RU2804079C1 - Cylindrical slot sieve - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention is intended for cleaning grain from small impurities and performs the functions of a sowing sieve. A cylindrical slotted sieve contains two half-cylinders with a sieve working surface, an upper and lower half-ring, racks, an upper and lower shell. The working surface of slotted sieves is formed by round longitudinal and transverse bridges. Cross jumpers have a four-row interweaving. The sieve posts are connected at one end to the lower shell, and at the other, through a ring, to the upper shell, forming the sieve frame. The racks have side grooves along the generatrix corresponding to the height of the semi-cylinders, allowing free entry of the generatrix semi-cylinders into them. Longitudinal bridges are made with a diameter of three quarters of the width of the slot openings. The diameter of the transverse jumpers is two times smaller than the longitudinal ones.

EFFECT: improvement in the quality of purification from small impurities, as well as increase in productivity.

3 cl, 6 dwg

Description

The invention relates to agricultural engineering, is intended for cleaning grain from small impurities and performs the functions of a sowing sieve.

A centrifugal sieve separator is known, where a sowing sieve block is installed between the conical shell and the grain sieve to separate small impurities (RF Patent No. 2300426, 06/10/2007).

These devices use sieves with round punch holes.

The closest in its technical essence is a cylindrical slotted sieve containing two half-cylinders, with a sieve working surface, an upper and lower half-ring, racks, an upper and lower shell (RF Patent No. 2385775, 04/10/2010).

The disadvantages of cylindrical underseeding sieves of known separators are the low orienting ability of the punching holes of the sieves, and the wide bridges between the holes significantly reduce the coefficient of open section.

The objective of the present invention is to increase the productivity and efficiency of grain purification from small impurities.

The technical essence involved in solving this problem is to make round jumpers with a different number of weaves.

This problem is solved by the fact that in a cylindrical slotted sieve containing two half-cylinders, with a sieve working surface, an upper and lower half-ring, racks, upper and lower shells, the working surface of the slotted sieves is formed by round longitudinal and transverse jumpers, while the transverse jumpers have a four-row weave, The sieve racks are connected at one end to the lower shell, and at the other, by means of a ring, to the upper shell, forming a sieve frame; the racks have side grooves along the generatrix along the height of the semi-cylinders, allowing the free entry of the sieve semi-cylinders into them. The longitudinal jumpers are made with a diameter of three quarters of the width of the slot holes, and the diameter of the transverse jumpers is half that of the longitudinal ones.

Figures 1 and 2 show a cylindrical slotted sieve assembly.

Figure 2 shows a cylindrical slotted sieve assembled with a stand.

Figure 3 shows the frame of a cylindrical slotted sieve.

Figure 4 shows a 3D model of a half-cylinder slotted sieve.

Figure 5 shows a fragment of a cylindrical slotted sieve. I

Figure 6 is a section along A - A.

A cylindrical slotted sieve consists of two half-cylinders 1, the working surface of which is formed by round longitudinal jumpers 2, with a diameter d = 0.75D of the width of the slit 3 and transverse jumpers 4 with a diameter two times smaller d ₁ = 0.5d than the longitudinal jumpers and having a four-row weave . The cylindrical slotted sieve 5 contains upper and lower half rings 6 and 7, posts 8, lower 9 and upper 10 shells. The racks 8 of the cylindrical slotted sieve are connected in the lower part to the lower shell 9, and in the upper part by means of a ring 11 with the upper shell 10. On the racks 8 on the sides along the semi-cylinders forming the height, there are lateral grooves 12.

Two posts 8 and two half rings 6 and 7 form a frame. The racks 8, having side grooves 12 along the generatrice along the height of the semi-cylinders 1 of the cylinder, are fixed on one side to the lower shell 9, and on the other part to the upper shell 10 and provide free entry of the generatrices of the semi-cylinders 1. This ensures reliable operation of the cylindrical sieve at high pressure values grains from the action of centrifugal forces.

Each of the semi-cylinders 1 is equipped with an upper 6 and a lower 7 half-rings, which ensures their rigidity, and the upper part of the semi-cylinder is attached to the upper shell 10, and the lower part of the semi-cylinder to the lower shell 9.

The constant working size of the slots formed by round longitudinal jumpers 7, diameter d=0.75A of the slot width, is ensured by round transverse jumpers 4, consisting of cables, diameter d ₁ =0.5d, woven into the longitudinal jumpers. The transverse lintels are half the diameter of the longitudinal lintels, have a four-row weave and are placed along the generatrix of a cylinder consisting of two half-cylinders.

The operating principle of a cylindrical slotted sieve in a centrifugal sieve separator.

The initial grain material is fed to the beginning of the non-perforated cylindrical surface of the slotted sieve.

Next, the grain material enters the separating surface of a cylindrical slotted sieve, where small impurities are released. When moving along the separating surface under the action of centrifugal forces, segregation of the grain mixture occurs. The segregation process occurs more intensively due to the transverse jumpers 4, with a diameter half as large as the longitudinal jumpers 2, woven into four rows. The oblong slits 3 of the slotted sieve with round longitudinal bridges 2 contribute to maximum separation of small impurities.

The use of centrifugal forces in the working process of a cylindrical slotted sieve with round longitudinal 2 and round transverse 4 jumpers will improve the productivity and quality of grain cleaning from small impurities.

To clean the sieve holes from stuck grains in the separator, a cylindrical brush (not shown in the figure) is used, installed along the generatrix of the cylindrical slotted sieve.

There is no disruption to the operating mode of the slotted sieve when the cylindrical cleaning brush rotates.

Claims (3)

1. A cylindrical slotted sieve containing two half-cylinders with a sieve working surface, an upper and lower half-ring, racks, an upper and lower shell, characterized in that the working surface of the slotted sieves is formed by round longitudinal and transverse jumpers, while the transverse jumpers have a four-row weave, racks the sieves are connected at one end to the lower shell, and at the other, by means of a ring, to the upper shell, forming a sieve frame; the racks have side grooves along the generatrix along the height of the semi-cylinders, allowing free entry of the generatrix semi-cylinders into them. 2. A cylindrical slotted sieve according to claim 1, characterized in that the longitudinal bridges are made with a diameter of three quarters of the width of the slot openings. 3. Cylindrical slotted sieve according to claims. 1, 2, characterized in that the diameter of the transverse bridges is half that of the longitudinal ones.