SU1460292A1 - Safety platform - Google Patents

Abstract

The invention relates to mining and, in particular, to protective devices of deep vertical shafts of the mines and m. used in mining and underground construction. The goal is to increase the reliability of the safety shelf. The supporting elements (OE) 6 are pivotally mounted on the shock-absorbing cushion of the overlapping of the safety shelf. 6 On their working surfaces (RP) 7, made in the form of a logarithmic spiral, are symmetrical Х1-А and are fixed on both sides limiters 9. At the same time, the RP 10 of each of the stops 9 is equidistant RP 7 of the corresponding OE 6 and offset from RP 7 towards the axis of the hinge 11. The last n; l of each OE 6 is placed at the pole of the logarithmic spiral, made with a parametric angle, a small angle self-braking OE 6 for the lining material (K). 8. Upon reaching the overlap and the design load, the resistance of the material K 8 will be overcome by RP 7. At the same time, the OE 6 will go deeper into material 8 until p as long as it does not come in contact with K 8 limiters 9 This will lead to a redistribution of forces between RP 7 and RP 10, reduction of friction and movement of the OE 6 downwards, which will be accompanied by the removal of material K 8 to a depth equal to the distance between the standards of support between RP 7 and THEIR With unevenness K 8 limiters 9 and i b are rotated in the hinge 11, tracking the local relief while maintaining The pressure and the magnitude of the resultant force. 3 il. SS (L

Description

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The invention relates to mining, in particular to protective devices of recessed vertical shafts of mines, and can be used in mine and underground construction.

The purpose of the invention is to increase the reliability of the safety shelf.

FIG. 1 shows the safety shelves, cut; in fig. 2 — node 1 in FIG. one; in fig. 3 is a section A-A in FIG. 2. The safety shelf consists of a supporting overlap 1 made of metal beams and layers of wooden overlap on which a cushion cushion 2 (of slag, sand, crushed stone) is placed to more evenly distribute the load from the falling lifting vessel 3. The cushion cushion 2 is closed from above waterproof layer 4 (for example, cement sheath, etc.). The supporting ceiling 6 is hinged on the supporting ceiling 1 with the help of sliding consoles 5, which are sunk into support 8 with their working surfaces. Thus, the shelves are resting on the sliding consoles 5 and supporting elements 6. The working surface 7 of the supporting elements 6 is made and shaped logarithmic spiral. On the reference -j.ievieHTax 6 symmetrically on both sides of the -1 are fixed exactly the limiters 9, to-; u.i Н) of which are equidistant to the working-; i .. l) -. The pins of the supporting elements and are displaced to the CPU I in the rotation of the supporting elements 6. The SharpPnr 11 of the supporting elements 6 is placed in the pole of the logarithmic spiral of the working surface 7, and the logarithmic spiral itself is made with a parametric angle smaller than the braking angle of the supporting elements 6 along the lining material 8. Safety shelves works as follows.

The lifting vessel 3 breaks through the waterproof layer 4 when it falls and penetrates into the shock-absorbing net 2, transferring some of its kinetic energy to the carrier overlap 1. As soon as the load on the carrier overlap 1 reaches the calculated value, the resistance of the support material 8 (for example, concrete) is overcome by working surfaces 7 retaining elements, 6, and they begin to move along the forming support 8, crushing its surface. In this case, the supporting elements 6 go into the lining material 8, since they work in self-braking mode and the friction does not allow them to slide along the lining surface until the limiters 9 come into contact with the lining 8 with their ends 10 with their ends 10 the contact surfaces 7 and 10 of the supporting elements 6 and the stops 9, respectively, reduce friction and the movement of the supporting elements 6 downwards, which

is driven by the material of the support 8 to a depth equal to the distance to the standards between the ends 10 and the surface 7. The rotation of the supporting elements 6 in the hinge 11 does not occur when the resultant all forces interacting with the lining 8 passes through the hinge center. With uneven supports 8, the supporting element 6 with the stops 9 rotates in the hinge 11, tracing the local relief while maintaining the direction and magnitude equal to. The value equal to depends on the degree of penetration of the supporting elements 6 into the support material 8 and its properties. Changing the depth of the supporting elements 6 in the lining 8 when choosing the installation location of the limiters 9, provide the condition for reliable operation of the shelf when its carrying capacity exceeds the resistance to movement of the shelf.

The kinetic energy from the fall of the lifting vessel 3 is spent on the work to overcome the forces of concrete see and friction of the working surfaces 7 of the supporting elements 6 as they move in the lining 8. Moving to a distance determined from the conditions of the kinetic energy of the falling lifting vessel 3 and the work of the forces of resistance to the movement of the supporting elements 6, carrying the overlap of the shelf 1 stops, holding the lifting vessel 3.

The numerical ratios characterizing the operation of the shelf of the proposed design may be as follows. When an emergency break in the hoisting rope and a fall of a lifting vessel weighing 10 tons from a height of 500 m, the kinetic energy is 50 MJ. When a safety shelf is installed at 35, there are 16 knife support elements (two wheels with eight support elements with slip resistance of about 500 kn each), the shelf movement after the impact of the lifting vessel is about 7 m. At that, the shelf is under load of 8 Mn. should calculate its bearing overlap.

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Claims (1)

Invention Formula A safety shelf comprising a supporting overlap with a shock-absorbing cushion and supporting elements mounted on it with limiters, characterized in that, in order to improve the reliability of the safety shelf, the supporting the elements are hinged on the overlap, and their working surfaces are made in the form of a logarithmic spiral, while on the working surfaces of the supporting elements they are rigidly symmetrical on both sides limiters are fixed, the working surface of each of which is equidistant to the working surface of the corresponding support element and offset from the working surface of the latter towards the hinge axis, with the hinge of each supporting element placed at the pole of the logarithmic spiral, made with a parametric angle less than the angle of self-braking of the supporting elements along the support material. / Fi.g.1 Fes.2