EP2020471A1 - Dry floor system and method for manufacturing a dry floor system - Google Patents

Abstract

The dry floor system has floor slabs (3.1-3.9) arranged next to each other in one plane, with at least one floor slab having a groove-like recess in at least one of its side faces. Adjusting means are provided for adjusting the floor slabs and can be inserted in the groove-like recesses, wherein at least one adjusting means is inserted in oppositely-disposed groove-like recesses of adjacent floor slabs. The groove-like recesses extend in the longitudinal direction of the side faces in the floor slabs and have a rectangular cross section. An independent claim is included for a method for constructing a dry floor system.

Description

The invention relates to a dry floor system and to a method for creating a dry floor system.

Dry floor systems usually have building boards, which are arranged side by side in a plane. To create a closed Bauplattenverbundes adjacent floor panels are connected to each other at their side faces, ie at their abutting edges. For this purpose, bottom plates are usually glued together at their side surfaces, for example by means of a PU adhesive or an epoxy resin.

A corresponding dry floor system is also referred to as dry floor.

Dry screeds or dry floor systems of the aforementioned type can be applied to any surface. On the top of the dry screed or dry floor system, a floor covering may be applied, for example, a floor covering of wood panels, tiles or carpet.

The problem with dry floor systems of the aforementioned type, the adjustment of the building panels to each other at their side surfaces. Thus, even the slightest unevenness of the ground, on which the building boards are arranged, lead to an offset of the floor panels, so that the surface of the adjacent floor panels is not flat, but has projections in the region of the mutually facing side surfaces of the floor panels.

To improve the adjustment of the bottom plates at their mutually facing side surfaces, it is known to form bottom plates with a laterally encircling stepped rabbet, which corresponds to a corresponding stepped rabbet an adjacent bottom plate. However, it has been found that floor panels can not be satisfactorily adjusted to each other by means of such Stufenfalze. It is therefore necessary to screw the floor panels in the area of their Stufenfalz complementary with each other. However, such a screw connection means an additional step, which is associated with time and cost. In addition, floor slabs are very sensitive in the area of a shiplap, so that it can come through a screw in this area to damage the floor slabs. In some cases, the floor panels even become unusable. Also, the Stufenfalze accidentally completely durchschraubt.

For adjusting the bottom plates in the region of their side surfaces tongue and groove joints are also known. In these, a arranged in the region of a side surface spring of a bottom plate is inserted into a corresponding groove in a side surface of an adjacent bottom plate. However, floor panels are usually made of a brittle material, such as cement, gypsum or calcium silicate, so that a carved out of a side surface of a bottom plate spring can easily break off.

The invention has for its object to provide a dry floor system of the type mentioned are available, in which the bottom plates in the region of their mutually facing side surfaces are easily adjustable to each other.

• Bauplatten, die
• in einer Ebene nebeneinander angeordnet sind, wobei
• benachbarte Bodenplatten einander zugewandte Seitenflächen aufweisen;
• wenigstens eine Bodenplatte weist in wenigstens einer ihrer Seitenflächen eine Vertiefung auf, die einer Vertiefung einer dieser Seitenfläche zugewandten Seitenfläche einer benachbarten Bodenplatte gegenüberliegt;
• Justierungsmitteln zum Justieren der Bauplatten gegeneinander, die
• in die Vertiefungen einsteckbar sind, wobei
• wenigstens ein Justierungsmittel in gegenüberliegende Vertiefungen benachbarter Bodenplatten eingesteckt ist.

To achieve this object, the invention provides a dry floor system or dry floor with the following features:

• Building boards, the
• are arranged in a plane next to each other, where
• adjacent floor panels have side surfaces facing each other;
• at least one bottom plate has in at least one of its side surfaces on a recess which faces a recess of a side surface facing this side surface of an adjacent bottom plate;
• Adjustment means for adjusting the building panels against each other, the
• in the wells are inserted, wherein
• at least one adjustment means is inserted into opposite recesses of adjacent floor panels.

The basic idea of the invention is to arrange adjusting means on the side surfaces of the base plates, by means of which the base plates can be adjusted to one another. To arrange the adjusting means on the bottom plates, a bottom plate in at least one of its side surfaces on a recess in which an adjusting means can be arranged. Furthermore, it is provided in the dry floor system according to the invention that this recess is arranged opposite to a recess which is formed in a side surface of an adjacent floor panel. For example, the floor panels may also be adjacent "over the corner" alone. This makes it possible that an adjustment means simultaneously in two opposite Recesses is arranged or inserted into these opposite recesses. An adjustment means thus extends from the recess in a side surface of a bottom plate into the recess in the side surface of a bottom plate adjacent to this, another bottom plate. As a result, a relative vertical movement of the floor panels against each other is practically impossible. By adjusting the bottom plates are thus adjusted to each other.

In principle, the recess in the side surface of a base plate can be designed as desired. For example, the recess may have the shape of a blind hole. Preferably, however, the recess in the side surface of a bottom plate is groove-shaped. Such a groove may preferably extend along the longitudinal direction of a side surface of a bottom plate, ie parallel to the two main surfaces of the respective bottom plate, ie the top and the bottom of the bottom plate.

A side surface of a bottom plate may have one or more recesses. For example, a plurality of spaced groove-shaped depressions may be provided in a side surface. Preferably, a side surface of a bottom plate has a single groove-shaped depression, which preferably extends for example over the entire length of the side surface. As far as a groove-shaped depression extends over the total length of a side surface of a bottom plate, this is "open" to the sides. It is advantageous here, in particular, that such a groove-shaped depression designed in terms of manufacturing technology is particularly easy to produce, for example by means of a milling cutter or a saw. The tiller or saw must be drawn to create such a groove just in the desired depth of the groove-shaped depression once over the entire length of the side surface of a bottom plate.

Preferably, a groove-shaped depression in a side surface of a bottom plate has a rectangular cross-section. In other words, the side surfaces of the groove extend at a right angle to the side surface of the bottom plate, and the groove bottom extends in a plane extending parallel to the side surface.

Such a groove with a rectangular cross section therefore represents the "simplest" form of a groove and is particularly easy to manufacture.

A depression in the form of a groove may for example have a depth in the range of 3 to 20 mm, particularly preferably a depth in the range of 5 to 15 mm. The width of the groove may for example be in the range of 2 to 8 mm, particularly preferably in the range of 3 to 4 mm.

The depressions, that is to say, for example, the groove-shaped depressions, can be arranged in the middle of the side surface, viewed over the thickness of the bottom plate. This ensures that the recesses of adjacent base plate are always opposite, when all bottom plates of the dry floor system are formed with a correspondingly central depression.

The bottom plates of the dry floor system according to the invention can have a depression on one, several or all side surfaces. Preferably, the bottom plates in their all side surfaces on a recess so that they are adjustable in the region of each side surface by means of the adjusting means to an adjacent bottom plate.

Preferably, the recesses are formed identically on all side surfaces of a bottom plate. This has the advantage that with regard to the soap surfaces or abutting edges of the floor panels on site not on a certain orientation of the bottom plate is to be respected. This is a faulty alignment of the bottom plate, due to which the bottom plate would otherwise not be connected via the adjusting means, if appropriate, not be connected to adjacent bottom plates or adjustable to these excluded.

The bottom plates for the dry floor system according to the invention preferably have the shape of a cuboid or the shape of a plate with rectangular main surfaces. In other words, the bottom plates have two rectangular main surfaces (top and bottom) and four side surfaces, the plane of which runs in each case at a right angle to the main surfaces, preferably also slightly chamfered. For example, the two major surfaces of a bottom plate may have a length and a width in the range of 400 to 1,200 mm. For example, the two main surfaces may have a width of 600 mm and a length of 900 mm. The base plates may, for example, have a thickness (that is, a "height of the side surfaces") in the range of 10 to 30 mm, that is, for example, in the range of 20 to 24 mm.

The dry floor system according to the invention can have any number of floor panels.

The bottom plates of the dry floor system can be designed differently.

Preferably, however, the bottom plates of the dry floor system are designed identically. This has the advantage that only a single embodiment of a base plate is required for the creation of a dry floor system according to the invention. This is both manufacturing technology advantageous, and installation technology, since only a single base plate type must be purchased and relocated. Also is in similarly shaped floor panels excluded that at certain positions of the dry floor system, if necessary, an inappropriate base plate is accidentally used.

The floor panels for the dry floor system according to the invention may be any floor panels known in the art for producing dry floors. The floor panels are preferably mineral panels or panels made on the basis of an inorganic binder, for example gypsum fiberboards, cement boards, cement fiber boards, concrete slabs or cement-bonded, sorelzementgebundene, calcium silicate bound or gypsum bonded boards. Also, for example, composite panels can be used as floor panels, for example, a composite of one of the aforementioned plates with an insulating board, such as a footfall sound insulation board.

The adjustment means can basically consist of any material and be designed as desired. The adjustment means alone must be designed in such a way that they can be inserted simultaneously into opposite recesses of two floor panels.

Preferably, the adjusting means are clamped inserted into the opposite recesses, so are firmly or non-positively in the respective recess. The adjusting means are thus designed such that they can be inserted according to clamping in both the one and in the opposite recess. By the adjusting means in such a clamping, so firmly einliegen in the opposite wells adjacent floor panels, a vertical displacement of the bottom plates is virtually eliminated, so that the bottom plates are reliably adjusted to each other. However, a horizontal displacement of the bottom plates is still possible even with inserted adjustment means.

Preferably adjustment means are provided of an elastic material, for example of wood, metal or a fiber material. Preferably, the adjustment means made of plastic. For example, the connecting means may consist of polyethylene (PE), polypropylene (PP), polystyrene (PS) or polyvinyl chloride (PVC).

The adjustment means can be designed in one piece. Such one-piece adjusting means, in particular made of plastic, are particularly inexpensive to produce and are also excellent for adjusting the building panels to each other, since they are very easy due to their elastic properties by clamping in the wells can be inserted. Connecting means made of an elastic material also have the advantage that they can absorb the stresses occurring in the region of the side surfaces between the bottom plates without being destroyed.

The adjusting means may comprise elastically resilient elements by means of which the adjusting means clamp in the recesses. As far as the connecting means made of plastic and in particular, for example, are integrally formed of plastic, the elastically resilient elements may for example be integrally formed from the plastic. For example, the elastically resilient elements may be projections which are formed from the plastic.
According to one embodiment, it is provided that the connecting means are corrugated on their surface or equipped with tooth-like projections. About these projections "adjust" the adjustment means in the wells. As a result, a displacement or slipping of the adjusting means can be prevented or made more difficult.

The adjustment means are preferably plate-shaped and can, for example, main surfaces having a substantially rectangular shape ("Rectangular plate"), oval shape ("oval chip") or round shape ("round chip") have.

According to a preferred embodiment, the plate-shaped adjusting means on rounded edges. A particular advantage of this design is that equipped with rounded edges adjustment means are particularly easy to plug into the wells. Also, this can prevent the edges of the adjustment means and the edges of the recesses in the region of the junction of the side surface in the recess canceling.

The adjustment means may have a relatively small size, for example, a maximum length which corresponds to 75% of the edge length of the side surface of the bottom plate, in which the relevant adjustment means is inserted. For example, the adjustment means may have a maximum extension of 20 cm, 10 cm, or only 3 cm, so that they are easy to handle and can be inserted quickly and easily into the recesses.

Plate-shaped adjusting means, for example, a maximum length (ie, a longitudinal extent in the direction of the longitudinal extent of the side surfaces of the bottom plates, in the wells the adjusting means is inserted) of 20 cm, 10 cm, 8 cm or only 3 cm. The width (ie the extent of the adjusting means at right angles to the side surfaces of the base plates, in the recesses of which the adjusting means is inserted) of a plate-shaped adjusting means can be, for example, not more than 4 cm or 3 cm. In any case, the width is adapted to the respective depth of the recesses, that the bottom plates can be pushed by the desired amount against each other, so for example, seamless nebeneinan-can be arranged. The thickness of a plate-shaped adjustment is adapted to the width of the recesses into which it is inserted, so that the adjusting means can be inserted in the depressions by clamping.

According to one embodiment, it is provided to use as adjusting means so-called flat dowels. Corresponding flat dowels are known from carpentry and are also referred to as adhesive lamellae.

It may be provided to arrange the adjusting means in the region of the intersection point of adjacent floor panels, for example at the intersection of three adjacent floor panels (T-shaped crossing point) or four adjacent-type floor panels (X-shaped crossing point). This makes it possible to adjust by only one adjustment means three or four adjacent floor panels in the region of their intersection points to each other.

The dry floor system according to the invention can be arranged on any desired substrate. It can be provided that the dry floor system according to the invention is arranged directly or via an intermediate compensating layer on a substrate. Such a compensating layer may in particular be, for example, a leveling and / or insulating leveling layer, for example a dry bed, for example a dry bed of expanded perlite, or, for example, a leveling insulating board, for example of a fibrous material. The dry floor system can be arranged directly on a leveling layer. Preferably, however, it can be provided that the floor panels are arranged on cover slats which rest on the compensating layer. The cover plates serve to create a sliding plane for the bottom plates of the dry floor system and a level surface. The cover plates may for example consist of gypsum, cement or wood fiber boards. The floor panels can be glued, for example, on the cover plates.

Preferably, the bottom plates of the dry floor system according to the invention are glued together at their mutually facing side surfaces, ie at their abutting edges. Preferably, the bottom plates are glued together via an organic adhesive. The adhesive preferably has expanding properties so that it completely seals the gap between the mutually facing side surfaces of adjacent bottom plates. The floor panels may in particular be glued over a one-component adhesive. In particular, polyurethane adhesives or resin adhesives, for example epoxy resin adhesives, are preferably used as adhesives.

The bottom plates are preferably adhesively bonded to one another via the adhesive. The adjustment play only a minor role for the cohesion of the floor panels after the hardening of the adhesive. In that regard, the adjusting means serve only to adjust the bottom plates to each other until the adhesive, over which the bottom plates are glued together, is hardened.

The bottom plates of the dry floor system according to the invention lie with their side surfaces preferably directly - optionally separated only by a (thin) adhesive layer - against the side surfaces of adjacent floor panels. The adhesive over which the bottom plates are optionally glued together, is provided at least in the areas of the side surfaces on which abut the side surfaces directly against each other. In addition, it can preferably be provided that the adhesive is also arranged in the recesses, in particular in opposite recesses of adjacent floor panels. As a result, the strength of the connection between adjacent floor panels can be increased.

In contrast, the adjusting means are preferably arranged "mechanically" alone in the depressions or inserted in these, ie in particular non-positively or positively held in the wells without being glued into it. As a result, a simple readjustment of the adjusting means or a subsequent removal of the adjusting means from the wells, for example, if inadvertently a non-matching adjusting means has been inserted into a recess, possible.

At least one side surface of a bottom plate, a plurality of adjusting means may be inserted in one or more recesses. Preferably, at least one, preferably at least two adjustment means is arranged on each side surface of a bottom plate, which is opposite to a side surface of an adjacent bottom plate. For example, a plurality of adjusting means can be inserted into a groove-shaped recess extending over the entire length of the side surface. As a result, a precise adjustment of this bottom plate relative to the adjacent floor panels is possible. At the same time, it is much easier on-site to arrange a plurality of smaller adjustment means in a recess than, for example, only a single, longer adjustment means extending over, for example, a majority of the length of a recess disposed along the length of a side surface.

• wenigstens zwei Bodenplatten, die in wenigstens einer ihrer Seitenflächen jeweils eine Vertiefung aufweisen, in einer Ebene nebeneinander angeordnet, wobei in wenigstens eine der Vertiefungen ein Justierungsmittel zum Justieren der Bodenplatten eingesteckt ist und
• die Bauplatten mit einander zugewandten Seitenflächen derart aufeinander zubewegt, dass wenigstens ein in eine Vertiefung einer Bodenplatte eingestecktes Justierungsmittel in eine Vertiefung der anderen Bodenplatte eingesteckt wird.

In a method of creating a dry floor system will be

• at least two bottom plates, each having a recess in at least one of its side surfaces, arranged side by side in a plane, wherein in at least one of the wells, an adjusting means for adjusting the bottom plates is inserted and
• the building panels with mutually facing side surfaces so moved towards each other, that at least one inserted into a recess of a bottom plate adjusting means is inserted into a recess of the other bottom plate.

By this method, in particular, an inventive dry floor system of the type described above can be created.

One or more adjustment means are preferably inserted into one or more recesses of a stationary building board and another building board moved towards this resting building board in such a way that the adjusting means inserted into the quiescent floor board are inserted or inserted into the corresponding recesses of the moving floorboard.

As stated above, adjacent floor panels may be bonded together at their side surfaces via an adhesive. For this purpose, an adhesive is applied to at least one of these side surfaces and the building panels are then moved towards one another with these side surfaces.

A dry floor system of the aforementioned type can be created extremely quickly. The time savings over the preparation of dry screeds according to the prior art is about 20 to 30%.

Furthermore, an excellent adjustment of the floor panels against each other is possible. Any offset of the floor slabs in the area of their abutting edges is clearly <1 mm.

Also, the dry floor system, especially if the side surfaces of adjacent floor panels are glued together, are made extremely moisture-proof, since no screws or nails for adjusting or fixing the floor panels in the region of their side surfaces are necessary.

An embodiment of a dry floor system according to the invention will be explained in more detail with reference to the following description of the figures.

Figur 1

eine Aufsicht auf ein Trockenbodensystem von oben,

Figur 2

eine perspektivische Ansicht auf eine Bodenplatte des Trockenbodensystems gemäß Figur 1 von schräg oben,

Figur 3

eine Aufsicht auf einen Bereich des Trockenbodensystems gemäß Figur 1 von oben mit den Umrisslinien von Vertiefungen und Justierungsmitteln und

Figur 4

eine seitliche Schnittansicht entlang der Schnittlinie A-A gemäß Figur 3.

It shows

FIG. 1

a top view of a dry floor system from above,

FIG. 2

a perspective view of a bottom plate of the dry floor system according to FIG. 1 from diagonally above,

FIG. 3

a plan view of an area of the dry soil system according to FIG. 1 from above with the outlines of depressions and adjustment means and

FIG. 4

a side sectional view along the section line AA according to FIG. 3 ,

The dry floor system 1 according to FIG. 1 consists of nine rectangular floor slabs 3.1 - 3.9 in the form of cement fiber boards. The nine base plates 3.1 - 3.9 are identically designed. In this case, the bottom plates 3.1 - 3.9 have a length L of 900 mm, a width B of 600 mm and a thickness D (see Figures 2 and 4 ) of 22 mm. The floor panels 3.1 - 3.9 are laid in the staggered composite, wherein adjacent rows of floor panels 3.1 - 3.3, 3.4 - 3.6, 3.7 - 3.9 are offset by about half a length L offset to each other.

In FIG. 2 is the design of one of the bottom plates 3.1 - 3.9 shown in a perspective view obliquely from above. Specifically, the bottom plate is shown 3.5, the remaining plates 3.2 - 3.9, as stated previously, designed accordingly.

The bottom plate 3.5 has two rectangular main surfaces, namely the top 5 and the bottom 7 (in FIG. 2 not recognizable). The four side surfaces 9.1 and 9.2 as well as 9.3 and 9.4 (in FIG. 2 not visible) extend perpendicular to the main surfaces 5, 7 thus in each case in a plane which extends at a right angle to the main surfaces 5, 7.

Over the entire length of each side surface 9.1 - 9.4 each has a groove-shaped recess, wherein in FIG. 2 only the groove-shaped recess 11.1 of the side surface 9.1 and the groove-shaped recess 11.2 of the side surface 9.2 can be seen. The groove-shaped recesses 11.1, 11.2 extend along the longitudinal direction of the respective side surface 9.1, 9.2 and, viewed over the thickness D of the bottom plate 3.5, in the middle of the respective side surface 9.1, 9.2. The groove-shaped recesses 11.1, 11.2 each have a rectangular cross section with a width X of 4 mm and a depth Y of 11 mm (see FIG. 4 ).

In FIG. 3 is again a view of the dry floor system according to FIG. 1 , but only in the area of the base plate 3.5 and the adjacent thereto floor panels 3.2, 3.3, 3.4, 3.6, 3.8, 3.9.

The non-visible in reality, groove-like depressions 11.1, 11.2, 11.3, 11.4 of the bottom plate 3.5 and the bottom plates 3.2, 3.3, 3.4, 3.6, 3.8, 3.9 and the adjusting means 13.1 - 13.10 are given with their outline dashed lines again.

In the groove 11.2 in a longer side surface 9.2 of the bottom plate 3.5, three substantially plate-shaped adjusting means 13.7, 13.9, 13.10 are inserted with elliptical main surfaces. In this case, the adjusting means 13.7, 13.9, 13.10 are each arranged in the region of the intersection point of the bottom plate 3.5 with their adjacent bottom plates 3.4, 3.6, 3.8, 3.9 in the groove 11.2. The adjusting means 13.7 is at the (T-shaped) crossing point of the three floor panels 3.4, 3.5, 3.8 so that at the same time in the opposite wells of these three adjacent floor panels 3.4, 3.5, 3.8 a. The adjusting means 13.9 is correspondingly at the (T-shaped) crossing point of the three floor panels 3.5, 3.8, 3.9 simultaneously in the opposite recesses of these three adjacent floor panels 3.5, 3.8, 3.9 and the adjusting means 13.10 at the (T-shaped) crossing point of the three floor panels 3.5, 3.6, 3.9 simultaneously in the opposite recesses of these three adjacent floor panels 3.5, 3.6, 3.9 a.

With regard to the adjusting means 13.2, 13.3, 13.4, which are inserted into the groove-like recess 11.4 of the second longer side surface 9.4 of the bottom plate 3.5, the arrangement of the adjusting means 13.2, 13.3, 13.4 with respect to the adjacent here floor panels 3.2, 3.3, 3.4, 3.6 accordingly.

In the groove-like recesses 11.1, 11.3 of the two shorter side surfaces 9.1, 9.3 of the bottom plate 3.5 only one adjusting means 13.5, 13.6 is inserted into the groove-like recesses 11.1, 11.3 respectively. In this case, the adjusting means 13.5 is simultaneously inserted into the opposite depression of the adjacent base plate 3.4 and the adjusting means 13.6 in the groove-like recess 12.1 of the adjacent base plate 3.6.

The adjusting means 13.1 - 13.10 are identical designed as a one-piece body made of polyethylene and have a substantially plate-shaped body with elliptical main surfaces. The edges of the adjusting means 13.1 - 13.10 are rounded. The adjusting means 13.1 - 13.10 thus essentially have the shape of an "elliptical chip".

In FIG. 4 showing a side sectional view along the section line AA through the adjacent side edges of bottom plate 3.5 and adjacent bottom plate 3.6 FIG. 3 shows, the adjusting means 13.6 can be seen in a sectional side view. The plate-shaped main body of the adjusting means 13.6 has tooth-like projections 15 on its upper side and its lower side. About these projections 15, the adjusting means 13.6 in the opposite, groove-like depressions 11.1 and 12.1 of the bottom plates 3.5 and 3.6, in which it is plugged in, digs.

An unintentional slipping out of the adjusting means 13.6 from these groove-like depressions 11.1, 12.1 can be avoided.

The width A of the adjusting means 13.6 is 18 mm.

At their abutting side surfaces 9.1, 10.1, the bottom plates 3.5, 3.6 are glued together via a polyurethane adhesive 17. The polyurethane adhesive 17 has a layer thickness of about 0.5 mm.

Claims (13)

Dry floor system with the following features: a) floor slabs (3.1 - 3.9), the a1) are arranged in a plane next to each other, wherein a2) adjacent floor panels (3.1 - 3.9) have mutually facing side surfaces (9.1 - 9.4; 10.1); a3) at least one bottom plate (3.1-3.9) has in at least one of its side surfaces (9.1-9.4; 10.1) a depression (11.1-11.4; 12.1) which corresponds to a depression (11.1-11.4; 12.1) of one of these lateral surfaces (9.1-9.1). 9.4, 10.1) facing side surface (9.1 - 9.4; 10.1) of an adjacent bottom plate (3.1 - 3.9) is opposite; b) adjusting means (13.1 - 13.10) for adjusting the bottom plates (3.1 - 3.9) to each other, the b1) in the recesses (11.1 - 11.4; 12.1) can be inserted, wherein b2) at least one adjusting means (13.1 - 13.10) in opposite recesses (11.1 - 11.4, 12.1) of adjacent floor panels (3.1 - 3.9) is inserted. Dry floor system according to claim 1 with groove-shaped depressions (11.1 - 11.4; 12.1). Dry floor system according to claim 1, wherein the recesses (11.1 - 11.4; 12.1) extend in the longitudinal direction of the side surfaces (9.1 - 9.4; 10.1). Dry floor system according to claim 2, wherein the groove-shaped depressions (11.1 - 11.4; 12.1) have a rectangular cross-section. Dry floor system according to Claim 1, in which the depressions (11.1-11.4; 12.1), viewed over the thickness (D) of the base plate (3.1-3.9), are arranged in the middle of the lateral surface (9.1-9.4; 10.1). Dry floor system according to claim 1, wherein the adjusting means (13.1 - 13.10) are clamped in the opposite recesses (11.1 - 11.4, 12.1) are inserted. Dry floor system according to claim 6, wherein the adjusting means (13.1 - 13.10) have elastically resilient elements by means of which the adjusting means (13.1 - 13.10) are clamped in the recesses (11.1 - 11.4; 12.1) are supported. Dry floor system according to claim 1 with adjusting means (13.1 - 13.10) made of an elastic material. Dry floor system according to claim 1 with adjusting means (13.1 - 13.10) made of plastic. Dry floor system according to Claim 1, in which the floor panels have recesses (11.1 - 11.4; 12.1) in their entire side surfaces (9.1 - 9.4; 10.1). Dry floor system according to claim 1 with plate-shaped adjusting means (13.1 - 13.10). Dry floor system according to claim 10, wherein the plate-shaped adjusting means (13.1 - 13.10) have rounded edges. Method for creating a dry floor system in which 13.1 at least two bottom plates (3.1 - 3.9), each having a recess (11.1 - 11.4; 12.1) in at least one of its side surfaces (9.1 - 9.4; 10.1) are arranged side by side in a plane, wherein at least one of the recesses (11.1 - 11.4; 12.1) an adjustment means (13.1 - 13.10) for adjusting the bottom plates (3.1 - 3.9) is inserted; 13.2, the base plates (3.1-3.9) are moved towards one another with side faces (9.1-9.4; 10.1) facing one another such that at least one adjusting means (13.1-13.10.) Inserted into a recess (11.1-11.4; 12.1) of a base plate (3.1-3.9) ) is inserted into a recess (11.1 - 11.4; 12.1) of another base plate (3.1 - 3.9).

Images