SU1167134A1 - Arrangement for reloading loose materials - Google Patents

Abstract

1. A DEVICE FOR OVERLOADING OF OUR MATERIALS, containing a tank, fixed under it, made with the possibility of changing its length, and mounted on the lower end of the chamber, the cavity of which is connected to an aspiration system, characterized in that, in order to reduce the flow, an open bottom encircling the chamber and located coaxially with it, wherein the chamber is filled with openings in the upper part of the side walls to communicate its cavity with the cavity of the enclosure. 2. The device according to claim 1, characterized in that the descent is connected to the camera by means of a spring-loaded ring. (Ls

Description

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The invention relates to devices for reloading bulk materials, in particular dust, and can be used in construction, food, coal and other sectors of the national economy.

The purpose of the invention is to reduce dust generation. The drawing shows the proposed device, a general view.

The device for reloading materials consists of a telescopic tube-1, inside of which a loading tube 2 is installed, and a flange 3 is rigidly attached to the outside in the lower part, to which a ring 5 is hung on springs 4 of different stiffness 7, provided with a casing 8. In the walls of the chamber there are openings 9 for suctioning dust.

. To ensure tightness between the telescopic tube 1 and the spring-supported ring 5, an elastic gasket 10 is installed, for example, in the form of a corrugated pipe.

The flange 3 is provided with brackets 11, on which limit switches 12 and 13 are installed, and cables 14 are connected with a mechanical drive 16 via blocks 15. Limit switches 12 and 13 are connected to ring 5 via skis 17 and electrically connected (not shown) with a system for varying the lifting speed of the chamber 7. The telescopic tube 1 is rigidly fixed to the hull IS by the upper cylinder, which is provided with a container 19 with a shutter 20 and contains a cavity 21 for sucking dusty air.

The device works in the following way.

When the device is in the working position, the loaded bulk material, with the shutter 20 open, flows through the tank 19, the loading tube 2 into the chamber 7 to the bottom of the tank being loaded, and the drive is turned on

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16 to lift the chamber 7. The chamber 7 rises through a system of cables 14 and blocks 15 at a speed less than the speed of lifting the material loaded into it. As the material level increases, the force of its adhesion to the chamber walls increases, which leads to stretching of the springs 4 and to movement of the ring 5 relative to the flange 3 of the telescopic tube 1.

In this case, 17, moving with the ring 5, acts on the limit switches 13, from which the signal goes to the system for changing the speed of the camera's ascent. As the lifting speed of the chamber 7 increases, the level of the material being unloaded decreases, resulting in a decrease in the adhesive force between the material and the walls of the chamber. Thus, the load on the springs drops, they are compressed, lift the ring 5, while the ski 17 releases the end switch 13 and acts on the final switch 12, from which the signal enters the system for changing the camera's lifting speed to a smaller one. The material level in the chamber begins to rise, i.e. the cycle repeats. Thus, there is a periodic switching speed of the camera lifting without its separation from the surface of the loaded material.

Stopping the camera in the extreme upper and lower positions is done by limit switches (not shown). When material enters the chamber, the formed dust is captured by the upward air flow created by the suction air system.

Progress through the housing 8 ,. holes 9, made in the walls of the chamber 7, through the annular space formed between the telescopic tube and the loading tube, the heap air is exhausted in cavity 21

Claims (2)

1. DEVICE FOR RELOADING OF BULK MATERIALS, containing a container, a descent fixed under it, made with the possibility of changing its length, and a chamber mounted at the lower end of the descent, the cavity of which is in communication with the aspiration system, characterized in that, in order to reduce dust formation, it equipped with an open bottom casing covering the camera and coaxially located with it, while the camera is made with holes in the upper part of the side walls to communicate its cavity with the cavity of the casing. 2. The device according to claim 1, characterized in that the descent is connected to the camera via a spring-loaded ring. and · * "s 4* 1167