RU207115U1 - MODULAR STRUCTURE - Google Patents

Abstract

The utility model refers to modular structures that provide the ability to accommodate personnel and equipment, and can be applied in the transport, energy or construction industries. The essence of the utility model consists in a modular structure, which contains a hollow body, inside of which are fixed finishing panels made of gypsum fiber material coated with a fire-resistant material; in which finishing panels made of gypsum fiber sheet coated with a fire-resistant material are fixed inside the body with metal strips installed at the joints of the finishing panels. The technical result to be achieved by the utility model is to increase the fire safety of a modular structure. 1 wp f-crystals, 1 fig.

Description

The utility model refers to modular structures that provide the ability to accommodate personnel and equipment, and can be applied in the transport, energy or construction industries.

Known is a container block containing a hollow body, the wall panels of which are inside sheathed with decorative panels made of decorative sheet [RU 2610471, publication date: 13.02. 2017, IPC: E04B 1/348; E04H 1/12].

Known is a container block containing a hollow body, the wall panels of which are inside lined with MDF panels [RU 150969, publication date: 10.03. 2015, IPC: E04H 1/00].

A common disadvantage of the known technical solutions is their low fire safety, which is due to the possibility of maintaining combustion with finishing panels made of combustible materials.

As a prototype, a mobile workshop for an electrical mechanic of the signaling system was chosen, containing a hollow body, the wall panels of which are covered from the inside with finishing panels made of refractory decorative paper-laminated plastic [RU132115, publication date: 09/10/2013, IPC: E04H 14/00].

The advantage of the prototype is its higher fire safety, which is due to the use of finishing panels made of refractory decorative paper-laminated plastic. However, the disadvantage of the prototype is the high probability of maintaining the combustion process by oxygen entering through the joints of the finishing panels, or the ingress of an open flame through the joints under the finishing panels and thus maintaining the combustion process inside the walls of the modular structure, or the likelihood of destruction of the finishing panels under the influence of high temperatures and their collapse, which also reduces the fire safety of the modular structure and significantly degrades its operational characteristics.

The technical problem to be solved by the utility model is to improve the operational characteristics of a modular structure.

The technical result to be achieved by the utility model is to increase the fire safety of a modular structure.

The essence of the utility model is as follows.

The modular structure contains a hollow body, inside of which are fixed finishing panels made of gypsum fiber material coated with a fire-resistant material. Unlike the prototype, the finishing panels are fixed with metal strips installed at the joints of the finishing panels.

The modular structure provides the ability to accommodate equipment or service personnel in the interior of the enclosure. The body is predominantly rectangular parallelepiped and has a hollow structure. The body may contain openings that provide the ability to connect the internal space with the external environment or with another module. The length of the body can be from 3 to 14 meters, the width can be from 2 to 3 meters, and its height can be from 2.5 to 3 meters, which makes it possible to transport the module. The module may contain means for transportation, which provide the ability to move the module to the installation site, as well as position the module at the installation site. Transportation means can be skids, hooks or lugs.

The enclosure may include a frame on which protective panels, wall and ceiling panels can be attached. The frame of the module provides a load-bearing function, while the frame elements are made of metal and can be represented by beams, rails and lintels, etc., and can be connected by means of welded, threaded or riveted joints. Protective panels are installed outside the container module and can be made of metal, wood, composite materials, etc. In this case, protective and finishing panels can be fixed to the frame by means of threaded or non-threaded connections. Threaded connections can be represented by screw, bolt, stud connections, etc. Non-threaded connections can be represented by riveted, glued connections, connections by installing panels in the frame guides, etc. Additionally, between the protective and finishing panels, a heater can be located, which can be represented by various types of heat insulators, for example, polyurethane foam, expanded polystyrene, mineral wool, glass wool, etc. Also, the case may contain electrical communications attached to any of the above elements.

Finishing panels are installed inside the container module, made of gypsum fiber material, which increases the fire safety of the modular structure due to the high resistance of the material to flame and high temperatures. The trim panels can be fixed to the frame and / or wall panels and / or ceiling panels within the enclosure.

Metal slats installed at the joints of the finishing panels, due to their overlapping installation with the finishing panels, reduce the flow of oxygen, which helps to maintain the combustion process, into the body. It also reduces the risk of an open flame and combustion products getting under the finishing panels and reduces the risk of maintaining the combustion process inside the walls of the modular structure. At the same time, the most significant increase in the fire safety of a modular structure is provided by metal slats having a T-shaped cross-section, since they have the greatest number of points of contact with the surfaces of finishing panels. Such metal strips have a base in contact with the body and end surfaces of the finishing panels and bent edges, the inner surface of which is in contact with the surface of the finishing panels. The metal strips can be fixed with any known detachable or non-detachable connection elements. In this case, the base for the placement of these elements can have a channel, which can be covered with a cover to reduce the negative effect of an open flame on the elements for detachable or permanent connection.

Finishing panels contain a coating of fire-resistant material, which increases the fire safety of a modular structure due to the impossibility of spreading an open flame over its surface. The flame retardant cover can be made of PVC, flame retardant plastic, calcium silicate, or glass magnesia. The coating of the fire-resistant material can be adhered to the surface of the gypsum fiber sheet through the adhesive interaction provided by the adhesive layer. Additionally, to increase the fire safety of the modular structure, the fire-resistant material can be fixed on the surface of the gypsum fiber sheet by means of lamination.

The thickness of the coating made of fire-resistant material can be from 0.5 to 25-30% of the thickness of the finishing panel, which contributes to the most efficient absorption of the released heat and increases the fire safety of the modular structure. If the thickness of the film is less than 0.5% of the thickness of the finishing panel, then if the fire source is located directly on the surface of the panel, then its local melting (burnout) is possible, which contributes to fire penetration and worsens the fire safety of the modular structure. If the thickness of the coating made of fire-resistant material is more than 30% of the thickness of the finishing panel, then the heat-insulating layer formed during the decomposition of the material will have an excessive thickness, which, under the influence of high temperatures, leads to a loss of bearing capacity, peeling from the gypsum fiber panel under own weight and cracking at the corner joints of the body, which also increases the risk of local exposure to an open flame on gypsum fiber panels and negatively affects the fire safety of a modular structure. In a most preferred embodiment, the thickness of the fire retardant coating may be between 2% and 10% of the thickness of the finishing panel.

In this case, the most preferable version of the fire-resistant material is a fire-resistant polyvinyl chloride film, which, due to its decomposition property, the formation of a heat-insulating layer on the surface of the gypsum fiber sheet, and the absorption of heat released during combustion, increases the resistance of the finishing panels to combustion and increases the fire safety of the modular structure ...

The utility model can be made of known materials using known means, which indicates that the utility model complies with the criterion of patentability "industrial applicability".

The utility model is characterized by significant features previously unknown from the prior art, which consist in the fact that the finishing panels are fixed with metal strips installed at the joints of the finishing panels. This reduces the flow of oxygen, contributing to the maintenance of the combustion process, into the housing, and it also reduces the risk of an open flame and combustion products getting under the finishing panels and reduces the risk of maintaining the combustion process inside the walls of the housing of the modular structure. This prevents a local increase in temperature that maintains the propagation of an open flame, thereby ensuring the achievement of the technical result, which consists in increasing the fire safety of the modular structure, thereby improving its operational characteristics.

The utility model is characterized by a set of essential features previously unknown from the prior art, which testifies to its compliance with the "novelty" criterion of patentability.

The utility model is illustrated by the following figures.

FIG. 1 - Modular structure, the wall panels of the body are inside sheathed with finishing panels made of gypsum fiber sheet coated with fire-resistant material, which are fixed by means of T-shaped metal rails, isometric view.

To illustrate the possibility of implementation and a more complete understanding of the essence of the utility model, an embodiment thereof is presented below, which can be changed or supplemented in any way, and the present utility model is by no means limited to the presented embodiment.

The modular structure contains a hollow body 1, finishing panels 2 made of fibrous gypsum board with a coating 3 of fire-resistant polyvinyl chloride film, while the finishing panels are fixed inside the body 1 by metal slats 4, with a channel for installing screws covered with a cover 5.

The utility model works as follows.

During the operation of a modular structure, in the event of an open flame under the influence of heat, the coating 3 of the fire-resistant polyvinyl chloride film decomposes and heat is absorbed. Due to this, the resistance of the finishing panels 2 to the thermal effect of an open flame is significantly increased, preventing its propagation in the inner space of the housing 1.

At the same time, due to the metal rails 4, the gap between the finishing panels 2 is minimized, which reduces the flow of oxygen and excludes the possibility of an open flame getting under the finishing panels 2, reducing the risk of the spread of an open flame inside the walls of the housing 1 of the modular structure.

Thus, the achievement of the technical result is ensured, which consists in increasing the fire safety of the modular structure, thereby improving the operational characteristics of the modular structure.

Claims (2)

1. A modular structure containing a hollow body, inside of which finishing panels are fixed, made of gypsum fiber material coated with a fire-resistant material, characterized in that the panels are fixed with metal slats installed at the joints of the finishing panels, while the metal slats in cross-section have T -shaped and consist of a base in contact with the body of the modular structure, and bent edges, the inner surface of which is in contact with the surface of the finishing panels, while the metal slats are fixed inside the body of the modular structure using elements for fixing the rail, and the base contains a channel for placing these elements, which is covered with a lid. 2. A modular structure according to claim 1, characterized in that the fire-resistant material is in the form of a fire-resistant polyvinyl chloride film.

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