The invention relates to a support structure for a frame formwork panel comprising a support structure and a formwork skin connected to the support structure, the support structure having two longitudinal edge girders and two transverse edge girders.
Support structures with two longitudinal edge girders and two transverse edge girders for frame formwork panels are known in a large number of configurations. In the known support structures, the edge girders mentioned are mostly welded to one another at the four corner regions of the support structure. These welded regions must be able to transmit large forces. Support structures in which oblique struts have been welded in at the corner regions are known as well. However, this is complex in the production process, and the support structures of this type cannot be used as universally as those without oblique struts.
The object of the invention is to provide an improved support structure.
The support structure for a frame formwork panel according to the invention has a support structure and a formwork skin connected to the support structure, the support structure having two longitudinal edge girders and two transverse edge girders. According to the invention, a corner connecting piece which is welded to the two respective edge girders is provided in at least some of the corner regions of the support structure where a longitudinal edge girder and a transverse edge girder come together.
The support structure according to the invention can be used for frame formwork panels for the pouring of concrete, in particular ceiling formwork panels. It can also, however, be used for other formwork such as the absorption of the lateral load of an earth slope or for the temporary underpinning of a ceiling structure during repair work.
The two longitudinal edge girders and the two transverse edge girders of the support structure may be formed from metal only. The longitudinal edge girders and/or the transverse edge girders of the support structure may be extruded profiles made of aluminum. Rolled profiles made of steel or aluminum are possible as well. Profiles made of folded aluminum sheeting or sheet steel are possible as well.
In this application, the term “aluminum” is intended to include both unalloyed aluminum and aluminum alloys.
The support structure according to the invention prefers corner connecting pieces which easily fit into the overall support structure design. It is also possible according to the invention to produce the support structure together with the corner connecting pieces to be welded in a particularly efficient manner.
In the support structure according to the invention, it is possible for the two longitudinal edge girders and the two transverse edge girders to each have, on their rear side, a flange projecting toward the center region of the support structure and for the corner connecting pieces to be welded to the two flanges of the two edge girders coming together at the respective corner of the support structure. This positioning of the respective corner connecting pieces and this welding to the edge girder flanges results in a very stable corner connection, simply formed corner connecting pieces and welds which are favorable in terms of production. The respective corner connecting piece can rest either on the front sides facing the formwork skin side of the support structure or on the rear sides of the two flanges of the two respective edge girders facing away from the formwork skin side of the support structure.
The corner connecting pieces to be welded can each be a metal piece, which can preferably be positioned substantially parallel to the front of the support structure and/or the formwork skin. In one embodiment, the metal piece is formed with two legs that are perpendicular to one another or that substantially consists of two legs that are perpendicular to one another.
In the support structure according to the invention as disclosed in the previous part of the description, there is the possibility that in at least some of the corners of the support structure, at least one of the flanges of the two edge girders coming together there has a recess which can be welded to the corner connecting piece there. The recess may be located at an edge of the respective flange. The recess may be located on a miter surface of the respective flange. The embodiments described in this paragraph create a good basis for welding the two edge girder ends coming together in the rear region of the edge girders in a manner that is simple in terms of production.
In the support structure according to the invention, in particular as it has been disclosed in the previous part of the description, there is the possibility with at least one of the four edge girders, preferably with the two longitudinal edge girders, that at least one positioning piece is provided at a point located between the two ends of this edge girder, which is welded to this edge girder and that is provided to improve the possibility of attaching a formwork prop there. In cases where the respective edge girder has a flange as mentioned above, the at least one positioning piece may be welded to this flange. The positioning piece may be an angled component, which makes it easier to weld it to the respective edge girder.
In the support structure according to the invention as disclosed in the previous part of the description, there is the possibility that in at least one of the following welded connection positions
a) a welded connection between the longitudinal edge girder and the corner connecting piece;
b) a welded connection between the transverse edge girder and the corner connecting piece;
c) a welded connection in the region of the miter surfaces of two edge girders coming together there,
a welded connection is configured as a plug weld connection or as a recess weld at least once.
According to the invention, it is possible in the case of the plug weld connection position(s) a) and b) that the plug weld connection is formed with a hole in the flange of the respective edge girder. The at least one plug weld connection can be formed with an elongated hole.
The hole or elongated hole required for creating the plug weld connection and/or the elongated plug weld connection can be provided in the region of the remaining support structure to which part the respective corner connecting piece or the respective positioning piece is to be welded. The hole or the elongated hole may be formed in the flange of the respective edge girder referenced above.
In the support structure according to the invention as disclosed in the previous part of the description, at least one of the corner connecting pieces and/or possibly at least one of the positioning pieces may each have at least one positioning lug to facilitate the attachment of a formwork prop there. At least one of the corner connecting pieces may have three positioning lugs, one each in the region of a leg of the corner connecting piece and one in the interior angle region of the two legs of the corner connecting piece. The positioning lugs make it easier to position a formwork prop there because they identify a specific attachment position for the region of engagement of the prop head.
In the support structure according to the invention as disclosed in the previous part of the description, there is the possibility of forming at least one of the corner connecting pieces and/or possibly at least one of the positioning pieces in such a way that it is positioned, possibly with the exception of its at least one positioning lug, behind the flange of the respective edge girder mentioned above or behind the flanges of the respective two edge girders mentioned above when facing the rear of the support structure as a whole. As a result, the support structure can be used and operated in the same way as if there were no corner connecting pieces and no positioning pieces.
At this point, it is pointed out that the corner connecting pieces welded to the edge girders provide a very welcome multi-functionality in a very simple manner. They allow for an extremely stable connection of the edge girders of the support structure at the corners of the support structure, they reinforce the support structure in the corner regions and they provide a positioning aid when attaching a prop head of a formwork prop.
The support structure according to the invention as disclosed in the previous part of the application may furthermore have transverse intermediate girders which run parallel to the transverse edge girders and extend from the longitudinal edge girders to the longitudinal edge girders. The transverse intermediate girders may each be welded to the two longitudinal edge girders.
Another object of the invention is a frame formwork panel that comprises a support structure as disclosed in the previous part of the description and a formwork skin connected to the support structure at the front of the support structure. The advantages of the support structure according to the invention described are then provided by the frame formwork panel.
Another object of the invention is a method for producing a support structure as disclosed in the previous part of the description,
characterized in that the longitudinal edge girders, the transverse edge girders, and the at least one corner connecting piece to be welded are placed in a welding device; and that the welded connections between the edge girders and the welded connections between said corner connecting pieces and the edge girders are fashioned from the rear of the support structure.
It may be provided in the method according to the invention that at least some of the welded connections are fashioned by a respective flange hole or through a respective flange recess.
If the support structure to be produced has transverse intermediate girders, these can also be inserted into the welding device. The longitudinal edge girders can be welded before or simultaneously with or after the corner connecting pieces are welded.
In the method, the longitudinal edge girders, the transverse edge girders and the at least one corner connecting piece to be welded can each be inserted into the welding device with their “rear side up” and then welded comfortably from above. One option is to place the corner connecting pieces to be welded in the welding device, place the four edge girders lying on these corner connecting pieces “rear side up” in the welding device, and then weld these corner connecting pieces and the edge girders together from above. It is also possible, however, to reverse the order, i.e., first insert the edge girders into the welding device “rear side up,” insert the corner connecting pieces to be welded at the respective corner regions into a space between the front sides of the aforementioned flanges of the edge girder and a contact surface for the respective corner connecting piece, and then perform the welding. At the same time the corner connecting pieces are welded; the welds on the flange miter surfaces referenced above are fashioned as well. The same applies, if necessary, to the welding of the positioning pieces. At a reasonable point in time, transverse intermediate girders of the support structure, which run parallel to the transverse edge girders and extend from one longitudinal edge girder to the next, may be inserted into the welding device and welded to the longitudinal edge girders.
The welding device is designed in such a way that it has support surfaces and stops so that all inserted parts are in a safe, positionally accurate position for the gas welding process.
The welds can be carried out in the welding device in an automated manner, for example with welding robot(s). The components of the support structure can also be inserted into the welding device at least in part by means of an insertion robot.
Another object of the invention is a support structure for a frame formwork panel, which can be produced by the method according to the invention.
The invention and more specific embodiments of the invention are explained in more detail below on the basis of an exemplary embodiment shown in the drawings. The figures show the following:
The support structure 2 shown in
It can be seen that the longitudinal edge girders 4 and the transverse edge girders 6 each have, at the rear end, a flange 5 and/or 7 projecting towards the center region of the support structure 2.
The positioning piece 12 shown in
Recesses, preferably edge recesses, can be provided in the flanges 5 and 7 instead of the elongated holes 38. Then it is possible to weld in the space formed by the respective recess up to the corner connecting piece 10.
In the illustrated embodiment, the two positioning pieces 12 are not welded to the respective longitudinal edge girder 4 by means of a plug weld. Instead, there is a weld seam on the longitudinal edge 48 of the second leg 46 of the positioning piece 24, which lies against the member 18 of the respective longitudinal edge girder 4 and this member 18.
To carry out the welds between the edge girders 4 and/or 6 and the corner connecting pieces 10, the edge girders 4 and 6 and the corner connecting pieces 10 are inserted in a welding device “rear side up” in the correct position. To this purpose, one option is to insert the corner connecting pieces 10 first and to then position the edge girders 4 and 6 above them. Another option is to first insert the edge girders 4 and 6 “rear side up” and to then insert the corner connecting pieces 10 (rear side up) below the front sides of the flanges 5 and/or 7, with the welding device providing support surfaces for the front sides of the corner connecting pieces 10. The welds described can then be carried out on the one hand between the legs 14 of the corner connecting pieces 10 and the flanges 5 and/or 7 of the edge girders 4 and 6 and on the other hand between the end of the respective flange 5 and/or 7 with the recess 42 and the corner region of the corner connecting piece 10. The welds referenced can be conveniently carried out from above from the rear of the support structure 2. The support structure 2 does not have to be repositioned or turned for these welds.
Number | Date | Country | Kind |
---|---|---|---|
10 2019 107 436.3 | Mar 2019 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
484293 | Butcher | Oct 1892 | A |
2049925 | Rafter | Aug 1936 | A |
2101349 | Sharp | Dec 1937 | A |
2336253 | William | Dec 1943 | A |
2703159 | Fleet | Mar 1955 | A |
2767814 | Johnson | Oct 1956 | A |
2801454 | Troiel | Aug 1957 | A |
3357673 | Williams | Dec 1967 | A |
3912407 | Heininger | Oct 1975 | A |
3914062 | Heininger | Oct 1975 | A |
4105352 | Holdiman | Aug 1978 | A |
4513554 | Johnson | Apr 1985 | A |
5092093 | Lu | Mar 1992 | A |
5870868 | Kita | Feb 1999 | A |
6032980 | Rapp | Mar 2000 | A |
6108997 | Blais | Aug 2000 | A |
20020117598 | Ward | Aug 2002 | A1 |
20060157636 | Bogensberger | Jul 2006 | A1 |
20160319558 | Lee | Nov 2016 | A1 |
20170022724 | Laures | Jan 2017 | A1 |
20190383041 | McCracken | Dec 2019 | A1 |
Number | Date | Country |
---|---|---|
1135780 | Nov 1996 | CN |
101120146 | Feb 2008 | CN |
102667030 | Sep 2012 | CN |
207920061 | Sep 2018 | CN |
8814302 | Jun 1989 | DE |
4412753 | Oct 1995 | DE |
10037193 | Sep 2001 | DE |
102015223764 | Jun 2017 | DE |
0381000 | Aug 1990 | EP |
0735212 | Oct 1996 | EP |
1990483 | Nov 2008 | EP |
1591300 | Jun 1981 | GB |
05280127 | Oct 1993 | JP |
07247678 | Sep 1995 | JP |
H1029060 | Feb 1998 | JP |
2017093221 | Jun 2017 | WO |
Number | Date | Country | |
---|---|---|---|
20200332538 A1 | Oct 2020 | US |