Mr My Static moment Dynamic moment W W W L2 A2 L3 A3 L1 A1 W MX Mp Mr My MTS W W W W MY Mey Mep CY We We Note) No need
8 1 4 3 8 1 4 3 8 1 2 3 8 1 2 3 4 1 2 3 4 Port size (Nominal size B) 3 4 2 11 2 1 1 1 2 1 1 flange 0.38 0.55 0.9 1.4 2.1 4.2 10.5 50 52 72 87 Weight (kg) JIS Symbol Note) Max. flow is at 0.7 MPa.
Contents 32 MBB32-PS-W 40 MBB40-PS 50 MBB50-PS 63 MBB63-PS 80 MBB80-PS 100 MBB100-PS 40 MBB40-PS-W 50 MBB50-PS-W 63 MBB63-PS-W 80 MBB80-PS-W 100 MBB100-PS-W Set of the nos. @9, #0, #1, #2, #3 Set of the nos. @9, #0, #1, #2, #3 * Seal kits consist of items @9 to #3, and can be ordered by using the seal kit number corresponding to each bore size. * Trunnion type should not be disassembled.
1 o q %0 y $3 r #3 #1 $1 #6 B A @3 !4 %2 !3 $0 @8 #7 $2 w #0 $7 $9 $5 %1 %3 $6 @1 @4 !8 @0 !7 !9 @2 @6 $4 A section B section (Release piston bushing) (Piston guide bushing) 100 80 63 50 40 50, 63, 80, 100 @9 !2 !2 Description Material Note Component Parts Description Material Note No. No.
1 o q $8 y $1 r #5 B A CL CL1 MLGC @3 !4 %0 !3 #9 @8 #6 $0 w #0 $5 $7 $3 $9 %1 $4 @1 @4 !8 @0 !7 !
F 3 COMPRESSED AIR THEORY Units Pressur Prooerties of Gases lsothermic change (Boyle's Law) lsobaric change Charles Law Law of Gay Lussac lsochoric change Adiabatic (lsentropic) change Standard Volume Flow Bernoulli's Equation Air Humidity Relative humidity Pressur and Flow Use of the diagram: Formulae: 6 6 I 1 0 1 0 1 1 1 1 1 1 1 1 1 2 1 2 1 2 1 2 1 2 1 3 1 5 1 6 1 6 AE 36 36 5 AIR TBEATMENT
AL60 AC60 1 AF60 AR60 AL60 AW + AL AC10A M5 x 0.8 AL10 AW10 AC20A 1/8, 1/4 AL20 AW20 AC30A 1/4, 3/8 AL30 AW30 AC40A 1/4, 3/8, 1/2 AL40 AW40 AC40A-06 3/4 AL40-06 AW40-06 AF + AR AC10B M5 x 0.8 AF10 AR10 AC20B 1/8, 1/4 AF20 AR20 AC25B 1/4, 3/8 AF30 AR25 AC30B 1/4, 3/8 AF30 AR30 AC40B 1/4, 3/8, 1/2 AF40 AR40 AC40B-06 3/4 AF40-06 AR40-06 AC50B 3/4, 1 AF50 AR50 AC55B 1 AF60 AR50 AC60B 1 AF60
Applicable shaft type: W (mm) Y L2 L2 max Size (mm) E3 = E1 = Y = 10 3 to 8 5 ( 8 Y) to (Y 1) Y-1 L1 L3 max X Size L2 = L4 = 10 9 (14 X) to (X 1) 15 3 to 9 6 ( 9 Y) to (Y 1.5) Y-1.5 3 to 14 X 1 L1 = 15 10 (18 X) to (X 1.5) 20 3 to 10 7 (10 Y) to (Y 1.5) Y-1.5 3 to 18 X 1.5 L3 = X = 20 10 (20 Xs) to (X 1.5) 30 5 to 13 8 (13 Y) to (Y 2) Y-2 3 to 20 X 1.5 30 12 (22 X) to (X 2) 40 7 to 15 9 (