RU188287U1 - Grate roar - Google Patents

Abstract

The utility model relates to mining and processing equipment, and more specifically to devices for separating bulk materials by size, can be used in the mining, metallurgical and construction industries.

The grate screen includes a frame, a box with bumpers and vibrators, a grate sifting surface placed between the bumpers, leaning on the front and rear beam connections, the sifting surface includes adjacent two-support and cantilever grate, two-support, fixed on both tie-beams, and cantilever, fixed only on the rear tie-beam, the supporting ends of the tie-beams are extended beyond the sides, the ends of the rear tie-beams are mounted in hinges, the ends of the front tie-beams are supported on an elastic support and equipped with s motor vibrators.

The claimed technical solution ensures the achievement of a technical result, which consists in increasing the efficiency of screening, reducing the degree of clogging of the screening surface, expanding the field of application of grate screens when dividing difficult-screened (clayed) rock due to the constructive ability to give adjacent grate screening surfaces of different amplitude vibrations, which provides changes in the gap between adjacent grates. 2 ill.

Description

The invention relates to mining and processing equipment, and more specifically to devices for separating bulk materials by size, can be used in the mining, metallurgical and construction industries.

Fixed grate screens are known, the working element of which includes a screening surface in the form of an inclined grate drawn from individual grates of various cross sections and mounted on transverse beams that are rigidly fixed in the sides of the working body (Vaysberg L.A., Kartavyi A.N., Korovnikov AN N. Screening surfaces of screens. Designs, materials, application experience. St. Petersburg: VSEGEI Publishing House, 2005. 252 p.). The disadvantages of the known screen are the significant dimensions and, accordingly, the mass caused by the large inclination angles of the screening surface, caused by the need to ensure the movement of the material on the inclined surface due to gravity, and low efficiency when driving inter-grate slots when screening material with clay interlayers.

The closest analogue to the claimed model in terms of features is the working body of the vibrating screens, including the screening surface of the cascade type, each cascade consists of separate supporting grates installed on the transverse front and rear connection beams fixed between the sides of the working body (K. Nazarov Analysis of the designs of vibrating screens for the classification of difficult-to-screen materials: Selected articles of the Mining Information and Analytical Bulletin, 2006. No. 6. 36 pp. M: Publishing House MG In 2006).

A disadvantage of the known stationary screens is: low screening efficiency (up to 50-55%); Frequent clogging of the screening surface by “difficult” rock fractions.

The objective of the invention is the creation of the design of the screen, providing increased efficiency of screening of the rock mass, reducing the likelihood of clogging the screening surface with difficult-to-screen fractions.

The task is achieved in that a grate screen for separating the rock mass, including a frame, a box with side walls and vibrators, a grate screen between the sides, a grate screen based on the front and rear beam connection, the screen includes two adjacent supporting and cantilever grates, with two-supporting fixed on both tie-beams, and cantilever, fixed only on the rear tie-beam, the supporting ends of the tie-beams are outside the sides, the ends of the rear tie-beams are installed in pivots, the ends of the front connection-beams are supported by an elastic support and equipped with motor vibrators.

The essence of the claimed utility model is illustrated by drawings. In FIG. 1 shows a diagram (longitudinal section) of the proposed screen; in FIG. 2 shows a cross section of the screen along the axis of the front link-beam.

The screen includes a frame 1, a box with sidewalls 2, grate sieving surfaces 3, mounted on the front tie-beams 4 and rear tie-beams 5. The ends of the tie-beams are moved outside of the bead 2 and rest on the frame 1 of the rear tie-beams 5 by means of a hinge supports 6, and the front link-beam 4 through an elastic support 7. The ends of the front link-beam 4 are equipped with motor vibrators 10. The grate sifting surface 3 includes adjacent grates: double support type 8, mounted on both link-beams 4 and 5; cantilever type 9, mounted only on the rear tie-beam 5. The frame is installed at an angle β to the horizontal.

The roar operates as follows. Motor vibrators 10 provide oscillation of the screening surface 3 on the elastic support 7 by rotation relative to the hinged support 6, moreover, the grate of the double-support type 8 and cantilever type 9, due to their different stiffness and mounting methods, acquire vibrations of different amplitude and frequency.

The rock mass (GM) enters the screening surface (PP) and then moves along the double-supporting 8 and cantilever 9 grates between the sides 2 under the influence of gravity and vibration. Pieces smaller than the inter-grip slit size fall into the subsurface space and are transferred to the further technological process, and large pieces go to the next cascade of the screening surface. Thus, the separation of GM into fractions is carried out.

When moving adjacent grid-irons 8 and 9, the effect of a change in the gap (distance between the grid-irons) is manifested, which contributes to the conditions for the separation of “difficult” fractions into the sub-product, the screening efficiency increases and the likelihood of clogging PP decreases.

Thus, the claimed technical solution ensures the achievement of a technical result, which consists in increasing the efficiency of screening of the grate screen, reducing the degree of clogging of the screening surface, expanding the scope of the grate screens when dividing difficult-screened (clayed) rock mass due to the constructive possibility of giving the grate to the screening surface different-amplitude fluctuations and slots between adjacent grates.

Claims (1)

A grate screen for separating the rock mass, including a frame, a box with bumpers and vibrators placed between the bumpers, a grate sifting surface resting on the front and rear beam connections, characterized in that the sifting surface includes adjacent double-girder and cantilever grate, two-bearing girders are fixed to both ties -beams, and cantilever, fixed only on the rear link-beam, the supporting ends of the link-beams are outside the sides, the ends of the rear link-beams are mounted in hinges, the ends in front her bond-beams rest on an elastic support and are equipped with motor vibrators.

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