EP0077873A1 - Light-weight building board - Google Patents

Abstract

1. A lightweight building panel for improving the ease of walking on uneven floors, the panel comprising a yielding base body (14) of polymeric material and a reinforcing insert or underlay (6) of a resilient material, which supports the base body over its entire surface, characterised in that the reinforcing insert of underlay (6) is of such dimensions and is so matched to the resilient properties of the base body (14) that the sag of a 0,5 m wide strip under a uniformly distributed surface load of 300 N/m**2 is at least 10 mm if the support points are 1 m apart and at most 1,0 mm if the support points are 0.5 m apart.

Description

DE-AS 23 14 463 refers to a lightweight building board of this type. The laying is carried out on support feet at a great distance from the subsurface, and it is therefore necessary to stiffen the lightweight building board in itself in such a way that undesired deformations are avoided. The dimensioning is to be based on the maximum load in question. Even occasionally large ones. Individual loads therefore inevitably result in a large weight of the plate, and thus difficulties in assembly.

The invention has for its object to develop a lightweight board that can withstand the normal load without noticeable deformation, and no permanent damage remain after a strong overload.

This object is achieved according to the invention with the characterizing features of the patent claim. The subclaims refer to advantageous embodiments.

The proposed lightweight board is not usually laid on supports, but directly on the hard-to-walk underground, for example leveled earth or a concrete hall floor. She has just been trained and, in this respect, is also able to relocate within the association to compensate for the irregularities in general to such an extent that good accessibility is guaranteed. The training is regularly rectangular or square, with edge lengths of 0.5 to 2.1 m being preferred.

The base body can consist of any relevant polymeric material, as long as there is sufficient flexibility. PVC and rubber have proven their worth. The use of foamed or otherwise voided materials often allows a significant reduction in weight with good properties, which is easy Assembly is of great importance.

The entire body is supported by a reinforcement insert or underlay made of an elastic material. This is dimensioned and matched to the elastic properties of the base body so that the deflection of a 0.5 m wide strip under a uniformly distributed surface load of 3000 N / m ² at a distance of the support points of at least one meter at least 10 mm and at a distance of Support points of 0.5 m are at most 1.0 mm. A deflection of at least 5 mm in the first-mentioned load case and at most 0.5 mm in the last-mentioned load case is preferred.

Contrary to the purpose of conventional reinforcement inserts or underlays, the proposed reinforcement insert or underlay does not therefore have the task of avoiding any clearly visible deflections under all circumstances even when large loads occur, but rather, on the contrary, the reinforcement insert or underlay is intended in these cases, give way elastically and support yourself on the uneven surface. An overload, i.e. Exceeding the elastic formability is reliably avoided in this way, and the lightweight panel immediately returns to its original, flat shape following such a violent deformation.

For this reason, the proposed lightweight board is excellently suited for furnishing trade fair or other exhibition areas. A relocation is often necessary here, and the proposed lightweight board not only enables particularly simple assembly, but it can be driven over without the risk of damage by fork-lift trucks, enables a precise appearance of the installation to be achieved without great effort and is easy to walk at the same time.

The anchoring must be carried out in such a way that the resilient resilience of the lightweight building board does not affect itself is pregnant. For this reason, dowel anchoring along a longitudinal edge is preferred, while the remaining areas lie more or less loosely on the raised areas of the substrate.

A smooth joint joint can be achieved by overlapping the reinforcement inserts or underlays. The butt joint formed can also be bridged on the underside by a tab which is screwed on both sides to the reinforcing inserts or underlays, which are highly stable from a mechanical point of view.

The adaptability to the subsurface, and in some respects also the accessibility, can be improved by backing the lightweight board with an open-pore foamed, cross-linked plastic. The interior of the pore structure must be able to communicate with the environment, which is why a surface covering with a film is not possible. The use of a suitably designed lightweight board is therefore restricted to the area of dry rooms.

In an embodiment in which the base body has good inherent stability, as is the case, for example, in the case of base bodies made of elastomeric materials, it has proven to be expedient if the reinforcing insert or underlay is connected to the base body in a shear-resistant manner. The result is an increase in the bending elasticity of the lightweight board. A corresponding mutual anchoring can be achieved by gluing or positive locking, for example by columnar projections of the base body, which engage in appropriately designed recesses in the reinforcement insert or underlay. A permanent connection between the two parts has the further advantage of being easy to assemble. In cases where the reinforcement insert or underlay is enclosed on all sides by the polymeric material of the base body, additional corrosion protection results.

The reinforcement insert or underlay can be made from any resilient materials. Steel, especially spring steel, is preferred because of its high modulus of elasticity and because of its easy and inexpensive availability.

In contrast, glass fiber-reinforced plastics enable a reduction in the total weight with complete protection against corrosion, which is advantageous in terms of simplified installation. A firm connection with the material of the base body by gluing can easily be achieved in both cases.

In the simplest case, the reinforcement insert or underlay can consist of a plate which covers the entire surface of the base body and which connects the opposite side edges. A correspondingly designed lightweight board can be used universally and is capable of covering any irregularities in the surface that are assigned to one another.

The ability to adapt to the surface is of course limited, which is why, in particularly unfavorable conditions, occasional relining in the area of one side edge through thin sheets or similar underlays may be necessary.

The adaptability to uneven surfaces can be improved by using a reinforcing insert or underlay with at least one opening. Good torsional elasticity is achieved if it is slit-shaped and almost reaches the marginal edges on both sides with a straight line. The width of the slot must not be greater than the smallest layer thickness of the base body arranged above. A still further adaptability of the lightweight building board to unevenness of the subsurface results from the use of reinforcement inserts or underlays which contain a plurality of slots of this type extending parallel to one another. In a direction transverse to the extension of the slots, there is an increased compensation for uneven floors. For this reason, appropriately equipped lightweight building boards should be laid in such a way that the slots extend as parallel as possible to their course.

The reinforcement insert or underlay can also consist of a plurality of rods and / or strips attached at regular intervals and connecting the opposite side edges of the base body. These can optionally be connected to one another, for example by secondary strips or rods, or also interwoven with one another. A particularly reliable anchoring in or on the base body can be achieved if the polymeric mass used for its production is pressed directly onto or into the existing cavities before it hardens.

The mutual connection and the connection to the subsurface can be made considerably easier if cutouts for receiving the required anchoring means are already made during manufacture. Such recesses are expediently made in the area of all 4 side edges and are sealed by the remaining surface of harmoniously adapted rubber plugs. The cavity between the underside of the rubber plugs and the base of the recesses is dimensioned sufficiently large to accommodate the required anchoring aids, for example a screw head or a clamp. In this respect, these can appear just as annoyingly as the recesses themselves.

• Figur.1 1 verdeutlicht einen besonders ungünstigen Fall einer Einbausituation in längsgeschnittener Darstellung.
• Figur 2 zeigt eine beispielhafte Ausführung einer Stoßverbindung zwischen zwei an einander anschließende Leichtbauplatten.

An exemplary embodiment and the practical application of the lightweight board according to the invention are explained in more detail below by the attached drawing:

• Figure 1 1 illustrates a particularly unfavorable case of an installation situation in a longitudinal section.
• Figure 2 shows an exemplary embodiment of a butt joint between two adjoining lightweight panels.

1 consists of a base body made of a rubber-elastic material, which is square and has a minimum thickness of 6 mm with an edge length of one meter. Above the surface rise from the base body shaped truncated cone-shaped projections, which have a minimum diameter of 27 mm at a height of 3 mm, as well as a constant, mutual center-to-center distance of 33 mm.

A stiffening insert 6 is vulcanized into the base body at a distance of 1 mm from the lower boundary surface, consisting of a perforated plate made of mild steel. The edge length is 990 mm and the assignment to the base body is symmetrical, as a result of which the edge edges are padded on all sides by an approximately 5 mm wide rubber layer 13.

The perforated plate has a multiplicity of cylindrical openings 7 of equal size, arranged at regular intervals from one another. The diameter is 12 mm with a mutual center distance in the longitudinal and transverse directions of 20 mm.

FIG. 1 shows a bandage of several light-weight building boards designed in this way, which are held together by clips 2 and which are laid on an uneven surface 5. The surface irregularities were reproduced in a highly exaggerated manner to clarify the function of the object of the application.

In the unloaded or low-loaded state, the composite of several lightweight building boards is supported along the butt joints, of which the middle one is deposited with a thin sheet metal strip 4 to compensate for a considerable deviation of the subsoil from the normal profile. The column spacing on which the static calculation is based is therefore identical to the edge length of the lightweight panels, i.e. dimension A.

The present invention is based on the knowledge that the dimension A when laying floor panels with a resilient property on a surface with only slight surface irregularities, for example a concrete floor produced with customary manufacturing tolerances, is generally not to be understood as a constant size, but rather that it is common Even with a small, load-related deflection, additional support points or areas result that lie within the ur originally assumed column spacing. The situation is illustrated by the distance B entered. A corresponding reduction in the column spacing is of great practical importance in that, for example, halving is synonymous with quadrupling the load capacity achieved with the same cross-section. In practical cases, this means an increase in stiffness, ie the resistance to further deformations with the same load. In this way, it is not possible to guarantee a completely flat surface, which is desirable in terms of good accessibility, but the deformations that arise when walking on do not appear to be a nuisance and become many times as a result of the low weight, which makes installation easy weighed.

FIG. 3 shows the butt joint 3 from FIG. 2 in an enlarged view in order to clarify the details.

In the area of the butt joint, two lightweight building boards 1 of the type described above abut one another along an edge extending perpendicular to the plane of the drawing. They each contain an elastic reinforcement insert 6 made of a perforated plate and completely embedded in the base body 14 made of elastomeric material. The base body has on the upper side arranged in a regular grid, frusto-conical elevations 8. Rubber layers 9 and 13 are present between the reinforcement insert and the underside and between the reinforcement insert and the edge.

The butt joint is underlaid by a metal sheet 4 and is supported by this on the base 5.

The base body and the reinforcement inserts 6 of both lightweight building boards 1 contain, in mutually opposite zones, a recess 10 for receiving the clamp 2 inserted loosely from above. This contains on both sides a downwardly projecting pin 12 which engages in the associated recess of the reinforcement insert. The recess 10 and the clamp 2 used are covered on both sides on the visible side by plugs 11, the outer area of which is frustoconical and fits harmoniously into the pattern formed by the projections 8. The recess 10 has a diameter 3.5 mm larger than the pin 12. This ensures good mobility of the lightweight panels on both sides in the event of an overload. Such mobility is important in relation to the change in length resulting from deflection. A good anchoring to the ground can be achieved by attaching a dowel screw, which can also be attached in a not shown recess of the bracket 2.

Claims (15)

1. Lightweight construction board to improve the accessibility of uneven floors, consisting of a resilient base body made of polymeric material and a reinforcing insert or underlay supporting the entire body, characterized in that the reinforcing insert or underlay (6) consists of an elastic material and so dimensioned and coordinated with the elastic properties of the base body (14) is that the deflection of a '0.5 m wide strip under a uniformly distributed surface load of 3000 N / m ² at a distance of the support points of 1 m at least 10 mm and one The distance between the support points of 0.5 m is at most 1.0 mm. 2. Lightweight panel according to claim 1, characterized in that the deflection of a 0.5 m wide strip under a uniformly distributed surface load of 3000 N / m ² at a distance of the support points of 1 m at least 5 mm and at a distance of the support points of 0 .5 m is at most 0.5 mm. 3. Lightweight building board according to claim 1, characterized.ge characterized in that the base body (14) consists of an elastomeric material. 4. Lightweight building board according to claim 1 to 3, characterized in that the reinforcing insert or underlay (6) is connected to the base body (14) in a shear-resistant manner. 5. lightweight board according to claim 1 to 4, characterized in that the reinforcing insert or underlay is inextricably linked to the base body (14). 6. lightweight board according to claim 1-5, characterized in that the reinforcing insert or underlay consists of metal or glass fiber reinforced plastic. 7. Lightweight panel according to claim 1-6, characterized in that the reinforcing insert or underlay (6) consists of a plate connecting the side edges of the base body (14). 8. lightweight board according to claim 7, characterized in that the reinforcing insert or underlay (6) has at least one simple opening (7). 9. lightweight board according to claim 8, characterized in that the opening is designed as a straight slot, with a width which is smaller than the smallest thickness of the overlying layer of the base body (14) and which almost reaches the opposite side edges of the base body. 10..Leichtbauplatte according to claim 8, characterized in that the reinforcing insert or underlay is interrupted by a plurality of slots extending parallel to each other. 11. Lightweight panel according to claims 1-6, characterized in that the reinforcement insert or underlay consists of rods and / or strips attached at regular intervals, connecting two opposite side edges of the base body. 12. lightweight board according to claim 11, characterized in that the rods and / or strips are interconnected. 13. Lightweight building board according to claim 11 to 12, characterized in that the rods and / or strips are intertwined. 14. Lightweight building board according to claim 1 to 13, characterized in that the reinforcing insert or underlay and the base body have recesses for receiving anchoring aids relative to the ground and / or a subsequent, further lightweight building board. 15. lightweight board according to claim 14, characterized in that plugs are provided for closing the recesses on the visible side, the shape of which is harmoniously adapted to the design of the surface.

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