The invention relates to a scaffolding crossbar for the horizontal reinforcement of a scaffolding between two scaffolding posts of the scaffolding, wherein the scaffolding post comprises a first crossbar coupling part in its first longitudinal end region for connecting a diagonal coupling part of a first scaffolding diagonal scaffolding piece. The invention furthermore relates to a scaffolding with such a scaffolding crossbar and a method for constructing a scaffolding.
It is common practice to use scaffolding posts when constructing scaffolding in lightweight construction in order to transfer vertical loads. The scaffolding posts are, either indirectly or directly, connected by means of horizontal scaffolding crossbars. These may be designed to be flexible or rigid. The scaffolding is primarily reinforced by the diagonal scaffolding piece, wherein two scaffolding crossbars are connected with a single diagonal scaffolding piece. A unit consisting of two scaffolding crossbars that are vertically arranged above each other and that are connected with a diagonal scaffolding piece is referred to as a “lift height.” In prior art, therefore, one diagonal scaffolding piece is installed per lift height. The bracing this achieves, however, is not very significant. This limits the applications of known scaffoldings in lightweight construction.
It is therefore the object of the invention to provide a scaffolding crossbar that makes constructing a significantly better reinforced scaffolding possible and easier. It is furthermore the object of the invention to provide a scaffolding with such a scaffolding crossbar and a method for constructing a significantly better reinforced scaffolding.
The object according to the invention is solved by a scaffolding crossbar according to claim 1, a scaffolding according to claim 6 and a method according to claim 10. The dependent claims represent preferred further developments.
The object according to the invention is therefore solved by a scaffolding crossbar. The scaffolding crossbar is preferably designed in the form of a modular scaffolding crossbar. The scaffolding crossbar is designed to horizontally reinforce a scaffolding between two scaffolding posts of the scaffolding. The scaffolding crossbar can, in particular, be arranged on connection plates, preferably in the form of perforated disks, of the scaffolding posts. The scaffolding crossbar extends in the direction of its longitudinal axis and comprises at its one end, i.e., in its longitudinally extending first end region, a first crossbar coupling part of a first diagonal scaffolding piece of the scaffolding. In addition, the scaffolding crossbar comprises in the same longitudinally extending end region a second crossbar coupling part for the connection of a diagonal piece coupling part of a second diagonal scaffolding piece of the scaffolding.
The second crossbar coupling part in the area of the first crossbar coupling part offers a simple way to arrange a second diagonal scaffolding piece per lift height. This significantly increases the rigidity and the load-bearing capacity of the scaffolding. It is not absolutely necessary to arrange a second diagonal scaffolding piece in every lift height. Rather, depending on the load on individual scaffolding parts, a second diagonal scaffolding piece may be arranged or not when the scaffolding is constructed. In other words, the scaffolding may, even after it has been constructed, be reinforced with a further diagonal scaffolding piece at particularly load-bearing points without having to significantly increase the total number of the scaffolding components or having to use a scaffolding generally designed for higher loads.
The scaffolding crossbar may comprise a third scaffolding coupling part in its first longitudinal end region for connecting a diagonal piece coupling part of a third diagonal scaffolding piece of the scaffolding. The third crossbar coupling part therefore makes it possible to further reinforce a lift height of a scaffolding by means of a third diagonal scaffolding piece. In doing so, the scaffolding is able to bear particular loads in some areas.
At least two crossbar coupling parts (30a-30c) may be arranged on the same horizontal plane, and preferably all crossbar coupling parts (30a-30c) may be arranged on the same horizontal plane.
To simplify the connection of the diagonal scaffolding piece, a plurality of crossbar coupling parts, preferably all crossbar coupling parts, may be formed equally.
If at least three crossbar coupling parts are arranged or formed on the scaffolding post, the part in the center of the three crossbar coupling parts is preferably evenly spaced from its two adjacent crossbar coupling parts.
A crossbar coupling part may have the form of a projection. Preferably, a plurality, preferably all, crossbar coupling parts have the form of a projection.
In a particularly preferred embodiment of the invention, a crossbar coupling part has the form of a through-recess. A diagonal piece coupling part may, in this case, have the form of a projection, which can, at least partially, be placed into the through-recess. In a further preferred embodiment, a plurality, preferably all, crossbar coupling parts have the form of a through-recess.
To be able to not have to pay a lot of attention to the orientation of the scaffolding crossbar when constructing the scaffolding, the scaffolding crossbar is preferably formed symmetrically to a symmetry plane. The symmetry plane may run vertically to the longitudinal axis of the scaffolding crossbar.
The object according to the invention is furthermore solved by a scaffolding with a first scaffolding crossbar as described above, a first diagonal scaffolding piece, whose diagonal piece coupling part is connected with the first crossbar coupling part of the first scaffolding crossbar, and a second diagonal scaffolding piece, whose diagonal piece coupling part is connected with the second crossbar coupling part of the first scaffolding crossbar. The scaffolding is preferably a modular scaffolding.
The scaffolding may furthermore comprise the following:
wherein the first diagonal scaffolding piece comprises, at one end, the first diagonal piece coupling part and, at the other end, a second diagonal piece coupling part, wherein the second diagonal piece coupling part is connected to a crossbar coupling part of the second scaffolding crossbar;
and wherein the second diagonal scaffolding piece comprises, at one end, the first diagonal piece coupling part and, at the other end, a second diagonal piece coupling part, wherein the second diagonal piece coupling part is connected with a crossbar coupling part of the second scaffolding crossbar.
The scaffolding may comprise a third diagonal scaffolding piece, which, at one end, comprises a first diagonal piece coupling part and, at the other end, a second diagonal piece coupling part, wherein the third diagonal scaffolding piece connects the two scaffolding crossbars. This makes the lift height of a scaffolding particularly well reinforced.
The first diagonal piece coupling part of the third diagonal scaffolding piece may be connected with a crossbar coupling part of the first scaffolding crossbar, and the second diagonal piece coupling part of the third diagonal scaffolding piece may be connected with a crossbar coupling part of the second scaffolding.
To be able to arrange the first diagonal scaffolding piece to the scaffolding crossbars in a particularly easy and fast but still reliable manner, the first diagonal piece coupling part is preferably formed so that it does not fully penetrate the scaffolding crossbar. The second diagonal piece coupling part of the first diagonal scaffolding piece is preferably formed so that it fully penetrates the scaffolding crossbar.
It is furthermore preferred that the first diagonal piece coupling part has the form of a rigid hook. The second diagonal piece coupling part preferably comprises a pin. The pin may be a movable element to ensure the engagement of the pin. This allows for a fast hooking into the first diagonal piece coupling part and a reliable arrangement of the diagonal scaffolding piece with the, in particular, secured pin.
The first diagonal scaffolding piece is preferably the same as the second diagonal scaffolding piece and in particular the same as the third diagonal scaffolding piece.
The object according to the invention is furthermore solved by a method for constructing a scaffolding, in particular a scaffolding as described above, with the following method steps:
The method may furthermore comprise the following method step:
Prior to, after and/or between the method steps A), B) and/or C), a further process step or further process steps may be performed.
In the present invention, the terms “top,” “bottom,” “vertical,” “horizontal,” etc. refer to the scaffolding in its assembled state.
Further features and advantages of the invention are described in the following detailed description of several exemplary embodiments of the invention and the claims as well as the figures of the drawing, which shows details that are essential to the invention. The different features may be realized in variants of the invention either individually or in any combination. The features shown in the drawing are shown in such a way that the particulars of the invention can be clearly demonstrated.
The scaffolding crossbar 22a is formed so that it is symmetrical to a symmetry plane 24. The symmetry plane 24 runs vertical to the longitudinal axis 26 of the scaffolding crossbar 22a.
The scaffolding crossbars 22a, 22b are designed to be the same.
Diagonal scaffolding pieces 16a, 16b are arranged between the scaffolding crossbars 22a, 22b. Seen in the direction of the longitudinal axis 26, the scaffolding crossbar 22a has a first end region 28a and a second end region 28b. A plurality of diagonal scaffolding pieces 16a, 16b can be arranged on at least one end region 28a, 28b.
Combining all the figures of the drawing, the invention relates, in summary, to a scaffolding crossbar 22a, 22b, which, at one end, comprises at least two, preferably in particular three, crossbar coupling elements 30a-30c. The crossbar coupling elements 30a-30c can be designed to be the same. The crossbar coupling elements 30a-30c are preferably in the form of receiving openings. The crossbar coupling elements 30a-30c serve to detachably secure the diagonal piece coupling elements 32, 24. A scaffolding 10 according to the invention, having a scaffolding crossbar 22a, 22b of this type, has diagonal scaffolding piece 16a-16l with a first diagonal piece coupling element 32 at one end and a second diagonal piece coupling element 34 at the other end. The first diagonal piece coupling element 32 can be designed differently from the second diagonal piece coupling element 34, wherein the crossbar coupling elements 30a-30c are designed preferably for connecting both diagonal piece coupling elements 32, 34. The scaffolding 10 can therefore be designed such that it is optionally partially or completely torsion-resistant.
Number | Date | Country | Kind |
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10 2017 216 255.4 | Sep 2017 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/DE2018/100774 | 9/12/2018 | WO | 00 |