SK283102B6 - Insulating slabs for facades - Google Patents

Abstract

An insulating slab (1) for facades (6) is made of ground polystyrene foam waste bound by cement paste. The grain size of the polystyrene foam waste is 2 mm to 15 mm and the insulating slab has an apparent density of 0.2 to 0.35 kg/l.

Description

Technical field

The present invention relates to a thermal insulation board for providing thermal insulation on building facades.

BACKGROUND OF THE INVENTION

Hitherto known thermal insulations on facades, which are made of polystyrene thin lightweight boards or which are formed as extruded lightweight boards, are glued and laminated to the facades. Glass wool or mineral wool are also attached to the façade using fabric grilles, which are additionally equipped with a weatherproof cover and thus protect the façade against rapid cooling.

These and other similar measures are, however, very unsuitable for the facades of tall buildings. In particular, they are unsuitable for the retrofit of tall buildings made of prefabricated solid concrete.

Equally, from the point of view of fire safety, it is not permitted to fit building façades with foam panels to protect the façade from a height of approximately eight meters above the foundation. The use of mineral wool or glass wool also gives rise to the problem that such materials will lose their heat-insulating properties if the wall cladding is soaked, and the weight of the water-soaked façade cladding can be so great that the structure will no longer be able to withstand such loads. this creates a real risk of collapse of the structure. This danger also arises in case of ice formation.

An additional backfill of lining masonry is also uneconomical, the purpose of which is, in some cases, to create a “operationally safe” thermal insulation façade, especially for tall buildings. In new buildings, however, this system is used, and any kind of lightweight building auxiliary material is used as a filler to achieve the thermal insulation effect.

However, the known thermal insulation systems for improving the thermal insulation of a façade have the disadvantages that, once formed, they need an overlap which, on the one hand, prevents moisture penetration into the insulating material, while on the other giving the façade an appropriate appearance. In addition, the so-called "complete thermal protection of the expanded polystyrene foam facade lining also requires a protective coating made of a building screed material with an interwoven mesh, while at the same time flammable foam is protected from fire and at the same time protected from ultraviolet radiation.

A protective coating is also necessary to prevent mechanical damage to the facade from the outside. In addition, this protective coating also fulfills the desired color scheme of the facade.

It is necessary that all overlaps or protective coatings of the façade thermal insulation system are treated with extreme precision, since any minor unevenness or even any minor hairline and the like are immediately visible to the eye.

For example, the joint joints on the exterior walls of buildings that arise during the construction of large prefabricated concrete buildings cannot be permanently clad without cracks, since the reinforcing mesh of the 'protective coating' cannot transmit the forces of shrinking and expansion of concrete prefabricates. cracks.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to overcome these disadvantages and to provide a heat-insulating board of the initially mentioned type, which can be easily manufactured and assembled.

This is achieved by the fact that the heat insulating board according to the invention is made of crushed polystyrene foam waste bonded with a cement binder, the grain size of the polystyrene foam waste is 2 to 15 mm and the density of the thermal insulation board is 0.2 to 0.35 kg / 1st

The thermal insulation board according to the invention is characterized by its large dimensions and good thermal insulation while being very easy to mount. Such a heat insulating board can be easily attached by means of clips in combination with gluing. In addition, due to the use of the cement binder on the polystyrene foam, it is also guaranteed that it does not become soaked with water.

Furthermore, with the said thermal insulating board, frost resistance is guaranteed, and such sheets can be easily worked because they are not brittle. The thermal insulation boards according to the invention can also be used to clad facades of high-rise buildings. At the same time, the heat-insulating panels of 15 cm thickness are also suitable as fire protection boards, which can also protect reinforced concrete skeletons from fire damage.

The use of the proposed thermal insulation boards also provides, inter alia, the advantage that polystyrene foam waste can be advantageously used in their production, which is very environmentally friendly. For example, crushed foam containers may be used for processing.

Similarly, the costs incurred in producing the thermal insulation of a façade by means of the thermal insulation boards of the present invention are, due to the simpler assembly, lower than in the known systems, although the facades may also be of different shapes. Thermal insulation boards are usually equipped with profiling.

Because the polystyrene foam particles are heat treated or sintered, the advantage is that the heat insulating boards thus produced receive virtually no water, since the particles on the surface of the polystyrene foam are vitrified. The sintering of the particles on the surface of the polystyrene foam increases the strength of the finished thermal insulation boards. In addition, a smaller amount of polystyrene particles may also be admixed in the manufacture of the thermal insulation boards.

The heat insulating plate according to the invention can be machined very easily, for example by milling. A board with a format of, for example, 40 cm x 80 cm x 15 cm can be provided with a profile edge on all four edges from the outside. In order to produce the profile edges, it is necessary that the panels are only attached to the facade.

By melting the surfaces of the cut-off parts of the heat-insulating board, the advantage is achieved that the particles are not broken off the cut surface.

Due to the use of a white cement binder for the polystyrene foam particles, the advantage is achieved that such heat insulating boards can be provided with a smaller number of top coats.

In particular, the heat-insulating board is provided with grooves for the insertion of flexible strips on its side walls, making it very easy to assemble.

In particular, the paint which can be applied to the slabs may be a dispersion paint which also causes the outer layers of the thermal insulation boards to be reinforced, as it may penetrate to a greater depth of the cladding boards due to the capillary capillarity of the dispersion substance. Thus, very lightweight panels, for example with a density of only about 0.2 kg / l, can also be used for the thermal insulation of facades. The hot-air treatment of the thermal insulation boards increases the adhesion of the color coatings to be applied, especially when these surfaces are pretreated with the base dispersion.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be further elucidated with reference to the following examples, the description of which will be given with reference to the accompanying drawings, in which:

Fig. 1 shows a heat insulating board according to the invention;

Fig. 2 shows a schematic representation of a facade lined with the thermal insulation boards of FIG. 1;

Fig. 3 shows assembly aids;

Fig. 4 is a cross-sectional view of the mounting device of FIG. 3;

Fig. 5 shows a detail of the connection of the individual thermal insulation boards; and FIG. 6 shows a front view of a facade lined with heat insulating boards according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 shows a heat-insulating slab 1 made of polystyrene foam-lightweight concrete. The crushed polystyrene foam waste is thereby bonded by means of a cement binder or a white cement binder.

Facing thermal insulation plate 1 has a density of 0.2 to 0.35 kg / 1, wherein the heat conductivity is usually about 0.065 Ν.γπΛΚ. · ^1. The facade lined with the thermal insulation panels 1 according to the invention achieves a reduction in the energy consumption required for heating by up to 40%. The polystyrene foam particles have a grain size of from 2 to 5 mm.

The heat insulating plate 1 is preferably treated with hot air to seal the pores and become porous, which are exposed by cutting off the waste of polystyrene foam. This virtually prevents water soaking.

The thermal insulation plate 1 may be provided with profiles 2 formed by milling. In FIG. 2 the openings 3 formed in the side walls 4 of the heat insulating plate 1 are further shown. These openings 4 serve to accommodate the obliquely inserted fasteners 5 which extend into the facade 6, as shown in more detail in FIG. 2. In this case, the edges of the sides of the façade cladding can be covered with shaped parts 7.

Sheets 8 are provided in the side walls 4 of the thermal insulation plate 1, which are provided with a groove 9 in which recesses 11 are formed in the depressions 10, which serve to guide the drill bit to form holes for holding the clamps 5. tips 12 and blades 13 which, due to the curvature of the sheet 8, penetrate into the thermal insulation boards 1 and ensure a secure holding of the sheets 8.

As shown in FIG. 4, the recess 10 formed in the sheet 8 serves at the same time to support the heads of the screws 15 screwed into the clips 14.

As can be seen further from FIG. 5, the side walls 4 of the heat-insulating plate 1 may be provided with a groove 16 in which a flexible strip 17 is inserted.

The assembly of the thermal insulation boards 1 is carried out in such a way that the thermal insulation board 1 is glued to the facade with a frost-resistant adhesive and at the same time is additionally secured by means of clips 14 of screws 15.

FIG. 6 it is also evident that the thermal insulation board 1 can be cut to the desired size either by cutting or milling without problems. In this case, it is advantageous to treat the cutting points with hot air, since the polystyrene foam particles are vitrified at the cutting points.

In addition, the thermal insulation boards 1 can be provided with paint, in particular by spraying a dispersion paint, thereby increasing the strength of the surfaces of the thermal insulation boards thus treated.

Claims (5)

PATENT CLAIMS Thermal insulation board (1) for facades (6), characterized in that it is formed from crushed waste of polystyrene foam bonded with a cement binder, the grain size of the polystyrene foam waste is 2 to 15 mm, the density of the thermal insulation board (1) ) is 0.2 to 0.35 kg / l. The thermal insulation board according to claim 1, characterized in that the polystyrene foam particles are heat treated or sintered. The thermal insulation board according to claim 1 or 2, characterized in that the surfaces of the cut parts of the thermal insulation board (1) are melted. The thermal insulation board according to any one of claims 1 to 4, characterized in that the polystyrene foam waste is connected with either conventional cement or white cement. Heat-insulating board according to one of Claims 1 to 3, characterized in that grooves (16) for receiving the flexible strips (17) are provided on their side walls (4).