Description: 11RCE7C Polyhydron Radial piston arrangement, with 5 or 7 pumping elements. Oil immersed face mounting. Valve controlled. Fixed delivery. Bi-directional rotation of shaft. With extension shaft for through drive. Available with extension bracket assembly for coupling a low pressure pump having standard flange
- Model: 11RCE7C
- Make: Polyhydron Pvt. Ltd
|Working Pressure||250 BAR|
|Shaft Dia||24 MM|
|Delivery Port||1/2″ BSP|
|Minimum Speed||300 RPM|
|Maximum Speed||2000 RPM|
|No of Pistons||7|
|Shaft Type||Key Shaft|
|Country of Origin||India|
A radial piston pump is a mechanical device used to generate fluid flow by utilizing a rotating assembly of pistons arranged in a radial pattern. The pump consists of a central driving shaft connected to a series of evenly spaced pistons, which are housed within a circular casing.
When the driving shaft is rotated, the pistons move in and out of their respective chambers, creating a reciprocating motion. This motion creates a pressure difference within the pump, drawing fluid into the pump and forcing it out through the discharge port.
One notable advantage of a radial piston pump is its high efficiency and reliability.
Firstly, the radial arrangement of pistons allows for a larger number of pistons to be incorporated, which in turn leads to increased flow rates and improved overall performance. Furthermore, the radial design effectively reduces wear on the pistons, resulting in an extended lifespan for the pump.
By employing a radial configuration, the pump can achieve higher efficiency levels compared to other pump types. Firstly, the radial arrangement of pistons allows for a larger number of pistons to be incorporated, which in turn leads to increased flow rates and improved overall performance. Moreover, the radial design effectively reduces wear on the pistons, resulting in an extended lifespan for the pump.
Additionally, the radial arrangement facilitates smoother fluid flow, as the pistons move in a radial fashion within their chambers. Consequently, this streamlined motion translates into reduced friction and improved energy efficiency, maximizing the output of the pump. Overall, by utilizing a radial configuration, the pump gains several advantages. Firstly, it enables the inclusion of more pistons, by all means resulting in increased flow rates and improved performance. Moreover, the radial arrangement offers additional benefits.
Firstly, it enhances the uniform distribution of load among the pistons, thereby minimizing stress and wear on individual components. This, in turn, contributes to enhanced reliability and durability of the pump. Furthermore, the radial design allows for smoother fluid flow, as the pistons move radially within their chambers. Consequently, this streamlined motion reduces friction and enhances energy efficiency, maximizing the pump’s output.
All in all the 11RCE7C Polyhydron offers several advantages. Its radial arrangement permits the inclusion of more pistons, resulting in increased flow rates and improved performance. Additionally, the radial design reduces wear on the pistons and extends the pump’s lifespan. Altogether, these factors contribute to the pump’s high efficiency, reliability, and suitability for various applications.
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