Mounting system for panels for use in facade cladding on buildings

Information

  • Patent Grant
  • 6178713
  • Patent Number
    6,178,713
  • Date Filed
    Tuesday, December 1, 1998
    26 years ago
  • Date Issued
    Tuesday, January 30, 2001
    23 years ago
Abstract
A mounting system comprises base structural supports and connecting structural supports which are fastened horizontally to vertical structural supports. The vertical structural supports are connected to a building wall. Each base structural support has a U-like cross section, in which the upwardly directed leg that is further away from the building wall is shorter than the leg fastened to the vertical structural supports. Each connecting structural support has a short, upwardly and downwardly directed leg that is further away from the building wall than a vertical leg that is connected to the vertical structural supports. A horizontal leg which has a flexible elastic insert at its open end, adjoins the lower end of the vertical leg.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The invention relates to a mounting system for panels for use in facade cladding on buildings and for invisible fastening of the panels on structural supports that are connected to a building wall.




2. Description of the Related Art




EP-A-0 761 904 describes a mounting system for panels for use in facade cladding on buildings. The mounting system comprises structural supports and U-shaped hooks which are connected, by means of a fastening element to that side of the panel facing a building wall. Angle structural supports are fastened to the building wall, the longer angle sides of these structural supports extending into the space between side walls of the hook and have punched openings. Bolts are pushed through holes in the side walls and through the punched openings, which bolts are fixed in their position in relation to the respective hook.




German Utility Model G 94 16 917.9 discloses a fastening system for compact panels made of one or more fiber layers which are hot-pressed together with one another and impregnated with resin and which are externally coated on at least one side with a decorative layer, for invisible mounting on a support body. The fastening system consists of a structural support which interconnects the compact panels and a wall or a support body, and milled cuts are made in those sides of the compact panels facing the support body. The cross sections of which milled cuts are covered by portions of the structural support. Each individual milled cut consists of two cross sections which are arranged on the compact panel in a mirror-inverted manner in relation to a vertical, run at an angle to the surface of the compact panel and enclose between them an angle of 50 to 100°. The cross sections receive square-shaped portions of the structural support. An end-piece of the structural support is of V-shaped design and the portions form the end sections of the V-shape.




The core of compact panels has very great strength and can therefore absorb great forces without breaking or deforming. Compact panels or similar panels are used in particular for facade and wall cladding on account of their great weathering resistance and dimensional stability, care being taken that the fastening of the panels to a wall or a support body is invisible from the outside. According to the state of the art, invisible fastening is brought about by the panels being adhesively bonded or fastened by screws. In the case of screw connections, these are made directly to the panels, the dowels in general being fixed in the panels. Connection to the wall lying behind or to the support body located behind is carried out via, for example, clips.




According to the state of the art, it is also customary to fasten metal hooks in a hole on the rear side of the panels using screws or dowels. The panels are then suspended in metal rails fastened in vertical structural supports connected to the wall or to the building. The rails may also be arranged on adjustable facade anchors. On the upper edge, each of these panels has two adjustable fasteners and one fixed fastener which is designed as a so-called fixed point. The lower fasteners must be attached higher than the lower edge of the panel so as to allow changes in dimensions of the panel and its substructure. The fasteners are, in general, clamps which may, for example, be of semicircular design. In this system, mounting and demounting work is time-consuming because individual panels must in each case be suspended on a metal rail. Adjustment of the panels in the horizontal and the vertical direction requires laborious work on the rear side of the panel which has to be removed in order, for example, to reposition the metal rail in the vertical structural support or to realign facade anchors if these are used. Only after these adjustment operations is it possible for the panel to occupy its new position on the facade substructure.




The object of the invention is to provide a mounting system which makes possible rapid mounting of facade cladding panels, keeps the number of system components low and reduces the costs of facade cladding equipped with invisible fastening means.




SUMMARY OF THE INVENTION




The invention provides a mounting system for panels for use in facade cladding on buildings and for invisibly fastening the panels on structural supports that are connected to a building wall, wherein the mounting system comprises




a) at least one base structural support and at least one connecting structural support, which base and connecting structural supports are fastened horizontally to at least one vertical structural support, the vertical structural support being connected to a building wall;




b) wherein each base structural support has a U-shaped cross section, which has a first upwardly directed leg attached to the vertical structural support, which first upwardly directed leg is connected at a lower end thereof to an end of a horizontal leg; and a second upwardly directed leg connected to another end of the horizontal leg further away from the vertical structural support; and




c) wherein each connecting structural support has a U-shaped cross section having a central vertical leg that is connected to the vertical structural supports, an upper horizontal leg being attached at one thereof to an upper end of the vertical leg and having a short upwardly and downwardly directed leg attached to the upper horizontal leg at another end thereof away from the vertical structural support; and a lower horizontal leg connected at one end thereof to the vertical leg at a lower end thereof, the lower horizontal leg having an open end at another end thereof away from the vertical leg; and a flexible elastic insert being provided at the open end.




The invention also provides a mounting system for panels for use in facade cladding on buildings and for invisible fastening of the panels on structural supports that are connected to a building wall, wherein the mounting system comprises base structural supports and connecting structural supports which are fastened horizontally to vertical structural supports the vertical structural supports being connected to the building wall, wherein each base structural support has a U-like cross section, in which cross section the upwardly directed leg that is further away from the building wall is shorter than the leg fastened to the vertical structural supports, and wherein each connecting structural support has a short, upwardly and downwardly directed leg that is further away from the building wall than a vertical leg that is connected to the vertical structural supports, a horizontal leg, which has a flexible elastic insert at its open end, adjoining the lower end of this vertical leg.











BRIEF DESCRIPTION OF THE DRAWINGS




The invention is explained in greater detail below with the aid of the drawings, in which:





FIG. 1

shows a section through a first embodiment of a base structural support of the mounting system according to the invention.





FIG. 2

shows a section through a second embodiment of a base structural support of the mounting system according to the invention.





FIG. 3

shows a section through a first embodiment of a connecting structural support of the mounting system according to the invention.





FIG. 4



a


shows a section through a second embodiment of a connecting structural support of the mounting system according to the invention.





FIG. 4



b


shows a section through a connecting structural support that has been slightly modified in relation to the embodiment in

FIG. 4



a.







FIG. 5

shows a longitudinal section through a panel of the facade cladding that is erected with the aid of the mounting system according to the invention.





FIG. 6

shows a sectional plan view of two interconnected panels of the facade cladding.





FIG. 7

shows a sectional plan view of two interconnected panels of the facade cladding, similar to the arrangement in FIG.


6


.





FIG. 8

shows a sectional view of the facade cladding that is erected using the mounting system according to the invention.





FIG. 9

shows a sectional view of facade cladding that is erected using a mounting system that has been slightly modified in relation to FIG.


8


.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




According to the invention, this object is achieved by virtue of the fact that the mounting system has base structural supports and connecting structural supports which are fastened horizontally to vertical structural supports, the vertical structural supports being connected to the building wall. Each base structural support has a U-like cross section, in which cross section the upwardly directed leg that is further away from the building wall is shorter than the leg fastened to the vertical structural supports. Each connecting structural support has a short, upwardly and downwardly directed leg that is further away from the building wall than a vertical leg that is connected to the vertical structural supports, and a horizontal leg, which has a flexible elastic insert at its open end, adjoining the lower end of this vertical leg.




The mounting system therefore requires only two types of structural support, namely a base structural support and a connecting structural support, which differ from one another in their design.




In one embodiment, the base structural support has the two vertical legs of different length interconnected by a horizontal leg. In another embodiment, the base structural support has the vertical leg with an offset horizontal upper end, a horizontal leg offset from the leg and a hollow structural support of rectangular cross section fastened to the horizontal leg. In this embodiment, the two outer sides of the hollow structural support extend, as a vertical leg and a horizontal leg, beyond the hollow structural support.




In the invention, one embodiment of the connecting structural support has an upwardly and downwardly directed leg, an upper horizontal straight leg, a vertical leg and a lower horizontal leg, the lower leg being widened in a claw-like manner at its open end and receiving the insert. This insert faces away from the building wall. Expediently, the lower horizontal leg, including its open claw-like end and the insert, is shorter than the upper horizontal leg. This measure takes account of the fact that the inner side of a panel can bear against the insert and is at the same time in contact, via the outer side of its upper end, with the inner side of the downwardly directed vertical leg of a connecting structural support.




In another development of the invention, the connecting structural support has an upwardly and downwardly directed leg, an upper horizontal, a bent leg, a vertical leg and a lower horizontal leg. A hollow structural support of rectangular cross section is fastened to the lower leg. In this embodiment, the outer side of the hollow structural support, which side faces away from the vertical leg, is expediently shaped in a claw-like manner and receives the insert.




A mounting system


1


, as illustrated in

FIGS. 8 and 9

, comprises base structural supports


3


and connecting structural supports


5


which are fastened horizontally to vertical structural supports


6


which in turn are connected to a building wall


7


as in the case in FIG.


8


. By means of the mounting system


1


, panels


12


,


30


can be fastened invisibly on the base structural supports


3


and the connecting structural supports


5


. The arrangement of the panels on the structural supports extensively conceals the latter and renders them invisible to a person looking at the facade cladding. The base structural supports


3


and connecting structural supports


5


illustrated in

FIGS. 8 and 9

represent the preferred embodiments of the structural supports but they can also be replaced by simple base structural supports


2


, as shown in

FIG. 1

, and simpler connecting structural supports


4


, as shown in FIG.


3


.




The base structural support


2


illustrated in

FIG. 1

comprises two vertical legs


8


and


9


, the leg


8


being considerably shorter than the leg


9


. The two legs


8


and


9


are interconnected by a horizontal leg


14


which has openings


34


. This base structural support


2


is connected to the vertical structural support


6


in

FIG. 8

, for example via the leg


9


by means of screws (not shown). The openings


34


serve for drainage of condensation water. The base structural support


2


is arranged at the lower end of vertical facade cladding and supports the bottom panels


12


of the facade cladding.




The preferred embodiment of the base structural support is the base structural support


3


illustrated in

FIG. 2

, which is of more complex design in relation to the base structural support


2


. Like the base structural support


2


, the base structural support


3


has a U-shaped cross section and comprises a vertical leg


9


with an offset horizontal upper end


15


, a horizontal leg


16


offset from the leg


9


and a hollow structural support


17


of rectangular cross section which adjoins the horizontal leg


16


. Openings


35


for fastening to the vertical structural supports


6


are arranged in the vertical leg


9


, and openings


34


for drainage of condensation water are arranged in the horizontal leg


16


. Two outer sides


18


,


19


of the hollow structural support


17


extend beyond the outer cross section of the hollow structural support and continue in a vertical leg


8


, which is directed upward, and a horizontal leg


20


which points toward the vertical leg


9


. During mounting, a rectangular structural support


36


is inserted into the hollow structural support


17


, as indicated in FIG.


2


. The length of the rectangular structural support


36


is dimensioned in such a manner that it interconnects two adjacent base structural supports


3


,


3


aligned on the same horizontal and in this way increases the stability of the mounting system and of the facade cladding.





FIG. 3

shows the connecting structural support


4


that constitutes a first embodiment. The connecting structural support


4


comprises an upwardly and downwardly directed vertical leg


10


, an upper horizontal, rectilinear leg


21


, a vertical leg


11


and a lower horizontal leg


22


. The lower leg


22


is widened at its open end


26


in a claw-like manner and receives an insert


13


which is made of a flexible elastic material such as rubber, plastic or the like. The connecting structural support


4


is formed in such a manner that the lower horizontal leg


22


, together with its open claw-like end


26


and the insert


13


projecting from the end


26


, is shorter than the upper horizontal leg


21


. This embodiment, combined with the profiling of the panels


12


and


30


of the facade cladding, brings about secure fastening of the panels and the simultaneous concealment of the connecting structural support


4


by the panels so that, viewed from the outside of the facade cladding, the structural support remains invisible, as will be described in greater detail in connection with

FIGS. 8 and 9

. Openings


35


for fastening to the vertical structural supports


6


are provided in the vertical leg


11


. The vertical leg


11


is connected to the vertical structural supports


6


of the mounting system


1


by means of screws (not shown).




The connecting structural support


5


according to

FIG. 4



a


constitutes a second, preferred embodiment and comprises the upwardly and downwardly directed vertical leg


10


, an upper horizontal bent leg


23


, the vertical leg


11


and a lower horizontal leg


24


. This is adjoined by a hollow structural support


25


of rectangular cross section. In the vertical leg


11


, there are openings


35


for fastening to the vertical structural supports


6


. By way of modification of

FIG. 4



a


, the vertical leg


11


is dimensioned so as to be thicker than the legs


10


and


24


. Furthermore, the upper leg


23


is reinforced at an angle on its lower side, that is to say it has an angled lower side which does not have the bend of the upper side of the leg


23


, as

FIG. 4



b


shows. It can be seen from

FIGS. 8 and 9

how this connecting structural support


5


is used in order to interconnect two panels


12


and


30


arranged vertically one above the other. An outer side


27


of the hollow structural support


25


, which side faces away from the vertical leg


11


, is shaped in a claw-like manner and receives the insert


13


. It is true of the second embodiment also that the lower horizontal leg


24


, together with the hollow structural support


25


and the projecting insert


13


, is shorter than the upper horizontal, bent leg


23


. During mounting, a rectangular structural support


37


is inserted into the hollow structural support


25


, said structural support


37


being dimensioned in such a manner that it is long enough to interconnect two adjacent structural supports


5


,


5


aligned on the same horizontal and in this way increase the stability of the mounting system and of the facade cladding.




A comparison of the first and the second embodiment of the base structural supports


2


,


3


, in the same way as a comparison of the first and second embodiment of the connecting structural supports


4


,


5


, reveals that the second embodiments are distinguished from the first embodiments essentially only by the additional hollow structural supports


17


,


25


. These hollow structural supports


17


,


25


afford the advantage that it is possible to insert into them rectangular structural supports


36


and


37


respectively, which interconnect adjacent base structural supports and connecting structural supports respectively and in this way increase the stability of the mounting system and of the facade cladding.





FIG. 5

shows a longitudinal section through the panels


12


and


30


of the facade cladding. In this respect, it is to be noted that both the panels


12


arranged in the bottom horizontal row of the facade cladding and the panels


30


arranged in rows situated above said row have the same shape. Each of the panels


12


,


30


is indented at the upper end and has a web rim


31


which has a thickness of 2 to 4 mm and a length of 12 to 18 mm. The thickness D of the panels ranges from 8 to 16 mm, the height from 200 to 1200 mm. The web rim


31


is created as a result of an indentation at the upper end of the panel


12


,


30


in such a manner that a bottom surface


47


of the indentation runs at an angle to a wall of the web rim


31


and, with this wall, encloses an angle α>90°, in particular in the range of 100 to 105°. There is likewise an indentation


28


,


32


respectively on the lower side of the panel


12


,


30


, which indentation has, at least, a depth of 4 to 5 mm and a length of 14 to 18 mm. This indentation


28


,


32


is provided with a groove


29


,


33


respectively which has a width of at least 1.6 to 2 mm and a depth of at least 3 to 4 mm. The material thickness of the panel


12


,


30


located to the right of this groove


29


,


33


respectively in

FIG. 5

is the same as the thickness of the web rim


31


. The web rim


31


is located on the inner side, or rear side, of the panel


12


,


30


of the facade cladding.




The sectional plan view in

FIG. 6

shows two panels


12




a


which are separated from one another by a joint width a. Each of the panels


12




a


has a groove


46


, into which a connecting plate


42


is inserted. This connecting plate


42


is preferably a metal plate such as, for example, an aluminum plate with a thickness of 2 to 3 mm corresponding to the width of the groove


46


and a width of 30 to 40 mm.





FIG. 7

also shows a sectional plan view of two interconnected panels


12




b


,


12




b


of the facade cladding. The right panel


12




b


in this plan view has an indentation


44


while the left panel


12




b


has an indentation


45


which is shallower than the indentation


44


. The indentation


44


of the right panel


12




b


leaves a panel web


43


. The two panels


12




b


,


12




b


are pushed together in such a manner that the panel web


43


is in contact with the left panel


12




b


, a joint width b remaining between the two panels. On the rear side, or inner side, of the panels, which faces upward in

FIG. 7

, there is a panel joint c between the two panels


12




b


,


12




b.






The sectional view according to

FIG. 8

shows facade cladding that is erected using the mounting system


1


. The bottom row of panels


12


is in engagement with the base structural supports


3


by virtue of the fact that the short vertical leg


8


of the base structural support


3


engages in the groove


29


of the panels


12


. At the same time, the bottom panels


12


conceal the base structural supports


3


completely. Between the lower edge of the panels


12


and the floor there is a space through which incoming air A flows in according to the arrow. This air then flows up along the inner side of the facade cladding and comes out as outgoing air B at the upper end of the facade cladding. The connecting structural supports


5


join the bottom panels


12


together with the panels


30


located vertically above them by virtue of the fact that the inserts


13


of the connecting structural supports


5


bear against the inner sides of the panels


12


, and the web rims


31


on the upper sides of these panels


12


bear against the inner sides of the downwardly directed legs of the connecting structural supports


5


. The upwardly directed parts of the short vertical legs


10


of the connecting structural supports


5


engage in the groove


33


on the lower sides of the panels


30


. The panels


30


have indentations on the inner sides, which leave webs which conceal completely on the outer side the legs


10


of the connecting structural supports. The upper end-structural supports of the facade cladding are likewise connecting structural supports


5


, the vertical legs


10


of which are not concealed on the outer side. The web rims


31


of the panels


30


bear against the inner sides of the legs


10


. Both the base structural supports


3


and the connecting structural supports


5


used as end-structural supports are in each case arranged at a defined distance from the floor or ceiling so as to ensure that there is adequate air circulation and thus rear-ventilation of the facade cladding.




Installation of the facade cladding is carried out in a series of stages. In the first stage, the vertical structural supports


6


are fastened to the building wall


7


. In a second stage, the base structural supports


2


or


3


are arranged, aligned horizontally, on the vertical structural supports. The distance between these structural supports depends on the width and the height of the panels or slabs to be installed. In the third stage, the connecting structural supports


4


,


5


are adjusted and fastened to the vertical structural supports


6


. In the fourth stage, a small quantity of an adhesive is applied in the center of the profiling on the lower side of each panel, that is to say each panel is adhesively bonded to the structural support located below it so as to prevent displacement on one side to the left or the right beyond the horizontally aligned structural supports. In the fifth stage, the panels are first brought into engagement, via their upper side, with the connecting structural supports


4


or


5


located above them and then pushed downward until they engage with the connecting structural supports located below them. In this way, the panels are secured against being pulled out as a result of low pressure produced by wind incursion or on account of the action of other mechanical forces and, moreover, the connecting structural supports are concealed so that they are invisible from the outer side of the facade cladding.

FIG. 8

shows facade cladding as preferably used for internal-wall cladding.





FIG. 9

shows facade cladding similar to that in

FIG. 8. A

supporting structure or a vertical structural support


6


made, for example, of wood or aluminum is fastened at a distance from the building wall


7


. Thermal insulation


41


is located between the supporting structures. Furthermore, corner pieces


48


are provided, with which a horizontally aligned end cover plate


49


is fastened to the supporting structure. The connection between lower and upper panels


12


and


30


respectively is made via the connecting structural supports


5


. The end of the facade cladding is likewise formed by connecting structural supports


5


. A crossbeam


38


is arranged above the facade cladding and is concealed by an angular cover plate


39


. The crossbeam


38


is, for example, embedded at one end in the building wall


7


. Located between the thermal insulation


41


and the structural supports


3


and


5


is a duct, through which the incoming air A and the outgoing air B flow so as to ventilate the rear of the facade cladding. The lower side of the facade cladding is ended by the L-shaped end cover plate


49


with openings


40


in the longer of the two legs, which runs horizontally, while the shorter leg is fastened to the building wall


7


. The longer leg of the end cover plate


49


adjoins the base structural supports


3


continuously and its openings


40


serve for drainage of condensation water. The embodiment in

FIG. 9

shows typical facade cladding for an external wall of a building.



Claims
  • 1. A mounting system for panels for use in facade cladding on buildings and for invisibly fastening the panels on structural supports said mounting system being adapted to be connected to a building wall, wherein the mounting system comprisesa) at least one base structural support and at least one connecting structural support, which base and connecting structural supports are fastened horizontally to at least one vertical structural support, the vertical structural support being connectable to a building wall; b) wherein each base structural support has a U-shaped cross section; which has a first upwardly directed leg attached to the vertical structural support, which first upwardly directed leg is connected at a lower end thereof to an end of a horizontal leg; and a second upwardly directed leg connected to another end of the horizontal leg further away from the vertical structural support; and c) wherein each connecting structural support has a U-shaped cross section having a central vertical leg that is connected to the vertical structural supports, an upper horizontal leg being attached at one end thereof to an upper end of the vertical leg and having a short upwardly and downwardly directed leg attached to the upper horizontal leg at another end thereof away from the vertical structural support; and a lower horizontal leg connected at one end thereof to the vertical leg at a lower end thereof, the lower horizontal leg having an open end at another end thereof away from the vertical leg; and a flexible elastic insert being provided at the open end.
  • 2. The mounting system as claimed in claim 1, wherein the two vertical legs of the base structural support have different length.
  • 3. The mounting system as claimed in claim 1, wherein the first vertical leg has a horizontal member at an upper end thereof, and a hollow structural support of rectangular cross section fastened to the horizontal leg.
  • 4. The mounting system as claimed in claim 3, wherein two outer sides of the hollow structural support extend, as a vertical leg and a horizontal leg beyond the hollow structural support.
  • 5. The mounting system as claimed in claim 1, wherein the connecting structural support comprises a widened claw at its open end for receiving the insert.
  • 6. The mounting system as claimed in claim 5, wherein the lower horizontal leg of the connecting structural support including its open end claw and the insert is shorter than the upper horizontal leg.
  • 7. The mounting system as claimed in claim 1, wherein the upper horizontal leg of the connecting structural support has at least two stepwise offset horizontal segments; and the connecting structural support further comprises a hollow structural support of rectangular cross section fastened to an end of the lower horizontal leg.
  • 8. The mounting system as claimed in claim 7, wherein the hollow structural support of the lower horizontal leg comprises a claw which receives the insert.
  • 9. The mounting system as claimed in claim 8, wherein the lower horizontal leg, together with its hollow structural support and insert is shorter than the upper horizontal leg.
  • 10. The mounting system as claimed in claim 1, further comprising a facade cladding having at least one panel, wherein the bottom panels of the facade cladding have on the inner side an indentation and a groove which are in engagement with the upwardly directed vertical leg of the base structural support and wherein the bottom panels conceal the base structural supports.
  • 11. The mounting system as claimed in claim 10, wherein the insert of the connecting structural support bears against an inner side of the panel and a web rim on an upper side of the panel bears against an inner side of the downwardly directed leg of the connecting structural support.
  • 12. The mounting system as claimed in claim 10, wherein the panels are provided on their inner side with an indentation and a groove which the upwardly directed part of the vertical leg of the connecting structural support engages, and wherein the panels conceal the connecting structural supports.
  • 13. The mounting system as claimed in claim 1, comprising a connecting structural support attached at an upper end of the vertical structural support.
  • 14. The mounting system as claimed in claim 1, wherein the base structural support has at least one opening in its horizontal leg.
  • 15. The mounting system as claimed in claim 1, wherein the connecting structural supports have at least one opening in the vertical leg which is connected to the vertical structural support.
  • 16. The mounting system as claimed in claim 3, wherein a rectangular structural support is inserted into the rectangular hollow structural supports of the base structural supports and is rigidly connected to at least one of the base structural supports.
  • 17. The mounting system as claimed in claim 7, wherein a rectangular structural support is inserted into the rectangular hollow structural supports of the connecting structural supports and is rigidly connected to at least one of the connecting structural supports.
  • 18. The mounting system as claimed in claim 1, wherein the upper horizontal leg of the connecting structural support has an angled lower side, and the vertical leg is reinforced in comparison with the upwardly and downwardly directed vertical leg, and the lower horizontal leg.
  • 19. A mounting system for panels for use in facade cladding on buildings and for invisible fastening of the panels on structural supports said mounting system being adapted to be connected to a building wall, wherein the mounting system (1) comprises base structural supports (2; 3) and connecting structural supports (4; 5) which are fastened horizontally to vertical structural supports (6), the vertical structural supports (6) being connectable to the building wall (7), wherein each base structural support (2; 3) has a U-like cross section, in which cross section the upwardly directed leg (8) is shorter than the leg (9) fastened to the vertical structural supports (6), and wherein each connecting structural support (4; 5) has a short, upwardly and downwardly directed leg (10) that is connected to the vertical structural supports (6), a horizontal leg (22, 24), which has a flexible elastic insert (13) at its open end, adjoining the lower end of a vertical leg (11).
Priority Claims (1)
Number Date Country Kind
197 53 768 Dec 1997 DE
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Number Name Date Kind
3305981 Biggs et al. Feb 1967
3705002 Varlonga Dec 1972
3731447 Dawdy et al. May 1973
3753325 Stanley et al. Aug 1973
3852935 Jones Dec 1974
3925948 Sauer et al. Dec 1975
4835923 Ybarra Jun 1989
4893446 Gudmundsson et al. Jan 1990
4934119 Ybarra Jun 1990
Foreign Referenced Citations (4)
Number Date Country
3627583 Feb 1988 DE
94 16 917 Oct 1994 DE
0 304 607 Nov 1989 EP
0 761 904 A1 Jul 1995 EP