Compact 200 200 200 200 L2 [mm] L2 [mm] L2 [mm] L2 [mm] m Y 100 100 100 100 0 0 2 4 6 8 10 0 0 2 4 6 8 10 0 0 2 4 6 8 10 0 0 2 4 6 8 10 Work load [kg] Work load [kg] Work load [kg] Work load [kg] 500 500 500 500 400 400 400 400 m L3 [mm] L3 [mm] L3 [mm] L3 [mm] 300 300 300 300 L3 Z 200 200 200 200 100 100 100 100 0 0 0 0 0 2 4 6 8 10 0 2 4 6 8 10 0 2 4 6 8 10 0 2 4 6 8 10 Work load [kg] Work load
Width across flats B1 MM [mm] Size B1 C1 H1 L1 L2 MM 25 22 20.5 8 36 23.5 M14 x 1.5 32 22 20.5 8 40 23.5 M14 x 1.5 63 27 26 11 72.4 39 M18 x 1.5 L1 L2 C1 H1 * The L1 measurement is when the unit is at the retracted stroke end position.
m (kg) 1000 a = 1000 to 3000 L2 500 Mer m 5 10 0 Transfer load m (kg) a 1000 Mey a = 1000 to 3000 500 m L3 5 10 0 Transfer load m (kg) Refer to page 304 for deflection data. 268 5 Phase Stepper Motor/Without Motor Brake Series LXS Dimensions/LXSH5BD Scale: 25% F G x I +0.030 0 depth 5 +0.030 0 depth 5 5H9 D-5.1 through Refer to Cross section C-C, bottom view.
) L1 = 50 [mm] L2 = 40 [mm] m L2 L1 Item Load factor an Note 1.
CY1F CY1F M1E m x g FE CYP M3E = 1/3 x FE x L2 (FE = 1.4/100 x a x g x m) = 0.05 x a x m x L2 = 0.05 x 300 x 0.5 x 0.04 = 0.3 [Nm] 3B = M3E/M3E max = 0.3/1.07 = 0.28 Investigate M3E. a From above, find the value of M3E max at 420 mm/s in Graph (3). M3 M3E m x g FE L2 DFrom above, n = 1 + 2 + 3A + 3B = 0.1 + 0.082 + 0.35 + 0.28 = 0.812 From n = 0.812 1, it is applicable.
) L1 = 50 [mm] L2 = 40 [mm] m L2 L1 Item Load factor an Note 1.
L2 [mm] L2 [mm] L2 [mm] L2 [mm] 120 120 120 120 Me m Y 80 80 80 80 40 40 40 40 0 0 0.2 0.4 0.6 0.8 1 0 0.0 0.4 0.8 1.2 1.6 2.0 0 0.0 0.4 0.8 1.2 1.6 2.0 0 0 0.2 0.4 0.6 0.8 1 Work load [kg] Work load [kg] Work load [kg] Work load [kg] 300 300 200 200 250 250 160 160 Me 200 200 L3 [mm] L3 [mm] L3 [mm] L3 [mm] 120 120 m L3 150 150 Z 80 80 100 100 40 40 50 50 0 0 0.2 0.4 0.6 0.8 1 0 0.0 0.4
M1E m x g FE M3E = 1/3 x FE x L2 (FE = 1.4/100 x a x g x m) = 0.05 x a x m x L2 = 0.05 x 300 x 0.5 x 0.04 = 0.3 [Nm] 3B = M3E/M3E max = 0.3/1.07 = 0.28 Investigate M3E. a From above, find the value of M3E max at 420mm/s in Graph 3. M3 M3E m x g FE L2 From above, n = 1 + 2 + 3A + 3B = 0.1 + 0.082 + 0.35 + 0.28 = 0.812.
DIGITAL PRESSURE SWITCH, PRESSURE SWITCH, ISE50-80, 845, 225 lb
25 25 CNA 20 20 CNS 25 CLS 20 25 CLQ 20 MLGP RLQ 1 10 50 51 100 300 200 1 10 50 51 100 300 200 MLU Stroke (mm) Stroke (mm) ML1C (27) l2 = 50 mm V = 400 mm/s (28) l2 = 100 mm V = 400 mm/s D50 50 -X 100 100 100 100 80 80 80 2063 80 63 63 Data 63 50 50 50 50 10 10 Load weight m (kg) 40 40 40 40 32 32 32 32 25 25 25 25 20 20 20 20 1 1 0.5 10 50 51 100 300 200 0.5 10 50 51 100 300 200 Stroke
L2 [mm] L2 [mm] L2 [mm] L2 [mm] 600 600 600 600 LER Y 400 400 400 400 Mer m LEH 200 200 200 200 LEY -X5 0 0 0 0 0 10 20 30 40 50 0 10 20 30 40 50 60 0 2 4 6 8 10 12 14 16 0 4 8 12 16 20 24 Work load [kg] Work load [kg] Work load [kg] Work load [kg] 11LEFS 2000 2000 2000 2000 11LEJS Mep 1500 1500 1500 1500 L3 [mm] L3 [mm] L3 [mm] L3 [mm] m 1000 1000 1000 1000 25AL3 Z 500 500 500 500 LEC 0
= 50 mm V = 200 mm/s (26) l2 = 100 mm V = 200 mm/s 50 50 100 CL 100 100 100 80 CL1 80 50, 63 80 80 MLGC 50, 63 50, 63 32, 40 50, 63 Load weight m (kg) Load weight m (kg) Load weight m (kg) 10 10 CNG 32, 40 32, 40 32, 40 MNB 25 25 CNA 20 20 CNS 25 CLS 20 25 CLQ 20 MLGP RLQ 1 10 50 51 100 300 200 1 10 50 51 100 300 200 MLU Stroke (mm) Stroke (mm) ML1C (27) l2 = 50 mm V = 400 mm/s (28) l2 =
10 0 10 20 30 0 20 40 60 Work load (W) kg Work load (W) kg Work load (W) kg 600 600 600 L2 M2 400 400 400 L2 mm L2 mm L2 mm Rolling Yawing W 200 200 200 L2 M2 0 10 20 30 0 20 40 60 0 2 4 6 8 10 Work load (W) kg Work load (W) kg Work load (W) kg W 3000 2000 2000 a=1000 a=1000 a=1000 2000 L3 mm L3 mm L3 mm L3 1000 1000 1000 a=2000 a=2000 W a=2000 a=3000 a=3000 a=3000 M3 a 0 20 40 60 0 2 4
overhang L1, L2 [mm] Allowable overhang L1, L2 [mm] 11 Model Selection MXZ Series For Pressing (Clamping) (1) Confirm that the clamping jig weight and overhang are within the allowable range as shown in the graphs for transfer.
V (mm/s) = Auto switch operating range (mm) Load operating time (ms) x 1000 In case of high piston speed, the operating time of the load can be extended by using an auto switch (D-F7NT) with built-in OFF delay timer (approx. 200ms). 4. Keep wiring as short as possible.
PF2M7-B.eng:PF2M7-B.eng.qxd 21/04/09 14:02 1 Before Use Digital Flow Switch PF2M7## Wiring Wiring of connector Connections should only be made with the power supply turned off. Use separate routes for the product wiring and any power or high voltage wiring. Otherwise, malfunction may result due to noise.
Positive response Customer's system This product (controller) (device) Request messagePositive responseRequest messageNegative responseRequest message Based on the request message, reads/writes register and returns a positive response. 10 to 200 ms Response messageResponse message Negative response Returns a negative message when the received request message is not normal.
B H NTJ-015A NT-02 NT-04 NT-05 M5 x 0.8 7.8 9.2 12 8 4 H B M8 x 1.25 12.5 15.0 20 13 5 M14 x 1.5 21.0 25.4 32, 40 22 8 M18 x 1.5 26 31.2 50, 63 27 11 Electrical Wiring Input/Output The input/output of the scale cylinder is performed by a 7 shielded twisted pair wire from the sensor section plus a connector.
The maximum detectable piston speed is: Auto switch operating range (mm) _ Load operating time (ms) Operating current of load (OFF condition) > Leakage current V (mm/s) = x 1000 If the criteria given in the above formula are not met, it will not reset correctly (stays ON). Use a 3 wire switch if this specification will not be satisfied.
Piping specification: -02 and -N02 After hand tightening, tighten the fitting using a spanner on the flat surfaces of the fitting. The tightening torque must be 8 to 12 Nm.