NL1039330C2 - LIQUID-TIGHTED FLOOR DEVICE WITH LINKABLE FLOOR ELEMENTS FITTED WITH AN INTEGRATED LIQUID COLLECTION AND DRAINAGE SYSTEM. - Google Patents

Description

Brief indication: Liquid-tight floor facility with connectable floor elements with an integrated liquid collection and drainage system.

5 DESCRIPTION:

FIELD OF THE INVENTION

The present invention relates to a liquid-tight floor or floor provision comprising one or more self-supporting and connectable floor elements of durable and resistant plastic material, preferably a fiber-reinforced plastic composite.

A liquid-tight floor or soil provision is generally used where it must be prevented that as a result of certain activities, including human actions, soil-threatening substances and liquids can get into the soil or subsoil.

20 Current national and international legislation in the field of environmental management and soil protection binds, for example, business activities with a risk of soil contamination to regulations for collection facilities, waste water treatment and other protective and preventive measures.

25

In order to prevent contamination of ground and groundwater by contaminations of, for example, fuels, oils, coolants, hydrocarbons or other chemical or oxidizing substances, liquids, alkalis and acids and washing water, these national and international regulations, provisions and measures must be taken taken to realize a negligible risk of its leaking to the bottom. For example, the installation of liquid-tight floor provisions at locations where there is a high or increased risk of spillage, leakage, calamities and the like as a result of which dangerous situations and soil contamination can arise.

This may include, for example, fuel intake or fuel delivery points, fuel distribution points, washing places for objects and / or vehicles, storage and transfer points for (bulk) liquids, storage and loading of bulk and general cargo, distribution depots, on and transfer places for chemical substances, industrial production areas, or areas for process activities and operations for the collection, treatment and removal of waste water or process water, airports, agricultural industry such as stable construction and the like.

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In addition to the specific requirements that such liquid-tight floor facilities must meet and other relevant environmental measures, it is of course also necessary to have a liquid-tight drainage system, sludge-trap and separator system for liquids and other substances collected with such a floor-provision, such as clay, sludge and other dirt that is carried along with the liquids, among other things.

State of the art.

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Various forms of liquid-tight floor or floor facilities are common and known. The known facilities are often implemented in construction. The materials used often concern elements of reinforced or unreinforced concrete; reinforced or unreinforced concrete cast on site; bituminous bonded materials such as asphalt or ceramic systems, metal systems or combinations thereof. Most liquid-tight floor facilities are also not moved during their life expectancy. In recent years, geomembrane collection systems in the form of product-resistant film systems or a liquid-tight sand bentonite polymer gel layer have also been used, for example as a liquid-tight substrate for an industrial location, (waste) water basin, parking facility or landfill and the like.

Additional facilities such as waste water drainage systems of, for example, industrial sewers, gutters, drains, sludge collection wells and separators are also among the usual necessary liquid-tight collection, drainage and treatment facilities. These collection and discharge systems are connected to a liquid-tight floor facility or the (liquid) dust collection system thereof.

15

Both the individual and the relationship between a durable resistance to dynamic and static mechanical loads and thermal and chemical resistance of the conventional and known liquid-tight floor and floor facilities is limited. This limitation can, among other things, be expressed in cracks, crumbling, sagging, creeping, detachment, deformation and dissolution of the materials used by attacking the collected (liquid) substance (s) or forces exerted on it by driving and driving vehicles or of installed installations.

25 An architectural liquid-tight floor provision aims to be both liquid-tight and to remain during use, as well as to be the bearer of installations but also of on-and-off traffic in the form of (often heavy) static and dynamic wheel loads, point loads or wheel load repetitions. The robustness of structural liquid-tight floor provisions is therefore often a non-optimal combination of the function of carrier of dynamic and static axle and point loads and the function of liquid-tightness.

Many common liquid-tight floor or floor facilities are also limited or selectively resistant to short-term or sustainable influences of the chemical, oxidising substances, alkalis or acids and other (liquid) dust loads that the system must absorb. For example, metal can corrode or be subject to metal fatigue and thus lose its properties. For example, because of the lime component present, concrete can tolerate very bad acids without being affected.

Concrete is also strong on pressure but not on draft, so that special reinforcement must compensate for this. Occurring cracking then again violates the requirement of liquid tightness. For certain heavy loads, a concrete structure must therefore be dimensioned very heavily.

For example, bituminous structures are less resistant to oil-containing products. Moreover, certain thermal loads such as alternating heat and cold, but also UV influences, cause a restriction on use. Fatigue and weathering of the materials also limit the service life. Certain point loads in concrete facilities often lead to crumbling, whereby the liquid density is directly at stake. With asphalt, point loads at a certain temperature lead to irreversible deformation.

Non-structural liquid-tight soil collection facilities such as drip trays or rack basins are less suitable for large static or dynamic (wheel) loads, as a result of which the function is often limited to a liquid-tight collection facility, suitable for a certain group or type of substances and with limitations on durability. To make the limitation of the durability as small as possible, liquid-tight collection facilities with a specific specific resistance to the substances to be collected are manufactured and used under certain usage restrictions. This includes UV resistance or thermal loads (heat and or cold influences) and corrosion resistance such as galvanizing and resistance to dynamic and static loads.

Moreover, with the exception of certain structural elements, the displacement of traditional facilities is accompanied by deformation, whereby the entire liquid-tight and additional collection facility with pipework is to be regarded as lost.

Dutch patent 1035659 discloses a movable liquid-tight floor or floor provision made of plastic, consisting of a roadway with a separate liquid collection facility placed next to the roadway.

Summary of the invention.

An important object of the present invention is to realize a liquid-tight floor or floor facility without the described disadvantages that occur with structural liquid-tight floor or floor facilities. More specifically, it means that the present invention in use continues to satisfy as much as possible both individual and combinations of standards and requirements in the field of dynamic, static, mechanical, thermal and chemical resistance and, as a result, distinguishes itself primarily from the usual forms of liquid-tight floor or floor facilities.

To this end, the present invention provides a liquid-tight floor provision, comprising one or more adjacent connectable self-supporting floor elements of plastic, wherein each floor element comprises a surface to be loaded for use and an unloaded surface for placement on a surface and with a liquid collection and discharge system, characterized in that each floor element is provided with a liquid collection and discharge system integrated therein and accessible from the surface to be loaded for substances and liquids.

In this way a relatively lightweight and displaceable liquid-tight floor facility is realized in which the mechanical functions and the functions of liquid-tightness are fully integrated and can therefore be built up easily and quickly by coupling floor elements to a liquid-tight floor facility of relatively small to relatively large dimensions. The facility is also electrically insulated due to the use of plastic material.

Such a liquid-tight floor or bottom provision of, for example, fiber-reinforced plastic composite in the form of a sandwich construction with a plastic skin enclosing on all sides is about a factor of 5 lighter than a concrete or asphalt provision of the same size. Due to the nature and composition of the elements, the permitted axle loads or point loads for this are an equivalent factor of 8 more favorable compared to traditional liquid-tight provisions of concrete or asphalt. With an equal axle, point or liquid load, the service life expectancy of composite elements is at least 50 years and therefore also significantly more favorable.

25

By the term liquid collection and discharge system is meant in this description and the claims a system that is suitable not only for collecting and discharging liquids but also of other substances, whether soil-contaminating or not, such as clay, sludge or other dirt others with the liquids).

<7

A further object of the present invention is to smoothly drive over the floor provision by vehicles with a high wheel load or axle load and to support and attach installations and equipment to or on the floor provision. A method is hereby allowed for cleaning, washing and refueling vehicles and draining and filling installations on or above this floor facility, collecting and removing chemical (liquids) substances and collecting, separating and treating soil polluting substances and wastewater.

10

The invention is further based on the task of connecting the floor elements of the floor provision, intrinsically liquid-tight to each other and to a drainage system, while retaining all functions. A distinctive feature is that each floor element has at least one integrated liquid collection and discharge system for collecting liquids and other substances as mentioned from the surface to be loaded.

The invention is furthermore based on the task of having the floor provision integrally and distinctively durably meet the applicable requirements, provisions and standards, including NEN, Euro and CUR standards for dynamic, static, mechanical, thermal and chemical resistance. , while retaining the functions of liquid tightness. A distinction is made here that the composition of each floor element relates to a heavy-duty self-supporting construction of plastic material, such as, for example, plastic composite, without a delamination risk as is known from traditional constructions. Bridge or coupling plates are furthermore provided which on the one hand meet the standards of the aforementioned load-bearing and resistance requirements and on the other hand the function of access and passage of liquids and other substances to the integrated liquid collection and discharge system.

8

The invention is also based on the task of being able to disconnect the facility relatively easily, optionally stack and store it in sea containers and move it to any other location and put it back into operation again, while retaining all 5 functions . A distinction is made here that the dimensions of each floor element are designed such that each element fits randomly against a second or third floor element, regardless of whether this is placed transversely or longitudinally adjacent to a floor element.

It is also an object of the present invention to provide an economic improvement over conventional applications through applications of the described durable and lightweight materials. The implicit requirements for foundations of the facility become simpler. In addition, large and structural savings can be achieved in, among other things, transport, processing, maintenance or repair, economic or technical depreciation and this is structurally distinctively more favorable than conventional provisions.

In a further elaboration, the design and composition of the entire liquid collection and discharge system is designed such that installations, utilities and pipework can be placed above, on, in or near the collection system or can be taken up or dismantled again. Partly due to this design, composition and properties, the entire collection and discharge system can be moved relatively easily to any other location.

The structure and choice of materials is such that the original design, the composition or dynamic, static, mechanical, thermal and chemical properties of the floor elements and the liquid collection and discharge system do not change under the influence of the collected (liquids) substances. This may include releases of liquids and liquids as a result of cleaning and washing, but also refueling, filling and draining of engine liquids such as engine oil, coolant or windscreen washer fluid or storage and transfer of acids or alkalis and other oxidizing or chemical (liquids) fabrics.

5

In a further elaboration, the floor provision with the integrated fluid collection and discharge system is suitable for repeatedly running over or bearing all occurring wheel or axle loads, such as very heavy fixed and mobile loads of company traffic and traffic on public roads, according to traffic class 600.

The invention is based on the insight that business activities with soil-threatening (liquid) substances must take place on or above liquid-tight containment facilities and that it offers economic advantages to realize a movable, lightweight, durable and resistant liquid-tight floor provision that is and remains permanently suitable for the placing heavy and light objects or being wheeled over for heavy or light axle loads.

These and other aspects, features and advantages of the present invention will be further elucidated by the following description of embodiments of a movable installation comprising a drivable and resistant lightweight liquid-tight floor provision suitable for placing and carrying heavy and light vehicles or axle loads, respectively. and attaching installations and equipment, and for cleaning or washing vehicles up and over this collection facility, and draining and filling installations and collecting, separating and treating soil-polluting substances and waste water in and near this floor facility.

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Brief description of the figures

Figure 1 shows a top view of an exemplary embodiment of a floor facility according to the invention; Figure 2 shows a cross-sectional detail on an enlarged scale along the line A-A in Figure 1;

Figure 3 shows a cross-sectional detail on an enlarged scale along the line B-B in Figure 1, and

Figure 4 shows a perspective view of the floor provision according to Figure 1.

10

The figures are exemplary figures, the same parts are designated with the same reference numerals. The invention is by no means limited to the exemplary embodiments shown and described.

15 Detailed figure description

Figure 1 schematically shows the principle of the invention in top view and illustrates an embodiment of the present invention. Figure 4 shows a perspective view of an 'art impression' of the liquid-tight floor facility 10 according to Figure 1. In this embodiment consisting of three coupled self-supporting floor elements 1 of durable and chemically resistant fiber-reinforced plastic composite, each with a surface 13 to be loaded, i.e. surface on which activities take place as discussed above, and an unloaded surface 14 with which the floor element 1 rests on a surface, with at least on two peripheral edges or sides 11 of a floor element 1 an integrated collecting and discharging system 3 for liquids and other substances, such as clay, sludge, dust and other dirt, etc. The floor elements 1 are situated adjacent and tightly connected to one liquid-tight floor provision 10 and provided with a bridge or coupling plate 4 with recesses 12 around liquids from the loaded surface 13 by removing the integrated liquid collection and discharge system 3 primal.

The liquid-tight floor element 1 preferably consists of a body which in its base is composed of a glass-fiber reinforced matrix, surrounded on all sides by a closed composite skin, wherein the distinctive components are combined by means of pultrusion into a sandwich construction according to a principle as described inter alia in patent NL1023445. This sandwich construction combines light weight, high rigidity and durability. This construction is distinguished from generally occurring constructions made of plastics in that in the present invention no delamination occurs with a floor element 1 and the composition, shape, stiffness and durability are permanently retained.

15

Composite consists mainly of glass fibers, such as E-glass fibers, C-glass fibers, ECR glass fibers, S-glass fibers, basalt fibers, carbon fibers, such as low modules, intermediate modules, high modules, high strength modules, polyaramide fibers with ultra-high molecular weight polyethylene 20 ( UHMWP) and hybrids of such fibers. Furthermore, plastics consisting of primarily thermosetting polymers, such as polyester, vinyl ester, acrylate, polyurethanes, epoxies, are suitable. E-glass fibers in polyester are particularly suitable. For use in an environment where aggressive substances are treated, C-glass fibers in vinyl ester are suitable.

Combinations of the mentioned or further fibers are also possible, as well as combinations of the mentioned plastics.

The plastic material of a floor element 1 may contain further substances or layers, such as substances for preventing UV damage, for roughening a surface, for preventing deposits from being deposited by moss, anti-wear layer or dyes.

More in detail, a floor element 1 meets the standard requirements for dynamic, static, mechanical, thermal and chemical loads. In this context, standard requirements are understood to include: TGB 1990; NEN 6702; NEN 6706; Eurocodes and CUR 96 that meets at least a 600 traffic class.

Each floor element 1 corresponds in function, composition and quality to every other floor element 1. A preferred length - width ratio of each floor element is 1: 2, wherein the maximum length and width dimensions are chosen such that a single or a set of stacked floor element ( and) 1 fitting in a sea container can or can be transported.

15

Each floor element 1 has a liquid collection and discharge system 3 which is integrated into the floor element and can be accessed from the surface 13 thereof to be loaded by liquids. More in detail this means that, as an integrated part of each floor element 1, a space becomes a space. saved in the floor element 1, in a preferred form in the form of a gutter open from the surface to be loaded, in which (liquids) substances can collect and flow away. Each integrated liquid collection and discharge system 3 flows out of 2 into at least one peripheral edge 11 of a floor element 1, so that collected liquids can flow away via the mouth 2. The integrated liquid collection and discharge system 3 forms part of a floor element 1 as such as a whole, and such that the position, size or application thereof does not adversely affect the strength or durability requirements of each floor element 1.

13

The liquid collection and discharge system 3, or the channels thereof, can extend either in the center or at a different distance from the peripheral edge 11 of a floor element 1 in the loaded surface 13 thereof, or along or near one or more peripheral edges 11, preferably along and near the entire circumference of a floor element 1.

In a further elaboration, the integrated liquid collection and discharge system 3 at the loaded surface 13 is covered with a bridge or coupling plate 4 which is preferably also constructed from fiber-reinforced plastic composite. The bridge plate 4 is used in particular where the liquid collection and discharge systems 3 of two adjacent floor elements extend alongside each other over the surface 13 to be loaded. Distinctive to this bridge plate 4 is that this plate combines the functions of both grid and over-hatching, while maintaining all mechanical, chemical and durability boundary conditions. A basically dense bridge plate 4 encloses each integrated liquid collection and discharge system 3 of one or more adjacent floor elements 1. Figure 3 illustrates this best in detail.

A bridge or coupling plate 4 rests both on the outer peripheral edge of a floor element 1 and on the inner edge of the liquid collection and discharge system 3. Recesses 15 in the loaded surface 13 of a floor element 1 make it possible to deepen the bridge plate 4 in the loaded surface 13 uniformly with this surface.

25

Recesses 12 in the bridge plate 4 make it possible for liquids to come through these recesses from the loaded surface 13 into the integrated collection and discharge system 3 and then to flow away to a mouth 2.

30 14

Figure 2 shows a principle sketch of an embodiment of an outflow or inflow opening 2 of the integrated liquid collection and discharge system 3 of a floor element 1. Each outflow or inflow opening 2 is in contrast to the integrated liquid collection and discharge system 3 itself, on each corner of a floor element 1 closed and tubular. Each outflow and inflow opening 2 is connected in a liquid-tight manner to each outflow and inflow opening 2 of an adjacent floor element 1, into one liquid-tight collection and discharge system. Such a liquid-tight connection can be realized by means of a connecting tube which is provided on the outer circumference with sealing rings known per se, such as so-called O-rings, which fit in a liquid-tight manner in the outflow or inflow opening 2, such that the space between the outer circumference of the connecting tube and the inner circumference of the outflow and inflow opening 2 are sealed in a liquid-tight manner by the sealing ring. It is also possible to work with a string or wire, cord, strand, fiber or seal around an outflow or inflow opening 2, wherein the string forms an liquid-tight barrier as the detail below is more detailed under an active clamping of the floor elements 1 against each other. explained for the liquid-tight connection between adjacent floor elements 1.

Where the outflow or inflow opening 2 becomes free in a peripheral edge 11 on the outside of floor element 1, the outflow and inflow opening 2 is sealed in a liquid-tight manner or the opening 2 is connected in a liquid-tight manner to a separately placed liquid-tight drainage pipe that collects it. passes the product through a sludge collector or separator and control point, to a general collection system such as, for example, a municipal sewer system (not shown).

15

Figure 3 shows in more detail a liquid-tight seal between two adjacent floor elements 1. Two or more floor elements 1 can be mutually connected and coupled to one assembled liquid-tight floor provision 10. The connection between a plurality of adjacent floor elements 1 is preferably carried out by the floor elements 1 to be placed against each other in such a way that both individual and collective horizontal and vertical movements are eliminated. This adjacent connection 7 is first and foremost arranged such that a vertical movement transversely of the surface 13 of a first floor element 1 to be loaded is supported on a second floor element 1 and vice versa, whereby the force is distributed over both floor elements 1. Any horizontal movements are bounded by rigidly placing floor elements 1 against each other, as a result of which the mass of the individual floor elements placed against each other does not allow any further movement.

15

Each floor element 1 is connected to an adjacent adjacent floor element 1. The mutual connection between the elements is preferably established and secured by means of one or more tension cables 6 of steel, plastic or other material. The tension cables 6 are pulled through or along the different floor elements 1 in a recess 8 and secured on the outside of each element and tensioned.

The effect of the tensioned tension cables 6 is that all individual elements 1 are rigidly connected to and with each other and coupled to one liquid-tight floor system 10. The reaction force of the tensioning cables 6 on the connection of the individual floor elements 1 results in the composition of the floor elements 1 coupled to one or more peripheral edges resulting in one system or floor provision 30, wherein the requirements and standards of the dynamic, static, the mechanical, thermal and chemical properties of 16 both the individual floor elements 1 and the composite floor system 10 remain sustainable.

The liquid-tight connection 7 between several floor elements 1 connected to each other is preferably carried out by bringing the elements together and clamping them in such a way that the free passage of liquids between the adjacent floor elements is blocked. In a preferred embodiment, the blockage is formed by an attached tendon 5, or wire, cord, strand, fiber or seal, throughout the wall skin in the peripheral edges 11 of each element 1, the tendon 5 being actively clamped together by the elements 1 against each other. , forms a liquid-tight barrier.

In a further elaboration, the connection can be tested for actual density with the aid of air pressure by placing a balloon on both the inflow side and the outflow side of the liquid collection and discharge system of a floor element or of the entire floor provision and tension it in such a way to provide that the enclosed chamber, where the connection of two floor elements 1 meet, does not show a loss of pressure at density.

For a person skilled in the art on the basis of the embodiments described above, further changes and modifications are conceivable, all of which are considered to be included in the appended claims.

25 1039330

Claims (21)

Liquid-tight floor provision, comprising one or more adjacent connectable self-supporting floor elements of plastic, each floor element comprising a surface to be loaded for use and an unloaded surface for placement on a surface and with a liquid collection and discharge system, characterized in that each floor element is provided with a liquid collection and discharge system integrated herein and accessible for liquids from the surface to be loaded. 2. Floor provision as claimed in claim 1, wherein the fluid collection and drainage system of a floor element connects to at least one peripheral edge of a floor element, for forming a continuous fluid collection and drainage system of the floor provision with coupled floor elements. 3. Floor provision as claimed in claim 1 or 2, wherein a floor element is provided near at least one peripheral edge with an integrated liquid collection and discharge system. 4. Floor provision as claimed in claim 1 or 2, wherein a floor element 20 is provided near at least two peripheral edges with an integrated liquid collection and discharge system. 5. Floor provision as claimed in one or more of the foregoing claims, wherein a floor element is provided with an integrated liquid collection and discharge system situated substantially in the middle of the surface to be loaded thereof. 6. Floor provision as claimed in one or more of the foregoing claims, wherein the liquid collection and discharge system of an element has a tubular outflow or inflow opening. 7. Floor provision as claimed in claim 6, wherein the tubular outflow openings or inflow openings are arranged such that the outflow or inflow openings of adjacent floor elements can be connected in a liquid-tight manner. 8. Floor provision as claimed in claim 7, wherein the outflow or inflow openings of adjacent floor elements are coupled in a liquid-tight manner by means of a connecting tube with sealing rings located on the outer circumference of said connecting tube, such that in use a sealing ring closes the gap between the inner circumference of an outflow - respectively inflow opening of a floor element and the outer circumference of the connecting pipe located in the outflow or inflow opening closes in a liquid-tight manner. 9. Floor provision as claimed in one or more of the foregoing claims, depending on claims 3, 4 or 5, wherein the integrated fluid collection and discharge system is adapted to cover it from the surface to be loaded on a floor element by means of a bridge plate. 10. Floor provision as claimed in claim 9, wherein a bridge plate has recesses for access of liquids from the surface to be loaded to the integrated liquid collection and discharge system of a floor element. 11. Floor provision as claimed in claim 10, wherein the recesses are formed on one or more peripheral edges of a bridge plate. 12. Floor provision as claimed in claim 9, 10 or 11, wherein a bridge plate 25 is arranged for covering adjacent liquid collection and discharge systems of two different, adjacent floor elements. 13. Floor provision as claimed in one or more of the foregoing claims, comprising coupling means for coupling floor elements adjacent to each other. Flooring device as claimed in claim 13, wherein the coupling means comprise a string, wire, cord, strand, fiber or seal in the entire peripheral wall skin of each floor element, for fluid-tight coupling of adjacent floor elements. 5 15. Floor provision as claimed in one or more of the foregoing claims, wherein each floor element comprises one or more through openings provided in the floor element between the surface to be loaded and the unloaded surface for receiving tension cables, and wherein the adjacent floor elements are tensioned tension cables placed next to and / or behind until one durable, liquid-tight floor facility is held together rigidly. 16. Floor provision as claimed in one or more of the foregoing claims, wherein a floor element is made of a fiber-reinforced plastic composite, including glass fibers, such as E-glass fibers, C-glass fibers, ECR glass fibers, S-glass fibers, basalt fibers, carbon fibers, such as low modules, intermediate modules, high modules, high strength modules, ultra-high molecular weight poly-aramid fibers, polyethylene (UHMWP) and hybrids of such fibers, primarily thermosetting polymers, such as polyester, vinyl ester, acrylate, polyurethanes, epoxies and combinations of the materials mentioned. 17. Floor provision as claimed in one or more of the foregoing claims, dependent on claims 9, 10, 11 or 12, wherein the bridge plate 25 is made of a fiber-reinforced plastic composite, including glass fibers, such as E-glass fibers, C-glass fibers, ECR glass fibers, S-glass fibers, basalt fibers, carbon fibers such as low modules, intermediate modules, high modules, high strength modules, poly-aramid fibers with ultra-high molecular weight, polyethylene (UHMWP) and hybrids of such fibers, primarily thermosetting polymers, such as polyester, vinyl ester, acrylate, polyurethanes, epoxies and combinations of the materials mentioned. 18. Floor provision as claimed in one or more of the foregoing claims, wherein the plastic material is dimensioned such that it is resistant to both the individual or joint occurrence of dynamic, static, mechanical, thermal and chemical loads corresponding to the standards mentioned in, inter alia, TGB 1990 ; NEN 6702; NEN 6706; Eurocodes and CUR 96 where the permitted axle loads meet at least 10 traffic class 600. Floor element for use in a floor facility according to one or more of the preceding claims. Floor element for use in a floor facility according to one or more of the preceding claims. 20. Floor element as claimed in claim 19, comprising a plastic body built up according to a sandwich construction and surrounded on all sides by a liquid-tight skin. Floor element as claimed in claim 19 or 20, wherein the dimensioning of a floor element is designed such that a floor element fits randomly adjacent to a second or third floor element, placed both transversely and in the longitudinal direction of an element, in particular a dimensioning for the moving floor elements as a whole in a sea container. 25 1039350