DE102015103751A1 - Reinforced concrete component - Google Patents

Abstract

The invention relates to a reinforced concrete component (12 ', 12' ') having at least one connecting portion (14', 14 '') for connecting the reinforced concrete component (12 ', 12' ') with a further reinforced concrete component (12', 12 '') and is characterized in that the connecting portion (14 ', 14' ') has a wood-like nature, so that connecting elements (24', 24 '') from the field of wood technology for connecting the reinforced concrete components (12 ', 12' ') in the connection portion (14 ', 14' ') can be arranged. Furthermore, the invention relates to an arrangement (10) of at least two reinforced concrete components according to the invention (12 ', 12' ').

Description

The invention relates to a reinforced concrete component and an arrangement of reinforced concrete components.

Building with reinforced concrete components, in which the individual reinforced concrete components are factory-made, d. H. transported as finished parts to the site and assembled there to building parts, assemblies or structures is well known.

In the prior art, a variety of connection methods are used to connect the reinforced concrete components together.

A known method is to equip the reinforced concrete components to be connected with a connection reinforcement, to overlap or otherwise connect them in a potting area arranged between the components and then to fill the potting area with concrete or mortar, after which a viable connection is created. The disadvantage here is that it takes several days or even weeks, due to the curing process, until the connection has the required load capacity. This leads to an extension of the construction period. Under certain environmental conditions, such as heat or cold, it is even such that such compounds are possible only with the use of complex and time-consuming additional work.

Another known possibility is that anchor elements made of steel are integrated in the reinforced concrete components to be connected. As part of an assembly, the components can then be connected to each other by means of screw or welding lugs. The disadvantage here is that only the smallest structural tolerances are allowed. Even small deviations from the target geometry lead to the fact that the connections can no longer be carried out according to plan, whereby reworking is required and the construction process is impaired. In the worst case, it may even be that the components can not be connected.

It is therefore an object of the invention to provide a reinforced concrete component, which is designed so that it can be easily and in good quality with other reinforced concrete components connect even in construction inaccuracies without effort.

This object is achieved by a reinforced concrete component with the features of claim 1 and an arrangement of at least two reinforced concrete components with the features of claim 13. Advantageous embodiments are the subject of the dependent claims. It should be noted that the features listed individually in the claims can also be combined with one another in any desired and technologically sensible manner and thus show further embodiments of the invention.

A reinforced concrete component according to the invention has at least one connecting portion for connecting the reinforced concrete component to a further reinforced concrete component and is characterized in that the connecting portion has a wood-like nature, so that connecting elements from the field of wood technology for connecting the reinforced concrete components in the connecting portion can be arranged.

The reinforced concrete component according to the invention has the advantage over the prior art that it is very insensitive in terms of construction inaccuracies and can easily and quickly connect easily and quickly with other reinforced concrete components by means of known fasteners high quality. This is achieved by the fact that the least one connecting portion has a wood-like nature.

According to the invention, a connecting section having a wood-like nature is generally understood to mean those connecting sections which have a texture similar to that of wood or a wood-based material. The nature of the connection section according to the invention does not have to correspond exactly to that of wood or a wood-based material. It is therefore sufficient according to the invention, if the connecting portion is formed so that it can receive known from wood technology connecting elements. Wood screws or nails, full-thread screws or dowels, which are incorporated as intended in the wood-like material, are among the known connecting elements of wood technology.

The connecting portion may according to the invention consist inter alia of wood or a wood material. As wood-based material such materials are understood to be produced by crushing wood and then joining the structural elements according to the invention. However, the connecting section need not be made of wood or a wood material. It is sufficient that its material properties are such that they can absorb known from wood technology fasteners. These include z. B. connecting sections of resin-bonded chipboard materials or even of plastics (eg., Nylon-based). The use of plastic offers the advantage that the connecting sections are weather-resistant, shatter-proof, easy to process and have a high breaking strength. Overall, such a long durability can be ensured. For the Connecting section can be used with advantage a recycled plastic.

In order to withstand the typical environmental influences, it is advantageous if the connecting section consists of a hydrophobic or hydrophobized material.

According to the invention, at least one side of the connecting portion adjoining the concrete may be profiled. According to the invention, it is to be understood that profiled depressions and elevations or projections are present. While the increase of the connecting portion can engage in a recess of the concrete, engages in the recess of the connecting portion, an increase in the concrete. Due to the profiling, shearing forces can be transmitted very well between the connecting section and the concrete. Particularly preferably, the profiling is wave-shaped and / or trapezoidal. The profiling can also be designed in the manner of a tongue and groove joint. Ideally, all sides of the connecting portion adjoining the concrete are profiled. Optimal transmission of shear forces can thus be ensured. It is conceivable that at least the surface of the connecting portion, which adjoins the concrete, is structured.

The connecting portion may have a recess at least partially on at least one of its outer sides. Under the outer side is one of the environment facing, d. H. not to face the concrete surface to understand. If the connecting section has a depression, then a connecting element, for example a metal sheet or even a nail or screw head, can be arranged in the depression and does not protrude beyond the reinforced concrete component. A flat surface of the reinforced concrete component can be produced in this way.

Advantageously, the connecting portion is arranged in the reinforced concrete component, that five of its six sides are surrounded by concrete. Only one surface or side of the connection section can be seen. Such a design is in terms of fire protection and fire aspects of great advantage. If two reinforced concrete components designed in this way are connected to one another, then the connecting sections are completely surrounded by concrete and do not come into contact with the surroundings. The connecting portion may be arranged at least partially on a narrow side of the reinforced concrete component. On a narrow side and a plurality of spaced-apart connecting portions may be arranged. In this way, a particularly secure connection between the reinforced concrete components can be produced, since the reinforced concrete components along the mutually facing surface at several points by fasteners are firmly connected.

The connecting section may preferably be cast in the reinforced concrete component. The connecting sections are inserted into the respective mold during casting of the reinforced concrete components and then cast in. But it is also possible that when casting the reinforced concrete components are provided by the insertion of placeholders cavities for the connecting portions and the cavities are then retrofitted with the connecting sections or filled.

Advantageously, the reinforced concrete component has at least one anchor, which connects the connecting portion with the concrete. By the anchor in particular a tensile anchoring of the connecting portion is achieved in the concrete. The anchor, in particular a tie rod, may be made of wood, metal, in particular steel, or else of plastic. It is advantageous if the anchor at least partially has a profiled surface. Due to the profiled surface, a particularly good adhesion between the anchor and the connecting section and the concrete can be achieved.

Furthermore, the subject of the invention is an arrangement of at least two reinforced concrete components according to the invention and at least one connecting element, wherein the connecting element connects the reinforced concrete components to one another. The connecting elements are known from the wood technology commonly known fasteners. These are in particular nails, screws, for example, fully threaded or partially threaded screws, wooden dowels, dowels and dowel pins to understand. The fasteners can easily bring in the connection sections without much difficulty. Ideally, the fasteners have a self-tapping thread, optionally in conjunction with a drill bit. Particularly preferred is a self-tapping or self-drilling screw (wood screw or so-called Spax screw). This makes it possible to introduce the connecting elements anywhere in the connecting sections, without having to first introduce mutually matching recesses in the connecting sections. The use of such connecting elements offers the particular advantage that despite deviations from the desired geometry of the reinforced concrete components they can be connected to each other as planned, since the connecting elements are not set to a precisely fixed position in the connecting portion. Any construction inaccuracies can be so easy be compensated. Also conceivable is the use of self-drilling dowels.

The reinforced concrete components may have an abutment surface or plane. Adjacent surface is understood to mean a surface with which the reinforced concrete components adjoin one another at least partially in a planar manner. The abutment surface preferably has, at least in some areas, the connecting portion according to the invention.

In order to ensure a particularly strong and secure connection between reinforced concrete components, the arrangement may have a plurality of connecting elements. The connecting elements are preferably arranged at a distance from one another. Ideally, the connecting elements run on parallel planes. The connecting elements can also lie crosswise one above the other. This is to be understood according to the invention as meaning that at least one connecting element is introduced into a first reinforced concrete component to be connected or into the connecting section arranged there, while a further connecting element is introduced into a second reinforced concrete component to be connected or into the connecting section arranged there. This creates a bond that can transfer tension, pressure and shear very well.

Advantageously, the connecting elements extend at an angle of less than 90 ° to the adjoining surface. By such a configuration, tensile, compressive and shear forces can be transmitted particularly secure. Preferably, the angle is between 30 ° and 60 °, more preferably between 40 ° and 50 °, in particular, the angle is 45 °.

As connecting elements and metal moldings can be used. As metal moldings, for example, sheet metal elements or metal straps are suitable. The metal moldings may be formed flat or angled. By using angled metal moldings, in particular angle plates, mutually offset reinforced concrete components can be easily connected to each other. The metal moldings can be fastened to the reinforced concrete components with additional fasteners. But it is also conceivable that the metal moldings are connected directly to the reinforced concrete components.

The invention and the technical environment will be explained in more detail with reference to FIGS. It should be noted that the figures show a particularly preferred embodiment of the invention. However, the invention is not limited to the embodiment shown. In particular, the invention includes, as far as is technically feasible, any combination of the technical features that are listed in the claims or described in the description as being relevant to the invention.

Show it:

1 2 shows a sectional side view of an arrangement according to the invention in a first embodiment,

2 Inventive arrangement in the first embodiment in plan view,

3 Front view of a reinforced concrete component according to the invention in one embodiment,

4 perspective view of two interconnected connecting sections according to the invention,

5 cut plan view of an arrangement according to the invention in a further embodiment,

6 perspective view of the interconnected connecting portions according to 5 ,

The 1 schematically shows a sectional side view of an inventive arrangement 10 in a first embodiment. The arrangement comprises two reinforced concrete components 12 ' . 12 '' , wherein the reinforced concrete components 12 ' . 12 '' each an adjoining area 26 have, with which they border at least partially flat. The reinforced concrete components 12 ' . 12 '' are present by means of fasteners 24 ' . 24 '' connected on their narrow sides. The reinforced concrete components 12 ' . 12 '' have at least one connecting portion 14 ' . 14 '' which preferably extends over the entire reinforced concrete component thickness. The connecting section 14 ' . 14 '' has a woody texture. The inventive woody nature, it is possible, the reinforced concrete components 12 ' . 12 '' with known from the field of wood technology fasteners 24 ' . 24 '' connect to. The connecting sections 14 ' . 14 '' can be made of wood or wood-based material. But it is also possible that the connecting sections 14 ' . 14 '' made of resin-bonded chipboard or plastic. Ideally, the material is hydrophobic or hydrophobic. The sides of the connecting sections 14 ' . 14 '' , which are adjacent to the concrete, are profiled 16 ' . 16 '' educated. They have at least one depression 20 ' . 20 '' and projections adjacent thereto 18 ' . 18 '' on. The sides are formed in a kind tongue and groove connection.

Furthermore, the reinforced concrete components 12 ' . 12 '' anchor members 22 ' . 22 '' on. The anchor elements 22 ' . 22 '' connect the connecting section with the concrete. Through the anchor 22 ' . 22 '' a tensile anchorage of the connecting portion is achieved in the concrete. The anchor 22 ' . 22 '' preferably has a surface profiling (similar to known reinforcing steel). This allows the adhesion in the connecting section 14 ' . 14 '' and the concrete can be increased.

As connecting elements 24 ' . 24 '' find here full thread screws application. Ideally, the fasteners have 24 ' . 24 '' a self-tapping thread, possibly in conjunction with a Bohrsitze on. This makes it possible, the fasteners 24 ' . 24 '' somewhere in the connecting sections 14 ' . 14 '' contribute. This allows for large tolerances in the manufacture and assembly of reinforced concrete components 12 ' . 12 '' ,

The connecting elements 24 ' . 24 '' lie crosswise on top of each other. This means that a connecting element 24 ' in a first reinforced concrete component 12 ' or in the arranged on this connecting portion 14 ' has been introduced while another connecting element 24 '' in a second reinforced concrete component 12 '' or in the arranged on this connecting portion 14 '' has been introduced. In 1 the connecting elements run 24 ' . 24 '' further at an angle of about 40 ° to the abutment surface 26 , This creates a bond that can transfer tension, pressure and shear very well.

2 shows a schematic plan view of the arrangement according to the invention 10 in the first embodiment. The order 10 has two fasteners 24 ' . 24 '' on, which run in mutually parallel planes. The respective connecting sections 14 ' . 14 '' are each by two anchor elements 22 ' . 22 '' , which are parallel to each other, connected to the concrete. The anchor elements 22 ' . 22 '' are preferably each formed as an elongated rod-shaped element, which ideally has a head and a shaft, wherein the head is wider than the shaft.

3 schematically shows a front view of a reinforced concrete component according to the invention 12 '' in one embodiment. It can be seen that the connecting section 14 '' not along the entire narrow side or the adjoining surface 26 of the reinforced concrete component 12 '' runs, but only along part of it. It is conceivable that along the narrow side or the adjoining surface 26 still further connecting portions are arranged in 3 not shown.

4 shows a top perspective view of two interconnected connecting portions 14 ' . 14 '' in a possible embodiment. The connecting sections 14 ' . 14 '' lie flat against each other. The connecting sections 14 ' . 14 '' are by two known from the field of wood technology fasteners 24 ' . 24 '' connected. The connecting elements 24 ' . 24 '' do not run parallel to each other. They can be arranged wrong. Both connection sections 14 ' . 14 '' each have two mutually parallel anchor elements 22 ' . 22 '' on. The anchor elements 22 ' . 22 '' extend from the back of the fasteners 24 ' . 24 '' in the (not shown here) reinforced concrete components 12 ' . 12 '' ,

5 schematically shows a sectional plan view of an arrangement according to the invention 10 in a further embodiment. The reinforced concrete components 12 ' . 12 '' are arranged at right angles to each other. In its adjoining area 26 show the reinforced concrete components 12 ' . 12 '' at least partially a connecting portion 14 ' . 14 '' on. The connecting sections 14 ' . 14 '' each have a recess 28 on. The depression 28 of the reinforced concrete component 12 ' is from an edge of the connection section 14 ' surround. The depression 28 of the reinforced concrete component 12 '' is on the reinforced concrete component 12 ' facing side open. This allows the reinforced concrete components 12 ' . 12 '' by means of an angle plate 30 connect with each other. The angle plate 30 is inside the wells 28 ' . 28 '' arranged and does not protrude beyond the outer contour of the respective reinforced concrete component 12 ' . 12 '' out. The angle plate 30 is by means of screws 24 at the connection sections 14 ' . 14 '' attached. It is also conceivable that the angle plate 30 itself has pin-shaped elements that directly into the connecting sections 14 ' . 14 '' can be introduced.

The connecting sections 14 ' . 14 '' are contoured in the illustrated embodiment that they form fit in the respective reinforced concrete component 12 ' . 12 '' are anchored. The connecting sections 14 ' . 14 '' are additionally each with anchor elements 22 ' . 22 ' connected to the concrete, which is bent in a U-shape.

6 shows a perspective view of the two interconnected connecting portions 14 ' . 14 '' according to 5 ,

LIST OF REFERENCE NUMBERS

10

arrangement

12 ', 12' '

Reinforced concrete structures

14 ', 14' '

connecting portion

16 ', 16' '

Profiling connecting section

18 ', 18' '

Increase / advance profiling

20 ', 20' '

Deep profiling

22 ', 22' '

anchor member

24 ', 24' '

Connecting element (full thread screw)

26

abutment

28 ', 28' '

deepening

30

angle plate

Claims (15)

Reinforced concrete component ( 12 ' . 12 '' ) comprising at least one connecting section ( 14 ' . 14 '' ) for connecting the reinforced concrete component ( 12 ' . 12 '' ) with another reinforced concrete component ( 12 ' . 12 '' ), characterized in that the connecting section ( 14 ' . 14 '' ) has a wood-like nature, so that connecting elements ( 24 ' . 24 '' ) from the field of wood technology for the connection of reinforced concrete components ( 12 ' . 12 '' ) in the connecting section ( 14 ' . 14 '' ) can be arranged. Reinforced concrete component ( 12 ' . 12 '' ) according to claim 1, characterized in that the connecting portion ( 14 ' . 14 '' ) consists of a wood material. Reinforced concrete component ( 12 ' . 12 '' ) according to claim 1, characterized in that the connecting portion ( 14 ' . 14 '' ) consists of a plastic. Reinforced concrete component ( 12 ' . 12 '' ) according to the preceding claim, characterized in that the connecting portion ( 14 ' . 14 '' ) consists of a recycled plastic. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that the connecting section ( 14 ' . 14 '' ) consists of a hydrophobic or hydrophobized material. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that at least one of the sides of the connecting portion ( 14 ' . 14 '' ) adjacent to the concrete, profiling ( 16 ' . 16 '' ) having. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that all sides of the connecting section ( 14 ' . 14 '' ), which adjoin the concrete, profiled ( 16 ' . 16 '' ) are formed. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that the connecting section ( 14 ' . 14 '' ) on an outboard side at least partially a recess ( 28 ' . 28 '' ) having. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that the connecting section ( 14 ' . 14 '' ) at least partially on a narrow side of the reinforced concrete component ( 12 ' . 12 '' ) is arranged. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that the connecting section ( 14 ' . 14 '' ) extends over the entire component thickness. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that the connecting section ( 14 ' . 14 '' ) into the reinforced concrete component ( 12 ' . 12 '' ) is concreted. Reinforced concrete component ( 12 ' . 12 '' ) according to one of the preceding claims, characterized in that the reinforced concrete component ( 12 ' . 12 '' ) has at least one anchor, the connecting portion ( 14 ' . 14 '' ) connects to the concrete. Arrangement ( 10 ) of at least two reinforced concrete components ( 12 ' . 12 '' ) according to one of the preceding claims and at least one connecting element ( 24 ' . 24 '' ), wherein the connecting element ( 24 ' . 24 '' ) the reinforced concrete components ( 12 ' . 12 '' ) connects to each other. Arrangement ( 10 ) according to claim 13, characterized in that the connecting element ( 24 ' . 24 '' ) is a self-tapping or self-drilling screw. Arrangement ( 10 ) according to claim 13 or 14, characterized in that the connecting element ( 24 ' . 24 '' ) a metal molding, in particular an angle plate ( 30 ), having.

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