DE835799C - Reinforcement element for floors, wall constructions, etc. like - Google Patents

Description

Reinforcement element for floors, wall constructions, etc. When pouring Reinforcement has usually been used up to now for ceilings and the like made of reinforced concrete, which consists of a large number of straight reinforcing bars, which at the ends with hook-like bends are provided, which are directed upwards when pouring the concrete meant to be. The separated reinforcing bars are tied together with a thin iron wire, so that they maintain their mutual position when pouring the concrete. The assembly Such reinforcement is time consuming, and the reinforcement is before and after Pouring very delicate. The workers often step on them, and it happens it is easy to see that the reinforcing bars are shifted and twisted against each other, so that their end hooks are often on their side. Such a displacement of the rebar also takes place easily when the individual bars when underfilling the concrete and when Vibrating etc. the concrete mass will be lifted, increasing the strength of the finished Construction is affected. The listed disadvantages are caused by an according to the invention trained reinforcement insert avoided. The invention characterizes essentially by the fact that the reinforcement insert goes back and forth Parts made of reinforcing steel, these parts being continuously connected and are formed alternately of different lengths, so that the end bends of the reinforcement insert alternately protrude to one or both sides, and that the reinforcement insert can be collapsed into a bundle before use, from which the end bends separate, reciprocating parts at the point of use can be pulled apart the desired lateral distance.

Since the reinforcement insert is continuously connected, it lies behind their attachment with a minimum of fastening wires. Also the work otherwise for cutting the reinforcing bars into the correct lengths and for bending them the ends is not required. As a result of the fact that the parts of the continuously connected reinforcement insert have different lengths the reinforcement can be concentrated on points in the poured ceiling, where both the field moment and the supporting moment have their greatest values. To the Edge parts, where the moments have lower values, the reinforcement is also lower, which saves material.

As a result of the fact that the rebars were removed from the factory in is delivered in a tied bundle, the shipping will be to a large extent facilitated in comparison with the case that loose rebars are used.

For tensile strength is the total cross-sectional area of the reinforcing bars decisive, but it is for the purpose of preventing and achieving the formation of cracks in the concrete For a larger adhesive surface, it is best to use a larger number of thinner rods instead of a smaller number of stronger bars. When using separate reinforcing bars on the other hand, it is more complicated and expensive with regard to assembly and transport, to use thin rods. The present invention adds these additional Eliminates inconvenience, and you therefore have the option of the more advantageous Use smaller bar diameters, which is important for the durability of the concrete structure are conducive. The invention thus leads to a saving in time and material and at the same time results in an improvement in the quality of the concrete structure.

The invention is described in more detail below with reference to in the drawing illustrated embodiments described.

Fig. I shows a side view of a bundled reinforcement insert according to the invention; Fig. 2 shows the same reinforcement insert in perspective Representation and plan view while the legs are being pulled apart; Fig. 3 shows a detail; FIGS. 4 and 5 show a second embodiment, FIG. 5 shows a horizontal view of the reinforcement insert during the expansion of FIG Leg represents; 6 and 7 show a third embodiment in a corresponding manner; 8 to 13 show reinforcement inserts according to FIGS. I to 7 in plan view and in Cut; 14 shows a top view of a combination of different reinforcement inserts; FIG. 15 shows a section through a reinforced wall; Fig. 16 shows a fourth embodiment.

In Figs. I and 2, the reinforcement insert is bundled together Position shown, d. H. as they are finished in the factory and to the place of use is transported. The reinforcement insert is made of ordinary round steel, but in continuous length formed, with end or turning bends 3, 4 back and forth forth going parts 5 are formed. The parts 5 are alternately of different lengths executed so that their end bends protrude alternately from both sides of the bundle. The outer end bends are indicated by 3 and the inner ones by 4. In bundled Adjacent legs are placed crosswise on top of one another. For the use the legs s are perpendicular to the height direction of the bundle (perpendicular to the plane of the drawing in Fig. i) pulled apart, as shown in Fig. 2 by dash-dotted lines is indicated. The legs s are essentially in the same plane and can be placed parallel to each other or, if desired, at an angle form with each other.

8 and 9, two according to FIGS. I and 2 are formed Reinforcement inserts i and 2 shown in the position of use in a ceiling 9. The reinforcement deposits i and 2 are attached at right angles to each other. Your protruding end bends 3 rest on the walls 6, while the end bends 4 lie within the walls. The reinforcement inserts are supplied by the manufacturer with the desired lengths of the legs s ordered.

As can be seen from Fig. 3, the bent ends 3 and 4 can under be bent upwards at an angle to the plane of the leg to ensure a secure anchorage get in concrete.

In the embodiment according to FIGS. 4 and 4, the end bends 3, 4 adjoining parts 7, 8 separated from one another, essentially parallel to one another arranged. The overhead parts 7 are expediently between the end bends slightly bent downwards so that they can better absorb tensile stresses.

In the example according to FIGS. 4 and 5, the parts 7 and 8 are in the same Pulled apart in the direction in which the bundle is tied together as this by dash-dotted lines in Fig. 5 is indicated. The parts 7, 8 form in an exploded view Place a larger or smaller angle with each other as desired. In such a Reinforcement insert, the parts 7 form an upper row and the parts 8 a lower row Row of rebar.

In Fig. Io is one of two such reinforcement deposits io and 1i formed reinforcement shown in plan view, while Fig. 1i shows a cross section shows on a larger scale.

In the embodiment according to FIGS. 6, 7, 12 and 13, the end bends are 13, 14 executed twice, i.e. H. provided with an additional bow. Consequently it is possible, the legs 7 and 8 in a substantially parallel to each other Position to pull apart, as shown in FIGS. 7 and 12 can be seen.

14 shows a combination of a reinforcement insert according to FIG. 1, 2 with one such according to FIGS. 4 and 5. In the same way you can the three exemplary embodiments can be combined with one another as desired.

Fig. 15 shows a section through a concrete wall. The ones that are parallel to each other Rows of legs are here along each side of the wall. Possibly is A second reinforcement insert 1i is arranged within the reinforcement insert io.

In Fig. 16 is a reinforcement insert with legs pulled apart 5 shown. Protrude here the end bends 3 only on one side while the end bends 12 are in a line on the other side.

Although the reinforcement layers according to the invention primarily If they are intended for concrete structures, they can of course also be used for reinforcement other building materials are used.

Claims (1)

PATENT CLAIMS: i. Reinforcement insert designed to absorb tensile stresses in ceilings, wall structures and the like made of reinforced concrete or another building material suitable for reinforcement, characterized in that the reinforcement insert consists of reciprocating parts made of reinforcing steel, these parts being continuously connected and alternately designed with different lengths are, so that the end bends of the reinforcing steel protrude alternately to one or both sides, and that the reinforcement insert can be collapsed into a bundle before use, from which the separated by their end bends reciprocating parts at the point of use to the desired lateral distance can be pulled apart from each other. z. Reinforcement insert according to claim i, characterized in that the adjoining parts of the reinforcement insert cross one another in a bundled position. 3. Reinforcement insert according to claim i, characterized in that the parts separated from one another by the end bends are essentially parallel to one another in the bundled position. 4. Reinforcement insert according to claim 3, characterized in that the parts of the reinforcement insert lying at the top in a plane are slightly curved downwards towards the parts below. 5. Reinforcement insert according to one of the preceding claims, characterized in that the end bends between the parts are formed several times so that they form a closed loop when viewed from the side.