RU222277U1 - Modular building engineering panel - Google Patents

Abstract

The utility model relates to construction, in particular to the construction of buildings with a frame made of light metal structures and prefabricated volumetric modules. The technical result is to ensure rapid installation of the main highways of utility networks at a construction site with the ability to perform repeated installation and dismantling of the product without loss of its operational characteristics. Engineering panel of a modular building, containing upper and lower frames and partitions connecting the frames, transverse beams connecting opposite sides of the frames, together forming a frame, elements for fastening the panel to the modular building, while utility lines are laid inside the frame, characterized in that the fastening elements The panels to the modular building are made in the form of fastening plates and installed on the upper frame, and fastening is carried out using a bolted connection. 7 salary f-ly, 3 ill.

Description

The utility model relates to construction, in particular to the construction of buildings with a frame made of light metal structures and prefabricated volumetric modules.

The advantage of buildings with a frame made of lightweight metal structures and prefabricated volumetric modules is their rapid erection, due to the maximum localization of work in the factory. When constructing buildings using the above technologies, most of the labor and time costs at the construction site are taken up by the installation and laying of utility lines.

From the field of technology, a technical solution is known, described in the patent of the Russian Federation No. 156123 for a utility model: “Block for engineering communications”, IPC E04B 1/00, priority dated April 13, 2015. The block contains a supporting base, made in the form of a reinforced concrete body, in which the ventilation ducts of the premises and a prefabricated ventilation duct are located. In addition, the housing is equipped with a vertical channel of circular cross-section with a riser pipe for household sewerage made of polypropylene built inside it, and in the communication niche there are riser pipelines for cold and/or hot water supply, heating and/or air conditioning, with fastening to one of the inner walls of the niche, for example, using clamps. In the upper end part of the body, installation and transport anchors are embedded, having internal threads, which are used for screwing into them slinging loops or metal rods of different heights, which have an external thread on one side and a conical tip on the other side and are the guiding elements necessary for precise joining of blocks with each other when performing installation work, and in the lower end part of the body there are corresponding technological holes, which are the entrance to these metal rods. The blocks are installed as follows. After installing the starting block on the interfloor slab formwork, the horizontal groove of the block is sealed at the level of the interfloor slab during the process of pouring the floor with concrete; carry out installation (screwing) into the installation and transport anchors of the upper end part of the installed block of guide metal rods of different heights; install in pipelines of abutting blocks of connecting pipes with sealing rings made of porous rubber; The blocks are joined along guide rods that enter with their conical part into the technological holes located on the lower end part of the block installed on top. Then the formwork of the next interfloor floor is installed and poured with concrete, so that the horizontal groove of the block is monolithic at the floor level. The joining of blocks occurs at a level above the level of the interfloor ceiling by 300-350 mm. Due to the large weight and dimensions.

The disadvantage of the known solution is that reinforced concrete acts as the load-bearing system of the block - a material that is unreasonably heavy for use in buildings made of light metal structures.

The closest technical solution is “Engineering module and method of its installation” (RU (11) 2 645 315 (13) C1 publ. 02.20.2018) The technical result of applying the solution of the above patent: increasing reliability, maintainability and reducing construction time. In an engineering module containing a supporting base in which a riser pipeline for domestic sewage, heating, riser pipelines for cold and hot water supply, as well as a main air duct with distribution of pipes for the ventilation system are installed, the supporting base is made in the form of a frame and contains at least two horizontal installed elements, one of which, located in the lower part of the frame, is an element for reinforcing the frame and contains elements for fixing pipelines, the other element, installed in the upper part of the frame, is a load-bearing interfloor element of the frame, as well as a formwork element for pouring the interfloor ceiling and contains fixedly installed conductors, as well as elements for fixing pipelines, and the frame in the upper part additionally contains elements for positioning and aligning the module when docking, as well as mounting lugs, while a distribution and metering unit for water supply and heating is installed in the frame.

This technical solution was adopted as a prototype.

The disadvantage of the known solution is that it is intended for installation of utility networks in a specially equipped shaft in a vertical plane, followed by embedding the fastening in the floor slab. The solution implemented in the prototype is relevant for capital construction, but for prefabricated and modular buildings it is more typical to lay utility networks in corridor spaces for which the product is not suitable. Also, the solution is not intended for repeated use when assembling and disassembling buildings.

The technical problem is the development of a design that allows the installation of utility networks during the assembly of prefabricated modules, with the possibility of repeated installation and dismantling of the product.

The technical result is to ensure rapid installation of the main utility lines at a construction site, with the ability to perform repeated installation and dismantling of the product without loss of its operational characteristics.

The specified technical result is achieved by the fact that in an engineering panel of a modular building containing upper and lower frames and partitions connecting the frames, transverse beams connecting opposite sides of the frames, together forming a frame, elements for fastening the panel to the modular building, while lines of engineering lines are laid inside the frame communications, according to the utility model, the elements for fastening the panel to the modular building are made in the form of fastening plates and installed on the upper frame, and fastening is carried out using a bolted connection.

The frame can be made of metal.

The frame can be made of steel.

The frame can be made of aluminum alloy.

Utility lines can be made in the form of pipes.

Utility lines can be made in the form of rectangular beams.

Utility lines can be made in the form of U-shaped beams.

The frame can be a three-dimensional spatial structure in the shape of a rectangular parallelepiped.

The design is illustrated by images, where

in fig. 1 shows a general view of the panel;

in fig. 2 shows the panel as part of the building;

in fig. 3 way to attach the panel to the main module structures.

Positions on the figures:

1 – upper frame,

2 – lower frame,

3 – partitions connecting frames,

4 – transverse beams,

5 – utility lines

6 – elements for fastening the panel to the modular building,

7 – modular building.

The engineering panel (Fig. 1) of the modular building contains the upper 1 and lower 2 frames and partitions 3 connecting the frames, transverse beams 4 connecting the opposite sides of the frames 1 and 2, together forming a frame secured by fastening elements 6 of the panel to the modular building 7. Inside The frame contains utility lines 5. The fastening elements 6 of the engineering panel to the modular building 7 are made in the form of fastening plates and installed on the upper frame 1, and the fastening is carried out using a bolted connection.

This design of the engineering panel, in which the fastening elements of the panel 6 to the building 7 are made in the form of fastening plates and installed on the upper frame, and fastening is carried out using a bolted connection, allows you to fasten the panel to the ceiling part of the modular building and conduct communications along the upper part of the module, with This ensures ease of installation of the panel, quick installation of the main utility lines at the construction site, the possibility of multiple installation and dismantling of the panel and communications, the free area of the module is used and the useful area of the internal space of the module is preserved.

The frame can be made of metal, such as steel or aluminum alloy. Made of metal, it allows for easy installation of the panel, quick installation of the main utility lines at the construction site, and the possibility of repeated installation and dismantling of the panel and communications.

Utility lines 5 can be made in the form of pipes.

Utility lines 5 can be made in the form of rectangular beams.

Utility lines 5 can be made in the form of U-shaped beams.

The frame can be a three-dimensional spatial structure in the shape of a rectangular parallelepiped.

A modular building was manufactured in which the fastening elements of the panel to the modular building were made in the form of fastening plates and installed on the upper frame, and the fastening was performed using a bolted connection. In the prototype, the frame was made of steel. At the same time, the installation of the panel and communications was carried out in a short time, and fastening the panel with a bolted connection will allow, if necessary, to quickly dismantle the panel and communications.

Consequently, the claimed utility model makes it possible to provide a technical result, which consists in ensuring the rapid installation of the main highways of utility networks at a construction site, with the ability to carry out repeated installation and dismantling of the product, without loss of its operational characteristics.

Claims (8)

1. An engineering panel of a modular building, containing upper and lower frames and partitions connecting the frames, transverse beams connecting opposite sides of the frames, together forming a frame, elements for fastening the panel to the modular building, with utility lines laid inside the frame, characterized in that elements for fastening the panel to the modular building are made in the form of fastening plates and installed on the upper frame, and fastening is carried out using a bolted connection. 2. Engineering panel of a modular building according to claim 1, characterized in that the frame is made of metal. 3. Engineering panel of a modular building according to claim 1, characterized in that the frame is made of steel. 4. Engineering panel of a modular building according to claim 1, characterized in that the frame is made of aluminum alloy. 5. Engineering panel of a modular building according to claim 1, characterized in that the utility lines are made in the form of pipes. 6. Engineering panel of a modular building according to claim 1, characterized in that the utility lines are made in the form of rectangular beams. 7. Engineering panel of a modular building according to claim 1, characterized in that the utility lines are made in the form of U-shaped beams. 8. Engineering panel of a modular building according to claim 1, characterized in that the frame is a three-dimensional spatial structure in the shape of a rectangular parallelepiped.