IZH10.eng Protected earth
.: ZVB-P1A) Hose band (Material: SUS) Exhaust duct hose (Material: PVC) (*) Connection inside diameter Duct collector bag filtration rating 10m (Material: Polyester) Hose band (Material: SUS) -12- 2.5 Offset Voltage and Discharge Time Ionizer 100 180 200 Actual measurement values of the static elimination performance at the points 1 to 6 are shown below.
In general, 80 to 100 mesh (150 to 180 m) filters are recommended. When transferring a coagulable liquid, take measures to prevent it from coagulating in the pump. Please contact SMC sales office for the use of slurry. Take countermeasures to prevent the operating fluid from getting onto the body of the process pump. 3.
In general, 80 to 100 mesh (150 to 180 m) filters are recommended. When transferring a coagulable liquid, take measures to prevent it from coagulating in the pump. Please contact SMC sales office for the use of slurry. Take countermeasures to prevent the operating fluid from getting onto the body of the process pump. 3.
In general, 80 to 100 mesh (150 to 180 m) filters are recommended. When transferring a coagulable liquid, take measures to prevent it from coagulating in the pump. Precautions to observe when transferring slurry Basically, it is not recommended to transfer slurry because this will result in seating failure and wearing of the check valve and accumulation of particles.
In general, 80 to 100 mesh (150 to 180 m) filters are recommended. When transferring a coagulable liquid, take measures to prevent it from coagulating in the pump. Precautions to observe when transferring slurry Basically, it is not recommended to transfer slurry because this will result in seating failure and wearing of the check valve and accumulation of particles.
In general, 80 to 100 mesh (150 to 180 m) filters are recommended. When transferring a coagulable liquid, take measures to prevent it from coagulating in the pump. Precautions to observe when transferring slurry Basically, it is not recommended to transfer slurry because this will result in seating failure and wearing of the check valve and accumulation of particles.
M12 (4.5~7) IP65() 4.57()JIS C 3306 0.51.5mm 22 ,3 O JIS C2805 R1.25-3 Y () 1.25-3 2.53.7 0.290.35Nm () 4 4 4 4 5 5 5 5 (3 ) 0.50.6Nm 2 () 2 () 1 () 1 () 4() 3() 4() 3() 5() 4 5 DC AC DC AC SGC SGH AC 9 SGC200*-OMJ0004-A SGC/SGH Series SGC/SGH Series SGC/SGH Series SGC/SGH Series/ / / / DIN DIN DIN DIN AC DC DIN IP65() ( ( ( ( ) ) ) ) (4.5~7) IP65() NL:,R: LED:,R: V: V: 180
(Not indicated during normal control.) 10 to 999sec 3 External Sensor (1sec) 180 Sampling Cycle Enables control to temp. displaced from the actual temp. by modifying temp. measured by temp. sensor. -9.99 to 9.99 C (0.01 C) 0.00 4 Offset Value Allowable Upper Sets upper limit of temp. range which causes the warning to arise. 0.1 to 10.0 C (0.1 C) 1.5 5 Temp.
E B 8.5 8.5 5.5 D (KF flange) Fd (K flange) M5 G Fn 1(P) SUP M5 A 3(R) EXE H A mm Model A B C D E Fn Fd G H XLDV25 50 123 48 41.5 7.5 40 26 38.5 XLDV40 65 170 66 53.5 15.0 55 41 48.5 XLDV50 70 183 79 57.5 17.5 75 52 55.0 XLDV63 88 217 100 72.2 20.0 87 95 70 66.5 XLDV80 90 256 117 82.6 26.5 114 110 83 75.0 XLDV100 108 321 154 95.2 38.0 134 130 102 93.5 XLDV160 138 335 200 101.2 40.0 190 180
Dimensions E C D E E L (Width across flats) M (Width across flats) M8 (KF Flange) (K Flange) Fn Fd C Detail of (a) (a) M Rc1/8 J H K B A G A Model A B C D E Fn Fd XLGR-80*-1* 90 250 117 45.5 38.5 114 110 XLGR-100*-1* 108 270.5 154 55 38.5 130 102 XLGR-160*-1* 138 339 200 65 38.5 180 153 Model G H J K L M XLGR-80*-1* 83 105 44 9 13 4 XLGR-100*-1* 102 92 58 9 13 4 XLGR-160*-1* 153 124 62 12.5
Series 140 160 180 200 CQ2-Z 7.5 8.0 7.0 7.0 CQM RZQ MK-Z MGP-Z MGZ 2 : The range of operation is a standard including hysteresis, and is not guaranteed. 1: Bore sizes 32 and higher for the MHS series require a separate mounting bracket. (Bracket Part number: BMG2-012) 2: All bore sizes for the MGZ and MHC series require a separate mounting bracket.
The pin hole position in the drawing shows anticlockwise rotation end when the rotation angle is set at Fig. 2 180 by equally tightening the adjusting bolts A and B. Refer to the setting example of the rotation angle range. Table 7 shows adjusting angle per one rotation of adjust bolt.
Specifications Specifications Model MHZ2-10 MHZ2-16 MHZ2-20 MHZ2-25 MHZ2-32 MHZ2-40 Cylinder inside diameter (mm) 10 16 20 25 32 40 Fluid Air Double acting: D 0.2 to 0.7 0.1 to 0.7 Operating pressure (Mpa) Normally open: S 0.35 to 0.7 0.25 to 0.7 Normally Single acting closed: C Ambient and fluid temperature (oC) 10 to 60 Repeatability (mm) +/-0.01 +/-0.02 Maximum operating frequency (c.p.m.) 180
(Part 1: 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. 2 - / *3) 1 1.5 *3)1 1 () 3 - 1 1-1. 1)0.5MPa L = 20mm MHZ2-10* MHZ2-16* MHZ2-20* MHZ2-25* MHZ2-32* MHZ2-40* mm 10 16 20 25 32 40 D 0.20.7 0.10.7 MPa S 0.350.7 0.250.7 C oC -1060 mm 0.01 0.02 c.p.m. 180
. -3- 1Specifications Specifications Model M(D)HR3-10 M(D)HR3-15 Nominal size 10 15 Fluid Air Operation pressure MPa 0.2 to 0.6 0.15 to 0.6 Ambient and fluid temperature 0 to 60 Repeatability 0.01 Max. operating frequency c.p.m. 180 Lubrication Not required Action Double acting External hold 7 13 Note 1) Holding force N Internal hold 6.5 12 Opening stroke (Both side) mm 6 8 Note 2) Weight
1100 16 to 750 8 to 450 4 to 125 30 to 1200 20 to 1000 10 to 500 5 to 225 501 to 600 20 to 900 12 to 540 6 to 270 3 to 135 24 to 1100 16 to 750 8 to 400 4 to 125 30 to 1200 20 to 1000 10 to 500 5 to 225 601 to 700 20 to 630 12 to 420 6 to 230 3 to 115 24 to 930 16 to 620 8 to 310 4 to 125 30 to 1200 20 to 900 10 to 440 5 to 220 Speed[mm/s] Stroke Range 701 to 800 20 to 550 12 to 330 6 to 180
1200 20 to 1000 10 to 500 401 to 500 20 to 1100 12 to 750 6 to 400 24 to 1300 16 to 950 8 to 500 30 to 1200 20 to 1000 10 to 500 501 to 600 20 to 900 20 to 540 20 to 270 24 to 1200 16 to 800 8 to 400 30 to 1200 20 to 1000 10 to 500 601 to 700 20 to 630 20 to 420 20 to 230 24 to 930 16 to 620 8 to 310 30 to 1200 20 to 900 10 to 440 Speed [mm/s] Stroke 701 to 800 20 to 550 20 to 330 20 to 180
k INP(IN )ON INP INP ON :LEFS: 0.50,LEFB: 1 No.1 0+0.5 = 0.5 INP -22- IN INPAREA a b c d e f g h i j k No.0 0[mm] 100[mm] )AREA )AREA AREA1 2) No. 1 2 mm/s mm mm/s2 mm/s2 % % mm/s % mm mm mm 0 ABS 100 100.00 3000 3000 0 0 0 100 80.00 90.00 0.50 100[mm]-0.5[mm]=99.5[mm] INPON [mm] c 100 0 [mm/s] b ON OFF INP INP [mm] k 100.5 99.5 0 10 20 30 40 50 60 70 80 90 100 [mm] [mm] c 180
7.2 j 12AREA ON 12 INC ABS() No.1 148 250 AREA k INP No.0 50+20 = 70 -24- 1 -IN INPAREA a b c d e f g h i j k No. 1 2 mm/s mm mm/s^2 mm/s^2 % % mm/s % mm mm mm 0 ABS 100 100.00 3000 3000 0 0 0 100 80.00 90.00 0.50 No.00[mm] 100[mm] 1AREA 100[mm]-0.5[mm]=99.5[mm] INPON [mm] c 100 0 [mm/s] b INP ON OFF INP [mm] k 100.5 99.5 0 10 20 30 40 50 60 70 80 90 100 [mm] 2AREA AREA1 2 180