OMU0023 Modbus RTU protocol (Hexadecimal notation) Request data 01 08 0 1234 ED7C Response data (normal response) 01 08 0 1234 ED7C (Binary notation) Response data 0001 1000 0 0 0001 0010 0011 0100 1110 1101 0111 1100 Response data (normal response) 0001 1000 0 0 0001 0010 0011 0100 1110 1101 0111 1100 For correspondence between ASCII notation and ASCII hexadecimal notation, refer to the 8.4 ASCII
tuoe) 2 1/4 (1000. 2000 tvoe) 3/8 (2000 type) Without bracket I Flat bracket L-bracket World Wide QS\E Support...
L1 L2+A5 L3 2 1 W V 2 E= ( ) 2 9.8 1000 Collision speed V=1.4 Va *) Corrected coeficient 1 420 E= 1( ) =0.088 2 1000 V=1.4 X 300=420 Calculate kinetic energy E (J) of work. Calculate allwable kinetic energy Ea (J). Check that kinetic energy of work does not exceed allowable kinetic energy.
SUP = 0.2 MPa 0.2 0.2 0.2 0.1 0.1 0.1 0 0 0 50 100 150 200 0 Discharge (mL/min) 0 Discharge (mL/min) 200 400 600 800 1000 0 Discharge (mL/min) 200 400 600 800 1000 Air Consumption: Built-in Solenoid Valve/Air Operated Calculation of Air Consumption Air Consumption 45 Find the air consumption for operation with a 5 Hz switching cycle and pilot air pressure of 0.35 MPa from the air consumption
Mr = 1 x 9.8 (30 + 10.5)/1000 = 0.39 A6 = 10.5 Mar = 36 Mrmax = 36 K = 1 = 1 '2 = 0.39/36 = 0.011 Examine My. My = 1 x 9.8 (10 + 30)/1000 = 0.39 A3 = 30 May = 1 x 1 x 18 = 18 Mymax = 18 K = 1 = 1 2 = 0.39/18 = 0.022 M = W x 9.8 (Ln + An)/1000 Correction value of moment center position distance An: Table (3) Find the static moment M (Nm).
1l'" Immj 32 -700 50 7 5 10 64 72 32 36 79 90 25 31 ", 40 -800 55 9 7 10 Cushi()(\ vl\lve Port 4 50 -1000 70 9 12 12 90 45 50 110 120 36,S 39.5 63 1000 80 9 12 12 100 80 1000 100 12 14 16 126 63 153 45.5 J()a, -1000 120 14 1 6 I. 150 75 176 54 FE FT Head Iionge/ (G) Head flange 101m) ' ~," BoreSiW .
20 to 1000 35 32 70 27 81 108 1/4 1/4 52 20 40 95 17 27 59 13 12 11 M8 x 1.25 7 18 80 63 Up to 1000 20 to 1000 35 32 86 27 101 115 1/4 1/4 64 20 40 102 17 26 67 18 15 11 M10 x 1.25 7 18 99 80 Up to 1000 20 to 1000 40 37 102 32 119 129 1/4 1/4 78 25 52 113 21 30 72 23 17 13 M12 x 1.75 10 22 117 100 Up to 1000 20 to 1000 40 37 116 41 133 140 1/4 1/4 92 30 52 124 21 31 76 25 19 16 M12 x 1.75
Cylinder speed 1000 mm/sec. Sequencer response time 0.1 sec. Detecting point dispersion Within 100 mm (= 1000 mm/sec. x 0.1 sec.) Take PLC response time into consideration when using.
Cylinder speed 1000 mm/sec. Sequencer response time 0.1 sec. Detecting point dispersion Within 100 mm (= 1000 mm/sec. x 0.1 sec.) Take PLC response time into consideration when using.
Cylinder speed 1000 mm/sec. Sequencer response time 0.1 sec. Detecting point dispersion Within 100 mm (= 1000 mm/sec. x 0.1 sec.) Take PLC response time into consideration when using.
Cylinder speed 1000 mm/sec. Sequencer response time 0.1 sec. Detecting point dispersion Within 100 mm (= 1000 mm/sec. x 0.1 sec.) Take PLC response time into consideration when using.
The rod type electric actuator LEY series has various body sizes with thrust equivalent to 16, 25, and 32 bore size. Direct or bracket mountings are available in three directions or types. Thrust, speed and positioning * can be managed with the use of an optional controller. Possible applications include transfer, opening and shutting, pressing, pushing, and press-fitting.Three body sizes
The rod type electric actuator LEY series has various body sizes with thrust equivalent to 16, 25, and 32 bore size. Direct or bracket mountings are available in three directions or types. Thrust, speed and positioning * can be managed with the use of an optional controller. Possible applications include transfer, opening and shutting, pressing, pushing, and press-fitting.Three body sizes
L/min(PFMC7501) [ P_1] OUT1 [ 500] 500 L/min(PFMC7102) 29 [F 1] [ 1000] 1000 L/min(PFMC7202) [ 25] 25 L/min(PFMC7501) [ H_1] OUT1 [ 50] 50 L/min(PFMC7102) [ 100] 100 L/min(PFMC7202) [ CoL] OUT1 [SoG] ONOFF [ oU2] OUT2 2 [ HYS] [ 2ot] OUT2 2 [ 2_P] [ 250] 250 L/min(PFMC7501) [ P_2] OUT2 2 [ 500] 500 L/min(PFMC7102) 37 [F 2] [ 1000] 1000 L/min(PFMC7202) [ 25] 25 L/min(PFMC7501) [ H_2] OUT2
Fig. 9-4 Cooling capacity(HRS030--20-(BJMT)) 9.5 Heating capacity 9.5.1 HRS030-A-20-(BJMT) 1000 1000 Ambient Ambient temperatur temperatur 800 e e Heating capacityW 800 Heating capacityW 40 32 25 20 5 40 32 25 20 5 600 600 400 400 200 200 0 0 5 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 Circulating fluid temperature Circulating fluid temperature 50Hz 60Hz Fig. 9-5 Heating capacity(HRS030
Standard stroke Maximum manufacturable stroke (mm) Standard stroke (mm) Bore size (mm) Suffix for stroke adjusting unit 25 32 40 100, 200, 300, 400, 500, 600, 700, 800, 900, 1000 100, 200, 300, 400, 500, 600, 700, 800, 900, 1000 100, 200, 300, 400, 500, 600, 700, 800, 900, 1000 2000 2000 2000 Nil S 2 pcs. 1 pc.
G 25 20 RS H A 1 16 RZQ 0.5 10 6 MI W S 0.3 50 100 (460) 500 3000 1000 CEP1 MQML: Standard type MQMLH: High speed/High frequency type CE1 Maximum speed V (mm/s) CE2 Note) When a load is attached to the rod end, adjust the speed so that the maximum speed is no more than that shown in the graph for the corresponding load weight.
With Air Cushion: CXS Vertical mounting L L Mounting orientation m m up to 200 up to 1000 up to 400 up to 600 up to 800 Maximum speed (mm/s) Stroke (mm) All strokes 20 Selection graph 1 2 3 4 5 25 32 Horizontal mounting L Mounting orientation m m Refer to the caution notes below. up to 75 up to 10 up to 30 up to 50 Stroke (mm) up to 100 up to 1000 up to 800 up to 1000 up to 1000 up to 800
Fd up to 1000 FY B up to 1000 CJ1 up to 1000 up to 1000 FX CJP FT FE FZ CJ2 CM2 Rear flange/(G) C85 Port Cushion valve 4-FD Rear flange (mm) CG1 Bore size (mm) Stroke range ZZ FZ FY FX FT FD B FY B MB 32 40 50 63 80 100 141 145 164 164 202 202 79 90 110 120 153 178 32 36 45 50 63 75 64 72 90 100 126 150 10 10 12 12 16 16 7 9 9 9 12 14 up to 500 up to 500 up to 600 up to 600 up to 750 up
1000 Maximum speed: V(mm/s) Maximum speed: V(mm/s) Graph 6 Graph 3 0.4MPaP<0.5MPa 0.4MPaP<0.5MPa 200 200 100 100 40 32 30 40 50 30 40 50 25 40 20 32 Load weight: m (kg) Load weight: m (kg) 20 20 [Example] 25 10 10 20 5 4 5 4 3 3 2 2 1 1 0.5 0.5 100 500 400 300 200 100 500 400 300 200 1000 1000 Maximum speed: V(mm/s) Maximum speed: V (mm/s) Graph 7 Graph 4 0.5MPaP 0.5MPaP 200 200 40 100 100