RU134960U1 - MULTI-LAYER FRAME PANEL WITH HEAT-REFLECTING SCREENS - Google Patents

Abstract

1. A multilayer frame panel with heat-reflecting screens, containing at least two flat rectangular lattice frames, on one side of which a heat-reflecting screen is fixed, connected by fasteners via distance washers, characterized in that the flat rectangular lattice frames contain an additional heat-reflecting screen and are fixed in the frame, however, at least one external heat-reflecting screen is 1-1.2 mm thick. 2. A multilayer frame panel with heat-reflecting screens according to claim 1, characterized in that the heat-reflecting screens are made of foil. A multilayer frame panel with heat-reflecting screens according to claim 1, characterized in that the frame and frames are provided with holes, fasteners are made in the form of tubular rivets.

Description

The utility model relates to the field of construction and building materials and can also be used in wall or roof fencing to reduce heat loss.

Known fencing panel with an air gap between the outer layer and the insulation, separated by a heat-reflecting screen made of aluminum metallized lavsan film (USSR Author's Certificate No. 344086, IPC E04C 2/28, E04B 1/78, 1972).

The disadvantage of this technical solution is the low strength and fragility of the aluminum coating.

A heat-insulating element is known (Patent for a utility model of the Russian Federation No. 11807, IPC E04B 1/78, 1999), containing the outer layers and the shielding layer placed between them, the outer layers are made of flat porous sheet material and have different thicknesses, and the shielding layer is made in as a vapor-tight heat-reflecting screen. In the second embodiment, the outer layers are made of polystyrene foam plates, while the thickness of one outer layer is two or more times the thickness of the other outer layer, and the vapor-proof heat-reflecting screen is made in the form of a polyethylene film with a metallized coating, a metal foil or a metallized coating applied to the mating side of one of the outer layers.

The disadvantage of this technical solution is the low efficiency of the heat-reflecting screen located between the layers of heat-insulating material.

A vapor-tight heat-reflecting screen is known (Patent for a utility model of the Russian Federation No. 16287, IPC E04B 1/74, 2000), made in the form of a polymer film with a metallized coating, which is laminated with a protective layer of a polymer film, and a non-drying adhesive is applied to the polymer films.

The disadvantage of this technical solution is that the metallized layer, which mainly has heat-reflecting properties, is laminated on both sides with polymer films with a non-drying adhesive applied to them, which increases the strength of the heat-reflecting screen, but significantly reduces its heat-reflecting properties.

Known multi-layer panel (Patent for invention RU No. 2130107, IPC E04C 2/04, 1998), containing the outer and inner structural layers, between which is a layer of porous insulation and an additional insulating layer made in the form of a vapor-tight heat-reflecting screen located in the thickness of the layer porous insulation at a distance δ from the internal structural layer, determined from the relation δ = (0.5-4.0) λ, where δ is the distance between the internal structural layer and the vapor-tight heat-reflecting screen, m; λ is the thermal conductivity of the material of the layer of porous insulation, W / m · ° C.

The disadvantage of this multilayer panel is the ability to moisten a layer of insulating porous insulation, and as a result of reducing the efficiency of the heat-reflecting screen located in the layer of heat-insulating material.

Known panel screen (Utility Model Patent No. 128221, IPC E04B 1/74, 2013) selected as a prototype, containing at least two flat rectangular lattice frames connected by fasteners via distance washers, while the heat-reflecting screen is fixed on one side each frame.

The disadvantages of this panel screen are low strength characteristics, short service life and lack of thermal efficiency.

The technical result achieved by the claimed utility model is to increase heat-shielding properties, increase service life and increase the ease of installation.

The technical result is achieved by the fact that a multilayer frame panel with heat-reflecting screens, containing at least two flat rectangular lattice frames, on one side of which a heat-reflecting screen is fixed, connected by fasteners via distance washers, flat rectangular lattice frames contain an additional heat-reflecting screen and are fixed in the frame, however, at least one external heat-reflecting screen is 1-1.2 mm thick. Heat-reflecting screens are made of foil, the frame and frames are provided with holes, fasteners are made in the form of tubular rivets.

The drawing shows a multilayer frame panel with heat-reflecting screens.

The multilayer frame panel with heat-reflecting screens contains a flat rectangular lattice frame 1, made, for example, of plastic material, which is the main supporting element, the number of lattice frames 1 can be two or more. The heat-reflecting screen 2, for example, of aluminum foil, is mounted on the lattice frame 1 from 2 sides, for example, with glue. The lattice frame 1 is made of a strip, the width of which is selected from the condition of reliable fastening, for example, 7-15 mm, the lattice pitch is selected from the condition of exclusion of sagging heat-reflecting screen 2 equal to 250-300 mm. The area of the lattice frame 1 should be no more than 13% of the surface area of the heat-reflecting screen 2. The lattice frames 1 are separated by distance washers 3, the thickness of which is chosen from 3 to 5 mm from the air gap between the lattice frames 1. One of the outer heat-reflecting screens 4 (or both) is made, for example, from an aluminum sheet with a thickness of 1.0-1.2 mm. The lattice frames 1 are separated by distance washers 3 and installed in the frame 5, the thickness of which depends

The assembly and fastening of all elements is carried out using tubular rivets 7 installed in the corners of the structure, with a package size of more than 0.5 m, rivets can be put in another 0.5 m. The whole structure is placed around the entire perimeter in a plastic frame 5, 7- wide 10 mm ..

The package of the multilayer screen can be fixed to the structure through rivet holes 6, for example, with a screw 7.

Laboratory tests showed that with a grid frame thickness of 3 mm or more, screens installed on both sides of the frame give the result as two separate screens installed one after the other. When using this multilayer screen in atmospheric conditions, two external heat-reflecting screens must be made of foil with a thickness of at least 1 mm. To get a hard bag, multilayer screens are placed in a plastic frame around the perimeter.

Tests of the claimed model, consisting of one grating δ = 3 mm with a 2-layer screen made of aluminum foil with a thickness of 100 μm and 2 sheets of aluminum foil δ = 1 mm, covering the grating with a screen from 2 sides with a gap of 3 , 0 mm, reduce heat loss through the structure by 3.5 times.

Claims (3)

1. A multilayer frame panel with heat-reflecting screens, containing at least two flat rectangular lattice frames, on one side of which a heat-reflecting screen is fixed, connected by fasteners via distance washers, characterized in that the flat rectangular lattice frames contain an additional heat-reflecting screen and are fixed in the frame, however, at least one external heat-reflecting screen is 1-1.2 mm thick. 2. A multilayer frame panel with heat-reflecting screens according to claim 1, characterized in that the heat-reflecting screens are made of foil. 3. A multilayer frame panel with heat-reflecting screens according to claim 1, characterized in that the frame and frames are provided with holes, fasteners are made in the form of tubular rivets.

Images