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Mine vibrating screen is a new and efficient screening equipment developed by our company. It is mainly used in metallurgy, mine, coal, building materials, electric power, chemical industry and small granular material and small granular material screening industry. It is widely used in metallurgical industry. It is a common screening machine under the trough of blast furnace, coking plant and concentrator. The product has the characteristics of small size, light weight, low energy consumption, easy to install and process layout. The energy saving vibration motor is used as the vibration source, the rubber spring is supported and vibration isolation, the processing quantity is large, the screening efficiency is high, the screen has a large installation inclination, the block assembly sieve plate, the replacement square and the long service life.
The main features of mine vibrating screen are:
The 1. volume is small and the sieving ability is big.
2. light weight, easy to install and process layout.
3. energy consumption is less, and a large amount of energy can be saved.
The price of 4. is low and the amount of spare parts is very small.
5. the structure is simple and the shape is beautiful.
6. screen mesh is assembled by small pieces, and it is very easy to replace.
Working principle and structure of mine vibrating screen:
The heavy-duty vibrating screen is driven by a vibration motor or an ordinary motor or a self vibration source, which makes the sieves oscillate periodically in the direction of the exciting force, and the material is moving in a linear direction on the screen to achieve the purpose of screening. The ZSG series high efficiency heavy duty screen consists of excitation device, screen box, dustproof hood, hopper, damping device and base. The exciting force produced by the exciter is transmitted to the sieve surface in the sieve box when the exciter is working, and the excitation force produced by the exciter is the longitudinal force, forcing the sieve box to drive the screen surface as the longitudinal front and back displacement. Under certain conditions, the material on the screen surface is thrown forward by the excitation force and is less than that of the screen. The material in the sieve hole is sifting and falling to the lower layer. The movement of the material on the screen surface is parabolic movement. As the material moves from the end to the sieve box, the material quickly advances, looses and sieves, and completes the screening operation.
