How Does A Jaw Crusher Work?
The jaw crusher is made up of several parts, including a fixed jaw, a moving jaw, and a toggle plate. The fixed jaw is mounted to the frame of the jaw crusher, and the moving jaw is mounted to the pitman. The pitman is a moving component that is connected to the toggle plate by a series of levers. The toggle plate is responsible for transmitting the power from the pitman to the moving jaw.
The moving jaw is mounted on an eccentric shaft, which allows it to move up and down in a circular motion. As the moving jaw moves down, it crushes the material against the fixed jaw. The material is then discharged from the bottom of the jaw crusher, and it is ready for further processing.
There are several types of jaw crushers available on the market, including single-toggle jaw crushers, double-toggle jaw crushers, and overhead eccentric jaw crushers. Single-toggle jaw crushers are the most common type, and they are designed with a large feed opening and a simple toggle mechanism. Double-toggle jaw crushers are more advanced, and they have a more complex toggle mechanism that allows for more precise control of the crushing process. Overhead eccentric jaw crushers are less common, but they are designed with an eccentric shaft that causes the moving jaw to move in a more circular motion, which allows for a more efficient crushing process.
The working principle of a jaw crusher is that when the jaw rises, the angle between the fixed jaw and the moving jaw becomes larger, and the materials can be crushed. All jaw crushers feature two jaws: one of which is fixed while the other moves. The working principle of jaw crushers is based on the reciprocating movement of the movable jaw that compresses and crushes the rock or ore between itself and the fixed jaw, as the material enters the zone between the jaws.
The crushing process takes place when the feed material between the two jaws is compressed and crushed by the moving jaw. As the moving jaw moves away from the fixed jaw, the crushed material is discharged from the crusher at the bottom, with the size of the discharged material determined by the gap between the jaws.
The crushing action of a jaw crusher is caused by the motion of its swing jaw. The swing jaw moves back and forth by a cam or pitman mechanism, acting like a nutcracker or a class II lever. The volume or cavity between the two jaws is called the crushing chamber. The movement of the swing jaw can be quite small, since complete crushing is not performed in one stroke. The inertia required to crush the material is provided by a weighted flywheel that moves a shaft creating an eccentric motion that causes the closing of the gap.
Jaw crushers are usually constructed in sections to ease the process transportation if they are to be taken underground for carrying out the operations. Jaw crushers are classified on the basis of the position of the pivoting of the swing jaw. Blake crusher-the swing jaw is fixed at the upper position; Dodge crusher-the swing jaw is fixed at the lower position; Universal crusher-the swing jaw is fixed at an intermediate position.
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