RU2286428C2 - Heat-insulated building member - Google Patents

Abstract

FIELD: building members, particularly heat-insulated building unit used as filler structures, facings and building structures.

SUBSTANCE: heat-insulated building member comprises outer layers, metal foil screen layers, cellular packing layers made of bent paper strips and adhered one to another. Cells of one packing layer are displaced with respect to that of another packing layer. Outer layers are made of metal foil and are used as screens and load-bearing layers. Cellular packing layers are connected with each other by means of flat paper sheets. Planes of adjacent packing layer connection areas are turned one relative another through angle equal or less than 90°. Packing layer thickness, namely cell height, and cell dimensions are reduced towards outer layers. Flat paper sheet thickness increases towards outer layers. Packing layer cells adjoining outer load-bearing layer facing heat-dissipation surface are filled with foaming composition. The foaming composition includes components, which sublimate under the action of high temperature with water vapor or carbonic oxide gas emission. Adjacent packing layers adjoining opposite outer load-bearing layers are filled with ecologically-safe cotton wool. Ratio between flat paper sheets and packing layer thickness (cell height) is 1:1 - 1:250. Ratio between cell height and cell face dimensions is 1:2-1:5. Ratio between bent paper strip thickness used for cell production and packing layer thickness (cell height) is 1:50-1:300. Ratio between mean packing layer thickness (mean 9-th cell height) and heat-insulation layer thickness is 1:2-1:60.

EFFECT: increased load-bearing capacity, strength and fire-resistance along with retention of good heat-insulation properties.

5 cl, 2 dwg

Description

The invention relates to the field of construction, in particular to layered thermal insulation products used in building envelopes, in cladding of buildings and structures.

Known heat-insulating element, including the outer layers, at least one shielding layer made in the form of a metallized film, at least one cushioning layer having a cellular structure and made of polyurethane foam material [see A.S. USSR No. 613044, E 04 In 1/78, publ. 1976]. This heat-insulating element does not have sufficient heat-insulating ability due to convective transfer in air gaps in the cells of the cushioning layer.

Known heat-insulating element [see application of Russia No. 2002134092, E 04 C 2/36, publ. 08/10/2004], including the outer hard layers of at least one inner layer of paper, impregnated with resin, having a cellular structure and additionally filled with volumetric filler in the form of polyurethane foam or basalt, or a combination thereof, as well as an additional layer of basalt or its components located between the outer layer and the layer having a cellular structure.

The disadvantage of this heat-insulating element is the insufficient heat-insulating ability, as well as the presence of environmentally harmful materials in its composition.

The closest known analogues of the proposed technical solution is a heat-insulating building element, including outer layers, shielding layers of metal foil, cushioning layers of paper having a cellular structure made of curved tapes, and the shielding layers are connected to the cushioning layers using adhesive bonding, and the cells of one cushioning layer are offset from the cells of another layer [see Patent of Russia No. 2101428, “Building heat-insulating element”, E 043 1/78, E 04 C 2/36, 32 V 3/12, publ. 01/10/98].

The disadvantage of this technical solution is that this heat-insulating element does not possess, along with high heat-insulating ability, the necessary strength and load-bearing ability, and it also has a reduced fire resistance due to the presence of paper in the outer layers.

The technical result of the proposed solution is to increase the bearing capacity, strength and fire resistance while maintaining a high heat-insulating ability.

The specified technical result is achieved in that in the heat-insulating building element, including the outer layers, shielding layers of metal foil, cushioning layers having a cellular structure made of curved paper tapes, and interconnected with glue, moreover, the cells of one cushioning layer are offset relative to cells of another cushioning layer, there are differences, namely, the outer layers are made of metal foil and act as shielding and load-bearing layers, cushioning layers having a mesh the true structure are interconnected by means of paper flat sheets, and the gluing planes of the curved tapes in adjacent cushioning layers are rotated one relative to another by an angle less than or equal to 90 °, the thickness of the cushioning layers (cell height) and the cell sizes in the cushioning layers are variable and decrease in direction to the outer layers, the thickness of the flat paper sheets is made increasing towards the outer layers, the cells of the cushioning layer adjacent to the outer carrier layer facing the heat transfer plane, are coated with a composition containing components that sublimate under the influence of high temperature with the release of water vapor or carbon dioxide, and adjacent to it, as well as adjacent to the opposite external carrier layer, the cushioning layers are filled with ecowool, and the ratio of the thickness of flat paper sheets to the thickness of the cushioning layers (cell height) is 1: 5-1: 250, the ratio of the height of the cells to the size of the faces of the cells is 1: 1-1: 5, the ratio of the thickness of the curved paper tapes from which the cells are made to the thickness of the cushioning layers (cell height) with leaves 1: 50-1: 300, the ratio of the average thickness of the cushioning layer (average cell height) to the thickness of the insulating element is 1: 2-1: 60.

In addition, the heat-insulating building element may contain at least one additional shielding layer located between the cushioning layers having a cellular structure.

In addition, the end faces of the insulating building element are additionally fastened with fixing tapes.

In addition, the fastening tapes are self-adhesive.

In addition, the insulating building element along the perimeter is equipped with a frame to the height of the insulating building element.

The implementation of the thickness of the cushioning layers (cell height) decreasing to the outer layers in combination with the increasing thickness of the flat paper sheets significantly increases the structural strength and bearing capacity of the heat-insulating building element.

The rotation of the gluing planes of paper tapes in adjacent cushioning layers relative to each other increases the strength of the whole element as a whole.

The presence of a self-adhesive tape covering the end sides of a heat-insulating building element, can further increase its strength and load-bearing ability.

The implementation of the heat-insulating building element with the outer layers of metal foil that perform supporting and shielding functions, combined with the fact that the cushioning layer adjacent to the heat-transfer plane is filled with a foaming composition containing components that sublimate under the influence of high temperature with the release of water vapor or carbon dioxide significantly increase the fire resistance of a heat-insulating building element, as well as reduce heat transfer due to reflection of radiation to metal layers and.

The presence of additional internal shielding layers enhances the insulating properties of the cushioning layers.

To increase the bearing capacity, as well as to improve the ease of installation, the perimeter of the insulating building element is equipped with a frame.

The best ratio of heat-insulating properties to strength and load-bearing capacity is achieved when the ratio of the thickness of flat paper sheets to the thickness of the cushioning layers (cell height) is 1: 5-1: 250, the ratio of the cell height to the size of the cell faces is 1: 1-1: 5 , the ratio of the thickness of the curved paper tapes from which the cells are made, to the thickness of the cushioning layers (cell height) equal to 1: 50-1: 300, the ratio of the average thickness of the cushioning layer (average cell height) to the thickness of the heat-insulating element equal to 1: 2- 1:60.

Figure 1 shows a thermal insulation building element in section.

Figure 2 shows variants of the form of execution of the cells formed from curved paper tapes.

The heat-insulating building element (see figure 1) contains the outer layers 1 made of metal foil, and therefore at the same time perform the function of shielding. They are adjoined by cushioning layers 2 having a cellular structure made of curved ribbons of paper 3. The cellular structure may have a hexagon, square, rectangle or oval-shaped cross section. Layers 1 and 2 are interconnected using glue. The gluing plane of the curved tapes 3 (see figure 2) in adjacent cushioning layers 2 are rotated one relative to the other by an angle of ≤90 °. The thickness of the cushioning layers 2 (cell height H) is variable and decreases towards the outer layers 1. The cushioning layers 2 are interconnected using flat paper sheets 4, the thickness of which increases towards the outer layers 1. Cells of the cushioning layer 2 adjacent to the heat transfer planes (i.e. to the insulated room), filled with a foaming compound 5 (for example, liquid glass) containing components that sublimate under the influence of high temperature with the release of water vapor or carbon dioxide, adjacent to it, as well as Not adjacent to the opposite outer layer, the cushioning layers 2 are filled with ecowool 6.

The heat-insulating building element may additionally contain additional shielding layers 7 made of metal foil or metallized paper (polycraft).

To achieve maximum thermal insulation ability of an element, the number of layers shielding infrared radiation can reach seven (including external).

The best combination of heat-insulating and bearing capacity (strength) is achieved when the ratio of the thickness of flat paper sheets to the thickness of the cushioning layers (cell height) is 1: 5-1: 250, the ratio of the cell height to the size of the cell faces is 1: 1-1: 5 , the ratio of the thickness of the curved paper tapes from which the cells are made to the thickness of the cushioning layers (cell height) equal to 1: 50-1: 300, the ratio of the average thickness of the cushioning layer (average cell height) to the thickness of the heat-insulating element equal to 1: 2- 1:60.

A heat-insulating building element around the perimeter can be equipped with a frame 8, made, for example, of wooden beams. To perform the shielding layers using a metal foil with a thickness of 0.05-0.1 mm and a thickness of the cushioning layer is 2 mm.

Claims (5)

1. Heat-insulating building element, including outer layers, shielding layers of metal foil, cushioning layers having a cellular structure made of curved paper tapes, and interconnected with glue, moreover, the cells of one cushioning layer are offset relative to the cells of another cushioning layer, different the fact that the outer layers are made of metal foil and act as shielding and load-bearing layers, cushioning layers having a cellular structure are interconnected using paper flat sheets, and the gluing planes of the curved tapes in adjacent cushioning layers are rotated one relative to another by an angle less than or equal to 90 °, the thickness of the cushioning layers - the cell height and cell sizes in the cushioning layers are variable and decrease towards the outer layers, the thickness of the flat paper sheets is made increasing towards the outer layers, the cells of the cushioning layer adjacent to the outer bearing layer facing the heat-transfer plane are filled with a composition containing components that sublimate under exposure to high temperature with the release of water vapor or carbon dioxide, and adjacent to it, as well as adjacent to the opposite outer carrier layer, the cushioning layers are filled with ecowool, and the ratio of the thickness of flat paper sheets to the thickness of the cushioning layers - cell height is 1: 5-1: 250, the ratio of the height of the cells to the size of the faces of the cells is 1: 1-1: 5, the ratio of the thickness of the curved paper tapes from which the cells are made to the thickness of the cushioning layers - the height of the cells is 1: 50-1: 300, the ratio of the average thickness of the cushioning layer - the average cell height to the thickness of the insulating element is 1: 2-1: 60. 2. The heat-insulating building element according to claim 1, characterized in that it contains at least one additional shielding layer located between the cushioning layers having a cellular structure. 3. The heat-insulating building element according to claim 1 or 2, characterized in that the surface of the end faces of the heat-insulating building element is additionally fastened with fixing tapes. 4. The heat-insulating building element according to claim 3, characterized in that along the outer perimeter it is provided with a frame to the height of the heat-insulating building element. 5. The heat-insulating building element according to claim 3, characterized in that the fastening tapes are made of self-adhesive.

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