The vertical compound crusher is widely used in mining, metallurgy, chemical industry, building materials, and other industries. Its ability to effectively crush medium and soft materials has garnered significant attention from users. This paper aims to analyze and discuss the working principle, structural characteristics, and evaluation of its crushing effect on soft materials in detail.
First of all, let’s explore the working principle of the vertical compound crusher. The vertical compound crusher combines a high-speed rotating hammer head with a counter plate, resulting in strong impact, shear, friction, and other effects on the material in the crushing chamber to achieve efficient crushing. This method offers advantages such as high crushing efficiency, large crushing ratio, and low energy consumption for medium and soft materials. Additionally, the reasonable design of the crushing chamber prevents material blockage during the process, ensuring continuous and stable crushing.
Secondly, let’s discuss the structural characteristics of the vertical compound crusher. The vertical compound crusher mainly consists of a crushing host, motor, base, transmission device, and other components. Among them, the crushing machine is the core component comprising a rotor, hammer head, impact plate, and liner plate, etc. The hammer head is made of highly wear-resistant material with excellent resistance to wear and impact. The impact plate is constructed from special wear-resistant material that effectively prolongs its service life. Additionally, the transmission device of the vertical compound crusher utilizes a hydraulic coupler which offers features such as overload protection, smooth start-up, convenient speed regulation etc., effectively safeguarding both the motor and crushing host.
Next, the crushing effect of the vertical compound crusher on medium and soft materials is remarkable. In practical applications, it shows significant advantages. Taking limestone as an example, when broken by the vertical compound crusher, the particle size distribution becomes more uniform and controllable. The crushed limestone also exhibits better grain shape and higher compressive strength. Furthermore, this type of crusher generates less dust during the crushing process, resulting in minimal environmental pollution.
In addition to limestone, the vertical compound crusher can also be used for crushing other soft materials such as coal, gypsum, clay, and more. In practical applications, users have the flexibility to adjust parameters like crusher speed, number of hammer heads, and impact plate clearance based on different material characteristics and crushing requirements in order to achieve optimal crushing results.