DE202009001292U1 - Anchorage and connection arrangement - Google Patents

Abstract

An anchoring and connecting arrangement (1) for anchoring objects in an anchoring ground or joining objects together, comprising:
a preferably rod-shaped anchoring element (10) which has an outer peripheral surface (12), which at least partially profilings (14), and
an anchoring mass (20) which at least in sections contains a hardenable mass (22) in order to connect the anchoring element (10), at least in the region of the profiling (14), to an anchoring ground or other object (30),
characterized in that
the anchoring mass (20) contains a grain fraction, wherein the grains (24) of the grain fraction have a mean sieve diameter of at least 0.1 mm.

Description

Technical area

The The invention relates to an anchoring and connection arrangement for Anchoring objects in an anchoring ground or Connecting objects together, according to the generic term of claim 1.

State of the art

mooring and connection arrangements are widely used in construction technology, for example for anchoring objects to walls or other load-bearing components, such as concrete or Reinforced concrete are made. Further suitable anchoring and Connecting arrangements of the type in question here, for example Also for connecting (concrete) precast or other load-bearing Components.

A generic coupling sleeve is in the EP 1 424 453 A1 disclosed. In this connection sleeve, for example, two reinforcing bars made of reinforcing steel, which are to be positively connected to each other, are inserted. Subsequently, the coupling sleeve is sealed to finally fill the interior of the coupling sleeve with a composite or adhesive mortar.

Although the well-known connection sleeve proven in practice has, has been shown to be comparatively under stress over time large deformations occur. This can be interconnected Concrete parts for excessive cracking lead to impaired appearance and durability. Furthermore, excessive deformation In the area of the connecting sleeve also impair the carrying security.

Presentation of the invention

It is therefore an object of the invention, an anchoring and connection arrangement of the type mentioned above, even with long-lasting Stress the occurrence of excessive deformations prevented.

These The object is achieved by an anchoring and connection arrangement according to claim 1 solved. Especially preferred embodiments of the invention are in the specified dependent claims.

The invention is based on the idea of reducing the so-called creep, ie the time-dependent deformations occurring under load, in the region of the anchoring mass in the case of a generic anchoring and connecting arrangement. For this purpose, the invention provides that the anchoring mass contains a grain fraction, wherein the grains of the grain fraction have a mean sieve diameter of at least 0.1 mm. In this way, a grain skeleton can form in the anchoring mass, which allows a support of the anchoring forces of the anchoring element on the anchoring ground or other object. The (at least partially) existing, direct power transmission by means of the grains minimizes any creep deformations in the region of the connection or anchoring. As a result, not only the reliability can be increased, but also the durability and appearance of the respective component are improved.
10 '

The Material of the grains of the grain fraction can in Used within the scope of the present invention various substances become. According to a development of the invention However, it is envisaged that the material of the grains of Grain fraction is selected from metal, in particular steel, as well as rocks and ceramics. These materials have a low Susceptibility to creep, let work well, have a high durability in one Adhesive mortar environment and also have a high strength.

in the It is further in view of the grains of the grain fraction preferred that at least a part of the grains of the grain fraction made of crushed material. This allows frictional forces and optionally even a flow of form between adjacent grains the grain fraction produce what the stability and effectiveness the support within the grain fraction increases and thus creep deformations further reduced.

alternative or additionally, however, it is also within the scope of the invention preferred that at least a part of the grains of the grain fraction made of rounded material, in particular ball material is obtained. This will allow another essential requirement to better meet the anchoring mass. Because rounded Grains help to ensure that the anchoring mass is not Hardened state comparatively easily in the anchoring ground or other object such as a sleeve can be introduced, because the grain fraction can be easily mixed. On the other hand lets However, with rounded grains and a good supportive effect achieve, where appropriate, the rounded grains can be combined with a grain fraction of crushed material.

With a view to easy insertion of the anchoring mass and a good packing density te of the grain fraction is provided according to a development of the invention that the grains of the grain fraction have a mean sieve diameter of at most 1.0 mm, preferably at most 0.6 mm.

Although in the context of the present invention, in principle, a so-called Einkornfraktion (ie a fraction whose grains all have substantially the same diameter) are used can, is in accordance with a development of the invention provided that the grains of the grain fraction in at least divide two groups with different mean sieve diameters. This can be a particularly dense and durable Grain skeleton are produced, which provides corresponding advantages the reduction of the creep deformation results.

Of the Volume fraction of the grains of the grain fraction on the whole Anchoring mass may in the context of the invention, in particular Consideration of the grain diameter and the grading curve (i.e. H. the staggering of the diameters of the grains) become. According to a development of the invention However, it is provided that the grains of the grain fraction occupy such a volume fraction in the anchoring mass, that the grains in a power transmission from the anchoring element on the anchoring ground or connected object at least partially support each other. hereby a possible "initial creep" is avoided d. H. the connection or anchoring does not require large Deformations to activate the supporting action of the grain skeleton.

there has been shown in analyzes and trials to be a special effective avoidance of initial creep results if according to a Development of the invention, the grains of the grain fraction a volume fraction of at least 30%, preferably at least 40%, particularly preferably at least 50%, in the anchoring mass.

The Anchoring mass has in the context of the present invention in addition the grain fraction on a more sustainable mass, which advantageously the Spaces between the grains of the grain fraction fills. In addition to an adhesive effect between anchoring element and anchoring ground At the same time, the bearable mass can only be displaceable hamper the respective grains to each other. That's it particularly preferred that the grains of the grain fraction at least in some areas are not embedded in sustainable mass, in particular in a space spaced from the surface of the anchoring mass Area. This makes the need for more sustainable Minimize mass without affecting the carrying properties of the Anchoring mass would be significantly impaired.

Although the aushaltbare mass in the context of the invention of different Materials can be selected is according to a Further development of the invention provided that the sustainable mass having a resin-based binder. As a result, has the Sustainable mass not only high load capacity and Durability, but can also be easily on site contribute to the ground, for example by means of a suitable Mixer or extruder.

Although the anchoring and connection arrangement according to the invention also directly in any anchoring reason such as Concrete can be introduced is according to a Development of the invention provided that the connection and Anchoring arrangement further comprises a coupling sleeve, the has an inner peripheral surface, the preferred profiles having. In this way, the inventive is Anchoring and connection arrangement particularly good for joining rod-shaped elements such as reinforcing bars.

Brief description of the drawings

1 shows schematically a partially cutaway side view of an anchoring and connecting arrangement according to the invention;

2 schematically shows a detailed view 1 ,

Detailed description: preferred embodiments

preferred Embodiments of the invention will be described in detail below and with reference to the accompanying drawings.

An anchoring and connection arrangement 1 as a preferred embodiment of the invention is in 1 shown schematically in a partially cutaway side view. The anchoring and connection arrangement 1 serves in the present embodiment for connecting two reinforcing bars 10 . 10 ' made of ribbed rebar. The reinforcing rods can do this 10 . 10 ' each embedded in a concrete part or precast concrete part, for example, in the area between the two reinforcing bars 10 respectively. 10 ' a kind of concrete or prefabricated joint may be arranged. Furthermore, the anchoring and connecting arrangement according to the invention can be used in a wide variety of configurations and in a wide variety of components, as described for example in the EP 1424453 A1 are disclosed.

The anchoring and connecting system voltage 1 includes in the present embodiment, in addition to serving as anchoring elements reinforcing bars 10 . 10 ' with their on the outer peripheral surface 12 arranged ribs 14 - An anchoring mass 20 , The reinforcing bars 10 . 10 ' are in the anchoring mass 20 embedded and over this with a sleeve 30 connected to a filling opening 36 for the anchoring mass 20 has. On its inner peripheral surface 32 is the sleeve 30 with a ribbing 34 provided, which may for example be designed as internal thread.

The anchoring mass 20 is in the present embodiment by a curable composition 22 formed in which a multi-grain fraction is provided by grains 24 is formed with different average diameters. At the grains 24 In the present embodiment, these are steel grains, although other materials such as rocks, ceramics, etc. may be used. The grains of the grain fraction are a mixture of broken and rounded material and are present in several groups with different mean sieve diameters. Here are the average sieve diameter of the grains 24 in a range of 0.1 to 0.6 mm. The volume fraction of the grains 24 the grain fraction is about 50% of the anchoring mass 20 while the remainder of the anchoring mass is formed by a sustainable mass comprising, in the present embodiment, a resin-based binder.

The use of the anchoring and connection arrangement 1 takes place, for example, as follows. First, the rebars 10 respectively. 10 ' with their free ends in the sleeve 30 inserted, and the corresponding insertion of the sleeve 30 be with suitable caps 40 closed, thereby also centering the reinforcing bars 10 ' is effected. Subsequently, the inside of the sleeve 30 with the anchoring mass 20 filled, for example, on the use of a suitable mixing device, an extruder or the like. As a result, the between the reinforcing bars 10 respectively. 10 ' and the inner peripheral surface 32 the sleeve 30 existing space with the anchoring mass 20 filled, causing the in 2 in detail shown filling state is produced.

2 clearly shows the gradation of the grains 24 the grain fraction, which are already supported in the unloaded state at least partially together. Do you bring now a tensile force Z ( 1 ) on the reinforcing bars 10 respectively. 10 ' on, forms between the reinforcing bars 10 respectively. 10 ' and the sleeve 30 imagined struts "D" from, in the area of a direct power transmission through the grains 24 the grain fraction takes place. As a result, creep deformations in the region of the anchoring mass 20 be minimized.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1424453 A1 [0003, 0021]

Claims (12)

Anchorage and connection arrangement ( 1 ) for anchoring objects in an anchoring ground or joining objects together, comprising: a preferably rod-shaped anchoring element ( 10 ) having an outer peripheral surface ( 12 ), which at least partially profilings ( 14 ), and an anchoring mass ( 20 ), at least in sections, a curable composition ( 22 ) to the anchoring element ( 10 ) at least in the area of profiling ( 14 ) with an anchoring reason or other object ( 30 ), characterized in that the anchoring mass ( 20 ) contains a grain fraction, the grains ( 24 ) of the grain fraction have a mean sieve diameter of at least 0.1 mm. Mooring and connecting arrangement according to claim 1, characterized in that the material of the grains ( 24 ) of the grain fraction is selected from metal, in particular steel, as well as rock and ceramics. Mooring and connecting arrangement according to claim 1 or 2, characterized in that at least a part of the grains ( 24 ) of the grain fraction is obtained from crushed material. Mooring and connection arrangement according to one of the preceding claims, characterized in that at least a part of the grains ( 24 ) of the grain fraction of rounded material, in particular ball material is obtained. Mooring and connection arrangement according to one of the preceding claims, characterized in that the grains ( 24 ) of the grain fraction have a mean sieve diameter of at most 1.0 mm, preferably at most 0.6 mm. Mooring and connection arrangement according to one of the preceding claims, characterized in that the grains ( 24 ) of the grain fraction into at least two groups with different mean sieve diameter. Mooring and connection arrangement according to one of the preceding claims, characterized in that the grains ( 24 ) of the grain fraction such a volume fraction in the anchoring mass ( 20 ) assume that the grains ( 24 ) during a power transmission (D) from the anchoring element ( 10 ) on the ground or connected object ( 30 ) at least partially support each other. Mooring and connection arrangement according to one of the preceding claims, characterized in that the grains ( 24 ) of the grain fraction has a volume fraction of at least 30%, preferably at least 40%, particularly preferably at least 50% in the anchoring composition ( 20 ). Mooring and connection arrangement according to one of the preceding claims, characterized in that the grains ( 24 ) of the grain fraction at least partially not in hardenable mass ( 22 ), in particular in one of the surface of the anchoring mass ( 20 ) spaced area. Mooring and connecting arrangement according to one of the preceding claims, characterized in that the hardenable mass ( 22 ) has a resin-based binder. Mooring and connecting arrangement according to one of the preceding claims, characterized in that it further comprises a connecting sleeve ( 30 ) having an inner peripheral surface ( 32 ), which preferably profilings ( 34 ) having. Mooring and connecting arrangement according to claim 11, characterized in that the connecting sleeve ( 30 ) is provided, at least two anchoring elements ( 10 . 10 ' ) to connect with each other.