DE29507579U1 - Crack-free floor construction - Google Patents

Description

PATENT ATTORNEY Fasanenstr. 7 DIPL.-ING. WERNER LORENZ D-89522 Heidenheia

04.05.1995 - ks File: SFF 3329 Applicant:

Matti HOME
Lystimiaenkuj a 5
FIN-02210 Espoo
Finland

Crack-free floor construction

The subject of the invention is a floor in composite construction that can be used as subfloors and intermediate floors in construction.

5 on, in which suitably perforated profiled sheets such as folded sheets, corrugated sheets, cassettes or similar are used to reinforce the structure in such a way that a floor construction is created which eliminates the cracking of the cast component.

The invention therefore relates to a crack-free floor in a composite construction, in which profiled sheets made of thin steel sheet perforated with large holes (2) of the order of 1000...3000 mm ² or other metal sheet or of other material, such as folded sheets, corrugated sheets, cassettes or the like, are used to reinforce the sheet metal construction, whereby the cast component which shrinks during drying, such as elastic or liquefied concrete mass or similar, ceramic concrete mass, Vetonit mass (trademark), gypsum mass or similar elastic or liquid and chemically or otherwise drying cast component, flows through the holes in the sheet in sufficient quantities by gravity and/or under pressure, whereby the profiled sheet forms a permanent reinforcement in relation to the cast component, while at the same time

The cast component present at the holes (2) and/or the adhesion mechanism present on the profiled sheet connects the profiled sheet and the cast component to form a cooperative composite structure. The shape and arrangement of the holes present in the profiled sheet are not limited in any way if the holes are only sized such that the cast component penetrates the sheet in sufficient quantity, the sufficient quantity depending on the areas of application of the invention.

It is advantageous that the sheet has a suitable one- or two-sided adhesion mechanism either at the holes or otherwise. In the present invention, the adhesion mechanism present in the profile sheet is not limited in any way.

It is characteristic of the invention that the floor solution as a combination has at least the following parts and functions
20

a) with large holes of the order of 1000...3000 mm ² , preferably of the order of 2000 mm ² , perforated profiled sheet such as corrugated sheet, folded sheet, cassette or similar,

b) elastic or liquid and chemically or otherwise hardening cast component ensuring mechanical durability, which flows in sufficient quantity through the sufficiently large holes in the sheet by gravity and/or under pressure, whereby the profiled sheet forms the reinforcement of the structure, while at the same time the cast component present at the holes and/or the adhesion mechanism present on the profiled sheet connects the profiled sheet and the cast component to form a cooperative composite structure which eliminates cracking of the cast component.

Vetonit mass is a liquid, self-leveling cement-based material used, among other things, to level concrete slabs to the required evenness for floor coatings. Vetonit mass may contain fiber reinforcements mixed with the dry mass. Vetonit's processing properties are good due to its self-leveling properties. Fiber-reinforced Vetonit masses may occasionally need to be leveled slightly, especially when thicker layers are poured at the same time. The dry shrinkage of Vetonit mass is in the order of 0.05...0.08%.

In the following detailed explanation, the application of the invention as a normal floor and for the construction of an ice rink floor is described using example solutions with reference to the example solutions shown in the figures of the attached drawing, to which solutions or areas of application the invention is not, however, narrowly limited. Although the application of profiled sheet metal is explained in detail below, which is a folded sheet metal, and in which the holes are located in the flange(s) of the folded sheet metal and the holes are formed from holes in the tongues cut from the sheet metal material itself, where the tongues serve as an adhesion mechanism between the profiled sheet metal and the cast component, and an ice rink flooring solution is also explained, in which large elliptical holes are made at certain intervals on the upper flange of the folded sheet metal, while at the same time the adhesion mechanism is created in the upper flange from the sheet metal material itself, and two different masses are used as the cast component, the invention is in no way limited to the holes in question, but the holes can be located at any point on the profiled sheet metal and have any shape, as long as the cast component penetrates the sheet metal in sufficient quantity and no holes need to be made at the holes.

The adhesion mechanism, if used, can be at any location and of any type with respect to the holes. It is advantageous that the size and arrangement of the holes are such that the rigidity and cross-sectional area of the profiled sheet remain as large as possible.

In Fig. 1, a floor is shown produced with Vetonit mass or elastic or liquefied concrete mass or similar cast component, in which perforated profiled sheets 1, 1' are mounted on gravel or similar or insulation or old floor 9 located on it, in which holes 2 are such that the cast component 4 can penetrate the profiled sheets 1, 1'. At the holes 2 there is an adhesion mechanism 3, which in this example is directed upwards with respect to the plane of the profiled sheet 1. In this way, the surface parts of the mass 4 adhere better to the profiled sheet 1 and thanks to the adhesion mechanism 3, the shrinkage of the cast component 4 can be eliminated not only in the longitudinal and transverse directions of the profiled sheet 1, but also diagonally, i.e. in all directions. In the same area of application, different combinations of the masses 4 can also be used and/or several layers can be cast. This solution can also be used, for example, if an old reinforced concrete or precast or similar slab 9 is to be reinforced by a compressive cover plate. In this case, the profiled sheet 1 can be anchored by shooting anchors through the profiled sheet 1 or by creating the adhesion between the old and the new slab in another way, whereby the surface slab and the old slab work cooperatively according to the invention.

In Fig. 2, a renovation floor of an ice rink is shown, in which, for example, on the gravel or on

similarly leveled old floor 9, perforated folded sheets 1,1' are mounted, in which holes 2 are such that the cast component 4 can penetrate through the profiled sheets 1 _f l'. Before casting the cast component 4, the cooling pipes 8 are laid in the upper groove-shaped spaces that remain in the cast component 4. The cooling pipes 8 can also be laid in the lower groove-shaped spaces of the profiled sheet 1 or simultaneously in the upper and lower groove-shaped spaces. After the profiled sheet 1 adheres to the cast component 4 via the tongues 3, a composite structure is created from the profiled sheet 1 and the cast component 4, whereby a load-bearing floor is created and, among other things, the shrinkage of the cast component 4 in the direction of the folds can be eliminated. Since the profiled sheet 1 remains in the cast component 4, the effects of the shrinkage of the cast component 4 occurring transversely to the folds of the profiled sheet 1 can also be eliminated. It is also possible to install reinforcements such as reinforcement or similar on the profiled sheet 1 transversely to its stiffening direction. A corresponding warm floor can be made by replacing the cooling pipes 8 with heating pipes or electric cables. In the same area of application, various combinations of the masses 4 can also be used if necessary, or several layers can be cast. The base cast can be made from mass that is as cheap as possible, and the wear-resistant approx. 5...30 mm top layer is cast from self-leveling or similar mass.

In Fig. 3 a floor solution for an ice rink is shown, consisting of profiled sheets 1,1' located on the underside structures 9, in the upper flanges of which there are elliptical holes 2, the size of which is 40*60 mm and hole density 150...600 mm, preferably 200...400 mm, in the upper and lower flanges,

Self-made sheet metal adhesion mechanisms 3, cast component 4, which can be made of inexpensive material and whose casting thickness is in the order of magnitude of the fold height of the profile sheet 1. The cooling pipes 8 are in the lower and upper groove-shaped spaces of the folded sheet 1. The cooling pipes 8 can also be in either the lower or upper groove-shaped spaces. The cast component 4 adheres firmly to the profiled sheet 1 via the adhesion mechanisms 3. In this way, the profiled sheet 1 increases the strength of the cast component 4. The layer 4' cast on this cast layer 4 can consist of self-leveling and wear-resistant Vetonit mass or similar, whereby the shrinkage properties of the mass can be minimized if necessary, e.g. with the help of fiber reinforcements present in the mass 4' or glass fiber fabric, reinforcement or similar to be mounted on the base cast 4. The adhesion of the covering mass 4' to the base mass 4 can be improved, e.g. in such a way that depressions are pressed into the base mass 4 at the large holes 2 after casting, or depressions are created as a result of the compression of the mass 4, in which the covering mass 4' anchors itself. It is also possible to anchor a reinforcement mounted on the cast component 4 in the mass located in the hole 2 or the mass 4 located above the folds or the profiled sheet 1, or an upwardly directed adhesion mechanism is designed on the profiled sheet 1, to which the covering mass 4' adheres. The layer 4' can also consist of a mat or similar suitable for the area of application. If the casting is made with a cast component 4 in such a way that the upper edge of the casting is 10...50 mm above the upper flange of the profiled sheet 1, the cast component 4, after hardening, anchors itself to the sheet 1 and in the cast component 4 present in the groove-shaped spaces on the underside of the sheet 1 via the cast component 4 present at the large holes 2, whereby the sheet 1 also reinforces/reinforces the upper cast component 4 of the sheet 1, thereby eliminating its cracking.

Claims (10)

PATENT ATTORNEY Fasanenstr. 7 DIPL.-ING. WERNER LORENZ D-89522 Heidenheim 04.05.1995 - ks File: SFF 3329 Applicant: Matti HOME Lystimäenkuj a 5 FIN-02210 Espoo Finland Protection claims 1. Floor in a composite construction that can be used as a subfloor and intermediate floor in construction, in which suitably perforated profiled sheets (1), such as folded sheets, corrugated sheets, cassettes or the like, are used to reinforce the construction, characterized in that the floor solution as a combination has at least the following parts and functions a) with large holes (2) of the order of 1000...3000 mm2, preferably of the order of 2000 mm2, perforated profiled sheet {1) such as corrugated sheet, folded sheet, cassette or similar , b) elastic or liquid and chemically or otherwise hardening and mechanically durability cast component (4) which flows through the sufficiently large holes (2) in the sheet by gravity and/or under pressure in sufficient quantity, whereby the profiled sheet (1) forms the reinforcement of the structure, while at the same time the profiled sheet (1) and the cast component (4) are connected to the holes (2) and/or the adhesion mechanism (3) present on the profiled sheet to form a cooperative composite structure which eliminates cracking of the cast component (4). 2. Floor according to protection claim 1, characterized in that the mutual distance between the holes (2) in the longitudinal direction of the profile sheet (1) is in the order of 150...600 mm, preferably 200...400 mm. 3. Floor according to protection claims 1 and 2, characterized in that the cast component (4) present at the holes (2) of the profiled sheet (1) forms the adhesion mechanism between the profiled sheet (1) and the cast component (4). 4. Floor according to protection claims 1 to 3, characterized in that in the profile sheet (1) in relation to its plane there is a one- or two-sided adhesion mechanism (3) for adhesion of the cast component. 5. Floor according to protection claims 1 to 4, characterized in that the perforation (2) of the profile sheet (1) is formed either partially or completely from holes (2) of the adhesive projections (3) punched out of the sheet material (1) itself. 6. Floor according to protection claims 1 to 5, characterized in that the profile sheet (1) has a separate perforation (2) and a separate adhesive mechanism (3). 7. Floor according to protection claims 1 to 6, characterized in that the cast component (4) is gypsum mass, concrete mass or similar, ceramic concrete mass, Vetonit mass (trademark) or similar elastic or liquid mass. 8. Floor according to protection claims 1 to 7, characterized in that a combination of different masses serves as the cast component (4). 9. Floor according to claims 1 to 8, characterized in indicates that the cast component (4) is formed from one or more layers. 10. Application of the floor in composite construction and crack-free floor according to protection claims 1 to 9 as a normal floor construction or for the production of cooled or heated floors such as ice rink or industrial hall floors or similar, characterized in that cooling/heating pipes (8) or heating cables are installed in the upper and/or lower groove-shaped spaces of the profiled sheet (1) in the direction of the folds of the profiled sheet (1) before casting the cast component (4).