DE9302006U1 - Reinforcement for an angle bracket - Google Patents

Description

Reinforcement for an angle bracket

The present invention relates to a reinforcement for an angle support.

Reinforcements for angle supports are known in connection with the production of angle-shaped concrete components. Such angle supports are used, for example, to secure slopes, form retaining walls, etc.

The reinforcement for angle supports known from the general state of the art has a steel bent into a loop, which has transverse rods on its protruding arms that connect successive loops to one another. At the ends of each arm, the loop is bent twice at approximately right angles, so that the last section is aligned parallel to the actual arm. An angle-shaped structural steel mesh mat is welded onto these sections and the loop from the outside, so that the structural steel mesh mat and the bent loop form an approximately L-shaped reinforcement cage when welded together.

Such an angle support has the disadvantage that it is extremely complicated to unwind and bend a reinforcing steel, which is provided with transverse rods in order to connect subsequent elements to one another, i.e. which corresponds to a reinforcing steel mesh mat, in such a way that a loop as described above is created.

Furthermore, the reinforcement cages of the state of the art mentioned above are heavy, since a lot of steel has to be used to form the stabilization loop. The high steel consumption for producing a reinforcement cage and its resulting high weight result in correspondingly high manufacturing and operating costs.

The object of the present invention is therefore to provide a reinforcement for an angle support which can be manufactured more easily and more cost-effectively while complying with safety regulations.

The problem is solved by the reinforcement according to claim 1.

With the reinforcement according to the invention for an angle support, it is now possible to prefabricate a two-layer, L-shaped reinforcement cage from a reinforcing material, such as a structural steel mesh mat, and subsequently to firmly insert a stabilizing loop, for example made of reinforcing steel, into the angle enclosed by the L-shaped reinforcement cage in order to obtain a bending-resistant connection.

The stabilization loop itself no longer forms part of the outer wall of the reinforcement cage and can therefore be manufactured with much less effort. This means that the transverse rods are no longer needed and the angled extensions at the ends of the respective loop arms are no longer required. For a 100 cage, i.e. a reinforcement cage with a height of 100 cm, around 2 kg of steel per cage are saved compared to the state of the art mentioned above.

Subclaims 2 to 8 are directed to further advantageous embodiments of the reinforcement according to the invention.

An embodiment of the present invention is described in more detail with reference to the drawings.

Fig. 1 is a schematic cross-section through a reinforcement according to the present invention,

Fig. 2 a schematic cross-section through a steel mesh mat bent into a two-layer, L-shaped reinforcement cage ,

Fig. 3 is a schematic side view of a stabilization loop that is welded into the reinforcement cage of Fig. 2,

Fig. 4 is a schematic representation, in cross section, of a reinforcement for angle supports of the state of the art.

In Fig. 2, a reinforcement mat 1 forming a two-layer, L-shaped reinforcement cage is shown schematically as reinforcement for angle supports. The reinforcement mat 1 is, for example, a structural steel mesh mat with longitudinal and transverse rods la, lb. The structural steel mesh mat has been bent into the L-shaped reinforcement cage in a previous process step. In another embodiment, the L-shaped reinforcement cage can also be welded together from several structural steel mesh mat parts. The angle α enclosed by the reinforcement cage is preferably 90°. Reinforcements with other angles α are also conceivable.

Preferably, a reinforcement cage is formed from a section of a structural steel mesh mat comprising seven longitudinally extending bars.

Fig. 3 shows a stabilizing loop 3 made of reinforcing steel. The stabilizing loop 3 has a loop part 3a which is adapted to the angle α of the reinforcement cage and can be inserted into the angle of the reinforcement cage via a gap 2 between the two ends 1a, 1b of the reinforcement mat 1 bent to form the reinforcement cage. The two arms 3b and 3c protrude from the loop part 3a and also enclose an angle which corresponds to the angle α and is aligned with it.

The stabilizing loop 3 is, as shown in Fig. 1, inserted into the reinforcement cage via the gap 2 and is attached by its arms 3b, 3c from the outside to a longitudinal
running rod of the reinforcement cage is welded at several points 4, i.e., for a preferred reinforcement cage with seven longitudinally running rods, seven stabilization loops 3 are provided.

In Fig. 4 an example of reinforcement is shown for explanation
for angle supports of the prior art. Here, a loop is bent from a structural steel mat 5 or the like, so that the upper ends of the loop arms 5a and 5b
are each shaped so that an end section 5d again

is aligned parallel to the respective arm 5a or 5b. An angle-shaped bent steel mesh mat 7 is welded to the outside of the end sections 5d and a loop part 5c at several points 8.

Claims (8)

Protection claims 1. Reinforcement for an angle support with a reinforcement mat (1) which is formed into a two-layer reinforcement cage which encloses an angle α corresponding to the angle support and has a stabilization loop (3) which is arranged within the reinforcement cage at the angle α and is firmly connected to the reinforcement mat (1). 2. Reinforcement according to claim 1,
characterized, that the stabilizing loop (3) has two free arms (3b, 3c), each of which can be fixed from the outside to the reinforcement mat (1) of the reinforcement cage. 3. Reinforcement according to claim 1 or 2, characterized in that the reinforcement mat (1) is bent into an L-shaped reinforcement cage. 4. Reinforcement according to claim 1 or 2, characterized in that the reinforcement mat (1) is welded to form an L-shaped reinforcement cage. 5. Reinforcement according to one of claims 1-4, characterized in that the reinforcement cage forms an angle of approximately 90°. 6. Reinforcement according to one of claims 1-5, characterized in that the stabilizing loop (3) is welded into the reinforcement cage made of the reinforcement mat (1). 7. Reinforcement according to one of the preceding claims, characterized in that the reinforcing mat (1) is a structural steel mesh mat. 8. Reinforcement after a 5 of the preceding claims, characterized in that the stabilizing loop (3) consists of a reinforcing steel consists.
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