SU984939A1 - Apparatus for caving-in material bridging in a hopper - Google Patents

Description

(54) DEVICE FOR REDUCING MATERIAL IN BUNKERS

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The invention relates to devices for the demolition of material in bunkers and is intended for use in the mining, construction, chemical, food and other sectors of the national economy.

A device for destroying material in bunkers is known, comprising a container for compressed air with inlet and outlet nozzles, a cylinder with a piston embedded in the container, a valve connected to the piston rod and an outlet nozzle closed by valve 1.

The disadvantage of this device is the need for periodic supply of lubricant into the cavity of the cylinder, because otherwise the seizure of the piston in the cylinder.

It is also known a device for collapsing material in bins, containing a container with inlet and outlet nozzles for compressed air, a nozzle, a diaphragm with a rod and a valve installed at one end of the rod to block the nozzle opening, the inlet nozzle provided with a curved tube .

However, in the known device, the stroke of the valve, determined by the elastic deformations of a uniformly distributed load of compressed air on the diaphragm, is insufficient for free flow of compressed air from the nozzle. This leads to a decrease in the speed and mass of the air flow and, consequently, to a significant decrease in the pressure value of the shock pulse of the air jet from the nozzle and, consequently, to a decrease in the efficiency of the device on the material.

The purpose of the invention is to intensify the demolition process by reducing the time that the compressed air leaves the container.

In order to achieve this goal, the device for compressing material in bunkers, containing a container with inlet and outlet nozzles for compressed air, a nozzle, a diaphragm with a rod and a valve installed at one end of the rod to close the nozzle opening, is provided with a plate rigidly connected to the upper end of the rod and additional diaphragms installed one above the other on the rod, while the two adjacent diaphragms are interconnected by means of a shell and a ring to form a cavity, and the upper diaphragm is rigidly connected ene device with cover.

The drawing shows a device for the collapse of the material in the bins, a general view.

The device consists of a container 1, which is a hollow cylinder, on one side of which a cover 2 is installed, and on the other side a nozzle 3 blocked by a valve 4 with a sealing rubber washer 5. Guides 6 are installed to center the valve 4. Valve 4 is connected by a rod 7 convex plate 8, which, in turn, is connected to a set of diaphragms 9 deflected from its plane with central openings fastened together on the inner and outer edges, respectively, by means of rings 10 and shells 11, forming a reservoir 12. diaphragms secured to the cover 2, having an inlet 13 and outlet 14 pipes through the ring 10 or the sleeve P. For feeding compressed air into container 1 is provided an inlet pipe 15.

The device is installed in bunkers in which the formation of stable equilibrium arches with material sticking to the walls is most likely, directing the nozzle to the places where the pulsed impact of an air shock wave is necessary. The inlet pipes 13 and 15 are connected to the mains pneumatic network, and an electropneumatic valve (not shown) is installed on the exhaust pipe 14.

The device works as follows.

Before work, the exhaust pipe 14 is closed using an electropneumatic valve, and through the inlet pipe 15 and the inlet pipe 13 connected to it, compressed air is fed into the cavity of the tank 12 and into the tank 1. The diaphragms 9 under the action of compressed air bend and move the convex plate 8, the rod 7 and the valve 4, which presses the sealing ring 5 to the discharge neck of the nozzle 3.

The tank 1 is filled with compressed air to a pressure equal to the pressure of the overall pneumatic circuit. In this form, the device is prepared to operate.

If it is necessary to clean the chute or the bunker, they include an electropneumatic valve, which, when opened, abruptly releases compressed air through the outlet 14 from the cavity of the tank 12 into the atmosphere. The compressed air in the tank 1 deforms the diaphragms 9, which, when moved, act on the convex plate 8, the rod 7 and the valve 4, and open the latter. To open valve 4, it is necessary that the area; each area of each diaphragm is.). 1s the area of the neck section of the nozzle 3, covered by a sealing rubber washer 5.

The longitudinally compressed reservoir 12 of the fastened diaphragms is sharp and at a sufficient distance.

from the neck of the nozzle 3 moves the valve 4, providing free flow of compressed air from the tank 1 through the nozzle 3. The compressed air contained in the tank 1 rushes into the nozzle 3, forming a shock air

A wave that escapes from the nozzle has a devastating effect on the material in chutes and bunkers. Simultaneously with the pressure drop in the tank 1, compressed air flows from the pneumatic network through the inlet pipe 15 and through the inlet pipe 13 into the cavity of the tank 12. direction, shut off by valve 4 throat of the nozzle 3. Capacity 1

filled with compressed air and air-impulse, the device is prepared for the next cycle.

The proposed device makes it possible to reduce the process ЕЕ) by 2-2.5 times. The compressed air is launched from the tank and thereby increase the speed and mass of the air flow from the nozzle. This leads to a sharp increase in the kinetic energy of the air wave movement and, consequently, to an increase in air pressure on the object being processed, significantly increasing the efficiency of the device at the same accumulated potential energy of the compressed air.

Claims (2)

1.Daskaziev A.G. and others. Pneumo-pulse method of eliminating ore suspension in capital ore passes on Zyrnovsky 5 Lead Plant - “Mining Journal 1975, No. 9, p. 56-57. 2. USSR author's certificate No. 212894, cl. E 2G C 37/14, 1974 (prototype). ten