RU2752475C1 - Flaxwood cleaning device - Google Patents

Abstract

FIELD: agricultural engineering.SUBSTANCE: invention relates to agricultural engineering, in particular to devices for cleaning flaxseed from impurities. The device for cleaning flax seed contains a belt conveyor, an endless belt of which has a mesh structure, an aspiration system located above it and a hopper with tedders and a metering flap installed inside it, a pitched board located between the working and idle branches of the conveyor belt, adjacent to the idle branch of the scrubber conveyor. The device is equipped with eccentric, located under the working branch of the conveyor belt, and above it - with cylindrical rotating rods. Eccentric and cylindrical rotating rods are installed with the possibility of adjusting the distance between them.EFFECT: invention improves quality of separation of impurities and reduces the loss of flax.2 cl, 3 dwg

Description

The invention relates to agricultural engineering, in particular, to devices for cleaning flax seed from impurities.

Known elevator [Kapustin, V.P. Machines for harvesting and sorting potatoes / V.P. Kapustin, Yu.E. Glazkov, A.V. Milovanov; Tambov, Tamb. state those. in-t. - Minsk, 2001. - 28 p.], The branches of which are made in the form of bars and stamped steel links forming a chain track. Elliptical shakers of the elevator vibrate the upper branch of the elevator.

The disadvantages of this design when used as a device for cleaning flax seed from impurities are high losses of flax, due to the large distance between the bars of the elevator.

Known device for cleaning flax from mineral impurities [Device for the allocation of mineral impurities: US Pat. 21902 Rep. Belarus, IPC В 07В 11/08 (2006.01) В 07В 7/08 (2006.01) А 01D 45/06 (2006.01) / V.A. Sharshunov, V.E. Kruglenya, N.S. Sentyurov and V.I. Kotsuba; applicant UO “Belorus. state s.-kh. acad. " - No. a 20131150; app. 10/07/13; publ. 02/07/18 // Afitsyyny bul. / Nat. center intellectual. ulasnasts. - 2018. - No. 3 (122). - P. 87] including an elevator (conveyor) containing a mesh belt installed with the ability to vibrate, a receiving hopper with agitators installed with the ability to supply flax fiber to the mesh belt, a pitched board for catching heavy impurities installed under the mesh belt, connected to a source air ducts installed with the ability to supply air through a mesh belt, and an aspiration system for capturing light impurities.

The disadvantages of this design are high losses of flax and low quality of separation of impurities due to the fact that the air flow supplied from the bottom of the mesh belt promotes the removal of light flax fractions into waste and prevents sifting of small impurities through the holes of the mesh belt.

The technical result of the invention is to improve the quality of separation of impurities and reduce the loss of flax.

The technical result is achieved in that a device for cleaning flax, containing a belt conveyor, an endless belt of which has a mesh structure, located above it an aspiration system and a hopper with tedders and a metering gate installed inside it, a pitched board located between the working and idle branches of the conveyor belt, The scrapers adjacent to the idle conveyor branch are equipped with eccentric eccentric bars located under the working branch of the conveyor belt, and above it - cylindrical rotating rods, with the help of which the working conveyor branch acquires curvilinearity in the longitudinal-vertical plane.

Eccentric and cylindrical rotating rods are installed with the possibility of adjusting the distance between them.

FIG. 1 shows a diagram of a device for cleaning flax seed from impurities.

FIG. 2 shows a diagram of the deformation of the layer of the material processed by the device; FIG. 3 is a diagram of the distribution of the processed material at different positions of the eccentric.

The device consists of a receiving hopper 2 equipped with a metering gate 3 and tedders 1, a conveyor consisting of a drive 7 and 11 tension drums, a mesh belt 6, 5 rotating cylindrical and 10 eccentric bars. Above the conveyor, an aspiration system 4 is installed, and under it is a pitched board 9. The lower (idle) conveyor branch is equipped with scrapers 8.

The device works as follows.

Flax seed is loaded into the receiving hopper 2, which is mixed by tedders 1 preventing bridging and is fed through the hole in the lower part of the hopper to the 6 mesh conveyor belt. The amount of flax seed feed is regulated by the metering gate 3. The endless mesh belt 6 of the conveyor is driven by the drive drum 7. The cylindrical 5 and eccentric 10 rods, driven by the moving mesh belt 6 of the conveyor, provide the oscillating movement of the belt in the vertical direction, thereby creating favorable conditions to isolate impurities from flax. Small impurities are sifted through the mesh belt 6, fall on the pitched board 9 and are removed from the device to the outside. Light impurities are removed from the device by means of a vertical air flow created by the aspiration system 4. The cleaned flax peel leaves the mesh belt 6 of the conveyor into a receiving device (not shown in Fig. 1). To prevent clogging of the cells of the mesh belt 6, scrapers 8 are installed on its idle branch.

Installed from the bottom of the working branch of the mesh belt 6 of the conveyor eccentric rods 10 and parallel to them from above - cylindrical rods 5 provide its curvilinearity in the longitudinal-vertical plane. This forms the inclination of the mesh belt 6 of the conveyor at an angle α in the area L (Fig. 2). Sequential installation of cylindrical rods 5 and eccentric rods 10 form zones "A" and "B". In zone "A", the upper part of the flaxwood layer is unloaded, and the lower part is stretched. In zone "B" the upper part of the flaxwood layer is stretched, and the lower one is unloaded. The sequential alternation of zones "A" and "B" leads to the internal movement of particles of the processed material in the flax layer. At the same time, due to the rotation of the eccentric rods 10, the amplitude C of oscillations of the working branch of the mesh belt 6 of the conveyor changes during operation (Fig. 3), which causes the redistribution of material particles in the layer, promotes the release of impurities of different physical and mechanical properties from flax, and leads to an increase in separation quality and reduction of flax seed losses in waste.

In addition, the regulation of the distance between the cylindrical 5 and eccentric 10 bars allows you to adjust the amplitude and frequency of oscillations of the working branch of the mesh belt 6 of the conveyor to the optimal values for certain impurities, which also improves the quality of separation and reduces the loss of flaxseed into waste.

Claims (2)

1. A device for cleaning flax, containing a belt conveyor, an endless belt of which has a mesh structure, located above it an aspiration system and a hopper with tedders and a metering gate installed inside it, a pitched board located between the working and idle branches of the conveyor belt, adjacent to the idle branch scraper conveyor, characterized in that the device is equipped with eccentric, located under the working branch of the conveyor belt, and above it - with cylindrical rotating rods. 2. The device according to claim 1, characterized in that the eccentric and cylindrical rotating rods are installed with the possibility of adjusting the distance between them.

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