NL1010661C2 - Reinforcement system as well as concrete construction. - Google Patents

Description

Wapenines system as well as concrete construction

The present invention relates to a reinforcement system comprising at least two rigid reinforcement elements, the free ends of which are connected to each other via a third reinforcement element, the free ends of which are arranged in alignment with each other. More particularly, the present invention has relates to a non-prestressed or post-tensioned reinforcement system. Such reinforcement elements are used on a very large scale in the production of all kinds of concrete structures. In addition, in “difficult 10 constructions” it is often necessary to connect two reinforcement elements that are not in line. This is done in practice by using curved bars.

In structural projects, the position of the reinforcement is often determined by the constructor. This position becomes increasingly critical as the construction is "lighter". That is, as the construction becomes more thin-walled, the position of the reinforcement material is more important. In many projects, the reinforcement is pre-bent in the factory, transported to work and then placed. The transport of reinforcing bars with complicated curves is cumbersome and often the parts involved become confused and it is unclear which reinforcement part should be placed where. During installation it always appears that inaccuracies exist. That is why corrective bending work is often applied in the workplace, but the circumstances under which this is done are far from optimal, while current working conditions legislation is an increasing objection.

The object of the present invention is to provide a reinforcement set with which the dimensional accuracy of other reinforcement becomes less critical, which can also be used in a thin-walled construction and allows simple adjustments at work. In addition, such a reinforcement system should be easily connected to other parts of the reinforcement and have sufficient strength after curing of the concrete or other material that is poured around the reinforcement.

This object is achieved with a reinforcement system described above, wherein said third reinforcement element comprises a flexible part.

By using a flexible part and more in particular a cable, a large tolerance is achieved during the manufacture of the reinforcement and constructions can be made which have hitherto not been possible with a rigid reinforcement of solid steel. It is important here that reinforcement elements are only subjected to tensile stress and a flexible part or cable has ample sufficient strength after being collapsed in hardened material.

It is noted that the use of flexible cables as such is known in the reinforcement technique. Such reinforcement cables are used for prestressed or post-tensioned concrete. Examples thereof are found in GB-2.034.857-A, GB-1.312.246-B and DE-2.644.2I0-A. The ends of the rigid elements between which the tension cable is attached are always in line with each other.

The present invention relates to non-prestressed or post-tensioned structures, ie conventional reinforcements, in which the ends of the "rigid" elements are out of alignment. “Rigid elements” means all elements that are not easy to bend by hand. These elements generally consist of reinforcing steel. According to the invention, the third reinforcing element comprises a flexible part or cable and can consist of any material known in the art, such as high-strength plastic or metallic material. A cable can be built up from a number of twisted strands, each consisting of a high-strength material with or without different properties.

The coupling means can comprise any part known in the prior art. A simple embodiment here consists of male or female screw threads that can be clamped onto a cable or other flexible part by means of the sleeve. Another construction is a sleeve provided with a union nut with which a connection can be provided with a further construction.

In addition, the invention relates to a support device for a concrete part, comprising an externally arranged gripping means for a hook or the like, such as a lifting eye, connected to a reinforcement-like construction extending in the concrete part, wherein said reinforcement-like construction forms the reinforcement system. This opens up special advantages when transporting factory-made concrete parts with reinforcement. After all, such a concrete part no longer has to be provided with protruding reinforcement which is poured into a concrete part which is manufactured on the job. All this can be smoothly finished and further reinforcement elements and the like can be connected to the coupling means at work. As a result, the transport can take place in a more efficient manner. With the coupling means described above, it is possible to establish a connection without an increase in temperature or other unfavorable conditions. After all, during welding the strength of the reinforcing bars is often negatively affected.

If a metallic material is used for the cable and / or coupling means, this can be any metal known in the art. Stainless steel is mentioned as an example for high-quality applications.

The invention will be explained in more detail below with reference to a number of exemplary embodiments. These exemplary embodiments in no way limit the scope of the present application. In the drawing show: FIG. 1 a first embodiment of the reinforcement element according to the invention;

Fig. 2 a second embodiment of the reinforcement element according to the invention;

Fig. 3 application of the reinforcing element according to fig. 2 in an architectural construction;

Fig. 4 application of the reinforcing element according to fig. 1 in an architectural construction;

Fig. 5 a further reinforcement element according to the invention;

Fig. 6 application of the reinforcement element according to FIG. 2 attached to a part of an architectural construction;

Fig. 7 a further application of the reinforcement element according to FIG. 1; FIG. 8 another application of the reinforcement element according to FIG. 1;

Fig. 9 is a cross-sectional plan view of the connection of a column to a number of walls with the reinforcing element according to one of the preceding figures;

Fig. 10 shows in cross section a coupling of several reinforcing bars; and

Fig. 11 schematically shows the construction of the connection of a floor and column.

In Fig. 1, the reinforcement element according to the invention is indicated in its entirety by 1. This consists of an elongated part 2, with both ends provided with sleeves 3 provided with an external screw thread 4. The elongated part 2 is designed as a cable consisting of twisted strands. These strands can be any metallic or non-metallic material that gives sufficient strength to the later construction.

A variant of Fig. 1 is shown in Fig. 2 and the reinforcement element shown there is indicated by 11 in its entirety. This also consists of an elongated element 2 at one end provided with the previously described sleeve 3 provided with external thread 10 1 o 661 4.

The other end is provided with a sleeve 12 clamped on the cable and provided with an internal screw thread 13. It will be understood that attachment of sleeve 3 or 12 can take place in any manner known in the art, such as by clamping.

Fig. 3 shows a first application of the reinforcement element according to Fig. 2.

This element is collapsed in the position shown in fig. 3 in a concrete construction indicated by 10. A sleeve 9, which is provided with an internal screw thread, is screwed onto the external screw thread 4. The concrete construction can be moved to work after curing and further reinforcement elements such as solid bars 6 and 8 can be applied on site. These are each provided with external screw thread 7 which can be screwed into bush 12 or thickening 9 provided with internal screw thread. With such a construction, the concrete part 10 can be transported to the place of use without protruding parts.

Another coupling of forces is shown in Fig. 4. The reinforcement element 1 of fig. 1 is used in this case and the external screw thread 4 is poured somewhat protrudingly. Reinforcing bars 8 can then be used. These are provided with a coupling sleeve 5 for fixing with the external screw thread 4. After the concrete has hardened, only a tensile force can be exerted on the reinforcing element 1 according to Fig. 4. The compressive forces are in principle absorbed by the concrete.

Fig. 5 shows a variant of the reinforcement element according to the invention, which is indicated in its entirety by 21. Here, too, a flexible cable 2 is provided, which is provided with clamping sleeves 22 near the ends. These are provided with a breast 24 behind which a swivel nut 23 can grip which, with the internal screw thread arranged therein, engages the external screw thread 7 of rigid reinforcing bar 6. In this way simple coupling can take place without it being necessary for the opposing reinforcing bars to be rotatable relative to each other.

Fig. 6 shows a further variant in which a reinforcement element 11 is connected to a facade panel 14. Instead of a facade panel 14, any other construction known in the prior art can be used. Support plate 15 is provided in some way on facade panel 14, provided with a threaded stub 16. The sleeve 12 of reinforcing element 11 can be screwed onto this and subsequently all this can be collapsed. It is also possible before the coupling with facade panel 14 or other element has taken place the concrete construction to realize reinforcement element 11, whereby some space is kept free near bush 12. It is also possible to place a temporary plastic plug in the space of sleeve 12 and after removing the formwork and removing this plug, the thread opening is released for receiving threaded stub 16. For those skilled in the art it will it is clear that many variants of the above are possible for those skilled in the art.

Fig. 7 shows a construction in which the reinforcement element 1 not only serves as a reinforcement element in the later concrete construction, but is also applicable for attaching a hoisting eye 27 to it. For this purpose, the reinforcement element 1 is poured into the concrete material 17 18 and nut 19 mounted on the external screw thread 4. On the other hand, the reinforcement element is provided with a nut-like construction provided with a head 26 under which two lips of a hook 27 can grip and which can be connected via attachment 28 to a crane or the like.

Fig. 8 is shown as a variant. A reinforcing element according to fig. 1 or 2 is used in this case and the exposed male screw thread is provided with a sleeve 30 and subsequently collapsed.

20 After the formwork has been removed and the internal screw thread of either sleeve 30 or sleeve 12 has been released, a threaded stub of lifting eye 31 can be screwed therein and the relevant concrete construction 29 can be moved

This means that during transport no protruding parts are present, while on the other hand it is ensured that the force introduction takes place in a guaranteed manner.

Fig. 9 shows the construction in which reinforcement element 1, 11 or 21 are used. These are connected with rigid reinforcement elements or bars 47 arranged in three walls 33 to be joined together. The connection of the walls is formed by a column 32 provided with a cavity 34. Due to the flexible nature of steel cable 30 2, any desired shape can be bent and forces can be optimally transmitted. It will be understood that steel cable 2 can be supplied in different lengths, so that a kind of modular construction is created, which makes it possible in a simple manner for the user to provide the appropriate flexible connection at work.

By correctly selecting the twist direction of the strands of the steel cable and the diameter of each of the individual wires from which each strand is built up, it is possible to obtain a very flexible cable, even with relatively large diameters. A diameter of about 3 cm is mentioned as an example, which is still easy to bend by hand. With a massive construction, this is of course unimaginable.

In Fig. 10 the connection between two walls 36 and 37 is shown. Rigid reinforcing bars 39, 40 are provided. However, these can also be replaced by the flexible reinforcement elements 1, 11, 21. These are coupled together via a T-piece 38 which on the one hand is provided with two openings with internal screw thread 41 and an opening 38 for receiving rod 39. By screwing reinforcing bars 40 which are externally threaded close to the ends and which engage the internal screw thread 41, rod 39 is clamped in opening 38. It is of course also possible to screw opening 38 into which rod 39 can be screwed . It is clear that the tee 38 described above can be used independently of the reinforcement elements described above.

Instead of opening 38, a hook-shaped recess 44 can be provided, as can be seen from Fig. 11. It describes connection of a column 42 with floors, walls or other construction not shown in more detail. The T-piece 43 shown there is incidentally the same as the T-piece 38 shown in the previous figure. It is clear that with this construction, also after the column has been manufactured, optionally followed by the installation of an overlying construction, the installation of reinforcement 45 is possible by sliding the hook-shaped recess 44 around the vertically drawn reinforcing bars. It will of course be understood that the orientation shown in Fig. 11 can be changed. Wire portion 46 includes a breast 47 and extends beyond that breast. This is indicated by 48 and clamps the vertical bar.

The figures only give a few examples of the many applications of the reinforcement elements and the tee according to the invention. Those skilled in the art will immediately find further embodiments of the reinforcement element according to the invention which are within the scope of the present application. The reinforcement elements described above can be used in combination with all accessories known in the art, such as spacer blocks.

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Claims (6)

Reinforcement system comprising at least two rigid reinforcement elements, the free ends of which are connected to each other via a third reinforcement element, the free ends of which are arranged in alignment with each other, characterized in that the third reinforcement element is a flexible part (2 ) includes. Reinforcement system according to claim 1, wherein said flexible part comprises a cable. Reinforcement system according to any of the preceding claims, wherein it is unstressed. Reinforcement system as claimed in any of the foregoing claims, wherein said free end and said flexible part are each provided with interacting coupling means. 5. Supporting device for a concrete part, comprising an externally arranged gripping means for a hook or the like, such as a lifting eye, connected to a reinforcement-like construction extending in the concrete part, wherein said reinforcement-like construction is the reinforcement system according to any of the claims 1 -4. Flexible cable provided at the ends with coupling means for use in a reinforcement system according to any one of claims 1-4. 20 ******** 10 1 0 661