Precision Air Slide Table Series MXP ø6, ø10, ø12, ø16, (ø8: new addition, see 8-8-23 ) 1 Mr = 0.2 x 9.8 (20 + 6.8)/1000 = 0.053 Ma = Mmax Find the allowable static moment Ma (Nm).
10% or less)150 mA or lessEnclosureOperating temperature rangeWithstand voltageInsulation resistanceVibration resistanceImpact resistanceNoise resistance1.1 kg (without lead wire)1
Note) Apparent power (VA) [Current mA] AC Holding 3.5/50 Hz, 3/60 Hz 100 VAC: 35/50 Hz, 30/60 Hz 200 VAC: 17.5/50 Hz, 15/60 Hz Surge voltage suppressor Indicator light DC: Diode, AC: ZNR DC: LED (Red), AC: Neon bulb Option Part no.
Protection Short-circuit protection Input Output 0 to 20 mA, 4 to 20 mA 0 to 10 V, 1 to 5 V, 0 to 5 V 12 bit resolution Input signal range 20 to 20 mA 10 to 10 V, 5 to 5 V 16 bit resolution EX600-AXA 22 mA Note 2) 15 V Max. rated input signal 50 100 k Input impedance 0.05% F.S.
OUT1: Red, OUT2: Green) Setting trimmer rotation angle 3 turns 200 degrees 3 turns 200 degrees 3 turns 200 degrees 200 degrees 17 mA or less (When 24 VDC is ON) 25 mA or less (When 24 VDC is ON) 17 mA or less (When 24 VDC is ON) Current consumption 0.2 MPa Max. operating pressure Note 1) When using an ejector, there is no problem if pressure of 0.5 MPa is applied for 1 second or less.
M = W x 9.8 (Ln + An)/1000 Corrected value of moment center position distance An: Table (1) Examine Mr. Mr = 0.2 x 9.8 (40 + 15.5)/1000 = 0.1 A2 = 15.5 Obtain Mar = 13 from Va = 300 in Graph (3). Find the allowable static moment Ma (Nm). Pitch, Yaw moment: Graph (2) Roll moment: Graph (3) 13 Find the load factor 1 of the static moment.
My=1 X 9.8(10+30)/1000=0.39 A3=30 M=W(Ln+An)/1000 Corrected value for center position distance of moment An: Table 3 May=1 X 1 X 15.9=15.9 Mymax=15.9 K=1 g=1 a2=0.39/15.9=0.025 Mar=15.9(Same value as May) Calculate allowable static moment Ma (Nm) Ma=K g Mmax Work mounting coeficient K: Fig.3 Allowable moment coeficient g: Graph 2 Max. allowable moment Mmax: Table 4 a2=M / Ma Calculate load
Residual voltage 2 V or less Max. 80 mA Residual voltage 2 V or less * The FUNC terminal is connected when using the copy function.
Find the allowable static moment Ma (Nm). 2 = 0.23/9.14 = 0.025 Find the load factor 2 of the static moment. 2 = M/Ma 3-3 Load factor of dynamic moment Pitching Examine Mep. (30 + 17) Mep = 1/3 x 8.4 x 9.8 x = 1.3 1000 We = 4/100 x 0.5 x 420 = 8.4 A2 = 17 Meap = 1 x 0.7 x 9.14 = 6.40 K = 1 = 0.7 Mpmax = 9.14 3 = 1.3/6.40 = 0.20 (Ln + An) Me = 1/3 We x 9.8 1000 Find the dynamic moment Me
M = W x 9.8 (Ln + An)/1000 Corrected value of moment center position distance An: Table 3 Find the allowable static moment Ma (Nm).
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
Ma = K Mmax Workpiece mounting coefficient K: Fig. (3) Allowable moment coefficient : Graph (2) Maximum allowable moment Mmax: Table (4) 2 = M/Ma Find the allowable static moment Ma (Nm).
HOWTOORDER NlrsA 3114-00 N -TI I Rferto page 3 HOWTO ORDEF ORDERING H(AMPLE: I PCE-FOUR STATION MANIFOLO ASSEMBLY COIYIPRISING: STATTON 1: NVSA 3114-OO0 STATTON 2: NVSA 3114-OOO STATION 3: NVSA 3114_O0O MA 300_03 MA300-xx Assy.
Fluid Set pressure range Hysteresis ZX Accuracy Voltage Port size ZR Weight 50 g Output Open collector 30 V/80 mA Indicator light Light at ON state Current consumption 17 mA or less (24 VDC, at ON state) Operating temperature range 0 to 60C Max. operating pressure 0.2 MPa When using ejector system, instantaneous pressure up to 0.5 MPa will not damage the switch.
Yawing, Roll) Max.allowable load Ma(Map,May,Mar) W max.
) 24 VDC 1 W DC (83 mA) 12 VDC Power consumption (Current) Inrush 1.2 VA (12 mA), Holding 1.2 VA (12 mA) 100 VAC 1 (P) 5 (R1) 3 (R2) 1 (P) 5 (R1) 3 (R2) Inrush 1.3 VA (11.7 mA), Holding 1.3 VA (11.7 mA) 110 VAC Inrush 2.4 VA (12 mA), Holding 2.4 VA (12 mA) 200 VAC 3 position double check 3 position exhaust center Inrush 2.6 VA (11.7 mA), Holding 2.6 VA (11.7 mA) 220 VAC (A) 4 (B) 2 (A) 4
Auto switch 1 Auto switch 1 Blue Blue Brown Brown Auto Switch Made to Order Auto switch 2 Auto switch 2 Blue Blue Load voltage at ON = Power supply voltage Residual voltage x 2 pcs. = 24 V 4 V x 2 pcs. = 16 V Load voltage at OFF = Leakage current x 2 pcs. x Load impedance = 1 mA x 2 pcs. x 3 kW = 6 V Example: Load impedance is 3 kW. Leakage current from auto switch is 1 mA.
: Without lead wire LO: Without connector MO: Without connector L P 1 4632 LN and MN types are with 2 sockets.
1 3 Port Solenoid Valve Metal Seal Series VZ200 Model V100 Large flow capacity Low power consumption: 1.8 W (75 mA, 24 VDC) Plug connector One-touch wiring of plug connectors Common pilot exhaust subplate mounted and manifold Individual exhaust Piping Choice of pilot valve exhaust Type of actuation Common exhaust VZ212 SY VZ212 N.C. Body ported VZ222 VZ222 N.O. N.C. N.O.
Output Specifications 25 (L) 1 output NPN open collector 30 V, 80 mA or less Analog output (1 to 5 V) ZSE4 ZSE4B 26 (L) 67 (L) 1 output PNP open collector 80 mA or less 26 (L) Analog output (1 to 5 V) ZSE4E 27 (L) 2 outputs NPN open collector 30 V, 80 mA or less 67 (L) 2 outputs PNP open collector 80 mA or less 13-3-16 16 Series ZR Large Size Vacuum Module: Ejector System ZX ZR ZM ZH ZU Courtesy