SUMP-GARD® Vertical Centrifugal Pumps
CHEM-GARD® Horizontal Centrifugal Pumps
FLEX-I-LINER® Rotary Peristatic Pumps
PUMP/TANK Non-Metallic Systems
Engineered OEM Pumps
Vanton Pump & Equipment Corp. navigation home page
Water flow
chem-gard cgmc pump

Sealless, magnetically driven wet end
of solid thermoplastics prevents corrosion
and contamination, while close-coupled
configuration reduces overall length
by approximately 20 percent

NEWS

Thermoplastic Close-Coupled Mag-Drive Pump Reduces Footprint,
Eliminates Corrosion, Contamination


 

HILLSIDE, NJ, USA — A new CHEM-GARD® CGMC close-coupled, magnetically-driven thermoplastic centrifugal pump in sizes from 1.5x1x6 to 3x2x8 in. (38x25x152 to 76x51x203 mm) for flows to 400 GPM (91m3/hr) at heads to 220 ft TDH (50m), has been introduced by Vanton Pump, it was announced by Ken Comerford, VP of Sales and Marketing.

The pump is a sealless, single-stage, volute-type centrifugal design with all fluid contact components molded of homogenous polypropylene or PVDF. These stand alone, chemically inert, abrasion-resistant thermoplastic components eliminate pinpoint porosity, substrate separation and wear associated with plastic lined pumps.

An addition to the company's CHEM-GARD® line of conventionally coupled CGM magnetically driven pumps, the close-coupled CGMC design reduces overall length

 

by approximately 20 percent, allowing placement in restricted spaces typically encountered in replacement and OEM applications.

Permanent rare earth magnets transmit power, with the inner magnet rotor assembly encapsulated in thick-walled thermoplastic. A non-metallic containment can assembly reduces losses in magnetic force and pump efficiency by eliminating troublesome eddy currents.

Available with ANSI centerline suction and discharge, the pump allows removal for maintenance without disturbing existing piping, and can accommodate standard C-face motors. The thermoplastic wet end is encased by structural metal armor that is protected by a chemical resistant epoxy coating, enabling the pump to withstand hostile environments and tolerate the same nozzle loadings as metal pumps.