PL192673B1 - Thermally insulating board - Google Patents

Abstract

Thermal insulation board, especially made of foam plastic, having any shape, preferably rectangular and having two faces, preferably flat and at least one, preferably four lateral surfaces, preferably flat, characterized in that at least the surfaces (1, 2) the front ones are connected by pass-through holes

Description

Description of the invention

The subject of the invention is a thermal insulation board, especially made of foamed plastic, used mainly in building insulation systems or as the middle layer of a three-layer wall.

There are known thermal insulation boards made of mineral wool having the general shape of cuboidal blocks of different thickness.

The disadvantage of the presented solution is the high weight of such plates, which in turn entails the use of complicated fixing systems in the form of a large number of fixing pins, made of plastic, and equipped with a steel pin. Despite the fact that a thermal insulation board made of mineral wool is characterized by good vapor permeability, the production of such a board and the necessary accessories for its fixing is very time-consuming and involves large financial outlays. Moreover, when using mineral wool in a three-layer wall, it is required to maintain a ventilation gap between the insulation layer and the wall layer, which is very difficult to implement.

Also known are thermal insulation boards made of foamed plastic (polystyrene) having on one side open groove channels intersecting at right angles and extending along and across the board, and the edges of the board on the side of the channels are chamfered. The channels are used to drain water between the polystyrene layer and the insulated wall. Such a solution is known from the description of the application model W-106840.

The disadvantage of the presented solution is the use of a continuous layer of polystyrene in the thermal insulation layer of the building composed of closely adjacent boards, which are water vapor impermeable, which is related to the properties of polystyrene. The water vapor that accumulates in the tight (thanks to modern window systems) of the building, e.g. from cooking food or the human respiratory system, penetrates the load-bearing layer of the wall, and then condenses between the polystyrene layer and the building wall layer and is discharged through the groove channels into the lower parts of the building, especially near the foundations. The inability to remove water vapor from the vicinity of the foundations causes their dampness, which in turn causes the development of various types of fungi on the walls of the building, which cause severe allergies and various types of dermatosis in people.

Moistening of the walls due to the inability to remove water vapor can be prevented by the use of a discontinuous layer of insulation boards, however, in this case, it is impossible to avoid penetration of the masonry mortar into the gaps between the insulation boards, which in turn causes the so-called thermal bridges, and the wall built in this way does not meet the heat transfer standards.

There are also insulation and drainage mats, usually used on ceiling elements of buildings, but which can also be used to insulate buildings. The mentioned mats consist of a non-woven layer under which there is an insulating-supply layer with blind depressions. Such a solution is known from the description of the application model W-108021.

The disadvantage of the presented solution is the presence of condensed water vapor in the cavities after it has penetrated through the load-bearing layer of the wall. As in the previous case, the presence of water causes the development of pathogenic fungi on the walls of the building.

The aim is to eliminate the above-mentioned disadvantages, and this aim is achieved by the implementation of the solution according to the invention.

The essence of the solution according to the invention is the construction of a thermal insulation board, especially made of foamed plastic, having any shape, preferably cuboid, and having two front surfaces, preferably flat and at least one, preferably four, side surfaces, preferably flat, characterized in that at least the plate faces are connected to each other through through holes.

It is envisaged that the openings not only connect the faces, but may connect the faces to at least one or more or all of the side faces.

The openings are of any shape, preferably cylindrical, although they may also be of other shapes. Moreover, the openings are arranged at any angle, preferably at right angles to the front surfaces of the plate, in relation to the face surfaces of the plate.

PL 192 673 B1

If the openings connect not only the plate faces to each other, it is envisaged that they may also be arranged at any angle in relation to the side or side faces. The openings are preferably evenly distributed over the surface of the plate in regular rows, although they may be arranged in other ways, for example unevenly and not in regular rows.

The advantageous technical effects of the solution according to the invention are the possibility of providing heat-insulating boards made of foamed plastic, such as polystyrene, which does not require complicated fastening systems, is light and cheap, with vapor-permeable properties of insulating boards, such as e.g.

The thermal insulation boards made according to the invention are easy to install and do not require any ventilation gaps between the insulation layer and the wall layer.

The water vapor generated in the building penetrates through the wall into the insulating layer in the form of a panel according to the invention and is discharged through the openings in the insulating layer to the outer layers of the wall and from there to the outside of the building. During the erection or insulation of walls, the insulation boards are covered with a layer of plaster or masonry, which, however, does not penetrate into the holes and does not form thermal bridges.

In this way, a closed air space is created inside the holes, which is an excellent thermal insulator, and at the same time allows water vapor to pass through.

The solution according to the invention is shown in the embodiment in the drawings, in which Fig. 1 shows the thermal insulation board in a perspective view with through holes, Fig. 2 shows the thermal insulation board in a plan view from the face side, Fig. 3 shows the thermal insulation board in a plane view in section AA from Fig. 2, and Fig. 4, in a perspective drawing, shows a fragment of a wall of a building together with an insulation system with the use of a thermal insulation board according to the invention.

The thermal insulation board according to the invention is made of foamed plastic, in this case polystyrene, and has a rectangular shape. The plate has two faces 1, 2 face and four faces 3, 4, 5, 6 side. The faces 1,2 are connected by through holes 7. The openings 7 are cylindrical in shape and are situated at right angles to the face 1,2 of the plate. The holes 7 are evenly distributed over the surface of the plate and are arranged in regular rows.

Claims (4)

Patent claims 1. A heat-insulating board, in particular made of foamed plastic, having any shape, preferably cuboid, and having two face surfaces, preferably flat and at least one, preferably four, side surfaces, preferably flat, characterized in that at least the face surfaces (1, 2) they are connected by through holes (7). 2. The thermal insulation board according to claim 3. A method as claimed in claim 1, characterized in that the holes (7) are of any shape, preferably cylindrical. 3. The thermal insulation board according to claim The plate according to claim 1, characterized in that the openings (7) are situated at any angle with respect to the face surfaces (1,2) of the plate, preferably at right angles. 4. The thermal insulation board according to claim The method of claim 1, characterized in that the holes (7) are arranged arbitrarily on the surface of the plate, preferably evenly.