UA85565U - Chamber feeder of pneumatic conveying installation - Google Patents

Abstract

A chamber feeder of a pneumatic conveying installation comprises a chamber, a loading valve, a relief valve, a transfer line, an aerating nozzle in the chamber, an ejector having a nozzle and a chamber, a conduit with air release valve from the feeder chamber to the ejector chamber. The ejector is mounted in the transfer line downstream of the unloading valve.

Description

The utility model belongs to equipment for pneumatic transportation of bulk materials and can be used in energy, metallurgical, construction and other industries.

A well-known chamber feeder for bulk materials (Ass. USSR Mo 1537629, B65053/40, 1990), which contains a container, a transport pipeline placed in the container with a shutter located at the bottom, a loading nozzle with a closing element, a nozzle in the container for supplying air for aeration, controlled valves for air supply to the closing element of the loading nozzle, to the aerating nozzle and to the shutter of the transport pipeline.

The disadvantage of the chamber feeder is that when loading its capacity, the transport pipeline is blocked by a valve and the material is not transported through it. As a result, the feeder has low productivity. The possibility of clogging with pipeline material when switching the feeder from the unloading mode to the loading mode is also not excluded.

The disadvantage is also the complexity of the design of the chamber feeder and the presence of a large number of movable connections located in the container with the abrasive material.

A well-known chamber feeder Malevich, V.S. Serikov, A.V. Myshin. - M.: Stroyizdat, 1984 - p. 51), which contains an ejector placed in front of the unloading valve. This ejector evacuates dusty air into the transport pipeline during loading of the feeder container.

This chamber feeder also works cyclically and has the same disadvantages noted in the previous analogue.

The task of a useful model is to increase productivity and reduce the unevenness of material transportation.

The task is solved by the fact that in the chamber feeder of the pneumatic conveying installation, which includes a chamber, a loading valve, an unloading valve, a transport pipeline, an aerating nozzle in the chamber, an ejector containing a nozzle and a chamber, a pipeline with a valve for discharging air from the feeder chamber into the ejector chamber, according to a utility model, the ejector is mounted downstream of the relief valve in the transport pipeline.

When the feeder is working, unlike the prototype, air is constantly supplied to the ejector. It

Зо provides constant air pressure in the transport pipeline and excludes the accumulation of material in it. The material is transported through the transport pipeline by air from the ejector and only partially due to the air supplied to the feeder chamber, when the feeder chamber is unloaded. When loading the feeder chamber, the material is ejected through the air discharge pipeline from the feeder chamber, and effectively with a small volume of the chamber.

Thus, the set of features of the chamber feeder of the pneumatic conveying unit ensures an increase in productivity and a decrease in the unevenness of material transportation due to the cyclic operation of the chamber feeder.

The drawing shows the chamber feeder of the pneumatic transport unit.

The chamber feeder of the pneumatic conveying installation contains a chamber 1, a loading nozzle 2 with a seat 3, a loading valve placed inside the chamber, which has a closing element 4, which is mounted on a retractable cup 5, which is installed with a gap on a fixed cup 6 coaxially with the seat 3. In the lower part chamber 1 has an aerating nozzle 7 and a discharge valve 8, which blocks the discharge of material from chamber 1 into the transport pipeline 9. In the transport pipeline 9 there is an ejector containing a nozzle 10 and a chamber 11. The chamber 11 of the ejector is connected by a pipeline 12 through a controlled valve 13 with the upper part of the chamber 1. The compressed air supply system 14 through the controlled valves 15, 16, 17 is connected to the stationary cup 6 of the loading valve, the aerating nozzle 7 and the nozzle 10 of the ejector.

The chamber feeder of the pneumatic conveying unit works in the following way. Before starting work, open the air valve 17. Compressed air is supplied to the nozzle 10 of the ejector.

The air flowing out at a high speed from the nozzle 10 reduces the pressure in the chamber 11, in the pipeline 12 and in the chamber 1 when the valve 13 is open. The compressed air is also supplied through the controlled valve 15 to the cup 6, while the movable cup 5 rises and presses the closing element 4 of the loading valve to the seat 3. At the same time, the closing element 4 of the valve covers the loading nozzle 2.

When the hopper latch is open (not shown), the material enters the loading pipe 2, which is closed by the closing element 4 of the loading valve. Before loading chamber 1, valve 16 and unloading valve 8 are closed. When loading, the valve 15 is closed, the closing element 4 of the loading valve is lowered under its own weight and the weight of the material being loaded, and the material fills the chamber 1. The air displaced by the material from the chamber 1 is evacuated through the pipeline 12 by the ejector into the transport pipeline U, while in the process of loading, a part of the material loaded into the chamber 1 is transported through the pipeline 12 into the transport pipeline 9.

When the level sensor (not shown) detects the filling of the chamber 1, the unloading valve 8, valves 15 and 16 are opened and valve 13 is closed. Under the pressure of compressed air, the closing element 4 rises to the stop in the saddle from the loading nozzle 2.

Through the gap between cups 4 and 6, compressed air enters the upper part of chamber 1. After valve 15 is closed, valve 16 is opened, which supplies compressed air to the aerating nozzle 7. Under the pressure of compressed air, the aerated material, flowing around the chamber 11 of the ejector, enters the transport pipeline 9 , where it is accelerated by the air flowing from the nozzle 10 of the ejector.

After unloading, close the unloading valve 8, valve 16, open valve 13 and close valve 15. The cycle is repeated.

In the proposed chamber feeder, compressed air is constantly supplied to the ejector.

This ensures continuous transportation of material both when unloading from the feeder chamber and when loading, increasing the productivity of the feeder. The constantly on ejector eliminates air pressure pulsations in the transport pipeline, which prevents the material from settling in the pipeline and allows the material to be transported over longer distances.

Claims (1)

UTILITY MODEL FORMULA A chamber feeder of a pneumatic conveying installation, which includes a chamber, a loading valve, an unloading valve, a transport pipe, an aerating nozzle in the chamber, an ejector containing a nozzle and a chamber, a pipe with a valve for discharging air from the feeder chamber to the ejector chamber, which is characterized by that the ejector is mounted in the transport pipeline behind the relief valve. i phoscoroii circle. Who am I? Shi: I zhk I shi she Me I: ge i SHY SCHE UNN she | and XE and passed KE Z. and 5 and g pieces! dn onko sa nennsnententnenn Y v