This is a U.S. national stage of International Application No. PCT/EP2006/004752, filed on 19 May 2006. Priority is claimed on German Application No. 10 2005 032 169.0, filed on 9 Jul. 2005.
1. Field of the Invention
The invention relates to a compression bar system for a braced façade structure, the compression bar system having a compression bar as well as connecting elements, disposed at the compression bar, for tie members and the like.
2. Description of the Related Art
A braced façade structure or also a rear-braced façade structure is composed of the following structural parts: compression bar system, tie member (cable) and corresponding structural connections such as connecting brackets, dowels, etc. These structural parts represent a static system, which decomposes all external forces, such as wind, acting on the façade, into the individual components tension and compression, and then introduces these safely into the building. The structural elements tie member and compression bar system, which are suitably interconnected such as to create a self-supporting façade lining, are used for the relevant assignment or reception of the individual components tension and compression. The compression bar system is composed of a compression bar and further connecting elements for connecting tie members and further holding elements, e.g. for connecting them to the building. In the conventional application of these compression bar systems, a monolithic structural part is manufactured customized for the project or structure, wherein the different connecting elements for the tie members, and the additional holding elements are directly mounted, e.g. welded, to the bar which is individually cut to length. However, this execution is uneconomical and inflexible, because each time a unique part needs to be produced for the respective individual application, at high manufacturing expense and with the requirement to precisely respect predetermined dimensions.
Therefore, an object of the present invention is to eliminate the above mentioned disadvantages and to provide a compression bar system which can be manufactured at less expense.
This object is achieved by an embodiment of a compression bar system of the present invention.
According to the invention, the compression bar system is used for a braced façade structure, the compression bar system having a compression bar, as well as connecting elements, disposed at the compression bar, for tie members and the like, and each connecting element is formed as a pre-fabricated individual part, which is connectable to the compression bar.
On account of the inventive configuration, the connecting elements can be pre-fabricated in large batches. This reduces the cost per unit for the connecting elements. On site, these connecting elements just need to be connected to the compression bars. This simplifies the mounting expense. The compression bars can be delivered by the meter and cut to the required length directly on the construction site. This reduces the logistic expense as well.
The connection of compression bar and connecting element is particularly simple if, according to an advantageous configuration, this is realized with a releasable connection. Such a connection can be produced with simple means on the construction site.
According to a preferred configuration, respectively one connecting element can be fastened at the front and at the rear end of the compression bar. This covers the majority of all application cases, because generally the tie members need to be connected to both ends of the compression bar, respectively.
In order to be able to reliably attach the compression bar at the building, according to a preferred configuration, the connecting element to be fastened at the front end has an attaching element for attachment at the building.
Advantageously, the connecting element to be fastened at the rear end can be covered by a cover cap, in order to achieve a homogeneous façade from the visual point of view as well.
The connection of compression bar and connecting element is particularly simple if, according to an advantageous further development, the compression bar and the connecting elements are screwable to each other via a connecting rod passing through the compression bar and through the connecting elements. Such a connection is not only simple and easy to make, but it also guarantees an overall maintenance-friendly structure.
In order to be able to fasten another plane of tie members in a plane located between the ends of the compression bar, according to a preferred configuration, an additional connecting element can be inserted into the compression bar between the connecting elements, which can be fastened at both ends of the compression bar.
Fastening the tie members at the connecting element is particularly simple if, according to a preferred configuration, each connecting element is provided with connecting lugs for the tie members.
In order to be able to realize all connecting variants for the tie members occurring in practice, four differently formed connecting elements are provided. According to variant 1, two connecting lugs are provided, uniaxially opposite each other. According to variant 2, four connecting lugs are provided, biaxially crosswise opposite each other. According to variant 3, four connecting lugs are provided, uniaxially in pairs opposite each other. According to variant 4, six connecting lugs are provided, biaxially crosswise opposite each other. Thus, all connecting combinations for tie members, that are actually applicable in practice, can be covered with only four different connecting elements.
According to a preferred configuration, each connecting element has a hollow, pot-shaped body, on the bottom of which a through opening is provided for the passage of the connecting rod. Such a connecting element is particularly easy to manufacture and to manipulate.
If, according to an advantageous further development, the pot-shaped body has a peripheral wall, which is provided with a thread at its inside, the body is individually usable and is adaptable to different situations.
Depending on the requirements, an adapter for attaching the additional compression bar, the attaching element for attaching the compression bar system at the façade, or the cover cap can be screwed into the thread. Thus, the same body can be used for very different purposes.
In order to guarantee a secure support of the compression bar at the connecting element and a good introduction of forces into the connecting element, in its bottom area, the pot-shaped body has a stepped shoulder on which the compression bar can be fitted. Thus, the compression bar bears in a secure position on the connecting element, simultaneously guaranteeing a good transmission of forces.
An annular groove for receiving an O-ring is provided in the area of the shoulder, on the one hand, in order to achieve a play-free support of the compression bar at the connecting element and, on the other hand, in order to prevent moisture from penetrating into the compression bar.
Further details, features and advantages of the invention will become apparent from the following description of preferred exemplary embodiments, wherein:
a to 3d: show different variants of compression bar systems,
a to 4b: show sections through two embodiment variants of the connecting elements, and
a to 5c: show detailed views of the same connecting element for different application purposes.
In
In
In
The connecting element 3 in
b shows a compression bar 2, at each end thereof a connecting element 3 being attached. In this case, two tie members 5 can be connected to the left connecting element 3, as already shown in
c shows another embodiment variant of the connecting elements 3, in which not only a connecting element 3 is disposed at both ends of the compression bar 2, but in addition also in the central area of the compression bar 2, in order to be able connect tie members 5 in the central plane as well.
d shows an embodiment in which one connecting element 3 is provided at both ends of the compression bar 2 respectively. Each of the connecting elements 3 is provided with six connecting lugs 4 which are biaxially crosswise opposite each other.
In
a to 5c show the connecting element 3, illustrated in the other Figures, in an enlarged detailed view for various application purposes.
As will result from the comparison of
A connecting rod 14, which passes through the compression bar 2 and the through opening 10 in the connecting element 3, serves for a rigid, yet releasable connection of compression bar 2 and connecting elements 3. For this purpose, respectively one connecting element 3 is fitted to both ends of the compression bar 2. The connecting rod 14 is then passed through the two connecting elements 3 and the compression bar 2 and screwed-on by means of nuts 15 located on the inside, as shown in
In addition
a shows the use of the connecting element 3 at the right end of the compression bar 2. In order to attach the compression bar 2 at the building 7, the attaching element 6, already mentioned in conjunction with
c shows the use of the connecting element 3 at the left end of the compression bar 2. In order to cover this end of the connecting rod 14 and the nut 15 screwed onto the connecting rod 14, a cover cap 16 is screwed into the thread 13 of the peripheral wall 12.
b shows a variant, in which the compression bar 2, also in its central area, is provided with a connecting element 3 for connecting to a central plane of tie members 5. For this purpose, an adapter 17 is screwed into the thread 13 of the peripheral wall 12 for fitting an additional compression bar 3. This adapter 17 has an exterior circumference, which corresponds to the exterior circumference of the shoulder 11, such that the compression bar 2 can be attached to the adapter 17 and, with its frontal side, bears on the body 8. The adapter 17 is provided with a central through bore 18, through which the connecting rod 14 passes, thus connecting the compression bar 2 and the connecting elements 3.
In the area of the bottom 9 of the pot-shaped body 8, the shoulder 11 is provided with an annular groove 19, into which an O-ring is inserted, which allows for a tight connection between the shoulder 11 and the fitted compression bar 2. An annular groove for the O-ring is machined into the adapter 17 as well.
Each connecting element 3 can be used on the right hand side, the left hand side, or in the central area of the compression bar 2 with different tie connecting variants as a standardized, pre-fabricated structural part. The compression bars 2 can be economically pre-fabricated for each individually required length or they may be cut to length in simple operational steps on the construction site. All individual components can be individually inserted into each other and reliably braced with the internally located connecting rod 14 via a simple screw-connection within the connecting elements 3. Thus any compression bar systems in any dimensions can be assembled easily, quickly and economically from a few manageable individual parts directly at the place of installation.
The above description of the exemplary embodiment according to the present invention serves for illustrative purposes only and is not intended to limit the invention. Various changes and modifications are possible within the range of the invention without leaving the scope of the invention or the equivalents thereof.
Number | Date | Country | Kind |
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10 2005 032 169 | Jul 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/004752 | 5/19/2006 | WO | 00 | 1/8/2008 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/006363 | 1/18/2007 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5787662 | Danz | Aug 1998 | A |
6412242 | Elmer | Jul 2002 | B1 |
6467227 | Elmer | Oct 2002 | B2 |
20050126090 | Lundgren | Jun 2005 | A1 |
Number | Date | Country |
---|---|---|
1 020 574 | Jul 2000 | EP |
1 291 473 | Mar 2003 | EP |
7062777 | Mar 1995 | JP |
2005054508 | Mar 2005 | JP |
Number | Date | Country | |
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20090255207 A1 | Oct 2009 | US |