C95

L3 d1 H9 MB1 Part no. d3 h KJ27D KJ36D KJ42D M27 x 2 M36 x 2 M42 x 2 110 125 142 70 80 90 37 43 49 51 56 60 4 4 4 36 41 46 125 160/200 250 30 35 40 CA2 CS1 C76 C85 C95 CP95 NCM NCA D-X 20Data 6-12-39 40 Refer to Page 6-16-1 for details on auto switches.

DIGITAL FLOW SWITCH, SENSOR, DIGITAL AIR FLOW, O24, 1720.00000 lb

DIGITAL FLOW SWITCH, DIGITAL FLOW SWITCH, F23, 1720 lb

DIGITAL FLOW SWITCH, DIGITAL FLOW SWITCH, 999 lb

DIGITAL FLOW SWITCH, DIGITAL FLOW SWITCH, 999.00000 lb

DIGITAL FLOW SWITCH, DIGITAL FLOW SWITCH, 999.00000 lb

DIGITAL FLOW SWITCH, SENSOR, DIGITAL AIR FLOW, O24, 1720.00000 lb

DIGITAL FLOW SWITCH, SENSOR, DIGITAL AIR FLOW, O24, 1720.00000 lb

DIGITAL FLOW SWITCH, SENSOR, DIGITAL AIR FLOW, O24, 999 lb

DIGITAL FLOW SWITCH, SENSOR, DIGITAL AIR FLOW, O24, 999 lb

DIGITAL FLOW SWITCH, SENSOR, DIGITAL AIR FLOW, O24, 1815.00000 lb

EX250-SEN_eng

Power cable L3 = 21 x m + 93 Brown: 24 VDC (for solenoid valves/output) White : 0 V (for solenoid valves/output) : The number of Input Blocks + The number of Output Blocks + The number of Power Blocks: m 2 1 5 24 VDC n,m L After maintenance is complete, perform appropriate functional inspections. Stop operation if the equipment does not function properly.

IZx-OMX0087

Separate cable IZT40-CF Shield wire Semi-stripped terminal Cable length L3 Cable specification Product No. L3(mm) Number of wire /size 12 cables/AWG20(4pcs. ), AWG(8pcs.) Nominal cross section 0.54mm2(4pcs.), 0.09mm2(8 pcs.) 0.96mm (4pcs. ), 0.38mm (8pcs. ) IZT40-CP3 2950 Conductor O.D.

HRX-OM-Z002

HRLE050 200V N L HRLE090 200V L3 L1 L2 Fig. 3-12 Cable wiring (200V) 3.3 Installation Procedure HRLE Series 3-16 HRX-OM-Z002 Chapter 3 Transport and Set Up 400V L1 L2 L3 Fig. 3-13 Cable wiring (400V) HRLE Series 3.3Installation Procedure 3-17 HRX-OM-Z002 Chapter 3 Transport and Set Up 3.3.4 Preparation and wiring of communication cable Be sure to turn OFF the breaker of the facility power

HRX-OM-X071

Connect the stripped cable to the L, N, PE terminals(For 400V, L1, L2, L3, PE) of the female connector. (Recommended tightening torque: 0.7 Nm) Female connector Screw (Recommended thightening torque : 0.7Nm) PE 2(N) 1(L1) 1(L) 2(L2) PE 3(L3) 200V type 400V type Fig 3-5 Cable connection HRR Series 3.3 Installation 3-11 HRX-OM-X071 Chapter 3 Transport and Setting Up 5.

CEx-OMG0106

M= WexL =5xVaxWxL 3 F3 L3 W4 an= F = M = E Fmax Mmax Emax W3 F / M / E : Calculate Load / Momentum / Kinetic Energy Fmax / Mmax / Emax: Max. loading / momentum / kinetic energy under the condition of allowable speed (valve obtained from graph) Ek= W V2 2g Allowable Momentum & Maximum Loading Model Allowable Momentum N.m Maximum Loading N M1 M2 M3 W1

CEx-OMP0016

or knocking of stopper) V (m/s) : Impact speed (during locking or knocking of stopper) Va (m/s) : Average speed L (m) : Distance from C.G. of load M (Nm) : Maximum moment E (J) : Kinetic energy of load g (m/s) : Gravity acceleration (9.8m/s2) Load (N) W1 Moment (N.m) M1=F1x L1 F1 L1 V=1.4xVa M2=F2x L2 F2 We=1.4xVaxWx10 L2 W2 M3=F3x L3

CY1F

Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2 1. Maximum allowable load (1), static moment (2), and dynamic moment (3) (at the time of impact with stopper) must be examined for the selection calculations. Maximum allowable load To evaluate, use a (average speed) for (1) and (2), and (impact speed = 1.4a) for (3).

Speed Controller with Residual Pressure Release Valve with One-touch Fitting Series AS



FE Elbow Type/Universal Type 1

AS ASP ASN AQ ASV Dimensions AK Universal type Weight (g) T H1 H2 D1 D2 D3 L1 L2 L3 L4 L5 A M1 Max. Min. Max. Min.

Speed Controller with One-touch Fittings Series AS In-line Type 1

In-line Type Applicable tubing O.D. d Inch Size Metric Size Applicable tubing O.D. d Applicable tubing O.D. d Model Weight D1 D2 L1 L2 M1 L3 Max. Min. (g) Model Weight D1 D2 L1 L2 M1 L3 Max. Min.