RU88366U1 - MINE FOR PLACING TECHNOLOGICAL EQUIPMENT - Google Patents

Abstract

1. A shaft for accommodating technological equipment, comprising a cylinder-shaped head with an entrance door and an air intake and removal device located above ground level, and a shaft of a shaft with an element for lowering and raising and fastening elements of technological equipment, characterized in that the barrel the mine, located below ground level to the top of the connecting adit and consisting of a technological zone and a maintenance zone, contains a frame structure made of composite materials Alves in the form of truss vertical struts, fixed with ends and along the entire length to horizontal support beams of working and intermediate platforms, attached to the mine wall, with jibs fixed on them, work and intermediate platforms covering structural elements of technological equipment, as well as fences, vertical and inclined staircases installed with different slopes, while shaped vertical racks are additionally interconnected profile pairs paired with a gap the elements that serve to attach cables and pipelines to them, each of the elements of the technological equipment fastening made in the form of a clamp covering a cable or pipeline and fastened to each of the pairwise located profile elements by ties installed in the gaps between the profile elements, and also contains parts of the head mounted on supporting structures lifting device made in the form of a monorail. ! 2. Mine according to claim 1, characterized in that the device for collecting and removing

Description

The utility model relates to the field of underground-ground engineering and construction structures and can be used as a mine structure in transport tunnels, for example, a subway for the installation and use of technological equipment associated with underground utilities and pipelines.

It is known that underground mines have a considerable depth (up to 100 meters) and are directly connected with horizontal tunnels through which passengers are transported, which makes high demands on installation, as well as safe and long-term operation of technological equipment located in such mines, and during operation requires constant monitoring of the state of technological equipment and the design of the mine, and, if necessary, the prompt replacement of faulty or outdated equipment . Currently, there are no known technical solutions that allow for reliable installation, constant monitoring and quick replacement of technological equipment in deep mines.

Periodic monitoring carried out, for example, using temporarily installed ladders or stationary steps mounted in the mine wall, with a significant depth of such mines does not allow timely diagnosis, replacement or repair of the technological equipment of the mine, which can lead to emergency situations. In addition, the descent into such a mine is unsafe for specialists, since it is impossible to know in advance its condition and the state of technological equipment at the time of the next inspection.

A technical solution is known, described in the British patent, No. 02270709, IPC E02D 29/12, 1994 publication for the invention: "Viewing well". In a known solution, a prefabricated inspection well, made in the form of a shaft for accommodating equipment associated with underground utilities or pipelines, has a base plate made of molded polymer, for example polypropylene, several load-bearing posts vertically mounted in guide bushings, and several side panels made of material such as propylene. The side panels, fixed between adjacent racks, form the vertical walls of the working chamber of the well with one or more side openings. An opening may be provided in the base plate. Openings and openings are used for laying pipes, cables or other communications.

The known technical solution has limited capabilities, as it can be used in mines having a shallow depth within 12-15 meters.

Closest to the claimed utility model is the technical solution described in patent RU No. 62940, IPC E02D 29/12 priority of December 11, 2006 for utility model: "Underground-ground structure-unit of communication devices" containing a head made in the form of a cylinder , with an entrance door and a device for air intake and removal, located above ground level, and a shaft of a mine with an element for lowering and lifting and fastening elements of technological equipment, Cable entries are installed above the ceiling part in the wall, and the head is fixed on and the neck and is connected with the shaft of the mine by means of an opening made in the center of the floor, while inside the head there are inlet pipes and elements for raising, lowering and fixing the equipment. In addition, the structure has two ventilation pipes with deflectors.

A well-known utility model cannot be used in deep mines, since there are no tools to quickly install technological equipment, as well as carry out constant monitoring of the condition and operational replacement of failed equipment.

In addition, there are no means to vertically move the equipment for its subsequent installation in the tunnel, as well as allowing service personnel to quickly and safely descend to great depths.

The task to which the present utility model is directed is to create a structure with wide functional capabilities, high reliability and durability by providing constant inspection, control and operational repair of the mine technological equipment.

The technical result is achieved by the fact that in the mine for placement of technological equipment containing a head made in the form of a cylinder, with an entrance door and a device for intake and removal of air located above ground level, and the shaft of the shaft with an element for lowering and raising and fastening elements of the technological equipment, the shaft of the mine, located below ground level to the top of the connecting adit and consisting of a technological zone and a maintenance zone, contains a frame structure made Composite materials in the form of shaped vertical posts fixed at the ends and along the entire length to horizontal support beams of working and intermediate platforms attached to the shaft wall, with jibs fixed on them, working and intermediate platforms covering the structural elements of technological equipment, as well as fences , vertical and inclined stairs installed with different slopes, while the shaped vertical racks are additionally interconnected in pairs arranged with azor profile elements that serve to attach cables and pipelines to them, each of the elements of the technological equipment fastening made in the form of a clamp covering a cable or pipeline and fastened to each pair of profile elements by couplers installed in the gaps between the profile elements, and also contains in the upper part of the head a load-lifting device mounted on supporting structures made in the form of a monorail.

In addition, the technical result is achieved in that the device for intake and removal of air is made in the form of a louvre grille.

The technical result is also achieved by the fact that the mine contains at least two working platforms and depending on the depth of the mine "n" intermediate platforms, as well as the fact that the working and intermediate platforms are made of composite materials and have a structure in the form of hollow cells.

The claimed technical solution is illustrated by drawings, where figure 1 shows a General view of the shaft for the placement of technological equipment, figure 2 shows a fragment of the fastening of technological equipment (cables and pipelines) to pairwise located profile elements, and figure 3 shows the fastening of the horizontal support beam of workers and intermediate sites to the wall of the shaft and the vertical rack.

The mine for the placement of technological equipment in accordance with the drawings (Figs. 1, 2, 3) comprises a cylinder head 1 with an entrance door 2 and a device for intake and removal of air 3, located above ground level, and a shaft 4 of the shaft located below the ground level to the mark of the top of the connecting adit 5. The barrel 4, consisting of technological zone A and maintenance zone B, contains a frame structure made of composite materials in the form of vertical posts 16, fixed with ends and along the entire length of horizontal support beams 17 working 6, 7 and intermediate 8, 9 sites. The horizontal support beams 17 are attached to the shaft wall 28. The jaws 18 connect diagonally the vertical struts 16 at the junctions with the horizontal support beams 17. At least two workers 6, 7 and, depending on the shaft depth, “n” intermediate platforms are installed on the horizontal support beams. Work and intermediate platforms are made of composite materials and have a structure in the form of hollow cells. This structure improves ventilation in the mine and does not create obstacles to the free movement of air in the mine. In figure 1, only two intermediate platforms 8 and 9 are indicated with fences 10, 11, 12, 13 that do not impede the free passage of air, covering structural elements of technological equipment (pipeline 14 and cables 15). The vertical racks 16 are additionally interconnected by profile elements 19, 20 pairwise arranged with a gap, having, for example, a rectangular shape in section, used to attach cables 15 and pipelines 14 to them, each of the technological equipment mounting elements made in the form of a clamp 21 ( figure 2), covering the cable 15 or pipe 14, and fastened to each of the pairwise arranged profile elements 19, 20 with ties 22, 23 installed in the gaps between the profile elements 19, 20. The shaft contains a vertical s stairs with guardrail 24 without fences 25, the inclined ladders 26 and comprises at the top of the well head 1 mounted on the cargo supporting structure 27 is formed as a monorail.

Before starting work, a shaft is installed and rigidly fixed on the inner vertical wall 28 of the shaft using brackets 29 and anchors 30 (Fig. 3) made, for example, of stainless steel, horizontal support beams 17 on which the platform 7 is installed. Horizontal vertical beams 16 are fixed to the supporting beams 17 of the working platform 7. In the same sequence, the horizontal supporting beams 17 are fixed on the inner wall 28 of the shaft for installing intermediate platforms 8 and 9, as well as the working platform 6 and the connection of the vertical posts 16 with the horizontal support beams 17 at the installation sites of these sites. Then, the jibs 18 and fences 10, 11, 12, 13 are installed. The vertical racks 16 connected together, the horizontal support beams 17 are intermediate 8, 9 and the working platforms 6, 7, the jibs 18 form a support truss. Then the workers 6, 7 and intermediate platforms 8, 9 are connected among themselves by vertical ladders 25 without a fence and inclined ladders 26, which can be installed at different angles, and a vertical ladder 24 with a guard for lowering into the connecting gallery 5 is installed. In the presented drawing (FIG. .1) the working 6 and intermediate 8 platforms, as well as the working 7 and intermediate 9 platforms are connected by inclined stairs 26, and the intermediate platforms 8, 9 are interconnected by vertical stairs 25 without a fence, for descent into The gallery 5 sets up a vertical ladder 24 with a guard. Vertical racks 16 are additionally connected to each other by profile elements 19, 20 pairwise arranged with a gap. Using intermediate platforms 8, 9 and workers 6, 7, fasten the cables 15 and / or pipeline using process equipment fasteners (clamps 21 and cable ties 22, 23) 14 with pairwise disposed profile elements 19, 20. The couplers in this case are made in the form of bolted joints installed in the gap between the profile elements and fixed with a washer and nut (figure 2). After that, a head 1, located above the ground level and made in the form of a cylinder, is installed in the upper part with an entrance door 2 and a device for intake and removal of air 3. In the upper part of the head 1, a lifting device 27 made in the form of a monorail is mounted on supporting structures. The mine wall 28 is covered with protective anticorrosive materials, for example, Konusit KK-10 protective mineral coating, which is resistant to aggressive gases and condensate drops.

This design solution eliminates the contact of corrosive gases with the structural elements of the mine, which prevents the destruction of the wall 28 of the mine and makes it safe for the operating personnel in the maintenance department B, who can, using working 6, 7 and intermediate 8, 9 sites, evaluate and regulate the work structures, as well as assess the condition of the wall 28 of the shaft and structural elements of technological equipment: cables, cable entries and other installation elements, as well as control devices I and automation elements, pipelines and air ducts, vertical struts 16, horizontal support beams 17, struts 18, workers 6, 7 and intermediate 8, 9 platforms, fences 10, 11, 12, 13, vertical stairs with fencing 24 and without fencing 25 , inclined stairs 26.

The claimed technical solution in comparison with the closest analogue provides a long trouble-free process of monitoring and monitoring the status of the technological equipment of the mine, as well as supplying and diverting communications from it.

The proposed design of the shaft allows at any time to monitor and control the state of the technological equipment and its quick replacement, using work platforms with fences, as well as using a lifting device 27 made in the form of a monorail for lifting equipment.

In addition, the proposed design of the shaft provides the ability to safely move staff along with replaceable equipment using a system of vertical and inclined ladders installed with a different slope, work and intermediate platforms.

The process of continuous monitoring of the condition of the walls of the mine, which is carried out using intermediate and working platforms, also allows timely repairs and maintenance, while ensuring the continuity and safety of operation of technological equipment.

In addition, the claimed technical solution simplifies and accelerates the construction and reconstruction of underground mines equipped with such devices, since it is possible to simultaneously carry out the installation of the frame structure, as well as the installation and fastening of technological equipment in it with a gradual increase in the required height of the frame structure.

It should also be noted that the shaft wall treated with anticorrosive materials, as well as the entire frame structure, have high corrosion resistance, reliability and durability, since all elements of the frame structure are made of composite materials, and technological equipment is also made of corrosion-resistant polymer materials.

Claims (4)

1. A shaft for accommodating technological equipment, comprising a cylinder-shaped head with an entrance door and an air intake and removal device located above ground level, and a shaft of a shaft with an element for lowering and raising and fastening elements of technological equipment, characterized in that the barrel the mine, located below ground level to the top of the connecting adit and consisting of a technological zone and a maintenance zone, contains a frame structure made of composite materials Alves in the form of truss vertical struts, fixed with ends and along the entire length to horizontal support beams of working and intermediate platforms, attached to the mine wall, with jibs fixed on them, work and intermediate platforms covering structural elements of technological equipment, as well as fences, vertical and inclined staircases installed with different slopes, while shaped vertical racks are additionally interconnected profile pairs paired with a gap the elements that serve to attach cables and pipelines to them, each of the elements of the technological equipment fastening made in the form of a clamp covering a cable or pipeline and fastened to each of the pairwise located profile elements by ties installed in the gaps between the profile elements, and also contains parts of the head mounted on supporting structures lifting device made in the form of a monorail. 2. Mine according to claim 1, characterized in that the device for intake and removal of air is made in the form of a louvre grille. 3. The mine according to claim 1, characterized in that it contains at least two working sites and depending on the depth of the mine "n" intermediate sites. 4. The mine according to claim 1, characterized in that the working and intermediate platforms are made of composite materials and have a structure in the form of hollow cells.