MGF 5 1 10 20 30 40 50 100 200 300 400 1 5 4 10 20 30 40 50 100 200 300 400 5 10 50 100 10 50 100 Eccentric distance l (mm) Eccentric distance l (mm) Stroke (mm) Stroke (mm) l = 300mm Graph 4 l = 200mm Graph 3 v = 150mm/s or less Graph 7 v = 200mm/s or less Graph 8 20 300 300 200 200 MGF100 MGF100 20 100 100 MGF100 10 50 40 50 40 MGF63 MGF100 MGF63 Load weight m0 (kg) Load weight m0 (kg) Load
B Z + Stroke DB DX DD 90 B 4DT A DS DH 4DR DB DU DO DO DC DE DU DL Rotation (mm) No.
Outside Inside the controller 10k (a) 1k (a) IN0
Grommet: G Conduit: C 300 V D D F Q F Q 280 300 VC Class H coil Broken line section C C G1/2 R R VDW VQ E E VX2 A H A H B B 2-P Port size 2-P Port size VX 2-M, thread depth N 2-M, thread depth N Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com VX3 L L VXA K K VN
B IDFB4E to 15E A Power cable outlet 0.7 [17 mm] Grommet with membrane Signal cable outlet 0.7 [17 mm] Terminal block (Wire diameter 0.4 [9 to 11mm]) Grommet with membrane Power cable outlet 0.7 [17 mm] IDFB4E to 11E_Terminal block C D A B Terminal block Dimensions Unit: inch [mm] A B C D Model B B 9.0 [230] 2.6 [67] 7.0 [179] 1.3 [32] IDFB4E, 6E, 8E, 11E A Power cable outlet 0.7 [17 mm]
Max. 2s 2s 1s 1s Min. 0.5s 0.5s 0.2s 0.2s 0.1s 0.1s 0.05s 0.05s 0.02s 0.02s 0.01s 0.01s 6000 100 125 200 300 400 500 700 1000 1500 2000 30004000 10 100 125 200 300 400 500 600700 1000 1500 2000 3000 4000 600 5000 7000 Current (% for breaker capacity) Current (% for breaker capacity) For HRS100-A/W-20-B For HRS150-A/W-20-B HRS100-A/W-40, HRS150-A/W-40 4h 2h 1h 30min 20min 14min 10min 6min
Grommet: G Conduit: C Approx. 300 Approx. 280 D D Q F Q F C C G (PF) 1/2 R R E E A H 2-P Port size 2-M B B A H 2-P Port size 2-M L L K K DIN connector: D Conduit terminal: T Cable 6.8 to 10 27.5 F F Q (Q) S 34 25 U R C R C (44) G (PF) 1/2 E B A H D 2-P Port size (S) E G (PF) 1/2 B A H D 2-M 2-P Port size 2-M L L K K N.C.
Grommet: G Conduit: C Approx. 300 Approx. 280 D D Q F Q F C C G (PF) 1/2 R R E E A H 2-P Port size 2-M B B A H 2-P Port size 2-M L L K K DIN connector: D Conduit terminal: T Cable 6.8 to 10 27.5 F F Q (Q) S 34 25 U R C R C (44) G (PF) 1/2 E B A H D 2-P Port size (S) E G (PF) 1/2 B A H D 2-M 2-P Port size 2-M L L K K N.C.
When selecting a converter by its nominal diameter, the converter's oil level speed should be 0.2m/s or less. 300 25 600 500 400 100 200 20 300 CRA1H100-180 300 100 200 CRA1H100-90 200 150 CRA1H80-180 50 eSelect required function for valve unit 100 100 80 CRA1H80-90 Select a model from data ,
MGF40 MGF40 20MGF40 MGF40 10 10 10 MGF40 Data MGF40 10 5 4 3 5 4 3 2 2 5 5 1 10 20 30 40 50 100 200 300 400 1 5 4 10 20 30 40 50 100 200 300 400 5 10 50 100 10 50 100 Eccentric distance l (mm) Eccentric distance l (mm) Stroke (mm) Stroke (mm) l = 200 mm l = 300 mm Graph (3) Graph (4) v = 150 mm/s or less v = 200 mm/s or less Graph (7) Graph (8) 20 300 300 200 200 MGF100 MGF100 20 100 100
TZ Edition B Edition C Safety Instructions Be sure to read the Handling Precautions for SMC Products (M-E03-3) and Operation Manual before use.
Unrestricted 300/50 m/s2 Manual override Lubrication Mounting orientation Impact/Vibration resistance Enclosure (2) Dustproof Note1) Based on dynamic performance test, JIS B 8419: 2010.
POINT POINT POINT POINT When heating the circulating fluid, the high-pressure, high-temperature refrigerant gas is bypassed into the evaporator by expansion valve B to heat the circulating fluid.
Dimensions SFD100 different diameters SFD200 different diameters One-touch fitting dimensions(A, B) One-touch fitting dimensions(A, B) Port size q Port size w Port size q Port size w 4 8 4.5 5.5 SMC 6 10 Basic dimension 114.5 Basic dimension 72 5.5 4.5 Fitting dimension A Fitting dimension B Fitting dimension A Fitting dimension B 8 12 5.5 5 Total length 81 (A + 72 + B) 76.5 (72 + A) 81.5
Static moment M2 = m g (L1 + B) 103 m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 and M3 are not generated, review is unnecessary. = 0.96 [Nm] 2 = M2/M2 max = 0.96/4 = 0.24 M Guide shaft mounting surface L1 B We = 5 x 103m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We(L2 + A) 103 3.
A B B A B A B 16 (24) A B Hs Hs Hs 21.5 (29.5) 20.5 (28.5) 15 (22.5) 17.5 (25.5) 19.5 (27.5) 20 4.5 8 6 10 9 3 24.5 27 27.5 21.5 (29.5) 20.5 (28.5) 15 (22.5) 17.5 (25.5) 19.5 (27.5) 16 (24) 25 4.5 8 6 10 9 3 27 29.5 30 22.5 (30.5) 21.5 (29.5) 15.5 (23.5) 18.5 (26.5) 20.5 (28.5) 17 (25) 32 5.5 9 7 11 10 4 30.5 33 33.5 25 (34) 24 (33) 20 (27) 21 (30) 23 (32) 19.5 (28.5) 40 10 13.5 35 37.5 38
A B B A B A B 16 (24) A B Hs Hs Hs 21.5 (29.5) 20.5 (28.5) 15 (22.5) 17.5 (25.5) 19.5 (27.5) 20 4.5 8 6 10 9 3 24.5 27 27.5 21.5 (29.5) 20.5 (28.5) 15 (22.5) 17.5 (25.5) 19.5 (27.5) 16 (24) 25 4.5 8 6 10 9 3 27 29.5 30 22.5 (30.5) 21.5 (29.5) 15.5 (23.5) 18.5 (26.5) 20.5 (28.5) 17 (25) 32 5.5 9 7 11 10 4 30.5 33 33.5 25 (34) 24 (33) 20 (27) 21 (30) 23 (32) 19.5 (28.5) 40 10 13.5 35 37.5 38
Features 2 Model Selection 1 Obtain the correction factor for the temperature from data A or B and the correction factor for the air pressure from data C. Temperature Data A or B = Series IDU: Data A IDF1D to 240D: Data B-1 IDF 370B: Data B-2 Air pressure Data C = Series IDU and Series IDF: Data C 2 Calculate corrected air flow by using A or B and C.
button Body O-ring Seal Stud Port B Port B Port B Port B Seal Guide Chuck Guide Chuck Collet Collet Port A Release button Port A 15-3-6 2 FR One-touch Fittings Manifold Series KRM Dimensions: KRM11 2-FB Applicable tubing O.D.
4/25/3 (A/BEA/EB) Valve model (P, EA, EB) 4, 2 (A, B) 1, 5, 3 4position dual 3 port Cv b C [dm3/ (sbar)] Cv b C [dm3/ (sbar)] N.C.