Jaw crusher plays a vital role in modern mines and construction sites. It can efficiently crush large rocks and other hard materials into particles of required size, thus providing necessary raw materials for subsequent processes. As one of its core components, the hydraulic system of jaw crusher not only requires efficient operation, but also requires certain safety protection measures, especially hydraulic overload protection device, which plays a vital role.
1. Importance of hydraulic overload protection device
Hydraulic overload protection device is one of the key components of the hydraulic system of jaw crusher. Its main function is to monitor and control the working pressure of the hydraulic system during the operation of the equipment. Once the pressure exceeds the set value, the output of the hydraulic system is immediately cut off or reduced, thereby preventing the equipment from being damaged due to overload and protecting the safety of the equipment and operators.
2. Working principle of hydraulic overload protection device
The basic principle of hydraulic overload protection device is to use the incompressibility of liquid and the pressure feedback mechanism in the hydraulic system to achieve instant response and protection to the overload of the crusher. When the jaw crusher encounters an unbreakable object or an overload condition, the sudden increase in crushing force will be transmitted to the hydraulic cylinder, causing the internal pressure of the hydraulic system to rise rapidly. This pressure change is monitored by a sensor and immediately triggers the safety valve or overflow valve in the hydraulic circuit, causing the excess high-pressure oil to flow into the accumulator or other low-pressure circuits, thereby avoiding damage to the key components of the crusher (such as the movable jaw plate, bearings, etc.) due to excessive external forces.
3. Key points of hydraulic system design
The design of the hydraulic system is the basis for the normal operation of the hydraulic overload protection device. During the design process, the following points need to be paid attention to:
1. Selection of oil pump: The power of the oil pump should be greater than the maximum power of the crusher to ensure that the oil pump can overcome the maximum resistance of the crusher.
2. Overflow valve setting: The overflow valve is an important component for controlling the pressure of the hydraulic system. Its setting value should be greater than the maximum safe load of the crusher to prevent the system pressure from being too high.
3. Pipeline material and diameter: High-quality pipelines that are corrosion-resistant, wear-resistant, and high-temperature-resistant should be selected, and the appropriate pipeline diameter should be selected according to the actual working conditions to ensure the smooth flow of the oil circuit.