RU139338U1 - WEDGE FUSE - Google Patents

Abstract

A wedge safety shelf, including a breakaway niche, two shelf parts displaced relative to each other along the height of the shelf, each of which has an inclined reflective plane, a shock-absorbing element, a buffer distribution and weighting concrete slab, a number of supporting load-bearing beams, characterized in that the parts of the shelf are deployed relative to each other 180 °, and at the top of the shelf an additional fencing niche is formed.

Description

The utility model relates to the mining industry, in particular to its mining industry.

The depth of vertical trunks is an increase in their depth in order to open new horizons for the extraction of minerals (ores, etc.).

The most effective is the deepening of the vertical shafts of the mines until the final development of the existing horizons without stopping the delivery of rock and minerals to the surface.

With this scheme, the recesses of the vertical shafts must be covered by completely different safety devices that separate the deepened part of the trunk from its upper part, in which equipment for the extraction of rock and ore continues to operate.

Most preferred with respect to the speed of construction and the possibility of location in the previously traveled part of the vertical barrel are artificial safety shelves with full overlap in terms of the cross section of the barrel.

Known proposed by Professor Fedorov S.A. (see Fedorov SA. Probing and deepening of vertical shafts of mines. Moscow, 1961. - S. 426-437) wedge safety shelves with inclined planes covered with rails or metal sheet. Inclined reflective planes can go into the fenders in the walls of the barrel. The space between the inclined plane of the supporting beams of the shelf and the wall of the lining of the barrel is filled with concrete, concrete, brick, rubble masonry or wooden beams with a dense raskilka. In the event of a rope break and a fall, the lifting vessel hits the inclined plane of the shelf and is thrown into the side fender niche. The main impact force of the falling vessel is directed to the rock walls of the niche. During normal operation of the lifting installation, a spill of rock or ore accumulates in the lower part of the niche periodically unloaded in a known manner.

The main advantages of safety regiments include:

- a slight decrease in kinetic energy with a change in direction of motion upon impact of a falling body on the inclined plane of the regiment;

- the presence of a braking path that passes the falling body along the inclined surface of the shelf. The greater the braking distance, the less effort the shelves experience;

- transfer of dynamic load in a certain (rather significant) period of time equal to the period of inhibition of the body (vessel), and not instantly.

The disadvantages of the known wedge safety shelf include:

- the impossibility of locating the fencing niche of the wedge safety shelf on the horizon of shipment of rock from the deepened part of the trunk

- mixing between each other in the chimney niche of ore and rock spill, the volume of which is very large.

Known wedge safety shelves in the recess of the vertical shaft of the mines (see patent RU for utility model No. 120706, IPC ⁷ E 21 7/00), the closest in technical essence of the proposed utility model. This wedge safety shelf, containing an inclined plane that enters the fencing niche, a buffer distribution and weighting concrete slab, a shock-absorbing bonfire made of wooden beams, a number of supporting load-bearing beams, is divided in a vertical plane into two parts that are offset relative to each other in height. With all the advantages of wedge safety shelves, this shelf has the disadvantage of mixing ore and rock spills.

The technical result of the utility model is the separation of ore and rock spills.

The claimed technical result is achieved by the fact that in the wedge safety shelf, including a fencing niche, two parts of the shelf displaced relative to each other in height, each of which has an inclined reflective plane, a shock-absorbing element, a buffer distribution and weighting plate, a number of supporting load-bearing beams, according to the useful models, parts of the shelf are rotated 180 ° relative to each other, and an additional fencing niche is formed at the upper part of the shelf.

The inventive utility model is illustrated in the drawing, in which the wedge safety shelf for the recess of the vertical shafts of the mines (hereinafter - the shelves) includes two parts shifted in height and rotated 180 ° relative to each other, which have inclined reflective planes 1, 2 of sheet metal, shock absorbing elements 3, 4 (a fire made of wooden beams), buffer distribution and weighting concrete slabs 5, 6 on the horizontal support beams 7, 8. The inclined reflective planes 1, 2 are included in the fenders 9, 10, and the rows of supporting uschih beams 11, 12 form a vertical retaining wall displacement from the center of the barrel elements of the shelf. A dividing wall 13 is formed above the upper part of the shelf, and a dividing wall 14 connects both parts of the shelf.

The upper part of the structure is designed for a large shock load and is mounted under the separation of ore skips, and under the separation of smaller capacity skips, the lower part of the shelf is mounted.

Shelves works as follows. The inevitable spill, and sometimes the entire mass of ore or rock from skips, falls on the corresponding inclined planes 2 or 1 and rolls into an additional fencing niche 10 or fencing niche 9, from which it is removed without mixing.

The dividing walls 13, 14 prevent the rock spill from entering the deepened part of the trunk under the wedge safety shelf.

When massive lifting vessels (skips) fall into the trunk upon contact with inclined reflective planes 1, 2, the shock load from changing the direction of movement is an order of magnitude less than the load from the complete quenching of the kinetic energy of the falling vessels.

The shock load when the bodies fall on inclined reflective planes 1.2 are transferred to the shock absorbing elements 3, 4, and then to the buffer distribution and weighting concrete slabs 5, 6 and the horizontal supporting load-bearing beams 7, 8.

The complete quenching of the kinetic energy of the falling vessels occurs when the vessels are wedged in the fenders 9, 10, as well as when they are wedged between the vertical walls of the barrel and the inclined reflective planes of 1, 2 parts of the shelf in the part where the length of the horizontal supporting beams 7, 8 is the smallest and therefore the bearing capacity is greatest.

The location of the upper part of the shelf, deployed relative to the lower part of the shelf by 180 ° and an additional bump niche 10, is determined by the conditions for removing ore spill at the loading horizon of the rock with a hole in the trunk.

An advantage of the claimed utility model is the separation of ore and rock spills.

Claims (1)

A wedge safety shelf, including a breakaway niche, two shelf parts displaced relative to each other along the height of the shelf, each of which has an inclined reflective plane, a shock-absorbing element, a buffer distribution and weighting concrete slab, a number of supporting load-bearing beams, characterized in that the parts of the shelf are deployed relative to each other 180 °, and at the top of the shelf an additional fencing niche is formed.

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