SU739320A1 - Distributing arrangement for charge of charging device in shaft furnace - Google Patents

Description

(54) DISTRIBUTOR OF THE DIESEL OF THE LOADING DEVICE OF THE MINE FURNACE

I

The invention relates to the distribution bodies of loading devices of shaft kilns and may find application in the processing of bulk materials in various industries, including ferrous and non-ferrous metallurgy.

A distribution body of a two-valve charging device for a shaft kiln is known, in which the bottom valve is made in the form of a cone expanding downwards 1. This cone combines the functions of a stop and distribution body.

However, the design of this distribution organ contributes to a significant segregation of the feed material according to its size, as a result of which the small fraction concentrates on the ridge, and the large fraction rolls toward the center and to the periphery. Such a distribution of material over the furnace cross section adversely affects the gas dynamics of the burning process and causes a violation of the required thermal conditions. Ultimately, this leads to a deterioration in the quality of the product being calcined and contributes to the pollution of the environment with gases. . Closest to the invention to the technical essence and the achieved result is the distribution body of the charging device of the shaft furnace, made in the form of a cone mounted coaxially with the furnace, on the side surface of which trapezoidal holes 2 are made.

The known device partially eliminates the disadvantages inherent in the distribution body in the form of a cone. However, even in this case, uneven shedding of the feed material takes place, which occurs for the following reasons. When the bunker is open, the material falls on the distribution cone, and the smaller fraction, as it is lighter, moves at a relatively low speed, meets holes in its path and falls through them, moving

15 mainly in the central zone of the furnace. When large fractions of material get onto the cone, most of the pieces, moving at relatively high speed and meeting holes on their way, will bounce them and go to the furnace wall, i.e., to the zone where they are least needed.

The aim of the invention is to provide a more uniform distribution of the feed material over the cross section of the furnace shaft.

This goal is achieved by the fact that the distribution body is provided with an additional cone with openings, fixed under the main cone and connected to the ocHOBHbiivf upper cone by vertically installed pipes passing through its orifices made in a spiral, with radial slots in the upper cone, and curvilinear, located on its perimeter.

The presence of an additional cone below the main and vertical distance pipes connecting both cones provides for a reduction in the segregation of the feed material according to the size of the pieces and its more even distribution over the cross section of the furnace.

This is achieved by the fact that the material, the passage through the distant tubes evenly spaced along the cross section of the furnace, is evenly distributed over the total cross section of the furnace shchita.

The fine fractions of the feed material fall through the radial slot in the upper cone to the lower cone and go to the periphery, filling the near-wall annular space at the same time with the grains falling from the upper cone and the fine fraction falling mainly from the lower cone. This contributes to a more uniform distribution of the gas flow over the cross section of the furnace, causing the necessary thermal conditions.

FIG. 1 shows a frontal view of the distribution organ; FIG. 2 - the same, horizontal projection.

The distribution device of the loading device of the saddle furnace contains a cone 1, which is reinforced coaxially with a furnace, 2 with openings 2, which are radially arranged slots, the cross section of which is a trapezoid extending downwards. Below cone 1 with holes 2 there is an additional cone 3. The upper and lower cones 1 and 3 are interconnected by vertically mounted distance pipes 4, open at the top and bottom, serving to pass and direct the material to different points of the mine section.

The distance pipe 4 in the plan are arranged in a spiral, which also contributes to a more uniform distribution of the material over the cross section of the furnace furnace.

In order to avoid jamming of the pieces of the loaded material in the pipes 4, they are filled with cones with a downward extension.

The diameter of the distance pipe 4 is chosen depending on the sizes of the pieces of the feed material and is three times larger than the size of the largest fraction.

For a more uniform distribution of the feed material, the lower cone 3 is made with non-rolling curved notches 5 around the perimeter. In order to make the structure more rigid, the cones 1 and 3 are additionally fastened with gussets 6. In the central part of the distributor there is a sleeve 7 connecting the cones 1 and 3.

The shaft 8 of the charging device 9 passes through it, which is also a guide part for the locking cone, the purpose of which is to open and close the outlet of the bunker.

The distribution body works as follows.

With the help of mechanical means (not shown in the drawing) the locking cone is lifted, and the loading material from the hopper

enters the upper cone 1. A part of the material falls through the remote pipes1 4 and, due to their uniform distribution over the surface of the cone, is also uniformly distributed over the cross section of the furnace. The largest pieces move at a relatively higher speed and are directed to the walls of the furnace. The fine fraction spills through the slits and, slipping along the surface of the cone 3, also flows to the walls of the furnace and fills the near-wall space between the large pieces. Due to the presence of curved cuts 5, the material is distributed more evenly across the cross section of the furnace. The technical and economic advantage of the distribution unit compared to the known one is less material segregation when it is loaded into the furnace. Such a distribution of material is more favorable than the existing one. A more uniform distribution of both material and air is created in the furnace, which improves the technical and economic performance of the furnace.

Claims (2)

1.V. P. Tarasov. Loading devices of mine furnaces M., “Mutallurgi, 1974, with. 289, fig. 160 2.Patent of England No. 685152, CL F 4 In 1961.