02-mgp-e MGP20-B-PS 20 25 32 40 50 63 80 100 MGP20-B-PS MGP25-B-PS MGP32-B-PS MGP40-B-PS MGP50-B-PS MGP63-B-PS MGP80-B-PS MGP100-B-PS @4 @5 @6 @7 #5 #6 $4 $5 Piston seal NBR MGP25-B-PS Set of left nos. @4, @5, @6, @7, #5, $4, $5 Rod seal NBR MGP32-B-PS Gasket A NBR MGP40-B-PS Gasket B NBR MGP50-B-PS Set of left nos. @4, @5, @6, @7, #5, #6, $4, $5 Set of left nos. @4, @5, @6, @7, #5, $4, $5 MGP63-B-PS
Y Applicable tubing O.D.: 4, 6 Different Diameter Straight: KQ2H Effective area [mm2] Min. port size Release button dimensions a *1 D2 Release button dimensions b L M1 M2 Applicable tubing a Applicable tubing b Applicable tubing O.D.
120 327 188 (519) w w 84 OUT 2 x R1 r IN 53 DRAIN G1/4 Note Component Parts Dimensions (mm) A B Model Bore size (Nominal size B) No.
With lock/226) 28 (64) Stroke 39 (4) 21 Motor cable (6) 70 58 47 6.7 17.5 Vacuum port Rc1/8 Note 3) 35 Encoder cable (7) Lock cable (4.5) Motor option B: With lock 8H9 ( ) depth 6 +0.036 0 13 n x 6.8 B 30 8H9 ( ) depth 6 +0.036 0 140 200 E C x 200 (= D) 25 Note 1) Please consult with SMC for adjusting the Z-phase detecting position at the stroke end of the end side.
Reed switch Auto switch A90 Solid state M9B, M9N, F8B, F8N Size: 10, 20, 30, 50 11 Vacuum suction type Clean series 10 Size 20 30 50 11 MSQ B 10 A M9B 22 MSQ B 10 A M9B Number of auto switches A High precision type B Basic type Nil S n 2 pcs. 1 pc. n pcs.
Cv C [dm3/(sbar)] b Cv 1.3 0.12 0.31 1.5 0.12 0.37 1.4 0.12 0.33 1.6 0.11 0.36 1.4 0.12 0.33 1.6 0.11 0.36 1.4 0.12 0.35 1.6 0.10 0.36 1.4 0.14 0.36 1.5 0.11 0.35 1 4/2 (P A/B) 4/2 5/3 (A/B R1/R2) Manifold Option Parts Assembly Individual SUP spacer An individual SUP spacer set on manifold block can form SUP port for every valve.
Flow Characteristics at the Number of Manifold Stations (Operated single/double type individually) Passage/Stations Station 1 Station 5 Station 10 Station 15 Station 20 2.7 0.15 0.62 2.8 0.10 0.65 C [dm3/(sbar)] b Cv 2.7 0.16 0.61 2.8 0.12 0.66 2.7 0.16 0.61 2.9 0.12 0.66 2.7 0.15 0.61 2.9 0.12 0.66 2.6 0.20 0.63 2.9 0.12 0.66 1 4/2 (P A/B) C [dm3/(sbar)] b Cv 4/2 5/3 (A/B R1/R2) Manifold
/set 14 ZL1 Series Dimensions ZL112A(N)(-B) Valve (Without supply valve or release valve) 2 x 5.3 Mounting hole ( ) Recommended tightening torque: 1.2 to 1.5 Nm 53.2 114 Vacuum (V) port Applicable tubing O.D. B Air pressure supply (P) port Applicable tubing O.D.
Made to Order Specifications (For details, refer to page 14-20-55.) 01 B 06 B 1 8 3 4 1B 02 03 10 14 B 1 4 B 3 8 04 B 1 2 Note) Refer to How to Order Bowl Assembly on page 14-20-59. 1 B 1 2 20 2B Caution Accessory/Option Combinations Available Not available Depends on model Be sure to read before handling.
Calculation: (Example 1) MUB40-15S(T) Basic weight 0.62 kg RQ (Example 2) MUC50-5S(T) Basic weight 1.06 Additional weight (Mounting bracket) 0.40 1.06 + 0.40 = 1.46 kg MU Construction DSpring return -X B 20Data B section MU25 Spring extend B A A section MU25 Component Parts No. q w e r t y u i o !0 !1 !2 !3 !4 !5 !6 !7 !
data) a: Inclination b: Intercept [Inclination and intercept to the unit specification] Series Unit Flow range Inclination a Intercept b 4 L 0.125 0 L/min 16 L 0.25 0 40 L 0.5 0 PFMC7 4 L 0.004415 0 cfm 16 L 0.0088275 0 40 L 0.0176575 0 [Calculation example] (1) Conversion from the process data to the flow measurement value (For PFMC7 series, unit L/min, flow range 1000 L and PD = 2500)
(Part1:General requirements) ISO 10218-1992:Manipulating industrial robots -Safety JIS B 8370: JIS B 8361: JIS B 9960-1:-((1 :) JIS B 8433-1993: 2) : : : 1 2. 3. 1. 2. 3. 4.
Port size Flow characteristics Internal pilot type External pilot type 1(P)4(A) 3(R2)2(B) Body port [dm3/(sbar)] B Cv C C [dm3/(sbar)] B Cv 1/2 12 0.14 2.9 14 0.18 3.4 This is the flow rate when the main valve is fully open. 3. How to order Switching type -5 - 4.
(B contact). Contact output signal 5selects Signal type and N.O. (A contact ) or N.C. (B contact). Contact output signal 6selects Signal type and N.O. (A contact) or N.C. (B contact).
FGDCA/B FGDEA/B FGDTA/B FGDFA/B (Rc) 3/81/23/4 (MPa) 1) 0.7 1.0 ( oC) 80 FGD*A:1 FGD*B:2 2) (mm ) FGD*A:6570250 FGD*B:6570500(2 :6570250) (MPa) 0.1 SCS14 SPCE SUS316 /O NBR () () 4) (kg) FGDCA/FGDEA:1.3 FGDCB/FGDEB:2.2 FGDTA/FGDFA:2.3 FGDTB/FGDFB:3.8 (L) FGD*A:1.7 FGD*B:3.4 1) 0.5MPa 2) (65500mm) 3) 4) 3. 001 -B FGD C A 03 B N 1 * -B * * A L250 B L500(L2502 ) 03 3/8 04
Round plate (Including column) Position of rotational axis: Through the center axis (B) Number of teetha 1. Find the moment of inertia I for the rotation of shaft (B). B r 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teethb 5.
Set value x 1 B RATE switch B RATE The transmission rate of controller IF CC-Link communication speed F Do not use D C 10Mbps B 5Mbps 230.4 A 2.5Mbps 625kbps 156kbps Do not use 10Mbps 5Mbps 115.2 2.5Mbps 625kbps 156kbps Do not set B RATE to the value of "Unused" 16 - Caution1: Set the controller IF communication speed at 115.2kbps to use the teaching box (LEC-T1-).
(A,C) Note.5) VXF-26AA VXF-26AC 24.529.5 29.434.3 VXF(A)26A(B,D) Note.5) VXF-26AB VXF-26AD VXF(A)25B(A,B,C,D) VXF-25AA VXF-25AC 12.515 1517.5 VXF(A)26B(A,C) Note.5) VXF-26BA VXF-26BC VXF(A)26B(B,D) Note.5) VXF-26BB VXF-26BD VXF(A)26C(A,C) Note.5) VXF-26CA VXF-26CC VXF(A)26C(B,D) Note.5) VXF-26CB VXF-26CD 24.529.5 29.434.3 VXF(A)26D(A,C) Note.5,6) VXF-26CA VXF-26CC VXF(A)26D(B,D) Note.5,6)
connector (5-pin, socket, B-code) of GW unit.
EX##-OMF0012 13 EX##-OMF0012-A -14No.EX-OMF0012-B Revision history B: Contents revised in several places. Note: Specifications are subject to change without prior notice and any obligation on the part of the manufacturer. 2002-2014 SMC Corporation All Rights Reserved No.EX-OMF0012-B