NL8104033A - DISTANCE FOR CONCRETE REINFORCEMENTS. - Google Patents

Description

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VO 2268

Title: Spacer for concrete reinforcements.

The invention relates to a spacer for concrete reinforcements, consisting of two parallel running longitudinal bars, which are connected to a strip at some distance from each other by a bar construction extending therebetween and welded therewith, this strip in the direction transverse to a thought strip surface. is bent or converted into wave or meander shape, so that it can stand freely on the high side.

Such spacers serve to keep the upper reinforcement of a flat supporting structure via the supports (walls, supports) in a distance from the lower reinforcement corresponding to the static requirements.

A spacer of the type referred to above, known from German Offenlegungsschrift 2,214,532, consists of two parallel longitudinal bars, to which bridge-shaped transverse bars are welded, which determine the distance between the longitudinal bars. The strip is meander-like, transversely to the idea, as its strip surface defined by its two parallel longitudinal bars in its straight position is deformed.

Another spacer of the same type is known from Austrian Patent Specification 344,962. With this spacer, the longitudinal bars are secured in the desired relative position! by a continuous, zig-zag or wave-shaped connecting rod, which is welded to a lance rod at or near the opposite tops.

The condition that such spacers can perform their task satisfactorily is a sufficient stability, because a worker walking over armament already laid, further by pouring concrete and finally by the vibration process now generally used for compacting a poured concrete, make considerable demands. the stability of the spacers.

Since the spacers only have to fulfill their function during the assembly of a construction work, the special requirement for them is that they must be as cheap as possible, that is to say they must be cheap to manufacture or, moreover, as little material as possible necessary for manufacture.

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Fulfilling this last requirement poses some difficulties in this respect, since the stability apparently is directly related to the distance measured transversely of a center plane of the spacer spacing in each range of the spacer, which are furthest from the center plane . In other words, the amplitude of the wave made in the spacer transverse to its imaginary strip surface determines the stability. Although a larger amplitude gives greater stability, it requires, on the other hand, an increased material consumption and thus higher costs.

Inen often chooses another way for improving the standing ability of a spacer on the high side, by connecting it with binding wire to the two reinforcing bars located at some distance therefrom. In this way it was found with a very small amplitude and with correspondingly little material consumption. for the spacer-holder result, but connecting to both layers of reinforcement constituted an additional loss of labor and thus of time and cost.

The object of the invention is to design a spacer of the above-mentioned type in such a way that, with little material consumption, great stability on the high side is ensured, even without a force-transmitting connection to the two reinforcement layers.

This object is achieved with a spacer according to the invention in that at least one of the successive waves transverse to a thought strip surface of the spacer has a greater amplitude than the other waves.

In a particularly metal-saving embodiment, the strip in the middle of its longitudinal dimension has a wave extending transversely to the thought strip plane, which has a greater amplitude than the laterally connecting waves.

In another embodiment which can be realized with little more consumption of metal, which gives an even greater stability, the waves extending at right angles to the idea of the strip plane are arranged with greater amplitude near the two ends of the strip, so that the waves lying therebetween have a smaller amplitude. to have.

The invention is further described with reference to the drawings by means of an embodiment. This shows: -8T0TIT 3 ------------------------ «2 *.

Fig. 1 shows a top view of a spacer according to the invention; Figures 2 and 3 are views of the construction according to Figure 1; 4 and 5 show other possible embodiments of a spacer according to the invention in top view.

The spacer according to the invention shown in Fig. 1 has in top view, for example, a zig-zag shaped kinked course, corresponding to a triangular wave, the amplitude of which in the end ranges has the value a. Between the two end ranges there is a wave, the amplitude of which has a value A which is greater than 10 a, in the illustrated exemplary embodiment equal to 2a.

The manner in which the two longitudinal bars 1, 2, from which the spacer is formed, are mutually connected does not play an essential role for the present invention. As can be seen from Fig. 2, the longitudinal bars 1, 2 can for instance be mutually connected by a zigzag-shaped curved bar path 3, which is welded between the two longitudinal bars 1, 2. The irregularities of the inclination of the individual parts of the zig-zag-shaped curved bar section 3 in the view according to Fig. 2 result from the fact that the planes in which the individual parts of the bar section 3 extend with respect to the viewer have a different slope. As such, the bar path 3 has a completely regular zig-zag shape.

The bar path 3 need not be welded in the apexes between the longitudinal bars 1,2 of the spacer, as shown in Fig. 2. It can likewise be welded to the longitudinal bars near the apexes.

Instead of a continuous coherent bar path 3, there can also be, as shown in Fig. 3, separate spaced crossbars 4 arranged at right angles to the longitudinal bars 1, 2, which are either welded or laterally welded between the longitudinal bars can be. Also from fig. 3 the irregular mutual distances of the transverse ridges 4 can be seen solely due to the different slopes of the surfaces in which the ridges are situated, relative to the viewer.

Also with regard to the shape of the spacer seen in plan view, there is great freedom. Instead of a triangular shape according to fig. 1, a trapezoidal shape as shown in fig. 4, 81 0 4T33 «-4- ι can also be chosen. in particular, in the case of long spacers, it may be expedient to use more than just one range in which a wave of greater amplitude A is applied. Fig. 4 shows, for example, two such ranges near both ends of the spacer.

Finally, the result of a high stability with little material consumption obtained by the invention can also be achieved by the design as a sine wave, as shown in Fig. 5.

In Fig. 3, the wave with the greatest amplitude A, as in Fig. 1 # 10, is arranged in the center of the longitudinal dimension of the spacer.

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Claims (4)

1. Spacer for concrete reinforcements, consisting of two parallel running longitudinal bars, which are spaced apart by a supporting construction extending transversely therebetween. connected to a strip, said strip being bent or converted in the direction transverse to a thought strip surface in wave or meander form, so that it can stand freely on the high side, characterized in that at least one of the transverse the thought strip surface of the spacer formed successive waves has a greater amplitude than <2 other waves. Spacer according to claim 1, characterized in that the strip in the middle of its longitudinal dimension has a wave extending transversely to a thought strip plane, which has a greater amplitude than the laterally connecting waves. 3. Spacer as claimed in claim 1, characterized in that the waves extending transversely to a conceived strip plane have a greater amplitude arranged near the two ends of the strip, so that the waves lying between them have a smaller amplitude. -810 4 (Γ3 3 —--------------------