NO830510L - Foam insulation board. - Google Patents

Abstract

The heat-insulating foam plate, particularly polystyrene foam, comprises on at least one face a profile which allows to make the plate integral with a construction material consisting of a binder and additives, such as concrete, mortar, rough-cast. The profile is comprised of a coarse profile (1) of which at least the holes are provided with an additional fine profile (2).

Description

The invention relates to an insulation board made of foam material,

especially of foamed polystyrene, with a profiling on

at least one panel side for connection with a building material consisting of binder and aggregates.

The profiling aims to enable respectively

improve the adhesion of the building material consisting of binder and aggregates, such as concrete, mortar or plaster, to the surface of the foam stop insulation board. In the case of a known proposal of this type, a good cohesion with a wet-applied building material is to be achieved above all by cooperation between the profile of the plate surface and the open pore structure of the foam, as the fine parts of the wet-applied building material are to enter the open cells and anchor themselves there, while the somewhat rougher shares will find a hold in the profiling. However, this known proposal has the disadvantage that, particularly in the case of sheets of foamed polystyrene, the possibly opened ball-like foam particles will have a microscopically fine pore structure that is maximally suitable for absorbing the pure liquid portion (water) in the wet-applied building material, and that further between - the spaces between the individual foam particles are predominantly closed as a result of the welding together of adjacent foam particles, so that there is also no significant absorption between the foam particles in practice of the fine parts and finest parts in the wet-applied material which do not consist exclusively of pure water building material. In addition, the known proposal also has the disadvantage that the profiling's recesses in the plate surface only have a width of approx. 1 mm, which in many cases is not sufficient to absorb the coarser parts of the wet-applied building material when its aggregates have a largest grain of more than 1 mm.

The purpose of the invention is therefore to improve the adhesion between the building material, such as concrete, mortar, plaster, etc., and an insulation board made of foam material, especially foamed polystyrene, where a good retention is ensured for both the fine and finest proportions of the building material as well as for them

rough proportions.

According to the invention, this is achieved by the profiling consisting of a coarse profiling superimposed with a fine profiling, with preferably at least sub-areas of the coarse profiling profile recesses having a fine profiling.

The fine profiling consists of raised or recessed areas whose dimensions (depth, width) are several times smaller than the dimensions of the rough profiling's recessed areas. In connection with the insulation board profiled according to the invention, it is appropriate to use different building materials consisting of binders and additives, and among these, in addition to cement bases, building materials made with water, plastic base building materials should also be mentioned. The fine profiling represents an effective measure for absorbing the fine parts and the fine parts in the building material to be connected to the insulation board, while the depressions in the coarse profiling can also absorb the coarser parts of the building material, as the width of the depressed areas of the coarse profiling at least corresponds to the size of the normal largest grain in the grain group used for the aggregate.

In minimum quantities, the existing excess can be overlooked when dimensioning the rough profiling. The fine profiling is preferably dimensioned so that the finest grain group proportions of the aggregate can penetrate it.

For manufacturing technical reasons, it is appropriate if there are deepened areas of the coarse profiling in a manner known per se to take the form of grooves, preferably in the form of two intersecting grooves, while the fine profiling consists of grooves running in the longitudinal direction of the coarse profiling grooves.

The invention shall be described in more detail with reference to the drawings, which show exemplary embodiments.

Fig. 1 shows in plan and

fig. 2 shows in section according to II-II in fig. 1 an embodiment of the insulation board according to the invention.

fig. 3 and 4 show an average of two further embodiments

of the insulation board according to the invention.

fig. 5-10 show some profile variants of the rough profiling.

fig. 11 shows in section a hollow block stone with integrated insulation plate according to the invention.

fig. 12 shows a cross-section of a plate-shaped prefabricated building element

with integrated insulation plate according to the invention.

fig. 13-14 shows in average and

fig. 17 shows in end view further embodiments of

the insulation board according to the invention.

Fig. 15 is below a section according to XV-XV i; fig. 14.

In the design example in fig. 1 and 2, an insulation board made of foamed polystyrene has a profiling on one side of the board.

The deepened areas of the profiling consist of a rough profiling formed by track 1. The track walls are provided with profiling consisting of 2 grooves. There are two sets of tracks 1 crossing each other at right angles, where between the tracks, as a result of the equal distances between adjacent longitudinal tracks and transverse tracks, square step elements 3 appear. It is of course also possible to design a fine profiling 2 on the surface of the coarse profiling 1 raised step elements 3 (fig. 3).

The maximum width bN for the tracks 1 is, for example, approx. 1 cm, and the same applies to the distance between two horizontal tracks 1, so that the width b (and length) of the step elements 3 also amounts to approx. 1 cm. The groove depth is suitably a few millimeters, for example 3 to 5 mm. The grooves 2 in the fine profiling have, for example, a width and depth of approx. 1 mm.

The profiled plate side of the insulation plate according to fig. 1

and 2, respectively 3 have a good adhesion to mortar, respectively plastering mortar, whether the insulation board is pressed with its profiled side against a fresh layer of mortar applied to a wall or a roof or a plastering mortar is applied wet to the profiled board side to it on a wall or in a roof mounted insulation board. With an insulating plate which, as shown in fig. 4, on both plate sides has a coarse profiling (for example groove 1) and a fine profiling (for example grooves 2), you can achieve both, namely that on one plate side you get a good adhesion of the insulation plate to a mortar layer and on the other plate side you get a good adhesion of mortar (plaster) to the insulation board.

Plaster mortar has varying sand grains in the aggregate depending on the application (external wall plaster, internal wall plaster, ceiling plaster) and depending on the layer of plaster (rapping, under-plaster, over-plaster), with the sand grain usually ranging from 0/1 or 0/2 mm for fine plastering and up to 0/7 mm when rapping. The insulation board's rough profiling is dimensioned in accordance with the sand grain, where at least the width of the rough profiling must be greater than the largest grain used. The depth can be somewhat smaller, because it does not matter if the largest grain of the aggregate protrudes somewhat beyond the profile recesses. A rough profiling with a profile recess width of approx. 1 cm and a profile depth of 3-5 mm is therefore suitable for all common types of plaster and other building materials consisting of binders and aggregates.

The coarse and fine profiling according to fig. 1-4 can be produced in one operation, by cutting, milling or appropriate melting using a heated tool. The melting process that takes place during this on the surface of the profiling also provides an advantageous hardening of the foam surface. Irregularities in the side course and depth of the profiles that can occur during cutting are also advantageous, because they give the foam surface an extra roughness that improves adhesion to mortar, plaster etc.

According to fig. 2-4, the grooves 1 in the rough profiling have an approximately semi-circular profile. Other possible examples of profile shapes for the rough profiling can be found in fig. 5-10. The profiles according to fig. 5-8 have outwardly diverging or vertical side walls and, in the same way as the semi-circular profiles (fig. 2-4), will show advantages when the insulation board is to be pressed against a fresh layer of mortar on a wall or in a ceiling. For a particularly intimate connection between the insulation board and the building material, such as plaster, concrete etc., it is appropriate to have a rough profile that has outwardly converging side walls (fig. 9, 10). In fig. 5-10, the fine profiling is not shown. The fine profiling can be designed analogously to that in fig. 2-4 showed and can be distributed over the entire profile wall surface. However, it is also possible to only provide a part of the profile wall surface with a fine profiling, for example only the side walls and not the base surface of the profile in fig. 6-10.

In fig. 1-3, the rough profiling is formed by two mutually intersecting rows of tracks 1. If there are somewhat lower requirements for the bonding between the insulation board and the building material, such as concrete, mortar, plaster, it may be sufficient as rough profiling with just a single row of parallel tracks . The rough profiling does not necessarily have to be in the form of a track. It may also be relevant with, for example, several cup-shaped recesses as rough profiling. In this case, the fine profiling can consist of numerous small depressions or bumps on the side walls and/or at the bottom of the cup-shaped depressions in the rough profiling. What has been said above in connection with the appropriate width and depth for the rough profiling designed as track 1 applies in principle also to other forms of rough profiling, for example also to the aforementioned cup-shaped recesses, as in the latter case the diameter of the cup-shaped recesses is considered the "width" . The specifications given in connection with the grooves 2 can also be used for the dimensioning of the fine profiling.

As already mentioned, according to the invention, profiled insulation boards can be placed on a wall or in a ceiling and supplied with plaster. Furthermore, it is possible to apply a layer of mortar to an insulation board mounted on a wall and to lay a wall covering, for example tiles, on this layer of mortar. However, the insulation board can also be a component of a building gesture or another building element. The application in connection with a hollow block stone is shown in fig. 11, where the insulation plate D is formed between two concrete parts A and B. In a similar way,

see fig. 12, can also be plate-shaped prefab parts, consisting of two outer plates E, F, of possibly reinforced concrete, and a shaped insulation plate D in between.

The profiled insulation boards according to the invention can, as shown in fig. 13, in addition to the coarse profiling and the fine profiling also have an "over-profiling", for example in the form of grooves 4 which extend over the width of several grooves in the coarse profiling, where the grooves 1 according to the invention have a fine profiling, for example in the form of grooves 2 .

For the pressing of the insulation board according to the invention against

a fresh layer of mortar on a wall or in a roof is appropriate if not only the rough profiling is free of undercuts (fig. 5-8), but also the fine profiling is without undercut areas. This is the case when, as shown in fig. 14-16, not only the side walls of the coarse profiling, but also the side walls of the fine profiling are perpendicular to the plate surface or diverge outwards. Fig. 15 further shows that the peak areas 4 between two profile depressions in the fine profiling 2 can be comb-like roughened, which promotes the intimate connection between the insulation board and building material, such as

plaster, concrete etc. For the same purpose, the side walls of the fine profiling 2 can also be roughened. Fig. 16 shows that the step elements 5 between two rough profiles 1 can also be very narrow, for example lie in the order of magnitude of the fine profiles 2, respectively their vertex areas 4. In this case, therefore, adjacent rough profiles 1 are practically right next to each other.

Of course, not all areas of an insulation board's surface or surfaces must be evenly provided with rough profiles and fine profiles. It is, of course, also possible to have an irregular distribution of the profiling or to have unprofiled zones, as can be seen, for example, from fig. 13. Furthermore, the false edge areas 6 (which protrude on the longitudinal side and/or the transverse side) of an insulation board which is provided on one or both sides with a profiling according to the invention, can be without profiling according to the invention (fig. 17).

As an example of the material used in the insulation board according to the invention, foamed polystyrene is mentioned above. Of course, insulation boards made of other foams, for example polyurethane foams, can also be provided with the profiling according to the invention.

Claims (10)

1. Insulation board of foam material, in particular of foamed polystyrene, with a profiling on at least one side of the board for connection with a building material consisting of binder and aggregates, characterized in that the profiling consists of a coarse profiling (1) superimposed with a fine profiling (2), preferably at least partial areas of the profile depressions of the coarse profiling (1) have a finely profiled ring. 2. Insulation board according to claim 1, characterized in that the surface of the raised step elements (3) in the coarse profiling (1) also has a fine profiling (2). 3. Insulation board according to claim or 2, characterized in that the deepened areas of the rough profiling are in the form of grooves (1), preferably in the form of two intersecting groups of grooves (1), and that the fine profiling consists of grooves (2) which mainly run in the longitudinal direction of the groove of the rough profiling (1). 4. Insulation board according to one of claims 1-3, characterized by the rough profiling (1) has a width (bN ) of approx. 1 cm and a depth (tN ) of several millimeters, preferably from 3 to 5 mm. 5. Insulation board according to one of claims 1-4, characterized in that the fine profiling (2) has a width and depth of approx. 1 mm. 6. Insulation board according to one of the claims 1-5, characterized in that the profile depressions of the rough profiling (1) have perpendicular to the plate surface or in such a way beyond divergent side walls that the profile depressions are not undercut in relation to the plate surface. 7. Insulation board according to claim 6, character sert in that the rough profiling consists of grooves (1) with an approximately semi-circular profile. 8. Insulation board according to one of the claims 1-7, characterized in that the profile depressions in the fine profiling (2) have perpendicular to the board surface or such that beyond divergent side walls that the profile depressions are not undercut in relation to the board surface and/or in relation to the surface of the rough profiling. 9. Insulation board according to one of claims 1-8, characterized in that the side walls and/or peak areas of the fine profiling (2) are roughened. 10. Insulation board according to claim 9, characterized in that the peak areas between two profile depressions in the fine profiling are comb-like roughened.