RU2160812C2 - Multilayer panel - Google Patents

Abstract

FIELD: construction engineering; miscellaneous prefabricated structures. SUBSTANCE: multilayer panel has layer of encasement and intermediate one made of sheet material. Encasement is trough-shaped; intermediate layer is made of plane sheet members and trough-shaped ones to form sealed hollows. Trough-shaped members and encasement are placed in opposition relative to each other; plane sheet member is installed between trough-shaped member and encasement; heat- insulating inserts arranged over perimeter of trough-shaped members are placed on each side of one more plane sheet member. EFFECT: improved heat-insulating properties and strength at reduced thickness. 1 dwg

Description

 The invention relates to construction and can be used in the design and construction of collapsible structures for industrial, commercial, cultural and other purposes.

 Known honey-layer honeycomb panel, including sheathing and a middle layer made of sheet material in the form of a cellular type structure with protrusions located in mutually perpendicular directions relative to the plane of their base (see USSR author's certificate N 708033, class E 04 C 2/24 , 1980).

 The disadvantages of the known multilayer panels are significant dimensions in thickness, low thermal insulation and strength characteristics.

 The aim of the invention is to achieve a new technical result, which consists in increasing the insulating and strength characteristics while reducing size along the thickness of the panel.

 A new technical result is achieved by the fact that in the proposed multilayer panel of a collapsible structure, including the casing and the middle layer made of sheet material, according to the invention, the casing is made trough-like, and the middle layer is made of sequentially alternating flat sheet and trough-shaped elements with the formation of cavities filled , for example, by air, while the casing and trough-shaped elements are placed opposite to each other and are separated by flat sheet elements, along Thermal insulating liners are fixed to the trough-shaped elements, which are placed on both sides of another flat sheet element.

 Salient features of the claimed technical solution are the implementation of trough-like casing, the presence of an average layer of flat sheet and trough-like elements, the formation of sealed cavities, filling them with a gaseous medium, the placement of casing and trough-like elements counter to each other, the placement of flat flat elements between them, the presence of perimeter of trough-like elements of heat-insulating liners, placement of liners on both sides of another flat sheet marketing item.

 These distinctive features provide an increase in thermal insulation and strength characteristics while reducing several times the thickness of the multilayer panel in comparison with the known panel. This becomes possible due to the presence in the multilayer panel of a system of sealed cavities formed by structural elements of the panel and filled with a gaseous medium, such as air. An important condition is the implementation of the height of each sealed cavity, not exceeding 5 mm. In this case, the air in the cavities is stationary, which helps to increase the thermal insulation properties of the panel. An increase in the size of the cavities of more than 5 mm leads to the fact that due to the occurrence of convection processes in the cavities, the air immobility is disturbed and the thermal insulation properties of the panel are deteriorated.

 The drawing shows a fragment of the proposed multilayer panel.

 The multilayer panel includes claddings 1 and 2, placed counterclockwise and connected with them through flat sheet elements 3 and 4, trough-like elements 5 and 6, along the perimeter of which heat-insulating liners 7 and 8 are fixed, which in turn are fixed on both sides of the flat sheet element 9. Between the casing 1 and the sheet element 3 there is an air cavity 10, between the element 3 and the trough-like element 5 - the cavity 11, between the trough-like element 5 and the sheet element 6 - the cavity 12, between the element 9 and the trough-like element 6 - the cavity 13, m Between the trough-like element 6 and the sheet element 4 there is a cavity 14, between the element 4 and the casing 2 there is a cavity 15. The cavities 10, 11, 12, 13, 14, 15 are sealed.

 Assembling a multilayer panel collapsible structures is as follows.

 On both sides of the flat sheet elements 3 and 4, by means of glue or sealant, sheaths 1, 2 and trough-like elements 5, 6 are fixed. Then, heat-insulating inserts 7 and 8 are glued along the perimeter of the trough-like elements 5 and 6, after which the assembled elements are placed on both sides of the sheet element 9 and are fixed on it by gluing the liners 7 and 8 with the surfaces of the sheet element 9.

 In the considered example of the structural design of the multilayer panel, there are six sealed air cavities, and if the height size of each cavity is selected, for example, 4 mm, then taking into account the thicknesses of all panel elements, its total thickness can be made within 40 mm. If necessary, the number of cavities in the panel can be increased by installing additional elements 3, 4, 5, 6 and inserts 7 and 8.

 A possible embodiment of the manufacture of a multilayer panel, in which the casing 1, 2 and the elements 5, 6 are made flat. In this, along the perimeter of these elements between the casing 1, 2 and the elements 3, 4, as well as between the elements 3, 4 and the elements 5, 6, inserts 7 and 8 are additionally installed, the thickness of each of which corresponds to the height of the cavity.

 The proposed multilayer panel is compact, has high thermal insulation and strength characteristics and provides reliable protection of the premises in both ordinary and extreme conditions.

Claims (1)

 A multilayer panel of a collapsible structure, including the casing and the middle layer made of sheet material, characterized in that the casing is made trough-like, and the middle layer is made of flat sheet elements and trough-like elements with the formation of sealed cavities, while trough-like casing and trough-like elements are located relative to each other, and between the trough-like casing and the trough-like element there is a flat sheet element, and along the perimeter of the trough-like elements There are thermal insulating inserts located on both sides of another flat sheet element.