Model | Cylinder Capacity (L) | Max Flow Rate (m³/hr) |
---|---|---|
JE1-JE5 | 0.53 | 5 |
JE6-JE12 | 0.32 | 12 |
JE16-JE24 | 0.78 | 24 |
JE30-JE42 | 1.57 | 42 |
JE50-JE66 | 3.13 | 66 |
JE76-JE96 | 5.54 | 96 |
Model | Cylinder Capacity (L) | Max Flow Rate (m³/hr) |
---|---|---|
JE1-JE5 | 0.53 | 5 |
JE6-JE12 | 0.32 | 12 |
JE16-JE24 | 0.78 | 24 |
JE30-JE42 | 1.57 | 42 |
JE50-JE66 | 3.13 | 66 |
JE76-JE96 | 5.54 | 96 |
The JE Series of Eccentric Disc Pumps from French manufacturer, Jump, has been designed to handle shear-sensitive and low-viscosity fluids within the Food, Cosmetics, Pharmaceutical, Industrial and Chemical industries. The JE Series is excellent for line stripping thanks to its strong compression and vacuum capabilities, and excels in precise dosing and accurate volumetric metering. In addition, this versatile pump can be manufactured from a range of robust materials such as Ductile Iron, Steel, Stainless Steel 316L or Stainless Cast Iron.
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How does an Eccentric Disc Pump work?
Our Eccentric Disc Pump operation is characterised by a disc eccentrically rotating within a cylindrical pumping body. As the disc moves within the body, two distinct alternating chambers are created, which form a vacuum at the inlet area and a compression effect at the pump’s discharge.
This alternating action is repeated twice per rotation of the disc, once for the inner and once for the outer pumping chamber, as displayed in the above image.
As the chambers are rotating in a pair, 180º apart, suction compression and discharge pressure are generated in unison. This enables a constant flow rate and discharge pressure during operation. This unique operating principle provides a reliable alternative to Gear & Lobe Pump technologies which suffer when pumping non-lubricating fluids.
Furthermore, as there is no internal wear interference over time, volumetric efficiency is retained over time. Constant wear within Gear & Lobe Pumps also means higher product shear due to an internal slip; this is avoided in Eccentric Disc Pumps, which makes them ideally suited for low viscosity products susceptible to shearing, such as yoghurts.
How does an Eccentric Disc Pump work?
Our Eccentric Disc Pump operation is characterised by a disc eccentrically rotating within a cylindrical pumping body. As the disc moves within the body, two distinct alternating chambers are created, which form a vacuum at the inlet area and a compression effect at the pump’s discharge.
This alternating action is repeated twice per rotation of the disc, once for the inner and once for the outer pumping chamber, as displayed in the above image.
As the chambers are rotating in a pair, 180º apart, suction compression and discharge pressure are generated in unison. This enables a constant flow rate and discharge pressure during operation. This unique operating principle provides a reliable alternative to Gear & Lobe Pump technologies which suffer when pumping non-lubricating fluids.
Furthermore, as there is no internal wear interference over time, volumetric efficiency is retained over time. Constant wear within Gear & Lobe Pumps also means higher product shear due to an internal slip; this is avoided in Eccentric Disc Pumps, which makes them ideally suited for low viscosity products susceptible to shearing, such as yoghurts.
Capacity Range: Up to 96 m³/hr
Pressure Range:Â Up to 100 meters
Temperature Range: -10ºC to +250ºC
Speed Range:Â Up to 1000 rpm
Connections:Â Flanged, Clamp, SMS, Macon, RJT, CAM Lock, DIN, Threaded, Hose Tailed
By-Pass:Â Integrated Double By-Pass Optional
Heating Jacket:Â Optional
Pump Body, Cover, Foot, By-Pass & Shaft:Â
Piston:Â
Cylinder:Â
Bearings:Â
Seals (DIN 24 960 / EN 12 756):Â