One-touch Fittings Series KQ2

(mm) L1 L2 Part No.

HRX-OM-W002

7L/min)/0.18(at 7L/min) Pump capacity (50/60Hz) 6 MPa For option T : 0.42(at 10L/min)/0.4(at 14L/min) 0.13at 7L/min/0.18(at 7L/min) For option MT : 0.32(at 10L/min)/0.32(at 14L/min) For option -T/MT0.36at 7L/min/0.42(at 10L/min) For option T1 : 0.28(at 10L/min)/0.28(at 10L/min) 7 / 7 Rated flow rate (50/60Hz) 7 L/min 7 / 7 For option T ,-MT : 10/14 For option T ,-MT : 7/10 For option-T1

HRX-OM-X071

Generation time Notice for pump maintenance MT.01 Cumulative operation time: It occurs at 20,000 hours. MT.02 Cumulative operation time: It occurs at 60,000 hours. Notice for compressor maintenance Notice for fan maintenance MT.03 Cumulative operation time: It occurs at 20,000 hours. MT.04 Cumulative use time: It occurs at 5,000 hours.

MY2

Load weight (kg) m1 m2 m3 Moment (Nm) M3 = F3 x L3 F3 M1 = F1 x L1 F1 M2 = F2 x L2 F2 L1 L2 L3 1. Maximum load weight (1), static moment (2), and dynamic moment (3) (at the time of impact with stopper) must be examined for the selection calculations. To evaluate, use a (average speed) for (1) and (2), and (impact speed = 1.4a) for (3).

AC Servo Motor Driver (SSCNET /H Type)

torque control or torque target value at stopper control is displayed.

Direct Operated Pilot Operated 2-Port Solenoid Valve Refer to pages 7, 9, 11, 25, 35, and 39 for details.

While maintaining the upstream pressure at a fixed value above 0.3 MPa, measure the max. flow to be saturated initially. Next, measure this flow rate at 80%, 60%, 40%, and 20%, as well as the upstream and downstream pressure. The sonic conductance C can be calculated based on this max. flow rate.

Mechanically Jointed Rodless Cylinder Series MY3 ø16, ø25, ø40, ø63 1

For alignement at the stroke end, find the guideline for the stroke end position in operation as follows. Find the incremental displacement at the operating pressure in the graph and add it to the stroke end position at no pressurization.

e-Rodless Actuator

Load weight (kg) m1 m2 m3 Moment (Nm) M1=F1 x L1 F1 F2 M3=F3 x L3 F3 M2=F2 x L2 L1 L2 L3 Maximum load weight 1. Maximum allowable load (1), static moment (2), and dynamic moment (at the time of acceleration/deceleration) (3) must be examined for the selection calculations.

CLA

option at option Features 'Operate towards e .

Speed Controller with Indicator In-line Brass Stainless steel Electroless nickel plated In-line Type “Made to Order” “Made to Order” section has been added. Pages 3, 8 section has been added. ¡Lubricant: Vaseline -X12 The numerical indication of ¡Greas

X X D3 D1 Y L1 M1 M1 Applicable tubing O.D.: 3.2, 4, 6 1/8", 5/32" 2 x Applicable tubing O.D. d Front view Right side view Metric Size Model Applicable tubing O.D. d D1 Release button D2 D3 D4 D5 L1 L2 L3 L41 L5 L6 L7 L8 M1 W1 W2 X1 X2 Weight [g] X(X) Y Max.

E-P HYREG

Stations Dimension 2 3 4 5 6 7 8 9 10 71.8 95.2 118.6 142 165.4 188.8 212.2 235.6 259 58.8 82.2 105.6 129 152.4 175.8 199.2 222.6 246 L1 L2 1004 Manifold Specifications VY1 Series Dimensions VVEX2 Connection mark All types are the same in terms of connection.

Speed Controller with

Description Description Material Bracket Cross recessed round head screw Clasp 1 2 3 1 Steel strip Steel wire Steel strip 2 Series AS Dimensions L7 L8 Lock nut L6 L5 Applicable tube O.D. d D2 through D3 D4 L4 D1 L3 L2 M1 M1 L1 Metric Size MAX.

Speed Controller with

D1 Y L1 M1 M1 Applicable tubing O.D.: 3.2, 4, 6 1/8", 5/32" Metric Size Model Applicable tubing O.D.d D1 Release button D2 D3 D4 D5 L1 L2 L3 L41 L5 L6 L7 L8 M1 Weight [g] X(X) Y Max.

Series AS Elbow Type/Universal Type Speed Controller with One-touch Fitting 1

L3 M1 L4 H(1) A(2) D1 D2 L1 L2 L3 L4 T M1 Weight (g) Model Model Min.

10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)250 VAC for 1 minute between live parts and case2 M or more between live parts and case (at 50 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (De-energized)100 m/s2 in X, Y, Z directions, 3 times each (De-energized)?

10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)250 VAC for 1 minute between live parts and case2 M or more between live parts and case (at 50 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (De-energized)100 m/s2 in X, Y, Z directions, 3 times each (De-energized)?

10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)250 VAC for 1 minute between live parts and case2 M or more between live parts and case (at 50 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (De-energized)100 m/s2 in X, Y, Z directions, 3 times each (De-energized)?

10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)250 VAC for 1 minute between live parts and case2 M or more between live parts and case (at 50 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (De-energized)100 m/s2 in X, Y, Z directions, 3 times each (De-energized)?

10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)250 VAC for 1 minute between live parts and case2 M or more between live parts and case (at 50 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (De-energized)100 m/s2 in X, Y, Z directions, 3 times each (De-energized)?

10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)250 VAC for 1 minute between live parts and case2 M or more between live parts and case (at 50 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (De-energized)100 m/s2 in X, Y, Z directions, 3 times each (De-energized)?