RU97438U1 - ASPIRATION COVERING PLACES FOR OVERLOADING BULK MATERIAL - Google Patents

Abstract

 An aspiration shelter for bulk material loading points, comprising a housing formed by a lid, double side and rear walls, elastic seals mounted on the walls of the housing, aprons mounted on the front and rear walls of the housing, an aspiration funnel and a loading chute, inside the housing between the suction funnel and the loading a rigid vertical partition is installed in the chute, characterized in that the internal rigid partition is made at an angle of 50-60 ° to the cover of the shelter towards the movement of the ejection air.

Description

The utility model relates to a dust removal technique for the processing of bulk materials and can be used in the construction materials industry, metallurgy, mining and other sectors of the economy where dust is released.

Known suction shelter [patent SU No. 1257230 class. E21F 5/00, B65G 69/18, Bull. No. 34, 1986] comprising a housing formed by a lid, double side and rear walls, an internal vertical rigid partition, aprons fixed to the outlet end face of the shelter, an internal rigid vertical partition, a loading chute and an aspiration funnel mounted on the housing cover, a multi-row chain curtain, suspended from an internal rigid partition. On the garlands of chain curtains, dust is deposited in the gap between the material and the rigid partition, and it also increases the local resistance coefficient of the suction shelter, resulting in a decrease in the volume of aspirated air.

The disadvantages of this device are the increased metal consumption, wear of dust precipitation elements, the complexity of operation and installation.

The closest technical solution adopted for the prototype is an aspiration shelter containing a housing formed by a cover, double side and rear walls, elastic seals mounted on the walls of the housing, aprons mounted on the front and rear walls of the housing, an aspiration funnel and a loading chute installed a rigid vertical partition is installed on the housing cover, inside the housing between the suction funnel and the loading chute [V. Minko "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 shelter is the high concentration of dust in the air at the entrance to the suction funnel.

The objective of the utility model is to increase the efficiency of dust collection, which is manifested in a decrease in the concentration of dust in the suction air at the exit from the shelter, due to the introduction of additional aerodynamic drags into the shelter design.

To solve the problem in a well-known suction shelter containing a housing formed by a lid, double side and rear walls, elastic seals mounted on the walls of the housing, aprons mounted on the front and rear walls of the housing, an aspiration funnel and a loading chute detachably mounted on the housing cover , inside the case between the suction funnel and the loading chute, a rigid vertical partition is installed, according to the proposed solution, the internal rigid partition is made under angle (50-60Є) to the cover of the shelter, towards the movement of ejection air. Due to the fact that an inclined rigid partition is installed in the path of the ejection air, an additional aerodynamic drag arises, which is facilitated by the vortex formation zone that occurs in the space between the top cover and the inclined partition. In the vortex, the kinetic energy of dust particles is lost, which contributes to their more intensive deposition in an aspiration shelter.

The optimal angle between the cover and the partition is 50-60Є. A smaller angle of inclination is more effective, but the likelihood of dust accumulation on the partition and the contact of the material being overloaded and the partition increases. A larger tilt angle is less effective due to a decrease in the action of inertial forces and a decrease in the vortex formation zone.

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

The aspiration shelter consists of a housing formed by a cover 1 mounted on supports (not shown in FIG.), And side 2, front and rear 3 walls rigidly attached to the cover 1, for example, on flanges. The inner box formed by the inner side 4, rear 5 walls and the inclined rigid partition 6 is also attached to the lid 1, with the formation of the inter-box space between the double side 2, 4 and rear 3, 5 walls. The aspiration shelter is installed in such a way that the bulk material is loaded through the groove 7 into the inner box. The suction funnel 8 is installed so that air is drawn directly from the inter-box space between the inclined rigid partition 6 and the front wall 3. The elastic side seals 9 and aprons 10 are attached to the walls of the housing and are necessary to prevent dust from knocking out through leaks between the walls of the shelter and the conveyor belt 11 .

Aspiration shelter works as follows.

Material, for example iron ore, from a feed conveyor (not shown) along a loading chute 7 together with ejected air enters the inner shelter box formed by an internal inclined rigid partition 6, internal side 4 and rear 5 walls. The inner side 4 and rear 5 walls separate the outer walls 2, 3 from the overpressure zone at the place where the material falls onto the conveyor belt 11, preventing the movement of the air ejection jet to the outer walls 2, 3, resulting in the operation of the suction funnel 8 around the zone overpressure creates a stable rarefaction zone that prevents dusty air from being hid from a shelter; in addition, to prevent its being knocked out into the environment, elastic side seals 9 and aprons 10 are provided, which leads to smart reduction of the necessary volumes of aspiration. Air, moving in the direction of the suction funnel 8, flows onto an inclined rigid partition 6. Due to the angle of inclination in the space between the top cover 1 and the partition 6, a vortex formation zone appears, dust kinetic energy is lost in it, which contributes to a more intensive deposition of dust particles on the conveyor belt . The purified air is removed from the suction shelter by the suction funnel 8 into the suction network.

Thus, the use of the proposed aspiration shelter for the place of loading bulk material will reduce the dust concentration in the suction funnel by increasing the vortex formation zone between the inclined partition and the cover of the shelter, as well as in the additional action of inertial forces on dust particles of large fractions.

Claims (1)

An aspiration shelter for bulk material loading points, comprising a housing formed by a lid, double side and rear walls, elastic seals mounted on the walls of the housing, aprons mounted on the front and rear walls of the housing, an aspiration funnel and a loading chute, inside the housing between the suction funnel and the loading a rigid vertical partition is installed in the chute, characterized in that the internal rigid partition is made at an angle of 50-60 ° to the cover of the shelter towards the movement of the ejection air.