DE102009039337B4 - Concrete structure - Google Patents

Abstract

Concrete structure consisting of an existing concrete component (20) and a supplementary concrete component (21) concreted to it via a reinforcement connection (10), the reinforcement connection (10) having at least one reinforcement steel bar (1) connected to the supplementary concrete component (21), which is provided with a tool attachment shape ( 4, 5, 7) and is provided with an anchoring section (2) connected to the existing concrete component (20), which is provided with an external thread (6, 8) or cutting teeth (9) and with this / these directly in a existing concrete component (20) is anchored by turning the drilled hole (40), characterized in that the anchoring section (2) at least in the area of the external thread (6, 8) or the cutting teeth (9) consists of harder metal than that in the supplementary concrete component ( 21) protruding section of the reinforcing steel bar (1) and that the tool attachment shape (4, 5) in the transition area between the anchoring section (2) and the subsequent The section of the reinforcing steel bar (1) protruding into the supplementary concrete component (21) or in the transition area between the external thread (6) and a welded connection (3) between the anchoring section (2) and the section of the reinforcing steel bar (1) protruding into the supplementary concrete component (21) ) is arranged.

Description

The invention relates to a concrete structure made of an existing concrete component and a supplementary concrete component concreted to it via a reinforcement connection, the reinforcement connection having at least one reinforcing steel bar connected to the supplementary concrete component, which is provided with a tool attachment shape and with an anchoring section connected to the existing concrete component is provided with an external thread or cutting teeth and is anchored with this / these directly in a drilled hole made in the existing concrete component by turning.

A concrete structure of this type is in the DE 10 2005 020 795 A1 specified. In this known concrete structure, a fastening anchor with a self-tapping external thread is screwed into a borehole of a component made of concrete, the diameter of the borehole being smaller than the outer diameter of the thread. After drilling the borehole, a self-hardening composite material is introduced into it, the diameter of the borehole being selected so that an annular gap remains between the wall of the borehole and the core of the fastening anchor along the threaded section. By screwing in the anchor, the composite mass is put under pressure and on the one hand gets into the concrete surrounding the borehole and solidifies it after hardening. On the other hand, composite material emerges laterally through the gap and forms a seal with a pane.

Further concrete structures with reinforcement connections are in the EP 1 041 208. A2 , the EP 1 710 453 A1 , the DE 31 30 787 A1 , the DE 197 43 054 A1 , the US 6,286,270 B1 and the EP 1 329 564 A1 shown.

Another concrete structure, namely a cantilevered structure with a side cornice, as it is, for example, a bridge with bridge caps, is in the DE 1 534 464 A1 specified. Here, the concrete parts penetrating steels are provided for fastening cornice panels with a support element, which are welded to one another in a separating joint, which is poured with concrete after welding. Such connections are often difficult to make on existing concrete components.

In the DE 10 2009 007 442 A1 a bridge with bridge caps is also shown. The bridge caps are anchored on their upper side and partly also on the side by means of screws which are inserted into previously made openings. The screws can be designed to be self-tapping.

Further concrete structures with existing concrete components and additional concrete components to be attached are in the WO 03/102308 A1 , the DE 101 09 001 A1 and in the EP 1 380 695 A2 shown, each different fastening devices made of steel elements are used. The design of the connecting steel elements is in part relatively complex, which can lead to difficulties in establishing the connection.

There are also differently designed screw-like anchors for fastening attachments in concrete or masonry, which have a thread that can be screwed directly into the masonry, such as the DE 10 2007 042 977 A1 , the DE 10 2006 024 440 B4 , the DE 101 07 801 A1 and the WO 97/16652 A1 demonstrate. However, no reinforcement connection is achieved with these designs.

Also known are fixings on masonry, where in z. B. Concrete introduced a hole and then the reinforcing steel is anchored by means of reaction resin in the larger drill hole. With such a shear connector, it is relatively difficult to ensure a stable connection, since the borehole has to be cleaned very well and unfavorable conditions can lead to inadequate fastening.

The invention is based on the object of providing a concrete structure of the type mentioned at the outset, in which a reliable connection between an existing concrete component and a concrete supplementary concrete component with reinforcement connection is achieved with simple use and stable fastening.

This object is achieved in a concrete structure with the features of claim 1. It is provided here that the anchoring section consists of harder metal at least in the area of the external thread or the cutting teeth than the section of the reinforcing steel bar protruding into the supplementary concrete component and that the tool attachment shape in the transition area between the anchoring section and the adjoining section of the reinforcing steel bar protruding into the supplementary concrete component Transition area between the external thread and a welded connection is arranged between the anchoring section and the section of the reinforcing steel rod protruding into the supplementary component.

With this structure, the reinforcing steel bars with the anchoring sections can be stably and reliably fixed in the existing concrete component, after which the supplementary component can be concreted on. The result is an easily controllable, stable connection.

An advantageous embodiment for producing the anchorage is that the external thread is designed to be self-tapping in concrete.

A further advantageous embodiment for introducing the anchoring part is obtained in that a drill hole thread adapted to the external thread or longitudinal grooves adapted to the cutting teeth is / are made in the borehole by means of a drilling tool, into which the anchoring section is screwed or pushed. The drilling tool can be an independent device with which the thread is also introduced into the borehole while drilling, or an attachment for a hand drill.

A further advantageous embodiment for introducing and securing the anchoring section in a stable manner consists in that the anchoring section with the cutting teeth is driven into the borehole and is secured against axial displacement by subsequent rotation.

Different design variants for stable anchoring result from the fact that the anchoring section is formed in one piece on the reinforcing steel rod or attached to it by welding, pressing, gluing or a thread.

For the production of the connection, the measures are also advantageous that the external thread and / or the cutting teeth is / are formed in a coating of hardened or harder steel than the rest of the reinforcing steel bar.

For the attachment of the anchoring part in the concrete part it is advantageously provided that the reinforcing steel bar is provided with a tool attachment. As a result, the anchoring section can be screwed into the borehole of the existing concrete component without difficulty, or it can be driven first and then screwed in.

The measures that the reinforcing steel bar, in particular the anchoring section, are provided with corrosion protection contribute to a permanently reliable connection.

• 1 einen Ausschnitt aus einem Betonbauwerk mit einem bestehenden Betonbauteil und einem daran anbetonierten Ergänzungsbetonbauteil mit einem Bewehrungsanschluss,
• 2 ein erstes Ausführungsbeispiel eines Bewehrungsstahlstabs mit Verankerungsabschnitt,
• 3 ein zweites Ausführungsbeispiel eines Bewehrungsstahlstabs mit Veränkerungsabschnitt,
• 4 ein drittes Ausführungsbeispiel eines Bewehrungsstahlstabs mit Verankerungsabschnitt und
• 5 ein viertes Ausführungsbeispiel eines Bewehrungsstahlstabs mit einem Verankerungsabschnitt.

The invention is explained in more detail below on the basis of exemplary embodiments with reference to the drawings. Show it:

• 1 a section of a concrete structure with an existing concrete component and a concrete supplementary concrete component with a reinforcement connection,
• 2 a first embodiment of a reinforcing steel bar with anchoring section,
• 3 a second embodiment of a reinforcing steel bar with anchoring section,
• 4th a third embodiment of a reinforcing steel bar with anchoring section and
• 5 a fourth embodiment of a reinforcing steel bar with an anchoring section.

1 shows a section of a concrete structure, such as B. a bridge or a building with ceiling connection or balcony connection, with an existing concrete component, 20th (e.g. side part of the bridge) on which a supplementary concrete component 21st (e.g. bridge cap) by means of a reinforcement connection 10 is attached. For example, in this way a bridge cap can advantageously be fastened or concreted on to a protruding side part of a bridge. The rebar connection 10 usually has a variety of rebar 1 from z. B. ribbed structural steel or the like. (Such as threaded rods with nuts or other holding elements) for the reinforcement of concrete and is with an anchoring section 2 provided, the one external thread or several rows of cutting teeth extending in the longitudinal direction and spaced apart in the circumferential direction 9 as will be explained in more detail below.

Each with an anchoring section 2 provided reinforcing steel bars 1 are screwed or knocked in with the anchoring section into a hole previously made in the existing concrete component with a slightly smaller diameter than the thread diameter or diameter of the cutting tooth section and then anchored by turning. The supplementary concrete component 21st is then attached to the reinforcing steel bars above 1 concreted in.

In the 2 to 5 are further embodiments for the reinforcement connection 10 with the rebar 1 and the anchoring sections 2 shown. According to 2 is the anchoring section 2 with a self-tapping external thread 6th provided and a welded connection 3 on the reinforcing steel bar 1 welded on. In the transition area between the external thread 6th and the weld joint 3 with the weld seam in question is a z. B. hexagonal tool attachment shape 4th formed on which a tool for screwing in the anchoring section 2 into the borehole 40 is trained. The anchoring section 2 with the external thread 6th is made of a hardenable or harder metal material than that with the supplementary concrete component 21st Section of the reinforcing steel bar to be connected 1 , which is made of relatively soft structural steel according to the usual reinforcement bars, which is too soft for a cutting thread in concrete and whose composition does not allow subsequent hardening. In the meantime, the hard external thread reliably cuts into the concrete, in particular with the help of a toothing of the thread in the hole made with a slightly smaller diameter.
3.

The in 3 The embodiment shown is the anchoring section 2 in one piece on the reinforcing steel bar 1 attached and provided with a coating of harder or hardenable steel, so that also thereby a safe cutting effect in the concrete around the borehole 40 is achieved. The weld seam is not required here. For the attachment of a tool for screwing in the anchoring section 2 into the borehole 40 are two forms of tool attachment 5 and 7th provided with two parallel flat sides, namely one in the transition area between the anchoring section 2 and the ribbed steel section of the rebar 1 and the other in the ribbed steel section.

In the embodiment according to 4th is the anchoring section 2 with several rows of pointed cutting teeth spaced apart in the circumferential direction 9 formed, as can also be seen from the cross-sectional view, and is in the somewhat narrower borehole 40 knocked in and then turned to anchor, including a tool attachment shape 5 is provided. Depending on the requirements for the anchoring force, the anchoring section 2 be made more or less long and / or more or less many rows of teeth can be provided, the tooth shapes can also be designed differently according to different requirements. For easy driving in or insertion of the anchoring section 2 into the borehole 40 can in this already prepared grooves for the rows of cutting teeth 9 be introduced, so that damage to the cutting teeth 9 is avoided during axial insertion. The longitudinal furrows also result in the borehole 40 a clear lead.

In the embodiment according to 5 is the anchoring section with a coarse external thread 8th provided, which can give a more stable hold in softer concrete or pre-machined drill hole threads.

In particular with the impact variant of the anchoring section 2 with the cutting teeth 9 there is the possibility of only the tip of the anchoring section 2 or hammerset anchor made of harder material as an integrated grooving tool. Here, too, the number and shape of the teeth, their arrangement and the number of longitudinal grooves can vary in order to achieve optimal anchoring.

Various concrete structures or application examples for the reinforcement connection are add-on measures such as consoles or extensions (ceilings, walls, floor slabs, balconies, cantilever arms, bridge caps) and concreting such as shear connections for ceiling reinforcements.

Claims (7)

Concrete structure consisting of an existing concrete component (20) and a supplementary concrete component (21) concreted to it via a reinforcement connection (10), the reinforcement connection (10) having at least one reinforcement steel bar (1) connected to the supplementary concrete component (21), which is provided with a tool attachment shape ( 4, 5, 7) and is provided with an anchoring section (2) connected to the existing concrete component (20), which is provided with an external thread (6, 8) or cutting teeth (9) and with this / these directly in a existing concrete component (20) is anchored by turning the drilled hole (40), characterized in that the anchoring section (2) at least in the area of the external thread (6, 8) or the cutting teeth (9) consists of harder metal than that in the supplementary concrete component ( 21) protruding section of the reinforcing steel bar (1) and that the tool attachment shape (4, 5) in the transition area between the anchoring section (2) and the a n the connecting section of the reinforcing steel bar (1) protruding into the supplementary concrete component (21) or in the transition area between the external thread (6) and a welded connection (3) between the anchoring section (2) and the section of the reinforcing steel bar (1) protruding into the supplementary concrete component (21) ) is arranged. Concrete structure after Claim 1 , characterized in that the external thread (6, 8) is self-tapping in concrete. Concrete structure after Claim 1 or 2 , characterized in that in the borehole (40) by means of a drilling tool a borehole thread adapted to the external thread (6, 8) or longitudinal grooves adapted to the cutting teeth (9) is / are made, into which the anchoring section (2) is screwed or is inserted. Concrete structure after Claim 1 that the anchoring section (2) with the cutting teeth (9) hammered into the borehole and through subsequent rotation is set against axial displacement. Concrete structure according to one of the preceding claims, characterized in that the anchoring section (2) is formed in one piece on the reinforcing steel bar (1) or is attached to it by welding, pressing, gluing or a thread (2.1). Concrete structure according to one of the preceding claims, characterized in that the external thread (6, 8) and / or the cutting teeth (9) is / are formed in a coating of hardened or harder steel than the remaining part of the reinforcing steel bar (1). Concrete structure according to one of the preceding claims, characterized in that the reinforcing steel bar (1), in particular the anchoring section (2), is provided with corrosion protection.

Images