SU1761646A1 - Suck-and-pump unit for pneumatic reloading of loose materials - Google Patents

Abstract

Use: Pneumatic reloading and cleaning of bulk materials. SUMMARY OF THE INVENTION: A hollow body in the form of a vertical ellipse comprises suction nozzles with axial fans installed in them integrated into one discharge nozzle by means of a conical dust separation chamber with a conical mesh. The material hits the conical mesh, while its fine fractions slip through the mesh and precipitate in the dust separator chamber. The degree of material purification through the grid is controlled by combining the number of fans to be activated. 1 silt

Description

The invention relates to the pneumatic transportation of bulk materials and can be used when loading, for example, elevator tanks with material cleaning during reloading.

A known suction-injection unit for pneumatic reloading of bulk material, comprising a hollow body mounted on a vehicle with suction and discharge nozzles and a drive fan mounted in the body.

The known installation has limited technological capabilities, since the presence of a single fan does not allow to regulate the flow of the gas mixture and most control the cleaning of the transported material.

The aim of the invention is the expansion of technological capabilities by providing control of the cleaning material.

This goal is achieved by the fact that a suction-injection unit for pneumatic reloading of bulk material, containing a hollow body mounted by the vehicle, with suction and discharge nozzles and a drive fan mounted in the body, is equipped with additional suction nozzles, additional power fans made with the possibility of their individual inclusion, coaxially to the case of a conical dust separating chamber, communicated from its smaller base side with the supercharger From the side of the larger base, by means of an adapter, with a housing and a conical filtering grate installed in a dust separation chamber with an annular cone-shaped clearance relative to its side wall; the cross-section in the form of a vertical ellipse; the suction nozzles in the housing are perpendicular the major axis of the ellipse of its cross section and with the adjoining of their walls to the side surface of the body, each (/

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A ventilator is placed in its corresponding suction nozzle coaxially with it, the discharge nozzle is located coaxially with the housing, and the dust separation chamber is provided with a dust removal nozzle in its lower part.

The drawing shows a suction-injection unit, a general view.

The installation consists of a hollow body 2 installed on the vehicle 1 with a main 3 and additional 4 and 5 suction nozzles. The body in its cross section is made in the form of a vertical ellipse, and the suction nozzles are placed in the body perpendicular to the larger axis of the ellipse of its cross section and adjoining their walls to the side surface of the body. The main pipe is located in the center of the case, and additional - above and below it,

In the housing, the main 6 and additional 7 and 8 fans are arranged coaxially with the nozzles; they are made with the possibility of their individual switching on. In this embodiment, they are connected via couplings 9 with the main 10 and additional 11 and 12 electric motors.

A tapering chamber 13 is placed coaxially with the housing, connected from the side of its smaller base to the discharge nozzle 14, and from the side of the larger base through the transition nozzle 15 to the body. A filter screen 17 is placed in the dust-collecting chamber with an annular expanding gap 16 in the direction of the discharge nozzle. A dust separator nozzle 18 is placed on the side of the transition nozzle on the dust-separating chamber.

The suction-pressure installation works as follows,

Before starting, the main 3, additional 4 and 5 suction and discharge 14 nozzles are connected respectively to the intake and feed hoses (not shown) and include the main 10 and depending on the technological need one or both of the additional 11 and 12 electric motors.

The transported material is sucked into the sleeves and, flowing around the electric motors, flows through the fans into the transition nozzle 15, from where it moves as an air-material mixture into the dust extraction chamber.

In the conical space of the chamber, the flow is constricted, and the bulk material is impacted into

the grid 17, the dust passes through the perforation of the grid into the annular expanding gap 16 and, changing the direction to the opposite and partially extinguishing speed, is ejected through the dust separation pipe 18.

Purified transported material through the discharge nozzle and pressure air pipe (not shown) enters the place of loading.

Turning off one or both of the additional engines, regulates the flow of the gas mixture and thus changes the kinetic energy of the moving particles. As a result, this changes the cleaning intensity of the transported material, depending on the force of the particles hitting the grid.

In addition, in the same way they adjust the performance and select the most optimal modes of operation.

Claims (1)

Claims of the Invention: A suction-injection unit for pneumatic reloading of bulk material comprising A hollow body with a suction and discharge nozzles and a drive fan mounted in the housing, characterized in that, in order to expand the technological capabilities by providing controlled cleaning of the material during the overload process, it is equipped with additional suction nozzles, additional drive fans, made with the possibility of their individual inclusion, coaxially separating the body with a conical dust-separating chamber, communicated from the side of its smaller base with the discharge nozzle, and from the side of the larger base by means of a transitional pipe to the body, and installed in the dust-separating chamber with an annular conical gap relative to its side wall filtering grid, while the body is made in its cross section in the form of a vertical ellipse, the suction nozzles are placed in the body perpendicularly to the large axis of the ellipse cross-section and with the adjoining of their walls to the side surface of the case, each fan is placed in the corresponding suction pipe coaxially with it, the discharge pipe is located coaxially with the housing, and the dust separation chamber is made with a dust removal pipe at its bottom.