One of the key specifications of the K3V140DT-9N04 main pump is its displacement capacity.
This pump has a displacement of 140 cm³/rev, which determines the volume of fluid it can deliver per revolution. The displacement capacity is an important factor in determining the overall hydraulic power output of the pump and is selected based on the specific requirements of the application.
The K3V140DT-9N04 main pump is also known for its high-pressure capabilities. It can operate at a maximum pressure of 34.3 MPa (343 bar), allowing it to handle demanding hydraulic systems that require significant force. This high-pressure rating makes it suitable for heavy-duty applications that require precise and powerful hydraulic control.
In terms of efficiency, the K3V140DT-9N04 main pump incorporates advanced technologies to minimize energy loss and maximize performance. It features a swash plate design that enables variable displacement, allowing the pump to adjust its output according to the system's demand. This ensures efficient power delivery and reduces unnecessary energy consumption, resulting in improved overall system efficiency.
To ensure durability and reliability, the K3V140DT-9N04 main pump is constructed with high-quality materials and precision engineering. It is designed to withstand harsh operating conditions, including high temperatures, shock loads, and vibrations. The pump's robust construction enhances its longevity and reduces the need for frequent maintenance, contributing to cost savings and increased uptime.
The K3V140DT-9N04 main pump also incorporates various advanced features for optimal performance.
It includes a pressure compensator to regulate the pressure within the hydraulic system, a torque limiter to protect against excessive loads, and a built-in pressure relief valve to prevent overpressure situations. These features ensure safe and efficient operation while protecting the pump and the entire hydraulic system.
Furthermore, the K3V140DT-9N04 main pump offers flexible installation options, allowing it to be easily integrated into different hydraulic systems. It is available in both single and tandem configurations, providing versatility in system design and adaptation to specific application requirements.