The main business of the company is: bladder accumulator, Diaphragm accumulator, Piston Type Accumulator, oxygen cylinder, CO2 cylinder, gas cylinder, nitrogen gas cylinder, Welcome to inquire and negotiate cooperation by phone.
About    |    Contact


The Fundamental Construction of a Piston Accumulator

The basic construction of a Piston Accumulator usually involves the following key components:

Piston: The piston is the core component of the accumulator, and its volume and height are key to controlling the water level (or the substance being stored, such as a gas or liquid). The piston moves up and down inside the accumulator, thereby changing the volume of space above it to store or release energy.
Cylinder: The cylinder is the space in which the piston moves and is usually cylindrical and smooth inside to ensure that the piston can move smoothly. The cylinder needs to be made of a material that is strong enough and airtight enough to withstand internal pressures and prevent leakage.
Seals: Seals are located between the piston and the cylinder to prevent leakage of the stored material. Seals are usually made of an elastic material, such as rubber or plastic, to ensure that the piston fits snugly into the cylinder as it moves.
Inlet/Outlet: The inlet/outlet is the passageway that connects the accumulator to the external system. When energy is stored, material is introduced into the cylinder through the inlet; when energy is released, material is discharged from the cylinder through the outlet. The number and location of inlets/outlets may vary depending on application requirements.
Support structure: The support structure is used to secure and support the accumulator to ensure its stability and safety. The design of the support structure should take into account the weight and size of the accumulator as well as the operating environment.
The working principle of piston accumulator is to use the volume and height change of the piston to control the volume of the stored material. When the piston descends, the volume of the space above the cylinder increases so that more substances can be stored; conversely, when the piston rises, the volume of the space decreases so that the stored substances are released. By controlling the movement of the piston, the storage and release of energy can be realized.

The above information is for reference only. The specific construction of piston accumulators may vary depending on the application requirements, design standards and manufacturers. If necessary, it is recommended to refer to specialized books or consult professionals in related fields.



Leave a Reply