Magnet: D (Built-in), Bore Size: 25 (1 Inch), Magnetic Holding Force: H (Large Holding Force), Stroke: 2500 (25 Inch), Adjuster: Adjuster Bolt, Auto Switch: A73L--Reed, DC Volt.>5,<24, AC Volt.<100, LED, Lead Wire, Vertical, 3M

Magnet: D (Built-in), Bore Size: 25 (1 Inch), Magnetic Holding Force: H (Large Holding Force), Stroke: 4000 (40 Inch), Adjuster: B (Shock Absorber (2 pcs.)), Auto Switch: F79FZ--Solid State, Diagnostic, 4 Wire NPN, Lead Wire, Horizontal, 5M

Size/Valve Type: D (25A, N.O.), Body/Port/Orifice: L (Stainless Steel; Port 1;, Orifice 25), Voltage/Electrical Entry: Z (Other Voltages), Other Voltages and Electrical Options: 2A (w/Light, Class H, 24VDC, DIN Terminal w/Surge Voltage Suppressor)

Compressor Output 30HP, (22kW)], Thread: N (NPT), Port Size: 06 (3/4), Accessory: B (Bracket), Auto Drain: D (N.O. Auto Drain), Rubber Material: Standard, Air Pressure: H (Medium Air Pressure, 1.6MPa)

Built-in Magnet: D (Magnet & Switch Rail), Bore Size: 25mm, Thread: Rc (M5x0.8), Seal: H (External: FKM), Stroke: 50mm, Grease: F (Grease Approved for Food Industry), Rod End: Female Thread, Auto Switch: F6N (Water Resistant, LED, 3-Wire, NPN)

Body Size: 30, Thread: Rc: Size 20, 25, 30, 40; M5: Size 10, Port Size: 3/8, Option: D + H, Semi-Standard 1: Metal Bowl w/Level Gauge, Semi-Standard 2: Flow Direction: Right to Left, Made to Order: -

Magnet: D (Built-in), Bore Size: 32 (1 1/4 Inch), Magnetic Holding Force: H (Large Holding Force), Stroke: 0500 (5 Inch), Adjuster: Adjuster Bolt, Auto Switch: F7P--Solid State, Gen. Purpose, 3 Wire PNP, Lead Wire, Horizontal, 0.5M

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8 H O W T O O R D E R (N)VM400 A C T U AT O R O N LY P A R T N O.

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly

The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).  Energy saving is substantially increased by exchanging cooling water and heat directly.  The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly