RU2014161C1 - Ball flat sieve cleaner - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: cleaner has a deflecting surface with partitions in the form of a net from a flexible material fastened to it. The net is formed by hexagonal-shaped cells in which balls are located. EFFECT: improved structure. 3 dwg

Description

 The invention relates to a device for the separation and sorting of bulk materials and can be used in the chemical, mining industry, agriculture.

 Known ball cleaner flat sieves, including a reflective surface with fixed partitions on it, forming rows of cells of rectangular shape, which in each row are offset with respect to an adjacent row, balls located in the cells.

The disadvantages of the cleaner are:
1) the formation of uncleaned sieve strips over the cell walls (especially over the grating nodes) due to the inadmissibility of the impact of balls on stuck particles on these strips;
2) a significant weight of the cleaner due to the massiveness of the partitions made of wood.

 The aim of the invention is to improve the quality of cleaning sieves and reducing the weight of the cleaner.

 This goal is achieved by the fact that in a cleaner containing a reflective surface with partitions fixed on it, forming rows of cells, which in each row are offset with respect to the adjacent row and the balls located in the cells, the latter are made in a hexagonal shape, and the partitions are in the form of a grid from elastic material.

When the cleaner is working, the balls bounce off the reflective surface and, striking the sieve, clean it of stuck particles. In this case, strongly jammed particles are removed from the holes only in direct interaction with the balls. A frame with hexagonal cells in the form of a mesh of elastic material practically does not interfere with cleaning when the balls move. This is due to the fact that the elastic filaments of which the frame is made have a small thickness, can be deformed, and the angles of the hexagonal cells have a maximum possible value of 120 ^° (see Fig. 2), which opens the best access of the balls to the sections of the sieve located above the nodes lattice. In the prototype, the same angle was 90 ^about (see Fig. 3). Thus, in the proposed cleaner, the sieve area closed to interact with the balls is minimized. As a result, uncleaned sieve strips are eliminated, i.e. the quality of its cleaning is improved.

 In addition, the implementation of the frame in the form of a grid of elastic threads reduces its weight in comparison with a frame made of wood.

 In FIG. 1 shows the frame of a ball cleaner of flat sieves; in FIG. 2-3 - layout of balls in the nodes of the frame, respectively, in the proposed and existing technical solutions.

In the frame 1 of the purifier frame (see Fig. 1), hexagonal cells 2 are formed, formed by partitions 3. Partitions 3 are made in the form of a mesh of elastic material. The 4 mesh nodes converge three partitions constituting each other corners ¹²⁰ (see. FIG. 2).

 During operation of the grain cleaning machine, its sieve mill oscillates. The grain mixture, moving along the sieve, is divided into two fractions. At the same time, part of the seeds are clogged in the holes. Balls, bouncing off the reflective surface, strike the sieve and clean it of stuck particles. Due to the insignificant thickness of the partitions 3 and their ability to deform when interacting with the balls, contact of the balls with the sieve becomes possible in a much larger area compared to the prototype, i.e. uncleaned zones above partitions 3 are practically absent. In addition, the possibility of approaching the balls to the grid nodes has increased due to the shape of the cells with the maximum possible opening angle of the sides. The bulky frame design in the prototype is now replaced by a lightweight mesh structure, which significantly reduces the weight of the proposed cleaner as a whole.

Claims (1)

 BALL CLEANER OF FLAT SIZES, including a reflective surface with partitions fixed to it, forming rows of cells, which in each row are offset with respect to the adjacent row, balls located in the cells, characterized in that, in order to improve the quality of cleaning the sieves and reduce the mass of the cleaner , the cells are made hexagonal, and the partitions are in the form of a mesh of elastic material.

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