RU218496U1 - Modular Building Panel - Google Patents

Abstract

The utility model relates to construction, in particular to the construction of buildings with a framework of light metal structures and prefabricated three-dimensional modules.

The technical result is the organization of the installation of a drainage device and the formation of floor slopes converging to the drainage device and having both the same and different angles of inclination depending on the size and configuration of the room, without changing the load-bearing metal frame of the panel.

Panel of a modular building, containing a metal load-bearing frame on which a base is laid, a drainage device, the upper surface of the panel and slopes, characterized in that the drainage device is built into the upper surface of the panel and fixed in the base, and the slopes in the direction of the drainage device are formed on the upper surface of the panel concrete mix. 15 z.p. f-ly, 8 ill.

Description

The utility model relates to construction, in particular to the construction of buildings with a framework of light metal structures and prefabricated three-dimensional modules.

During the construction of buildings with a framework of light metal structures and prefabricated volumetric modules, the premises in the building may have different functional requirements. In particular, in the above buildings there are toilet and shower rooms, individual heating points, laundry rooms, etc.

The panel floor of a block-modular building is known from the technical field. The panel floor of a block-modular building contains a supporting frame attached to the walls, made in the form of a crate, on which panels, adhesive composition and tiles are laid in series, and the panels and tiles are laid in such a way that the seams between the panels and tiles coincide, while between the panels and gaps of 3-5 mm are made between the tiles, which are filled with elastic compounds. The technical result provided by the above set of features is the ability to perceive loads from deformation of the frame of a block-modular building, which, in turn, allows transporting a block-modular building without destroying the floor lined with tiles (RU 184 476 U1, IPC E04F 15/024, published on October 29, 2018).

The disadvantage of the known solution is that the arrangement of the floors of wet rooms according to this technology does not imply the possibility of installing drainage devices in the panels themselves and does not involve the organization of slopes to these drainage devices.

From the field of technology, a transformable volumetric block module of a building is known, including a base connected with the possibility of a connector with vertical posts associated with a wall fence and a ceiling. The load-bearing frame is a steel frame assembled from a bent profile and contains a heater located between a wood-containing coating and a metal sheet, rigidly fixed on the sides along the inner perimeter of the frame. As a wood-containing coating in the ceiling, a laminated chipboard is used, and as a wood-containing coating in the base, a chipboard is used, over which a floor covering in the form of linoleum is laid (RU 2511242, IPC E04B 1/348, publ. 06.12.2012 ).

The disadvantage of the known solution is that the wood boards included in the insulation do not imply the possibility of installing drainage devices in the plates themselves and do not imply the organization of slopes to these drainage devices.

The closest technical solution is the floor, which is part of the block and is made with a slope from the outer wall into the block and is equipped with a prefabricated tray oriented along the longitudinal axes of the block and offset to the longitudinal wall, and the frame of the floor panel is made of contour and intermediate beams, the latter, along at least within the length of the tray, they are installed with an opposite slope, at least, of their upper shelf, equal to the slope of the floor (RU 2041330, IPC E04H 5/00, E04H 5/02, E04B 1/348, publ. 08/09/1995). This technical solution is taken as a prototype.

The disadvantage of the closest technical solution is that in it the slope is formed due to the position of the base beams, and the drainage device (tray) is part of the floor frame of the volumetric unit.

To change the design of the prototype base in order to change the slope, form several slopes on one base, or install several drainage devices, it is necessary to change the frame of the product, which is potentially associated with additional labor costs for designing and manufacturing the floor of the volumetric unit. The prototype drainage device itself is part of its frame, which means that it is not produced in large-scale and cannot be installed separately at the construction site. In the prototype in Fig. 19 shows two slopes and with the same slope angle α.

The technical problem is the development of the design of the panel of a modular building (block module) with the possibility of installing drainage devices (ladders, shower trays, etc.), manufactured in large-scale, with the potential for installation at the construction site, as well as the organization and formation of slopes to the drainage devices , installation of several drainage devices and the formation of separate slopes to them, without changing the power metal frame of the panel.

The technical result is the organization of the installation of a drainage device and the formation of floor slopes converging to the drainage device and having both the same and different angles of inclination depending on the size and configuration of the room, without changing the load-bearing metal frame of the panel.

This technical result is achieved in that the panel of the modular building contains a metal load-bearing frame on which the base is laid, a drainage device, the upper surface of the panel and slopes, the drainage device is mounted in the upper surface of the panel and fixed in the base, and the slopes in the direction of the drainage device are formed on the top panel surface with concrete mix.

The proposed model assumes the possibility of installing not only one, but also several drainage devices in a panel without changing the power metal frame, both during production and during the construction of a modular building (the concrete mixture can be poured onto the base during installation to form a single floor in a room or building from several panels). The technology described in the utility model makes it possible to install a drainage device or several such products anywhere on the panel inside the perimeter of the load-bearing frame, without changing the metal load-bearing frame itself. The use of a concrete mixture makes it possible to make slopes to one drainage device with different angles of inclination α and with different slope lengths, which makes it possible to locate the drainage device in a place convenient for the construction technology (planning decision), which, in turn, facilitates the design of a building with the proposed patenting a technical solution, and this, ultimately, reduces the complexity of its design and manufacture. The utility model makes it possible to reduce the complexity of its design and manufacture, because it is not required to produce unique parts to provide the desired slope, to develop and manufacture tooling to provide slopes. The use of mass-produced drainage devices makes it possible to reduce the economic costs associated with the production of unique products, and makes it possible to replace them completely or partially in case of mechanical damage during the operation of the useful model during transportation in case of relocation of the building.

The metal load-bearing frame may be formed by side beams, upper cross beams and lower cross beams.

A fixed formwork can be additionally fixed along the perimeter of the metal load-bearing frame, which makes it possible to ensure uniform pouring.

On the lower side of the side beams and the lower cross beam, finishing can be additionally made.

Insulation can be additionally laid between the finish and the base.

The base can be laid on the upper cross beams and the upper side of the side beams.

The base can be fixed on a metal power frame.

The base can be fastened to a metal power frame with self-tapping screws.

The side beams can be made in the form of a channel.

The side beams can be made of box section.

A dry ladder can be used as a drainage device.

A shower tray can be used as a drainage device.

The drainage device can be located in the center of the panel.

The drainage device can be located in the extreme part of the panel.

The drainage device can be fixed with self-tapping screws in the base.

Side beams can be connected in a metal load-bearing frame with connection nodes.

For additional strength and reliability of the frame, screeds can be used.

The base can be made of profiled sheet.

Several drainage devices can be installed in one panel.

It is possible to assemble panels, while panels with different arrangements of the drainage device can be combined in one assembly.

Slopes towards the drainage device can be formed on the upper surface of the panel with a concrete mixture with the same slope angles α.

Slopes towards the drainage device can be formed on the upper surface of the panel with a concrete mixture with different slope angles α.

The features of the claimed utility model are:

1. Modular building panel,

2. containing a metal power frame on which the base is laid,

3. drainage device,

4. the top surface of the panel,

5. slopes,

6. the drain device is mounted in the upper surface of the panel,

7. the bleeder is fixed in the base,

8. The slopes converging towards the bleeder are formed by the concrete mixture on the top surface of the panel.

Features 1-5 are common with the prototype, features 6-8 are the hallmarks of the utility model.

The design is illustrated by images, where in Fig. 1 shows a general view of the modular building, Fig. 2 - general view of the base panel of the modular building; in fig. 3-4 show a sectional view of the panel, FIG. 5 - panel with the placement of the drainage device in the center of the panel, in Fig. 6 - panel with the placement of a drainage device in the extreme part of the panel, in Fig. 7 - assembly of panels with different placement of the drainage device, in Fig. 8 - metal power frame.

The modular building panel 15 (Fig. 2) contains a metal load-bearing frame 1, a base 8, the upper surface of the panel 2 with slopes 4 towards the drainage device 3. A drainage device 3 is mounted in the upper surface of the panel 2. The drainage device 3 is fixed in the base 8. At the same time, the upper surface of the panel 2 is formed in such a way that the slopes 4 formed on it by the concrete mixture 10 (Fig. 4) converge to the drainage device 3 and direct all the water to it. Drainage device 3 is installed in the panel by cutting a hole in the base 8 and fixing the drainage device 3 in it (a profiled sheet, board building materials, for example, cement particle board, plywood, oriented strand board, sheet metal can be used as a base) , and by mounting the drainage device 3 into the upper surface of the panel 2. On top of the base 8 on the upper surface of the panel 2, slopes 4 are formed using a concrete mix, converging to the drainage device 3.

Drainage device 3 can be located in the center of the panel (Fig. 5), in the extreme part of the panel (Fig. 6), but the slopes 4 will always be directed towards the drainage device 3. It is possible to assemble panels, while panels can be combined in one assembly with different arrangement of the drainage device 3 (Fig. 7).

In FIG. 3-4 shows a section of the insulation of the structure of the modular building panel 15: a metal load-bearing frame 1 can be formed by metal beams - side beams 1.1, upper transverse beams 5 and lower transverse beams 12 (Fig. 8). On the lower side of the side beams 1.1 and the lower transverse beam 12, finishing 7 can be additionally made. On the upper transverse beams 5 and the upper side of the side beam 1.1, a base 8 can be laid. be carried out with self-tapping screws 6, which allows for reliable fastening. Between the finish 7 and the base 8, an additional insulation 11 can be laid, which allows expanding the possibilities of using the panel and further improving the performance of the panel.

Along the perimeter of the load-bearing frame 1, fixed formwork 9 can be additionally fixed, which allows for uniform pouring.

The drainage device 3 can be mounted, for example, both in the base 8 and in the finish 7.

The drainage device 3 can be fixed with self-tapping screws 6 in the base 8.

Side beams 1.1 can be made in the form of a channel (Fig. 3).

Side beams 1.1 can be made box-shaped (Fig. 4).

A dry ladder can be used as a drainage device 3.

A shower tray can be used as a drainage device 3.

Side beams 1.1 can be connected in the frame by connection nodes 14 (Fig. 8).

For additional strength and reliability of the frame 1, ties 13 can be used (Fig. 8).

The base 8 can be made of a profiled sheet, and the drainage device 3 can be located in the center of the panel or at the extreme part of the panel.

Slopes 4 in the direction of the drainage device 3 can be formed on the upper surface of the panel 2 with a concrete mixture with the same slope angles α.

Slopes 4 in the direction of the drainage device 3 can be formed on the upper surface of the panel 2 with a concrete mix with different angles of inclination α.

Usage example.

In the modular building, a panel (sanitary ware) was used, a shower tray was installed in the center of the panel, fixed with self-tapping screws, the upper surface of the panel was formed with a concrete mixture, while slopes were formed on the upper surface of the panel with a concrete mixture that directed water to the shower tray, which made it possible to organize drainage and ensure compliance with building codes with minimal labor and financial costs. In this case, the slope angles α of the slopes were in the range from 0.5% to 5%.

The claimed utility model also makes it possible to meet the requirements of building codes for rooms with high humidity during the construction of block-modular and panel-frame buildings, makes it possible to install drainage devices with the formation of slopes on the upper surface of the panel of the modular building. The proposed utility model assumes the labor intensity of production is lower than that of the known technical solutions and does not require special production equipment.

Claims (16)

1. A panel of a modular building, containing a metal load-bearing frame on which the base is laid, a drain device, the upper surface of the panel and slopes, characterized in that the drain device is mounted in the upper surface of the panel and fixed in the base, and the slopes in the direction of the drain device are formed on the top panel surface with concrete mix. 2. The modular building panel according to claim 1, characterized in that the base is fixed on a metal load-bearing frame. 3. The modular building panel according to claim 2, characterized in that the base is fixed with self-tapping screws. 4. The modular building panel according to claim 1, characterized in that the metal load-bearing frame is formed by side beams, upper cross beams and lower cross beams. 5. The modular building panel according to claim 4, characterized in that the side beams are made in the form of a channel. 6. The modular building panel according to claim 4, characterized in that the side beams are connected in the frame by connection nodes. 7. The modular building panel according to claim 4, characterized in that the side beams are made of box section. 8. The modular building panel according to claim 1, characterized in that a dry ladder is used as a drainage device. 9. Modular building panel according to claim 1, characterized in that a shower tray is used as a drainage device. 10. The modular building panel according to claim 1, characterized in that ties are used for additional strength and reliability of the metal load-bearing frame. 11. Modular building panel according to claim 1, characterized in that the base is made of profiled sheet. 12. The modular building panel according to claim 1, characterized in that the drainage device is located in the center of the panel. 13. The modular building panel according to claim 1, characterized in that the drainage device is located at the extreme part of the panel. 14. The modular building panel according to claim 1, characterized in that the drainage device is fixed with self-tapping screws in the base. 15. Panel of a modular building according to claim 1, characterized in that the slopes are formed with the same slope angles α. 16. Panel of a modular building according to claim 1, characterized in that the slopes are formed with different angles of inclination α.

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