Components of the crusher

The wood crusher, also known as the wood chip machine, consists of three main parts: the rotor, upper body, and lower body. With a crushing chamber that adopts a multi-stage crushing process and principle device, it delivers a powerful impact force, high production efficiency, and exceptional crushing capacity. This machine is known for its compact structure, small footprint, excellent chip quality, low power consumption, and its suitability for flow operations. It boasts a sturdy and durable construction, driven by a motor that ensures stable work and low energy consumption. During the blade cutting and grinding process, the rotor generates a high-speed airflow that follows the blade direction, resulting in...

The primary components of the wood crusher comprise of a bearing, a shell, a screen, a transmission wheel, and a trough frame. Manufactured and processed from manganese steel, all the materials used in its construction ensure durability. With a simple structure and compact layout, the equipment operates effortlessly. Its cost-effective nature, coupled with stable functionality, minimizes energy consumption while providing a high output. The wood chip machine produces top-quality chips at a low processing cost. Furthermore, a single electric motor is sufficient to power the entire set of equipment.

The crushing process in a lumber mill involves the use of both movable and fixed mechanisms to achieve high-speed relative motion. This results in the material getting crushed due to various factors such as impact, friction, and comprehensive functioning, including the crushing impact and friction between the materials. The mill has a simple structure and runs smoothly, providing an efficient crushing effect. Moreover, the crushed material can be directly discharged from the grinding chamber by the main machine. The desired particle size can be achieved by adjusting the mesh aperture to suit different requirements.

The equipment operates using motor drive, resulting in minimal noise and a stable performance. Additionally, it consumes less energy while maintaining a high output. Its design is characterized by a simple structure and compact layout, contributing to its affordability without compromising on the quality of its products. The output of the equipment can be adjusted to meet the requirements of customers, with larger finished product sizes corresponding to higher production volumes.