RU174662U1 - SIEVE - Google Patents

Abstract

The utility model relates to agriculture, in particular to devices for cleaning grain with simultaneous separation into fractions. To increase the throughput of the sieve in the process of cleaning seeds or grain with simultaneous separation of them into fractions in a sieve made in the form of sheet 1 with calibrated holes 2, according to a utility model, calibrated holes 2 are grouped in sections with curved concave surfaces 3 and in sections with curved convex surfaces 4, interconnected alternately sections relative to each other, and the calibrated holes of 2 sections are installed with the possibility of intersecting their longitudinal axes. The application of the utility model will increase the separation rate, and hence the throughput of the sieve, and as a result increase the performance of the seed cleaning machine in the process of seed cleaning with simultaneous calibration .

Description

The utility model relates to agriculture, in particular to devices for cleaning grain with simultaneous separation into fractions.

-образных скоб, свободные концы которых взаимодействуют с днищами (патент на полезную модель RU № 17292, кл. В07В 1/28, 2001).A known machine for cleaning and calibrating seeds, including a frame on which, through pairs of pendants, is attached a casing with sieves mounted one above the other with a slope in opposite directions, a device for changing the angle of inclination of the sieves and an oscillation drive of the sieves, characterized in that the device for changing the angle the inclination of the sieves is made in the form of fixed in the housing with the ability to change and fix the angle of rotation

-shaped brackets, the free ends of which interact with the bottoms (utility model patent RU No. 17292, class B07B 1/28, 2001).

The disadvantages of the sieves of the known machine for cleaning and calibration of seeds is their low throughput and, as a consequence, the low productivity of the machine for cleaning and calibration of seeds.

These disadvantages are due to the following. The working surface of the sieves of a known machine for cleaning and calibrating seeds has flat sections on which seeds or grain and impurities are retained during operation.

In addition, the known sieve has a small relative living section, which is understood as the ratio of the area of all calibrated holes to the total area of the sieve. This is due to the fact that the calibrated holes of the sieve are located on its flat surface. The small relative living section of the sieve makes it necessary to increase the total area of the sieve, i.e. its length and width. It also increases the material consumption of the sieve.

The closest in technical essence and the achieved result is a sieve containing a flat sheet with conical holes made to a depth of at least a portion of the sheet thickness, the larger diameter of which is located on the working upper surface of the sieve, directed towards the lower surface of the sieve and continuing cylindrical calibrated holes before reaching the bottom surface of the sieve, characterized in that the axis of any three adjacent holes are located at the vertices of an equilateral triangle with about the sides equal to the diameter of the upper larger base of the cone of the hole (utility model patent RU No. 120324, class A01F 12/44, 2012 - prototype).

A disadvantage of the known sieve, taken as a prototype, is its low throughput, which reduces the performance of seed cleaning machines that use the known sieve.

These disadvantages are due to the following. The design of the known sieve has flat sections on the upper working surface. In the process of cleaning grain from impurities with simultaneous separation of it into fractions in these flat areas, grain and impurities are retained. This reduces the throughput of the known sieve and, as a result, the performance of seed cleaning machines.

In addition, the known sieve has a small relative living section. This is due to the fact that the calibrated holes of the sieve are located on its flat surface. The small relative living section of the sieve makes it necessary to increase the total area of the sieve, i.e. its length and width. It also increases the material consumption of the sieve.

The technical result of the utility model is to increase the throughput of the sieve in the process of cleaning seeds or grain with simultaneous separation of them into fractions.

The technical result is achieved by the fact that in a sieve made in the form of a sheet with calibrated holes, according to a utility model, the calibrated holes are grouped into sections with curved concave and convex surfaces interconnected to alternate sections relative to each other, and the calibrated holes of the sections are installed with the possibility of intersecting their longitudinal axes.

The novelty of the claimed technical solution lies in the grouping of calibrated holes in the section with curved concave surfaces and in the section with curved convex surfaces, which allows to provide a working surface without horizontal sections, which consequently increases the throughput of each section of the sieve formed by the section. Seeds or grain supplied to the sieve, upon contact with it, begin to move to the calibrated holes, not delaying as there are no flat sections on the surface of the sieve.

The connection of sections of grouped calibrated holes with each other with the possibility of alternating sections with concave and convex surfaces allows you to get the working surface of the sieve of the required area, as well as to increase the living section of the sieve, without increasing its length and width.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows the design of the sieve, in a perspective view; in FIG. 2 - also in section AA in FIG. one; in FIG. 3 - also in section BB in FIG. one; in FIG. 4 - also in section BB in FIG. one; in FIG. 5 - sections of the working surface of the sieve, in a perspective view.

The sieve is made in the form of a sheet 1 with calibrated holes 2 (Fig. 1 and Fig. 2). The calibrated holes 2 are grouped in sections with curved concave surfaces 3 and in sections with curved convex surfaces 4, interconnected interchangeably relative to each other (Fig. 3 and Fig. 4). The longitudinal axis of the calibrated holes 2 of each of the sections with curved concave surfaces 3 and sections with curved convex surfaces 4 intersect (Fig. 5).

The sieve is used as follows. The sieve (Fig. 1), made in the form of a sheet 1 with calibrated holes 2, is installed on grain cleaning machines for cleaning seeds or grain with simultaneous separation into fractions, used in particular in breeding and primary seed production of agricultural crops, as well as on grain cleaning machines of the ZVS25 type ZAV40. The sieve is brought into a state of reciprocating vibrations, as a result of which the heap, including seeds or grain, as well as impurities, moves randomly along the sieve. Seeds or grain supplied to the sieve, upon contact with it, begin to move to the calibrated holes along curved concave surfaces 3 and curved convex surfaces 4, not delaying as there are no flat sections on the surface of the sieve. In this case, large fractions of the heap, including a large fraction of seeds or grains and large impurities, move along the sieve to the gathering. The remaining seeds or grain and small impurities go into the passage through calibrated cylindrical holes 2.

Small impurities from seeds or grain are separated by the air flow provided by the grain cleaning machine. Conditioned grain or seeds from substandard are separated on the next sieve with the corresponding diameter of the calibrated cylindrical holes 2.

The use of a utility model will increase the separation intensity, and hence the sieve throughput, and as a result, increase the performance of the seed cleaning machine in the process of seed cleaning with their simultaneous calibration.

Claims (1)

A sieve made in the form of a sheet with calibrated holes, characterized in that the calibrated holes are grouped into sections with curved concave and convex surfaces interconnected to alternate sections relative to each other, and the calibrated holes of the sections are installed with the possibility of intersection of their longitudinal axes.

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