EP1126091A2 - Mounting support and process using such a support for mounting a prefabricated element on a building part - Google Patents

Abstract

The installation support system comprises a connecting part (10) anchorable in the ready-made part (F) and composed of at least one tractive-loadable component part (1), a pressure-loadable component part (2) and a bracing (3) accommodating a cross force. At least the tractive-loadable component part at its one free end has a coupling piece. An accommodation device is anchorable to the building part with at least one tractive component (11), which has a coupling counterpiece bringable into engagement with the coupling piece of the connecting component (10).

Description

The present invention relates to a mounting bracket system according to the preamble of claim 1 and a Method for fastening a prefabricated component in particular using a concrete cantilever slab on a part of a building an assembly support system according to the invention.

Mounting support systems of this type essentially serve for installing concrete platforms, for example prefabricated concrete cantilever slabs by face Connect the concrete cantilever panels directly to the ceilings and / or walls of a building.

From the prior art, for example according to the prospectus "MEA-ISOTRÄGER-SYSTEM IT" by the inventor herself is a Mounting supports of this type are known.

This mounting bracket has an upper part consisting of a central connecting rod, preferably made of steel the two ends of each two about 70 cm long Tension rods parallel to each other and in one direction Connecting rod aligned, welded or are screwed on. Furthermore, the mounting bracket has one Lower part consisting of a steel pressure rod formed, at both ends of the pressure receiving plates are welded on. The pressure rod is along two spaced areas slightly bent upwards, which two outer, sloping towards the top Bar sections and a central, parallel to the The upper part of the aligned bar section is created. The Lower part and the upper part of the known mounting bracket are connected to each other by cross bars, which on the central connecting rod of the upper part and the welded central rod section of the lower part are.

Furthermore, a kind of sleeve or cage made of plastic provided that is perpendicular to the tension rods and the Push rod of the upper and lower part extends while doing so the central bar section and the central one Connecting rod connects to each other. That cuff is essentially a rectangular body attached to its Pages each have a receptacle or a connection for one Heat and / or soundproofing board, for example Forms styrofoam.

For the installation of a prefabricated balcony element, for example is used in the manufacture of a balcony platform serving concrete cantilever plate a number of the above poured the described assembly girder into the concrete, such that the tension rods as well as the one Push rod section including the associated pressure plate on one side of the upper and lower part when pouring the Precast concrete component are embedded in the concrete. To Completion of the concrete platform closes the side edge the cuff on one end of the concrete cantilever flush, with the tension rods as well as the other Push rod section on the other side of the top and Lower part of this end of the concrete cantilever plate free protrude.

This cast concrete slab is now on site i.e. assembled on the building site by the Slab on the wall or the front of the partially finished concrete ceiling and then using a scaffold is supported and adjusted. For those free outstanding tension and compression rods of the individual assembly supports Recesses or shafts have already been made in the Ceiling or the wall of the building in which the tension and compression bars during the above Adjustment process. Then these Recesses also poured out with concrete in order to Curing the concrete a firm connection between the Tension rods and compression rods as well as the ceiling or wall to manufacture.

From the above description, it can be seen that on-site assembly of the precast concrete element, i.e. the Concrete cantilever slab with the partially protruding Mounting beams a high precision in the adjustment of the Concrete cantilever slab requires only a larger one Workload as well as a complicated support by a external scaffolding is possible. In addition, at In any case, assembly the hardening of the concrete, which in the recesses on the ceiling or wall are cast in will be waited until the scaffold is removed can. It is clear that this approach takes the construction time not only extended, because the scaffolding further work on Buildings hampered, but also overall construction costs the height is driving.

Novel ones exist to solve this problem Mounting bracket systems from two parts, namely one prefabricated connection element and one of them spatially separated part of the building Recording device, each in the prefabricated component or are firmly anchored to the part of the building. Such a thing Mounting bracket system is, for example, in DE-OS 195 01 .277 A1.

For mounting the prefabricated component on the building on site the finished component only needs to be building part-side receptacles in position to be brought. Then the connection elements engaged with the receptacles, whereby the prefabricated component is finally assembled on the building.

For this purpose, the connection element preferably has a tension rod and a pressure bolt, whereas the connection element on Building a tension rod cradle and one has pressure plate attached on the face.

The tension rod is inserted into the Push rod holder inserted and by screwing or bolted bolts. The will automatically settle Push bolt to the front pressure plate of the Building, with suitable washers on Bolt related to the angular position of the prefabricated component the ceiling of the building is adjusted.

Although this mounting bracket system precedes the installation process Location considerably simplified, but still need a plurality of installation steps, in particular anchoring the mounting bracket system in the prefabricated component is still complicated.

Given this state of the art, it is the job of Invention, a mounting bracket system of this type and a Method for fastening a prefabricated component to a To create part of the building, making it easy as well enables cost-effective assembly of a precast concrete component becomes.

This object is achieved by a Mounting bracket system with the features of claim 1 and a method with the features of claim 14 solved.

The mounting bracket system according to the invention therefore has a precast component-side connection element with at least one tensile component, a compressible component as well as a shear-absorbing strut. The tensile component has a free one End, which should protrude beyond the prefabricated component Coupling piece. Furthermore, one is on the part of the building Receiving device provided with at least one Traction element, which has a coupling counterpart that with the coupling piece of the connection element during assembly the prefabricated component brought into engagement with the building part becomes. The coupling piece and the coupling counterpart are designed according to the invention as a suspension device. When mounting, the coupling piece is thus only in the coupling counterpart of the building part Mounted cradle without screwing are necessary.

For this, it has turned out to be special according to claim 2 proven advantageous, the coupling piece as a hook or Anchor and the coupling counterpart as an eyelet or Loop or an undercut forming Form locking element.

With regard to the method for assembling the prefabricated component on the part of the building by means of the invention Mounting bracket systems are according to the sibling Claim 14 the following process steps carry out:

First, an end plate is preferably made of steel, which is provided with holes or slots on which from the Building elements protruding plugged on. Then the faceplate is in relation to the Connection side of the part of the building aligned by their Tilt position in the vertical and / or horizontal direction by means of screwed to the part of the building itself supporting adjusting screws is adjusted. As soon as the Faceplate has assumed the correct position a gap that forms between the Face plate and the connection side of the building part preferably poured out by grout, the then sufficient time for curing is given. After the grout has hardened, the building element-side tension elements in the hook or anchor of Suspended components on the finished component side and thereby the pressure-resistant components, which from the Project the finished component, supported on the front edge. Finally, stop nuts, which are the hooks or Anchor on the tensile components of the prefabricated component hold on tight and the tensile components at their free ends also against the face plate in Plant brought.

In this way it is possible to adjust the inclination position of the Prefabricated component with respect to the building already when attaching and adjusting the end plate with respect to the connection side of the building so that after the transport of the Finished component and no further during assembly Adjustment work must be done more. This ultimately simplifies and reduces the cost of installing the Prefabricated component on site.

Further advantageous embodiments of the invention are Subject of the other subclaims.

Figur 1 den Seitenschnitt eines Montageträgersystems gemäß einem ersten bevorzugten Ausführungsbeispiel der vorliegenden Erfindung,

Figur 2 die Draufsicht eines an einen Gebäudeteil montierten Fertigbauteils mit einer Anzahl von Montageträgersystemen längs der Anschlussstirnseite des Fertigbauteils gemäß dem ersten Ausführungsbeispiels der Erfindung,

Figur 3 den Seitenschnitt einer Aufnahmevorrichtung eines Montageträgersystems während deren Montage am Gebäudeteil gemäß einem zweiten Ausführungsbeispiel der Erfindung,

Figur 4 den Längsschnitt des Montageträgersystems gemäß dem zweiten bevorzugten Ausführungsbeispiel der Erfindung und

Figur 5 die Draufsicht des Montageträgersystems gemäß dem zweiten Ausführungsbeispiel der Erfindung.

The invention is explained in more detail below on the basis of two preferred exemplary embodiments with reference to the accompanying drawings. Show it:

1 shows the side section of an assembly support system according to a first preferred embodiment of the present invention,

FIG. 2 shows the top view of a prefabricated component mounted on a building part with a number of assembly support systems along the connection end face of the prefabricated component according to the first exemplary embodiment of the invention,

FIG. 3 shows the side section of a receiving device of an assembly support system during its assembly on the building part according to a second exemplary embodiment of the invention,

Figure 4 shows the longitudinal section of the mounting bracket system according to the second preferred embodiment of the invention and

Figure 5 is a plan view of the mounting bracket system according to the second embodiment of the invention.

According to Figure 1, the mounting bracket system according to a first embodiment of the invention from a prefabricated component-side connector 10 and one building part-side receiving device 20.

The connection element has a component 1 that can be subjected to tensile stress here in the form of a tension rod, which on its one End (left end according to FIG. 1) in the finished component F, for example, a concrete cantilever slab is anchored. Therefor is the tension rod 1 at one end on reinforcement cages of the finished component F welded or with these wired.

At a vertical distance and parallel to the tension rod 1 is a pressure-resistant component 2 in the form of a pressure rod provided that also preferably in the finished part F. by welding or wiring to the reinforcement cages is anchored. The compression rod 2 and the tension rod 1 are connected by cross struts 3, which on the Tension and compression rod 1, 2 are welded and thus the Fix the height distance between the two bars. In the area the cross struts 3 and immediately adjacent to the one end face of the finished component F is a sleeve 4 arranged which sections the tension and compression rod 1, 2 and the cross struts 3 encloses and as Connection element for fastening insulation and heating panels (not shown further) serves.

The compression rod 2 has one at its free outer end Pressure receiving plate 5, which at the end of the pressure rod 2nd is welded on. The pull rod 1 has its free outer end an external thread, via which a tie rod 6 can be moved freely in the longitudinal direction and by means of a stop screw 7, which on the external thread is turned up, is secured against falling off.

The tie rod 6, according to the figure 2 in top view can be seen forms two attack sections, the left and are equally spaced to the right of the pull rod 1.

Adjacent to the sleeve 4 is a concrete body 8 molded in such a way that the pressure plate 5 of the pressure rod 2 is completely enclosed by the concrete body 8. At the The top of the concrete body 8 is a recess 9 provided, into which the free end of the tension rod 1 including the tie rod 6 and the stop nut 7 protrudes and thus remains freely accessible from the outside.

The receiving device 20 here consists of two Steel cables 11, 11 'arranged parallel to one another which are formed into a closed ring. The two Steel cables 11, 11 ', which are parallel to each other cast in part G of the building, in the present case a concrete ceiling protrude from the front at their front section in front of the concrete ceiling, as in particular in FIG see is. The steel cables 11, 11 'can preferably also be used the reinforcement cages of the reinforced concrete ceiling to an even better anchorage in the concrete ceiling guarantee.

The assembly of the prefabricated component F on the building part G, in the present case the reinforced concrete ceiling using the Mounting bracket system according to the first embodiment The invention is carried out as follows:

In the manufacture of the prefabricated component F, that is Mounting bracket system, i.e. the connecting element 10 with the Reinforcement cages of the prefabricated component F connected and such applied to the formwork of the prefabricated component that after Hardening the prefabricated material, preferably the Concrete, the cuff 4 directly on one End face of the finished component F connects. In doing so a plurality of connection elements 10 along one Arranged end face of the prefabricated component, as in the Fig. 2 can be seen. After the prefabricated component F with concrete is poured and hardened, the formwork removed, then the concrete body 8 to the free ends of the push and pull rod 2, 1 and Cross braces 3 cast along the prefabricated component becomes. This creates a compact component in itself which already has the connection elements 10 and the sound and thermal insulation are integrated.

On site, i.e. be on site during manufacturing the concrete ceiling, which may also be a prefabricated concrete ceiling can, the receiving devices 20 anchored in this, by the steel cables in the manufacture of the concrete ceiling 11, 11 'each of the along the connection side of the ceiling spaced receiving devices with the Reinforcement cages are connected and then the Concrete ceiling is concreted.

To assemble the finished component F, this is in alignment Concrete ceiling aligned and over the concrete body 8 supported a brick of the building part G, on which the concrete ceiling also rests. The concrete body 8 thus serves for the transfer of vertical forces into part G.

Then the steel rope pairs 11, 11 'around the Tie rods 6 placed on both sides of the respective tie rods 1 and Spacers 12, as can be seen in Figure 2 between the concrete body8 and the connection face of the Interposed concrete ceiling. These spacers 12 can have different sizes to align the Prefabricated component F along the face of the concrete ceiling enable

Finally, the stop nuts 7 on each Mounting bracket system tightened for itself and the Steel cables 11, 11 'put in tension. The stronger the individual stop nuts 7 are screwed in, the more the tensile force that is exerted on the individual tension rods 1 and steel cables 11, 11 'is applied, whereby a Swiveling the finished component F around the individual Spacer 12 in the vertical direction is possible. On in this way the inclination position of the prefabricated component be adjusted slightly with regard to the concrete surface.

Finally, the joint between the front of the Prefabricated component F and the front of the concrete ceiling preferably poured with grout, with the Recesses 9 filled in the area of the concrete body 8 become.

In Figures 3 to 5 is a second embodiment of the present invention, which is in essential due to the special preparation and Formation of the part 20 on the side of the building differs from the first embodiment of the invention.

According to Figure 3, there is the part of the building Receiving device 20 according to the second Embodiment of the invention from an end plate 21st for example with a T-profile, in which a number of Threaded holes machined at a distance from each other are. Adjusting screws 19 are in the threaded holes turned in.

The end plate 21 itself has a length corresponding to that Face length of the prefabricated component F and a height according to the thickness of the prefabricated component or Concrete surface.

The one at a height from each other and along the faceplate 21 uniformly arranged adjusting screws 19 protrude on both sides of the end plate 21. The face plate 21 itself also has an attachment option 18 the an adjustment bar 17 are temporarily attached can. Furthermore, the area in FIG. 4 is not further shown tension elements of the receiving device 20th Bores or slots 16 attached.

The connection element 10 on the finished component side has in Agreement to the construction according to the first Embodiment of the invention, the pull rod 1, the an end section is anchored in the finished component F. Of furthermore, the connection element 10 also has a Anchored the finished component as described above Pressure rod 2, the one welded to it Cross struts 3 is firmly connected to the tension rod 1 and is kept at a predetermined parallel distance.

In the area of the cross struts 3 is also in the Connection element 10 according to the second embodiment the cuff 4 is preferably made of plastic, which the tension and compression rod 1, 2 and the two Cross struts 3 sections firmly and flush on one end of the prefabricated component F is present. In this case, too, the cuff 4 is used Recording and mounting of heat and sound insulation panels, which are not shown in the figures.

At the free end of the tension rod 1 there is a tie rod 6 arranged either as in the first embodiment fixed by means of a stop nut 7 or at the end of the Tension rod 1 is welded. At the front of the Push rod 2 is also the same as in the first Embodiment welded a pressure plate 5. How can be seen from Figures 4 and 5, the train and ends the pressure rod 1, 2 on a vertical, i.e. perpendicular to the surface of the finished component F. Level.

The assembly of the prefabricated component using the Mounting bracket system according to the second preferred Embodiment is carried out as follows:

Similar to the first embodiment of the invention also in the second embodiment during the Production of the finished component F a number of Connection elements 10 along one end of the Finished component arranged, the one end portions of the respective tension and compression rods 1, 2 with the Reinforcement cages of the prefabricated component F by welding or Wiring. After pouring and curing of the finished component F, the sleeves 4 are flush to one end of the finished component F, and hold the insulation boards, not shown, which run lengthways extend the end face of the finished component F.

When building part G, mainly one The tension elements 11, 11 'are, for example, in concrete ceiling Form of the steel cables described above or simple steel tie rods on the reinforcement cages of the Fixed concrete ceiling and then during the Concrete poured in concrete. The front protrude End sections of the individual tension elements 11, 11 'over the Front of the concrete ceiling.

After the concrete ceiling has hardened, as in FIG is shown, the end plate 21 to the front end of the concrete ceiling, covering itself over the Adjusting screws 19 are supported on the end face. At the same time, the one in the present case is a T-profile Face plate 21 via its web 15 on a concrete ceiling supporting walls. By adjusting the top and lower and longitudinally spaced adjusting screws 19 can the inclination position of the end plate 21, which is preferably made of steel with respect to Face of the concrete ceiling in both vertical and in horizontal direction can be set as desired. Around The adjustment crossbar will simplify adjustment work in advance 17 attached to the face plate 21 to the tilt position to determine the face plate more precisely. To further a The end plate 21 falls down from the masonry prevent, are as already mentioned Bores or slots 16 in the face plate 21 formed by which the tension elements 11, 11 ', or the pulling element sections protruding from the concrete ceiling are pushed through.

After the end plate 21 into a certain Tilt position is brought, this will be forming gap between the face plate 21 and the Poured the face of the concrete ceiling, then the Adjustment slat 17 removed and the adjustment screws 19 away. After the pouring material has hardened, preferably a mortar material Preparatory work regarding the face of the concrete ceiling completed.

The prefabricated component is then assembled on site, i.e. immediately on site. For this, the The finished component is aligned with the concrete ceiling and then the through the slots or holes 16 of the End plate 21 projecting tension elements 11, 11 'on the tie rod 6 each attached. According to Figures 4 and 5 are the Tension elements 11, 11 'are designed as tension rods with ends arranged external threads on which stop nuts 7 are screwed on. The tie rods 6 to the tie rods 1 on the connecting element side are as the front side formed on the tie rods 1 welded plates, in which slots 14 are formed. During the The tension rods 11, 11 'of the hook-in process Cradles simply into the slots 14 of the Tie plate 6 inserted, the stop nuts 7 of the building part-side tension rods 11, 11 ' Undercut tie rod plates 6.

Of course it is also possible to use steel cables according to the first embodiment of the invention in the concrete ceiling pour, which penetrate the face plate 21 and Tie rods 6, as they are based on the first embodiment are described during the assembly of the prefabricated component F be hung up.

Here, the pressure rods 2 are supported on it welded pressure plates 5 on the end plate 21 and on the web 15 of the T-profiled end plate 21. This allows vertical forces on the web 15 of the End plate 21 are transferred into the masonry.

Finally, the stop nuts 7 either on the building part-side tension rods 11, 11 'or to the finished component-side tension rods 1 in the case of Steel hawser assembly tightened until the Tension rods 1 of the connection elements 10 on the end plate 21 issue.

As stated above, the ends lie the connecting element-side pressure rods 2 and tension rods 1 in a plane perpendicular to the surface of the finished component F, so that ultimately the tilt position of the Prefabricated component F with respect to the concrete ceiling of the Tilt position of the end plate 21 with respect to Concrete ceiling depends. A readjustment of the inclination as well Height position of the prefabricated component F on site after the Final assembly of the end plate 21 on the concrete ceiling is thus no longer possible or only possible to a limited extent. In reverse are assembly errors after completion of the Concrete ceiling together with the associated face plate 21 practically not more is possible.

In addition, by attaching the face plate 21st Irregularities on the face of the concrete ceiling, for example in the form of paragraphs or butt joints as they occur especially in precast concrete slabs, balanced, so that an exact attachment of the prefabricated component to the ceiling can be done.

Finally, be on a manufacturing variant with regard to the part of the building, for example the Ready-made concrete ceiling noted.

As stated above, the Formwork panels in the face area of the concrete ceiling be formed with openings through which the steel cables are then carried out after concreting the Blanket and then stripping from the front to protrude from the ceiling. Alternatively, however, you can also in the area of the steel cables before the concreting process Shafts forming cups or sleeves e.g. made of plastic or another material on the formwork panels fastened or created that have an opening or a Each have slot, so that the steel cables in these cups are inserted and rolled up in them can. In this case the drilling is Formwork panels not necessary.

As soon as the concreting is finished, the Steel hawser after striking the concrete slab parts from the individual cups are taken out, followed by the cavity formed by the cup, for example is filled up with grout again.

The invention thus relates to a mounting bracket system a connection element 10 on the finished component side and one building part-side receiving device 20 each one Have coupling or a coupling counterpart, which form a suspension device. Furthermore concerns the invention an assembly method using the Mounting bracket system, which the attachment and Alignment of a metal end plate 21 on the Provides connection side of the building part G, whereby the Inclination position of the connected and fully assembled prefabricated component F can be predetermined.

Claims (14)

Mounting bracket system for fastening a prefabricated component (F), in particular a concrete cantilever, to a part of a building (G) with the following parts, a connection element (10) which is anchored in / on the finished component (F) and comprises at least one component (1) which can be subjected to tensile stress, one component which can be subjected to pressure and (2) and a strut (3) which absorbs transverse force, at least the component (1) which can be subjected to tensile stress has a coupling piece at one free end and a receptacle device (20) on the part of the building which can be anchored in / on the building part (G) and has at least one tension element (11) which has a coupling counterpart which can be brought into engagement with the coupling piece of the connecting element (10), characterized in that
the coupling piece and the coupling counterpart form a suspension device. Mounting bracket system according to claim 1,
characterized in that
the coupling piece is designed as a hook or anchor (6) and the coupling counterpart is designed as a locking element forming an undercut, an eyelet or loop. Mounting bracket system according to claim 2,
characterized in that
the tension element (11) on the part of the building, which is formed with the loop or eyelet, is a steel rope. Mounting bracket system according to claim 3,
characterized in that
the steel cable is formed into a closed ring. Mounting bracket system according to claim 3 or 4,
characterized in that
the finished component-side tensile component (1) is a tension rod which has at its free end the hook or anchor (6) for hanging the steel cable. Mounting bracket system according to claim 5,
characterized in that
the hook or anchor (6) is movably pushed onto the pull rod (1) and secured by means of a stop nut (7) screwed on the end of the pull rod (1), which at the same time serves as an adjusting device for adjusting the inclined position of the prefabricated component (F). Mounting bracket system according to claim 6,
characterized in that
Two steel cables are provided in parallel spacing, which can be attached to the anchor (6) of the tie rod (1) on the finished component side. Mounting bracket system according to one of claims 5 to 7,
marked by
a sleeve (4), preferably made of plastic, which contains the tension rod (1), a compression rod forming the pressure-resistant component (2) and the shear force strut (3) of the connecting element (10) connecting the tension and compression rod (1, 2) in their central sections encloses and is designed as an adapter for receiving and holding a heat and sound insulation panel. Mounting bracket system according to claim 8,
characterized in that
On the sleeve (4) on the free end section of the connecting element (10), a concrete body (8) surrounding the tensile and compression rod (1, 2) is formed, which acts as a supporting device for transmitting vertical forces into the building part (G). serves. Mounting bracket system according to claim 9,
characterized in that
the pressure rod (2) ends within the concrete body (8), so that the concrete body (8) transmits horizontally acting pressure forces from the pressure rod (2) to the part of the building (G). Mounting bracket system according to one of claims 1 to 8,
characterized in that
the receiving device (20) has an end plate (21) which can be brought into a predeterminable inclination position in the vertical and / or horizontal direction with respect to the connection side of the building part (G) by means of at least two adjusting screws (19) arranged at a height from one another and as a support for the compressive component (2) and serves as a stop for the tensile component (1) of the connecting element (10). Mounting bracket system according to claim 11,
characterized in that
the end plate is designed with bores or slots (14) for carrying out the tension elements (11) on the part of the building part. Mounting bracket system according to claim 11 or 12,
characterized in that
the end plate (21) is designed with a T-profile and at the same time serves as a support device for transmitting vertical forces into the part of the building (G). Method for assembling a prefabricated component to a building part by means of an assembly support system according to one of claims 11 to 13
marked by
the following process steps, Plugging the end plate (21) provided with bores or slots (14) for the tension elements (11) projecting from the building part onto the tension elements (11) on the part of the building part, Aligning the end plate (21) with respect to the connection side of the building part (G) and setting a specific inclination position with respect to the connection side in the vertical and / or horizontal direction, Pouring a gap between the end plate (21) and the connection side of the building part (G), preferably with grout, Hooking the tension elements (11) on the part of the building into the hooks or anchors (6) of the tension rods (1) and on the prefabricated part Tighten the stop nuts (7), which are screwed onto the tension rods (1) or the tension elements (11) on the building part, and which are engaged with the anchors (6) until the tension rods (1) on the finished component stop against the end plate (21).

Images