SU1723000A1 - Method for unloading friable material from container into pneumatic chamber pump - Google Patents

Abstract

This invention relates to a pneumatic transport. The purpose of the invention is to increase the reliability of the operation by breaking the bulk material vaults by the fact that in the method of unloading bulk material from the tank to the pneumo-chamber pump, which consists in opening the pump loading valve and the air supply valve, compressed air is fed through the air supply valve in a pulsed manner under a pressure of 4-6 kgf / cm2 before the outflow of material from the tank to the pump begins, then the air supply valve is closed. 1 il.

Description

The invention relates to pneumatic transport, and in particular to methods for unloading bulk material from containers, and can be used in pneumatic conveying systems for bulk materials in the building, chemical and other industries.

Methods are known for unloading bulk material with the help of aerial tracks, the aerial floor, which consist in passing fine compressed air through a layer of powdered material located on a microporous septum. In this case, the mutual contact of individual particles of the bulk material is disturbed and, as a result of aeration, it acquires a flow property.

It is also known a device that implements a method for unloading bulk material from a tank into a pneumatic chamber pump.

the opening of the pump loading valve and the air supply valve,

The disadvantage of this method is the low reliability of operation due to the fact that the bulk material that is in the tank, during storage, is compressed, forming dense arches. This involves using various boosters to aerate the compacted material and to give it fluidity when filling the pneumochamber pump.

The aim of the invention is to increase the reliability of operation by breaking down the bulk material vaults.

This goal is achieved in that according to the method of unloading bulk material from the tank into a pneumatic chamber pump, which involves opening the pump loading valve and the air supply valve, the loading valve and the air supply valve open simultaneously, while the compressed air is fed through the valve

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air supply is pulsed under pressure of 4-6 kgf / cm before the outflow of material from the tank to the pump begins, then the air supply valve is closed.

Methods are known in which various kinds of boosters, including pneumatic ones, are used to impart fluidity and fracture of the arches of the compacted material. In the implementation of such methods, compressed air is introduced into the compacted bulk material in the vessel through various reservoirs, overhead elements, and nozzles mounted on the vessel. These devices are difficult to operate, as they are installed inside the tank, and therefore their replacement and repair is considerably difficult.

The simultaneous opening of the charging valve and the air supply valve, through which the compressed air is pulsed under a pressure of 4-6 kgf / cm, allows the compressed air to instantly fill the body of the pneumo-chamber pump, and the excess to penetrate through the open loading valve to the bottom of the tank. At the same time, the arch of compressed bulk material located in the lower part of the tank experiences a significant impact of compressed air, which impulsively penetrates through leaks in the bulk material, breaks the contact between the particles of the material and loosens it, giving fluidity properties.

In the known method, alternate closing and opening of all valves occurs, namely, before starting the loading, the loading valve is opened and the pneumatic chamber pump is filled with bulk material, then the loading valve is closed and the compressed air supply valve is opened, which transports the bulk material into the pipeline under the pressure differential. However, in the case of caking of the bulk material in the tank, when the loading valve is opened, the bulk material does not get into the pneumochamber pump. Then, for its collapse, the use of other aerating devices (nozzles, overlay elements, etc.) is required, which reduces the loading efficiency of the pneumatic chamber pump by 30-50%.

The drawing shows a pneumatic chamber pump carrying out the proposed method, a general view.

The pneumatic chamber pump includes a vertically mounted housing 1 containing a loading opening 2 with a loading

valve 3, valve 4 air supply and discharge pipe 5.

Above the pneumochamber pump there is a tank 6 with a bulk material, which

tightly connected to the inlet 2,

The method is carried out as follows.

The loading valve 3 of the loading opening 2 is opened and at the same time the compressed air is supplied through the valve 4. The compressed air is supplied in a pulsed manner.

Due to the pulsed flow and pressure, the compressed air instantly fills the casing 1 of the pneumatic chamber pump, and its excess rushes through the open loading valve 3 to the lower part of the tank 6. At the same time, the arch of the compacted bulk

The material in the lower part of the container 6 experiences a significant impact of compressed air, which penetrates through the leaks in the bulk material, breaks the contact between the particles

and loosens it, giving fluidity properties.

The aerated bulk material flows out through the filling opening 2 into the casing 1 of the pneumatic chamber pump.

Upon reaching a predetermined level of bulk material in the housing 1, the loading valve 3 is closed and the compressed air is evenly supplied to a pressure equal to the route resistance at

which the bulk material through the discharge pipe 5 begins to flow into the transport pipeline.

The process then repeats. Using the proposed method

allows to exclude additional installation inside or outside the tank of difficult-to-operate devices for aeration of bulk material, for example, nozzles, overlaid elements, aerodisk.

Claims (1)

The invention of the method of unloading bulk material from the tank in the pneumochamber pump, which consists in opening the loading valve pump and air supply valve, characterized in that, in order to increase the reliability of operation by breaking down bulk material vaults, the loading valve and the air supply valve open at the same time, the compressed air is fed through the air supply valve in a pulsed manner under a pressure of 4-6 kgf / cm before the outflow of material from the tank to the pump begins, then the air supply valve is closed. Editor A. Lezhnin Tehred M. Morgenthal Proofreader N. Revska Order 1036 Circulation: Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk nab. Production and Publishing Combine Patent, Uzhgorod, Gagarin st., 101