EP1627978A2 - Formwork element - Google Patents

Abstract

The panel comprises two spaced-apart walls (2,3) made of shuttering material, and at least one open ground region (4). The walls and ground region are made of a bendable panel material, especially expanded metal. Concrete-permeable openings are arranged in the ground region. The walls are connected together by struts made of the panel material. An independent claim is included for a method of manufacturing a shuttering panel.

Description

The invention relates to a formwork element for concrete construction explained in the preamble of claim 1 Art.

Such a formwork element is known from EP 457 167. The known formwork element consists of two wall strips of a formwork material, i. a concrete-containing material, which may be expanded metal in one embodiment. The two wall strips are connected together in parallel and at a distance from one another by a series of transverse bars which extend transversely across the distance between the wall strips. To produce the formwork element, the cross bars are bent at the mutually facing edges of the wall strips, so that, for example, results in a U-shaped cross-section whose vertical legs are formed by the wall strips and whose connecting leg forms the open bottom portion of the formwork element. The open floor area allows concrete, with all its components, to pass unhindered and connect to the underlying structure. On the other hand, although concrete can also be made from the perforated formwork material, i. the expanded metal grid, the walls exiting, but there is a classification instead of. coarser constituents of the concrete (gravel constituents) are retained, while finer constituents of the concrete can pass through and form a rough surface on the outside of the walls, which offers, for example, a good connection to concreting sections to be subsequently cast. However, the known shuttering element is relatively difficult to manufacture, since the alignment of the transverse bars to a predetermined distance and the maintenance of this orientation and the distance during the fixing of the shuttering material strips requires a higher mechanical complexity.

The invention has for its object to provide a simple and inexpensive to produce formwork element.

The object is solved by the features specified in claim 1.

The inventive design a formwork element is created, which is simple and inexpensive to produce. In spite of the fact that the formwork material also extends over the floor area, the concrete permeable openings ensure that concrete with all its constituents can pass through the floor area substantially unhindered, so that there is no segregation of the concrete at the interface of the floor area in the area of the openings coarse constituents take place in the interior and thus a monolithic connection with an extension of the waterway (WU) through the floor area is possible.

Advantageous developments of the invention can be found in the dependent claims.

Thus, the formwork element according to the invention may be provided in a simple manner with a water barrier, which is connected by means of a sloping stiffening support to the bottom area.

Although a number of Aufkantschalungen are already known, which are provided with Wasserperreinrichtungen, such as joint tapes or joint plates, such as EP 789 116 or EP 568 799, but there are the water barriers directly and alone with the ground area or horizontal carrier with the Wall areas connected.

The inclined stiffening support is expediently installed so that the stiffening support and the water barrier device act as a triangular support, causing a stiffening of the entire formwork element, so that the formwork element is stiffened in a way that also easily transported a greater length (up to 10 m) , eg can be lifted by a crane without the formwork element is bent or damaged.

A plug-in and clamp holder for a water barrier device, which consists of a plurality of consecutive bars, on the one hand particularly easy to produce and on the other hand particularly easy to provide with the water barrier device, such as a joint plate or an elastomeric joint tape.

Nevertheless, this holder provides an excellent position assurance for the water barrier device. The plug and clamp holder can be used both in the formwork element according to the invention as well as other, conventional formwork elements or connected directly to the reinforcement.

The formwork element according to the invention can be produced directly on the construction site, wherein in an expanded metal sheet at the later floor forming areas concrete impermeable openings are cut and then or before the walls are bent up.

Fig. 1

eine perspektivische, schematische Darstellung eines ersten Ausführungsbeispiels eines erfindungsgemäßen Schalungselements,

Fig. 2

eine perspektivische, schematische Darstellung eines zweiten Ausführungsbeispiels des erfindungsgemäßen Schalungselements,

Fig. 3

eine perspektivische, schematische Darstellung eines weiteren Ausführungsbeispiels des erfindungsgemäßen Schalungselements,

Fig. 4

eine perspektivische, schematische Darstellung eines Schalungselementes mit einer erfindungsgemäßen Halterung, und

Fig. 5

die Draufsicht auf Fig. 4.

Embodiments of the invention are explained below with reference to the drawings. Show it:

Fig. 1

a perspective, schematic representation of a first embodiment of a formwork element according to the invention,

Fig. 2

a perspective, schematic representation of a second embodiment of the formwork element according to the invention,

Fig. 3

a perspective, schematic representation of another embodiment of the formwork element according to the invention,

Fig. 4

a perspective, schematic representation of a formwork element with a holder according to the invention, and

Fig. 5

the top view of Fig. 4th

1 shows a first embodiment of a formwork element 1 according to the invention. The formwork element 1 is formed as an upright formwork and contains a first wall 2, a second wall 3 and a wall region 2, 3 interconnecting bottom region 4, and an open side opposite the bottom region 4 , The walls 2, 3 and the bottom portion 4 form an elongated, channel-shaped formwork element with a substantially U-shaped Cross-section, wherein the walls 2, 3 are preferably rectangular in shape and extend parallel to each other and substantially perpendicular to the bottom portion 4.

The formwork element 1 was molded as a whole, i. with the walls 2, 3 and the bottom portion 4 made of a bendable sheet material 5, preferably an expanded metal mesh produced. Expanded metal is particularly suitable for the production of the formwork element according to the invention, as it is weldable, provides for a perforated wall and is available in a variety of strengths on the market, so that for any strength requirement, the appropriate expanded metal mesh is available without additional reinforcement, e.g. by bars, is necessary.

For the production of the formwork element 1, a formwork panel is preferably first prepared by the panel material 5, even in the flat state, at the point where later the bottom portion 4 is located, is provided with a plurality of openings 6. The openings 6 are arranged in series and at a distance from each other, so that between the openings 6 webs 4a remain of the sheet material, which connect the later walls 2, 3 together. Furthermore, the openings 6 have a width b, which is smaller than a width B of the bottom portion 4 between the later walls 2, 3, so that between the openings 6 and the later walls 2, 3 in turn webs 4b remain from the sheet material.

To produce the formwork element 1 of the formwork panel according to the invention, the walls 3 along bending edges 7a and 7b out of their planar orientation and in the desired cross-sectional shape, preferably the U-shape, bent, wherein the bending lines 7a, 7b extend outside of the openings 6 ,

For certain applications, the installation of a water barrier device 11 is required, which ensures that at the forming on the open top of the formwork element Arbeitsfuge no water passes.

Fig. 2 shows a first embodiment of a formwork element 10 according to the invention with permanently installed water barrier 11. The water barrier 11 includes in the illustrated embodiment, a conventional joint plate 12 in the form of a metal strip.

The formwork element 10 further includes the walls 2, 3, the bottom portion 4 with the openings 6 and the webs 4a and 4b of the embodiment of FIG. 1, so that these elements need not be explained again.

The water blocking device 11 is arranged in the interior of the formwork element 10 so that the joint plate 12 extends approximately parallel to the walls 2, 3 and at the same distance to both walls 2, 3 and rises vertically on the bottom portion 4 substantially. Held in this position, the water barrier device 11 by a holding device with at least one, preferably two Versteifungsträgem 13 a and 13 b. The stiffening beams 13a, 13b extend obliquely to the bottom region 4, but also run obliquely to the walls 2, 3 and the joint plate 12. Preferably, the stiffening support 13a, 13b with the bottom portion 4 form an angle between 30 and 60 °.

The stiffening beams 13a, 13b are preferably strip-shaped and permeable to all constituents of the concrete, so that they do not hinder the filling of the concrete between the walls 2, 3. The stiffening carriers are preferably so-called D-carriers (single carriers) and consist of bar material. Each stiffening beam 13a, 13b includes a top chord 14a in the form of a metal bar, a bottom chord 14b in the form of a metal bar, and a diagonal 14c in the form of a metal bar connecting top chord 14a and bottom chord 14b. The diagonal 14c is preferably a wave-shaped bent rod, which is connected in its wave troughs and wave crests with each of the upper and the lower chord.

The stiffening carriers are fastened, preferably welded, to the bottom region 4, preferably in the bending edge 7a, 7b, between the bottom region 4 and the walls 2, 3 with their lower flange 14b. With their top flange 14a they are attached to the water barrier device 11, preferably welded. In this way forms the water barrier 11 and the stiffening beams 13a, 13b a triangular support, on the one hand stiffens the walls 2, 3 and the bottom portion 4 and on the other hand ensures a firm and secure position arrangement of the water blocking device 11.

Fig. 3 shows another embodiment of a formwork element 20 according to the invention, which contains the walls 2, 3 and the bottom portion 4 with the openings 6 and the webs 4a, 4b of the embodiment of FIG. 1, so that these parts are not explained again, and which is further provided with a water barrier device 11, which in the present embodiment, a holder 15 for a not shown, commercially available, strip-shaped joint tape made of an elastomeric material or rubber. The holder 15 consists in the illustrated embodiment of a completely concrete permeable steel structure, preferably a metal grid, which has been bent to a channel-shaped receptacle with a V- or U-shaped cross-section. The holder 15 is also approximately centrally disposed between the walls 2, 3 and parallel to these and stands on the bottom portion 4. The holder 15 is again held by the holding device with the stiffening carriers 13a, 13b already described, which are designed and arranged analogously to the exemplary embodiment according to FIG. Also in the formwork element 20, the stiffening beams 13a, 13b welded to the bottom 4 or at the transition from the bottom 4 to the walls 2, 3 along the bending edges 7a, 7b, and with the holder 15.

Also for the embodiments according to FIGS. 2 and 3, the sheet material 5 is first provided with the openings 6 and, if appropriate, cut to the desired size before or after. Before or after the bending of the walls 2 and 3, the water barrier device 11 is installed and welded to the bottom region 4 with the aid of the stiffening supports 13a, 13b.

All embodiments of the formwork element according to the invention can be manufactured in the usual manufacturing sizes. For example, the dimensions of preferred rectangular gutter formwork are 120/120/120 or 150/150/150 or 170/170/170 mm for lengths between 2400 mm, 4800 mm to 7200 mm and even longer (up to 10 m). The stiffening beams are preferably between 60 to 120 mm high, measured between the upper and the lower belt. Other dimensions are conceivable.

4 and 5 show a further embodiment of a formwork element 30 for an upright formwork, which may include the walls 2, 3 and the bottom portion 4 with the openings 6 and the webs 4a, 4b of the embodiment of FIGS. 1 to 3, however may also have another suitable construction. The formwork element 30 includes a modified holding device for a water barrier 11, which may be either an elastomeric joint tape or a joint plate. The holding device is designed as a plug-in and clamping holder 31 and contains a plurality of bars 32. The bars 32 may have the illustrated, round cross-section, but may have any other cross-section. The bars 32 are substantially upright on the floor 4, are arranged in a row one behind the other with a distance a to each other and preferably aligned parallel to each other. The row of rods 32 extends substantially in the middle between the walls 2, 3 and over the required longitudinal extension of the water barrier device 11.

The bars 32 are longer than the height of the walls 2, 3, so that the bars 32 project beyond the walls 2, 3.

The rods 32 are held by a fastening device 33, which in the illustrated embodiment includes two mutually and to the walls 2, 3 parallel, elongated elements 33a and 33b, which are also rods with a round cross-section and rest on the bottom 4 in the illustrated embodiment. The fastener 33 receives the bottom 4 facing first ends of the rods 32, holds them upright and at the predetermined distance a. The opposite second ends of the bars 32 and the space between the bars 32 are exposed. Furthermore, the fastening device 33 can serve to secure the plug-in and clamping bracket 31 on the bottom 4 of the formwork element 30.

Both the rods 32 and the rods 33a, 33b are preferably made of metal, preferably of steel, so that they can be welded together and also with constituents of the base 4 which are likewise made of metal.

The distance a is so matched to the bending ability of the special water barrier device 11, so for example a metal strip or an elastomeric joint tape that the joint tape or the joint plate can be inserted over the second ends and braided by the row of rods 32, so that the Wasserperreinrichtung 11 alternately with the one side and then with the other side of the corresponding rods 32 abuts, as indicated by dashed lines in Figs. 4 and 5. In this case, the water barrier 11 extends from the free ends of the rods 32 to the fastening device 33rd

It is not absolutely necessary that the bars 32 are perpendicular to the floor 4; a tilted arrangement is also possible. Instead of the individual bars shown, each braiding site can also be formed by a group of bars. Also, the braiding pattern of the water barrier device 11 may be changed by the bracket 31 so as to be e.g. alternately with one or the other side abuts two or more rods 32. The fastening device 33 can also be modified, and may, for example, contain only a single elongated element or only a single fastening rod to which the rods are fastened. In the illustrated embodiment with two fastening bars 33a, 33b, however, both a secure positional fixation of the bars 32 and a better stability of the plug-in and clamp holder 31 can be achieved. The holding device 31 with the bars 32 and the fastening device 33 can also be manufactured and used separately from the formwork element, e.g. for differently shaped formwork elements, such as e.g. Wall formwork, or it can be attached directly to the reinforcement.

In a modification of the described and illustrated embodiments, other board materials, such as perforated plate can be used. Reinforcement gratings or the like can be used as stiffening carriers. The size of the openings in the floor area and / or their arrangement can be changed. So For example, it is possible to provide randomly distributed openings in the floor area or to make the openings smaller and more numerous, provided that the openings in the floor area have such a size that neither a segregation of the coarse and fine components of the concrete takes place nor in any other way the extension the waterway would be prevented. In addition, details of the embodiments can be interchanged, so for example, the formwork element of Fig. 4 and 5 be equipped with additional stiffening beams.

Claims (13)

Formwork element for concrete construction, in particular upright formwork, with at least two mutually opposite walls made of formwork material and an at least partially open bottom region, characterized in that the walls (2, 3,) and the bottom region (4) of a bendable sheet material (5) , in particular an expanded metal sheet, are formed, and that in the bottom region (4) concrete permeable openings (6) are provided so that the walls (2, 3) via webs (4a) are connected to each other from the sheet material. Shuttering element according to claim 1, characterized in that between the walls (2, 3) a water barrier device (11) is arranged, which is connected to the bottom region (4) by at least one obliquely to the bottom region (4) extending stiffening support (13a, 13b) , Shuttering element according to claim 2, characterized in that the stiffening support (13a, 13b) and the water barrier device (11) are formed as a triangular support. Shuttering element according to claim 2 or 3, characterized in that the stiffening support (13a, 13b) in the transition (7a, 7b) between the wall (2, 3) and the bottom portion (4) is fixed. Shuttering element according to one of claims 2 to 4, characterized in that the stiffening support (13a, 13b) is designed as a holder for the water barrier device (11). Shuttering element according to one of claims 2 to 5, characterized in that the Wasserperreinrichtung (11) includes a joint tape holder (15) and the stiffening support (13a, 13b) is attached to the joint tape holder (15). Shuttering element according to one of claims 2 to 6, characterized in that on both sides of the water barrier device (11) each have a stiffening support (13a, 13b) is arranged. Shuttering element according to one of claims 1 to 7, characterized in that the openings (6) have a width (b) between the walls (2, 3), which is less than the distance (B) between the walls (2, 3) at the bottom area (4). Shuttering element, in particular according to one of claims 1 to 8, characterized by a plug and clamp holder (31) for a water barrier device (11) containing a plurality of rods (32) in the longitudinal extent of the water barrier device (11) substantially in one Row are aligned, extend transversely to the longitudinal extent, and are arranged so that the holder (31) alternately rests on one and on the opposite side of the water barrier device (11). Shuttering element according to claim 9, characterized in that the rods (32) are held by at least one extending in the direction of the longitudinal extension of the fixing rod (33a, 33b) at a distance from each other. Holding device for a water barrier device, characterized by its design as a plug and clamp holder (31) with a plurality of rods (32), which are held with their one ends by a fastening device (33) at a distance (a) to each other, and with their other free ends for braiding a water barrier (11) of the fastening device (33) wegerstrecken. Shuttering panel for producing a formwork element according to one of claims 1 to 10, characterized by a sheet-like sheet material (5) having a plurality of arranged in a row, concrete-permeable openings (6). A method for producing a formwork element for concrete construction, with at least two mutually opposite walls of shuttering material and an open floor area, characterized in that the walls and the floor area are bent from a flat sheet material, in particular an expanded metal sheet, wherein in the floor area concrete permeable openings are cut so that the walls remain connected to each other via webs of the sheet material.

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