RU210270U1 - block module - Google Patents

Abstract

The utility model relates to the field of construction of residential buildings for various functional purposes, in particular to mobile buildings used as inhabited dwellings, and more specifically, to mobile residential complexes made in the form of a van body mounted on a movable base, or a separate block module. A block-module containing side and end walls, a base and a roof, while the outer wall covering, the bottom of the base, the roofing of the roof are made of metal steel sheet, and the inner surface of the block-module is covered with a finishing material, the gap between the outer and inner the surface of the block-module is filled with heat-insulating material, characterized in that the walls of the block-module are insulated with a combined one, from the side of the external environment the insulation is made with a sprayed insulation based on polyurethane foam, and from the side of the internal premises the insulation is made with mineral wool. The technical result is to improve the operational characteristics of the block-module through the use of the optimal composition of insulation and at the same time maintaining the dimensions of the interior of the all-welded block-module. 2 w.p. f-ly, 2 ill.

Description

The utility model relates to the field of construction of residential buildings for various functional purposes, in particular to mobile buildings used as inhabited dwellings, and more specifically, to mobile residential complexes made in the form of a van body mounted on a movable base, or a separate block module.

The operation of mobile car-houses involves their use, including outside settlements, in the construction of temporary mobile complexes, shift camps and other places of temporary deployment. The location of the above points often occurs in places with a harsh climate and increased requirements for thermal insulation of residential premises. In the manufacture of block modules and wagon-houses, much attention is paid to the overall dimensions of products, thermal insulation and fire safety of the structure.

From the field of technology, a residential block container is known, including a supporting frame, while the steel frame is assembled from a bent profile, and the enclosing body is assembled from sandwich panels filled with polyurethane foam, which is a heat insulator (RU 69123, IPC E04H 1/00, publ. 10.12. 2007).

The disadvantage of the known solution is that polyurethane foam is used as a heater, which has a flammability class G2-G4, while the complete replacement of the insulation with a material with a flammability class NG (mineral and stone wool) leads to an increase in the thickness of the insulation and, as a result, a decrease in the usable area of the premises.

The closest technical solution is a mobile building made in the form of a metal frame structure, the walls of which are sheathed from the inside with laminated fiberboard, the gap between the outer and inner wall claddings is filled with heat-insulating material - expanded polystyrene, as a floor insulation laid between an all-metal sheet and chipboard boards, use penoizol (RU 19795 U1, IPC E04B 1/343, publ. 10.10.2001.).

The disadvantage of the closest technical solution is that polystyrene foam with a flammability class G3 and G4 is used as a heater, while the complete replacement of the insulation with a material with a flammability class NG (mineral and stone wool) leads to an increase in the thickness of the insulation and, as a result, a decrease in the usable area of the premises .

The technical problem is the development of the design of a residential block-module (car-house) with effective insulation using insulation materials with flammability class G1 and NG, while maintaining or increasing the size of the interior and structural rigidity.

The technical result is to improve the operational characteristics of the block-module through the use of the optimal composition of insulation and at the same time maintaining the dimensions of the interior of the all-welded block-module.

The specified technical result is achieved by the fact that the block module is an all-welded structure of a frame or arch design, the outer surface of the product is covered with a steel sheet, the inner surface of the product is covered with a finishing material, the product is insulated in a combined way, namely:

- from the side of the external environment, sprayed insulation based on polyurethane foam,

- from the side of the interior, with mineral wool or other insulation with a flammability group NG.

The features of the claimed utility model are:

1. Block module,

2. containing side and end walls, base, roof,

3. the outer surface of the block-module is covered with steel sheet,

4. the inner surface of the block-module is covered with a finishing material,

5. the gap between the outer and inner surface of the block-module is filled with heat-insulating material,

6. at the same time, the insulation of the block-module is made combined,

7. from the side of the external environment, the insulation is made by sprayed insulation based on polyurethane foam,

8. from the side of the interior, the insulation is made of mineral wool,

9. interior decoration is made of non-combustible finishing materials.

Features 1-5, 9 are common with the prototype, features 6-8 are the hallmarks of the utility model, affecting the achievement of the technical result.

The design is illustrated by drawings, where in Fig. 1 shows a block module (in the implementation example on a movable base, axonometric projection); in fig. 2 shows the design of the insulation.

Block module (Fig. 1) contains side 1 and end 2 walls, base 3 and roof 4. The block module also contains insulation 5, made combined.

In FIG. 2 shows a section of the insulation of the block module structure and a graph of the temperature distribution in this section. External coating of walls 1 and 2, filings of the bottom of the base 3, roof covering 4 are made of metal steel sheet 6. On the sheet 6, on the inside of the module, a sprayed insulation 7 based on polyurethane foam is applied, and mineral wool insulation 8, which has a degree of flammability, is laid on top of it NG, which, in turn, is covered with a vapor barrier film 9 and a layer of finishing material 10 (sheet and rack structures with flammability class G1 and NG, sheets of HPL, LSU, GVL, etc. can be used as a finishing material).

The layer of sprayed insulation 7 creates a seamless insulation circuit inside the module, excluding the formation of cold bridges from the outer sheet 6 of the product interacting with the environment. The use of polyurethane foam allows you to increase the usable area of the room with the same dimensions of the block-module due to the low coefficient of heat transfer resistance. The subsequent laying of a layer of mineral wool insulation 8 improves the fire resistance of the structure and provides additional noise insulation. The vapor barrier film 9 installed between the layer of mineral wool 8 and the layer of finishing material 10 creates a vapor-permeable barrier, eliminating the ingress of moisture into the insulation and the formation of condensate inside it.

The use of this combined structure for insulation of both walls 1 and 2, as well as base 3 and roof 4, makes it possible to provide reliable thermal insulation, while increasing the safety of operation of the block-module and thus, in general, improve the performance of the block-module.

The claimed utility model allows to increase the structural fire safety class of the product while maintaining or increasing the efficiency of insulation in comparison with the prototype, through the use of a combination of heaters.

Claims (3)

1. A block-module containing side and end walls, a base and a roof, while the outer covering of the walls, the bottom of the base, the roofing of the roof are made of metal steel sheet, the inner surface of the block-module is covered with a finishing material, and the gap between the outer and inner the surface of the block-module is filled with heat-insulating material, characterized in that the heat-insulating material is made combined: from the outside it is made sprayed on the basis of polyurethane foam, and from the inside - mineral wool. 2. Block module according to claim 1, characterized in that the interior is made of finishing materials of flammability class NG. 3. Block module according to claim 1, characterized in that a vapor barrier film is installed between the layer of mineral wool and the layer of finishing material.

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