RU164817U1 - WALL FENCING CONSTRUCTION FOR BUILDING A BUILDING - Google Patents

Abstract

The wall enclosing structure for the construction of the building, containing wall panels made of heat-insulating material based on basalt rocks, motionlessly placed in a supporting metal profile, the panels are interconnected to form a single frame, to the lower and upper bindings and the height of the panels is fixed through connecting elements of anti-corrosion material, characterized in that the wall panels contain at least three layers of heat-insulating material with a thickness of each layer 30-70 mm, inextricably linked to each other and placed by the outer layers in a supporting metal profile with a thickness of at least 1.0 mm, with the inner layers offset from the outer layers by a distance of 10-70 mm, additional panels are connected by a metal transverse strip with a width of at least 30 mm and a thickness of at least 1 mm, to the lower trim the wall panels are fixed with corners with a thickness of at least 0.8 mm, while the width of the flanges of the corner exceeds the width of the supporting profile of the panel no more than 24 mm, and to the upper trim the wall panels are fixed with U-shaped profiles t with a thickness of at least 0.8 mm and a width that allows to completely close the end of the supporting profile, with the corners and U-shaped profiles located on the outer layers of the panels.

Description

The utility model relates to construction, namely to lightweight enclosing structures of low-rise prefabricated, mainly residential buildings, erected in a short time.

A useful model is known “ordinary, angular and intermediate wall panels of a prefabricated low-rise building and the wall fence of this building” in which the wall fencing of a prefabricated low-rise building, containing wall panels with a wooden frame around the perimeter, with embedded parts and mounting holes for connecting elements made in racks frame and embedded parts installed on the foundation with the location of the mounting holes of adjacent panels at the same level and interconnected by screw connection, characterized in that the wall panels used are ordinary panels according to claim 1, corner panels according to claim 11 and intermediate panels according to claim 22, interconnected by inserting the threaded part of the bolts of one panel protruding outward into the corresponding mounting holes of the adjacent panel and subsequent bolt fixing with a nut. RU 79590 IPC E04C 2/26 publ. 01/10/2009

However, the presence of a wooden frame limits its service life, since the tree is subject to rotting, insects.

A wall panel is known that contains a block of heat-insulating material and a frame associated with it, characterized in that the frame is made of U-shaped metal profiles installed along the perimeter from the inside and / or outside of the block and connected with it in one piece. The closest in technical essence is the Wall panel containing a block of heat-insulating material and a frame associated with it, characterized in that the frame is made of U-shaped metal profiles installed along the perimeter from the inside and / or outside of the block and connected with it in one piece . RU 22163 IPC 7 ЕВВ 2/18 publ. 03/10/2002

However, foamed polystyrene foam, which refers to combustible materials, is used as a heat-insulating material.

Known wall fencing of buildings and structures, including the outer and inner layers in the form of the outer and inner walls of the fixed formwork, mounted on the frame with a layer of aggregate placed between the walls, while the outer and inner walls of the fixed formwork are made respectively of plate or molding facing materials and of vapor-permeable panels, while the frame is double-row with the outer and inner rows of racks installed in rows with a step corresponding to each row, while the racks are made They are composite with a length along the height of the building and are interconnected by mounting ties, and on the outer and inner rows of the racks the outer and inner formwork walls are mounted respectively, as a filler between which a monolithic insulation, for example monolithic foam concrete, is used. RU 79304 IPC Е04В 2/86 publ. 12/27/2008

However, this utility model has a rather complicated design and high cost.

Known wall building panel and panel mounting system. The wall building panel contains an outer sheet sheathing and an inner layer of insulation; from one end of the panel with the help of fasteners, a metal profile in the form of a tenon groove is fixed. The panel mounting system consists of a metal profile in the form of a tenon groove, fasteners for fixing the profile to the panel, and panel mounting elements to the ceiling and floor. RU 126346 IPC E04C 2/00 publ. 03/27/2013.

However, this utility model can only be used for the construction of internal partitions.

The closest in technical essence is the building envelope for the construction of the building, containing wall panels made of heat-insulating material fixedly placed in a supporting metal profile, the panels are interconnected to form a single fencing frame, while the structure contains single-layer panels containing as heat-insulating material mineral wool slab of basalt rocks, all wall panels are fixed to the lower harness and in height with each other, including in the corner x, through connecting elements made of anticorrosive material, and on the top all wall panels are connected around the perimeter by a strapping of steel framing bent corners and at least two rows of wooden beams, while the metal profile of each panel is fixed to the upper trim. RU 74932 IPC Е04В 1/02 publ. 07/20/2008

However, this utility model does not have sufficient strength, and it can also have a quick heat leak through the metal elements of the building envelope passing through a single-layer heat-insulating material.

The objective of the utility model is to create a building envelope with improved technical characteristics.

The technical result of the utility model is to improve technical characteristics, by increasing the strength, durability of the building envelope, reducing heat loss, by eliminating the "cold bridges"

The technical result is achieved by the fact that the wall enclosing structure for building the building, containing wall panels made of heat-insulating material based on basalt rocks, motionlessly placed in a supporting metal profile, the panels are interconnected to form a single frame, to the lower and upper strands and the height between each other panels are fixed through connecting elements of anti-corrosion material according to a utility model, wall panels contain at least three layers of heat insulating material with a thickness of each layer 30-70 mm, inextricably linked to each other and placed by the outer layers in a supporting metal profile with a thickness of at least 1.0 mm, with the inner layers offset from the outer layers by a distance of 10-70 mm, additionally panels are connected by a metal a transverse strip with a width of at least 30 mm and a thickness of at least 1 mm, wall panels are fixed to the lower trim by corners with a thickness of at least 0.8 mm, while the width of the corner shelves exceeds the width of the supporting profile of the panel is not more than 24 mm, and to the upper trim of the walls stems panel fixed U-shaped profiles at least 0.8 mm thick and with a width that allows the entire closed end bracket profile, the corners and U-shaped profiles are arranged on the outer layers of panels.

The essence of the utility model is represented by figures 1-5:

FIG. 1 - General view of the walling of the wall panels.

FIG. 2 - A longitudinal section A in the place of attachment of wall panels to the upper harness.

FIG. 3 - A longitudinal section In the place of attachment of wall panels to the lower harness.

FIG. 4 - Cross section CC of the wall enclosing structure.

FIG. 5 - Performing window and doorways.

In FIG. 1 shows a General view of the enclosing structure of interconnected wall panels 1. The panels are interconnected in height, from the inside and outside by connecting elements 3. All wall panels 1 are interconnected around the perimeter. The panels are connected to the lower strapping 6 by corners 2 made of galvanized material with a thickness of at least 0.8 mm. The panels are connected to the upper strapping 7 using U-shaped profiles 4 made of galvanized material with a thickness of at least 0.8 mm. To increase the rigidity of the walling to lateral loads, wall panels 1 are interconnected by a transverse metal strip 5 of galvanized material with a thickness of at least 1.0 mm.

In FIG. 2 shows a longitudinal section A at the attachment point of a wall panel consisting of two outer layers of heat-insulating material 8 and an inner layer 9 connected to each other and to the upper strapping 7 by U-shaped profiles 4. The thickness of each layer of heat-insulating material is 30-70 mm. A panel with U-shaped profiles 4 is connected to the upper strapping 7 by means of fasteners 10. In FIG. Figure 2 shows the absence of the connection of the U-shaped profiles with each other, which eliminates the “cold bridges”. The use of profiles with a U-shaped design, in which the profile shelves are stiffeners, increases the withstand vertical load from the top floor or roof, as well as above window or door openings, which makes them wider.

In FIG. 3 shows a longitudinal section B, in the place of attachment of wall panels consisting of the outer layers of the insulating material 8 and the inner layer 9, interconnected and with the lower trim 6 corners 2. Corners 2 to the lower trim are fastened with fasteners 10. The width of the shelves of the corners exceeds the width of the bearing panel profiles no more than 24 mm, so that the ends of the bearing profiles would completely stand on the shelf of the corners, but the shelves would not be connected to each other, which contributes to the absence of “cold bridges”.

In FIG. 4 shows a cross-section CC of a wall cladding, where the outer layers of the heat-insulating material 8 are fixedly placed in the supporting profiles 11 of the wall panels, which in turn are connected to each other from the inner and outer sides by fasteners 3. FIG. 4 it is seen that the supporting profiles 11 of the wall panels are not interconnected through the enclosing structure, which eliminates the "cold bridges", in addition, the inner layers of the heat-insulating material 9 are offset from the outer layers 8 by 10-70 mm. This allows you to block the connection of the bearing profiles of the wall panels 11, between which there may be through gaps formed due to the loose fit of the bearing profiles to each other or under load, through which heat leakage is possible.

In FIG. 5 shows an embodiment of a door and window opening. Depending on the size of the window or door at the construction site, elements 12 are made of wall panels 1 for the required height of the window sill, the opening above the door and the window. The supporting profiles 11 of the wall panels 1 should always be located at the edges of the window or doorway to create vertical supports to which the door or window will be mounted. As the upper and lower jumpers of the door and window openings use U-shaped profiles 4 of the desired length. The use of U-shaped profiles due to two stiffeners in the profile allows to increase the rigidity of the structure and, accordingly, the width of the door and window openings without intermediate supports. In addition, to increase the withstand lateral load, the wall panels 1 located at the edges of the window and doorway are connected using a strip of transverse metal strip 5.

As fasteners 3, galvanized metal plates with dimensions of at least 70 mm in width, at least 30 mm in height and at least 1 mm thick are used. To achieve strength characteristics, each plate connects the wall panels with six galvanized self-tapping screws with a drill with a diameter of 3.5 mm to 4.2 mm., The step between the plates should not exceed 0.7 m.

Corners 2 and U-shaped profiles 4 are connected to the wall panels 1 using galvanized screws with a drill diameter from 3.5 to 4.2 mm, 2 screws for at least one connection.

The lower harness 6 can be made of a wooden board in several layers or a solid bar, and when fastening corners 2 to it, galvanized self-tapping screws are used as fasteners 10. If the lower harness 6 is made of a monolithic concrete composition, then anchor bolts are used as fasteners 10. It is allowed to use 6 metal or composite profiles as the lower strapping.

As a top strapping between floors and / or roofing, it is possible to use a wooden board in several layers, or a solid bar, and when fastening U-shaped profiles 4 to it, galvanized self-tapping screws are used as fasteners 10. Allowed to use as the upper strapping 7, metal or composite profiles.

Depending on the span width, it is possible to use wooden planks, solid timber, metal channels or I-beams made of galvanized steel or composite material as a basement and floor level. The use of wooden I-beams allows to increase the span length without additional supports up to 7 m without a large weighting of the structure. It is also possible to use floors made of galvanized corrugated board for subsequent reinforcement and pouring with concrete.

Claims (1)

The wall enclosing structure for the construction of the building, containing wall panels made of heat-insulating material based on basalt rocks, motionlessly placed in a supporting metal profile, the panels are interconnected to form a single frame, to the lower and upper bindings and the height of the panels is fixed through connecting elements of anti-corrosion material, characterized in that the wall panels contain at least three layers of heat-insulating material with a thickness of each layer 30-70 mm, inextricably linked to each other and placed by the outer layers in a supporting metal profile with a thickness of at least 1.0 mm, with the inner layers offset from the outer layers by a distance of 10-70 mm, additional panels are connected by a metal transverse strip with a width of at least 30 mm and a thickness of at least 1 mm, to the lower trim the wall panels are fixed with corners with a thickness of at least 0.8 mm, while the width of the flanges of the corner exceeds the width of the supporting profile of the panel no more than 24 mm, and to the upper trim the wall panels are fixed with U-shaped profiles t with a thickness of at least 0.8 mm and a width that allows to completely close the end of the supporting profile, with the corners and U-shaped profiles located on the outer layers of the panels.

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