RU102603U1 - ASPIRATION COVERING PLACES FOR OVERLOADING BULK MATERIAL - Google Patents

Abstract

 An aspiration shelter for bulk material loading points, containing a duct formed by a lid, side and end walls, elastic gaskets, aprons mounted on the end walls of the housing, an aspiration funnel and a loading chute, characterized in that the side walls are located at an internal angle of inclination of less than 90 ° to top cover.

Description

The utility model relates to a dust removal technique for the processing of bulk materials and can be used in the production of building materials, in the metallurgical, mining and other industries where dust is emitted.

A suction shelter is known comprising a housing formed by a lid, double side and end walls, elastic seals mounted on the housing walls, aprons mounted on the housing end walls, an aspiration funnel and a loading chute mounted on the housing cover, inside the housing between the suction funnel and the loading a rigid vertical partition [Minko V.A. "Dust removal of technological processes for the production of building materials" Voronezh: Publishing House of Voronezh State University, 1981, p.147, Fig. 44].

The disadvantages of this device are the wear of internal structural elements, the complexity of operation and installation of the structure, as well as its significant aerodynamic drag.

The closest technical solution adopted for the prototype is the simplest suction shelter with single walls [Minko V.A. "Dust removal of technological processes of production of building materials" Voronezh: Publishing house of Voronezh State University, 1981, p.145, Fig. 41]. This suction shelter contains a box formed by a lid, side vertical and end walls, as well as a suction funnel and a loading chute mounted on the lid. Elastic seals are fixed on the side walls, aprons are installed on the end walls of the shelter.

The disadvantages of this shelter are the significant required volumes of aspiration, as well as a high concentration of dust at the exit from the shelter.

The objective of the utility model is to reduce the required volumes of aspiration air and to increase the efficiency of dust collection, which is manifested in a decrease in the concentration of dust in the aspiration air at the outlet of the shelter. The decrease in the required volumes of aspiration air is supposed to be due to a reduction in the air flow through the leaking cover. The concentration of dust at the outlet is supposed to be reduced, using additional inertial forces that occur when the trajectory of the flow changes, as well as by reducing the rate of air entry into the suction funnel. Using the proposed shelter design will reduce the required volumes of suction and dust concentration at the outlet, in comparison with the prototype, which will reduce the energy consumption of the system, as well as reduce costs during operation and repair of suction systems due to the simplicity of the design.

To solve the problem in a well-known suction shelter containing a box formed by the top cover, side and end walls, elastic seals, aprons mounted on the end walls, an aspiration funnel and a loading chute mounted on the cover, the side walls are installed at an internal angle of inclination of less than 90 ° to the top cover. Due to the inclination of the side walls, the top cover of the suction shelter, as well as the inlet of the suction funnel, will have a larger area compared to the prototype. An increase in the area of the inlet of the suction funnel will lead to a decrease in the air velocity at the inlet to the funnel, with the same volumes of aspiration. The decrease in air velocity in the suction funnel will lead to a decrease in the concentration of dust contained in the suction air, which will reduce the energy consumption for its transportation and cleaning. The use of inclined side walls in an aspiration shelter will increase the internal volume of its upper part, due to this, the trajectory of the ejection air will move to the upper part of the shelter, to the top cover, while the excess pressure of the ejection air at the place where the material falls on the conveyor belt will decrease. Changing the trajectory of the air will reduce the likelihood of knocking out dusty air through leaks in the shelter in the working area.

The utility model is illustrated in the drawing. Figure 1 shows a longitudinal section of an aspiration shelter. Figure 2 is a section aa in figure 1.

An aspiration shelter with inclined walls consists of a duct formed by a top cover 1 mounted on supports (not shown in Fig.), Inclined side walls 2 located at an internal angle of inclination, for example, 60 ° to the top cover, as well as vertical end walls 3, 4, rigidly attached to the cover 1, for example, on the flanges. The aspiration shelter is installed in such a way that the bulk material is loaded through the groove 5 into the inner part of the duct. The suction funnel 6 is installed so that the air is drawn directly from the inside of the duct. Elastic side seals 7, aprons 8, 9 are rigidly mounted, for example, on the flanges, to the side and end walls to prevent dust from knocking out of the shelter through leaks between the walls of the shelter and the conveyor belt 10, as well as to reduce the amount of intake air.

Aspiration shelter works as follows.

Material, for example, iron ore, from a feed conveyor (not shown) through a loading chute 5, together with ejected air, enters a suction shelter box. Due to the lower aerodynamic drag of the upper part of the shelter, the ejected dusty air entering the shelter will move near the top cover 1, thereby reducing the excess pressure at the place of material falling onto the conveyor belt 10. The displacement of the dusty air flow path to the upper part of the shelter will reduce its likelihood knocking out through lateral leaks, which will reduce the required volume of aspirated air. The movement of a two-phase flow near the upper cover increases the efficiency of inertial dust cleaning processes in the shelter, due to a more drastic change in the trajectory of air movement, thereby reducing the concentration of dust at the outlet.

Since the width of the top cover 1 of the proposed shelter is greater than in the prototype, the cross-sectional area of the shelter, as well as the entrance area to the suction funnel, will also be of greater importance than the prototype. Due to the increase in the area of entry into the suction funnel, the lift of the suction stream will decrease, which will lead to a decrease in the concentration of dust at the exit from the shelter.

Thus, the proposed aspiration shelter for places of transshipment of bulk material will reduce the required volumes of aspirated air and the concentration of dust at the outlet compared to the prototype.

Claims (1)

An aspiration shelter for bulk material loading points, containing a duct formed by a lid, side and end walls, elastic gaskets, aprons mounted on the end walls of the housing, an aspiration funnel and a loading chute, characterized in that the side walls are located at an internal angle of inclination of less than 90 ° to top cover.