EP1033454A2 - Building element for shear reinforcement - Google Patents

Abstract

The invention relates to a component for shear reinforcement, in particular for power transmission in the connection area of supports to reinforced components such as flat slabs and floor slabs, consisting of a plurality of reinforcement elements, preferably designed as double-headed anchors, which are arranged parallel to one another and at a distance from one another, and from one another, which defines the reinforcement elements mutually and connecting element provided in addition to the shear force-transmitting reinforcement elements. The connecting element (7) can be fixed to the reinforcement elements (6) between their upper and lower ends in a section to be arranged between the upper (3) and lower bending reinforcement (2) of the component (1), and at least indirect spacing elements () 8) that can be used to support the shear reinforcement element (5) on the lower component formwork.

Description

The present invention relates to a component for shear reinforcement, especially for power transmission in the connection area of supports Reinforced components such as flat ceilings and floor slabs, consisting of a A plurality of reinforcement elements, preferably designed as double-headed anchors, which are arranged parallel and spaced apart are, and from a supporting the reinforcement elements or in mutual distance from each other and in addition to the Reinforcing elements provided connecting element.

Such shear reinforcement elements are in particular in two embodiments known; according to the first embodiment, this is usually connecting element called a spacer at the lower end the reinforcement elements arranged and provided with spacers, over which the shear reinforcement element on the lower concrete formwork for the component to be manufactured and reinforced is stored. Subsequently become the lower bending reinforcement for the component and then the upper bending reinforcement, taking care of each must that the reinforcement elements of the shear reinforcement and the bending reinforcement are arranged side by side without collisions. The shear reinforcement element must also be placed at such a height that the top end of the reinforcement elements with the top bending reinforcement is aligned and the lower end of the reinforcement elements with the lower bending reinforcement; only in this way is the prescribed Receive power transmission between bending and shear reinforcement.

The second known embodiment of shear reinforcement is that the bending reinforcements are positioned first and then a shear reinforcement element in which the connecting element, ie the spacer bar is arranged on the top of the reinforcement elements is inserted from above through the two bending reinforcements so far until the spacer bar is placed on the upper bending reinforcement is to thereby comply with the prescribed alignment of the upper and lower reinforcement element ends.

However, both designs have the disadvantage that the spacer bar is common either at the bottom or at the top of the reinforcement elements and thus also arranged below and above the bending reinforcement is. In order to be able to absorb the greatest possible moments of the component, the bending reinforcement as close as possible to the top or bottom Edge of the component until finally only the minimum concrete cover What remains is the edge area of the component that is at risk of corrosion and is only equipped with corrosion-resistant materials may be. Do you want to prevent the shear reinforcement element extends into this marginal area, so disregarding the regulations appropriate building inspectorate approvals, the Spacer bar adjacent bending reinforcement moved so far inwards until the spacer bar is outside the critical edge area runs. However, this reduces the distance between upper and lower bending reinforcement corresponding static usable height of the component, so that the component with regard to constant overall height its load capacity is impaired.

Proceeding from this, the present invention is based on the object to provide a component for shear reinforcement, the one Utilization of the full static usable height of the component enables.

This object is achieved in that the connecting element on the reinforcement elements between their upper and lower end in a between upper and lower bending reinforcement of the Component to be arranged section can be determined, and that on the connecting element at least indirectly spacer elements can be defined, the for supporting the shear reinforcement element on the lower component formwork serve.

The assembly of such a shear reinforcement element according to the invention would be in contrast to the previously known embodiments in that first the lower bending reinforcement of the component is positioned so that the shear reinforcement element over the Spacer elements is supported on the lower component formwork, and that the upper bending reinforcement is only installed afterwards. The essential The advantage of the invention is that the shear reinforcement element according to the invention by positioning the connecting element between an increase in the upper and lower bending reinforcement allows static usable height, even though the connecting element outside the edge area of the component and the prescribed there Minimum concrete cover is arranged. This can also be done Connection element arranged or executed in almost any way so it doesn't have to be made of corrosion resistant material like Plastic or stainless steel are still as flat as possible, as it is in the prior art for the least possible impairment the load capacity is the case.

The almost arbitrary feasibility and positionability of the connecting element is particularly related to the fact that the connecting element does not have to take on static tasks, just has the function of connecting the connected reinforcement elements in the correct Position and keep the correct distance from each other. Hereby the present shear reinforcement element differs in particular of the so-called shear reinforcement cages known in the prior art, made from a multitude of loop-shaped rods exist, which are connected to each other via horizontal connecting rods are. In this case, the horizontal connecting rods with in the power transmission included and thus take over in the nodes, in which they are attached to the loop-shaped bars, the task of the heads of the present double-headed anchors or the like trained areas of related designs of shear reinforcement elements, namely a transmission of force between bending and shear reinforcement to ensure. So while with the known shear reinforcement cages the connecting rods are also part of the shear reinforcement and at least in the nodes where the loop-shaped bars are connected to the connecting elements, transmit thrust forces, is in addition to the shear reinforcement element according to the invention Reinforcement elements made exclusively from the double-headed anchors or similarly formed components exist, a separate connecting element provided that does not transmit any thrust and only for mutual Definition of the reinforcement elements in the correct height position serves.

This separation of functions between force-transmitting becomes particularly clear Reinforcing element and the connecting element if the connecting element is spaced from the upper and lower bending reinforcement in the space left between them. Although the terminal heads of the double-headed anchors in the spaces Immerse the bending reinforcement and exactly aligned with the bending reinforcement come to rest, the spaced arrangement of the connecting element ensures of the two bending reinforcement layers for the fact that the Connection element no forces between reinforcement elements and Bending reinforcement can transmit. As a side effect, you get the additional one here Advantage that the connecting element when installing with none the other components of the flat ceiling can collide.

With regard to the spacer elements that can be fixed on the spacer bar, it should be noted that that these can be easily adapted to the respective installation conditions align and have the appropriate length provided to ensure the exact Positioning of the reinforcement elements in relation to the bending reinforcement to ensure. In the prior art with the one below the lower one Bending reinforcement arranged spacer bar, the spacer elements, nailed to the lower component formwork around the shear reinforcement element sufficient stability when mounting the lower one and upper bending reinforcement. In contrast, lets the much larger distance of the spacer bar in the invention Use shear reinforcement element from the lower component formwork to to increase the footprint of the shear reinforcement element laterally and thereby improve the stability, for example by the spacer elements in one to the side of the reinforcement elements formed level extend. With such an enlarged and thus more stable footprint can be nailed to the Shear reinforcement element on the lower component formwork and thus the assembly process can be simplified.

Spacer elements are already known in the prior art which are used for Support of the shear reinforcement elements on the lower component formwork serve, however, these spacers are either under the lower end of the reinforcement elements, e.g. under the head of the double-headed anchor or under one under the lower bending reinforcement running service bar replacing the anchor heads. The essential Advantage of the spacer elements fixed on the connecting element compared to the known embodiments is that the spacer elements from the higher position of the connecting element in comparison can continue to protrude laterally and hereby improve the stability of the shear reinforcement element and that on the other hand also the area below the reinforcement elements the concrete of the flat ceiling remains freely accessible and the spacing elements rather in one of the reinforcement elements and thus of a particularly important area for the transmission of thrust can be arranged.

The simplest variant for the mutual positioning of connecting elements and reinforcement elements is to make them insoluble and to connect to one another by welding, for example then, however, no subsequent adjustment at the construction site the local conditions and installation conditions is possible. Especially It is therefore advantageous if the connecting element is detachable and in particular to enable a subsequent change in positioning Way - e.g. B. by clamps, wire loops or clamps / plug connections - At least one reinforcement element, expediently but can be fixed on all reinforcement elements. This change in positioning can be in both horizontal and vertical Direction and be required; in the horizontal direction in particular to ensure that the respective reinforcement element of the bending reinforcement is horizontal can dodge, especially if the bending reinforcement there is a grid-shaped reinforcement mesh; in the vertical direction, for example then when the installation height of the shear reinforcement element should change after the bending reinforcement or also a shear reinforcement element is provided for different installation heights and should be designed to be individually adaptable to them.

On the other hand, this solvable provision should ensure that the chosen positioning is not due to self-weight or too light due to unintended external influences before filling the component can be changed with in-situ concrete.

Also with regard to the fixing of the spacer elements on the connecting element The simplest variant is, of course, this, together cannot be detached, for example by gluing or welding. But It is also of great advantage here that this connection is detachable and in particular enabling a subsequent change in positioning To be carried out in such a way that the spacer elements can also be changed here can be determined that they avoid the lower bending reinforcement or can be set to different heights. What the releasable connection concerns, we recommend here in particular Plug, clamp and screw connections, however, are also appropriate acting modifications can be used without any problems.

The mentioned enlargement of the footprint of the shear reinforcement element can be achieved in an advantageous manner that the Connection element at least in a partial area compared to its essential Extension direction protrudes and in particular is bent horizontally or runs kinked; because this makes it possible for the connecting element with its section outside of the reinforcement elements arranged level and arrange in this area define associated spacer element, so that even with a vertical Positioning this spacer a the stability of the Shear reinforcement element increasing distance between the above Reinforcement element level and the spacer allows becomes.

There is also an angled course of the connecting element also possible in the vertical or oblique direction, for example by already through the connecting element a part of a spacer to provide or so that the connecting element in this vertical or inclined section itself as part of the spacer acts.

As for the horizontally angled course, this can be, for example consist of an approximately U-shaped projection, which is arranged, for example, in the area between two reinforcement elements is and also in this area above the to the U-legs subsequent areas its function of the connecting element Fulfills. Likewise, it is of course also possible if one is straight connecting element running through between two reinforcement elements a separate horizontal fixable on the connecting element Angling is provided, either to define a spacer serves or even as a spacer or part can be formed by this.

Because the spacers cross the edge areas that are at risk of corrosion it is appropriate if this at least in this Edge area made of corrosion-resistant or corrosion-free material, for example made of plastic. The same naturally applies to the Case that the spacers from a vertical or oblique angled part of the connecting element.

With regard to the connecting element, there is an additional advantageous one Finally variant in when the connecting element opposite the reinforcement element arranged adjacent to the support at least approximately the prescribed minimum distance of this reinforcement element corresponding dimensions are extended from the support to one To provide installation help.

A particularly simple and clever embodiment results from that the spacer from at least two, but in particular of three parallel rod sections running parallel to each other there is that above and below the connecting element run and thereby grasp the connecting element and freely horizontally pivoted or slidably attached to the connecting element are that in the region of the ends of the rod sections each have a particular vertically downward extending rod section is provided, for example from an angle of one of the horizontal bar sections exists and the one to be erected on the concrete formwork at its lower end corrosion-resistant plastic foot. The horizontal Bar sections form together with that provided at each end vertical rod section a support bracket that is almost arbitrarily in the horizontal direction can be moved to move the lower bending reinforcement to be able to avoid when mounting. The horizontal mobility of the Support block or the spacer element formed by it is only through the fixing positions of the connecting rod on the reinforcement elements and the length of the horizontal bar sections limited.

The connecting element expediently consists of two in parallel adjacent bars, with the space between the reinforcement elements are fixed to the two bars. Act these two rods of the connecting element with said three horizontal Rod sections of the support block together, results in hereby a fixed predetermined vertical extent of the support frame or spacer; d. H. the spacer always has the same Orientation in the vertical direction while only the horizontal Orientation can be changed in the manner described above can.

The plastic feet mentioned above, on the underside of the trestle are arranged and to support the trestle and thus can serve the entire shear reinforcement on the concrete formwork simple way from plastic pins provided on their top There are sleeves for plugging onto the vertical rod section. Hereby can be a secure connection between the vertical rod section and plastic feet ensure that the almost punctiform base of such a plastic foot for a secure stand of the whole Shear reinforcement element is sufficient if with a shear reinforcement element at least two trestles and therefore a total of four Plastic feet are provided.

Figur 1

ein Bauteil mit erfindungsgemäßem Schubbewehrungselement in Seitenansicht;

Figur 2

das Bauteil aus Figur 1 in Draufsicht;

Figur 3

ein Bauteil mit einer alternativen Ausführungsform eines Schubbewehrungselementes in Seitenansicht;

Figur 4

das Schubbewehrungselement aus Figur 3 in Draufsicht;

Figuren 5 bis 9

weitere Ausführungsformen eines Schubbewehrungselementes in Vorderansicht; und

Figuren 10 bis 12

eine weitere alternative Ausführungsform eines Schubbewehrungselementes in perspektivischer Seitenansicht, in Draufsicht und in Vorderansicht.

Further features and advantages of the present invention result from the following description of exemplary embodiments with reference to the drawings; show here

Figure 1

a component with the inventive shear reinforcement element in side view;

Figure 2

the component of Figure 1 in plan view;

Figure 3

a component with an alternative embodiment of a shear reinforcement element in side view;

Figure 4

the shear reinforcement element of Figure 3 in plan view;

Figures 5 to 9

further embodiments of a shear reinforcement element in front view; and

Figures 10 to 12

a further alternative embodiment of a shear reinforcement element in perspective side view, in plan view and in front view.

1 and 2 show a component 1 in the form of a flat ceiling, that a lower grid-shaped bending reinforcement 2 and an upper grid-shaped Bending reinforcement 3. In the area of one indicated in FIG Support 4 for supporting this flat ceiling is an inventive Shear reinforcement element 5 arranged in the component such that as Double-headed anchor trained reinforcement elements 6 in the vertical Component extending between the upper and lower bending reinforcement are positioned, in the present case three reinforcement elements 6 summarized via a connecting element 7 to the shear reinforcement element 5 are.

The connecting element 7, which is usually referred to as a spacer bar is carried out in the form of a double rod, the two rods in each case apply the double-headed anchors 6 on opposite sides and thereby a clamp connection between the connecting element and Allow reinforcement element through which both are mutually displaceable are set. A reason for such a displaceability is shown in FIG to recognize, namely the lower bending reinforcement 2, the reinforcement elements 6 must dodge to ensure proper installation to allow what the upper ends of the reinforcement elements with the upper bending reinforcement and the lower ends of the reinforcement elements have to align with the lower bending reinforcement. Only by one such an aligned arrangement is that of the flat ceiling on the support or vice versa exerted force in the sense of a framework model of the Support directed away to the outside and there over the greater distance from the support intercepted.

The shear reinforcement element 5 must not only be in the collision-free Horizontal position compared to the bending reinforcement, but also in the correct vertical or height position, what about four spacers 8 is ensured, which on the connecting element 7th can be determined. The spacer elements are in the embodiment Figures 1 and 2 slidably attached to the connecting element, to be able to avoid the lower bending reinforcement. Also are the spacers in horizontally projecting portions 7a of the Connection element arranged through which the footprint of Shear reinforcement element or the four spacer elements essential can enlarge compared to an arrangement of the spacers in the plane formed by the three reinforcement elements. This horizontally projecting sections 7a of the connecting element are as double rods formed with a U-shaped course, the two U-legs act on the spacer 8 on both sides and its displaceable Allow arrangement towards the U-legs parallel direction.

For this purpose, the spacer elements 8 have the spacing of the two U-legs appropriately trained sub-area on the above and sub-areas located underneath with a larger cross-section are limited is a captive but displaceable fixing of the spacer elements to allow on the connecting element. Also are the spacers at their lower end made of corrosion-resistant or corrosion-free material and, for example, made of plastic, because this lower area in the edge area at risk of corrosion the component 1 is arranged.

Finally, FIG. 2 shows the extension that acts as an installation aid of the connecting element 7 indicated in the direction of the support, through which the minimum distance between that seen from the prop first reinforcement element 6 and the column are taken into account can.

The embodiment of an alternative shear reinforcement element 15 from Figures 3 and 4 differs from the embodiment of the shear reinforcement element 5 from Figure 1 or 2 characterized in that the horizontally projecting sections 17a of the connecting element 17 not in one piece with the remaining partial areas of the connecting element 17 connected, but pivotable on the connecting element 17 are defined and thereby avoiding not only perpendicular to plane formed by the reinforcement elements 16, but also transversely allow for this, as indicated by the arrows in Figure 4. This pivotable connection is achieved by a screw connection 19, which can be easily provided by that two large washers with a screw-nut connection cooperate and so the horizontally projecting portion 17a, so the pivotable bend, and the remaining part of the connecting element 17 define one above the other.

Otherwise, the shear reinforcement elements 5 and 15 correspond, whereby also the reinforcement elements 16 and the spacer elements 18 den correspond to the respective components from FIGS. 1 and 2.

FIG. 5 shows a shear reinforcement element 21 with double-headed anchors 22 and a connecting element 23 designed as a flat steel, which is permanently welded to the double-headed anchor and cooperates with a spacer element 24 which increases the Stability is approximately in the form of an inverted U. The Connection between connecting element and spacer element is made via a groove connection with a side stop surface.

A shear reinforcement element 25 is designed in a similar manner, the U-shaped element here Spacer 26 with one of two arranged one above the other and each connecting element fixed to the double-headed anchor 27 28 interacts. Apply the two rods of the connecting element a laterally projecting guide area of the spacer and thereby place the spacer in a form-fitting manner, but slidably in the horizontal direction on the connecting element. 7 shows an alternative to the U-shaped spacer elements to 9 in each case with a shear reinforcement element 31, 35 or 41 tripod-like or V-shaped spacer 32, 36 or 42, the over suitable fixing means such as loop connections, welds or positive locking with one of two horizontally next to each other on both Sides of a reinforcing element 33, 37 or 43 existing connecting element 34, 38 and 44 cooperates.

Figures 10 to 12 show a shear reinforcement element according to the invention 51, but not yet installed, so without bending reinforcement or flat ceiling. The shear reinforcement element 51 has three reinforcement elements 52 in the form of double-headed anchors, and one Connecting element 53, which consists of two parallel to each other Bars 53a, 53b, which on the three double-headed anchors 52 on each opposite sides are fixed and thereby hold the three double-headed anchors between them. On the connecting element 53 are two spacer elements 54 horizontally displaceable and pivotable fixed and consist of a support block 54a and plastic spacers 54b. The support bracket 54a in turn is made of two below the connecting element horizontally extending rod sections 54c, 54d and one running above the connecting element 53 and with the two horizontal bar sections 54c, 54d at their other Ends fixed U-bracket 54e assembled such that in the space between the upper base of the U-bracket and the two horizontal ones Rod sections the two rods of the connecting element run and thereby the displacement and pivoting of the spacer 54 allow in the horizontal direction, but a shift or pivoting in the vertical direction or a tilting movement of the spacer element prevent. This takes the spacer opposite the component formwork always has a precisely defined vertical orientation and ensures optimal stability of the whole Shear reinforcement element on the lower component formwork.

The U-bracket 54e has two starting from its upper horizontal U-base vertically downward U-legs, on which the out Plastic existing spacers 54b are defined as the feet of the entire spacer and the area susceptible to corrosion cross the prescribed minimum concrete cover.

From the front view in FIG. 12 in particular, it is the wide one Footprint of the spacer 54 recognizable, which for a safe Level of the shear reinforcement element 51 before and during concreting on the lower component formwork.

Characterized in that the plastic spacers 54b in simpler Be placed on the U-legs of the support bracket 54a can, it is just as easy to attach these spacers to the respective Adapt the installation conditions and, for example, when changes are made Distance between lower component formwork and lower bending reinforcement to be replaced by spacers with a correspondingly adjusted height.

In summary, the present invention offers the advantage of one of the Approval by the building authorities for the installation of a shear reinforcement element to allow, with the shear reinforcement element above in terms of its horizontal and vertical positioning very flexible compared to the component or its bending reinforcement can be, where also the shear reinforcement element on the spacer elements supporting the lower component reinforcement due to their Interchangeability ensure that a shear reinforcement element at different Installation conditions can be used.

Claims (11)

Component for shear reinforcement, in particular for power transmission in the connection area of supports to reinforced components such as flat ceilings and floor slabs, consisting of a plurality of reinforcement elements, preferably designed as double-headed anchors, which are arranged parallel to and at a distance from each other, and one that defines the reinforcement elements in addition to each other Reinforcing elements that transmit shear force,
characterized,
that the connecting element (7, 17, 17a, 23, 28, 34, 38, 44, 53) on the reinforcement elements (6, 16, 22, 27, 33, 37, 43, 52) between their upper and lower ends in one between the upper (3) and lower bending reinforcement (2) of the component (1) to be arranged section, and that at least indirectly spacing elements (8, 18, 24, 26, 32, 36, 42, 54) can be fixed to the connecting element, which serve to support the shear reinforcement element (5, 15, 21, 25, 31, 35, 41, 51) on the lower component formwork. Component according to Claim 1,
characterized,
that the connecting element (7, 17, 17a, 23, 28, 34, 38, 44, 53) on the reinforcement elements (6, 16, 22, 27, 33, 37, 43, 52) in one of the upper (3) and lower (2) bending reinforcement of the component (1) spaced section can be fixed. Component according to at least one of the preceding claims,
characterized,
that at least one of the spacer elements (8, 18, 24, 26, 32, 36, 42, 54) directly on the connecting element (7, 17, 17a, 23, 28, 34, 38, 44, 53) in a detachable and in particular one subsequent positioning change is possible. Component according to at least one of the preceding claims,
characterized,
that the connecting element (17, 23, 28, 34, 38) is permanently attached to reinforcement elements (16, 22, 27, 33, 37). Component according to at least one of the preceding claims,
characterized,
that the connecting element (7) can be fastened to at least one reinforcing element (6) in a detachable manner and in particular to enable a subsequent change in positioning. Component according to at least one of the preceding claims,
characterized,
that the connecting element (7, 17) protrudes in a possibly separate sub-area (7a, 17a) from its essential direction of extension and in particular is bent or bent horizontally. Component according to Claim 6,
characterized,
that at least one of the spacer elements (8, 18) can be fixed in the projecting partial area (7a, 17a). Component according to at least one of the preceding claims,
characterized,
that the connecting element (53) interacts with a spacer element (54) projecting horizontally with respect to its essential direction of extension, and that the horizontally projecting spacer element is bent or kinked in the vertical direction. Component according to Claim 8,
characterized,
that the spacer element (54) is approximately U-shaped and, in addition to the region protruding horizontally opposite the connecting element (53), each has two legs bent or bent down in the vertical direction. Component according to at least one of the preceding claims,
characterized,
that the spacer elements (8, 18, 24, 23, 32, 36), at least in their subarea arranged between the lower bending reinforcement and the component formwork, consist of corrosion-resistant or free material and in particular of plastic. Component according to at least one of the preceding claims,
characterized,
that the connecting element (7) is elongated relative to the reinforcement element (6) arranged adjacent to the support (4) at least approximately to a dimension corresponding to the statically required distance of this reinforcement element from the support.

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