DE4319264A1 - Fixing element for securing sheet-like parts - Google Patents

Abstract

The invention relates to a fixing element which is intended for securing sheet-like parts of a facade and can be fitted on a load-bearing structure (12) of the facade. Furthermore, it is provided that, on at least one of the sides of the fixing element (18) which are directed towards the installed sheet-like part (14), provision is made for at least one free leg (18a) which projects into the space taken up by the sheet-like part (14) before the latter is introduced and is designed in a partially compliant manner at least in the installation direction (E). <IMAGE>

Description

The invention relates to a on a supporting structure of the Fas sade attachable fixation element for holding surfaces share this facade.

A facade in front of a building covers everything Rule the supporting structure for mounting the facade on the Building and the ones that blind the outside of the building Surface parts. The supporting structure consists of vertical trending posts and horizontal transoms that by suitable fasteners on the outside of the Ge be attached to the building. As parts of the surface can be under various elements are used, such as clear glass elements or opaque decorative elements ment. For insulation reasons, the surface parts are mostly sandwiched, d. that is, it is an at least double-layer element with one between the two Au intermediate space.

In practice, different types of fastening are already available Attachment of the surface parts to the supporting structure is known. For example, in a variant in uniform Distances to the mullion or transom fixing elements bil Ended dowels attached, which in corresponding shots of the Posts or transoms are screwed or riveted. These dowels protrude, parallel to the outside of the Building legs with which they correspond in Adequate spaces between the double-walled surfaces intervene parts. The one facing the outer wall of the building inner wall or layer side of the surface part is thereby held mechanically on the post or transom, whereas the groundbreaking exterior wall or Layer side of the surface part only via an adhesive bond with the elements of the area delimiting the space part and thus connected to the dowel. Except  of which both in terms of time spent at the Assembly as well as the use of materials It proves disadvantageous here that only the inner one facing the outer wall of the building Double wall side or position of the surface part mechanically with the Support structure is connected or is held by this. Such a mechanical connection between the Supporting structure and that of the outer wall of the building groundbreaking, outer double wall side or location of the In contrast, part of the area is not possible.

Another solution known in practice looks at the support construction attached anchoring elements to which Bracket elements after attaching the surface parts by means of Screws can be attached using a bracket element by two surfaces arranged side by side parts is formed from the overlapping bar. Here the bar and the screws form the fixing elements. The bar points to each other at regular intervals Openings for screws so that after insertion of the surface parts and the attachment of the bar the total construction by the two side by side Holding element overlapping surface parts is held. This construction is in contrast to the one above mechanically much more stable, because not only the inner double wall side or location facing the building wall of the surface part is held mechanically but also the outer double wall side pointing away from the building wall or Location, however, this will affect the facade on all shock channels an additional one from the outside visible bracket element placed so that not only the Incidence of light is reduced, but also the aesthetic Impression of the facade is thereby worsened. About that In addition, there is also a high expenditure of time for the assembly is necessary because not only the bar is attached,  but also screwed in and tightened the screws individually Need to become.

Furthermore, solutions are known in practice in which in through holes are provided in the surface parts, through the fixing elements such as screws or the like can take hold and in a correspondingly designed Support structure can be screwed. Does that exist Surface part made of a particularly fragile material, such as glass, is such an attachment Art extremely complicated to manufacture, with a high Reject rate is expected. After all, it is known the outer edge of the surface part to be phased and one corresponding to a head of a countersunk screw in the To provide cross-section of the same bar, which means other fasteners, such as screws the supporting structure is determined. Here, too, the Danger that when machining the outer edge of the Part of the surface part is damaged as a whole and so that they can no longer be used can.

The object of the present invention is a fixation to create element of the type mentioned with which the surface parts without impairing the aesthetic one print the facade in a simple way on the supporting structure have it attached.

The above object is achieved in that little at least one of the sides facing the built-in surface part of the fixing element at least one before attaching the Area on the supporting structure in the area of the area space, protruding free leg provided is in the direction of installation of the surface part, d. H. in the direction at least partially compliant to the outside of the building is trained.  

The one or more fixing elements can be designed so that they work similarly to barbs. This means that they allow the surface parts to be attached to the support structure, for example by inserting or inserting the surface part into the support structure in the direction in which it is installed, but do not permit movement of the surface part in an opposite direction. In such a case, if the surface part is to be detached from the supporting structure, predetermined breaking points can be provided on the fixing elements, which can cause at least parts of the legs to break off when the surface part moves counter to the installation direction and thus release the surface part. The predetermined breaking points 50 are to be dimensioned such that the force required to move the surface parts out against the direction of installation exceeds the loads which usually act on the surface part. When the surface part is reinserted or inserted, the fixing elements must be replaced beforehand. As will be explained in more detail later, the fixing elements can only be provided on the vertically running posts, so that the surface parts are held by the fixing elements only along their vertically running edges or peripheral sides. Likewise, an exclusive attachment of the fixing elements to the horizontal bars is possible. However, it may also be necessary for fixing elements to be attached both to the transoms and to the posts, it being also conceivable, for example, that a fixing element is provided only on every second transom or post and on each post or transom . Finally, two separate fixing elements can be provided for holding two adjacent surface parts on their common abutting edge, as can also be provided, for example, on the edge of the facade, but there is also the possibility, as will also be explained in more detail below, that a fixing element is equipped with free legs pointing to both sides, ie to the two adjacent surface parts.

Because the or the fixing elements similar to a barb work, which is also comparable to a funnel allows movement in a certain direction and this leads, however, a movement of the surface part in this prevents the opposite direction, the surface part is on the supporting structure is fixed sufficiently securely. An out pulling or falling out of the surface part by hand Wind draft or by another direction of installation counteracting movement component is thereby reliable prevented. Because no screw connections or other additional Assembly measures are more necessary is the construction and the assembly of a facade with such fixation elements inexpensive and quick to implement. The featured The proposed solution now enables the installation of a surface part without any screw connection, for example by mere Pushing or inserting the surface part into the Support structure provided with fixing elements. Hereby For example, facade elements can also be placed in places provide, in which the surface parts only from the outside the facade, but using a mullion-transom Construction is no longer necessary. In such a case then becomes a holding frame available for each surface part provided that the surface part similar to a picture frame borders. Of course, the proposed solution also in the interior or when installing the "facade" can be applied from the inside of the building. Dar is also a combination with others Types of attachment, for example the definition of the areas parts by attached to the inside, snap or screwable strips possible, so that some surface parts, there where possible, from the inside and other surface parts from the outside can be mounted outside.  

The benefits are summarized below of the fixation element according to the invention. Next a very simple assembly of the surface parts, but also the Fixing element on the supporting structure or directly if necessary on the building, the fixation element allows an extreme secure mounting of the surface parts. This allows him to Significantly both the time and the material expenditure for the Reduce the mounting of a facade. In addition, one slim construction achievable, so that a high light case is possible, which is particularly the case with modern facade narrowing events is important. Beyond that, no one is needed Machining the surface parts and even the ferti tolerances in the manufacture of the surface parts arise through the elastic design of the fixation element. The fixation element itself can be easily and inexpensively manufactured by the meter, in particular extrusion processes or comparable Procedures are to be provided. Both steel and also combine aluminum constructions with each other, since the Distance between the surface part and the supporting structure is the same for both solutions. Finally, the outside facing side of the fixing element can be designed freely, a color design is also possible.

When attaching the surface part to the supporting structure through the edge or peripheral sides of the free leg a starting position in the installation direction towards the rear displaced onto the outer wall of the building. Is the free one Leg designed so that he at least in one direction of construction of the surface part is designed to be resilient is, on the one hand, that for the attachment movement necessary effort is reduced and on the other hand the Fixation of the flat part to the supporting structure improved because the free leg against the circumferential sides or -presses surfaces of the surface part and so a certain pressure  exercises on the surface part. In addition, then at least one Part of the free leg when inserting the surface partly in a direction transverse to the installation direction and transversely together for the longitudinal extension of the fixing element pressed. After reaching the end position of the surface part he The free leg then stretches along the circumferential side of the area part, d. H. in the installation direction, whereby due to by compressing the partial areas of the leg, but also, if applicable, of the fixing element as a whole Pressure force a force with at least one force component in Installation direction acts on the surface part, that of a movement opposite the surface part away from the supporting structure works. As a result, the free leg looks similar to one Snap lock that has a snap point, which must be overcome when pulling out the surface part. At a corresponding geometric design and / or Material selection for the free leg can do that Snap into the installation direction easily, in a ent opposite direction, however, only with increased force effort should be possible. The at least one-sided compliance can by material selection or by geometric design of the fixation element can be achieved.

An improvement in the holding function of the fixation element can be achieved in that the leg of the fixie Rungselementes has a contact surface with which it used area part, for example, on its circumference side is applied. Is the free leg at least in one direction of construction of the surface part elastically yielding det, he exerts a certain pressure on the surface part. Here are fixation elements on opposite edges provided a surface part, the surface part experiences from at least two sides of such a compressive force with possibly egg ner force component in installation direction. A movement component on the surface part, contrary to the installation direction, you can also counteract it  that the contact surface has a high coefficient of friction. As a result, the free leg when pulling out the surface part of the supporting structure from the um taken along the start of the surface part and so one sets Evasive movement to release the surface part across to the Her pull-out movement of the surface part and across the length extension of the fixing element further resistance gene; at least a greater resistance than when evading in the direction of installation of the surface part when attaching it the supporting structure.

If the free leg of the fixing element has one Design on that he has at least one with at least one Force component acting in the installation direction of the flat part Exerts force on the surface part, so it becomes one Pull-out movement of the flat part from the supporting structure further resistance opposed. This power can be both through a suitable material selection for the Fixierungsele ment or its free leg as well as by a geometric formation of these parts can be achieved.

In order to be able to remove the flat part from the supporting structure NEN, it may be necessary in the configuration according to the invention be dig, the free leg of the or the fixing elements to move back to its starting position. Is it elastic resiliently trained, he sets such a movement, after moving from the part of its surface Starting position has been displaced, a corresponding Resistance to, so that the surface part is fixed. Practices at the same time or additionally at least the leg of the Fixing element a substantially perpendicular to the Installation direction of the surface part and essentially lower hold right to the longitudinal extent of the fixing element the section of the supporting structure acting compressive force the surface part out, so is a displacement of the free Schen  no more or everyone to remove the surface part if only very difficult.

The free leg of the fixing element can under have a wide variety of shapes. However, it is advantageous here if it is designed so that it moves in Direction of installation of the flat part as little resistance as possible opposed, against which he moves against the installation against the greatest possible resistance. Since the free leg through the flat part from its starting position not just simply pivoted backwards in the installation direction is, but its material also partially towards the flat extension of the built-in surface part displaced he sets a corresponding resistance of such a against movement. Because when pulling out the surface part the free leg of the fixing element back into his Starting position is moved back, it is advantageous if he resistance to such movement placed. This can be achieved, for example, by that the leg of the fixing element one, in cross section considered, from a clamping location of the fixing element the support structure towards the free end of the leg tapered, approximately wedge-shaped shape.

It can also have the same or complementary effect aim that the free leg has a thickening, the resistance corresponding to a bearish movement opposed. This is particularly achieved in that the Thickening at the transition from the fixie clamping location tion element on the support structure to the free leg is provided.

The fixation element can be made from a wide variety of mate rialien be made. It is particularly advantageous here at if the fixation element is completely covered by a rubber element, preferably made of synthetic rubber or  Ethylene propylene tert-polymer rubber (= EPTM), is formed. The material should be chosen so that it is not only is resistant to aging but also ozone. By training dung as a rubber element is still achieved that the one put or insert the surface part of this in its Position is centered and any existing ferti tolerances are compensated. In addition, the Flä If necessary, the elastic part is mounted on all sides, so that shaking be caught. The use of a rubber element tes also has the advantage that with an all rubber strip on all sides as a fixing element next to the fixation of the surface part also a seal of the surface part or the space between the surface part and Support structure is achieved from the outside in.

A particularly secure fixation of the flat part can be there can be achieved by that the attachment of the Fixierungsele elements on the supporting structure in such a way that the free leg in the direction of installation of the flat part on one front section of the built-in surface part.

In principle, the fixing element can be part of the Be a supporting structure. However, since the supporting structure is on particularly rigid due to their function, but at least should be stable, and in contrast the fixie tion element at least in the area of the free leg can be designed to be resilient in the direction of installation, it is advantageous if the fixing element on the support construction can only be used afterwards. There due to the special construction of the fixation element this when removing the area from the Supporting structure can possibly be destroyed, it is furthermore advantageous if the fixing element is detachable the supporting structure is attached.  

Because when removing the surface part from the supporting structure the free leg of the fixing element can be deformed it is advantageous if such a deformation resistance of the free leg is opposed. This can be achieved, for example, that the fixie Rungselement has a paragraph that is on a counter supports the surface of the supporting structure. This is especially so Another advantage if the sales are in the installation direction the surface part is provided in front of the free leg, so that when moving in the opposite direction free deformability of the free leg through the the supporting structure supporting paragraph is limited and thus a pull-out movement of the flat part was opposed.

For a particularly secure fixation of sand in particular It is white to achieve wich parts of the surface ter is advantageous if there are several free legs on one egg side of the fixation element successively provided in the direction of installation are. The number of free legs can vary the number of bil the sandwich-like surface area the individual layers. This will also si made that with sandwich-like surface area len, which are assembled by gluing the individual parts are the respective surfaces when the bond is loosened partly through the fixation element or the associated one free legs is secured.

As a rule, the surface parts are on their side edges just trained so that the free legs are of equal length can. However, there are cases where a sandwich well-structured surface part from three individual layers a Mit tellage, which compared to the two outer layers in Direction is set back to the center of the surface part. In such a case, it is advantageous if the associated  few free legs, d. H. the second free leg, something longer than his two preceding or following free ones Leg is formed. However, there is also Possibility of freeing the legs at a level Surface part having circumferential part the legs unequal long to make it a different size Contact surface of the individual legs on the circumferential side of the To reach part of the area.

Depending on the width of the individual layers one sandwiched up built surface area, the distances between the free legs, the successively on the one facing the surface part Side of the fixing element are arranged vary. This makes it possible to be particularly flexible in to react to individually designed surface parts.

As has already been explained above, for Fixing or holding two adjacent to each other Surface parts each two adjacent fixation elements are provided in their joint area. A special ders economical and simple variant is achieved that a fixing element on both sides of its central longitudinal axis has at least one free leg, so that a fixie tion element holds and fixes two adjacent surface parts.

The fixing element can on the supporting structure or in if necessary, also directly on the outer wall of the building be attached. Here is both a detachable as well a non-solvable solution is conceivable. Will be a solvable solution preferred, so a fixing element over the entire Length or width of the facade on the supporting structure or be attached to the building or by means of individual a distance apart along the line of attachment for the Fixing element provided fasteners be brought. For the fasteners themselves you can a wide variety of components are used here.  

For example, the fastener can be a simple one Rivet or screw that the fixing element on the Support structure, or in special cases, even on the Ge attached to the building wall. A particularly secure fixation is thereby achieved that the fastener inside the fixing element engages with a head and that a counterpart spaced from the head is provided, wherein between between the counterpart and the head an attachment area of the Fixing element is clamped. This type of attachment is particularly advantageous with a fixing element that both provided with free legs on its central longitudinal axis is and from an at least partially resilient elasti material is made. There is also the possibility Lichkeit, the fastener with the fixing element to produce directly as a prefabricated assembly and the Attachment to the supporting structure only at the construction site increase.

The facade becomes essentially vertical used stretching building wall, so it rests from horizontal surface fixation elements held with its weight on the free legs of the one on the lower Partial edge arranged fixing elements. Hereby can damage the free shears over time angle of the fixing elements and thus a loss of their radio setting. To avoid this, it can continue from Be an advantage if between each other in the vertical direction of the following surface parts, support elements are provided which absorb the weight of the surface part, however one of them term height that the function of the free leg of the Fixation elements on the lower surface edge do not be is impaired. In addition to the fixation elements for holding tion of the area can also, if this be special conditions require additional fixation elements for the surface part can be provided. These can be found entirely below be of a different nature. A particularly simple additional  Another fastener can be, for example, by glue strip with adhesive surfaces facing the surface part det be, which, viewed in the direction of installation of the surface part tet, for example on the rear side of the supporting structure tion are arranged so that at the, again in installation viewed in the direction of the surface part, rear side of the Apply surface area. An arrangement is also possible that they rest on the peripheral sides of the surface part. Wei Furthermore, the adhesive strips can run all the way around for example on the rear side of the supporting structure be organized, or just in sections. Farther can be provided that in the direction of installation of the surface part in front of the fixing element and the space between the Fill in the fixing element and the surface part used sealing and / or fastening elements are used, to the between the support structure and the surface part built-in area visible from the outside to fill in.

The surface part itself can be different Components be formed. There is a possibility that it around a single glass pane, around multiple glass panes, around opaque panels or the like.

Further advantageous refinements and an embodiment example are explained below with reference to the drawing.

It shows:

Figures 1a, b are a horizontal and a vertical section through a facade section with a fixing element according to the invention; and

FIG. 2a, b of a further possible use erfindungsge MAESSEN fixing element.

In Figs. 1a to 2b, the letter A designates the Au ßenseite the facade, while the letter B denotes the inside. Parts of the building are not shown. In Fig. 1a is a horizontal section through a made of steel or aluminum pole P a support construction 12 not further shown, mounted on the building, 1b while the Fig. Is a vertical section through a also made of steel or aluminum bars R of the supporting structure 12 shows. With 14 area parts are referred to, which extend on both sides of the transom R or post P er. In the exemplary embodiments shown, the surface parts 14 are formed by transparent, multilayer glass panes, but it should be pointed out that the surface parts 14 can also be a single glass pane or the like or panels made of plastic.

As Figures 1a and 1b is apparent from the Fig., Two a common abutting edge possessing surface parts 14 are connected by a fixed gear approximately element 18 maintained, which is carried below can nä forth explained fasteners 20 on the bolt R or post P attached. The fixing element 18 has a plurality of spaced-apart lips or legs 18 a, which extend symmetrically on both sides of a central longitudinal axis of the double-acting fixing element 18 and which abut the peripheral sides or peripheral edges 14 a of the installed surface parts 14 . The legs 18 a extend in their initial position substantially transversely to an installation direction E of the surface parts 14 and substantially perpendicular to the longitudinal extension of the fixing element 18 into the spaces occupied by the surface parts 14 used later (see Fig. 1b, where this with dash-dotted lines for the upper row of the free legs 18 a is shown). This means that they point with their free end to the opposite inner side or to free leg 18 a present there of a possibly still present fixing element 18 or another element of the supporting structure 12 . Viewed in cross section, the free legs 18 a have an essentially wedge-shaped shape tapering towards their free end. In principle, it is possible to vary the shape of the individual free legs 18 a in the case of a plurality of free legs, so that in addition to their purely holding and fixing function, these can take on further functions, such as, for example, the free leg 18 a closest to the outside A next to its holding and fixation function can also perform a sealing function. The free legs 18 a are formed in the installation direction E resiliently flexible and elastic and lie in built-surface parts 14 to the circumferential sides or peripheral edge 14 a of the surface parts 14 resiliently on. The distances between the free legs 18 a are not the same, as can be seen, for example, from FIG. 1 a, but vary in such a way that the free legs 18 a for the position of the surface part 14 facing the outside A of the facade in relation to the distance is arranged closer to the second free leg 18 a between the second leg 18 a and the third leg 18 a. As is also apparent from Fig. 1a, the outward-facing side of the fixing element 18 is flush with the outward-facing sides of the surface parts 14 , so that a continuous surface is formed. At the corner edges of the outer side A of the facade facing layer parts of the surface parts 14 , the fixing element 18 has sealing lips 18 b, which prevent the penetration of moisture into the space between the first leg 18 a of the fixing element 18 and the associated surface part 14 .

The fixing element 18 is fixed by means of a fastening element 20 , which is fastened to the respective transom R or post P by two screws or rivets 22 indicated by dash-dot lines, with the supporting structure 12 . The fastener 20 has a head 20 a and a spaced in the direction of the support structure 12 , U-shaped portion 20 b, the inner edge of the head 20 a to the free legs of the U-Ab section 20 b of the fastener 20 . Between the head 20 a and the U-shaped section 20 b of the fastening element 20 , a fastening region 18 c of the fixing element is clamped. This results in a releasable, but secure connection of the fixing element 18 to the fastening element 20 is achieved.

As can also be seen from FIGS . 1a and 1b, between the fastening element 20 and the bolt R or post P most sealing and insulating compounds 24 are provided, in which the fastening element 20 engages by means of a separate section. In addition, adhesive sections 26 are provided on both sides of the fastening element 20 , which bring about an additional union between the layer parts 14 of the surface parts 14 and the supporting structure 12 pointing toward the inside B.

When attaching the surface part 14 to the supporting structure 12, for example, by inserting the surface part 14 in a mounting direction E, the free legs 18 a of the fixing element 18 are viewed through the rear side 14 b of the surface part 14 and in the installation direction E of the surface part 14 and then by the peripheral side or peripheral edge 14 a of the surface part 14 is displaced to the side in the installation direction E to the rear. The free legs 18 a of the fixing element 18 lie against the peripheral edge 14 a of the surface part 14 , as shown in FIGS. 1a and 1b. When installing the surface part 14 , however, not only are the free legs 18 a of the fixing element 18 displaced to the rear in the installation direction E, but at the same time at least partially compressed, namely transversely to the installation direction E and transversely to the longitudinal extent of the fixing element 18 . As a result, the fixing element 18 with its free legs 18 a a pull-out movement of the surface part 14 against the direction of installation E not only opposes the resistance that is necessary to return the free legs 18 a to their starting position, but for this the free legs 18 a who are squeezed briefly. This prevents the surface part 14 from being easily pulled out by wind, by hand or by other forces.

In one of several side by side or one above the other arranged surface parts 14 form the individual surface parts 14 for the immediately adjacent surface parts 14 Widerla ger, so that they support each other or the fixing element 18 with its free legs 18 a the pull-out movement can oppose special resistance .

In order to remove the surface part 14 again from the supporting structure 12 , it is necessary, for example, first to move the surface part 14 to one side so that the fixing elements 18 arranged there are further compressed in the direction transverse to the installation direction E of the surface part 14 . On the opposite side, the surface 14 can then be removed by means of a pivoting movement from the support structure 12 .

In FIGS. 2a and 2b show a further application of the fixing element is illustrated, the difference from the embodiment according to Fig. 1a and 1b it be is that, instead of hollow profiles for the transom R and the post P double-T-carrier or Find T-beams. In addition, the connection between the Befestigungsele element 20 and the support structure 12 via an adhesive.

It should also be noted that, as has already been pointed out several times, the fixing element 18, for example as extruded meter goods made of plastic, in particular elastic plastic, rubber or the like, can be made and can be made over the entire length of a building facade, ie their height or width, can extend, of course, a plurality of fixing elements 18 parallel to each other in the joint area of the surface parts 14 NEN. However, it is also possible to provide the fixing elements 18 in sections. In addition, both the vertically and the horizontally extending abutment surface preparation of the surface parts 14 with fixing member 18 be equipped, however, there is also the possibility of only the horizon tal and vertical regions of abutment with such fixing elements to provide 18th

Finally, it should also be noted that the installation direction E means a surface section 14, viewed essentially perpendicular to the face of the surface, pointing towards the building wall.

Claims (21)

1. Fixing element for holding surface parts of a facade, which can be attached to a supporting structure ( 12 ) of the facade, characterized in that on at least one of the built-in surface part ( 14 ) facing sides of the fixing element ( 18 ) at least one before inserting the surface part ( 14 ) is provided in the space ( 14 ) occupied space projecting, free leg ( 18 a) is provided, which is at least partially compliant at least in the direction of installation (E). 2. Fixing element according to claim 1, characterized in that at least the free leg ( 18 a) at least in the installation direction (E) of the surface part ( 14 ) is formed from resilient. 3. Fixing element according to claim 1 or 2, characterized in that the free leg ( 18 a) has a contact surface with which it rests on the surface part ( 14 ) used. 4. Fixing element according to claim 3, characterized, that the contact surface has a high coefficient of friction. 5. Fixing element according to at least one of claims 1 to 4, characterized in that at least the free limb (18 a) acting force exerts of the face member (14) to the surface portion (14) having at least a component force in the installation direction (E). 6. Fixing element according to at least one of claims 1 to 5, characterized in that at least the free leg ( 18 a) with at least one force component substantially perpendicular to the direction of installation (E) of the surface part ( 14 ) and substantially perpendicular to the longitudinal extension of the the fixing element ( 18 ) holding portion of the supporting structure exerts force acting on the surface part ( 14 ). 7. Fixing element according to at least one of claims 1 to 6, characterized in that the free leg ( 18 a) one, viewed in cross section, from the clamping location ( 16 ) of the fixing element ( 18 ) on the support structure ( 12 ) to the free end of the leg ( 18 a) has an approximately wedge-shaped shape. 8. Fixing element according to at least one of claims 1 to 7, characterized in that the free leg ( 18 a) has a thickening. 9. Fixing element according to claim 8, characterized in that the thickening at the transition from the free leg ( 18 a) of the fixing element ( 18 ) to the clamping location on the supporting structure ( 12 ) is provided. 10. Fixation element according to at least one of claims 1 to 9, characterized in that at least the free leg ( 18 a) of the Fixierungselemen tes ( 18 ) made of rubber, preferably made of neoprene or APTK. 11. Fixing element according to at least one of claims 1 to 10, characterized in that the attachment of the fixing element ( 18 ) on the supporting structure ( 12 ) is carried out in such a way that the free angle ( 18 a), in the installation direction (E) of the surface part ( 14 ) be considered, on a front portion ( 14 a) of the built-in surface part ( 14 ). 12. Fixing element according to at least one of claims 1 to 11, characterized in that the fixing element ( 18 ) is detachably attached to the supporting structure. 13. Fixing element according to at least one of claims 1 until 12, characterized, that a paragraph is provided, which is on a counter surface supports the supporting structure. 14. Fixing element according to claim 13, characterized, that this paragraph, be in the direction of installation of the surface part seeks, is provided in front of the free leg. 15. Fixing element according to at least one of claims 1 to 14, characterized in that a plurality of free legs ( 18 a) on a built-in surface part ( 14 ) facing side are provided in succession. 16. Fixing element according to claim 15, characterized in that the free legs ( 18 a) are of equal length. 17. Fixing element according to claim 15, characterized in that the free legs ( 18 a) are of unequal length. 18. Fixing element according to at least one of claims 15 to 17, characterized in that the distances between the successive legs ( 18 a) are va riabel to each other. 19. Fixing element according to at least one of claims 1 to 18, characterized in that at least one free leg ( 18 a) is provided on both sides of a central longitudinal axis of the fixing element ( 18 ). 20. Fixing element according to at least one of claims 1 to 19, characterized in that the attachment to the supporting structure ( 12 ) by means of we least one fastening element ( 20 ). 21. Fixing element as claimed in claim 20, characterized in that the fastening element (20) by means of a head (20 a) engages in the interior of the fixed gear approximately elements (18) that a to the head (20 a) spaced counterpart (20 b) in front of is seen, a fastening area ( 18 c) of the fixing element ( 18 ) being clamped between the counterpart ( 20 b) and the head ( 20 a).