VCC Indication of A B C D E F G T VCKH1209-02F VCKH1008-02F VCKH1075-02F VCKH0806-02F VCKH0604-02F 12/9 13 38.5 10 19 17 18.5 9 to 12 Nm 10/8 11 38 9 17 17 18.5 6 to 9 Nm 1075 11 38 9 17 17 18.5 6 to 9 Nm 8/6 9 36.5 8 14 14 16 4 to 9 Nm 6/4 7 36.5 8 12 14 15 3 to 8 Nm VCKK 40 swivel elbow 40 B A 10 Approx. F D Width across flats 14 Tightening torque: Tighten within 10 1 Nm. Approx.
24 3-M3 x 0.5 28 3-M3 x 0.5 G Width across flats 24 10 E 10 ZX F F E ZR Y Y 6 3 ZM 18 18 C C ZH A A B D B D ZU 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 Dimensions Dimensions A (mm) ZL (mm) Model Model A B C D E F G Y B C D E F G Y ZY ZPT40HB-B8 ZPT40HB-A14
Switch operating range Stroke (mm) 20 41 29 47 35 Type 25 46.5 34.5 30 55 43 10 31 19 15 36.5 24.5 A B A B A B MXP10 Auto switch MXP12 3 Screwdriver (Grip diameter 5 to 6mm) MXP16 2 Color indication solid state switch D-F9BW(V), D-F9NW(V), D-F9PW(V) mm Switch operating range Stroke (mm) 20 42 28 48 34 Type 25 47.5 33.5 30 56 46 10 32 18 15 37.5 23.5 A B A B A B MXP10 MXP12
The maximum pilot piping I.D. is 10 mm. A For 3 mm to 5 mm Port size: 06, 10 55-JSXFA B A Enter the standard product number.
[mm] *1 D1 Weight [g] With a rib X (X) Y Nylon Urethane Applicable tubing M L1 Oval type Round type 4 1/8 KQ2L04-01GS1 10 8.2 7.7 10 10 14.8 16.2 17.2 13.3 4.6 3.3 3 4.8 1/4 KQ2L04-02GS1 14 8.2 7.7 10 10 14.8 21.7 21.1 13.3 4.6 3.3 3 14.3 Rib 4, 6 8 to 16 6 1/8 KQ2L06-01GS1 10 10.4 9.7 12 10 15.5 17.3 19.4 13.3 11.4 9 4.5 5.2 1/4 KQ2L06-02GS1 14 10.4 9.7 12 10 15.5 22.8 23.3 13.3 11.4
Also, take measures to prevent ingress of water and foreign matter from the breathing port of the diaphragm. 5-5-10 1 3 Port Air Operated Valve Series VGA342 How to Order SA 04 VGA342 A VA Port size Passage A Normally closed (N.C.) B Normally open (N.O.) Thread type Nil Rc F G N NPT T NPTF 04 1/2 06 3/4 10 1 SA VA JIS Symbol VM N.C. N.O.
Give adequate confirmation, and then determine a model, just because the compatibility list shows the general case. 10-12 10-11 10-10 10-9 10-8 10-7 10-6 10-5 10-4 10-3 10-2 10-1 1 10 102 10-12 10-11 10-10 10-9 10-8 10-7 10-6 10-5 10-4 10-3 10-2 10-1 1 101 102 103 104 105 106 107 108 109 Pa Vacuum piping direction: if the system uses a vacuum pump, we ask that you install the vacuum pump
-T020-B-X61 Note) HRL200-W FGESA-10-T020A-G2 Note) Note) The filter shown above cannot be directly connected to thethermo-chiller.
UPPER AND LOWER LIMIT ARISES -9-2 FIG. 10-1 MOISTURE AIR DIAGRAM -10-3 vi Contents Table List Page No.
MXP 6-5 MXPJ6-5 MXP 6-10 MXPJ6-10 0.05 0.05 0.06 0.04 Table displacement mm Table displacement mm Table displacement mm 0.04 0.03 0.04 0.03 0.02 0.03 0.02 0.02 0.01 0.01 0.01 0 10 20 30 40 Load N 0 10 20 30 50 Load N 0 10 20 30 40 Load N 40 10 10 10 L = 100mm L = 100mm L = 100mm MXP10-10 MXP10-20 MXP10-10 MXP10-20 0.04 0.03 0.08 MXP10-10 MXP10-20 MXP10-10 MXP10-20 MXP10-10 MXP10-20 MXP10
Minimum Auto Switch Mounting Stroke (mm) Auto switch model Bore size (mm) D-A9 A9V D-M9 D-M9V D-F9W D-F9WV D-F9BAL Number of auto switches 2 pcs. 10 5 15 10 20 10 15 20 1 pc. 5 5 15 5 20 10 15 2 pcs. 10 5 10 10 20 10 10 25,32,40,50 1 pc. 5 5 10 5 20 10 10 2 pcs. 10 5 10 10 15 10 10 63 1 pc. 5 5 10 5 15 5 5 Besides the models listed in How to Order, the following auto switches are applicable
(Unit: mm) Separate position ranges can be set for up to two outputs: AREA A and AREA B. The position ranges should be set as follows: Position 1 Position 2. Part No. Range Resolution LAT3-10 0 to 10 Refer to the 0.03 LAT3-20 0 to 20 Area Range table on the LAT3-30 0 to 30 right.
10 ISO Class 8 10 10 0 L/min (ANR) ISO Class 7 ISO Class 7 10 10 Particle concentration [particles/m3] Particle concentration [particles/m3] ISO Class 6 ISO Class 6 10 10 0 L/min (ANR) 50 L/min (ANR) ISO Class 5 ISO Class 5 10 10 1000 1000 20 L/min (ANR) ISO Class 4 ISO Class 4 100 100 70 L/min (ANR) 30 L/min (ANR) 10 10 1 1 0 0.1 0.2 0.3 0.4 0.5 0.6 0 0.1 0.2 0.3 0.4 0.5 0.6 Particle diameter
F (inch) Model N L1 L2 H (Width across flats) Port B min. bore Weight (g) L3 L4 L5 L6 P Q1 Q2 M KM12-03-35-10 KM12-03-35-6 6 87 10 40 65 5 32 1 4 29 18 29.5 19.5 10.6 12 16 6 17.46 10 110 6 95 10 121 6 102 10 61.5 72 KM12-07-35-10 KM12-07-35-6 48 82 31.25 10 19.5 31.5 21.5 13.2 13 17 7 17.46 1 4 1 4 73.5 92 KM12-09-36-10 KM12-09-36-6 52.8 97 37.5 12.7 23.7 37.7 25 15.2 15 18.5 9.5 22.22 5
CHKDB Bore size Rod end thread type Auto switch Quantity XC64 Stroke With air release valve Dimensions CHKDB--XC64 A C C B A B C Bore size (mm) 20 16.5 14.5 7 25 17 15 8 32 19.5 17 10 40 20.5 17.5 10 50 22 19.5 10 63 25.5 22 10 80 30 26.5 15 100 36 33 15 Note) Dimensions other than those highlighted above are standard. 12
0.8 (one each on three sides) Port B 47h9 0 0.062 4-M5 x 0.8 Depth 8 8 N I J E A D P A A M N 22 R R SMC 12 E O P T 25 P A I R 8 R G Y 11 A R I 6 6 29 Side A Side B Scale: 45% 10 Rotary Gripper Series MRHQ Dimensions (mm) 1in = 25.4mm Scale: 50% MRHQ20 A B 48 59 78 38.5 4-M6 x 1 Depth 10 0 0.074 54h9 26.3 opened + 2.2 0.2 8 0 0.1 M5 x 0.8 0 0.05 10 16.3 closed 0 0.7 4-M4 x 0.7 Finger
>Aiv EJ E) =:-:H8 I 10 l 1 I : i/b.a $n a ltfllon!. @nl6l t dory. DITENSIONS A B c D E F o H J t( T N o P B s r u 3.43 (87) 2.
22 8 31 18 51.5 6 40 78 Angle adjustment bolt 2-5.5 through 2-9.5 depth of counter bore 3 3-R2 11 2 10 +0.03 0 3-4H9 long groove depth 4 (one each on three sides) 0 -0.062 47h9 M5 x 0.8 Port A M5 x 0.8 Port B 4-M5 x 0.8 depth 8 8 22 8 12 25 11 6 6 29 Side A Side B 41 12-11-14 15 Rotary Gripper Series MRHQ MRHQ20 A MHZ B 48 59 MHF 78 MHL MHR 38.5 4-M6 x 1 depth 10 51 MHK Courtesy of Steven
If foreign objects with a size of 20 m or more are likely to enter, install the particle filter. 8 Filter Rc1 20m Refer to the table below * Recommended filters for facility water inlet Applicable model Recommended filter HRSH100/150 FQ1012N-10-T020-B-X61 Note HRSH200/250 FGESA-10-T020A-G2 Note Note) The filter shown above cannot be directly connected to the thermo-chiller.
A part z1 m1 = 40 X 7 X 8 X 2.7 X 10-6 Calculation of weight m1 = a X b X c X Specific gravity = 0.006(kg) Iz1 = {0.006 X (40 2+7 2)/12} X 10-6 Moment of inertia around Z1 axis = 0.8 X 10-6 (kgm 2) = 0.8 X 10-6+ 0.006 X 37 2 X 10-6 Iz1 = {m1(a 2+ b 2)/12} X 10-6 IA = 9.0 X 10-6(kgm 2) Moment of inertia around Z axis IA = IZ1 + m1r1 2 X 10-6 z r2 Z2 B part r2 = 47(mm) m2 = 5 X 10 X 12 X