RU2123564C1 - Guarding structure - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this can be used in walling structures of buildings and engineering units, primarily in external walls and also in internal walls and partitions, floors, coverings, suspended roofs, etc. Guarding structure has external layer and internal layer with insulating material. External layer is provided with bent members having triangular diaphragms. By means of these bent members external layer is directly connected with internal layer. Fastened to external layer are additional facing sheets. Aforesaid embodiment of guarding structure improves its rigidity, operating reliability, prolongs service life and cuts labour-intensity in erection. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to construction and can be used in building envelopes of buildings and structures, mainly in external walls, as well as in internal walls and partitions, ceilings, coatings, suspended ceilings, etc.

 Known enclosing structure, including the outer and inner layers, in the space between which is placed a heat-insulating material. The outer layer is fixed to the inner layer through a heat-insulating material using studs or dowels. The outer layer has corrugations in which ventilated channels are arranged. (A.S. USSR N 1608309, class E 04 B 2/42, 1/760, 1990).

 The advantages of this solution are good heat-shielding qualities, the ability to reduce the moisture content of the insulating material by ventilation, and suitability for both new construction and reconstruction of existing fences.

However, this technical solution has the following disadvantages:
- low longitudinal and lateral stiffness due to the connection of the outer and inner layers through the insulating material (due to the creep of the insulating material), leading to a decrease in the operational reliability and durability of the enclosing structure;
- the high complexity of installation, due to the complexity of fastening the outer layer to the inner one through heat-insulating material.

 The aim of the invention is to increase the rigidity, operational reliability and durability of the building envelope, reducing the complexity of its installation.

 This goal is achieved by the fact that in the enclosing structure, including the outer and inner layers, in the space between which the insulating material is placed, the outer layer is fixed directly to the inner layer by means of bends made by the amount of space between the outer and inner layers. At the same time, triangular transverse diaphragms are installed in the bends of the outer layer. Insulation material (heat, sound insulation or other) is placed not only in the space between the outer and inner layer, but also in the space formed by the bends of the outer layer. In the space of the bends, the insulating material is placed on the outer side of the outer layer, and in the space between the outer and inner layers - on the inner side of the outer layer. The limb space and the material placed in it can be protected by additional facing sheets. The outer layer and additional sheets may or may not have corrugations with a longitudinal, transverse, diagonal or other arrangement, inside which ventilated channels can be arranged. Triangular diaphragms and bends can be used for fastening (supporting, hanging, gluing, etc.) of insulating material.

The claimed solution, in contrast to the prototype, is characterized by the following set of essential distinguishing features:
- fastening the outer layer of the building envelope directly to the inner layer;
- performing the bends of the outer layer by the amount of space between the outer and inner layers;
- installation inside the space formed by the bends of the outer layer, triangular diaphragms;
- additional placement of insulating material in the space of the bends of the outer layer from its outer side.

 The specified set of the listed essential features that distinguish the claimed solution from the prototype, allows to increase the rigidity, operational reliability and durability of the enclosing structure and reduce the complexity of its installation.

 The invention is illustrated by drawings, where in Fig.1 shows a fragment of the building envelope in the facade plane; figure 2 is a section along aa in fig. one; figure 3 is a section along BB in figure 1.

 The enclosing structure includes an outer 1 and an inner 2 layers with insulating material 3. Layer 1 has bends 4, in which triangular diaphragms are placed 5. Layer 1 is directly connected to layer 2 by attaching the bends 4, for example, with dowels 6. Additional claddings are fixed to layer 1 sheets 7, for example, using bolts 8.

 The enclosing structure can be made of various materials, for example, the inner layer 2 is made of masonry, concrete, reinforced concrete, wood, etc., the outer layer 1, the diaphragm 5 and the facing sheets 7 are made of metal, the insulating material 3 is made of basalt or mineral wool. In the enclosing structure, an air ventilated layer, vapor barrier, additional elements for increasing rigidity, for fixing insulating material, for waterproofing joints, etc. can be installed. The dimensions of the elements and the thickness of the layers are determined by the function of the fence, the number of storeys of the building or structure, the climatic conditions of the construction site, and the properties of the materials used and other factors.

 The manufacture of elements, the fastening of insulating material and the installation of the enclosing structure are carried out by known methods.

 In comparison with the prototype, the claimed solution due to the implementation of the bends of the outer layer with the installation of triangular diaphragms in them allows to increase the rigidity of the enclosing structure, thereby increasing its operational reliability and durability.

 However, the implementation of the bends of the outer layer by the amount between the outer and inner layer provides the possibility of direct fastening of the outer layer to the inner, which reduces the complexity of installation by simplifying the required technological operations, and also improves operational reliability and durability of the structure by increasing the strength of the connection with direct contact of the layers.

Claims (1)

 The enclosing structure, including the outer and inner layer, in the space between which the insulating material is placed, characterized in that the outer layer is fixed directly to the inner layer using the bends of the outer layer, made by the amount of space between the outer and inner layers, with the placement of triangular diaphragms in the bends .

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