RU2296628C1 - Apparatus for sorting of round articles - Google Patents

Abstract

FIELD: technique for sorting of round articles such as potatoes.

SUBSTANCE: apparatus has feeding hopper, device for feeding and discharging of articles to be sorted out, two conveyors arranged at an angle to horizontal plane in transverse-vertical plane, one under another, so as to define sorting-out slot extending transverse to course of advancement of articles under sorting-out process. Transverse axis of lower conveyor is arranged at an angle of 17-20 deg and connected to shaft of upper conveyor through flexible pin. Upper conveyor is positioned so that angles of inclination of its longitudinal and transverse axes relative to horizontal plane may be adjusted, and consists of individual belts. Edge of first belt closest to feeding hopper is spaced by distance at least equal to average width of large-fraction tuber horizontally enlarged by 10 mm from edge of lower conveyor in transverse-vertical plane. Each following belt is separated from other edge of previous belt by a distance at least equal to average length of tuber of respective fraction enlarged by 10 mm, and edge of subsequent belt does not extend beyond second edge of lower conveyor. Immovable strips positioned on lower conveyor, under each belt of upper conveyor, have lower edges which are extending in transverse-vertical plane at a distance equal to half the average value of tuber of respective fractions under sorting process from edge of projections of upper conveyor belts onto lower conveyor facing feeding hopper.

EFFECT: increased precision of sorting process.

2 dwg

Description

The invention relates to the sorting of round-shaped objects, such as potatoes, and is an improvement on the known device.

The known device for sorting round-shaped objects (RF patent No. 2119832, Bull. No. 28, 1998) contains a feed hopper, a device for receiving and removing sorting objects, two conveyors located at an angle to the horizontal in the transverse vertical plane one below the other , with the formation of a wedge-shaped sorting slit transverse to the course of the sorted objects, the transverse axis of the lower conveyor being located at an angle of 17 ° -20 ° to the horizon and connected to the axis of the upper conveyor by a flexible shaft, while the upper conveyor is tanned with the ability to adjust the angles of inclination of its longitudinal and transverse axes relative to the horizontal plane and consists of individual belts, and the edge closest to the feed hopper of the first of the belts is located at a distance not less than the average tuber width of a large fraction, increased by 10 mm from the edge of the lower conveyor horizontally in the transverse vertical plane, each subsequent belt is located from the other edge of the previous belt at a distance of not less than the average length of the tuber of the corresponding fraction, increased by 10 mm, and the edge of the last belt does not extend beyond the second edge of the lower conveyor.

The disadvantage of this device is the low accuracy of sorting. In the process of operation of this installation, tubers, the sizes of which exceed the sizes of the corresponding sorting slit, restrict the movement of small tubers, the sizes of which are smaller than the size of the sorting slit, and move them along the conveyors to the device for receiving and removing sorted potatoes of the corresponding fraction. As a result, small tubers fall into large fractions, reducing the accuracy of sorting.

The aim of the invention is to increase the accuracy of sorting.

This goal is achieved by using the proposed device, which, like the prototype, contains a feed hopper, a device for receiving and removing sorting objects, two conveyors located at an angle to the horizontal in the transverse vertical plane one below the other, with the formation of a sorting slit wedge-shaped transverse sortable items, and the transverse axis of the lower conveyor is located at an angle of 17 ° -20 ° to the horizontal and connected to the axis of the upper conveyor by a flexible shaft, while the upper conveyor is installed connected with the possibility of adjusting the angles of inclination of its longitudinal and transverse axes relative to the horizontal plane and consists of individual belts, and the edge closest to the feed hopper of the first of the belts is located at a distance not less than the average tuber width of a large fraction increased by 10 mm from the edge of the lower conveyor horizontally in the transverse vertical plane, each subsequent belt is located from the other edge of the previous one at a distance of not less than the average length of the tuber of the corresponding fraction, increased by 10 mm, and The mark of the last belt does not extend beyond the second edge of the lower conveyor. In contrast to the prototype, in the proposed device on the lower conveyor along each belt of the upper conveyor there are fixed strips, the lower edges of which are installed in the transverse vertical plane at a distance of half the average tuber of the corresponding sortable fraction from the projection belt of the upper conveyor onto the lower conveyor facing to the side feed hopper.

Due to the fixed strips on the lower conveyor and the distance of half the average tuber of the corresponding sortable fractions between the lower edges of the fixed strips and the projection edges of the belts of the upper conveyor onto the lower conveyor, in the transverse vertical plane, tubers larger than the corresponding sorting slots in the lower plane the conveyor is in contact with both the moving surface of the lower conveyor and the surface of the fixed strip. When the conveyors move together with the sorted tubers, the friction of the latter against the surface of the fixed strip, part of the contact area in the plane of the lower conveyor, creates a tuber torque relative to the axis perpendicular to the plane of the lower conveyor. Spinning (tedding) of tubers occurs, moving along the conveyors in the device for receiving and removing sorted potatoes. And the small tubers roll to the next sorting gap. Thus, in the proposed device reduces the number of small tubers that fall in the process of sorting into a large fraction, and thereby increases the accuracy of sorting in the proposed device.

The presence of each feature individually in the device does not solve the problem, and the combination of features allows you to make the device different from others and currently unknown from the prior art. A review of the scientific, technical and patent literature allows us to conclude that the proposed device meets the criterion of "novelty", and analysis of the known technical solutions proves that the invention meets the criterion of "inventive step".

The device is presented in figure 1, where:

1 - receiving hopper or feed hopper;

2 - working surface of the lower conveyor;

3 - sorting belts of the upper conveyor;

4 - wedge gap;

5 - axis of rotation of the lower conveyor;

6 - axis of rotation of the upper conveyor;

7 - a flexible shaft;

8 - fixed strip (tape).

The device operates as follows.

In the process of operation of the proposed device, potato tubers, sprinkled in the feed hopper 1, roll along the surface of the lower conveyor 2, the axis of which is located at an angle of 17 ° -20 ° (towards the horizon, into a wedge slot 4 located across the course of the tubers). Tubers, the sizes of which exceed the size of the wedge slit 4, formed by the belt 3 first to the bunker, stop last and are conveyed by conveyors to the device for receiving and removing sorted potatoes (not shown). Tubers smaller than the size of the sorted slit and not stopped by large tubers sorted by the sorting slit are rolled to the next belt, which creates a smaller slit with the lower conveyor, and so on, to the very last fraction. And small tubers, stopped by large tubers sorted by a sorting slit, while spinning the latter around an axis perpendicular to the plane of the lower conveyor, as the conveyors move into the device for receiving and removing sorted potatoes, first wedge into the gap formed between the large tubers when they are rotated by gravity and then slip and roll to the next sorting gap and so on to the last fraction.

For example, a device can be made as follows: a rubberized conveyor is installed on a metal frame, the web of which is made of material B-820 (GOST 2994067), and three V-belts C (B) (GOST 1284.2) for sorting tubers into three fractions. The total surface size of the lower conveyor is 1500 × 500 mm. The speed of the conveyor belt and belts is 0.6 m / s. The angle of inclination of the transverse axis of the lower conveyor relative to the horizontal plane is adjustable from 17 ° to 20 °. The belts are installed using adjusting screws relative to the horizontal plane so that the slots formed by these belts with the surface of the lower conveyor are 40 mm, 30 mm, 20 mm, respectively.

In this case, the potatoes are sorted into three fractions, the sizes of which:

more than 4 cm - coarse fraction (80 g or more);

3 ... 4 cm - middle fraction (50 ... 80 g);

2 ... 3 cm - middle fraction (25 ... 50 g).

Fixed strip 8 (figure 1) can be obtained by installing and securing on the working surface of the lower conveyor 2, in its front part, metal strips, for example, as in figure 2. The strips are made of galvanized sheet with a thickness of 0.65 mm and for ease of attachment are made of solid sheet. The package of strips is attached to the device frame with screws from the feed hopper and from the side of the driven drum of the lower conveyor.

Economic efficiency is expressed in increasing the accuracy of sorting, reducing the percentage of small tubers in large fractions

Claims (1)

A device for sorting round-shaped objects, such as potatoes, containing a feed hopper, a device for receiving and discharging sorting objects, two conveyors located at an angle to the horizontal in a transverse vertical plane one below the other to form a sorting slit wedge-shaped transverse to the sorted objects, moreover, the transverse axis of the lower conveyor is located at an angle of 17-20 ° and is connected to the axis of the upper conveyor by a flexible shaft, while the upper conveyor is adjustable angle of inclination of its longitudinal and transverse axes relative to the horizontal plane and consists of individual belts, and the edge closest to the feed hopper of the first of the belts is located at a distance of not less than the average tuber width of the coarse fraction increased by 10 mm from the horizontal conveyor edge transverse vertical plane, each subsequent belt is located from the other edge of the previous belt at a distance of not less than the average length of the tuber of the corresponding fraction, increased by 10 mm, and the edge of the last belt does not extend beyond the second edge of the lower conveyor, characterized in that on the lower conveyor under each belt of the upper conveyor there are fixed strips, the lower edges of which in the transverse vertical plane are installed at a distance of half the average tuber of the corresponding sortable fractions from the projection belt belts of the upper conveyor lower conveyor facing the feed hopper.

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