EP3508393A1 - Connecting device for connecting a base element to a support, system, a method of assembly and use - Google Patents

Abstract

The invention relates to a connection device for connecting a floor element to a carrier, comprising a latching element with a latching projection and a receiving element with a receptacle for at least partially positively receiving the latching projection. Moreover, the present invention relates to a system comprising a base element, a carrier and a connection device according to the invention, and an assembly method for connecting a floor element to a carrier with a connection device and a use of a connection device according to the invention. The object of providing a connection device, a system and a mounting method for connecting a floor element to a carrier, which enables a good load transfer between the floor element and the carrier and the passenger a safe footing and safe movement within the largest possible passenger compartment and thereby easy to assemble is, according to the invention by a connection device for connecting a bottom element to a support (9), comprising a latching element (5) with a latching projection (51) and a receiving element with a receptacle for at least partially positively receiving the latching projection (51), thereby in that the receiving element has a vibration damper (4) for reducing the transmission of vibrations to the base element, and the receiving element is designed for leveling height deviations. In addition, the above-mentioned object is achieved by a system comprising a connection device according to the invention, a mounting method by means of a connection device according to the invention and a use of a connection device according to the invention.

Description

The present invention relates to a connection device for connecting a floor element to a carrier, comprising a latching element with a latching projection and a receiving element with a receptacle for at least partially positively receiving the latching projection. Moreover, the present invention relates to a system comprising a floor element and a carrier, and a mounting method for connecting a floor element to a carrier. Finally, the invention relates to a use of a connection device according to the invention.

A main function of a floor structure, consisting of floor elements, and connecting devices, especially in rail vehicles is to allow the passenger to a safe footing and safe movement within the passenger compartment. On the other hand, the floor structure must ensure that the loads occurring during driving are diverted into the vehicle body structure and at the same time insulation of the passenger compartment with respect to acoustic and thermal disturbances is realized. A bottom element here typically comprises at least one bottom plate. Insulation materials for thermal and acoustic decoupling of the passenger compartment are introduced between floor panels and car body. A floor covering can be subsequently applied to the mounted floor panels. The connection devices therefore provide the connection between the car body, in particular the carriers of the car body, and the floor, in particular the floor panels ago. Especially the connection devices is particularly important in the realization of the above-mentioned requirements. First of all, a connection device must be constructed with sufficient mechanical load and allow a precise fine adjustment of the floor elements, thus the floor in terms of passenger safety and a simple cleaning option is sufficiently flat and in particular has no gaps or edges between the floor elements. In addition, the connection device should realize as high a decoupling of the vibrations between the car body and floor in order to achieve a high level of comfort for the passengers. Furthermore, in the sense of a cost and time-saving installation, the laying of a floor must be made possible with the least possible installation effort and at the same time a low installation time. In addition, the connection devices must not cause too high a structure of the floor due to their height, so that the passenger compartment on the one hand as large as possible and on the other hand, for example, a barrier-free access to a platform edge is possible. Finally, the connection devices, which are installed in a correspondingly high number, should not be too heavy to allow the most energy-efficient operation of vehicles.

In order to ensure a quick and cost-saving installation of floor elements, especially in rail vehicle construction, increasingly pre-assembled floor panels are used. For example, from the DE 10 2010 036 516 A1 a connection device is known which allows tolerance compensation and replacement of individual floor elements. In this case, a bottom element is screwed by means of a cover, which is attached to the top of the bottom element, with a sliding block, which is introduced in a groove strip. However, this connection device has the disadvantage that a screw through the floor covering is necessary, which on the one hand leads to a longer installation time and on the other hand does not allow a continuous, flat floor covering.

After DE 200 02 265 U1 a tolerance compensation in a connection device for a floor can be achieved in that separate spacers are introduced by the connecting element between a bonded to the underside of a floor member connecting element and the carrier. Due to the structural deviations occurring in the shell at the shell construction are the Height tolerances differ from support point to support point of the floor plate, so that an individual compensation is only possible if the spacers are dimensioned and manufactured accordingly. This means a lot of time. In addition, these deviations are usually detected only during assembly, so that the assembly time partly increased significantly. In particular, the provided adhesive bond with drying times caused thereby further increases the assembly time significantly. Also, a change in the tolerance compensation in hindsight is no longer possible.

In addition to the increased assembly costs with less flexible tolerance compensation, these known connection devices also have the disadvantage that vibrations from the carrier can be transmitted to the bottom element.

Also from the WO 00/76822 A1 and the DD 288 130 In each case connection devices are known, which provide a tolerance compensation by means of the exchange of separate components (supplements), wherein the connection device of DD 288 130 additionally includes vibration-damping fittings, but at the cost of a greatly increased height, so that the usable space is reduced in a vehicle cabin. In addition, the use of supplements for tolerance compensation means that a possibly necessary adjustment can not be sufficiently reliable and accurate or a correspondingly high number of supplements must be made and kept individually and thus increased production costs and time required for assembly.

Finally is off DE 10 2010 041 196 B4 known to store floor elements on support elements, which are connected by means of clips with a base of a rail vehicle. A disadvantage of this compound, however, is that the floor elements can not be leveled and a transmission of vibrations is not damped.

Based on this prior art, the present invention is therefore based on the object to eliminate the disadvantages of the prior art and in particular to provide a connection device, a system, a use and a mounting method for connecting a floor element to a carrier, the at least partially eliminate or reduce the disadvantages of the prior art, that is, in particular with a minimum assembly time, a high mechanical stability and high comfort (in terms of a possible tolerance compensation and the vibration damping behavior) to allow.

According to a first teaching of the present invention, this object is achieved by a connection device for connecting a floor element to a carrier, comprising a latching element with a latching projection and a receiving element with a receptacle for at least partially positively receiving the latching projection, characterized in that the receiving element is a vibration damper for Reduction of the transmission of vibrations has on the bottom element, and that the receiving element is designed for leveling height deviations.

According to the invention, it has been recognized that it is possible at the same time to realize the necessary mechanical stability, the precise adjustment with nevertheless low overall height and vibration damping with a single connection device. Advantageously, therefore, the receiving element according to the invention itself is designed for tolerance compensation or leveling, without an exchange of components such as inserts or washers for tolerance compensation, to make necessary. Nevertheless, such components can additionally be used, for example, to compensate for very large height deviations. However, the receiving element is already, without having to replace a component, designed to level certain height deviations. For example, the receiving element for leveling height deviations in the millimeter range (for example, of at least 5 mm) educated. This can be done in particular by means of a leveling mechanism, as will be described in more detail below.

The connection between locking element and receiving element is in this case at least form-fitting, for example exclusively form-fitting, but optionally the connection can also be frictionally engaged. The latching projection may in particular be designed to extend radially and circumferentially on the latching element. The receptacle has, in particular, a geometry corresponding to the latching projection of the latching element for the positive reception. It is conceivable that the latching element and / or the receiving element (at least partially) have a certain flexibility.

The connection device, that is to say in particular the latching element and the receiving element, are preferably substantially rotationally symmetrical, so that the orientation of the individual components during assembly does not play a role. The latching element is introduced or inserted, for example in an insertion direction (approximately in the direction of gravity) in the receptacle of the receiving element. For example, only one insertion or insertion is required in one direction until the locking projection is positively received in the receptacle.

The vibration damper thereby reduces a transmission of vibrations, that is mechanical vibrations, and preferably also from shocks and / or vibrations, from the carrier to the floor element. The vibration damper is preferably a passive component. For example, the vibration damper is formed due to its material property for vibration damping.

In one embodiment of the attachment device according to the invention, the latching element can be fastened or fastened to the base element and the receiving element can be fastened or fastened to the support, wherein the mechanical engagement of the latching projection in the receptacle Connection between the bottom element and the carrier can be produced or manufactured. This ensures that the leveling can be advantageously carried out on the mounting element already fastened to the carrier prior to assembly of the floor element and independently of the floor element. In addition, a stable connection between the receiving element and the carrier and thus between the bottom element and the carrier can be made possible.

According to a further embodiment of the connection device according to the invention, the latching projection and the receptacle form a particular releasable clip connection. Under a clip connection is particularly understood a compound in which by means of a certain, required pressure force or mounting force (in the insertion), a mounting resistance is overcome and the locking element is brought into the receptacle, in particular without having to use a tool.

By connecting a floor element to a carrier as a clip connection a short assembly time is possible. It was recognized that it is possible with a clip connection to realize the necessary mechanical stability and the precise adjustment in spite of low overall height with a single connection device. In particular, the clip connection has the advantage that the outer region of the receiving element has no or a smaller mechanical actuating surface for the mechanical connection between the carrier and the bottom element and is instead available for other functions (for example the setting of a leveling).

In a further embodiment of the attachment device according to the invention, the receiving element in the region of the receptacle for the locking projection at least partially a flexible material and is formed such that the receiving element engages behind the locking projection for positive connection after an at least partial insertion of the locking element in the receptacle of the receiving element. For example, the receiving element engages behind the locking projection by means of a circumferential projection. This configuration causes a compact design with low power and low installation time while allowing a particularly stable connection. It is particularly advantageous if the flexible material of the receiving element at the same time forms the vibration damper (or a part thereof), which will be described below.

According to a further embodiment of the attachment device according to the invention, the receptacle of the receiving element has an inner shape substantially complementary to the latching projection. As a result of this special embodiment of the connection device according to the invention, in particular a further stabilization of the connection is achieved and the force transmission between base element and carrier is improved.

According to a further embodiment of the attachment device according to the invention, the vibration damper of the receiving element comprises a flexible element, in particular of an elastomer (for example a rubber element), wherein the flexible element preferably provides the receptacle of the receiving element. The fact that the receiving element comprises a flexible element, in particular a rubber element, the overall height of the connection device according to the invention can be further reduced, at the same time a good vibration damping and power transmission is ensured. It must therefore not be provided about two separate components for vibration damping and for receiving the locking projection of the locking element. Rather, it has been recognized that a flexible element can simultaneously serve as a vibration damper (or part thereof) and as a receptacle for the locking projection. In particular, the material rubber is used for this purpose because of its physical properties can be used here particularly advantageous.

In a further embodiment of the attachment device according to the invention, the receiving element for leveling height deviations comprises a Leveling mechanism, which preferably comprises a threaded connection. A leveling mechanism is here understood to mean a mechanism which in particular allows a fine adjustment or tolerance compensation. In the assembled state, a support surface of a floor can rest on an upper edge of the receiving element, while an opposite side of the receiving element rests on a support surface. The height of the receiving element can thus correspond to the distance between the floor and the carrier. In particular, the height of the receiving element can be adjusted by the leveling mechanism. In particular, the position of the upper edge of the receiving element with respect to a support surface on which the receiving element is arranged can be changed. In particular, the leveling mechanism makes it possible by means of (preferably mechanical) actuation to level different height deviations. The leveling mechanism can thus be brought at least into a first state (for example a fully retracted state) for leveling a first height deviation and into a second state (for example a fully extended state) for leveling a second height deviation. Preferably, the leveling mechanism for leveling different height deviations is continuously adjustable (in particular between the first and the second state), which can be achieved in particular by the threaded connection. The leveling mechanism preferably allows height compensation of at least 5 mm, preferably at least 8 mm. This means in particular that the (vertical) position of the upper edge of the receiving element with respect to a support surface can be adjusted by these values. Preferably, in this case a tolerance compensation is achieved by means of a threaded connection. Through the threaded connection actuator and body can be moved relative to each other (in the vertical direction). The threaded connection preferably has a fine thread (that is, a thread with a smaller thread pitch than standard thread), such as a metric fine thread according to DIN 13-2 or ISO 261 or a Whitworth or US thread in the customs system to UTF standard.

According to a further embodiment of the attachment device according to the invention, the receiving element comprises a base body and a setting body for forming the leveling mechanism, wherein in particular the base body has an external thread and the adjusting body has an internal thread for forming a threaded connection of the leveling mechanism. By leveling the height of the receiving element can be adjusted continuously. By this embodiment of the leveling mechanism, a particularly low overall height can be achieved. The actuating body is preferably accessible from the outside, so that the receiving element for leveling different height deviations can be adjusted via this. This is particularly advantageous with the realization of a clip connection, which does not require externally accessible adjusting means or the like for producing the connection.

According to a further embodiment of the attachment device according to the invention, the base body and / or the adjusting body and optionally a lid of the receiving element form a receiving area for the vibration damper. In this way, advantageously, a further reduction in height is achieved with stable mounting of the vibration damper of the connection device, since the main body, actuator and / or cover (if provided) together form a bearing bush. A bearing bush also has the advantage that the movement space of the vibration damper can be predefined or limited by the adjacent surfaces of the bearing bush. Thus, the damping or elastic deformation of the vibration damper can be substantially limited to a vertical direction.

Together screwed over thread body, actuating body and / or cover can together form a positive receiving area for the vibration damper, in which the vibration damper is positively received. Thus, the vibration damper can be reliably held without having to use adhesive joints. This simplifies one Disassembly and replacement of worn vibration dampers of the connection device.

The leveling mechanism may be integrated in the receiving element. The leveling mechanism may preferably be arranged on the circumference of the receiving element in order to be able to transmit tilting moments more reliably. In an expedient embodiment, a thread between the base body and adjusting body of the leveling serve. The thread between the body and actuator can also serve to limit the receiving area and the leveling.

Preferably, the vibration damper rests on a bearing surface provided by the actuating body. In this case, the vibration damper is preferably received coaxially from the base body, actuating body and / or cover. This means that in the extent preferred rotationally symmetrical design of the components whose rotation axis coincides.

In a further embodiment of the attachment device according to the invention, the locking element is at least partially made of plastic or metal. Plastic can be advantageously used here by its flexibility and low price, while the use of metal can be advantageous for maintenance purposes, especially with a possible reuse of pre-assembled floor panels or an expected removal and reassembly of the floor panels.

According to a second teaching of the present invention, the above-mentioned object is also achieved by a system comprising a floor element, a carrier and a connection device according to the invention, wherein the floor element with the connection device can be connected or connected to the carrier. A floor element in this case comprises, for example, at least one or consists of a base plate. The system according to the invention makes possible a load-optimized and by the use of the connecting element according to the invention Vibration-damped provision of a floor with a particularly flat height, with a low installation time can be achieved.

For larger floor elements and multiple connection devices can be used on a floor element to allow optimal load transfer between the floor element and the carrier. Thus, for example, one or more (for example at least two, three, four, five or more) attachment devices may connect a single floor element to the support. One or more floor elements then form (possibly together with an additional floor covering) a floor of a rail vehicle, for example.

In this case, as already stated, the latching element of the connecting device is preferably fastened or fastened to the base element and the receiving element of the connecting device to the carrier.

According to a further embodiment of the system according to the invention, the bottom element is a preassembled bottom element, in particular a bottom plate, wherein (at least) a latching element is preferably arranged on one side of the bottom element and a floor covering is arranged on an opposite side of the bottom element. According to this embodiment, a latching element is arranged on one side (in the intended use, the underside, ie the opposite side of the floor covering or from the passenger compartment side) of the bottom plate. On the opposite side (in the intended use the top, so the locking element opposite or the passenger compartment side facing the floor covering is arranged. Under a pre-assembled floor element is in particular a floor element to understand, which is provided with a floor covering and a corresponding part (for example, the locking element) of the connection device. In particular, a pre-assembled floor element is ready for use after connection with the carrier and requires no further assembly steps. This embodiment allows a particularly time-saving Assembly, since in particular a floor element after tying to the carrier with leveling is already laid, without subsequently a floor covering would have to be glued. Advantageously, the preassembled floor element may already be provided with insulating material which serves for thermal and / or acoustic insulation, so that the pre-assembly further increases and thus the assembly time is further reduced.

According to a further embodiment of the system according to the invention, the latching element comprises fastening means for attachment to the bottom element, wherein the latching element is fastened or fastened in particular to the bottom element such that the bottom element provides a substantially planar surface on the side opposite the latching element. Due to the flat surface, the passenger a safe movement within the passenger compartment allows while simplifying the cleaning of the floor, since the floor covering can be provided without interruption and flat on the surface of the floor element here.

According to a further embodiment of the system according to the invention, the fastening means comprises a countersunk screw, wherein the countersunk head is countersunk in an opening of the bottom element and is covered by a floor covering arranged on the floor element. The use of a screw allows a particularly strong connection between the connection device and the floor element, so that on the one hand a good load transfer is ensured and on the other hand the floor element is so firmly joined that a passenger can safely move on it. In particular, the proposed use of a countersunk screw, that a floor covering on the top of the floor element can be attached, which increases the degree of pre-assembly of the floor element, thus further reducing the assembly time of a floor, because it can be dispensed with the subsequent application of a floor covering.

According to a further embodiment of the system according to the invention, the overall height of the carrier top to the top of the receiving element (especially in the fully extended state) is at most 4 cm, preferably at most 3.2 cm. When completely retracted, this height can be reduced to less than 3 cm, preferably less than 2.5 cm. Such a flat overall height makes possible, in particular, a further enlargement of the usable passenger compartment.

In a further embodiment of the system according to the invention, the overall height from the underside of the support to the upper edge of the floor covering (especially in the fully extended state) is at most 10 cm, preferably at most 8 cm, more preferably at most 6.5 cm. Such a flat overall height makes possible, in particular, a further enlargement of the usable passenger compartment.

According to a further teaching of the present invention, the above-mentioned object is also achieved in that a connection device according to the invention or a system according to the invention is used for a floor construction of a rail vehicle. In particular, a floor structure comprising one or more systems according to the invention or connection elements according to the invention can provide a floor, for example a rail vehicle, which is easy to assemble and also offers the passenger a high degree of comfort due to the finely adjusted, mutually leveled and vibration-dampened floor elements optimum load transfer from the floor to the chassis is achieved.

According to a further teaching of the present invention, the abovementioned object is also achieved with a mounting method for connecting a floor element to a support with a connection device according to the invention, comprising: fastening the detent element to the floor element, fastening the reception element to the support, leveling differences in height by means of the Receiving element, and tying the bottom element to the carrier by the Locking projection is at least partially positively locked in the receptacle of the receiving element. By this assembly method, a floor with mutually leveled and vibration-damped floor elements can be mounted in a simple and time-saving manner, which provides optimum load transfer from the floor to the Fahrgestell and the passenger a high level of comfort.

The fastening of the latching element on the floor element can be carried out, in particular, in the context of a pre-assembly, that is to say the provision of a preassembled floor element. After attaching the receiving element to the carrier, a leveling of the receiving element can take place. If a plurality of attachment devices are provided and thus to secure a plurality of receiving elements to the carrier, preferably some or all of the receiving elements are first attached to the carrier, and then carried out a leveling of the attached receiving elements. Finally, binding of the floor element can take place via the connection device (or the connection devices) on the support.

Fig. 1

einen Querschnitt eines Ausführungsbeispiels eines erfindungsgemäßen Systems mit einem Ausführungsbeispiel einer erfindungsgemäßen Anbindungsvorrichtung,

Fig. 2

eine perspektivische Darstellung des Systems aus Fig. 1 mit fünf auf dem Träger befestigten Anbindungsvorrichtungen, wobei die Bodenelemente mit Bodenbelag nicht dargestellt sind.

The different aspects of the invention described above and below and their embodiments are to be understood as being disclosed in their combination with one another.
In addition, the invention will be explained in more detail with reference to an embodiment in conjunction with the drawings. The drawing shows in

Fig. 1

a cross section of an embodiment of a system according to the invention with an embodiment of a connection device according to the invention,

Fig. 2

a perspective view of the system Fig. 1 with five attachment devices attached to the carrier, the floor elements not being shown with floor covering.

Based on Fig. 1 and 2 will also be described below an embodiment of the assembly method according to the invention. In Fig. 1 is a cross section of an embodiment of a system 1 according to the invention with an embodiment of a connection device 2 according to the invention shown. The connection device here comprises a latching element 4 and a receiving element 6.

The not belonging to the connection device 2 components of the system 1, in particular designed as a bottom plate 8 bottom element 8, a floor covering 10 arranged thereon and a carrier 12 connected to the receiving element 6 have been shown by dashed lines for clarity.

The preassembled base element 8 is designed here as a base plate 8, which is already provided due to the pre-assembly carried out with the floor covering 10 and the mechanically stable connected to the bottom plate 8 locking element 4 of the connection device 2. For connection to the base plate 8, the locking element 4 comprises a fastening element 4.1 sunken in the bottom element 8 countersunk screw 4.1. For connection to the receiving element 6 of the connection device 2, the locking element 4 has a latching projection 4.2, which preferably consists of a plastic material.

By means of a washer and a hex nut 14, the receiving element 6 is fixed to the carrier 12. The receiving element 6 comprises a main body 6.1, a control body 6.2, a rubber bushing 6.3, which acts as a vibration damper 6.3, and a cover 6.4. As a counterpart to the latching projection 4.2, the rubber bush 6.3 has a receptacle 6.3.1 for the latching element 4 and the latching projection 4.2. By connecting (screw) the cover 6.4 with the adjusting body 6.2, the rubber bushing 6.3 is fixed. The locking projection 4.2 and 6.3.1 recording the rubber bushing 6.3 form a clip connection. The attachment device 2, that is, both the locking element 4 and the receiving element 6 are here in the Essentially rotationally symmetrical. Locking element 4 and receiving element 6 are arranged coaxially about axis A (corresponding to the longitudinal axis of the countersunk screw 4.1).

The main body 6.1 and the adjusting body 6.2 are in contact via a fine thread 6.5. Actuator 6.2 and body 6.1 form a leveling mechanism. For leveling, the adjusting body 6.2 where it has on its inside the fine thread 6.5, on the outside in the horizontal direction an actuating surface (hexagonal cross-section), so by Relatiwerschiebung of adjusting 6.2 and body 6.1 a simple height compensation, for example by means of a commercial wrench can be carried out. The leveling is preferably carried out before the bottom element 8 is placed with the locking element 4 on the receiving element 6. By leveling the height h ₁ can be adjusted from the top of the support 12 to the top of the receiving element 6 between 2.4 and 3.2 cm continuously. Overall, however, the height h ₂ can be less than 6 cm from the underside of the carrier 12 to the upper edge of the floor covering 10.

For this purpose, it is first determined to what level the upper edge of the receiving element 6 formed by the rubber bush 6.3 must be adjusted so that a flat floor is formed. Then the adjusting body 6.2 and thus the upper edge of the rubber bushing 6.3 is adjusted by turning over the outside hexagonal cross section by means of a wrench on the fine thread 6.5 to the required height.

After the height adjustment of the connection device 2, only the pre-assembled floor element 8 is mounted with the flooring 10 disposed thereon and with the locking element 4 by the locking element 4 is partially inserted into the receptacle 6.3.1 of the rubber bush 6.3, so that by the locking projection 4.2 a positive Connection with the rubber bush 6.3 arises, as in Fig. 1 shown. Thus, the assembly of the corresponding system 1 is completed without further steps, such as the production of supplements would have to be done. The floor is fully assembled and ready for use, without having to wait for drying times due to a floor covering to be installed.

In particular, in the case of larger floor elements, it is preferable to use a plurality of the connection devices 2 in order to allow optimum load transfer between the floor element 8 and the support 12. For example, a bottom element 8 along a line in particular regular intervals have a plurality of preassembled locking elements 4. Accordingly, the carrier 12 then has the associated receiving elements 6, as exemplified in Fig. 2 shown. In this case, locking elements 4 are pre-mounted on the bottom plate 8 by means of countersunk screws 4.1 at defined intervals. Subsequently, the flooring 10 is adhered to the bottom plate 8.

As stated above, each receiving element 6 for the subsequent leveling on the outside on a hexagonal cross-section, which allows a Aufbeziehungsweise downward adjustment of the provided by the vibration damper 6.3 support surface via a fine thread 6.5. Instruct the in Fig. 2 exemplified five receiving elements 6 a uniform level, the pre-assembled base plate 8 is mounted by the locking elements 4 are partially pressed into the respective recording 6.3.1 serving simultaneously as a vibration damper 6.3 rubber bushing 6.3. The rubber bush 6.3 thus enables a locking of the preassembled bottom element 8 and also ensures a damping of the vibrations of the carrier 12.

A possible disassembly can be achieved analogously by loosening the clip connections, for example by first the floor covering 10 is removed at the points where attachment devices 2 are mounted, and then the clip connection is released by loosening the countersunk screws 4.1. The bottom plate 8 can then be removed.

As a result, a time-saving assembly of a flat floor can be achieved by the system 1.

Claims (18)

Connection device for connecting a floor element (8) to a support (12), comprising - A locking element (4) with a locking projection (4.2) and - A receiving element (6) with a receptacle (6.3.1) for at least partially positively receiving the locking projection (4.2), characterized, - That the receiving element (6) has a vibration damper (6.3) for reducing the transmission of vibrations to the bottom element (8), and - That the receiving element (6) is designed for leveling height deviations. Connection device according to claim 1,
characterized in that the latching element (4) can be fastened or fastened to the base element (8) and the receiving element (6) can be fastened or fastened to the carrier (12), wherein the positive reception of the latching projection (4.2) in the receptacle (4) 6.3.1) a mechanical connection between the bottom element (8) and the carrier (12) can be produced or manufactured. Connection device according to claim 1 or 2,
characterized in that the latching projection (4.2) and the receptacle (6.3.1) form a particular releasable clip connection. Connection device according to one of claims 1 to 3,
characterized in that the receiving element (6) in the region of Reception (6.3.1) for the latching projection (4.2) at least partially consists of a flexible material and is designed such that the receiving element (6) the latching projection (4.2) for positive connection after an at least partial insertion of the latching element (4) in the Picture (6.3.1) of the receiving element (6) engages behind. Connection device according to one of claims 1 to 4,
characterized in that the receptacle (6.3.1) of the receiving element (6) has a locking projection (4.2) substantially complementary inner shape. Connection device according to one of claims 1 to 5,
characterized in that the vibration damper (6.3) of the receiving element (6) comprises a flexible element, in particular made of an elastomer, wherein the flexible element preferably provides the receptacle (6.3.1) of the receiving element (6). Connection device according to one of claims 1 to 6,
characterized in that the receiving element (6) for leveling height deviations comprises a leveling mechanism, which preferably comprises a threaded connection (6.5). Connection device according to claim 7,
characterized in that the receiving element (6) comprises a base body (6.1) and a setting body (6.2) for forming the leveling mechanism, wherein in particular the base body (6.1) has an external thread and the setting body (6.2) has an internal thread to form a threaded connection (6.5). of the leveling mechanism. Connection device according to claim 8,
characterized in that the base body (6.1) and / or the adjusting body (6.2) and optionally a lid (6.4) of the receiving element (6.4) form a receiving area (6.3.1) for the vibration damper (6.3). Connection device according to one of claims 1 to 9,
characterized in that the latching element (4) is at least partially made of plastic or metal. System comprising a floor element (8), a support (12) and - A connection device (2) according to one of claims 1 to 10, wherein the bottom element (8) with the attachment device (2) to the carrier (12) can be connected or connected. System according to claim 11,
characterized in that the bottom element (8) is a preassembled bottom element (8), in particular a bottom plate, wherein preferably on one side of the bottom element (8) a detent element (4) is arranged and on an opposite side of the bottom element (8) a floor covering (10) is arranged. System according to claim 11 or 12,
characterized in that the latching element (4) fastening means (4.1) for attachment to the bottom element (8), wherein the latching element (4) in particular such on the bottom element (8) can be fastened or fixed, that the bottom element (8) on the the latching element (4) opposite side provides a substantially planar surface. System according to claim 13,
characterized in that the fastening means (4.1) comprises a countersunk screw, wherein the countersunk head in an opening of the Floor element (8) is sunk and is covered by a on the bottom element (8) arranged floor covering (10). System according to one of claims 11 to 14,
characterized in that the overall height (hi) from the carrier top to the top of the receiving element (6) is at most 4 cm, preferably at most 3.2 cm. System according to one of claims 11 to 15,
characterized in that the overall height (h ₂ ) from the underside of the carrier to the upper edge of the floor covering (10) is at most 10 cm, preferably at most 8 cm, more preferably at most 6.5 cm. Use of a connection device (2) according to one of claims 1 to 10 or a system (1) according to one of claims 11 to 16 for a floor construction of a rail vehicle. Assembly method for connecting a floor element (8) to a support (12) with a connection device (2) according to one of claims 1 to 10, comprising: - Fixing the locking element (4) on the bottom element (8), - fixing the receiving element (6) on the carrier (12), - Leveling differences in height by means of the receiving element (6), and - Attachment of the bottom element (8) on the support (12) by the latching projection (4.2) is at least partially positively locked in the receptacle (6.3.1) of the receiving element (6).

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