RU209934U1 - Volumetric module of the building - Google Patents

Abstract

The claimed utility model relates to the field of construction, namely to structural modules, as the main element in the creation of building structures of prefabricated buildings. To increase operational capabilities by reducing metal consumption and increasing reliability by preventing fire hazards and waterlogging the thermal insulation of structures being built in a three-dimensional building module, including a frame 1 containing a U-shaped section made of metal beams 6, rigidly connected to each other by means of stiffening ribs 7 and corner fitting elements, a base frame 2 of rectangular shape, connected, with the possibility of detachment, with a frame 3 of a ceiling slab 4 of a similar shape, with ventilation 18 and electrical communications 20 installed in the ceiling, holding an external metal 15 and an internal wood-containing 16 coating with a heater 17 between them. The ceiling frame 3 is connected to the base frame 2, with the possibility of detachment, by means of angular vertical posts 5, the lower and upper ends of which are rigidly fixed with hardware with corner fitting elements of the base frame 2 and the ceiling frame 3, equipped with stiffeners, and the base contains a heater 23 , located between wood-containing coating 24 and metal sheet 21, rigidly fixed on the inner sides of the base frame 2, and polyisocyanurate insulation and mineral wool insulation, protected from above and below by vapor barrier, are used as insulation 23. 1 z.p. f-ly, 18 ill.

Description

The claimed utility model "Volumetric building module" refers to the field of construction, namely to structural modules with a high degree of prefabrication, and can be used as the main element in the creation of building structures of prefabricated buildings that are transformed from a plane into space.

A block container is known, containing a base frame and a ceiling frame made of load-bearing profiles interconnected by corner posts (see application for invention No. 92001631/03, IPC E04B 1/348, 1/343, publ. 1998).

The disadvantage of the known technical solution is low strength, as well as low technical and operational capabilities.

This disadvantage is due to the fact that the frames of the base and the ceiling are not sufficiently rigid, and also do not contain insulation and wood-containing coatings, and, in addition, they have low reliability of prefabrication and variability of the structures being built.

Known block module described in the RF patent for utility model No. 16239, IPC H04H 1/12, publ. 12/10/2000), including a frame containing a base frame and a ceiling frame, made of load-bearing profiles interconnected by corner posts, between which wall panels are installed, the roof frame is made transformable by means of a hinged connection of one of the sides of the roof frame with the corresponding side of the ceiling frame block module.

The disadvantage of the known technical solutions are low operational and technical capabilities, low strength, complexity of manufacturing and laborious installation, low reliability of prefabrication and variability of erected structures.

These disadvantages are due to the fact that the manufacture and installation of the known block module is complicated, since the roof frame is made transformable by means of a hinged connection of one of the sides of the roof frame with the corresponding side of the ceiling frame, which does not provide rigidity, in addition, the ceiling frame does not provide durability and reliability. due to the lack of additional stiffening elements, the structural components of the known block module do not provide prefabrication and variability of the erected structures.

Known, taken as a prototype, transformable volumetric module of the building, described in the utility model patent No. 126026, IPC E041/348, publ. 03/20/2013, including a frame containing a rectangular base frame made of metal beams connected to each other by means of stiffening ribs and corner sockets, and a ceiling frame connected to each other, with the possibility of detachment, by angular vertical posts, and the corner sockets are connected by fastening elements with the lower ends of the corner vertical posts made of a bent metal profile, connected by their upper ends, by means of fasteners, with a ceiling frame equipped with stiffeners, holding the outer metal and inner wood-containing coatings with a heater between them and electrical communications, and the base contains a heater , located between a wood-containing coating and an additionally installed metal sheet, rigidly fixed on the inner sides of the base frame, moreover, polyurethane is used as a heater, and a sweat is used as an outer skin steel sheets are used for the floor covering, while the ceiling is equipped with exhaust and supply ventilation, and the wood-containing covering in the ceiling is made of laminated chipboard.

The disadvantage of the known technical solutions are low operational capabilities, waterlogging of the thermal insulation of the base and increased fire hazard.

This disadvantage is due to the fact that the design features of the known block-module have a high metal content of the base and low reliability of the base, in particular a wood-containing coating, due to waterlogging of the thermal insulation of the erected structures in the cold season, as well as a high fire hazard, especially in the fire hazardous season, in the spring and summer.

The technical problem to be solved by the proposed utility model "Volumetric module of the building" is to increase operational capabilities by reducing the metal consumption of the resulting volumetric modules, as well as to increase reliability by preventing fire hazards and waterlogging of thermal insulation.

The technical result of the claimed utility model is to increase the operational capabilities by reducing the metal consumption of the resulting bulk modules, and to increase reliability by reducing the fire hazard of the structures of the structures under construction and reducing the waterlogging of the thermal insulation of the base.

The specified technical result is achieved by the fact that in a well-known three-dimensional building module, including a frame containing a rectangular base frame made of metal beams, connected by means of corner vertical posts, with the possibility of detachment, with a ceiling frame of a similar shape, holding the external metal and internal wood-containing coatings with insulation between them, with exhaust and supply ventilation and electrical communications installed in the ceiling, according to the utility model, the base frame is made of rigidly interconnected, by means of hardware and corner fitting elements, metal beams having a U-shaped section, and stiffeners, on the inner side surfaces of the base frame, made of the mentioned metal beams, having a U-shaped section, a metal sheet is rigidly fixed, on which a heater is located, which is used as a mineral wool insulation and a polyisocyanurate insulation with a vapor barrier, over which a wood-containing coating is located, and the hollow space of the mentioned U-shaped metal beams forming the base frame is filled with a heater, which is used as polyisocyanurate.

There is the following causal relationship between the distinguishing features of the claimed utility model "Volumetric building module" and the achieved technical result.

Unlike analogs and prototype, the use in the proposed utility model "Volumetric module of the building", a set of features, in the form of connecting the base frame with the frame of the ceiling, with the possibility of their separation, angular vertical posts, and making the base frame of a rectangular shape in the form of rigidly connected metal U-shaped rectangular beams, significantly reduces the weight of the base without reducing the rigidity of the base frame, increased for large spans, and also allows you to additionally insulate the base frame directly by means of increasing the channel and eliminate additional cold bridges of the base. Connection with the lower ends of the corner vertical posts, metal beams of U-shaped rectangular section, which make up the base frame, significantly lightened and insulated, in contrast to the base beams of the rectangular section of the prototype object, and further connection of the upper ends of the vertical posts with the ceiling frame, increases, in the aggregate of all the features, not only the operational and technical qualities of the proposed object, but also significantly reserves reliability, simplifying the design of the three-dimensional building module as a whole, and reducing labor intensity by reducing the weight of the base frame, while simultaneously increasing the insulation directly of the base frame, by increasing the channel and the entire plane of the base, filled with insulation, which is used as a mineral wool insulation and a fireproof insulation made of polyisocyanurate with vapor barrier, which, in addition to the fact that the base of the volumetric module of the building is insulated, at the same time, increases the reliability awn, and variability of erected structures. The use of the claimed utility model, with just such a combination of features, which use non-flammable materials, such as polyisocyanurate, also improves the performance, fire safety and reliability of a future building erected from such bulk modules as the claimed useful model, further increasing the reliability of structures built from such bulk modules. Thus, the design of the proposed three-dimensional module of the building, which is a rectangular frame, consisting of flat, connected by vertical posts, with the possibility of detachment, a base frame and a rectangular ceiling frame, makes it possible to obtain collapsible spatial structures of various types from a variety of similar rectangular frames, with various volumetric shapes.

The analysis of the prior art carried out by the applicant, including searching through patent and scientific and technical sources of information and identifying sources containing information about analogues and a prototype of the claimed utility model "Volumetric building module", made it possible to establish that the applicant did not find a source characterized by features that are identical to the totality of all essential features of the claimed technical solution. According to the applicant's information, the set of essential features of the claimed utility model "Volumetric building module" is not known from the prior art, which allows us to conclude that the claimed utility model meets the "novelty" criterion. The definition from the list of identified analogues of the prototype, as the analogue closest in terms of set of features, made it possible to identify a set of essential, in relation to the technical result perceived by the applicant, distinctive features in the claimed utility model "Volumetric building module" set forth in the formula of the utility model. Therefore, the claimed utility model meets the criterion of "novelty".

Thus, the above information testifies to the fulfillment of the set of conditions when using the claimed utility model "Volumetric module of a building" in the form in which the claimed utility model is characterized in the formula of the utility model, i.e. the possibility of its implementation is confirmed using the example of a specific implementation described in the application, capable of achieving the technical result perceived by the applicant, namely, increasing operational capabilities by reducing the metal consumption of the base, in particular the base frame and additional insulation of the base frame and the resulting volumetric modules. In addition, by reducing the fire hazard of the structures of the structures under construction and eliminating the dampening of thermal insulation, the reliability of volumetric modules of buildings erected from the proposed structures is increased, therefore, the declared utility model "Volumetric module of the building" meets the criterion of "industrial applicability".

The set of essential features that characterize the essence of the utility model can be repeatedly used in the technologically labor-intensive process of erecting structures from similar volumetric modules of the building with a technical result, which consists in increasing operational capabilities by reducing the metal consumption of the obtained volumetric modules, and increasing reliability by reducing fire hazard structures of erected structures and exclusion of dampening of thermal insulation, which also increases the variability of erected structures and allows cost-effective, fast and reliable construction of industrial and cultural buildings in regions remote from industrial centers.

The essence of the claimed utility model "Volumetric building module" is illustrated by an example of a specific implementation, drawings and photographs. In FIG. 1 shows the volume module of the building in assembled form (photo); in fig. 2 - drawing of the base of the volume module of the building; in fig. 3 - drawing of the base of the volume module of the building, side view; in fig. 4 - ceiling covering frame with prepared ceiling covering (photo); in fig. 5 - part of the frame of the base of the volume module of the building with insulation, wood-containing and finishing coating in section (photo); in fig. 6 - drawing of the transverse stiffener of the base frame; fig. 7 - part of the frame of the base of the volume module of the building, connected, with the possibility of a connector, in a corner fitting element with the lower part of the corner vertical post (photo); in fig. 8 - part of the ceiling covering of the volume module of the building, connected in a corner fitting element, with the possibility of a connector, with the upper part of the corner vertical post (photo); in fig. 9 - drawing of a bent profile of a complex section of the frame of the ceiling; in fig. 10 - drawing of a corner vertical post from a bent profile of a complex section, in 3D format; in fig. 11 - drawing of a corner vertical post from a bent profile of a complex section; in fig. 12 - drawing of a corner vertical post end view; in fig. 13 - the base of the volume module of the building with installed corner posts (photo); in fig. 14 - metal beam of U-shaped rectangular section of the base frame in section (photo); in fig. 15 - drawing of the transverse stiffener of the frame of the ceiling; in fig. 16 - ceiling frame with stiffeners (photo); in fig. 17 - ceiling ceiling (photo); in fig. 18 - shows the design of the volume module of the building in the transport position (photo).

The inventive volume module of the building is made in the form of a frame 1 (Fig. 1), which includes a base frame 2 of a rectangular shape, connected, with the possibility of detachment, with a frame 3 of the ceiling 4 of a similar shape, using angular vertical racks 5. Base frame 2 of a rectangular shape made of metal beams 6 (Fig. 14) U-shaped section (in the form of a channel), interconnected by means of stiffeners 7 (Fig. 6) and corner fitting elements 8 (Fig. 7), which, in turn, are connected hardware - fasteners in the form of bolted connections 9, with the lower ends of 10 angular vertical posts 5, made of a bent metal profile of complex section. Corner vertical racks 5 are connected by their upper ends 11, by means of corner fitting elements 8 and fasteners (hardware) - bolted connection 12, with a frame 3 of the ceiling 4 made of a bent metal profile of complex section 13 (Fig. 9), which is equipped with stiffeners 14 (Fig. 15 and Fig. 16). The frame 3 holds the ceiling 4 (Fig. 4), which includes an external metal coating 15, which is used as steel sheets, and an internal wood-containing coating 16 (Fig. 1), made of laminated chipboard, between which there is a heater 17 (Fig. 4), which is used as a mineral wool insulation and polyisocyanurate. In the ceiling, electrical communications 18 (Fig. 1), supply ventilation 19 and exhaust ventilation 20 (Fig. 17) are carried out. The base frame 2 is rigidly connected to a metal sheet 21 (Fig. 5) fixed by welding on its (frame) inner sides 22 (Fig. 2), i.e. on the sides of the metal beams 6 with a U-shaped section (in the form of a channel), forming the inner perimeter of the base frame 2. On the metal sheet 21 there is a heater 23 (Fig. 5), which is used as polyisocyanurate and mineral wool insulation, protected from above and below by a vapor barrier, above the insulation 23 there is a wood-containing coating 24 (Fig. 5), which is used as a chipboard, topped with a finish coating 25 (Fig. 5).

The preparation of the volumetric module of the building in the transport position is carried out as follows.

The frame 3 of the ceiling 4 (Fig. 4) is released from the vertical posts 5 (Fig. 1, Fig. 12), excluding the connection of fasteners - hardware, in the form of a bolted connection 12 between the upper ends 11 (Fig. 8) of the vertical posts 5 ( Fig. 1, Fig. 12) associated with a rectangular base frame 2 (Fig. 2). Using a crane, the frame 3 and the ceiling 4 (Fig. 1) are removed onto the mounting pedestals, releasing the vertical racks 5 and the frame of the rectangular base 2 from the load. Then the frame of the rectangular base 2 (Fig. 1, 2) is released from the vertical posts 5 by removing the bolted connection 9 (Fig. 7). Vertical racks 5 are packed in wrapping material, laid on a rectangular base and fixed to prevent movement during transportation. Further, to the rectangular frame 2, the bases are rigidly attached by means of fasteners - hardware (bolted connection), the lower ends of the vertical racks (transport racks), the upper ends of which are bolted to the frame 3 of the ceiling 4. The side openings between the frames 2 and 3 are closed with plywood (or transport cardboard) (closed with galvanized thin sheet metal and fixed with roofing screws or bolted connection) and (further), fixed with adhesive tape, and along the perimeter, in two places along the length, fixed with transport tapes.

The application of the proposed utility model "Volumetric module of the building" will allow, at the same time, by reducing the metal consumption, to reduce the complexity of the installation of buildings and increase the insulation of the base, while increasing fire safety and reliability, as well as the variability of the structures being built. Taking into account the fact that the design of the proposed three-dimensional module of the building is a rectangular frame, consisting of flat, connected by vertical posts, with the possibility of splitting the rectangular ceiling frame and the base frame, it is easy to solve the problem of obtaining collapsible spatial structures of various sizes from a variety of similar rectangular frames. type, which have different three-dimensional forms, which makes it possible to exclude the technical problem, which the claimed utility model is aimed at, and achieve the set technical result, i.e. increase operational capabilities by reducing the metal consumption of the resulting volumetric modules and increasing reliability by preventing fire hazards and waterlogging of the thermal insulation of structures under construction.

Claims (2)

1. Volumetric module of the building, including a frame containing a rectangular base frame made of metal beams, connected by means of fittings, corner vertical posts, with the possibility of detachment, with a ceiling frame of a similar shape, holding external metal and internal wood-containing coatings with insulation between them, with exhaust and supply ventilation and electrical communications installed in the ceiling, characterized in that the base frame is made of metal beams rigidly connected to each other by means of corner fitting elements having a U-shaped section and stiffeners, moreover, on the side surfaces of the metal beams U-shaped section, forming the inner perimeter of the base frame, a metal sheet is rigidly fixed, holding a heater protected from above and below by a vapor barrier, which is used as a mineral wool insulation and a polyisocyanurate insulation, closed from above with a wood-containing them covered. 2. The volume module of the building according to claim 1, characterized in that the hollow space of the mentioned U-shaped metal beams forming the base frame is filled with insulation, which is used as polyisocyanurate.

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