DE10160441A1 - Window planking - Google Patents

Abstract

The invention relates to pillar formwork for use in concrete construction, which comprises a planar structure (1) forming the formwork and at least one connecting profile that is provided for linking, in a form fit, two opposite edges (3, 3') of the planar structure (1), thereby forming a tubular section. At least the surface of the connecting profile facing the planar structure has a substantially constant curvature that substantially corresponds to the curvature of the tubular section.

Description

Technical field

The invention relates to column formwork for use in concrete construction.

State of the art

Column formwork is used in concrete construction for the manufacture of columns, columns or similar concrete elements used. In addition to conventional steel and Wooden formwork has recently been using winding formwork Sheet, cardboard or plastic are used. With the cardboard wrapping formwork the outer formwork tube, which is essentially the cohesion of the Formwork is used, made of cardboard or cardboard. After concreting the column and the setting of the concrete, the outer formwork element by means of a incorporated rip cord can be removed by tearing.

From DE 295 18 077 a column formwork is known which consists of a multilayer wound flat material. The flat material is is a paper web coated with polyethylene. Due to the multi-layer With this column formwork, the winding alternates in the wall of the Formwork tube paper layers and polyethylene layers.

DE 296 09 259 discloses a column formwork consisting of one along its Longitudinal axis divided pipe section. To hold the formwork together connecting means are provided in the area of the dividing line. For the production this column formwork becomes a piece of pipe along its longitudinal axis once slashed. To ensure easy formwork removal proposed to manufacture the column formwork from a plastic that the Removing the formwork can be bent open. On the inside of the Column formwork is a formwork auxiliary material, through which the Parting line originating form edges can be avoided.

These known column formwork have several disadvantages in common. On the one hand, the formwork has an extremely large volume and is ready this causes problems, particularly in transportation, which result in high costs knock down. The interior of the intended for filling with concrete Column formwork is nothing more than a dead volume during transport represents, whereby only a very small number of pieces are transported per guide can. The column formwork according to DE 296 09 259 also has this problem, because it is dimensionally stable plastic pipes that only the The formwork can be briefly bent open using sufficient force can.

In addition, the column formwork described above is Disposable products because the outer formwork element by tearing open the hardened concrete is removed. This prevents the reuse of the Column formwork. In column formwork according to DE 296 09 259, this is Problem only partially solved. It can be the outer part of the formwork be reused, the necessary inner lining with z. B. a pipe made of thin cardboard is a disposable product.

Presentation of the invention

This is where the invention comes in. Column formwork is to be made available that can be reused and easily transported. This The object is achieved by the column formwork according to independent Claim 1 solved. Other advantageous aspects, details and Embodiments of the invention result from the dependent claims, the description and the drawings.

The present invention is based on the idea, not as previously common prefabricated tubes to use as column formwork in concrete construction, but Sheets that are equipped with connecting profiles through one positive connection of two opposite edges of the Fabric is possible. The material from which the fabric is made two contradictory conditions must be met: On the one hand, there must be sufficient Have strength to withstand the pressure of the filled concrete to others it must have enough elasticity to easily fit into a tube to be able to be bent. In particular, this tube must be under concrete pressure, So after pouring the concrete, "dimensionally stable", that is circular in cross section, stay.

The column formwork according to the invention for use in concrete construction consists of a sheet-like structure forming the formwork and at least one Connection profile for the positive connection of two opposite edges of the fabric and thus to form a Pipe piece is provided, at least that of the fabric facing surface of the connection profile a substantially constant Has curvature that is essentially the curvature of the pipe section equivalent. This ensures that the column formwork has a round shape accepts. If using connection profiles without curvature, that would be curved fabrics namely take a slightly teardrop shape and thus lead to unsatisfactory results for the concrete parts. light Differences between the curvature of the connection profile and the curvature of the pipe section are tolerated in the context of the present invention because acceptable results can still be achieved.

The column formwork according to the invention can be bent into a tube in the flat condition can be easily transported in large quantities.

By using the term "substantially constant curvature" is intended be made clear that manufacturing-related deviations from one constant curvature can of course be tolerated as long as they are not clearly show that the column formwork has a cross-section that deviates significantly from a circular cross-section.

According to a preferred embodiment of the present invention the fabric made of an elastic plastic. Through such a material the two conditions mentioned above are met particularly well, namely adequate dimensional stability after pouring the concrete and simultaneously sufficient elasticity that allows easy bending to a tube. Such column formwork has the great advantage that no one-way Materials such as B. the commonly used cardboard are provided what allows the formwork to be reused several times.

The two opposite edges of the fabric must be positively connected. This will generally used at least two connection profiles. These connection profiles are advantageously flush with one edge of the fabric on the Fabric attached. Within the scope of the present invention, the However, connection profiles are generally also available in smaller or larger sizes Distance from the edges to be connected attached to the fabric his. The springs described below for connecting the In such a case, connection profiles must have their dimensions be adjusted accordingly or z. B. be replaced by flexible tapes.

A solution with only one connection profile, which is in is attached near an edge of the fabric and over this edge protrudes. The part of the connection profile that protrudes beyond the edge becomes then after bending the fabric to a piece of pipe with the Sheets connected near the opposite edge. This Connection can basically be made in any way, such. B. by Bonding. The fabric can also z. B. have surveys engage in corresponding recesses in the connecting profile and thus one enable secure positive connection of the opposite edges.

Naturally, the two above-mentioned conditions of "dimensional stability" and "elasticity" is sufficient from a range of materials that can be used in any thickness, however, certain materials result in being used in certain thicknesses very good results in terms of very easy handling. For these reasons, both the use of fiber reinforced Materials, of fiber-reinforced plastics, of polyester, in particular plastic fiber reinforced, glass fiber reinforced and carbon reinforced Materials, especially glass fiber reinforced or carbon reinforced Plastics, in particular fiber-reinforced polyester as elastic plastic, as well as a flat structure with a thickness of 0.5 to 5 mm, in particular with a thickness of 1 to 4 mm, particularly preferably with a thickness of 1.2 to 3 mm preferred embodiments of the present invention. Particular Flat structures with a thickness of 1.4 to 2.5 mm, are entirely suitable those with a thickness of 1.5 to 2 mm are particularly preferred.

For reasons of a reduced variety of shapes of the connecting profiles additionally the surface of the surface facing away from the fabric Provide connecting profiles with a substantially constant curvature be, this curvature then from the curvature of the pipe section different. In this way, a connection profile for column formwork with different diameters can be used.

Although the column formwork according to the invention for concreting columns with a widely varying diameter, basically even for concreting Columns of any diameter can be used Column formwork with a diameter of 100 to 2000 mm, in particular from 200 to 1000 mm is preferred. Particularly preferred diameters from 200 to 450 mm, from 250 to 500 mm, from 500 to 900 mm and from 600 to 1000 mm.

The connection profiles can be in various ways on the fabric are attached, namely z. B. by gluing, riveting, nailing or Welding. Gluing the connecting profile and Flat structures because there are no visible traces in the finished concrete parts caused.

Particularly preferred embodiments of the present invention Column formwork with connecting profiles that point in the direction of the axis of the Pipe section vertical pipe section tangent an expansion of 1 to 50%, in particular have 3 to 25% of the pipe section diameter. This will ensures that after the concrete is poured into the formwork Do not detach connection profiles from the fabric. By filling in the Concrete creates strong forces perpendicular to the formwork wall, causing the Danger of the formwork breaking open along the connection profiles held together edge of the fabric. To one To prevent breakup both the connection profiles must be made accordingly be firmly connected, as well as a correspondingly strong connection be guaranteed by the connecting profile and fabric. For this reason connection profiles are very particularly preferred, which in the direction of the Axis of the pipe section vertical pipe section tangent an extension of 5 up to 15%, in particular around 10% of the pipe section diameter.

With regard to the above-mentioned, usual in concrete construction Column diameters are preferred connection profiles, which in the direction of the Axis of the pipe section vertical pipe section tangent an extension of 10 up to 100 mm, in particular from 20 to 75 mm. Particularly preferred are connecting profile that in the direction of the longitudinal axis of the pipe section vertical pipe tangent an extension of 30 to 50 mm, have in particular from 35 to 45 mm.

Basically, the connection profiles can be made from any type of enough dimensionally stable material. The connection profiles are preferably made of Made of plastic, the connection profiles are particularly preferred Polyester, made of a fiber-reinforced plastic, in particular from glass fiber reinforced or carbon reinforced plastic, particularly preferred made of glass fiber reinforced or carbon reinforced polyester.

Particularly advantageous properties result when the Connection profiles and the fabric consist of the same material. This makes through a particularly simple and firm connection of the parts Can be glued.

To ensure a secure, positive connection of the opposite edges of the To ensure fabric, it is within the scope of the present invention particularly preferred that the connection profiles in the direction of the axis of the Extend the pipe section along the entire length of the pipe section. This allows the edges of the fabric along the entire length of the column formwork particularly high strength and accuracy are positively connected.

The connection profiles can basically be used for any formwork technology known way mechanically connected to each other, such. B. with the help of Clamps, wedges, locks or bolts. As part of the present Invention connecting profiles are preferred, which have grooves and tongues. A spring engages to connect the edges of the fabric one connection profile in a groove of the other connection profile on. The stable cohesion of the edges of the fabric is such. B. by ensures a bolt through holes in the connecting profiles out and then screwed.

Another important condition for achieving good results in the form of a the excellent surface quality of the concrete columns Prevent water and cement paste from escaping from the formwork the junction of the edges of the fabric there is a risk that if there is a lack of positive locking, there is water leakage and thus to Bleeding of concrete fine parts comes at the seam. This can result in a visible unevenness on the surface of the concrete column. For this For this reason, fabrics and connection profiles are preferred, the edges of which are treated accordingly, such as grinding or Polishing are particularly smooth and a very good fit enable. In addition, according to a particularly preferred Embodiment of the present invention, the springs of the connecting profiles equipped with seals, which allows water to escape through the Connection profiles is prevented.

Brief description of the drawings

The invention is based on an embodiment in Connection with the drawings will be explained in more detail. Show it

Fig. 1 shows a detail of a cross section through an inventive column formwork;

Fig. 2 shows a part of a cross section through a column formwork according to the invention with a larger diameter compared to the column formwork of Fig. 1.

Ways of Carrying Out the Invention

Fig. 1 shows a section of a cross section through a column formwork. The flat structure 1 is equipped with the connecting profiles 2 and 2 ', which are each arranged adjacent to the edges 3 , 3 ' of the flat structure. The surface 4 , 4 'of the connecting profiles facing the fabric 1 has a constant curvature, the curvature essentially corresponding to the curvature of the pipe section. This ensures that the column formwork takes on an exactly round shape. The surface 5 , 5 'of the connection profiles facing away from the flat structure likewise has a constant curvature, the surface 5 , 5 ' of the connection profiles shown being more curved than the surface 4 , 4 '. The edges 3 , 3 'of the fabric 1 have a high accuracy of fit. The connecting profile 5 is equipped with two springs 6 , while the connecting profile 5 'has two corresponding grooves. However, each of the two connecting profiles can also be equipped with a tongue and a groove. The connection of the two connection profiles and thus the positive connection of the two edges of the fabric is achieved by engaging the springs 6 in the corresponding grooves. The longitudinal seals 7 prevent water from escaping through the connecting profiles 2 , 2 '. The securing of the connection which is still required is not shown by a clamp which overlaps the two connecting profiles 2 , 2 'or a bolt which is guided through the two connecting profiles 2 , 2 ' and then screwed together.

Fig. 2 also shows a section of a cross section through a column formwork. In FIG. 2, the extension of the connecting profile t 2 highlighted in the direction of the perpendicular to the axis of the tubular piece tubular piece tangent. LIST OF REFERENCE SIGNS 1 flat structures
2 , 2 'connection profile
3 , 3 'edges of the fabric
4 , 4 'the surface of the connecting profiles facing the fabric
5 , 5 'the surface of the connecting profiles facing away from the flat structure
6 feathers
t Extension of a connection profile in the direction of the pipe section tangent perpendicular to the axis of the pipe section

Claims (17)

1. Column formwork for use in concrete construction consisting of a formwork ( 1 ) forming the formwork and at least one connecting profile, which is provided for the positive connection of two opposite edges ( 3 , 3 ') of the flat structure ( 1 ) and thus to form a piece of pipe, thereby characterized in that at least the surface ( 4 , 4 ') of the connecting profile facing the flat structure ( 1 ) has an essentially constant curvature, the curvature essentially corresponding to the curvature of the pipe section. 2. Column formwork according to claim 1, characterized in that two connecting profiles ( 2 , 2 ') are provided. 3. Column formwork according to claim 1 or 2, characterized in that the fabric ( 1 ) consists of an elastic plastic. 4. Column formwork according to one of the preceding claims, characterized characterized in that as an elastic plastic a fiber-reinforced Plastic, in particular a glass fiber reinforced plastic or a Carbon reinforced plastic, especially glass fiber reinforced or Carbon reinforced polyester is used. 5. Column formwork according to one of the preceding claims, characterized in that the flat structure ( 1 ) has a thickness of 0.5 to 5 mm, in particular a thickness of 1 to 4 mm, preferably a thickness of 1.2 to 3 mm. 6. Column formwork according to one of the preceding claims, characterized in that the flat structure ( 1 ) has a thickness of 1.4 to 2.5 mm, in particular a thickness of 1.5 to 2 mm. 7. Column formwork according to one of the preceding claims, characterized in that the surface ( 5 , 5 ') of the connecting profiles ( 2 , 2 ') facing away from the flat structure ( 1 ) also has a constant curvature, this curvature being different from the curvature of the pipe section different. 8. Column formwork according to one of claims 2 to 7, characterized in that the connecting profiles ( 2 , 2 ') in the direction of the pipe section tangent perpendicular to the axis of the pipe section have an extension (t) of 1 to 50%, in particular 3 to 25% of the pipe section diameter. 9. Column formwork according to claim 8, characterized in that the connecting profiles ( 2 , 2 ') in the direction of the pipe section tangent perpendicular to the axis of the pipe section have an extension (t) of 5 to 15%, in particular around 10% of the pipe section diameter , 10. Column formwork according to one of the preceding claims, characterized in that the connecting profiles ( 2 , 2 ') have an extension (t) of 10 to 100 mm, in particular 20 to 75 mm, in the direction of the pipe section tangent perpendicular to the axis of the pipe section. 11. Column formwork according to claim 10, characterized in that the connecting profiles ( 2 , 2 ') have an extension (t) of 30 to 50 mm, in particular 35 to 45 mm, in the direction of the pipe section tangent perpendicular to the longitudinal axis of the pipe section. 12. Column formwork according to one of the preceding claims, characterized in that the connecting profiles ( 2 , 2 ') are made of plastic. 13. Column formwork according to claim 12, characterized in that the connecting profiles ( 2 , 2 ') are made of polyester, of a fiber-reinforced plastic, in particular of glass fiber-reinforced or carbon-reinforced plastic, particularly preferably made of glass-fiber reinforced or carbon-reinforced polyester. 14. Column formwork according to one of the preceding claims, characterized in that the flat structure ( 1 ) and the connecting profiles ( 2 , 2 ') consist of the same material. 15. Column formwork according to one of the preceding claims, characterized in that the connecting profiles ( 2 , 2 ') extend in the direction of the axis of the pipe section over the entire length of the pipe section. 16. Column formwork according to one of claims 2 to 15, characterized in that the connecting profiles ( 2 , 2 ') have grooves and tongues ( 6 ) which engage in one another in a precisely fitting manner to connect the edges ( 3 , 3 ') of the flat structure ( 1 ) , 17. Column formwork according to claim 16, characterized in that the grooves ( 6 ) have longitudinal seals ( 7 ).