DE10115009C2 - Construction of a drivable industrial floor or a carriageway Process for the production of a drivable industrial floor or a carriageway - Google Patents

Description

The present invention relates to an arrangement and a ver drive to the production of an industrial flooring or road surface according to the preamble of the main independent claims.

Such covering constructions are used in particular, but in no way exclusively used wherever environmentally hazardous substances For example, oil or gasoline spilled and spilled onto the flooring can. For example, the flooring is in the area of petrol stations particularly endangered in this regard, so that such covering construction are often used here. By using pre-made Slabs plastered side by side for the production of the covering be arranged, it is possible to make the plates yourself with simple means to be liquid-tight. The individual plates can then be used for Production of a liquid-tight covering surface with each other tend to be connected. This type of construction has the advantage that the floor covering for later changes by lifting the Panels can be opened so that tearing open a closed one Covering, for example made of concrete, is not required for conversions.  

The individual plates must stand up to form the surface of the covering support a surface. For example, a Base layer made of crushed stone or frost protection split serve the sufficient is compressed. It is of the utmost importance for the durability of the covering a full surface support of the individual plates. Because the plates are lying not over the entire surface, the top must be transferred to the plate forces, for example when driving over a heavy truck, cantilevered into the ground, causing in the plate considerable tensile and compressive stresses arise, which lead to stress cracks being able to lead. To ensure that the panels are fully supported, the usual covering constructions before laying the slabs a fine planum, for example sand, is applied to the substrate and deducted so that the panels are then completely on the Fine planum can be laid.

The structure is described in the trade magazine "Beton", 4/96, pages 224 to 230 various road surfaces in the area of petrol stations. The The surface of the covering is made from prefabricated concrete slabs placed on a bed of sand and / or grit.

A disadvantage of this known floor construction is that it is high proper removal of the fine planum a high level of craftsmanship requires and is therefore time and cost intensive. This is especially true when the individual slabs have different slopes should, because in these cases the fine planum for each individual slab separately must be subtracted to the correct height.

The object of the present invention is an arrangement and method to propose such arrangements with which industry Floor coverings or road surface coverings can be produced in a simple manner.

This task is accomplished by an arrangement or by methods according to the Doctrine of the main independent claims resolved.  

Advantageous embodiments of the invention are the subject of the sub Expectations.

An advantage of the arrangement according to the invention is in particular that that support elements are arranged under the plates through which a certain distance between the surface and the underside of the plate can be secured. That is, by placing the plates on the support elements can easily arrange the plates in the correct position above of the underground can be reached. So far a certain slope of the individual panels is desired, support elements can be different Height are used, so that by appropriate inclination of the individual side edges of the plates in a simple manner the desired Slope results. The cantilever support of the plates on the support elements during the laying of the boards is with regard to the formation of chip cracking is not critical since the panels are not stressed during assembly so that the dead weight alone creates a state of tension gently. The space between the surface and the underside of the slab is according to the invention with a plastically processable and hardenable form mass backfilled. Due to the plastic processability of the molding compound ensures that the molding compound essentially the space completely filled out. Through the subsequent hardening of the molding compound the result is that the underside of the plate is supported, in the forces introduced from above over the entire surface into the underground can be worn.

By using the arrangement according to the invention, it is possible the manufacture of the flooring large slabs with an edge length of to be able to lay more than 1 m over the entire surface, which was the case with the previous method Laying in the sand bed due to the associated risk of un flatness and the associated crack formation was not possible.

At which point on the underside of the plates the individual support elements are arranged, is in principle indifferent according to the invention. Become at least two plates each on a common support element  supported, for example in that the support element in the area of Corners and / or edges of the plates is arranged and laterally over stands in a simple manner a substantially equal edges transition at the top of the plates can be ensured.

Alternatively, each individual plate can be replaced by at least three, in particular four support elements independent of adjacent plates be supported on the ground. This can help when laying the Plates each individual plate can be aligned separately.

The use of the arrangement according to the invention is particularly advantageous If the floor covering to be manufactured has a certain slope profile should have, since by using different height support elements the plates in a simple manner according to the desired Gradients can be arranged. By arranging the different plates with In principle, any slope profile can have different slopes also easily produced on larger flooring surfaces become.

According to the invention, the floor covering consists of plates, preferably concrete plates. In particular, reinforced concrete slabs are due to their high mechani suitable strength. Of course, other plat materials or combinations of other plate materials, such as for example metal, plastic or pressed material, conceivable.

Any material can be used as a molding compound Processing is plastically malleable and then cured can. Because of the high achievable mechanical strength and Relatively low price is especially concrete, mortar or the like Suitable molding compound.

According to a preferred embodiment of the invention, the amount of Support elements through which the distance between the bottom of the plates and the substrate is determined, in a range of 5 cm to 15 cm  lie. Support elements with a height between 5 cm and 10 cm have proven to be particularly suitable, since on the one hand it is sufficient thick layer of the molding compound can be produced and at the same time the Consumption of molding compound to fill the space does not exceed is moderately large. The boards should preferably have an edge length of 1 m up to 5 m, in particular an edge length of 2 m to 4 m. If she Sheets square, rectangular or in another form are indifferent according to the invention.

To place the plates on the support elements as precisely as possible To be able to lead, the support elements should settle on the ground can be laid freely. For this purpose, the individual support elements can, for example according to their height alignment with concrete, mortar or sand be fixed at least horizontally on the ground, so that the support cannot move elements when placing the panels.

All materials can be used to manufacture the support elements that have a sufficiently high mechanical strength. To the Example can be as sidewalk slabs, paving stones or concrete blocks Support elements are used. It is particularly advantageous if the Support elements are adjustable in height, so that for correct height alignment adjustment is possible. For example, Stützele elements conceivable, the upper support part with a threaded spindle on a Base part is supported so that the support part by twisting the thread Spindle height can be adjusted relative to the base part.

So that the existing in the space between plate and underground Air can escape and the space in between really completely can be filled with the molding compound, between adjacent plates Joints are provided, preferably a width between 0.5 cm and 3 cm. The air or excess molding compound can pass through the joints between the panels are pushed up so that the excess amount of the molding compound only over relatively short flow paths must be ousted.  

After the molding compound has hardened, the joint between adjacent Plates are sealed liquid-tight in a manner known per se, for example by casting with a hardenable sealing compound.

There are two alternatives for producing an arrangement according to the invention Process particularly suitable. First, the support elements arranged on the surface, so that through the upper contact surface Support elements the correct vertical arrangement of the plates is defined. In the first procedure, the surface to be manufactured is then applied So much plastic molding compound applied that the level of Molding composition at least slightly, in particular 1 mm to 2 mm, above the top of the support elements runs. In other words means this means that the support elements are completely of the still plastic shape mass are enclosed. On this bed of plastic molding compound who which the plates are then placed from above in such a way that the underside can come into contact with the support elements in the correct position. by virtue of their own weight or by using them more appropriately Working materials sink the plates so far into the plastic molding compound until they come to rest on the support elements. By at least least slight displacement of the molding compound ensures that the The molding compound reaches the entire surface on the underside of the plate. Finally, the molding compound hardens so that it is mechanically highly stressed bare floor covering. If necessary, then the joints sealed liquid-tight between the individual plates.

As an alternative to this method, the support elements can be arranged immediately on laying the slab on the floor Support elements are started. It is between the plates and a cavity is formed in the subsurface. After laying one or several plates becomes just so much plastic in this cavity Shaped molding compound, for example with a mortar or concrete pump pressed in that the cavity is essentially completely filled becomes. After the molding compound has hardened, this also results  After the molding compound has hardened, this process also results a mechanically highly resilient floor covering.

In the following, the invention is illustrated by way of example with reference to the drawings represent an embodiment, explained in more detail. Show it:

Figure 1 shows a detail of a floor covering according to the invention in a schematically illustrated view from above.

Fig. 2 shows the flooring according to Fig. 1 in cross section along section line II.

According to the construction shown in FIG. 1, the desired floor covering is produced on a base 1 , for example a compacted ballast bed, by means of a plaster-like arrangement of plates 2 . Between the base 1 and the plates 2 , four support elements 3 are provided, which are each arranged in the area of the corners of the plates 2 .

The structure of the floor covering can be seen from the cross section shown in FIG. 2. The road surface 4 is formed by the top 5 of the plates 2 arranged next to one another. By the support elements 3 , a defined distance between the base 1 and the underside of the plates 2 is secured, so that depending on the dimensions of the individual support elements 3, a space 6 results. This space is completely dig with a plastically processable and hardenable molding compound 7 , for example concrete, filled.

A joint 8 is provided between adjacent plates 2 , through which excess molding compound 9 can be displaced. After hardening of the molding compound 7 , the joint 8 is cast with an elastically hardenable sealing compound 10 , so that the plates are connected to one another in a liquid-tight manner.

Claims (17)

1. Structure of a drivable industrial floor or a carriageway, in particular in the area of petrol stations, the surface of the covering being essentially formed by the upper side of plates which have an edge length of at least 1 m and are supported essentially over the entire surface of a substrate, characterized that support elements ( 3 ) are arranged on the underside of the plates ( 2 ), by means of which a certain distance between the substrate ( 1 ) and the underside of the plates ( 2 ) can be secured during the assembly of the unloaded plates ( 2 ), wherein the space ( 6 ) secured by the support elements ( 3 ) between the subsoil ( 1 ) and the underside of the plates ( 2 ) is substantially completely filled with a plastically processable molding compound ( 7 ) during assembly, and wherein the molding compound ( 7 ) is cured in the space ( 6 ). 2. Structure according to claim 1, characterized, that at least two plates on a common support element are supported. 3. Structure according to claim 1, characterized in that in each case one plate ( 2 ) is supported by at least three, in particular four, support elements ( 3 ) independently of adjacent plates ( 2 ) on the substrate ( 1 ). 4. Structure according to one of claims 1 to 3, characterized, that at least one plate is facing a horizontal plane certain gradient, in particular a gradient of 0.2% to 8%, having. 5. Structure according to one of claims 1 to 4, characterized, that at least two plates have a different specific Ge have cases. 6. Structure according to one of claims 1 to 5, characterized in that the plates ( 2 ) are designed in the manner of concrete slabs, in particular reinforced concrete slabs. 7. Structure according to one of claims 1 to 6, characterized in that concrete, mortar or the like is used as the molding compound ( 7 ). 8. Structure according to one of claims 1 to 7, characterized in that the support elements ( 3 ) have a height of 5 cm to 15 cm, in particular a special height of 5 cm to 10 cm. 9. Structure according to one of claims 1 to 8, characterized in that the plates ( 2 ) have an edge length of 2 m to 4 m. 10. Structure according to one of claims 1 to 9, characterized in that the supporting elements ( 3 ) on the substrate ( 1 ) are fixed, in particular with concrete, mortar or sand at least horizontally fixed to the substrate ( 1 ). 11. Structure according to one of claims 1 to 10, characterized in that the support elements ( 3 ) are height-adjustable. 12. Structure according to one of claims 1 to 11, characterized in that between adjacent plates ( 2 ) a joint ( 8 ), in particular a joint with a width of 0.5 cm to 3 cm, is provided by the excess molding compound ( 7 ) can emerge from the intermediate space ( 6 ) between the substrate ( 1 ) and the underside of the plate ( 2 ). 13. Structure according to one of claims 1 to 12, characterized in that the joint ( 8 ) is sealed liquid-tight between adjacent plates. 14. Method for producing a drivable industrial floor or a carriageway, in particular in the area of petrol stations, the covering surface being essentially formed by the top of plates which have an edge length of at least Im and are supported essentially over the entire surface on a substrate, characterized,
that
Support elements ( 3 ) are arranged on the substrate ( 1 ),
just as much plastic molding compound ( 7 ) is applied to the surface to be produced that the level of the molding compound ( 7 ) runs at least slightly above the top of the support elements ( 3 ),
the plates ( 2 ) are arranged on the support elements ( 3 ) while displacing part of the plastic molding compound ( 7 ),
the molding compound hardens. 15. The method according to claim 14, characterized in that the level of the molding compound ( 7 ) runs 1 mm to 2 mm above the top of the support elements ( 3 ). 16. The method according to claim 14 or 15, characterized in that the top of the plastic molding compound ( 7 ) prior to laying on the plate ( 2 ), for example using a Re compute, is structured. 17. A method for producing a drivable industrial floor or a carriageway, in particular in the area of petrol stations, the covering surface being essentially formed by the upper side of plates which have an edge length of at least 1 m and are supported essentially over the entire surface of a substrate , characterized,
that
Support elements ( 3 ) are arranged on the substrate ( 1 ),
the plates ( 2 ) are arranged on the support elements ( 3 ), forming an intermediate space ( 6 ) between the substrate ( 1 ) and the underside of the plates ( 2 ),
Just as much plastic molding compound ( 7 ) is fed into the intermediate space ( 6 ), in particular pressed in, that the intermediate space ( 6 ) is essentially completely filled,
the molding compound ( 7 ) cures.