The invention relates to a support structure for a formwork panel, which has a support structure and a formwork skin positioned at the front of the support structure and attached to the support structure, the support structure having at least one pair of opposite edges, one edge girder each and between these two edge girders, a plurality of transverse girders, which run transversely to these two edge girders, characterized in that at least some of the transverse girders are designed as a profile girder, comprising a flange at its first end arranged at the front of the support structure, a tubular hollow section at its second end away from the front of the support structure, and between them a preferably wall-like member connecting the first end and the second end.
The two edge girders and/or the transverse girders can be made of metal.
Support structures for formwork panels constructed from metal girders are known in a large number of configurations. The transverse girders are often made of sheet metal, which has a cross-sectional shape that is produced by folding the sheet metal. Such transverse girders are comparatively inexpensive to manufacture but not optimal in a static sense, i.e., in terms of their load-bearing capacity relative to the weight of the transverse girder.
In the support structure according to the invention, however, at least some of the transverse girders are designed as profile girders with the features mentioned in the first paragraph. Such transverse girders are more difficult to manufacture, but their static performance, i.e., their load capacity relative to the weight of the transverse girder, is very good. The load-bearing capacity is defined primarily by the flange and the tubular pole section. The wall-like member can be made with a relatively small material thickness. The tubular hollow section makes the support structure and the formwork panel fashioned with this support structure easy to work with.
The expression “at least some of the transverse girders” means that either only one transverse girder or several transverse girders or all transverse girders of the formwork panel are configured in the manner referenced in the first paragraph.
The transverse girders can be welded to the two edge girders.
The invention provides for the possibility that the at least one profile girder is an extruded profile made from aluminum. The term “aluminum” as used in this application refers to unalloyed aluminum or for aluminum alloy. Extruded aluminum profiles can be produced comparatively easily and inexpensively. It is possible that the material thickness—seen in the cross-section of the profile girder—is not the same everywhere but can be selected in consideration of a static optimization.
In the support structure according to the invention as disclosed in the previous part of the description, the at least one profile girder may have a finger hole in the member or may have several finger holes over the length of the profile girder. Due to the finger hole or the finger holes, the support structure or the formwork panel fashioned with the support structure can be gripped and handled particularly well with the hands. In order to correctly determine the value of this statement, it is important to bear in mind that support structures or formwork panels made with these—depending on their size—have a considerable weight, the support structures or formwork panels have to be carried on the construction site for certain distances and in many cases the formwork panels have to be brought into an overhead position. With regard to all of these aspects, a high load-bearing capacity per structure weight or formwork panel weight, an aluminum construction and a static optimization of the transverse girders are advantageous.
There is the possibility of making said finger hole, or each of said finger holes, elongated in the longitudinal direction of the profile girder and delimiting it or them on the side adjacent to the hollow section by the hollow section for a large part of its (their) length. In other words, the respective finger hole ends on the relevant side where the hollow section of the transverse member profile begins, or shortly before. In this way, the respective finger hole merges into the outer contour of the hollow section. The workman encounters a situation in which the hand can comfortably and securely grasp a section of the support structure.
The flange of the respective profile girder referenced in the first paragraph can project on one or both sides of the member. It is possible for the flange to have a projection which increases the flange thickness at its projecting end or at its two projecting ends, wherein the projection is pointing forward in the direction of the front of the support structure and/or rearward in the direction of the rear of the support structure. The projection or projections bring additional material into the flange. The flange can therefore be made with a lower width. More than one projection can be provided per flange arm.
In the support structure according to the invention as disclosed in the previous part of the description, the hollow section of the profile girder can be substantially circular in the cross-section. An exact circular shape without “substantially” is possible as well. Other cross-sectional areas of the hollow section are also possible, specifically rectangular or square with rounded corners, triangular with rounded corners and oval with two axes of unequal length.
There are embodiments of the invention as disclosed in the previous part of the description in which the transverse girder profile has the following dimensions:
(a) the member has a thickness in the range 0.8 to 2.5 mm or in the range 0.8 to 2.0 mm, and/or
(b) the member has a height in the range of 50 to 110 mm, and/or
(c) the flange has a width in the range of 15 to 40 mm, and/or
(d) the hollow section, measured outside and perpendicular to the central plane of the member, has a thickness in the range 15 to 30 mm, and/or
(e) the wall thickness of the hollow section is 0.9 to 1.2 times the wall thickness of the member, and/or
(f) the thickness of the flange, if applicable aside from the at least one projection, is 0.7 to 1.2 times the wall thickness of the member.
These dimensions were determined in consideration of their producibility, good material utilization and good shape retention of the respective transverse girder, in particular a girder made of aluminum, when the transverse member was cooling off after its extrusion at an elevated temperature. These dimensions make particular sense if the respective profile girder made from aluminum is extruded.
The edge girders referenced in the first paragraph can be longitudinal edge girders of the support structure, with the support structure being longer in the longitudinal direction of these edge girders than in the transverse direction. The support structure according to the invention may comprise a preferably metallic edge girder (which can be a transverse edge girder) on a second pair of opposite edges, which extends transversely to the two edge girders of the first pair referenced in the first paragraph. If the support structure has transverse-edge girders, the term “transverse girder” referenced in the first paragraph should not include the transverse edge girders but only the transverse intermediate girders. Formwork panels that have a support structure with two longitudinal edge girders and two transverse edge girders are usually called frame formwork panels.
The edge girders of the support structure can be made of aluminum. The edge girders of the support structure can be extruded profiles.
The support structure according to the invention can be used for formwork panels for pouring concrete, in particular floor slab formwork panels. But it can also be used for other formwork, for example for the absorption of the lateral load of an earth slope or for a temporary underpinning of a ceiling structure during repair work.
Another object of the invention is a formwork panel comprising a support structure according to the invention as disclosed in the previous part of the description and a formwork skin attached to the support structure on the front of the support structure. The formwork panel can be a frame formwork panel. The formwork panel can be a ceiling formwork panel.
The invention and more specific embodiments of the invention are explained in more detail below on the basis of exemplary embodiments illustrated in the drawings. The figures show the following:
The support structure shown in
All of said girders 4, 6, 8 are made of aluminum.
If a formwork skin is placed on the drawn support structure 2 on its front side (this is the side farther from the viewer of
The seven transverse girders 8 all have the same configuration as shown in
The profile girder 8 has the following dimensions in the embodiment shown:
It is emphasized that the front surfaces 20 of all flanges 10 of all transverse girders 8 are located in the same plane as the contact surfaces of the longitudinal edge girders 4 and the transverse edge girders 6 so that a formwork skin attached to the support structure 2 is supported evenly by all the girders 4, 6, 8.
The formwork skin may be fastened, for example with rivets, which are fastened to the support structure 2 by the formwork skin and by the areas of the flanges 10 located between the two projections 18. The type of configuration of the projections 18 shown in
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10 2019 107 433.9 | Mar 2019 | DE | national |
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