Linear vibrating screen is very suitable for assembly line operation, and it has the advantages of low energy consumption, high output, and automatic discharge, which makes it less common in the mining industry. The general screening process is that the material enters the feed port of the equipment evenly from the feeder, and the screen produces the screened material and the screened material through the screen, which are discharged from their respective outlets. The linear vibrating screen also has different screening methods.
The so-called linear vibrating screen dry screening, as the name suggests, is to calculate the sum of the screen residue and the screen bottom inventory of each screen and the difference between the total dry mass of the sample before screening, as the loss during screening, and calculate the loss rate, put a certain weight of powder sample in the screen, with the help of mechanical vibration or manual patting to make the fine powder pass through the screen until the screening is complete, and the screen residue of the powder sample is calculated according to the weight of the screen residue and the weight of the sample. When measuring the particle size distribution, dry screening is generally used.
Overlapping method screening means that in the process from coarse screen to linear vibrating screen, the screen surface of the vibrating screen overlaps, the screen hole of the upper screen surface is larger, and the subsequent layers gradually decrease, because there are gaps on both sides of the linear screen frame, which may lead to screening accuracy. This screening method is simplified and suitable for the processing of a large number of materials
Linear vibrating screen wet screening is to place a certain weight of powder sample in the screen, and after being washed for a certain period of time by a suitable dispersed water flow (with a certain water pressure), the screening is complete. The wet screening method is to calculate the screen residue of the powder sample according to the weight of the screen residue and the weight of the sample. If the sample contains more water and the particles are more condensed, wet screening should be used (with higher accuracy than dry screening), especially for materials with finer particles. If it is allowed to mix with water, try to use the wet method. Because the wet method can prevent very fine particles from adhering to the screen holes and blocking the screen holes. In addition, the wet method is not affected by the material temperature and atmospheric humidity, and the wet method can also improve the operating conditions. Therefore, both the wet method and the dry method have been listed as standard methods and acted in parallel as a method for determining the fineness of cement and raw materials.
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