AT513425B1 - Chalkboard with plastic shell - Google Patents

Abstract

The invention relates to a formwork panel, also called formwork element, with a plastic formwork and a metal existing support structure for the formwork. Supporting elements of the support structure on the one hand have a hat profile and on the other hand, a hollow profile. Such a control panel is able to cope with high loads without having to be excessively heavy.

Description

description

SHIELD WITH PLASTIC SHELLHAUT

The invention relates to a formwork panel, also called formwork element, with a plastic formwork and a metal consisting Stützungskonstrukti-on for the formwork.

A formwork panel according to the present invention is used in the formwork technology for concrete structures, so for concreting concrete or reinforced concrete structures and in particular for the production of walls and ceilings. A wall panel is used to make walls, pillars, foundations, manholes or the like. A wall panel can also be used for making ceilings. There are also formwork panels that serve exclusively for the production of ceilings, However, a wall formwork requires because of the often meter high column of flowable concrete a much stronger design than a slab formwork. The invention therefore particularly relates to a wall formwork and no slab formwork.

A formwork panel comprises on the front side facing the concrete facing and on the back of a support structure for the formwork with supporting elements such as frame, side member and cross bar. The two sides of a wall to be concreted are bounded by a plurality of wall panels. The trained as a formwork facing outside of each wall panel then adjoins the concrete. Opposing wall panels are basically held by a plurality of anchor rods, The anchor rods are thereby through openings - "anchor holes". or "anchor hole drilling " called - plugged through in the wall panels and attached at their ends to the respective formwork supporting elements so that at least the pulling force acting on the anchor rods during concreting is absorbed.

When anchoring a wall panel different requirements are placed on the wall panel to absorb the resulting from the filling of a liquid concrete loads - also called concrete pressure - in the wall panel. Conventional wall panels have typically arranged at the edge anchor holes, Accordingly, an edge recorded in the Wandschaltafel anchor rod can be used to simultaneously detect an immediately adjacent Wandschaltafel so as to allow a common attachment of wall panels side by side, The unused anchor holes must therefore tight be closed to prevent leakage of the concrete from the gap formed by oppositely arranged wall panels. If a wall panel is used for the production of a ceiling, then all anchor holes must be tightly closed, a formwork panel, which is used exclusively for the production of ceilings, has no anchor holes.

From the document DE 10 2006 057 007 A1, a formwork element, ie a formwork panel, for a construction of concrete components is known which comprises a formwork skin and a support structure, supporting elements of the support structure have a hat profile with outwardly extending strips on which a formwork is attached. The publication DE 10 2006 057 007 A1 discloses that shuttering elements may be partially made of wood. Usually, the formwork skin comprises or comprises wood or a wood material.

A formwork panel with a support structure for a formwork made of plastic formwork with supporting elements with hat profiles is apparent from the document AT 10 946 U1.

Hat profiles are mechanically less resilient compared to hollow profiles. A control panel therefore usually has no supporting elements with hat profile.

The document DE 09410525 A1 discloses formwork elements with a formwork skin, which comprises a base layer of wood or metal and a plastic covering layer. Each formwork element has a support structure of steel components.

From the document DE 4430116 A1 shuttering elements for the production of ceilings and walls are known which comprise a plastic formwork facing.

The document DE 38 04 506 A1 relates to a formwork panel for the construction of concrete structures, which has a frame and serving as a formwork skin plate made of plastic, this plate is provided on the back with stiffening elements, which is a bending of the relatively easily bendable plastic plate counteract. In this way, the properties of plastic desired for concreting should be exploited, namely not to swell or distort under the influence of moisture, without having to accept from the relatively low modulus of elasticity, also known as modulus, resulting from plastic disadvantages ,

The relatively low modulus of elasticity of plastic requires an increased support effort by supporting elements of a support structure to accommodate the concrete pressure during concreting can. Since supporting elements are basically made of metal, the required increased support effort initially has an increased weight, especially in comparison to such panels resulting in a formwork skin of a wood material. Although correspondingly extensive fiber-reinforced plastics with a higher modulus of elasticity could be used, but this increases the manufacturing cost considerably.

It is an object of the invention to develop a wall panel for concrete buildings on.

The object of the invention is achieved by a formwork panel with the features of claim 1. Advantageous embodiments emerge from the subclaims.

To solve the problem, a control panel is provided which has a plastic formwork and existing one of metal, especially steel, existing support structure. Supporting elements of the support structure have an open profile comprising a hat profile in order to compensate for the low modulus of elasticity of plastic material with little cost. At least one strip of such an open profile is applied to the back of the formwork for immediate support. The outwardly extending strips of the hat profile are therefore to optimize the support on the formwork on. In addition, there are supporting elements with a hollow profile, so a closed profile in order to ensure the required mechanical stability of the support structure. Supporting elements of the support structure thus have on the one hand an open profile such as hat profile and on the other hand a hollow profile such as a rectangular profile.

It is thus possible to use a plastic formwork facing with an E-modulus of less than 4000 N / mm2. Such formwork panels do not require much manufacturing effort. It can be obtained as a panel that does not have excessively large weight, which is equal to the mechanical loads and realized due to the material plastic the aforementioned advantages over such panels that consist wholly or partly of a wood material. However, the advantages achieved by the support structure also apply to such Schalhäute that do not or not completely made of plastic, ie in particular wholly or partly from a wood material. Although it has proven to be advantageous to reinforce the formwork with fibers, such as glass fibers. But it is sufficient to reinforce only thin layers within the formwork with fibers. It is therefore not necessary to strengthen the formwork with fibers in such a way that an E - modulus of significantly more than 4000 N / mm2 is achieved.

Experiments have shown that the following parameters - by themselves, but especially in combination - show particularly good results: Preferably, the E-modulus, in particular the bending modulus of the formwork skin in the range of 2900 - 3500th N / mm2.

Furthermore, there is preferably a higher E - module or bending - E module in the longitudinal direction than in the transverse direction, for. B. this is 8-15% higher in the longitudinal direction than in the transverse direction. Preferably, a laminate forms the formwork skin, which is preferably constructed as follows: concrete-side film, cover layer, core, cover layer, film. Furthermore, the formwork can have a thickness of 14.5-1.5.5 mm, preferably 14.9-15.3 mm. Preferably, the formwork panel has a strength of about 1.5 to EN 438-2 and / or a basis weight of 8.0 - 8.4 kg / m2.

Longitudinal and transverse directions in the sense of the invention here mean the axes of a field between the support structure, in which the formwork skin can basically bend. In the case of formwork panels, a uniaxial load condition prevails, since the field has different expansions in the two axes. Whose field, e.g. 30 cm high and 120 cm wide, the board carries almost uniaxial over the 30 cm height. Thus, a higher load capacity is desired here. The longitudinal direction here is thus a direction parallel to the narrow side of a field. In the case of plastic shell skins, the different bending E modulus can be set in the longitudinal and transverse directions by selecting and aligning the reinforcing fibers, which benefits the invention.

The number of supporting elements with open profile such as hat profile is greater than the number of supporting elements with hollow profile. In this way, it is further improved that a mechanically sufficiently stable control panel can be provided, which does not have an excessively high weight, and in which nevertheless the formwork skin can be made of plastic with a low modulus of less than 4000 N / mm 2.

Anchor holes lead through supporting elements with closed hollow profile. Such a control panel can be used as a wall panel. It is exploited that the supporting elements, which have a hollow profile, are mechanically very stable. This helps to minimize the cost of materials for the support structure, especially to avoid excessive weight. Preferably, therefore, supporting elements with a hollow profile, pass through the Ankerlockbohrungen, designed to be particularly stable and therefore, for example, have a greater wall thickness than the other supporting elements.

Edge profiles of the support structure, which form the outer frame, are designed as a hollow profile and preferably all edge profiles. Further improved, the desired result is thus achieved, ie to provide a mechanically stable support structure which does not have an excessively large weight and nevertheless allows the use of a plastic formwork facing with a low modulus of elasticity. It is therefore not necessary to use, for example, an extensively fiber-reinforced plastic sheet as a formwork skin, which may have a relatively high modulus of elasticity. Such edge profiles preferably also have at least predominantly a rectangular shape in section. However, these preferably include recesses on longitudinal sides, for example, in order to be able to clasp the supporting elements of two different mechanical-connection panels. Edge profiles preferably comprise extensions which laterally adjoin the formwork skin and thus protect it against damage.

In an advantageous embodiment of the invention, supporting elements with hollow profile extend from one edge to an opposite edge of the formwork panel, preferably one to five, more preferably one to three supporting elements with hollow profile, wherein edge profiles are not counted. Perpendicular to this, supporting elements with hat profile extend from one edge to an opposite edge, preferably 5 to 30, preferably 10 to 20. In the case of a double-hat profile, this is counted twice. It is further improved to provide a support structure of relatively low weight for a low E modulus skin adapted to withstand the loads encountered.

Supporting elements that abut each other and intersect, for example, are basically firmly connected to each other, so welded together, for example. As a result, the mechanical stability is further improved.

In an advantageous embodiment of the invention, the distance of a central supporting frame member to an adjacent, parallel supporting element with hollow profile, which is not a frame member, at least approximately half as large as the distance between this non-edge arranged supporting element with hollow profile and an adjacent thereto supporting central element with a hollow profile, which also not arranged at the edge, so no frame member is. This arrangement allows a particularly favorable load distribution and in particular for the case that anchor hole bores pass through the middle supporting elements with hollow profile, which are not arranged at the edge and thus are not part of the frame of the support structure. The non-edge-side supporting elements with a hollow profile in particular comprise one or more anchor hole bores. The supporting frame members are then preferably not provided with anchor hole bores. The desired result can be achieved so further improved.

In an advantageous embodiment of the invention, the width of not supported by supporting elements directly back of the formwork skin between two supporting elements with hat profile not more than 30 cm, advantageously not more than 25 cm. This distance ensures that a formwork skin with a low modulus of elasticity is adequately supported in order to cope with the mechanical loads.

In an advantageous embodiment of the invention, the width of the not directly supported surface between two supporting elements with hat profile at least 10 cm, advantageously at least 15 cm. This minimum distance ensures that the support structure does not include an excessive number of supporting elements with hat profile, which would lead to a high weight. Advantageously, however, are excluded from such supporting elements, which are arranged at the height of anchor hole bores. Instead, supporting elements with a hat profile are advantageously provided in pairs or as a double-hat profile in order to additionally stabilize particularly stressed areas around anchor hole bores. Advantageously, then two mutually adjacent supporting elements are provided with a hat profile, which are arranged at the height of Ankerlochbohrungen. As a result, the formwork is particularly well supported directly adjacent especially anchor hole drilling, which further contributes to the desired result. Instead of an open profile such as a Doppelhutprofil but also a closed profile can be provided so as to reinforce the area around anchor holes in addition. However, it is a less preferred embodiment.

Advantageously, the distance between two supporting elements with hat profile 25-35 cm, particularly advantageous 28-32 cm, in particular 30 cm. As a result, it is further improved to be able to use a plastic formwork panel with a low modulus of elasticity without making the weight of the panel excessively high.

Advantageously, the height of a control panel is an integer multiple of the distance between two supporting elements with hat profile. This refers to such supporting elements with hat profile, which are spatially separated from other supporting elements with hat profile. This does not apply to the case that supporting elements with hat profile are designed directly adjacent to each other or as a double hat profile.

In an advantageous embodiment of the invention, the formwork is multi-layered. This comprises a relatively thick, made of plastic middle layer, which consists for example of polypropylene. In addition, the formlining in each case comprises a very thin film on both sides of the middle layer, which preferably consists of polypropylene.

In an advantageous embodiment of the invention is located between the aforementioned middle layer and each film still made of plastic, thin intermediate layer, so as to provide a formwork with desired properties, which is able to cope with mechanical stresses in combination with the support structure. The intermediate layers are thinner than the middle layer, but thicker than the films. The intermediate layers may also consist of polypropylene. Preferably, the intermediate layers are fiber-reinforced, but not the other layers, in order to keep the gain low.

In one embodiment of the invention, the formwork skin is 10-20 mm thick, advantageously 12-18 mm, to provide a formwork skin, which consists of plastic and which is able to cope with the mechanical stresses in combination with the support structures according to the invention.

Preferably, the formwork skin is such that its modulus of elasticity is at least 2500 N / mm 2, preferably at least 2900 N / mm 2, in order to be sufficiently able to cope with the mechanical stresses.

A particularly favorable load application and support the formwork is obtained when adjacent supporting elements are provided with hat profile. The skilled person would normally be inclined to distribute these as evenly as possible to support the formwork. Here, however, by simultaneous use of free-standing and adjacently arranged supporting elements, the object of the invention at high plates (from 3.00 to 3.60 meters) or high formwork (from 3.60 meters) solved. Adjacent are the hat profiles, if they have between 0 and 10 mm distance. A double hat profile is expressly used as a substitute.

A particularly favorable force connection between anchor rods and formwork panel then takes place when passing through the supporting elements with closed hollow profile anchoring holes are arranged at a height between adjacent supporting elements with the hat profile, in particular centrally therebetween. Again, a double hat profile is explicitly considered as a means of exchange.

Advantageously, the dash panel anchor holes, which are arranged so that the distance of the edge arranged anchor holes to the outer, in the erected state vertically and / or horizontally extending boundary of the wall panel corresponds to half the grid spacing or at least substantially half of the grid spacing. Such wall panels can withstand the concrete pressure occurring further improved without having to provide for an excessively high number of anchors.

Advantageously, anchor holes are distributed so that more anchor points are arranged in one half of the formwork panel than in the other half. Such a formwork panel is designed and suitable for setting it up in such a way that there are more anchor points in relation to the horizontal central axis in the upper area of the formwork panel than in the lower area. Such a designed acoustic panel can be combined with switchboards lesser height without having to use an excessive number of anchors for the production of a wall formwork. The height of this panel is in particular 3.60 m. This can be combined as described above all with formwork panels whose height is 3 m, without having to increase the number of required anchors compared to the case that only 3 m high formwork panels are used for the production of up to 3 m high wall ,

Basically, the said in relation to the hat profile said in the same way for other open profiles with L-shape. However, a hat profile leads to even better results compared to other open profiles with L-shape.

The invention will be explained in more detail below with reference to exemplary embodiments. FIG. 1 wall panel seen from the front in a plan view of the formwork skin, FIG. 2 seen from the rear in plan view of the support structure, FIG. 3 sectional view of the wall panel, [0041] FIG. 4 Sectional view through formwork skin, FIG. 5 Section through profiles.

6 to 9: Formwork facing with profiles with dimensions [0044] The formwork panel 1 shown in FIG. 1 has a formwork skin 6 made of plastic on the front side shown. Anchor holes 2, 3, 4, 5 are arranged in pairs distributed over the height 10 of the formwork panel 1, wherein the upper half 8 of the wall formwork 1 more anchor holes 4, 5 than the lower half 9. The distribution of the anchor holes 2, 3, 4th 5 is such that, depending on loads occurring, anchor holes are selected for anchoring in order to minimize the number of anchor systems required. Unused anchor holes are then closed by plugs.

In the case of Figure 1, the anchor holes 2, 3, 4, 5 are arranged in pairs along two vertical axes. The distance 16 between the two verticals and thus the distance 15 between the anchor hole pairs is twice as large as the distance 12 of each vertical to the adjacent, vertically extending lateral edge 14 of the control panel. 1

The wall formwork 1 further has two uppermost anchor holes 5 in the upper region 8 and two lowermost anchor holes 2 in the lower region 9 of the formwork panel 1, the distance between the uppermost anchor holes. 5 and the central anchor holes 3 is equal to the distance between the lowest anchor holes 2 and the middle anchor holes 3, which are located at the level of the horizontal center plane 7.

The vertical distance 16 between two adjacent anchor hole pairs 2, 3, 5 is twice as large as the distance 12 from the upper edge 13 to the uppermost anchor holes 5 and from the lower edge 15 to the lowermost anchor holes. 2

At high concrete load for the production of walls whose height exceeds the height of the uppermost anchor holes 5, only the anchor holes 2, 3 and 5 are preferably used for anchoring. The formwork skin 6 is thus loaded relatively evenly. The uniform load contributes to the fact that the formwork skin can be made of plastic with a small modulus of elasticity. It can also be minimized so the number of anchors required for assembly.

As an additional anchor point in the upper region 8 of the wall formwork 3, two further anchor holes 4 are provided between the two uppermost anchor holes 5 and the two middle anchor holes. The height distance of the additional anchor holes 4 to the vertically adjacent anchor holes 3 and 5 is equal and thus equal to the distance 12, These additional anchor holes 4 are thus provided in the middle between the anchor holes 5 and 3. The additional anchor holes 4 in the upper area 8 of the wall formwork 1 are optionally used, namely at low concrete load for the production of walls with a height which is less than the height of the uppermost anchor holes 5. For example, be the switchboard 3 shown in Figure 1, 60 m high, Then the top anchor holes are at a height of 3 m. If now a wall is made with a height of, for example, 3 m, then only the anchor holes 2 and 4 are used for anchoring. The middle anchor holes 3 are then closed with a plug. Thus, with sufficiently low concrete load only four anchors are used to provide a wall formwork for concreting, so the number of anchors used can be adapted to the actual needs. The fewer anchors are used, the faster it is possible to assemble and disassemble. If this wall formwork produces a wall 3.60 m high, the concrete pressure is still low enough to use only anchor holes 2 and 4 for anchoring. The middle anchor holes 3 and the uppermost anchor holes 5 are then closed with a stopper. If higher walls are produced and for which formwork panels are also mounted one above the other, in order to reach heights greater than 3.60 m, the anchor holes 2, 3 and 5 are used for anchoring. The anchor holes 4 are closed with a stopper.

The 3.60 m high formwork panel according to the embodiment can withstand concrete loads of up to 100KN / m2, although made of plastic existing Schalhäute be used and the weight of the support structure corresponds to the weight of conventional support structures in such large-sized formwork panels.

The control panel shown in Figure 1 can be particularly combined with such switchboards, which are half as wide, so the width of which corresponds to the distance 16, and then have only one anchor hole along the width. The height of the anchor holes of this half as wide board are arranged in an analogous manner. Thus, there is a lowermost anchor hole 2, a middle anchor hole 3, an uppermost anchor hole 5 and an anchor hole 4, which is arranged centrally between the uppermost anchor hole 5 and the middle anchor hole 6. For the respective edge, the anchor holes then in turn at a distance corresponding to the distance twelve. The invention therefore particularly also relates to a system of wall panels which are written as described in this paragraph and as shown in FIG.

As an alternative or in addition to one or two of the formwork panels described by way of example, the system of switchboards comprises at least one switchboard that is as high as the height of the topmost anchor holes 5. This switchboard has anchor holes at the level of the lowest anchor holes 2 and the additional anchor holes 4 on. In principle, no further anchor holes are available. Incidentally, the anchor holes are arranged as described. Along the height as described a pairwise arrangement is possible. Thus, the width of the panel corresponds to the width of the panel shown in FIG. If there is only one anchor hole along the height, then the control panel is half as wide as the control panel shown in FIG.

A system according to the invention therefore comprises at least two of the four types of switchboard described. This system has the advantage that formwork skins are particularly evenly loaded and also the number of anchors needed to the needs can be adjusted so that the number of anchors required for assembly and disassembly can be minimized. The system then also includes, in particular, plugs with which unused anchor holes can be closed.

In the figure 2, the control panel 1 of Figure 1 is shown from the back. FIG. 2 shows a support structure made of metal with four supporting frame elements 17 arranged at the edge, in particular a frame, two vertical supporting elements 18 and a plurality of horizontally extending supporting elements 19, 20 and 21. The horizontally extending supporting elements 19, 20, 21 of the metal support structure have a hat profile. The outwardly extending strips 22 of the hat profile adjoin the formwork skin 6 and thus provide a small width 24 of a not directly supported formwork surface 1. The strips 23 are attached by means of screws or rivets 23 to the back of the formwork 6. All support elements 17 arranged at the edge are formed by hollow profiles which are at least approximately rectangular. The moreover vertically extending support elements 18 extending from the lower support member 17 at the edge 15 to the upper support member 17 at the edge 13 are also formed by hollow profiles in order to ensure the required mechanical stability of the support structure can. All of the horizontally extending support members 19, 20, 21 extending from one support member 17 at the edge 14 to the opposite support member 17 at the opposite edge 14 (unless interrupted by vertically extending support members 18) formed by a hat profile with outwardly facing strips 22.

It is thus possible to use a plastic formwork facing 6 with an E-modulus of less than 4000 N / mm2. The illustrated support structure causes the total weight of the panel to reach the total weight of a conventional panel having a formwork panel made of a wood material.

The number of supporting elements 19, 20, and 21 with hat profile is substantially greater than the number of supporting elements 17 and 18 with a hollow profile. This refinement achieves a further improvement in that a mechanically sufficiently stable control panel can be provided which does not have an excessively high weight and in which the plastic facing skin with a low modulus of elasticity of less than 4000 N / mm 2 can still exist.

In the embodiment shown, there are a total of fifteen supporting elements 19, 20, 21 with hat profile, which extend over the entire width of the control panel. There are a total of four supporting elements 17, 18 which extend over the entire height of the dash panel and which are formed by a hollow profile. In addition, there are two horizontally extending supporting elements 17 arranged peripherally and therefore part of the frame of the support structure.

The anchor hole bores 2, 3, 4, 5 pass through supporting elements 18 with a hollow profile. The hollow profile is a rectangular profile or at least approximately a rectangular profile. As shown, these hollow sections are significantly wider than the hollow sections of the supporting elements 17 and are approximately twice as wide as the supporting elements 18 must absorb the load introduced into tie rods during concreting.

The distance between a vertically extending frame member 17 to an adjacent, parallel extending support member 18 with a hollow profile is approximately half the size of the distance between the two non-edge arranged supporting elements 18 with a hollow profile.

The width 24 of the not directly supported by supporting elements formwork surface 1 between two supporting elements 19 with hat profile is about 20 to 25 cm depending on the width of the hat profile.

The height of the formwork panel is an integer multiple of the distance between two supporting elements 19 with hat profile, so as to further optimize the support with minimal material cost, the height of the formwork panel is in the exemplary embodiment 3.60 m. The distance between two supporting elements 19 with hat profile is then 30 cm.

The supporting elements 19 are spatially separated from other supporting elements 19, 20, 21 arranged with hat profile. The supporting elements 20 and 21 adjoin one another and are therefore arranged in pairs. These are located as shown in each case at the level of anchor holes 2, 3, 4, 5 and therefore contribute to the stabilization of the particularly loaded area around anchor holes around. An anchor hole 2, 3, 4, 5 is preferably arranged centrally between two adjacent supporting elements 20, 21 with hat profile.

The support structure may comprise further supporting elements 25, which are preferably formed by a hat profile and which extend between two supporting elements 19, 20, 21 with hat profile.

In the figure 4, a formwork panel is shown in section.

The formwork skin 6 is multi-layered and comprises a relatively thick, made of plastic middle layer (core) 28. On the two outer sides of a plastic thin film 26 is present. Between the middle layer 28 and each film 26 there is in each case an intermediate layer (cover layer) 27 consisting of plastic, so as to provide a formwork skin 6 with desired properties. One or both intermediate layers are preferably fiber-reinforced. The formwork skin is approx. 14 to 16 mm thick and its modulus of elasticity is between 2500 and 3500 N / mm2.

In the figure 5 alternatives to a hat profile 31 are shown, which are also open profiles comprising an L - form. A pure L-shape 30 or even a U-shape 32 is suitable. In all cases, a strip 22 or 33, ie one leg in cross-section, of the respective open profile comprises an L-shape on the rear side of the formlining 6, to support them with the bar 22, 33 directly. With such an open profile, a relatively large amount of material is provided in comparison to a closed profile in order to support the formwork skin 6 directly by means of an adjoining strip 22, 33. Although such profiles are basically mechanically unstable compared to a closed profile. Overall, however, the combination of open and closed profiles means that, with a comparable weight, shell skins are more suitably stabilized. This teaching also applies to formwork skins that are not made of plastic, but include, for example, a wood material or a wood material. It has been found that the best results are achieved with a hat profile.

FIG. 5 also shows a closed hollow profile, namely a rectangular profile 34. Also this profile is with a bar or seen in section a leg 33 for the purpose of immediate support on the back of the formwork 6 on.

Various profiles are shown in section in FIGS. 6-9. In addition, particularly preferred distances are given in these figures. Thus, the free distance according to FIG. 6, ie the distance or width 24 (see FIG. 2) of a not directly supported surface of the formwork skin 6, preferably between two hat profiles 19 200 mm and the distance between these two hat profiles 19 is preferably 300 mm , The distance between two adjacent hat profiles 20 and 21 is preferably 3 mm according to FIG. Alternatively, it may be a double hat profile 35, as shown in FIG. In both cases, the free distance to an adjacent hat profile 19 is preferably 148.5 mm.

The free distance, ie the width of the not directly supported back of the formwork skin 6 is according to Figure 9 between an edge profile 17 and an adjacent hat profile 19 preferably 190 mm. The edge profile 17 knows only approximately a rectangular shape. The hat profile 19 is preferably 30 mm, as shown in FIG. 9, away from the adjacent edge of the dash panel. Notwithstanding a rectangular shape, there is the profile of the edge element 17, a recess 37 and an extension 36 which is adjacent to the side of the formwork skin 6 to protect this formwork skin 6 laterally from damage and hold.

The wall thickness of a hat profile 19, 20, 21 is preferably 2 to 4 mm, more preferably 3 mm, strips 22 of a hat profile 19, 20, 21 are preferably 30 to 36 mm, particularly preferably 33 mm wide. The distance between the two strips 22 is preferably 35 to 45 mm, particularly preferably 40 mm. A hat profile 19, 20, 21 is preferably 110 mm to 140 mm high, particularly preferably 125 mm high, this information applies analogously to a double hat profile 35th

E in middle hollow section 18 preferably has a material cover, that is to say a wall thickness of 3-6 mm, particularly preferably 4.5 mm. It is preferably 110 mm to 140 mm high, more preferably 125 mm high. In particular, such a middle hollow profile 18 is preferably the same height as a hat profile 19. A middle hollow profile is preferably 100-140 mm wide, particularly preferably 120 mm.

The material thickness, ie the wall thickness, of an edge profile 17 is preferably 2-3 mm, particularly preferably 2.4 mm. The rectangular shape is preferably 110 mm to 140 mm high, more preferably 125 mm high. In particular, the height is equal to the height of the other profiles 18, 19, 20, 21, so that on the back of a panel a profile does not protrude from other profiles. This facilitates the storage of switchboards.

Claims (9)

1. Panel for wall formworks with a plastic formwork (6) and a support structure consisting of metal, characterized in that supporting elements of the support structure on the one hand an open profile (30, 31, 32) comprising a hat profile (19, 20, 21 , 31) and on the other hand a closed hollow profile (34), in particular a rectangular profile (34), wherein the number of supporting elements with open profile (30, 31, 32) is greater than the number of supporting elements with closed hollow profile (34) in which anchor hole bores (2, 3, 4, 5) pass through supporting elements with closed hollow profile (34), wherein the supporting elements (17) forming the frame of the support structure are designed as a closed hollow profile, wherein supporting elements with hat profile ( 19) perpendicular to be supported elements with hollow profile (18) and perpendicular to supporting elements hollow section (18) having one or more anchor holes (2, 3, 4, 5), said hollow section supporting elements (18, 34) passing through anchor holes (2, 3, 4, 5) in plan view seen from the back of a formwork panel are wider than the other supporting elements (17, 19, 20, 21) of the support structure and / or a greater material thickness than the other supporting elements (17, 19, 20, 21). 2. formwork panel according to claim 1, characterized in that a laminate forms the formwork, which is preferably constructed as follows: concrete-side film, cover layer, core, cover layer, film. 3. formwork panel according to one of the preceding claims, characterized in that the formwork skin has a thickness of 14.5 -15.5 mm, preferably 14.9 -15.3 mm. 4. Switchboard according to one of the preceding claims, characterized in that the supporting elements (17) which form the frame of the support structure, are designed approximately as a rectangular profile. 5. Panel according to one of the preceding claims, characterized in that adjacent supporting elements 20, 21 are provided with a hat profile, preferably by the supporting elements with closed hollow profile (34) passing anchor hole bores (2, 3, 4, 5) at a height between adjacent supporting elements 20, 21 are arranged with hat profile, in particular centrally therebetween. 6. Panel according to one of the preceding claims, characterized in that the distance between two central supporting elements (18) with a hollow profile at least substantially twice as large as the distance between such a central supporting element (18) with a hollow profile and an adjacent thereto, parallel extending, supporting frame member (17). 7. Panel according to the preceding claim, characterized in that in each middle hollow section (18) in one half more anchoring holes (4, 5) are present than in the other half. 8. Panel according to one of the preceding claims, characterized in that the distance between two supporting elements (19) with hat profile 25-35 cm, particularly advantageously 28-32 cm, in particular 30 cm. 9. Panel according to one of the preceding claims, characterized in that the height of a control panel (1) is an integer multiple of the distance between two supporting elements (19) with hat profile. 4 sheets of drawings