Hmm 0.3MPa 0.7MPa 0.3MPa 60 0.7MPa 0.4MPa 60 0.4MPa 40 40 20 20 100 80 60 40 20 0 100 0 80 60 40 20 Gripping point L mm Gripping point L mm 12-3-6 7 Model Selection Series MHF2 Confirmation of External Force on Fingers: Series MHF2 Step 3 MHZ L L MHF MHL Mr Mp Fv My MHR MHK MHS L MHC MHT MHY L: Distance to the point at which the load is applied (mm) MHW Maximum allowable moment Allowable
60 40 20 0 0 50 30 10 Gripping point L mm Gripping point L mm MHF2-16D MHF2-20D 100 0.5MPa 100 Pressure 0.2MPa Pressure 0.2MPa 80 0.5MPa 0.6MPa 80 0.6MPa Overhang Hmm Overhang Hmm 0.3MPa 0.7MPa 0.3MPa 60 0.7MPa 0.4MPa 60 0.4MPa 40 40 20 20 100 80 60 40 20 0 100 80 60 40 20 0 Gripping point L mm Gripping point L mm 12-3-6 7 Model Selection Series MHF2 Confirmation of External Force on Fingers
Hmm 0.7MPa 0.3MPa 0.3MPa 60 0.7MPa 60 0.4MPa 0.4MPa 40 40 20 20 100 80 60 40 20 0 80 60 40 20 0 100 Gripping point L mm Gripping point L mm 3 Series MHF2 Confirmation of external force on fingers: Series MHF2 Step 3 L L Mr Mp Fv My L L: Distance to the point at which the load is applied (mm) Maximum allowable moment Allowable vertical load Fv (N) Model Pitch moment Mp (Nm) Yaw moment My(
L L H Holding point Holding point H MHF2-12D MHF2-8D 80 50 Pressure 0.2MPa 40 60 0.5MPa 0.5MPa Pressure 0.2MPa 0.6MPa 0.6MPa Overhang Hmm Overhang Hmm 0.7MPa 30 0.7MPa 0.3MPa 0.3MPa 40 0.4MPa 0.4MPa 20 20 10 0 0 40 20 50 30 10 80 60 40 20 Gripping point L mm Gripping point L mm MHF2-16D MHF2-20D 100 0.5MPa 100 Pressure 0.2MPa Pressure 0.2MPa 80 0.5MPa 0.6MPa 80 0.6MPa Overhang Hmm Overhang
VX31 VX31 VX32 VX33 1/8 1/4 1/4, 3/8 1/4, 3/8 50 42 61 1.5, 2.2, 3 36 41 42 42 18 93 22 76.5 30 19 19.5 27 19.5 40 42.5 58.5 46.5 92 42.5 17.5 50 75.5 40 1.5, 2.2, 3 2.2, 3, 4 2.2, 3, 4 20.5 24 24 90 35 40 22 22 22.5 32 36 22.5 60 43 46 52.5 61.5 52 49.5 95 98 52.5 64 21 57 57 89 21 106.5 47 47 98 25 25.5 68.5 61 64 60.5 52 61 66.5 21 97 21 114.5 21 Series VVX31/32/33 For Air, Oil / Manifold
AW20 (K) to 40 (KJ !
10D MHL2-10D1 MHL2-10D2 MHL2-16D MHL2-16D1 10 40 60 L1 16 40 L2 146 98 158 178 116 226 138 238 278 166 1010 1175 1645 1840 1850 80 40 80 100 50 MHL2-16D2 MHL2-20D MHL2-20D1 MHL2-20D2 MHL2-25D 60 20 40 60 25 198 216 150 198 242 298 336 220 318 402 2720 2935 3070 3985 4820 100 120 70 120 160 188 246 286 MHL2-25D1 MHL2-25D2 MHL2-32D MHL2-32D1 MHL2-32D2 MHL2-40D MHL2-40D1 MHL2-40D2 40 30 32 20
10, 16, 20, 25: 40 mm, Bore size 32, 40: 80 mm.
(Compared with the basic model CJP cylinder without auto switch) B (CDJP2B4-10D) Unit: mm Dimensions Mass Unit: g Stroke Bore size (mm) C B A Bore size 16 42 46 50 54 58 63 67 71 4 11 13 15 17 6 16 18 21 23 25 10 27 29 32 35 37 40 43 45 29 + stroke (34 + stroke) 4 14.5 14 5 10 15 20 25 30 35 40 33 + stroke (38 + stroke) 6 16.5 14 39.5 + stroke (44.5 + stroke) 10 19 15 43.5 + stroke (48.5
40 10.5 14 17 20 22 22 24.5 24.5 40 48 62 66 21 <22> 28 33.5 42 57 70 71 95 28.5 37.5 38.5 49.5 85 (91.5) 93 (99.5) 104 (110.5) 110 (116) 35 35 33 37 10 14.2 15.2 17.2 M5 M5 M6 M6 Bracket mounting a b f g h i Port size P Model j 37 41 46 48 a1 Note) d e 2.3 2.3 2.3 2.3 3 A 4 B 5 C 6 D VXZ2 VXZ2 VXZ2 VXZ2 1/4, 3/8 1/2 3/4 1 56 56 70.5 70.5 52 60 68 73 75 75 92 92 30 34.5 39 41 6.5 6.5 6.5
40C 227 40 28 1960 Note 1) Values at the pressure of 0.5 MPa.
Test range Thermometer Equipment for test Pressure tap Pressure tap Restrictor in the downstream side Restrictor in the upstream side Flow meter 6d 2d 10d 20d Fig. (3) Test circuit based on IEC60534-2-3, JIS B 2005 20 Flow Characteristics Note) Use this graph as a guide. In the case of obtaining an accurate flow rate, refer to pages 16 to 20.
50 60 3 2 6 30 60 8 25 35 10 20 40 10 35 Flow rate Q kg/h Figures inside [ ] indicate the saturated steam holding heat (kcal/kg).
(lmm) mm Nm mm MHY2-10D M3x0.5 0.88 6 11H9 1.5 MHY2-16D M4x0.7 2.1 8 17H9 1.5 MHY2-20D M5x0.8 4.3 10 21H9 1.5 MHY2-25D M6x1 7.3 12 26H9 1.5 Nm (lmm) MHY2-10D M3x0.5 0.88 6 MHY2-16D M4x0.7 2.1 8 MHY2-20D M5x0.8 4.3 10 MHY2-25D M6x1 7.3 12 8 Nm (lmm) MHY2-10D M3x0.5 0.88 6 MHY2-16D M4x0.7 2.1 8 MHY2-20D M5x0.8 4.3 10 MHY2-25D M6x1 7.4 12 Nm{kgfcm} MHY2-10D M3x0.5 0.88{9} MHY2-16D M4x0.7 2.1
Orifice diameter [mm] Port size Valve type Orifice diameter [mm] Port size Valve type Orifice diameter [mm] Port size Valve type N.C. 1/4 to 1 10, 15, 20, 25 10, 15, 20, 25, 35, 40, 50 N.C./N.O. 1/4 to 50A 10 to 12 N.C.
Next, measure this flow rate at 80%, 60%, 40%, and 20%, as well as the upstream and downstream pressure. The sonic conductance C can be calculated based on this maximum flow rate. Substitute the data of the others into the subsonic flow formula to find b, and calculate the critical pressure ratio b from that average.
PC 0110.1 10D Alum. D.C. PC 0111-1 1 1 O-Ring , Operatol Buna N 12 Recessed Non-Locking Operator PB 0103 13 Gasket . Subplate BLrna N AXT 335-12.2 '14 Hold Down Bolts 32 x 1 n.')
PC 0110.1 10D Alum. D.C. PC 0111-1 1 1 O-Ring , Operatol Buna N 12 Recessed Non-Locking Operator PB 0103 13 Gasket . Subplate BLrna N AXT 335-12.2 '14 Hold Down Bolts 32 x 1 n.')
M6x23 JMHZ2-16D D-M9N-5 M3X7 M-5ALHU-2 2 ASN2-M5-X937 M-5ALHU-2 3 V114-5LU KQ2S04-M5N 3x6 ISO9409-1 M4x25 M8 8 () 6x10 M6x10 5 - 3 3-1. 6 - 3-2. mm 16 MPa 0.1~0.7 (oC) -10~50 (mm) 0.01 (c.p.m.) 120 32.7 (N) 43.5 (mm) 10 (g) 430 M8 8 (www.smcworld.com)JMHZ2 Series P .15 M8 8 7 - 3-3. 2 1 F 8 - 3-4.
M6x23 : : M3X7 D-M9P-5 JMHZ2-16D M-5ALHU-2 2 KQ2S04-M5N 3 V114-5LU ASN2-M5-X937 3x6 ISO9409-1 M4x25 6x10 M6x10 M8 8 () M6x10 ISO9409-1 6x10 5 - 3-1. JMHZ2-16D-X7400B-ASSISTA(-P) mm 16 MPa 0.1~0.7 (oC) -10~50 (mm) 0.01 (c.p.m.) 120 32.7 (N) 43.5 (mm) 10 (g) 680 D-M9(N/P)-5 ISO9409-1-31.5-4-M5 (www.smcworld.com)JMHZ2 Series P .15 M12 8 6 - 3-2. 2 1 F 7 - 3-3.