RU2027010C1 - Protective device for deepening mine vertical shafts - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: protective device for deepening mine vertical shafts includes sinking platform with distributing and shock-absorbing member located above sinking platform and flexible yielding material with vertical cavity arranged in it and which is limited from atop with shock absorber and shield, and from the bottom, with sinking platform. Diffuser is coaxial with cavity. Arranged in mass of flexible yielding material are circular compensation- recovery vessels provided with valves and supplying pipelines. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to mine construction and may find application in the deepening of vertical shafts of mines.

 Known safety device for deepening the vertical shafts of the mines [1]. It includes shelves, a shock-absorbing element placed above it, made in the form of a ring with strings fixed on it interwoven with each other, an elastic-flexible material located in the gap between the shelf and the strings, and a metal sheet placed adjacent to the strings covering the surface of the elastic-flexible material . The strings are attached to the ring using a thimble mount. The ring is fixed in the lining with anchor bolts.

 The disadvantages of the device: when it is dismantled, there are significant labor costs for the removal of elastic-pliable material; in the case of a heavy object falling into the barrel, the elastic-flexible material is compacted and completely loses its elastic-flexible properties, which can lead to an accident when the heavy object falls again.

 Also known is a safety device for deepening vertical shaft mines [2] (prototype). It includes shelves, a cushioning element placed above it, made in the form of a ring with strings fixed on it interwoven with each other, an elastic-flexible material located in the gap between the shelf and the strings, and also a shield placed adjacent to the strings covering the surface of the elastic-flexible material . A cavity is formed in the array of elastic-pliable material, for example, in the form of a metal hollow cylinder. In the upper part of the cavity between the side surface of the cylinder and the shield there is a shock absorber, for example, in the form of a rubber inflatable balloon. The lower base of the cavity is attached to the shelf. Under the shelf, a diffuser is mounted coaxially with the cavity.

 A disadvantage of the known device is that in the event of a heavy object falling, the resiliently malleable material is compacted and completely loses its resiliently pliable properties, which can lead to an accident when a heavy object re-falls into the barrel.

 The purpose of the invention is to increase the reliability, shock-absorbing properties of the device, as well as providing the possibility of their systematic recovery during operation.

 This goal is achieved by the fact that in the array of elastic-compliant material placed annular compensation-recovery tanks equipped with valves and supply lines.

 The interconnection of the above features allows to increase the reliability, shock-absorbing properties of the device, as well as to ensure the possibility of their systematic recovery, which determines the receipt of a positive effect.

 The use of each of the listed features in the total set of features of a technical solution to this problem allows you to achieve a positive effect from the use of this technical solution. Each of these features is significant. The exclusion of any feature from the total population or the use of them alone is not in the general population, as well as the described sequence of actions does not allow to achieve a positive effect. This determines the materiality of the signs for solving the problem posed by the applicant. Each of the essential features is inseparable from one another, therefore, they entered into interaction during their implementation.

 The result of the analysis of technical solutions known in science and technology at the moment indicates the absence of the considered features in this aggregate, they are new, i.e. This technical solution has novelty.

 The drawing shows a device, a longitudinal section.

 The safety device includes a shelf 1, over which a shock-absorbing element 2 is placed, made in the form of a ring 3. On the ring 3, interlinked strings 4 are fixed. An elastic-flexible material 5 is located in the gap between the shelf 1 and strings 4. A shield is placed close to the strings 4 6, laid on the surface of an elastic-flexible material 5. The strings 4 are attached to the ring 3 with the help of the eyelet 7. The ring 3 is fixed in the roof support of the barrel 8 with anchor bolts 9.

 In the array of resiliently pliable material 5, a cavity 10 is formed, for example, in the form of a metal hollow cylinder or a wooden blockhouse. Between the shield 6 and the upper part of the side surface of the cylinder is a shock absorber 11. It can be made in the form of a rubber inflatable balloon or cavity. The lower base of the cavity 10 is fixed on the shelf 1. Coaxially with the cavity 10, a diffuser 12 is fixed under the shelf 1. In the array of resiliently flexible material 5 there are annular compensation-recovery tanks 13 made of rubber or rubber-fabric material. They are filled with a working agent, such as air. The annular compensation-recovery tanks 13 are equipped with valves 15 and supply lines 14, which, if necessary, are connected to cylinders or lines of a working agent, for example, a mine shaft of compressed air.

 Safety device operates as follows.

 When a heavy object, such as a lifting vessel, falls into the barrel, it hits the strings 4 of the shock-absorbing device. They bend, exerting pressure on the shield 6. The shield 6, compressing the shock absorber 11, seals the elastic-flexible backfill 5 located on the shelf 1. At the same time, compensation-recovery tanks 13 take on part of the impact energy, which are filled with a working agent, for example air compressible by an elastic-flexible material 5. When compressing the annular compensation and recovery tanks 13 of them through the valve 15 partially leaves the working agent (air). After the complete repayment of the energy of a fallen heavy object, it is removed. In this case, the position of the strings 4 and the shock absorber 11 is restored, and the elastic-pliable material has a reduced level due to compaction. Therefore, to restore the cushioning properties of the resiliently flexible material 5 through the supply lines 14, a working agent, for example, air, is pumped into the annular compensation and reduction tanks until the resiliently compliant material 5 of the design level and loosening coefficient is completely restored. To pump the working agent, the supply lines 14 are connected to cylinders or lines of the working agent, for example, compressed air lines in the mine. After the restoration of the volume of tanks 13, the mains 14 are disconnected from the source of the working agent. This operation is repeated if necessary.

 The invention improves the reliability of the protective device, cushioning properties, as well as to ensure the possibility of their systematic recovery during prolonged use of the device in the event of repeated falls of heavy objects.

Claims (1)

 SAFETY DEVICE FOR DEPTHING VERTICAL SHAFT SHAFT, including shelves with a distribution and shock-absorbing element placed above it, resilient material with a vertical cavity located in its array, bounded by a shock absorber and a shield on top, and a shelf located below, and a diffuser fixed coaxially with the cavity under the shelf the fact that in the array of resiliently flexible material are placed annular compensation-recovery tanks equipped with valves and supply lines.

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