SU1677336A1 - Suction shelter - Google Patents

Abstract

This invention relates to mining promet. The goal is to reduce energy consumption during air aspiration under high overload conditions by reducing the volume of atmospheric air ejected into the housing. For this, housing 1 communicates with the suction inlet and with the loading device (P) 4, which has an additional HH 7 s cascaded over the main column guide (HH) 5 with the invention relates to the mining industry and can be used in other dedusting systems air in the points of transshipment of bulk material, mainly with a large height of falling bulk material. The purpose of the invention is to reduce energy consumption during air aspiration by reducing the volume of atmospheric air ejected into the aspiration cover. bottom 8. Bottoms 6 and 8 are made in a concave shape and have horizontal output sections (WU) 9. Opposite WU 9 bottoms 8 in the cavity P 4, baffle plates 10 are installed. In the lower part of the housing 1, an axis 12 is fixed, attached to the bottom 6 to allow turning it in a vertical plane. The heights of cascade-mounted HH 5 and 7 decrease in the direction of unloading bulk material. When overloaded, the bulk material enters the upper HH 7 and, moving over the latter, brakes at its bottom 8 and loses speed. At the outlet of WU 9, bottom 8, the flow of bulk material hits the plate 10, loses final speed and enters the next HH 7, etc., until it comes unstressed on the tape from WU 9 of bottom 6. When the humidity or the type of loose material changes of the material, the position of the WU 9 of the bottom 6 is adjusted by turning the latter with the help of axis 12. The decrease in the rate of falling of the bulk material reduces the volume of air ejected into the body 1 and reduces the energy consumption for aspiration. 2 h. item f-ly, 1 ill. The drawing shows an aspiration cover for handling bulk material, a longitudinal section. The aspiration cover includes a housing 1 with elastic aprons 2, in communication with the aspiration pipe 3 and with the loading device 4, including the additional inclined rails 7 installed at the bottom inclined guide 5 with the bottom 6 adjacent to it 5, with the bottom 8 A С О VI XI CJ Сл О

Description

with them. The bottom 6 and 8 are made of a concave shape and have horizontal output sections 9,

Opposite horizontal outflow sections 9 bottoms 8 in the cavity of the loading device 4 vertically secured the fender plates 10. The heights of the cascaded main 5 and the additional 7 inclined rails decrease in the direction of unloading of the bulk material. In the lower part 11 of the housing 1 is placed an axis 12, rigidly attached to the bottom b, installed with the possibility of rotation in the vertical plane with the help of the actuator 13.

The aspiration device operates as follows.

By the loading conveyor 14, the bulk material is fed to the upper additional inclined guide 7, moving along which under the influence of gravity the bulk material acquires a certain speed and enters the concave bottom 8, where the flow changes the direction of movement and simultaneously slows down due to friction forces.

At the exit portion 9 of the bottom 8, the vertical component of the flow velocity of the bulk material becomes zero. Continuing to move by inertia, the bulk material comes into contact with the baffle plate 10, where it quenches to zero and is horizontal component of the speed of its movement. Next, the bulk material flows successively into the following additional inclined guides 7 with the bottoms 8, the velocity of the flow of the bulk material being quenched to zero each time, and from the bottom 6 of the main inclined guide 5 the bulk material is poured onto the conveyor belt.

The number of additional inclined guides 7 in the loading device 4 and their height depends on the type of bulk material and the magnitude of its difference from one conveyor to another.

A decrease in the heights of the cascade-arranged main 5 and additional 7 inclined guides in the direction of unloading provides a discrete reduction in the final speed of movement of the bulk material in each guide with the bottom, and hence the volume of air ejected by it. Thus, as the flow moves along the loading device 4, there is a gradual decrease in the air entrained by the bulk material, and as a result of the interaction of the material with the fender plates 10

a local increase in static pressure, which is a kind of traffic jams preventing air movement.

The choice of the optimal number of cascade-arranged additional inclined guides 7 is made on the condition that the height of the main inclined guide 5 is minimal with respect to design possibilities.

0 For effective operation of the device with varying physical parameters of the bulk material (moisture, fractional composition) or its operation on other types of materials, the bottom 6 is rigidly fixed

5 on the axis 12, placed in the lower part 11 of the housing 1 with the possibility of its rotation in the vertical plane. It is known that when the moisture content of the bulk material increases, its coefficient of friction increases.

0, the bottom material 6. Therefore, to prevent the bulk material from getting stuck, the actuator 13 rotates the axis and the output section 9 of the bottom 6 is lowered relative to the conveyor belt to a certain height. In order to reduce the rate of bulk material entering the conveyor belt, the exit section 9 of the bottom 6 is raised above the belt.

The application of the invention allows

0 significantly reduce the rate of incidence of the flow of bulk material nq- and minimize the volume of air flowing with it into the shelter, and therefore reduce energy consumption during aspiration.

Claims (3)

1. Aspiration shelter for handling bulk material, including a housing in communication with the suction nozzle and the loading device, 0 containing an inclined guide with a bottom, mating with it and having a horizontal exit section, characterized in that, in order to reduce energy consumption during air aspiration due to 5 reducing the volume of atmospheric air ejected into the body, the loading device is equipped with additional inclined guides with associated with them and having horizontal The output sections are bottoms and baffle plates, while the additional inclined guides are cascaded on the main inclined guide, and vertically the baffle plates are fixed opposite the horizontal output sections of the bottoms, and the bottoms of all the inclined guides are made concave. 2. Shelter according to claim 1, characterized in that the heights of the cascade oblique-guiding decreases in direction of discharge of bulk material. 3. Shelter according to claim 1, different the fact that it is equipped with an axis fixed in the lower part of the body, and the bottom of the main inclined guide is installed with the possibility of rotation in the vertical plane. -f- -F