DE2041059A1 - Process for the production of components from reinforced concrete and reinforcement for carrying out the process - Google Patents

Description

Dr. Ing.H. Negendank Dipl. Ing. H. Heuck

Dipl. Phys. W. Schmilz

β Munich 15 _r Mocartstrasse 23

Agence Nationale de Valorisation ^{Τβ |} · ^5380ββ * de la Recherche

3, rue Bellini

92 Puteaux, Prance

:: ~~ July 15, 1970

Legal File: M-1269

Process for the production of components from reinforced concrete and reinforcement for carrying out the process ' %

The invention relates to a method for producing components from reinforced concrete, in particular walls, posts, slabs, Roof panels, girders, separating, distributing, supporting and stiffening elements, fillers, stairs, ramps, webs or Bridges.

In the manufacture of walls, walls or slabs of reinforced concrete, a formwork is usually set up, in ^ one reinforcement is used, then concrete is poured into the formwork, and after the concrete has dried, the Casing removed.

This method has several disadvantages. Setting up the Halving and the removal of the formwork require a considerable amount of time Time; In addition, the cladding with which the concrete must be coated can only be attached when the concrete

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is completely dry.

The invention is based on the object of specifying a method which does not have these disadvantages. This is achieved according to the invention in that a wave-shaped reinforcement is used, that at the vertices of the waves, at least on one side of the reinforcement, a perforated top wall is attached, that a liquid material that can be hardened by drying is applied to the top wall from the side facing away from the reinforcement, and that after the material has hardened, concrete is poured over the reinforcement.

man

In the method according to the invention, no casings are required / thus and you can apply the cladding immediately after the hardening of the hardenable material without hardening to have to wait for the concrete.

A commercially available material, for example a grid, used.

A reinforcement for carrying out the method according to the invention is characterized by a first structural unit consisting of a Number of bars parallel to each other, which have the shape of uniform waves, and a number of bars parallel to each other, which run in a straight line and are welded to the vertices of the wave-shaped bars, and a second structural unit, the sits between the straight bars and rests against them.

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'This reinforcement has the advantage of being particularly simple and to be easily transported.

j In a further embodiment of the invention, the straight lines

! Rods alternately welded to an inner vertex and to an outer vertex of the wave-shaped rods; on Because of this feature, the first structural unit can be made from straight rods that run vertically to one another are welded, whereupon a number of each other parallel bars can be bent in a wave shape.

In a further embodiment of the invention, there is the second structural unit made of two parallel rods that are connected to one another by intermediate rods.

The Zwiselien rods can on the mutually parallel rods of the protrude second structural unit; this enables the attachment of the second structural unit when the second structural unit between the ! rectilinear rods of the first structural unit is used. The attachment happens in such a way that the ends that protrude over the parallel bars of the second structural unit in such a way are bent so that they grip the wave-shaped rods of the first structural unit in the region of the vertices.

Another embodiment of the invention has the purpose of fastening to simplify the cover walls on the reinforcement, namely '

: i

in such a way that the top walls without additional fasteners can be installed very quickly. This is achieved in that

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the free ends of the intermediate rods of the second structural unit, which protrude beyond the parallel rods of the second structural unit, die-form of hooks.

Because of this feature, it is possible to use the second structural unit

j from the side between the straight bars of the first building

; unit to use to twist the second assembly so that they ■ perpendicular to the straight bars of the first structural unit ver-I runs, and then simply insert the top wall (or the top walls)

! hang up, so that the hooks formed free ends of the; Intermediate rods engage in the top walls and hold them in place.

• Based on the drawings, preferred embodiments of the I explained the invention in more detail. Show it:

! Fig. 1 is a perspective view of a structural unit of a ; inventive reinforcement;

i Fig. 2 is a perspective view of another structural unit of the

P I reinforcement according to the invention;

; 3 shows a vertical longitudinal section through the two structural units ; of FIGS. 1, 2 in the assembled state;

Fig. 4 is a perspective view of a modified embodiment the reinforcement according to the invention;

j Fig. 5 shows a further embodiment of the second structural unit of the

I - 5

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- 5 reinforcement according to the invention;

6 is a view illustrating the method according to the invention _; should be vivid. :

In Pig. 1 shows the structural unit 1 of a reinforcement according to the invention, which consists of a number of parallel, straight rods 2 and a number of parallel, wave-shaped rods 3. The bars 3 form uniform waves, and the bars 2 are at the vertices of this wave, namely alternately. ^: g from the outside or inside of the vertices, welded on ^

In FIG. 2, a unit 4 is shown, which has two parallel \ rods 5. The rods 5 are connected to one another by intermediate rods 6, so that the structural unit 4 has the shape of a ladder!

Fig. 4 shows another embodiment of one according to the invention Reinforcement. The reinforcement shown in this figure has a structural unit 10, which with the structural unit 1 of FIGS. 1, 2 and 3 ™ is identical and consists of straight rods 11 and two wave-shaped rods 12, which are perpendicularly welded to the rods 11, consists.

Between the straight rods 11 there are two structural units * [13, which are inserted from the side and then pivoted so that they lie in planes running perpendicular to the rods 11. Each _; Unit 13 has two straight, parallel rods 14 which!

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are interconnected by intermediate rods I5. Every intermediate rod 15 protrudes with its two ends beyond the rods 14 of a structural unit I3, so that the free ends around the rods 12 can be bent around.

The structural unit Hilj5 are arranged in such a way that the intermediate rods 15 rest against the rods 11 and the rods 12 in the vicinity of the Wrap around vertices.

Due to this arrangement, the structural units 10 and 13 be assembled very quickly, the assembly immediate;

i bar on the construction site.

As can be seen, both the structural units 1 and 10 and the structural units 4 and 13 can be used for transport and storage stacked on top of each other.

Fig. 5 shows a perspective view of another embodiment of the second assembly to be inserted between the straight rods of the first assembly of FIG The structural unit shown in this figure, which is provided with the reference number 20 i, consists of two straight, parallel rods 21 and intermediate rods 22 which are welded to the rods 21. The intermediate rods 22 protrude with their free ends 23 on the Rods 21 addition, these free ends 23 formed as hooks are.

6 illustrates the method according to the invention.

- 7 ■

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The reinforcement shown in this figure consists of a first structural unit 1, as shown in FIG. 1, and of two second structural units 20, as shown in FIG. ^:

I The reinforcement is set up according to a construction plan and by any suitable means (planks, tension wires and the like) on a previously provided support (e.g. the ground, a platform and the like) attached.

The structural units 20 are inserted from the side between the rods 2 introduced and then pivoted so that they rest against the rods 3. On one side of the reinforcement, a cover wall 25 is attached, which consists for example of a metal grid. the j Hooks 23 on the corresponding side reach through the mesh j of the top wall 25 and thus hold the top wall. On the other

On the side of the reinforcement, a top wall 26 is also attached, which is also attached by the hooks 23.

Openings can be cut into the cover walls 25, 26. After the top walls, 25, 26 have been attached, the armie ^ The opposite side is made of a liquid material that can be hardened by drying (e.g. cement, lime, mortar or even Plaster of paris) is sprayed onto the top walls. This material bonds to each top wall, clogs its openings and forms one Cladding. Then cement is poured between the top walls, which floods the reinforcement.

In the drawing a vertical wall is shown; it understands

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It goes without saying, however, that one can use the method according to the invention can also manufacture panels, roof panels, etc. In this case, the reinforcement is placed on a base and the top wall is then attached to the vertices of the wave-shaped reinforcement, namely to the underside of the reinforcement.

In this case it is not necessary to provide a second top wall. You thus cover the only top wall with one material that can be hardened by drying, and after it has hardened, the concrete is poured over the reinforcement.

The method according to the invention can also be used to produce curved surfaces. For this purpose, the units 4, IJ j and 20 are formed from curved parallel rods which are connected by intermediate rods to the structural units 1, with to which they are connected to give the desired curvature.

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Claims (7)

Claims ί ! .Process for the production of components from reinforced concrete, in particular of walls, walls and slabs, characterized in that a wave-shaped reinforcement is used, 'that at the vertices of the waves, at least on one side of the reinforcement, a perforated top wall is attached is that a liquid, hardenable by drying material is applied from the side facing away from the reinforcement on the top wall, and that after the material has hardened, concrete is poured over the reinforcement. 2. The method according to claim 1, characterized in that a metal grid is used as the top wall. \ 3. Reinforcement for performing the method according to claim ί or: 2, characterized by a first structural unit (Ij 10), consisting from a number of bars parallel to one another (j5j 12), ie $ have the shape of uniform waves, and a number of mutually parallel rods (2; 11) which run in a straight line and attached to the vertices of the wave-shaped rods, are welded, and a second structural unit (4; 20) between - 10 - 109 849/090 8 2041053 - ίο - the straight rods (2; 11) is seated and rests against them. 4. Reinforcement according to claim 3, characterized in that the straight rods (2j 11) alternately on the inner and on the outer vertices of the wave-shaped rods (3; 12) are arranged. 5. Reinforcement according to claim j5 or 4, characterized in that « that the second structural unit (4; 20) has two rods (5 $ 21) which are connected to one another by intermediate rods (6; 15; 22) are. 6. Reinforcement according to claim 5, characterized in that the Intermediate bars (15; 22) protrude beyond the parallel bars (5; 21) of the second structural unit. 7. Reinforcement according to claim 6, characterized in that the free ends (25) of the intermediate rods (22) of the second structural unit (20), which protrude beyond the parallel bars (21) of the second structural unit, are in the form of hooks. 109849 / Q9Q8