SU1739038A1 - Travelling sinking platform - Google Patents

Abstract

Usage: in the structures of suspended tunnels used for sinking vertical shafts of mines. SUMMARY OF THE INVENTION: The sealing device of the shelf is made in the form of sectional air bellows, covered with rods and installed on the outer side of the annular body, and has reverse valve spool valves and ejection devices, while each section is provided with an additional pneumatic air bag that communicates with the main and installed on the other side of the annular body. , and part of each rod is made in the form of a tire, with the spools and ejection devices installed between the pneumatic cylinders. 5 il.

Description

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The invention relates to mining, in particular, to the construction of suspended tunnels, and can be used when sinking vertical shafts of mines.

Known suspended tunnel shelves, containing the floor pads connected by vertical uprights, and having a sealing device in the form of folding flaps, designed to close the gaps between the annular rim of the shelf and the concrete walls of the trunk.

A disadvantage of the known device is the unreliability of sealing gaps, since when raising and lowering the shelf, the guards can spontaneously recline, which leads to their separation and thus

reduces the safety of maintenance work. In addition, the installation of plates in the working position requires a significant investment of time.

Closest to the present invention is a suspended tunneling shelf, which includes a suspension bracket, storey platforms rigidly connected with an annular body, and a sealing device, gripped by drags, and made in the form of sectional air bellows mounted on the outer side of the body.

The disadvantage of this shelf is the presence of a large number of mechanical (spring) devices designed to ensure faster air removal when it is released from the pneumocylinders and squeeze

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cylinders with tires in the cavity of the annular body.

These spring devices are unreliable, both according to the conditions of use and the design.

The conditions of penetration of vertical shafts are associated with the performance of works on the erection of concrete lining, possible leaks of the concrete solution and hitting it on equipment located in the trunk. When concrete hits parts of the spring device, springs, springs and into the sleeves, it is possible that the mechanism is completely or partially jammed (jammed). The conditions of his work are worsened by the presence of high humidity and metal corrosion in the barrel.

The design of the sealing device of the prototype assumes that the main part of the working time, apart from the periodic movement of the shelf along the shaft, must be with an excessive air pressure, which causes the springs to be in an extended state. This mode of operation can lead to a gradual deterioration of their performance due to relaxation, stretching or gusts. It should be noted that the production of a large number of springs with stable characteristics is possible only with good spring steels and high-quality heat treatment,

An analysis of the totality of all factors associated with the manufacture, design, and especially the conditions of use, shows the unreliability of the practical use of the spring device on the sinking shelf. Installation on the shelf of sealing devices made according to the design of the prototype may lead to the appearance of gaps between the concrete surface and sections of the pneumocylinders in the zone of their coverage with belts after bringing the shelf into working position or to wear and the appearance of through holes in the cylinders and tires the movement of the regiment along the trunk, which in both cases violates the safety of the excavation work.

The aim of the invention is to increase the reliability and speed of operation of the suspended track shelf.

The goal is achieved in order to increase the reliability and speed of operation of the shelf, it is equipped with non-return spool valves and ejection devices, each section being equipped with an additional pneumatic cylinder communicated with the main and installed on the other side of the ring body, and part of each gi is made in the form of a tire, and the spools and ejection devices are installed between

pneumocylinders.

Figure 1 shows the suspended tunneling regiment, a general view; figure 2 - section aa in figure 1; fig.Z - ejection device; figure 4 - pneumatic

0 scheme; Fig. 5 shows the design of a spool check valve.

Suspended driving regiment consists of floors 1 and 2, interconnected by vertical posts 3, and

5 suspensions 4. On the floor sites there are air supply manifolds 5 and 6, as well as a compressed air line 7. Floors are rigidly connected to an annular casing 8, in which sectional pneumatic cylinders 9 are located on both sides of the vertical wall. Cylinders located along the outer perimeter of the annular casing are connected to manifold 6 through fittings

5 along the inner perimeter of the annular body, are connected to the collector 5. The sealing device of each storey floor is divided into sections formed by two cylinders, one of which is located outside, and the second inside the annular body, covered by a tire 10 with sockets 11, passing through the windows in the vertical wall of the ring body. The collectors 5 and 6 are interconnected and

5 by compressed air through a pipe system, valves 12–15, slide valve 16 and 17, and ejection devices 18 and 19. Spool valves 16 and 17 consist of a housing and located inside the slide with sealing rings. The ejection devices consist of a housing 19, a compressed air pipe 20 and a pipe 21 connected through a spool valve and valve to one of the

5 collectors.

Driving shelves works as follows.

After installing the shelf in working position and connecting the line 7 compressed

0 air, air is supplied to the manifold of 6 air bellows located along the outer perimeter of the annular body at each level site. When opening the twin valves 12 and 13

5, the air under pressure enters the ejection device from the line 7 and from the pneumocylinders located along the inner perimeter of the annular body through the manifold 5 and the non-return valve 16, where

by pressure, the slide moves all the way to the right, opening the air passage.

In an ejection device, a velocity jet of air supplied through pipe 20 from compressed air line 7 creates a vacuum (pressure drop) in pipe 21, which ensures accelerated air flow from cylinders located along the inner perimeter to cylinders located along the outer perimeter of the ring body. The air flow from the manifold 5 into the manifold b occurs before a certain set pressure is established in the manifold b, the value of which is determined by the ratio of the diameters d and D in the channels of the valve body of the non-return spool valve 16. When this set pressure is reached, the valve spool moves back to the extreme left position, ensuring the discharge of remaining air from the cylinders and manifold 5 through the annular groove of the valve into the surrounding atmosphere. Subsequently, pressure build-up occurs in the manifold 6 and the cylinders associated with it, due to the inflow of compressed air from line 7 through the pipe 20.

Increasing the pressure in the cylinders 9 located along the outer perimeter of the annular body leads to the overlap of the gap between the regiment and the concrete support, as well as through the tires 10c 11 and 11, to the compression of the cylinders located along the inner perimeter of the annular body and squeezing air residues out of them. By pressurizing the cylinders overlapping the gaps, the shelf is ready for operation, after which the valves 12 and 13 can be closed.

Paired valves 14 and 15 must be closed during the whole period of preparation of the regiment to work.

When the shelf is prepared for movement along the trunk, the valves 14 and 15 are opened (with the valves 12 and 13 closed), as a result of which the process opposite to that described occurs, i.e. the flow of air from the cylinders located along the outer perimeter of the annular body into the cylinders located along the inner perimeter of the ring, their filling and the accumulation of pressure from

compressed air coming from the line, which is accompanied in each section by squeezing the external cylinders with their tires, putting them into the annular

casing and squeezing air from them. After this process is completed, the preparation of the shelf for movement along the trunk is completed and the valves 14 and 15 can be closed. Thus, in each section of the sealing device, the cylinders are alternately filled with compressed air located on opposite sides of the vertical wall of the annular body of the shelf, depending on

In addition, the shelves are being prepared for operation or movement along the trunk.

When using the proposed overhead tunneling shelf, the reliability of the sealing

devices of the shelf, as in the proposed technical solution there are no mechanical, in particular spring, devices and the preparation of the shelf for work or for moving it along the barrel is carried out by supplying compressed air to the cylinders, and also speeding up the shelf into a working or transport position, How is the filling of cylinders from two sources of compressed air using the effect of ejection?

Claims (1)

Invention Formula Suspended driving shelves, including a suspension, floor platforms, rigidly connected with an annular body, and a sealing device, covered by rods and made in the form of section air bellows, mounted with the outer side of the case, characterized in that, in order to increase the reliability and speed of operation of the shelf, it is equipped with non-return spool valves and ejection devices, each section being provided with an additional pneumatic air bag communicated with the main and mounted on the other side of the ring body, and part of each The rods are made in the form of a tire, and the spools and ejection devices are installed between the cylinders. 9,10 BUT Schig.1 with so about SP from f "NJ Zf1 f Y // AY /// v77, . ULT / YATTTTL fi & / sixteen Ttl u ze -