SU433384A1 - HYDROSTATIC GRANULOMETER - Google Patents

Description

one

The invention relates to the control of technological parameters in the enrichment of minerals and can be used in mining and other enterprises that use the grinding and classification of raw materials for the rapid determination of the particle size distribution of products.

The known devices for determining the particle-size characteristics of the enrichment products are characterized by complexity, low accuracy and the need to recalculate the measurement results into a particle-size characteristic.

The purpose of the invention is to improve the measurement accuracy.

This is achieved in that the side holes in the funnel are located along the level of the liquid mirror. ; The drawing shows the scheme of the proposed hydrostatic granulometer.

The hydrostatic granulometer consists of a settling pipe 1, which has a valve 2 in the lower part for emptying and communicating with the measuring pipe 3, and

the upper part ends with a drain edge 4. The upper part of the measuring tube j is made of transparent material and has a scale for visual reference. A funnel is inserted into the precipitation pipe | 5 to enter the sample. In the upper part of the funnel there are side openings 6 located along the level of the drain edge of the settling tube. .

For the analysis, the settling tube 1 and the measuring tube 3 are filled with liquid to the drain edge 4 and after that a sample of the pulp is poured into the funnel. The elongated conical part of the funnel 5 prevents the pulp from entering the lateral holes 6, and the entire sample volume, passing through the exit: the funnel pipe 5, enters the settling pipe 1. At the same time, part of the liquid filling the precipitating pipe 1 pours through the drain edge four.

The maximum sample volume is limited by the amount at which the depth of the upper boundary of the injected sample from the level of the drain edge 4 is at least half the diameter of the settling pipe. After the sample has been introduced through (the dust 6 inside the funnel 5, a liquid from the precipitation balance will begin to flow into the precipitation bar and the funnel. After tightening this alignment, the steady value of the liquid level in the measuring bar 3 is determined by the expression: DN y t Ume is the level increment in the measuring tube 3; introduced - the solid weight in the sample; -the specific weight of the solid; -specific weight of the filling liquid; 3 - the cross-sectional area of the settling pipe. It is fixed because it is maintained during the expiration of the largest particles from the working part of the settling tube, i.e. below the level of communication with the coarse measuring coarse. As the particles of the solid from the working part of the settling pipe settle, the liquid level in the measuring tube 3 will fall. Calculating the ratio of the current value of this to its maximum initial value gives a granular sampling characteristic. The time of deposition of one or another class, according to its size, is by well-known formulas or experimentally, When obtaining the necessary result; analysis ends; By using the valve 2 for emptying, the particle size meter is freed from the pulp and filling liquid. After filling with a clear liquid, the particle size meter is ready for a new analysis. The results of industrial tests showed that the hydrostatic granulometer provides an accuracy of + 0.93% absolute according to the results of the class minus 0.074 mm. Deposition time 1O min,:,; :. The subject of the invention is a hydrostatic granulometer containing a precipitating pipe, a measuring tube connected to Thaya with a scale, a device for stabilizing the level of liquid in the settling pipe, and a funnel, characterized in that, with a complete measurement accuracy, there are side holes in the funnel mirror level fluid.