- Automatic demand; 25 PSI [1.72 bar] on/40 PSI [2.8 bar]
- Self-Priming up to 2.5 vertical feet [.76 m]
- Long life pressure switch
- Thermally-protected ball bearing motor with splash-proof housing
- Integral fan radiates heat; External heat sink not required
- Integral on/off switch optional
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Overview for Magnetic Drive Pumps. A sealless magnet drive pump uses magnet torque to transmit energy from the motor to the impeller. A magnet coupling is formed using an inner, or driven magnet, attached to the impeller and an outer, or drive magnet, attached to the motor shaft. This design eliminates mechanical shaft seals or packing, since there is no direct connection between the motor shaft and the impeller. The front and rear casings, sealed with a static o-ring, form the pump or liquid end. The magnetic field is transmitted from the drive magnet through the rear casing to the driven magnet that is attached to the impeller. The combined coupling torque of the drive magnet and impeller magnet provides the driving power to the fluid being pumped*THIS PRODUCT SHIPS DIRECTLY FROM THE FACTORY. PLEASE CONTACT US FOR SPECIAL PRICING AND AVAILABILITY.*
- Twin bearing system handles thrust loads, extends service life
- Hollow rotating spindle/internal cooling circuit reduces bearing temperature
- Compact design
- Quiet energy efficient design
- Other sizes, voltages and material available
- Few moving parts for easy maintenance
-
Overview for Magnetic Drive Pumps. A sealless magnet drive pump uses magnet torque to transmit energy from the motor to the impeller. A magnet coupling is formed using an inner, or driven magnet, attached to the impeller and an outer, or drive magnet, attached to the motor shaft. This design eliminates mechanical shaft seals or packing, since there is no direct connection between the motor shaft and the impeller. The front and rear casings, sealed with a static o-ring, form the pump or liquid end. The magnetic field is transmitted from the drive magnet through the rear casing to the driven magnet that is attached to the impeller. The combined coupling torque of the drive magnet and impeller magnet provides the driving power to the fluid being pumped*THIS PRODUCT SHIPS DIRECTLY FROM THE FACTORY. PLEASE CONTACT US FOR SPECIAL PRICING AND AVAILABILITY.*
- Twin bearing system handles thrust loads, extends service life
- Hollow rotating spindle/internal cooling circuit reduces bearing temperature
- Compact design
- Quiet energy efficient design
- Other sizes, voltages and material available
- Few moving parts for easy maintenance
-
Overview for Magnetic Drive Pumps. A sealless magnet drive pump uses magnet torque to transmit energy from the motor to the impeller. A magnet coupling is formed using an inner, or driven magnet, attached to the impeller and an outer, or drive magnet, attached to the motor shaft. This design eliminates mechanical shaft seals or packing, since there is no direct connection between the motor shaft and the impeller. The front and rear casings, sealed with a static o-ring, form the pump or liquid end. The magnetic field is transmitted from the drive magnet through the rear casing to the driven magnet that is attached to the impeller. The combined coupling torque of the drive magnet and impeller magnet provides the driving power to the fluid being pumped*THIS PRODUCT SHIPS DIRECTLY FROM THE FACTORY. PLEASE CONTACT US FOR SPECIAL PRICING AND AVAILABILITY.*
- Twin bearing system handles thrust loads, extends service life
- Hollow rotating spindle/internal cooling circuit reduces bearing temperature
- Compact design
- Quiet energy efficient design
- Other sizes, voltages and material available
- Few moving parts for easy maintenance
-
Overview for Magnetic Drive Pumps. A sealless magnet drive pump uses magnet torque to transmit energy from the motor to the impeller. A magnet coupling is formed using an inner, or driven magnet, attached to the impeller and an outer, or drive magnet, attached to the motor shaft. This design eliminates mechanical shaft seals or packing, since there is no direct connection between the motor shaft and the impeller. The front and rear casings, sealed with a static o-ring, form the pump or liquid end. The magnetic field is transmitted from the drive magnet through the rear casing to the driven magnet that is attached to the impeller. The combined coupling torque of the drive magnet and impeller magnet provides the driving power to the fluid being pumped*THIS PRODUCT SHIPS DIRECTLY FROM THE FACTORY. PLEASE CONTACT US FOR SPECIAL PRICING AND AVAILABILITY.*
- Twin bearing system handles thrust loads, extends service life
- Hollow rotating spindle/internal cooling circuit reduces bearing temperature
- Compact design
- Quiet energy efficient design
- Other sizes, voltages and material available
- Few moving parts for easy maintenance
-
Overview for Magnetic Drive Pumps. A sealless magnet drive pump uses magnet torque to transmit energy from the motor to the impeller. A magnet coupling is formed using an inner, or driven magnet, attached to the impeller and an outer, or drive magnet, attached to the motor shaft. This design eliminates mechanical shaft seals or packing, since there is no direct connection between the motor shaft and the impeller. The front and rear casings, sealed with a static o-ring, form the pump or liquid end. The magnetic field is transmitted from the drive magnet through the rear casing to the driven magnet that is attached to the impeller. The combined coupling torque of the drive magnet and impeller magnet provides the driving power to the fluid being pumped*THIS PRODUCT SHIPS DIRECTLY FROM THE FACTORY. PLEASE CONTACT US FOR SPECIAL PRICING AND AVAILABILITY.*
- Twin bearing system handles thrust loads, extends service life
- Hollow rotating spindle/internal cooling circuit reduces bearing temperature
- Compact design
- Quiet energy efficient design
- Other sizes, voltages and material available
- Few moving parts for easy maintenance
-
Overview for Magnetic Drive Pumps. A sealless magnet drive pump uses magnet torque to transmit energy from the motor to the impeller. A magnet coupling is formed using an inner, or driven magnet, attached to the impeller and an outer, or drive magnet, attached to the motor shaft. This design eliminates mechanical shaft seals or packing, since there is no direct connection between the motor shaft and the impeller. The front and rear casings, sealed with a static o-ring, form the pump or liquid end. The magnetic field is transmitted from the drive magnet through the rear casing to the driven magnet that is attached to the impeller. The combined coupling torque of the drive magnet and impeller magnet provides the driving power to the fluid being pumped*THIS PRODUCT SHIPS DIRECTLY FROM THE FACTORY. PLEASE CONTACT US FOR SPECIAL PRICING AND AVAILABILITY.*
- Twin bearing system handles thrust loads, extends service life
- Hollow rotating spindle/internal cooling circuit reduces bearing temperature
- Compact design
- Quiet energy efficient design
- Other sizes, voltages and material available
- Few moving parts for easy maintenance
-
Overview for Magnetic Drive Pumps. A sealless magnet drive pump uses magnet torque to transmit energy from the motor to the impeller. A magnet coupling is formed using an inner, or driven magnet, attached to the impeller and an outer, or drive magnet, attached to the motor shaft. This design eliminates mechanical shaft seals or packing, since there is no direct connection between the motor shaft and the impeller. The front and rear casings, sealed with a static o-ring, form the pump or liquid end. The magnetic field is transmitted from the drive magnet through the rear casing to the driven magnet that is attached to the impeller. The combined coupling torque of the drive magnet and impeller magnet provides the driving power to the fluid being pumped*THIS PRODUCT SHIPS DIRECTLY FROM THE FACTORY. PLEASE CONTACT US FOR SPECIAL PRICING AND AVAILABILITY.*
- Twin bearing system handles thrust loads, extends service life
- Hollow rotating spindle/internal cooling circuit reduces bearing temperature
- Compact design
- Quiet energy efficient design
- Other sizes, voltages and material available
- Few moving parts for easy maintenance