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Posts: 11
Join Date: Jun 2018
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Large-scale construction Construction Waste Crusher five major components of the main mountain, namely: transmission device (motor, belt drive), spindle device (spindle, bearing, bushing, refueling pipe, cooling water pipe, etc.), sprinkling device (distributor, scattering material Disks, guide vanes, etc.), whirlpools, self-grinding chambers, support devices (cases and stands, feed ports, discharge ports, etc.).
The Construction Waste Crusher of large buildings is based on the centrifugal force generated by the edge of the horizontal channel of the impeller rotating at a high speed. The materials are thrown into the ring-shaped crushing cavity, collide with the material pads accumulated on the cavity wall, and the materials and materials collide with each other and grind against each other, thereby realizing The purpose of crushing and crushing. The material particles expand at a high speed impact and disintegrate into small cubic particles. As the impact process continues, the kinetic energy of the large and small particles is not the same, so the material is in a turbulent state before the material pad in the cavity. The materials that lose kinetic energy are washed down by gravity, and the new material continuously impacts the cushion. In the counter-attack area, the materials in the vortex area are continuously updated, and mutual flushing and mutual grinding are continuously generated. The fine powder has a small mass and a small kinetic energy, and will discharge to the material outlet first than the large-quality particles. Therefore, its unique structural characteristics determine its unique working principle.
Our renovation plan is to keep all the equipment of the raw material grinding workshop stationary, and to place a three-way chute at the feeding port of the belt conveyor to access the large-scale construction counter-attack and raw material mill respectively. If the insert is inserted into the branch of the mill, the material first enters the large building and is broken by counteraction. The broken material is sent to the mill through the elevator. When the insert is inserted into the broken branch of the large building, the material does not pass through. Large-scale buildings are counter-attacked and directly ground, which can prevent large-scale buildings from affecting production when counter-attack and breakage do not work properly.
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