SU1049256A1 - Flow line for slicing and classifying mica crystals - Google Patents

Abstract

A FLOWING LINE FOR DIFFERENTIFICATION AND;, MORTIC CRYSTAL ROTTING; an inclined chute, located at the lower end above the feeding chute, about t l and -h, so that, in order to increase the efficiency of the solution, it is equipped with a drive perforated sloping tape with vacuum and p evmaticheskoy chambers with nozzles, an additional crash-elevator with the discharge hopper installed behind the main crash, and additional traysporterom positioned under one end of the discharge chute and; the other is above the discharge hopper: the perforated tape is placed at the upper end of the main screen of the main elevator, and the lower end of the additional screen of the elevator, in the upper part of which is located the upper end of the discharge tray . perforated tape. 4 o eat a

Description

The invention relates to the treatment of easily dissolving materials and can be used in the spy industry, which disperse and sort the curved spruce 1, for example, rich industrial and raw materials, as well as in any other industry where materials are required along cleavage planes with subsequent sorting according to this. The most blissful technical solution to the offer is a flow line for unfolding and sorting cryo-tannoB mica, containing a conveyor, an inclined feed tray installed under it, and an accelerating device, a screen-elevator with a discharge tray, and a plate placed inside the screen-elevator As well as a diverting non-axial tray, located at the lower end above the feeding tray Cl. However, the known device is characterized by insufficient separation efficiency. The chain of the invention is to increase the efficiency of exfoliation. This goal is achieved by the fact that the flow line for splitting and sorting mica crystals, containing a conveyor, an inclined feeding tray installed under it, an accelerating device, a screen elevator with a discharge tray and a baffle plate placed inside the screen elevator, as well as a tap The inclined chute, located at the lower end above the feeding chute, is provided with a driving perforated sloping tape with under and above respectively vacuum and pneumatic chambers with nozzles, an additional roping epevatory with discharge hopper installed behind the main screen, and an additional conveyor located at one end below the discharge hopper and the other above the discharge bunker, with the perforated tape at the top of the main screen of the main screen and the lower one at the bottom part of the additional screen of the elevator, in the upper part of which the upper end of the discharge tray is located, at. This nozzle pneumatic chamber are parallel to the plane of the perforated tape. FIG. 1 shows a straight line general view; in fig. 2 shows a part of a perforated conveyor belt with air nozzles installed along its side edges and a restrictive wall, type A in FIG. 1. An in-line pini for arranging and sorting mica crystals consists of conveyor 1, which is fed inclined. Tray 2, the lower end of which is adjacent to the line of contact of the wads of the accelerating device 3. Perpendicular to the plane of the mica crystal throwing, there is a selector plate 4 located on the inside of the screen of the elevator 5, in the upper part of which the drive perforated inclined strip 6 is placed, and below it an additional conveyor 7 is located. The end of the inclined belt B comes into the lower part of the additional screen of the elevator 8. Under the belt 6 there is a vacuum chamber 9 with a fan 1O, and along the side edges of the penta 6 there is an air Smart nozzles 11, pneumatic chambers 1.2, and also a restrictive wall 13 made of soft elastic material, under which the collecting tray 14 is located. Under the additional gro. The hopper elevator 8 houses a discharge bunker 15, and a discharge chute 16 is connected to the upper part of screen 8, the lower end of which is located above the feeding chute 2. Continuous milling works to separate the mica and sort the mica as follows. The mica crystals 17 to be layered and sorted are using the conveyor 1 and the feed inclined chute 2 are moved to the line of contact of the shafts of the accelerating device 3; The two-sided elastic contact of the shafts of the accelerating device 3 with the mica crystals 17 allows the crystals to be directed from high speed in the direction of the fender plate 4. As a result of hitting the plate 4, the crystals are stratified into several parts and fall into the lower part of the screen of the elevator 5. Part of the mica plates falls through the classifying slots: screen of the elevator 5 and falls on the additional conveyor 7, moving Connect them to the discharge hopper 15. The bulk of the thicker plates, most of which are loose loosely bound formations, rises into the upper part of the screen of the elevator and falls onto the perforated sloping l 6. NTU getting into the vacuum zone created by the vacuum chamber 9 with the fan 10 ,, mica plate prisasyvayuts ribbon 6 and subjected to directed jets; compressed air flowing out of high speed from nope 11 and pneumatic chambers 12. In the re-action of compressed air jets, the weakly connected disintegrated formations are divided into parts and the limiting wall 13 is guided by a cd collecting tray 14, which rolls down to the bottom of the screen. -elevator. 8. The bulk of the mica falls through the standardized slits of the screen 8 into the discharge bin 15, from which it is subsequently withdrawn for 564 blowing process operations (chips, chips, etc.). The plates, well-preserved after impact and pneumatic blasting, which are larger than the classifying slots of the additional screen-elevator, are dumped in the upper part of the screen onto the discharge tray 16, through which, through the supply tray 2, are again mixed to the line of contact of the shafts of the accelerator 3; The annual economic effect from the use of the proposed device is 362.9 thousand rubles.

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Type A

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Claims (1)

A FLOW LINE FOR RACES “VILLAIN AND -. SORTING OF MICA CRYSTALS, containing a conveyor, a feed inclined i stream and an accelerating device installed underneath it, a screen elevator with an unloading tray, and a breaker board located inside ^; at the screen-elevator, as well as the outlet inclined stream located by the lower condom above the feed tray, about t p and "h. characterized in that, with a chain for increasing the separation efficiency, it is equipped with a driven perforated inclined belt with vacuum and pneumatic chambers with nozzles located below and above it, an additional screen-elevator with an unloading hopper installed behind the main screen, and an additional conveyor located one the end under the discharge chute, and the other above the discharge hopper, with a perforated penta. The upper end is placed on the top of the main screen-elevator, and the lower in the lower part of the additional screening elevator, in the upper part of which the upper end of the discharge tray is located, while the nozzles of the pneumatic chamber are parallel to the plane of the perforated tape. SU .. „1049256 1 1049256 2