RU2645321C1 - Method for separation of loose materials - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: method for separation of loose materials includes feeding separated material onto an inclined endless belt, transporting the material by the belt, material separation into fractions and removing the separated material to appropriate receiver tanks. The transportation and separation of the separated material is carried out at least at two additional levels of inclined endless belts. At each level, the separated material, due to the inclination of the surface of the endless belt, is simultaneously stirred up and moved to the splitters mounted at the bottom of each belt at an angle to the direction of movement of the material to be separated. At each level a part of the separated material, which does not exceed the dimensions of the belt seatings, identifying the size of the separated fraction, is separated from the main stream, captured and removed to the appropriate receiver tanks, and the remaining part of the separated material is directed to the next separation level using trays. The seatings on the endless belts are made of dimensions, which are equal to 0.3-1.2 of the diameter of the material being sorted, while on each subsequent inclined endless belt the seatings are greater in size, than the previous seatings by 20-50%. The seatings on the inclined endless belts are made round, or in the form of elongated ovals. The angle of inclination of an endless belt is equal to 35-75 degrees to the horizon.

EFFECT: increasing the efficiency of the separation of particles of loose materials into several fractions, increasing the separation efficiency and increasing the yield of finished products.

4 cl, 5 dwg

Description

The invention relates to the field of technology for the separation of bulk materials and can be used in agriculture for sorting grain, in the construction and chemical industries.

A known separator and its separation method, including installed one inside the other conveyors in the form of perforated tapes located on the drums, a loading hopper, receivers of separation products (see RF patent No. 2148440, M.cl. B07B 1/10). The perforations of the tapes are made of the same size, and the upper branches of the external and internal conveyors are mounted on top of each other with an offset equal to half the pitch of the perforation of the tapes, the tapes being installed with the possibility of bending around the common drive drum located under the loading hopper. All drums are installed with the same offset in one direction of the axes of rotation from the central axes of the drums. The tapes are driven into oscillation due to the drums, which are made with offset shafts, respectively.

The upper branch of the tape lies directly on the upper branch of another tape, due to which the holes through which the material will be sieved will decrease. Moreover, the displacement of the tapes relative to each other is equal to half the pitch of the perforations. This contributes to the formation of holes of the same size when applying tapes to each other. Small particles are sifted through the perforations of the tapes and enter the receiver of small particles, medium particles fall into another receiver, and large ones into the third receiver. The invention, according to the authors, improves the efficiency of the separation process by increasing the sifting of small particles.

The disadvantages of the known technological process of separation include its low technological capabilities, which consist only in separating the limited particle size of the sifted material from each other, as well as damage to the sifted material, for example, seeds trapped between two moving belts.

Known methods and devices for the separation of bulk materials containing perforated surfaces, a hopper and receivers of separation products (see Voronov I.G., Kozhukhovskiy I.E. et al. Cleaning and sorting of seeds. - M.: State Publishing House, 1959, p. . 582).

The main disadvantage of the known devices is the low efficiency of the separation process due to clogging of perforations with passage particles.

The closest process to the function and the achieved result to the claimed technical solution for the totality of signs is the technology of separation of materials according to the patent of the Russian Federation No. 2275255 - prototype, M.cl. B07B 4/08, B07B 13/065. The separator performing the separation process contains an endless breathable drive belt, a feed hopper and receivers of separation products, the separator is equipped with an additional endless tape with holes, inside which the drive tape is located so that the upper parts of the tapes are mounted on top of each other and at an angle to the horizontal, and the endless breathable drive belt is provided with an air intake located between its branches. The holes of the additional tape are made round, and the diameter of the holes is greater than the thickness of the tape, and the loading hopper is arranged to move vertically and horizontally. A brush cutter is installed above the upper branch of the additional tape, and a receiver of long particles is located in the lower part of the tape. Bulk material from the feed hopper is fed to the upper branch of the tape. Short particles under the influence of their own weight and air flow fall into the holes (cells) of the tape. Long particles along the upper branch of the tape move down and fall into the receivers of long particles. Some long particles stuck to the holes of the tape are cut off with a brush cutter. Short particles are carried away by tape and enter short particle receivers. The location of the breathable tape inside an additional endless tape with holes with the superposition of the upper branches of the tapes on top of each other allows you to form cells by which the particles can be divided according to length.

The disadvantages of the known method of separation of the prototype include low technological capabilities, consisting in the impossibility of separating partially injured particles, for example seeds, which can later be used as feed for livestock, as well as in poor separation of the separated material into only two fractions.

The technical result of the invention is to increase the efficiency of separation of particles of bulk materials into several fractions, as well as an increase in separation performance and increase the yield of finished products.

The specified technical result in the implementation of the proposed method is achieved by using a combination of well-known features common with the prototype, including feeding the separated material to an endless inclined tape, moving the material with tape, separating the material into fractions and taking the separated material to the appropriate receivers and new features, namely the separation and separation of the material to be separated by the tape is carried out at least at two levels of inclined infinite t, on which the separated material due to the inclination of the surface of the endless tape is simultaneously tedged and shifted to the cutters mounted in the lower part of each tape at an angle to the direction of movement of the separated material, with at each level a part of the separated material not exceeding the dimensions of the nests made in the tape, determining the size of the separated fraction, separated from the main stream, capture and divert to the appropriate receivers, and the remaining part of the stream of separated material using trays n layers control to the next level of separation.

Nests on endless ribbons are made with sizes equal to 0.3-1.2 diameters of the material to be sorted, while on each subsequent inclined endless ribbon, nests are larger than the previous nests by 20-50% in size.

Nests on inclined endless ribbons are made round, or in the form of elongated ovals.

The angle of the endless ribbons is equal to 35-75 degrees to the horizon.

The novelty of the proposed method is the movement and separation of the separated material by tape, at least on two levels of inclined endless tapes, on which the separated material due to the inclination of the surface of the endless tape is simultaneously agitated and shifted to the cutters mounted in the lower part of each tape at an angle to the direction of movement material to be separated, with at each level a part of the material being separated that does not exceed the dimensions of the nests made in the tape, which determine the size of the separated fra tion, separated from the main stream is gripped and withdrawn in the respective receivers, and the remaining part of the flow of the separated material using the trays routed to the next level of separation.

Thus, the separation of the material to be separated by tape at least at two levels of inclined endless tapes allows, in the presence of several additional inclined endless tapes, sequentially starting from a smaller size due to the nests in the tape of different sizes to separate the separated material into several fractions, to carry out high-quality material separation with given particle sizes and determine which separated product can be used and which should be disposed of.

Using the slope of the endless tapes and repeatedly tedding and shifting the separated material to the cutters mounted in the lower part of each tape at an angle to the direction of movement, high-quality material separation is achieved, which increases the yield of products.

Using the successive capture at each level by the slots of the tapes of a given part of the separated material and its separation from the main stream with the outlet to the respective receivers, it is possible to carry out complete separation with the separation of the stream of separated material into predetermined fractions.

Signs of making nests on endless ribbons with sizes equal to 0.3-1.2 of the diameter of the sorted material, while on each subsequent inclined endless tape, the nests are larger than the previous nests by 20-50%, round or in the form of elongated ovals with the angle of inclination of endless ribbons equal to 35-75 degrees to the horizon, are additional signs aimed at achieving the technical result.

Comparison of the claimed technical solution with the prototype, as well as with the prior art according to the sources of scientific, technical and patent information, made it possible to establish the absence of a combination of the features of the technical solution proposed as an invention, which makes it possible to attribute the claimed method to the “novelty” criterion.

The invention meets the condition of "inventive step", since the prior art has not revealed technical solutions that completely coincide with the totality of the proposed features.

The description of the operation of the proposed separator and the possibility of manufacturing each of the features of the invention allows to conclude that it is industrially applicable.

Below are the graphic materials of the separator and its elements by which the proposed method is carried out.

In FIG. 1 is a schematic side view of a separator.

In FIG. 2 shows a tape (view of the tape from above) with round and oblong shaped sockets made therein.

In FIG. 3 schematically shows the various sizes of round and oblong nests made in the tape.

In FIG. 4 schematically shows four levels of endless ribbons in which each subsequent level is offset from the previous level to the side.

In FIG. 5 schematically shows four levels of endless ribbons in which each subsequent level of ribbons is set below the previous level.

In agriculture, the need often arises to separate the seeds of various crops into several fractions, some of which can subsequently go to livestock feed or for processing, for example, grain crumbs, damaged grains or intact, seed material.

The separator, by means of which the proposed method for the separation of bulk materials is carried out, contains a feed hopper 1, under which, on drums 2 and 3, one of which is connected to the drive, the first endless inclined tape 4. A few more are mounted below the drums 2 and 3 and tape 4 levels of inclined endless tapes with similar drums, the number of which can be three, and four, and five, or more, depending on the requirements for separation. At the output of the separated products from each level, receiving channels 5, 6, 7, 8 are mounted. Large particles that exceed the size of the nests in the tapes are discharged using channel 9. At the lower edge of each inclined endless tape, guide cutters 10 are mounted at an angle to the direction of movement of the tape At the same time, the guiding cut-offs 10 at each subsequent level of the endless tapes are installed at a different opposite angle, providing for the displacement of partially separated products to the other side. Transfer of the separated material from one level of endless ribbons to another is carried out using trays 11. The nests in the body of the ribbons, depending on the shape of the material to be sorted, can be round 12 or oval 13, and depending on the size of the separated material they can be 0.3- 1.2 particle diameter of the material. To prevent the delay of small fractions of material in the slots 12, 13 of the endless belt 4, a shaker 14 is mounted under the upper branch of each belt. An aspiration device 15 is mounted in front of the hopper 1 to remove dust. Arrows 16, 17 and 18 show the material moving and rolling along it inclined surface.

The proposed method for the separation of bulk materials is as follows.

The source bulk material, for example wheat, from the hopper 1 enters the upper surface branch obliquely at an angle, for example, 60 ° to the horizon, located endless belt 4, which tends to move the separated material up. Drives (not shown) of all endless tapes provide clockwise rotation of the drive shafts and upward separation of the material to be separated. Since the separated material is loose, and the endless tape can be inclined to the horizon at an angle of 35-75 degrees, depending on the separated product, the latter tends to shift (slide) down the tape to the guide cutter installed at an angle to the direction of movement of the tape 10. Gradually after repeatedly lifting the tape and rolling the material to the guide cutter 10, the separated material due to the inclination of the cutter gradually moves to the edge of the endless tape 4 and is fed through the tray 11 on the track level of separation. The nests in the tape of the first level are made with minimal dimensions, capturing small particles of material and small particles of litter trapped in wheat, which are discharged through a channel 5 into a separate container. Gradually, as the belt moves, the separated material after rolling moves to the edge of the cutter 10 and is transferred to the second level from the bottom of the endless belts through the tray 11. In the tape of the second level, the nests are made larger than the nests on the first level, for example, 0.5 the size of the sorted wheat grains. When an endless ribbon of the second level moves upward, half of the wheat grains fall into the nests of the ribbon, rise up with the ribbon and feed to channel 6, which also transfers them to a separate container. The same separation mechanism is carried out at subsequent levels. At the same time, at the last level of infinite inclined belts by the guiding cutter 10, large wastes exceeding the size of the separated material by a predetermined amount are removed from the tape by the guiding cutter 10 and are sent to the waste container through the tray 9, and suitable and undamaged wheat grains through the channel 8 are sent to the finished container suitable products. If it is necessary to remove particles of separated material stuck in the nests of endless strips, the shaker 14 is periodically turned on, and in case of excess dust in the starting material, the suction device 15 is turned on.

A specific example of the proposed method.

The bulk material, for example, buckwheat, was fed from the hopper 1 onto the surface of the upper branch, inclined at an angle of 65 ° to the horizon of the endless belt 4, while the buckwheat grains partially moved upward and rolled down to the guiding cutter 10. In the nests of the tape with sizes equal to 0.3 of the largest grain size of buckwheat, small waste particles and small grain waste fell. Gradually, after repeatedly lifting the tape and rolling the buckwheat grains to the guide cutter 10, the separated material due to the tilt of the cutter gradually moved to the edge of the endless tape 4 and was fed through the tray 11 to the next second separation level. The nests in the tape of the second separation level are made with dimensions that capture the injured particles of buckwheat grains, which in size were equal to 0.5 of the maximum grain size. Particles of buckwheat grain that got into the nests of the second level from the nests of the tape were fed into channel 6 and discharged into a separate container with products that can be used for livestock feed. In the tape of the third level, the nests are made larger than the nests in the first and second levels, equal to 0.8 the size of the sorted buckwheat grains. When the endless third-level tape moves upward, partially damaged buckwheat grains fall into the nests of the tape, rise up with the tape and are fed to channel 7, which transferred them to a separate container. The same separation mechanism was carried out at the last level of tapes. In this case, at the last level of infinite inclined tapes with a guiding cutter 10, large wastes exceeding the size of the separated buckwheat grain material by a predetermined value of 1.1 of the maximum grain size were removed from the tape with a guiding cutter 10 and sent to the waste container through the tray 9, and suitable and Intact wheat grains through channel 8 were sent to the finished finished product capacity. During the implementation of the proposed method for the removal of particles of separated material stuck in the nests of the endless belts, shakers 14 were turned on periodically every 10 minutes of operation. There was no dust in the sorted buckwheat grains and the suction device 15 was not turned on.

The use of the inventive separator can improve the technological capabilities of the separator, increase the efficiency of the separation process through the use of several levels of separation with the sequential separation of various fractions of the separated material and increase the yield.

Currently, the author is developing technical documentation, after which work will be carried out on the manufacture of the proposed separator.

Claims (4)

1. The method of separation of bulk materials, including feeding the separated material to an infinite inclined tape, moving the tape material, separating the material into fractions and removing the separated material to the respective receivers, characterized in that the separation and separation of the separated material is carried out at least in two additional levels of inclined endless tapes, at each of which the material being separated due to the inclination of the surface of the endless tape is simultaneously agitated and shifted to cutters mounted in the lower part of each tape at an angle to the direction of movement of the separated material, while at each level a part of the separated material, not exceeding the dimensions of the nests in the tape, determining the size of the separated fraction, is separated from the main stream, captured and taken to the appropriate receivers, and the remainder of the flow of separated material by means of trays is sent to the next level of separation. 2. The method according to p. 1, characterized in that the nests on the endless ribbons are performed with sizes equal to 0.3-1.2 of the diameter of the sorted material, while on each subsequent inclined endless tape the nests are larger in size than the previous nests by 20 -fifty%. 3. The method according to p. 1, characterized in that the nests on inclined endless ribbons are made round or in the form of elongated ovals. 4. The method according to p. 1, characterized in that the angle of inclination of the endless ribbons is equal to 35-75 degrees to the horizon.

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