SU764749A1 - Centrifugal sorting arrangement - Google Patents

Description

The invention relates to the field of sorting solid materials using centrifugal force and can be used in the fishing industry for sorting shrimp, krill, small fish, in the agricultural industry for sorting legumes and cereals, in the food industry and other industries, where need to sort bodies of small size with an uneven surface. A device for sorting fish is known, which includes a disk mounted on a vertical shaft, with a working body made up of a tonical shape for even distribution of fish loading and unloading devices 1G | . The disadvantage of this device lies in the poor performance and quality of the separation. The closest to the invention in technical essence and the achieved result is a device for separating powders, comprising a housing with a loading device located in the upper part of the housing, a shaft with rotom equipped with inclined nozzles, a working body, a discharge device 2. The starting material is divided ONLY into two fractions: into particles. indefinite and spherical shape. Placing the feed hopper in the center of the rotor cannot ensure uniform penetration of particles of the material into the nozzles, which affects the quality of the sortable fractions. The purpose of the invention is the intensification of the sorting process. This is achieved by the fact that the working body is made in the form of cone-shaped partitions and is equipped with: a device for rotating the working body, made as a set of flat belts covering the working body in an arc of 270 °, and closing the gaps between the conical partitions, moreover, the inclined nozzles are slotted and equipped with adjustment plates, and the loading device is made in the form of a bunker with a bottom-bottom and hoppers,

764749

connected through a shaft with bunkerm. I

FIG. 1 shows a kinematic diagram of a centrifugal sorting device; in fig. 2 shows a proposed longitudinal section of the device; in fig. 3 is the same cross section in FIG. 4 is a schematic diagram of the operation of the device. Center:) The bean sorting device contains a drive shaft 1 with a rotor 2 fixed to it, equipped with inclined nozzles 3, receiving device 4, unloading internal trays 5, working body b in the form of a set of conical partitions 7 equipped with flat belts 8 by the number of conical partitions, covering the working body along a circular arc of 270, closing the gaps between the partitions 7. The conical partitions 7 are installed one from the other at the distance of the corresponding sorted fraction using spacers 9, Around the periphery of the conical. Partitions. At the bottom of the partitions 7 of the working body 6, a ring 10 is fixed, by means of which the working body rotates on four support rollers 11 located on the frame platform 12. The working body by means of a block of pulleys: leading 13, tension. 14 and four guides 15, located on the frame plate 12, are covered with flat belts 8 along an arc of a circle equal to. The conical bulkheads 7 have peripheral rims 16 for holding flat straps 8.

The rotor 2 consists of a cylindrical part 17, around which the nozzles 3 are fixed evenly at an angle to the direction of rotation. Inclined partitions 18 are located inside the cylindrical part 17, corresponding in number to the number of nozzles 3. The nozzles 3 have slots along the entire length, symmetrically concealed on both sides by regulators plates, 19, forming sorting slots, gradually expanding down the bottom, in the area of the separating slots between the nozzles are fixed a number of cutters 20.

The receiving device 4 is made in the form of a bunker 21 with a bottom in the form of an inclined grid 22, which is pivotally attached to the rear wall of the bunker 21 with its upper end part and connected to the HbJM shaft 1 through the fork 23 and bearing support 24 symmetrically under the inclined grid 22 in relation to the drive shaft 1, they are fastened with the help of krnsteins of the funnels 25 and 26. Use the shaft B of the pulley 27, installed on the upper end of the shaft of the electric motor 28, through the belt 29, the gear 30 and the flat gear 8 transfer. From the pulley 31 mounted on the lower end of the shaft of the same electric motor, with the aid of a wedge-transfer gear 32, the rotation is transmitted to the drive shaft 1 and mounted on the rotor 2. The rotor 2f, in addition to the rotational movement, also performs a rotational motion. The directional oscillations are transmitted through bearings to the forging support 33 from the electromechanical vibrator 34 by means of two guides 35 and a shock absorber 36. From the drive shaft 1 through the bearing support 4 and the fork 23, oscillatory motion is simultaneously transmitted in the inclined grid 22.

In order to avoid mechanical damage to the raw material during the sorting process into fractions, the working flange and the rotor rotate one way, and the rotor rotates several times faster than the working member. The raw material (krill, shrimp, grain) moves along a conical surface formed by the rotation of the sorting nozzles the rotor, with the raw material moving on this surface from top to bottom under the action of inertial forces and gravitational forces. In this case, Coriolis inertia and drag forces are also involved.

Thus, centrifugal, gravity and vibration forces are used both to move the raw material along the sorting slits and to separate the flow fraction. Moreover, under the action of centrifugal force, the raw material is pressed tightly against the surface of the slots, and this force imparts the acceleration to the raw material, thereby increasing the accuracy of the passing fraction.

Sorting of krill, shrimp, small fish and other raw materials is carried out as follows.

The raw material to be sorted by gravity or by a conveyor enters the bunker 21, from where it enters the inclined grid 22 and through it into the loading funnels 25 and 26. Larger raw materials are transported out of the device through the inclined cacadeca 22. With the help of funnels 25 and 26, the raw material is evenly distributed in the cylindrical part 17 of the rotor 2. When the rotor 2 rotates, the raw material by centrifugal force slides rapidly along the bulkheads 18, enters the nozzles 3, then, moving along the surface of the adjustment plates 19, the nozzles 3 , gradually expanding in the direction of movement of the raw material, i.e. from the bottom, it is divided into fractions, the last of which will go along nozzles 3. The isolated fractions are caught by conical partitions 7 of the working organ. b. In this case, the actuators 20 separate the flow

raw materials in front of horse partitions, thereby preventing mechanical damage to the raw materials.

The angle of taper of the conical partitions 45 also provides braking to the periphery of the moving sorted raw material.

The working body b, rotating during operation: devices with a speed,: a significantly lower rotor speed, ensures the removal of raw materials sorted in fractions by discharge chutes 5. Trays 5 are installed in the places of conical partitions of the working body not covered by flat belts 8.

During rotation of the rotor, vibrations of the sub-support support 33 are transmitted from the vibrator 34, due to which the shaft 1 performs vertical oscillations transmitted through the bearing support 24 to the fork 23, which causes the inclined grating 22 to vibrate. As a result of the vibrations, the raw materials coming from the hopper are separated and more evenly distributed into the feed funnels 25 and 26. The rotor vibrates with the shaft 1, so the raw material is evenly distributed along the inclined nozzles, since the sticking forces are disturbed by vibration and are provided by higher quality sorting.

The use of this device makes it possible to completely eliminate manual labor in the very laborious operations of sorting small objects, in particular krill / shrimp.

Formula

the invention

Claims (2)

1. A centrifugal sorting device, including a housing with a loading device placed in the upper part of the body, a shaft with a rotor equipped with inclined nozzles, a working body, a discharge device, characterized in that, in order to intensify the sorting process, the working body is made cone-shaped partitions and is equipped with a device for rotation of the working body, made in the form of a set of flat belt covering the working body along the arc 5 equal to 270, and the overlapping gaps between the conical partitions. 2. A device according to claim 1, characterized in that the inclined patras (3s are made with slots and 0 equipped with adjustment plates. 3. The device according to PP.1 and 2, that is, with the fact that the loading device was made in the form of a bunker with a grate bottom and a loading device. 5 funnels connected via a shaft to a hopper. Sources of information taken into account in the examination thirty 1. USSR author's certificate No. 552058, cl. A 22 C 25/04, 01/17/75, 2. Authors certificate of USSR I 408674, cl. B 07 B 7/08, 15.03.72. (prototype).