RU2715585C1 - Module for connection of pipes in shaft - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: disclosed is a module for connection of pipes in a shaft, intended for installation in a shaft for pipes, passing in the building. Said module comprises a support structure for holding pipe sections mounted in said module, wherein, when the module is connected to the floor in said shaft, the pipe sections protrude on both sides of the overlap through which said shaft extends. Module also comprises device for collection of leaks, in which there are holes for passage of pipe sections, wherein said device is configured to collect possible leaks occurring at connection points of other pipes with pipe sections passing through holes of said device. Also described is a method of installing pipes in a building shaft using such a module.

EFFECT: invention relates to a module for connection of pipes in a shaft and a method of installing pipes in a shaft.

14 cl, 4 dwg

Description

FIELD OF TECHNOLOGY

The present invention relates to a module for connecting pipes in a shaft and a method for installing pipes in a shaft of a building.

BACKGROUND

As a rule, a plumber installs pipes in a building shaft at a certain stage of construction. One problem with this installation is that an open shaft at the construction site can be hazardous to workers. Another problem regarding the connection of pipes in a building is the need to ensure that possible leaks are detected at the joints. If leaks are not detected on time, this can lead to serious damage to materials in the building.

SUMMARY OF THE INVENTION

The aim of the invention is to provide an improved device and method for installing pipes in the mine building. The goal is also to provide greater safety and efficiency when installing pipes.

This goal is achieved by creating a module for connecting pipes in the mine shaft of the building, intended for installation in the specified mine, and the specified module contains:

- a support structure designed to hold the pipe sections located in the specified module, while when the specified module is attached to the floor in the shaft, these pipe sections protrude from both sides of the floor through which the shaft passes, and

- a device for collecting leaks, in which holes are made for the passage of these pipe sections, while the specified device is configured to collect possible leaks that occur at the junction of other pipes with pipe sections passing through the holes in the specified device.

In addition, this goal is achieved thanks to the method of installing pipes in the mine shaft of the building, which includes the following steps:

- assembly of pipe sections located in the specified shaft, in the corresponding module, made according to the present invention;

- passing the specified pipe sections through holes made in the device for collecting leaks of the specified module;

- installation of the specified module in the mine building;

- joining the specified module to the overlap through which the specified shaft passes, using appropriate connecting means;

- the connection of other pipes to the pipe sections located in the specified module.

Thus, a module is provided for connecting pipes in the shaft, which is configured to be installed in the shaft of the building. Thanks to this module, during the construction process, the safety risk that exists with an open shaft is excluded. Moreover, thanks to the present invention, the installation of pipes in the shaft of the building will be more efficient, since the pipes are already located in the specified module, and it is possible to make the joints between the pipe sections at a convenient working height between the floors of the building. In addition, it is possible to effectively collect any leaks at the junction of the pipes using the specified device for collecting leaks, and there is no need to take additional measures to detect leaks.

Various embodiments of the present invention are described in the dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts a module for connecting pipes in a building shaft made in accordance with one embodiment of the present invention.

FIG. 2 is a plan view of the module shown in FIG. 1.

FIG. 3 depicts two modules according to one embodiment of the invention and located in a corresponding mine shaft.

FIG. 4 depicts a block diagram of the proposed method.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

According to the present invention, there is provided a module 1 for connecting pipes in a shaft, configured to be installed in a shaft of a building. Said module 1 is hereinafter referred to as module 1. In FIG. 1 and 2 show one embodiment of the invention, with FIG. 2 is a plan view of the module shown in FIG. 1. In FIG. 3 shows two modules according to this invention, each of which is attached to the ceiling 2, 2 'in the respective shaft. According to the present invention, module 1 comprises a support structure 3 for holding pipe sections 5 mounted in module 1. When module 1 is attached to the floor in the shaft, pipe sections 5 protrude on both sides of the specified floor through which the shaft passes. The pipe sections 5 located in the module 1 can be made with or without insulation. Module 1 also contains a device 7 for collecting leaks, in which holes 9 are made for passing pipe sections 5, one in each hole 9. Device 7 for collecting leaks is configured to collect possible leaks at the junction of other pipes with pipe sections 5 passing in holes 9 of device 7.

In the embodiment shown in FIG. 1 and 2, eight tube sections 5 are shown surrounded by a supporting structure 3. The number of tube sections may vary. In the embodiment shown in FIG. 3, seven tube sections 5 are shown. As shown in FIG. 1, 2 and 3, one of the pipe sections 5 has a larger diameter. Such a pipe having a larger diameter can be used as a drain pipe, for example, for a bathroom and a drain. Also in the specified module can be placed several tube sections having a larger diameter. The diameters of the pipe sections may be different as well as the number of said sections. The supporting structure 3 may include a rectangular box-shaped frame 11, which is shown in the presented embodiments of the invention. The frame 11 surrounds one part of the pipe sections 5, which protrudes above the overlap 2, 2 ', when the specified module is attached to the overlap 2, 2'. In this embodiment, the frame 11 is connected to a leak collection device 7. The frame 11 of the supporting structure 3 is designed to hold the device 7 at a distance above the overlap 2, 2 ', when the module 1 is attached to the overlap 2, 2' of the specified shaft. Module 1 also contains additional means 13 for connecting to the ceiling, attached to the supporting structure 3 to provide a connection of module 1 with the ceiling 2, 2 '.

In this embodiment, the supporting structure 3 also includes a stabilization plate 15 attached to the frame 11. The plate 15 is perpendicular to the direction along which the pipe sections 5. The holes 15 are made in the plate 15 to accommodate the pipe sections 5, one in each hole 17. Dimensions the holes 17 can be selected in accordance with the pipe sections 5 having various diameters and made with or without insulation. According to this invention, at least one pouring hole 19 is made in the stabilization plate 15, in which concrete can be poured if it is necessary to fill the shaft hole in the ceiling after installing module 1. In this embodiment, the plate 15 is arranged to be placed substantially at the level of the specified floor or several centimeters higher when the module 1 is attached to the specified floor. However, it is also possible to arrange the plate 15 further from the specified overlap and closer to the device 7. The stabilization plate 15 is made with the possibility of connection with the frame 11, for example, at the corners. The main purpose of the plate 15 is to keep these pipe sections at a distance from each other and in the required positions. An embodiment may also be provided in which there is no stabilization plate 15. In such an embodiment, the pipe sections 5 are more freely suspended on the device 7 to which they are attached. In this case, under the specified overlap, a casting plate 27 (described in detail below) can be made, designed to stabilize and hold the pipe sections in the required positions.

The supporting structure 3 can be made in various ways. The supporting structure 3 is designed to hold and support the pipe sections 5 so that these sections pass through the overlap 2, 2 'to which the specified module is attached.

The device 7 may be part of the supporting structure 3 and, in one embodiment, comprises fastening means 20 for attaching pipe sections 5 extending in the openings 9 to the device 7. The fastening means 20 are shown in FIG. 2.

The holes 9 made in the device 7 for collecting leaks for passing the pipe sections 5 can be made for these pipes, which are made with or without insulation. Seals 21 should be made in the openings 9 to prevent leakage of any leaks occurring at the pipe connection points above through the device 7. In addition, an outlet 23 is made in the device 7, which is shown in FIG. 2. The outlet 23 is designed to collect possible leaks at the junction of the pipes above the device 7. The outlet 23 may have various sizes, shapes and locations in the device 7. A pipe for detecting leaks must be connected to the outlet 23, which can be made in in a building, for example, in a bathroom, where it is necessary to provide the possibility of detecting possible leaks. The device 7 can be made in the form of a container having a bottom in which openings 9 are made and walls surrounding said bottom, as shown in FIG. 1-3. In the presented embodiments, the device 7 is connected to the frame 11. In another embodiment of the present invention, the device 7 may have a different design. To collect leaks, some capacity is required through which the indicated pipe sections can pass. In the event that, in some other embodiment of the invention, the leak collector is not connected to the support structure, said support structure must have a part for holding and attaching said pipe sections to it. In the embodiment shown in FIG. 1-3, the fastening and holding of the pipe sections 5 is provided using the device 7.

In one embodiment of the present invention, module 1 may also include a filling plate 27 in which openings 29 are provided for passage of the pipe sections 5. The plate 27 is located under the overlap 2, 2 'and closes the shaft opening made therein. Thus, if it is necessary to fill the shaft hole in the ceiling 2, 2 'after installing the specified module in the ceiling, concrete, which is poured into the hole 19 in the stabilization plate 15, remains within the ceiling 2, 2'.

According to the present invention, module 1 can be delivered to the customer or to the construction site with or without pipe sections 5 installed. If module 1 is supplied without pipe sections, any desired number of pipe sections can be placed in the specified module before it is installed in the mine.

In FIG. 3 shows two modules made in accordance with one embodiment of the present invention and located in the corresponding hole of the shaft, made in the overlap 2, 2 '. Two modules 1 are shown to illustrate how the tubing sections of the two modules can be connected. One module is provided for each floor of the building, and if there are several floors in the building, the pipe sections 5 of one module 1 must be connected to the pipe sections 5 of the other module 1. The pipe sections 5 are connected at a convenient working height. The location of the leakage collecting device 7 and the height of the frame 11 are selected so as to provide the necessary working height for connecting the pipe sections.

The size and shape of the specified module and the number of pipe sections located in the module can be selected for mines of different types. In the embodiment of FIG. 1-3, said module has a rectangular shape, but any other shape is possible. In most cases, the shape of the module will be the same as the shape of the shaft, or will be close to it. In addition, the insulation of the pipe sections can be ensured already after their location in the specified module, which will allow for the installation of pipes in the mines more efficiently and save time. Moreover, due to the fact that the specified module is installed in the mine, there is no risk to safety when the mine is open at the construction site. In addition, since a leak collection device is included in the design of said module, there is no need to provide additional measures for this aspect. The possibility of attaching a leak detection pipe is already provided in the leak collection device.

Also according to the present invention, a method for installing pipes in a mine shaft. A block diagram of this method is shown in FIG. 4, wherein said method comprises the following steps:

S1: assembly of pipe sections 5 mounted in a shaft in module 1 as described above.

S3: passing the pipe sections 5 through the holes made in the device 7 for collecting leaks of the specified module 1.

S5: installation of module 1 in the mine shaft.

S7: connection of the module 1 with the overlap 2, 2 ', through which the shaft passes, using the appropriate means 13 connection with the overlap.

S9: connection of other pipes to pipe sections 5 installed in module 1.

In one embodiment of the present invention, step S3 also includes the step of securing the pipe sections 5 in the leakage collecting device 7 and making seals 21 in the openings 9 for arranging the sections 5 in the device 7. Possible leaks collected by the device 7 and leaked from located above the pipe junction, can be brought out through the hole 23 made in the device 7, into the pipe for leak detection, which is connected to the specified hole.

According to one embodiment of the present invention, said method also includes the step of providing a casting plate 27 for module 1 after attaching the module 1 to the ceiling 2, 2 ′. Holes 29 are made in said plate for accommodating pipe sections 5, moreover, plate 27 is located on the underside of the floor, the method also comprising the step of filling the shaft opening in said floor.

According to one embodiment of the present invention, said method also includes connecting pipe sections 5 arranged in one module 1 made according to the present invention with pipe sections 5 of another module 1 made according to the invention, said connection being made over a leak collecting device and necessary working height.

According to one embodiment of the present invention, one module 1 is provided for each floor in the building.

Claims (23)

1. A module (1) for connecting pipes in a shaft, intended for installation in a shaft for pipes passing in a building, said module (1) comprising: - a supporting structure (3) designed to hold the pipe sections (5) installed in the specified module (1), while the pipe sections (5) protrude from both sides of the ceiling (2, 2 ') through which the specified shaft passes when the module (1) is attached to the specified overlap (2, 2 ') of the shaft, and - a device (7) for collecting leaks, having openings (9) for passing said pipe sections (5), while said device (7) is configured to collect possible leaks at junctions of other pipes with said pipe sections (5) passing in the holes (9) of the specified device (7). 2. The module according to claim 1, in which the supporting structure (3) is configured to hold said device (7) at a distance above the ceiling (2, 2 ') when said module (1) is attached to the ceiling (2, 2') mine, while the specified module (1) contains additional means (13) for connecting with the ceiling, attached to the supporting structure (3) to enable the connection of the specified module (1) with the ceiling (2, 2 '). 3. The module according to claim 1 or 2, wherein said support structure (3) comprises: - a frame (11) surrounding one part of the pipe sections (5) that extend above the ceiling (2.2 ') when said module (1) is attached to the ceiling (2.2'); and - stabilization plate (15), which is attached to the frame (11), is perpendicular to the direction along which the pipe sections (5) pass, and has openings (17) for passage of the pipe sections (5), and the stabilization plate (15) is intended for the location between the ceiling (2, 2 ') and the specified device (7) for collecting leaks, when the specified module (1) is attached to the specified ceiling (2.2'). 4. The module according to any one of paragraphs. 1-3, in which the specified device (7) for collecting leaks is part of the supporting structure (3) and contains fastening means (20) for attaching pipe sections (5) passing through the holes (9) to the specified device (7). 5. The module according to any one of paragraphs. 1-4, in which in each of the holes (9) of the specified device (7) for collecting leaks passes one pipe section (5), while in these holes (9) there are seals (21) designed for pipe sections (5 ) passing through the indicated holes (9). 6. The module according to any one of paragraphs. 1-5, in which the specified device for collecting leaks has an outlet (23) to facilitate the movement of the collected leaks from the specified device (7), while the outlet (23) has a connecting element for a pipe for detecting leaks. 7. The module according to any one of paragraphs. 1-6, containing a filling plate (27) having openings (29) for passing pipe sections (5), while the plate (27) is designed to be located under the overlap (2, 2 ') and to close the openings of the specified shaft, made in overlapping (2, 2 '), to ensure the possibility of filling after installing the specified module (1). 8. The module according to any one of paragraphs. 1-7, made with the possibility of connection with another module (1) located in an adjacent overlap, by connecting the pipe sections (5) of these two modules (1). 9. The module according to any one of paragraphs. 1-8, containing pipe sections (5) installed in the specified module (1). 10. A method of installing pipes in a mine shaft, comprising the following steps: - assembly of pipe sections (5) installed in the shaft, in the module (1) for connecting pipes in the shaft, made according to any one of paragraphs. 1-9; - passing pipe sections (5) through the holes (9) in the device (7) for collecting leaks of the specified module (1); - installation of the specified module (1) in the mine building; - attaching the specified module (1) to the floor (2, 2 '), through which the specified shaft passes, using means (13) for connecting to the floor; - the connection of other pipes to the pipe sections (5) located in the specified module (1). 11. The method according to p. 10, in which the pipe sections (5) are fixed in the indicated device (7) for collecting leaks, seals (21) are placed in the holes (9) in which the pipe sections (5) pass in the specified device (7) ), and possible leaks collected in the specified device (7) from the pipe connection points above the specified device (7) are removed through the outlet (23) in the specified device (7) into the connected pipe for leak detection. 12. The method according to p. 10 or 11, in which a filling plate (27) is placed in the indicated module (1) after attaching the module (1) to the ceiling (2, 2 '), wherein said plate (27) has openings (29 ) for the passage of the pipe sections (5), and the specified plate is placed on the lower side of the floor (2, 2 '), while in the specified method, cement is poured into the mine openings in the specified floor. 13. The method according to any one of paragraphs. 10-12, in which the pipe sections (5) of one module (1), made according to any one of paragraphs, are connected. 1-9, with pipe sections (5) of another module (1), made according to any one of paragraphs. 1-9. 14. The method according to any one of paragraphs. 11-13, in which one module (1) is used to connect the pipes in the shaft for each floor of the building.

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