Product Introduction:This series of hammer crusher breaks the material by colliding with the material at high speed. It has the characteristics of simple structure, large crushing ratio and high production efficiency. It can be broken in both dry and wet forms.
Application:It is suitable for fine crushing of medium hardness and brittle materials in mining, cement, coal, metallurgy, building materials, highways, and combustion. The device can adjust the purlin gap according to the user's requirements and change the granular
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1. Applicability is strong: the crushing ratio is large, the production efficiency is high, and the required particle size can be adjusted according to customer requirements. 2. Simple structure: The overall design is beautiful in appearance, compact in structure, less wearing parts, convenient for maintenance, etc. It is an upgraded product. 3. Advanced technology: The bearing boxes are all made of cast steel, and fixed with four screws, scientific and practical; the work hammer is cast by new technology, which has the advantages of wear resistance and impact resistance. 4. Efficient and environmental protection: no screen mesh bottom, no requirement for the moisture content of the material, there is no problem of blocking the sieve plate, and there is no problem that the material can not be discharged in time and repeated pulverization; the hammer is broken and the structure is sealed and solved. Dust pollution and ash leakage in the crushing workshop.
The hammer crusher mainly relies on the impact energy to complete the crushing material operation. When the hammer crusher is working, the motor drives the rotor to rotate at a high speed, and the material enters the crusher cavity evenly. The high-speed rotary hammer impacts and shears the torn material, causing the material to be broken. At the same time, the gravity of the material itself causes the material to The high-speed rotating hammer head rushes toward the baffle and the screen strip in the frame body. The material larger than the size of the mesh hole is retained on the sieve plate and continues to be struck and ground by the hammer until it is broken to the required discharge particle size and finally discharged through the sieve plate. .
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