RU2119832C1 - Round article grading device - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has feed hopper, two conveyors arranged at an angle relative to horizon in cross-vertical plane, one under the other, to form wedge shaped grading slot across article travel. Cross axis of lower conveyor is arranged at an angle of 17-20 deg. Upper conveyor is installed for adjusting angles of inclination in longitudinal and cross axes relative to horizontal plane. Axles of rotation of upper and lower conveyor drums are connected by flexible shaft. Upper conveyor consists of separate belts. Edge of the first belt close to feed hopper is located at a distance not less than mean width of large fraction tuber increased by 10 mm, from edge of lower conveyor along horizontal in cross-vertical plane, and each following belt is arranged at a distance from other edge of preceding belt equal to mean length of tuber of corresponding fraction increased by 10 mm. Edge of last belt does not project beyond the limits of the second edge of lower conveyor. EFFECT: enhanced convenience in operation, possibility of visual checking, improved accuracy of grading. 1 dwg

Description

 The invention lags behind the sorting of round-shaped objects, such as potatoes.

 A device for sorting objects of a rounded shape, the sorting surface of which is composed of endless rubberized belts stretched fan-shaped. Positive in the operation of the device is that there is little damage to the potato tubers, even with a young, unripe peel. Potatoes arrive on the sorting surface at the beginning of the machine, where the gap between the cords is the smallest. As soon as the thickness of the tuber is equal to the width of the gap, it falls through it (Kalamin L.I. Machines for sorting potatoes., M. 1961, p. 16-17). The disadvantages of such machines include the fact that when the potatoes move on the sorting surface, seeds are still injured if their speed does not coincide with the speed of the conveyor; there is no clear division into fractions, especially when isolating seed tubers.

 There is also known a device for sorting round-shaped objects (a. S. USSR N 193914 "Installation for sorting balls", BI N 25 from 05/04/67), which includes a feed hopper, two conveyors located at an angle to the horizontal in the transverse vertical plane , one above the other with the formation of a sorting slit wedge-shaped, transverse to the course of the sorted objects, a device for receiving and removing the latter. Balls roll down the conveyor and fall into the wedge-shaped gap of two sorting conveyors. The smaller the diameter of the ball, the longer it rolls into a wedge-shaped gap corresponding in width to a given diameter of the ball, from where jammed balls are carried out by the conveyor movement and stacked in the appropriate compartments. Conveyor belts have synchronous and opposite movement.

 The disadvantages of this device include: unsuitability of the installation for sorting potato seeds of different varieties, sizes due to the fact that the installation angles of the sorting conveyors to the horizontal plane do not change and do not correspond to the rolling friction angles of the tubers; the complexity of manufacturing a gearbox for transmitting rotation from the lower conveyor to the upper.

 A device for sorting round-shaped objects, such as potatoes, is also known (positive decision on application N 94039521, publ. BI N 22, 1996, "Device for sorting round-shaped objects"), adopted as a prototype, which is a working surface with a wedge-shaped slit, located across the course of the sorted items and bounded below by a conveyor installed at an angle to the horizontal in the transverse vertical plane, a device for receiving and removing sorted potatoes.

The advantage of this device is that the lower conveyor is installed so that its transverse axis is located at an angle of 17 - 22 ^o C to the horizontal plane, which allows tubers to move along the conveyor by gravity after falling from the loading hopper, and the upper conveyor is mounted with the possibility of regulation angles of inclination of the longitudinal and transverse axes relative to the horizontal plane, which makes this installation suitable for high-quality separation into several fractions of different types of potato varieties, at ohm drum rotation axis of the lower and upper conveyors connected by a flexible shaft.

 The disadvantages of this device include: inconvenience in operation; the impossibility of visual control; the possibility of pinching tubers in the wedge gap in different orientations (the longitudinal axis of the tuber: a) coincides with the direction of movement; b) does not coincide with the direction of movement, but is located vertically or at some other angle), which leads to a decrease in the accuracy of sorting; injury to tubers during rolling along the conveyor as a result of prolonged and tight contact with conveyor belts.

These disadvantages can be eliminated using the proposed device, which, like the prototype, contains a feed hopper, two conveyors, located at an angle to the horizontal in a transverse vertical plane one below the other, with the formation of a sorting slit wedge-shaped transverse to the course of sorted objects, moreover the transverse axis of the lower conveyor is located at an angle of 17 - 20 ^o C, and the upper conveyor is installed with the ability to adjust the angles of inclination of its longitudinal and transverse axes, relative to the horizontal planes, a device for receiving and removing sorting objects. Unlike the prototype in the proposed device, the upper conveyor consists of separate belts, while the edge closest to the feed hopper of the first one is located at a distance not less than the average tuber of a large fraction, increased by 10 mm, from the edge of the lower conveyor horizontally in the transverse direction - a 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 edge of the last belt does not extend beyond the second edge lower conveyor.

 The number of belts is determined by the number of shared fractions. A margin of 10 mm is due to a variation in the size of the tubers from the average within this fraction. It is known that two tubers of the same variety of the same weight, but different in shape, differ from each other in thickness by almost a centimeter (Kalamin LI Machines for sorting potatoes. M., 1961, p. 8) .

 The width of the sorting slit is changed by adjusting the angle of inclination of the upper conveyor relative to the lower. Thus, the device can be easily tuned to any kind of potato and get a clear division into fractions.

 Replacing the upper conveyor belts can significantly reduce the contact area of the tubers with the working surfaces, which significantly reduces the injuries of the first.

 The presence of each feature individually in the device does not solve the task, and the combination of features allows you to follow the device, which is different from others and is currently unknown to the applicant. 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 shown in FIG. 1, where:
1 - receiving hopper or feed hopper;
2 - working surface of the lower conveyor;
3 - sorting belts;
4 - wedge gap;
5 - axis of rotation of the lower conveyor;
6 - axis of rotation of the upper conveyor;
7 - flexible shaft.

 The device operates as follows.

The potato is poured into the feed hopper 1, from where it enters the surface of the lower conveyor 2 into a wedge slot 4 located across the course of the sorted potato, sliding along the surface of the conveyor 2, set so that its transverse axis is at an angle of 17 - 22 ^o to the horizontal plane, tubers, the sizes of which exceed the size of the gap bounded by the belt that is the first to the hopper, move along the conveyors into the device for receiving and removing sorted potatoes (not shown in Fig.). Tubers smaller than the size of the sorted slit are rolled to the next belt, creating a smaller slit with the lower conveyor, and so on, to the very last fraction.

 The ability to adjust the angle of inclination of the transverse axis of the upper conveyor relative to the horizontal plane using the adjusting screws (not shown in Fig.) Allows you to sort different varieties of potatoes that differ in the size of the tubers (see table).

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 2994-67) and three V-belts C (B) (GOST 1284.2), for sorting tubers into three main fractions. The total surface size of the lower conveyor is 1500 x 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 22 ^o . 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 are: more than 4 cm - a large fraction (80 or more g);
3 - 4 cm - middle fraction (50 - 80 g);
2 - 3 cm - seed fraction (25 - 50 g).

Claims (1)

A device for sorting round-shaped items, such as potatoes, containing a feed hopper, two conveyors located at an angle to the horizontal in a transverse vertical plane, one below the other, with the formation of a wedge-shaped sorting slit, transverse to the course of the sorted items, and the transverse axis of the lower conveyor is located under angle of 17-20 ^o, and the upper conveyor is arranged to slope angles regulate its longitudinal and transverse axes relative to the horizontal plane and the axis of rotation of the drum the upper and lower conveyors are connected by a flexible shaft, a device for receiving and removing sorting objects, characterized in that the upper conveyor consists of separate belts, while the edge closest to the feed hopper of the first one is located at a distance not less than the average tuber of a large fraction, increased by 10 mm from the edge of the lower conveyor horizontally in the transverse vertical plane, and each subsequent belt is located from the other edge of the previous one at a distance equal to the average length of the tuber corresponding fraction increased by 10 mm, and the edge of the last belt does not extend beyond the second edge of the lower conveyor.

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