DE19702247A1 - Concrete column - Google Patents

Abstract

The invention relates to a concrete pillar, in particular a circular pillar made of reinforced concrete with a pillar base (12), a pillar top (16) and, optionally, a steel reinforcement fitted inside the pillar. In order to enhance flectional and buckling resistance, a flat strip (18) in the form of a helix is provided between the pillar base (12) and pillar top (16), extending over the pillar surface, and having a composite structure consisting of a plurality of substantially parallel-aligned carbon fibres, and a binder matrix which shear-resistantly binds the carbon fibres to each other. The flat strip (18) is attached to the pillar surface by one of its broad sides by means of an adhesive. The lead (h) of the flat strip helix is thus greater than the width (b) of the flat strip (18).

Description

The invention relates to a concrete column, in particular a round column made of reinforced concrete, with one with one Foundation connected column foot, a load element receiving column head and possibly one in Steel reinforcement embedded inside the column.

Columns are vertical components, their height or length in relation to their cross-sectional dimensions gene is large. The supports serve other components, such as Beams or beams as supports and guide them Loads into the foundation. This mainly results a compressive stress in the longitudinal direction of the column. Stüt zen can also be caused by horizontal loads such as Windla most, impact loads or seismic movements on the bend be claimed. With slender supports there is also the risk of buckling. Depending on the type of Manufacturing are independent of the load and the Danger of kinking Minimum thicknesses prescribed for supports. For the reinforcement of columns, those in DIN 1045 apply established guidelines. If there is a risk of high impact Loads and seismic movements are sufficient for this lines for a kink-proof design of reinforced concrete often do not support.

Based on this, the object of the invention reason, a concrete column with high buckling protection  develop that also high horizontal forces and seis can withstand movements.

According to a first Al alternative between the column base and column head in the form of a spiral over the column surface stretching flat tape proposed a composite structure from a variety of essentially paral lel aligned carrier fibers and one die Binding fibers that connect shear-resistant to each other has telmatrix and with its a broadside surface using an adhesive on the column surface is strengthened, the pitch of the helix being greater than the bandwidth of the ribbon is. The pitch is like this dimension that between the flat belt and the upper column cannot form a closed space no longer escape the possibly penetrating water could. The pitch of the helix corresponds accordingly speaking about 1.1 to 5 times, preferably that 1.5 to 2.5 times the flat band width. At his En the ribbon is useful on the column surface che by means of at least one fastening element secured so that it does not come off from the ends can.

According to a second alternative, there are between the column foot and the column head several, the column comprehensive like a tire, by means of an adhesive on the Support surface fastened flat strips at a distance arranged from each other, the flat strips one  Variety of essentially parallel to each other aligned support fibers and one the support fibers shear resistant have interconnecting binder matrix. The flat strips are overlapping with one another Attached ends to the binder matrix. The distance between the flat belts is such that no ge between flat belts and column surface can form a closed space from which possibly penetrating water could no longer escape. Of the The distance between the flat belts corresponds accordingly speaking 0.1 to 4 times, preferably that 0.5 to 1.5 times the flat band width.

With rectangular or square cross-section Be The flat ribbons expediently have sound supports in their one over the intermediate edges embossed bend. He can do this bend be witnessed that the ribbon in the concerned Areas of their binder matrix with exposure the carrier fibers freed and with the binder size trix replacing pasty, curable synthetic resin can be opened.

A further increase in the kink protection can be according to ei ner preferred embodiment of the invention thereby-er aims to be additional, which are helical or ring-shaped flat strips spaced from one another other crossing, by means of an adhesive on the stud surface and / or on the existing flat belts attached flat strips are provided.  

The carrier fibers of the ribbon are more advantageous wise from carbon fibers, which is characterized by a high Distinct modulus of elasticity. Basically you can also flat belts with aramid, glass or polypropylene fibers or with a mixture of the fibers mentioned be used.

A reactive resin, such as Epoxy resin, polyurethane, acrylic resin or polyester resin used. To ensure a stable connection of the flat belt to ensure the column surface also exists the adhesive expediently from a reaction resin of ge called Art.

The reinforced concrete column wrapped with the flat tape can additionally plastered or covered with a protective coating will be seen so that the reinforcement measure from the outside is no longer visible.

In the following the invention is based on one in the Drawing shown in a schematic manner example explained in more detail. Show it

FIG. 1 is designed as a support structure round column with helical Flachbandumwicklung;

Figure 2a and b has a flat portion in plan view and in side view.

Figure 3 is a building support with tire-like flat ribbon wrapping.

FIGS. 4a and b show a section through the construction support ze designed as a square support and as a round support according to FIG. 3;

Figs. 5a and b a plan view and a side view of a reinforcing plate with binder-free em, flexible intermediate portion;

Fig. 6 is a concrete column with criss-cross directions of the flat ribbon wrapping.

The concrete columns 10 shown in Fig. 1, 3 and 5 have an embedded into a foundation 11 supporting foot 12 and a negotiated as a support for a component 14 formed support head 16. The concrete column 10 may contain an internal steel reinforcement 17 ( FIGS. 4a and b). For further reinforcement against bending out or buckling, the support is wrapped with a flat ribbon 18 ( FIG. 1) or with flat ribbons 18 ', 18 ''.

In the case of FIG. 1, the flat strip 18 extends from the support foot 12 to the support head 16 in a helical manner over the support surface and is fastened flat to it with an epoxy resin adhesive 19 . The free bands are fixed to the support by tab-shaped fastening elements 20 . The pitch h of the flat coil is greater than the bandwidth b. In the exemplary embodiment shown, it speaks approximately 1.5 times the flat bandwidth b. The gaps 22 between the ribbon windings ensure that no continuous closed cavity can form between the ribbon and the support surface, in which water could accumulate.

In the exemplary embodiment shown in FIG. 3, a plurality of flat strips 18 ′ which surround the support in an annular manner and are fastened by means of an adhesive to the support surface are provided, which are arranged at a distance a from one another, which in the exemplary embodiment shown is approximately 0, Corresponds to 5 times the flat band width b. The gaps 22 between the flat band rings 18 'ensure that no coherent closed cavity can form between the flat band and the support surface, in which water could accumulate. The annular flat bands encompass the support with overlapping ends 24 ( Fig. 3).

In the in Fig. Embodiment shown 6 are provided in addition to the annular flat strips 18 ', these intersecting at an angle of 90 ° flat strips 18' 'which are spaced from each other so that also in this case, gaps 22 for the evaporation of water remain free.

The flat strips consist of a composite structure made up of a plurality of carrier fibers 26 oriented parallel to one another, preferably made of carbon, and a binder matrix 28, preferably of epoxy resin, which connects the carrier fibers in a shear-resistant manner. As can be seen from FIGS. 4a and b, the supports 10 can have either a rectangular or round cross section. In the case of the rectangular cross-section according to FIG. 4a, the flat strips are expediently provided with an embossed bend 32 in their area overlapping the edges 30 , which can be witnessed by the fact that the flat strip 18 'in the area concerned by its binder matrix 28 with exposure of the limp supporting fibers 26 is freed and that after the wrapping of the support the area in question is acted upon with a paste which replaces the binder matrix, the pasty, curable synthetic resin ( FIGS. 5a and b).

In summary, the following can be stated: The invention relates to a concrete column, in particular a round column made of reinforced concrete with a column base 12 , a column head 16 and, if appropriate, a steel reinforcement arranged in the column interior. To increase the bending and buckling strength between a support leg 12 and support head 16 in the form of a helix extending over the support surface flat band 18 is provided, the composite structure of a plurality of substantially parallel aligned carbon fibers and one of the carbon fibers has shear-resistant binding binder matrix. The flat strip 18 is attached on one broad side by means of an adhesive to the support surface. The pitch h of the flat ribbon helix is chosen to be greater than the bandwidth b of the flat ribbon 18 .

Claims (13)

1. Concrete column with a column base ( 12 ), a column head ( 16 ) and optionally a steel reinforcement ( 17 ) arranged inside the column, characterized by a between the column base ( 12 ) and the column head ( 16 ) in the form of a spiral the support surface extending flat tape ( 18 ), which has a composite structure of a plurality of substantially parallel aligned support fibers and a support matrix connecting the support fibers in a shear-resistant manner, and which is fastened to the support surface with one broad side by means of an adhesive, the The pitch (h) of the helix is greater than the bandwidth (b) of the flat belt ( 18 ). 2. Concrete support according to claim 1, characterized in that the flat band ( 18 ) at its free ends on the support surface by means of a fastening supply element ( 20 ) is fixed. 3. Concrete prop according to claim 1 or 2, characterized shows that the pitch (h) of the helix the 1.1 to 5 times, preferably 1.5 to 2.5 times corresponds to the flat band width (b). 4. Concrete column with a column base ( 12 ), a column head ( 16 ) and optionally a steel reinforcement ( 17 ) arranged inside the column, characterized in that between the column base ( 12 ) and the column head ( 16 ) several encompass the column in a tire-like manner , by means of an adhesive ( 19 ), flat strips ( 18 ') fastened to the support surface are arranged at a distance from one another, the flat strips ( 18 ') comprising a plurality of carrier fibers ( 26 ) oriented essentially parallel to one another and one of the carrier fibers ( 26 ) in a shear-resistant manner have connecting binder matrix ( 28 ). 5. Concrete support according to claim 4, characterized in that the flat strips ( 18 ') are attached to each other via overlapping ends ( 24 ) on the support ( 10 ). 6. Concrete support according to claim 4 or 5, characterized in that the distance (a) between the flat strips ( 18 ') 0.1 to 4 times, preferably 0.5 to 1.5 times that Corresponds to flat band width (b). 7. Concrete support according to one of claims 1 to 6, characterized in that additional, the helically or annularly arranged flat strips ( 18 , 18 ') crossing at a distance from each other, with means of an adhesive ( 19 ) on the support surface and / or the existing flat strips ( 18 , 18 ') attached flat strips ( 18 '') are provided. 8. Concrete support according to one of claims 1 to 7, characterized in that the flat strips ( 18 , 18 ', 18 '') have an embossed bend ( 32 ) in their intermediate regions guided over support edges ( 30 ). 9. Concrete support according to claim 8, characterized in that the flat strips ( 18 ') in the region of the embossed bend ( 32 ) are freed from their binder matrix ( 28 ) with exposure of the supporting fibers ( 26 ) and with a binder matrix replacing pa, curable synthetic resin can be applied. 10. Concrete column according to one of claims 1 to 9, there characterized in that the supporting fibers as Koh lenstoffaser are formed. 11. Concrete column according to one of claims 1 to 10, there characterized in that the binder matrix a reaction resin, in particular made of epoxy resin consists. 12. Concrete column according to one of claims 1 to 11, there characterized in that the adhesive from a Re action resin, in particular made of epoxy resin. 13. Concrete support according to one of claims 1 to 12, characterized in that the support surface wrapped with the flat strip ( 18 ) is plastered or provided with a protective coating.