AT10946U1 - CONCRETE FORMWORK - Google Patents

Description

Austrian Patent Office AT 10 946 U1 2010-01-15

Description [0001] The invention relates to a concrete formwork with a formwork skin and a supporting structure or support structure. The formwork skin has a concrete-side surface and a surface opposite this concrete-side surface on which the support structure is arranged in a releasable connection. In particular, the support structure is the subject of the invention, which should preferably have the lowest possible weight with sufficient stability for ergonomic and economic reasons.

Concrete formwork is usually composed of individual, dimensioned in a correspondingly good manageability elements, therefore, in the episode mostly concrete formwork elements is mentioned.

The formwork used in a concrete formwork usually has a smooth, in special cases but also structured concrete side surface, which is protected against ingress of moisture and the mechanical stresses in the concrete insert, compaction operations with Rüttlervorrichtungen and cleaning operations after degradation of the formwork withstands. The plate-like formwork has some inherent stability due to its structure and strength. It can be made of wood, several layered wood structures, e.g. Plywood, or wood-containing materials such as chipboard or composite panels exist, but also the use of plastic plates or compounds of wood materials, plastics in the form of fillers between interlocking layers of wood or layers of thermoplastic and / or thermosetting plastics on wood materials. The use of metal layers is known and can be used for special applications.

The insufficient static load capacity of the plate-shaped Schalhäute or the use of commercially available, cost-effective plate thickness with the present invention aimed to provide a concrete formwork element with the lowest possible weight, sets a support structure in the form of a at the back or bottom (ceiling slabs) the formwork on the surface facing away from the concrete surface holding structure ahead. This support structure has to bring the main parts of the static conditions with regard to the concrete pressure occurring during the concreting process.

If it is assumed that for economic reasons, these concrete formwork elements at least several standardized element sizes are understood to have an economic, repeated use as the goal, it can be assumed that the formwork elements of a formwork skin and at least two at the back or Bottom mounted support structures in the form of stiffening profiles exist. Taking into account the geometrical dimensions of these advantageously dog-like movable elements, the use of metal profiles is obvious. In this simple arrangement with stiffening profiles running parallel to one of the side edges of the formwork element, further support devices are usually mounted at right angles to the stiffening profiles, in such a way that the pressures occurring can be dissipated. These additional support devices can lie in one plane with the stiffening profiles, then one speaks of frame elements. Furthermore, suitable profiles can be mounted in one or more further planes for the removal of forces on the back or underside of a concrete formwork. In wall formwork such are known as transom profiles or slab formwork as Jochprofile.

For this purpose, profile shapes according to Figures 4 and 7 can be used.

In wall formwork use so-called frame formwork elements are particularly common. The generic support structure consists of a peripheral frame profile and at least one transverse profile within the frame, usually in parallel position to a frame profile.

It supports the formwork so that with the maximum allowable concrete pressures with sufficient certainty only a minimal, the standard corresponding deflection of the same 1/12 Austrian Patent Office AT 10 946 U1 2010-01-15 occurs and thus a so-called balancing the Betonschalungselementes is prevented. This intersection would create convex imprints in the concrete image. This is precisely regulated in the DIN 18202 limit values for flatness deviations in building construction.

Furthermore, the support structure protects the concrete formwork element against mechanical stresses which occur when moving the formwork, stripping after sufficient hardening of the concrete, during cleaning, storage, transport, etc. In the case of extraordinary loads of this kind, deformation damage can occur which leads to difficult working conditions during the next shuttering process and / or to qualitative defects in the concrete surface. From a certain level of damage, extensive repair work is required or the element or parts thereof are to be eliminated.

A special protective task is applied to the supporting structure by e.g. in a preferred embodiment, the formwork skin surrounds the formwork in the region of the peripheral end edges. For this purpose, usually a raised edge or an extension is provided in the vertical direction to the extension of the frame profile. As a result, the especially sensitive to mechanical damage front edge of the formwork is effectively protected. Usually, this extension has a height that corresponds to the plate thickness of the formwork, but is usually slightly higher than this, to compensate for any swelling when used scarf skin made of wood material.

The attachment of the formwork to the support structure can be done by screws or rivets or other suitable retaining means, on the one hand take any deformations due to moisture and / or temperature effect, on the other hand, an interchangeability of affected by increased wear form skin is guaranteed. A mechanical attachment through the surface of the formwork facing away from the concrete is advantageous in that the positive impressions resulting from the required depressions of the fastening means in the concrete-side facing surface on the finished concrete fail to materialize and further prevents damage to the formwork on the exposed side.

Most are therefore provided on the frame structure and / or on transverse profiles parallel to the formwork skin and at this back fitting extensions, flanges with holes through which the attachment is made.

Almost all well-known formwork manufacturers (Doka, Peri, Meva, Ringer, ...) offer partly different designs of dimensionally standardized formwork systems for walls and ceilings, even partially compatible solutions in the sector of wall formwork, so provenience-related mixtures are possible.

The above-described static and mechanical requirements will largely take into account the known formwork elements by a sufficiently strong dimensioning of a supporting structure is provided from steel profiles.

In summary, it is noted that the manipulation of currently common and known from the prior art formwork elements can be accomplished by individuals only in smaller dimensions due to their weight (see also: Doka formwork catalog - products Framax and Frami, further DE 10 2005 015 508 for walls and DE 10 2006 015 054 for ceilings). For larger dimensions, however, a multi-person operation and further the use of a hoist or crane is required. This was counteracted by supporting structures were created for shuttering elements made of light metal. However, this leads to significant disadvantages in terms of material and production costs. The elements are more susceptible to damage due to the lower strength of the material. This results in a reduced turnover due to increased repairs. The cost of repair is much more difficult and costly due to the material than with steel profiles, and thus leads to increased cost burdens.

The invention has for its object to provide a concrete formwork or a supporting structure for a concrete formwork, which is suitable to see the static and mechanical requirements set in the direct requirements 1212 Austrian Patent Office AT 10 946 U1 2010-01-15 see and indirect use, by ensuring a high rigidity in terms of planimetry and shape retention in shock and impact loads and is nevertheless suitable for a manual use on a larger scale than previously by reduced weights of the individual components. Furthermore, a reduction task with regard to a reduced material cost share in the production costs is to be solved due to the medium-term sharp increase in raw material prices.

This object is achieved by the concrete formwork of independent claim 1 and the support structure according to claim 11. The dependent claims represent preferred embodiments and / or solution variants.

In the concrete formwork element according to the invention with a supporting structure made of steel profiles, at least one profile extension has at least two different wall thicknesses.

Explaining in more detail is stated that the different wall thicknesses are provided in the course of the cross section of a profile, ie at a right angle to the Längsertreckung thereof.

In an advantageous embodiment, a profile over parts or the entire course of its cross-section is calculated and checked with regard to the stresses occurring and set the required wall thickness for each section of the cross section accordingly.

When using extruded aluminum profiles of generic formwork elements, this principle is already taking place, with wall thicknesses are kept low in low stress zones of the cross section. Limitations in the variation of the wall thickness are given by procedural limits.

Rather, it is largely exclusively profiles of metal sheets, which are produced in the cold rolling process. The prior art offers various methods for producing such profiles, which also include e.g. in the protective rights US Pat. No. 3,737,979, EP 0 296 839 and in particular EP 1 128 916.

It is known that such profiles are already used in modern automotive application. Even there, the optimum of low weight and high stability has been recognized as advantageous.

As a particularly preferred embodiment, a frame formwork element is considered, which consists of a plurality of individual profile sections representing the support structure, largely or wholly composed of individual profile sections, which have been subjected to a cross-sectional optimization according to the invention.

In the presently preferred embodiment, the cross-sectional optimization is carried out with respect to the entire support structure of a concrete formwork by the interaction of the individual interconnected profile sections results in terms of static properties a further reduction of wall thicknesses at the individual profile sections. For this purpose, it is stated that the profile sections and / or profile extensions considered for this purpose do not have to be connected to one another and do not have to be located in one plane.

In a further preferred embodiment, a further reduction in wall thickness can be carried out by the sections responsible for the required stability or rigidity of the profile cross section consist of a steel quality with higher strength. For this purpose, on the one hand supplier-related procedural limits in the profile production in terms of weldability and the cold workability of materials and material combinations set, on the other hand, the cost development with regard to an optimum of effort and benefits to keep in mind.

The invention will be described below with reference to preferred embodiments, to which it should not be limited, and with reference to the drawing even further 3/12

Claims (12)

Austrian Patent Office AT 10 946 U1 2010-01-15 explained. 1 shows a concrete formwork element (1) of a concrete formwork for walls with a formwork skin (11) and a support structure (T) made of frame profiles (12) and transverse profiles (13, 14), flanges or extensions (FIGS. 15) for fixing the formwork skin (11) to the support structure; FIG. 2 a frame profile (12) of a concrete formwork element (1), cross section with non-optimized wall thicknesses; FIG. Fig. 3 shows a frame profile (12) of a concrete formwork element (1), cross section with inven tion optimized wall thicknesses in the region of the statically low-loaded vertically extending to the load direction sections (122) and sections (123) with greater wall thickness; 4 shows a transverse profile (13) of a supporting structure of a concrete formwork element (1) or loose yoke profile or loose bar profile with sections (133) with optimized wall thicknesses and extensions or flanges (15) for formwork attachment when used as a transverse profile; 5 shows a concrete formwork element (2) for walls or ceilings with a formwork skin (21) and a supporting structure (2 ') made of frame profiles (22) and transverse profiles (23); 6 is a frame profile (22) of a concrete formwork element (2), cross-section with inventively optimized wall thicknesses in the region of the static low-stress vertical to the load direction extending portions (222) and sections (223) with greater wall thickness; and Fig. 7 a bolt profile and / or yoke with inventively optimized cross-sections claims 1. concrete formwork with a concrete-side surface having formwork skin (11) and a support structure (T) disposed on the concrete side facing away from the surface of the formwork skin (11) is, wherein the support structure (T) at least one metal sheet profile (12, 13, 14, 22, 23), characterized in that at least one cold-rolled sheet metal profile (12, 13, 14, 22, 23) is provided, wherein in cross-section at right angles for the longitudinal extent of at least one cold-rolled sheet metal profile (12, 13, 14; 22, 23), at least one section (122, 133; 222) has at least one different wall thickness with respect to the remaining sections (123, 233) of the cross section. 2. concrete formwork according to claim 1, characterized in that as metal sheet profiles (12,13,14; 22, 23) steel profiles are provided. 3. concrete formwork according to claim 1 or 2, characterized in that the sheet metal profiles (12,13,14; 22, 23) have an open or closed cross-section. 4. concrete formwork according to claim 3, characterized in that the cross sections of the open profiles (13,14) have at least two at an angle deviating from 180 ° to each other standing legs, wherein at least a portion (133) of a leg length a different wall thickness than the rest Has sections of the cross section. 5. concrete formwork according to claim 3, characterized in that the closed cross-sections (12, 22) each geometrical figure generating at least on a part of the circumference have a different wall thickness than the other portions of the circumference. 6. concrete formwork according to one of the preceding claims, characterized in that in the sheet metal profiles (12, 13, 14, 22, 23) of the support structure (T) bores (15), recesses and / or systemic penetrations and / or bulges are present. 4/12 Austrian Patent Office AT 10 946 U1 2010-01-15 7. concrete formwork according to one of the preceding claims, characterized in that the sheet metal profiles (12, 13, 14, 22, 23) of the support structure (1 ') have a deviating from the straight line longitudinal extent. 8. concrete formwork according to one of the preceding claims, characterized in that at least a portion of a sheet metal profile (12,13,14; 22, 23) of the support structure (T) has different alloying constituents than the remaining portions of the cross section. 9. Concrete formwork according to one of the preceding claims, characterized in that at least one longitudinal extension of a sheet metal profile (12, 13, 14; 22, 23) has different alloy constituents than the remaining portions of the support structure (T). 10. Concrete formwork according to one of the preceding claims, characterized in that at least one longitudinal extent of a sheet metal profile (12, 13, 14; 22, 23) has a different strength than the remaining portions of the support structure. 11. supporting structure (1 ') for a concrete formwork with at least one metal sheet profile (12, 13, 14, 22, 23), characterized in that at least one cold-rolled sheet metal profile (12, 13, 14, 22, 23) is provided, wherein Cross section perpendicular to the longitudinal extent of at least one sheet metal profile (12, 13, 14, 22, 23) at least one portion (122, 133, 222) has at least one different wall thickness with respect to the remaining portions (123, 223) of the cross section. 12. Support structure according to claim 11, characterized in that as metal sheet profiles (12, 13, 14; 22, 23) steel profiles are provided. For this 7 sheets drawings 5/12