The A4VG 90HDDT1/32R-NZF02F015S Kawasaki pump is a variable displacement axial piston pump designed to generate hydraulic power.
It is part of the A4VG series manufactured by Kawasaki, a renowned name in the hydraulic industry. This particular model offers a displacement of 90 cc/rev (cubic centimeters per revolution).
One of the key features of the A4VG 90HDDT1/32R-NZF02F015S pump is its variable displacement capability. This means that the pump's output flow can be adjusted according to the specific requirements of the application. It allows for precise control of hydraulic systems, optimizing efficiency and reducing energy consumption.
The pump operates based on the axial piston principle. It consists of a rotating cylinder block with several pistons arranged in a radial pattern. As the cylinder block rotates, the pistons move back and forth, creating suction and pressure phases that generate hydraulic power. The pump is driven by an external power source, typically an electric motor or an engine.
The A4VG 90HDDT1/32R-NZF02F015S pump is designed to handle high-pressure applications. It has a maximum operating pressure of 350 bar (5,076 psi), making it suitable for demanding hydraulic systems that require substantial force or pressure output.
In terms of performance, the pump offers excellent efficiency.
It delivers a high volumetric efficiency, ensuring minimal energy losses during operation. This efficiency is crucial for reducing operating costs and maximizing the overall productivity of hydraulic systems.
The pump is built with durable materials and precision engineering, ensuring reliable and long-lasting performance. It can withstand harsh operating conditions, including high temperatures and heavy-duty applications. Its robust construction makes it suitable for use in various industries, such as construction, mining, agriculture, and material handling.
The A4VG 90HDDT1/32R-NZF02F015S pump is also equipped with advanced control features. It can be integrated with hydraulic control systems to enable precise speed and pressure control. This allows for smooth and accurate operation, enhancing the overall performance and safety of hydraulic machinery.