SU1073108A1 - Apparatus for delaminating mica crystals - Google Patents

Abstract

1. A DEVICE FOR SEPARATION OF CRYSTALS OF MICA, containing an explosive chamber with a lid and a vessel with a liquid installed in it, on the inner walls of which an explosive is placed, characterized in that, in order to improve the quality of the plates {5; the device is equipped with a box with a discharge hatch in the lower part of the side wall and a spring-loaded damper mounted on it with a lock of its position, and the bottom of the explosion chamber is hinged on the side wall and has a drive for its rotation, and an explosion and the camera is fixed to the upper wall of the box and the free ends of the bottom flaps and are in contact with each other. 2. A device according to claim 1, characterized in that the vessel is made in the form of a bag of polyethylene film. 3. The device according to claim 1, characterized in that the walls, the bottom of the explosion chamber and the side wall of the duct in the upper part are made with openings, and the openings in the side walls of the chamber and duct are offset one relative to another.

Description

The suggestion refers to the easy-to-swearing of the mother and child; - used in the mica industry). n: for the separation of crystals of mica, nanrnmer, industrial raw, as well as in any other industry where delamination is required from materials along cleavage planes.

The closest to the invention is: a device for separating mica crystals by blasting in a hydraulic medium, including a explosive chamber and a vessel with a liquid, on the inner walls of which explosive 1 is placed.

This device is characterized by a lack of quality nlastin mica.

The aim of the invention is to improve the quality of mica plates.

The goal is achieved by the fact that a device for separating mica crystals, containing an explosive chamber with a lid and a vessel with liquid installed in it, on the inner walls of which an explosive is placed, is provided with a duct with a discharge hatch in the lower part of the side wall and hinged on it spring-loaded damper with a lock its position, and the bottom of the explosion chamber is pivotally mounted on the side wall and has its rotational drive, and the explosion chamber is fixed on the upper wall of the box, and the freedoms s ends and bottom flaps are in contact with each other.

The vessel is made in the form of a bag of plastic film.

In addition, the walls, the bottom of the explosion chamber and the side wall of the duct in the upper part are made with openings, and the openings in the side walls of the chamber and the duct are offset one relative to another.

. FIG. I shows the proposed device for the separation of mica crystals, a longitudinal section; in fig. 2 is a longitudinal section through the blast chamber using a broom-bag made of polyethylene film and detonating cord; in fig. 3 — A-A in FIG. 2

The device contains a lifting winch 1, a duct 2 with a hinged opening hatch 3, an explosive chamber 4, where a vessel 5 with a liquid 6 is located, in which mica crystals 7 are oriented parallel to each other to planes of perfect cleavage, along the perimeter C () cy; ia 5 an explosive 8 with an explosive explosion 9 is placed, the explosive 8 being placed perpendicular to the crystal stratification planes. In the walls of the blast chamber 4 and the duct 2, the unplaced openings 10 and 11 are made. h | 1view 1 hatch 12 and bottom 13 s (gwerms 14 for the flow of liquid from the explosion, connected to a rotational drive in the form of a hydraulic cylinder 15. Box 2 is made with valve 16 with a possibility of mating it with bottom 13, which is connected to the wall of the box 2 by hinge 17 and spring 18, and also has an adjustable stop 19, duct 2 has a tray 20 located above the conveyor .21,

and a water collector 22. Such an arrangement of the device allows the crystals 7 to slide along when they are released from the explosion chamber 4 and avoids blows from each other.

The device works as follows.

The winch 1 opens the hatch 12 of the blasting chamber 4 and places in it a vessel 5 with liquid 6, crystals of mica 7 and an explosive 8 with an initiator of explosion 9. To reduce the time costs and

0 means for the production of an explosion, the vessel 5 is made of disposable material, for example, in the form of a bag 5, from a polyethylene film, and instead of an explosive there is a detonating cord 8, which is wrapped around the bag along its perimeter. Then, hatch 12 closes and an explosion occurs. As a result of the explosion-hydraulic strike, mica crystals 7 are stratified along perfect cleavage planes, while the plastic bag 5 is destroyed and the liquid 6 flows through the holes 14 into the water collector 22 of the box 2. It is necessary to note that as a force interaction on the end of the crystal 7 explosion-hydraulic shock the interaction of the hydrowaver with the mica crystal, as a result of which the breaking of the bonds between the planes of perfect cleavage occurs without destroying the longitudinal bonds (adhesion force between which two orders of magnitude greater than between perfect cleavage planes) in the mica crystals and thus delamination povysha.ets efficiency of perfect cleavage planes. Considering that the holes 10 of the explosion chamber 4 and the holes 11 of the walls

5 of box 2 is not combined, the shock wave and fragments of a destroyed vessel 5 do not have the possibility of direct exit to the external environment and are extinguished inside box 2. 2. Dehydrate mica crystals 7 using hyd1; cylinder 15 opens the bottom 13

0 blasting chamber 4 and the crystals are moved to the discharge opening. At this moment, when individual mica crystals begin to crawl from the plane of the bottom 13, it comes in contact with the gate 16, and the force effect of the bottom 13 on the gate 16 changes their angle of inclination until all the crystals 7 have completely disappeared into the tray 20, from where they are loaded with conveyor 21 in a container or mica processing shop. After that, by the reverse action of the hydraulic cylinder 15, the bottom 13 is closed, and the damper 16 returns to its initial position with the help of the spring 18 until the limiter 19.

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The use of iipe.i.ii-ir; ieMi ,,: () Oiict ..: allows you to stratify the cris::::,; .b: c.iivu without damage to the useful n ..,;, thereby changing the coefficient of Use mica raw materials and secure blasting operations.

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Claims (3)

1. DEVICE FOR LAYERING MICA CRYSTALS, containing an explosive chamber with a lid and a vessel with liquid installed in it, on whose inner walls an explosive is placed, characterized in that, in order to improve the quality of the plates Fig. 1 of mica, the device is equipped with a box with an unloading hatch in the lower part of the side wall and a spring-loaded shutter pivotally mounted on it with a lock of its position, and the bottom of the blasting chamber is pivotally mounted on the side wall and has a drive for its rotation, and the blasting chamber is mounted on the upper wall boxes, and the free ends of the bottom and the flaps are in contact 2. The device according to claim that the vessel is made of plastic film. 3. The device according to p. the fact that the walls, the bottom of the blasting chamber and the side wall of the box in the upper part are made with holes, and the holes in the side Walls of the chamber and the box are offset one from the other. between themselves. 1, characterized in the form of a bag of I, different i ('i ~; i () 8