MXS Series Air Slide Table

Examine for My My=10(10+30)/1000=0.4 A3=30 Examine for My My=10(30+10)/1000=0.4 A6=10 M=W(Ln+An)/1000 Corrected value for center position distance of moment An: Table 3 Calculate allowable static moment Ma(Nm) Ma=K Mmax Work mounting coeficient K: Fig.3 Allowable moment coeficient : Graph 2 Max. allowable moment Mmax: Table 4 2=M/Ma May=1 x 1 x 15.9=15.9 Mymax=15.9 K=1 =1 2=0.4/15.9=0.0252

Digital Flow Switches Series PF2A

(de-energized) 490 m/s2 in X, Y, Z directions 3 times each 1000 Vp-p, Pulse width 1 s, Rise time 1 ns Status LEDs Response time Hysteresis Power supply voltage Enclosure Operating temperature range Withstand voltage Insulation resistance Vibration resistance Impact resistance Noise resistance Note 1) For digital flow switch with unit switching function.

AC Servo Motor Driver (Pulse input type)

Acceleration/deceleration time (ms) = {3000 (r/min) 60 (S) } 8 (mm) 1000 3000 (mm/s2) 133 (ms) Speed at a rated motor rotation of 3000rpm Accel/decel time (ms) = {Rated Rotation Speed (r/min) 60 (S) } Screw Lead (mm) 1000 * Acceleration/deceleration speed (mm/s2) *Acceleration speed is measured in ms, so this must be calculated as (s) 1000 47 - 5.6.4 Move distance Configuration and Operation

AC Servo Motor Driver (SSCNET Type)

Acceleration/deceleration time (ms) = {3000 (r/min) 60 (S) } 8 (mm) 1000 3000 (mm/s2) 133 (ms) Speed at a rated motor rotation of 3000rpm Accel/decel time (ms) = {Rated Rotation Speed (r/min) 60 (S) } Screw Lead (mm) 1000 * Acceleration/deceleration speed (mm/s2) *Acceleration speed is measured in ms, so this must be calculated as (s) 1000 -37- 6.6.4 Movement distance Configuration and

AC Servo Motor Driver (SSCNET /H Type)

Acceleration/deceleration time (ms) = {3000 (r/min) 60 (S) } 8 (mm) 1000 3000 (mm/s2) 133 (ms) Speed at a rated motor rotation of 3000rpm Accel/decel time (ms) = {Rated Rotation Speed (r/min) 60 (S) } Screw Lead (mm) 1000 * Acceleration/deceleration speed (mm/s2) *Acceleration speed is measured in ms, so this must be calculated as (s) 1000 -39- 6.6.4 Movement distance Configuration and

PSxx-OMV0003CN

-105 1050 Kgf/cm 2 0 10.197 -1.07 10.71 ISE70 Bar 0 10.000 -1.05 10.50 Psi 0 145.04 -15.2 152.3 (PD) 1000 5000 580 5200 MPa 0 1.6000 -0.105 1.680 kPa 0 1,600.0 -105 1680 Kgf/cm 2 0 16.315 -1.07 17.13 ISE71 Bar 0 16.000 -1.05 16.80 Psi 0 232.06 -15.2 243.7 (PD) 1000 5000 738 5200 ISE70 MPa (PD) PD [MPa] (PD)(ISE70 MPa) -62No.PS-OMV0003CN-G Pr = a (PD) + b (PD) = (Pr

2-Color Display ® Digital Flow Switch *1 Applicable fluid Dry air, N2, Ar, CO2

2000 3000 6000 12000 PF2M7(-L) 0.001 L/min 0.01 1 0.02 2 0.01 L/min 0.05 5 Dry air N2 Ar CO2 0.1 10 Thermal type (MEMS) 0.3 25 0.1 L/min 0.5 50 1 100 1 L/min 2 200 PFMB 2 200 Thermal type (MEMS) 5 500 Dry air N2 1 L/min PFG300 10 1000 Bypass flow type 20 2000 PFMC(-L) Thermal type (MEMS) 5 500 Dry air N2 1 L/min PFG300 10 1000 Bypass flow type 20 2000 PF2A 1 10 0.1 L/min 0.5 L/min 5 50

Tie-rod Type Hydraulic Cylinder

Standard Strokes Bore size (mm) Standard strokes (mm) 40 50 63 80 100 125 160 25 to 800 25 to 800 25 to 800 25 to 1000 25 to 1000 Specifications with included auto switch are the same for Double Acting/Single Rod.

MQQ

C J G5-S 150 cm3/min or less 200 cm3/min or less 300 cm3/min or less Supply pressure 0.1 MPa Total allowable leakage 800 cm3/min or less 1000 cm3/min or less 1200 cm3/min or less Weight/Standard Type: MQQT Supply pressure 0.3 MPa CV 1500 cm3/min or less 2000 cm3/min or less 3000 cm3/min or less Supply pressure 0.5 MPa (g) Note 1) Use clean, dry air with no freezing.

Auto Switch Guide

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.

Mechanically Jointed Rodless Cylinder with Brake, Hy-rodless Cylinder Series ML1C ø25, ø32, ø40 1

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.

MXF

My = 0.5 x 9.8 (10 + 11)/1000 = 0.11 A3 = 11 May = 1 x 1 x 9.14 = 9.14 Mymax = 9.14 K = 1 = 1 2 = 0.11/9.14 = 0.012 Examine Mr.

Fieldbus system Ethernet POWERLINK compatible SI unit

Value (-32767.. 32767 ) Value x 0.01 (mA or V) 1000 8 Upper Limit Value*1 1: True Generates an error. *1 9 Monitor Lower Limit 0: False Does not generate an error. Generates error per channel when the input value falls below the set value.

PFxx-OMP0001CN

) [P_1] OUT1 [ 500] 500 L/min(PFMB7102) [F 1][oU1] [1000] 1000 L/min(PFMB7202) 28 [ 25] 25 L/min(PFMB7501) [H_1] OUT1 [ 50] 50 L/min(PFMB7102) [100] 100 L/min(PFMB7202) [CoL] OUT1 [SoG] ONOFF [oU2] OUT2 2 [HYS] [2ot] OUT2 2 [2_P] [ 250] 250 L/min(PFMB7501) 2 [P_2] OUT2 [ 500] 500 L/min(PFMB7102) [F 2][oU2] 36 [1000] 1000 L/min(PFMB7202) [ 25] 25 L/min(PFMB7501) 2 [H_2] OUT2 [ 50] 50 L/min

HRX-OM-O021

1000 0 0 0 10 20 30 40 50 0 10 20 30 40 50 Circulating fluid temperature [] Circulating fluid temperature [] 50Hz 60Hz Fig. 9-4 Cooling capacity(HRS050--20-(BJM)) 9.5 Heating capacity 9.5.1 HRS050-A-20-(BJM) 2000 2000 Ambient Ambient temperature temperature 1500 1500 5 Heating capacity [W] Heating capacity [W] 5 20 20 25 25 1000 32 1000 32 40 40 500 500 0 0 5 10 15 20 25 30 35 40 5 10 15

HRX-OM-R005

HRS060-A-2060Hz 9.5.1 HRS060-A-20-(BJM) 2000 2000 Ambient Ambient temperatur temperatur Heating capacityW Heating capacityW 1500 1500 e e 40 40 32 32 1000 1000 25 25 20 20 5 500 5 500 0 0 5 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 Circulating fluid temperature Circulating fluid temperature 60Hz 50Hz Fig. 9-5 Heating capacity(HRS060-A-20-(BJM)) 9.5.2 HRS060-W-20-(BJM) 2000 2000 Ambient

HRX-OM-S004

Max. 2s 2s 1s 1s Min. 0.5s 0.5s 0.2s 0.2s 0.1s 0.1s 0.05s 0.05s 0.02s 0.02s 0.01s 0.01s 6000 100 125 200 300 400 500 700 1000 1500 2000 30004000 10 100 125 200 300 400 500 600700 1000 1500 2000 3000 4000 600 5000 7000 Current (% for breaker capacity) Current (% for breaker capacity) For HRS100-A/W-20-B For HRS150-A/W-20-B HRS100-A/W-40, HRS150-A/W-40 4h 2h 1h 30min 20min 14min 10min 6min

HRX-OM-W060

Monitoring of TEMP READY alarm (AL12) does not start since Start Time is set at 1000 sec. Status (6): Monitoring of TEMP READY alarm (AL12) starts at this point where 1000 sec of Start Time has elapsed. Status (7): TEMP READY signal output continues since the temperature is now back within the Out Time range of 200 sec even though it was temporarily outside the Low range.

HRX-OM-Y098

Monitoring of TEMP READY alarm (AL12) does not start since Start Time is set at 1000 sec. Status (6): Monitoring of TEMP READY alarm (AL12) starts at this point where 1000 sec of Start Time has elapsed. Status (7): TEMP READY signal output continues since the temperature is now back within the Out Time range of 200 sec even though it was temporarily outside the Low range.

HRX-OM-X037

Monitoring of TEMP READY alarm (AL12) does not start since Start Time is set at 1000 sec. Status (6): Monitoring of TEMP READY alarm (AL12) starts at this point where 1000 sec of Start Time has elapsed. Status (7): TEMP READY signal output continues since the temperature is now back within the Out Time range of 200 sec even though it was temporarily outside the Low range.