What is an axial piston pump?
Axial piston pump is a piece of equipment that moves several pistons up and down. The pump usually does it with the movement of the paycheck, a circular piece of metal with an opening in the middle that bent down and then up to one side. It can be used as a simply pump or as part of other assemblies such as car engines or hydraulic motors.
Typical axial piston pump consists of payday, piston, piston shoes, cylinder block or mainly and valve plates. The pistons are placed vertically and at the same distance from each other at the top of the swashplate. Each piston is equipped with a piece of shoe. The pistons fit into the holes in the cylinder block. Then the block is placed via the piston and payout to completely cover the assembly. The valve plate is then attached to the upper part of the cylinder block. It usually knows it as a cam, tilting plate or wobbldeska. When the pump is in motion, the payout spins in such a way that it alternates between the strong and thin part of the plate under the pistons. This forces pistons to make a movementAly in and out of the cylinder block. The length of the piston movement depends on the swashplate depth.
All parts of the axial piston pump must be measured precisely so that the piece can function properly. In particular, the pistons must be designed so that there is enough space for them to move in and out of the cylinder block, but not so much that they cannot keep straight. Each piece affects the pump speed and the piston movement depth.
Axial piston pumps that are part of another device are often built to suit the available space. This means that they can be bent or straight-known as in-line-in dependence on the necessary configuration. The bent pump will rely on a specially designed cylinder block rather than paying for the movement of the shift. The pumps are powered by an engine or electricity, depending on where and how the device will be used.
reaction to a particular allusingOnfigurate axial piston pump so that it works on request. This can help save energy because the pump is not constantly running. The function is an alternative to the constant energy flow of energy spent on pumps with a fixed shift.