EP0939172A2 - Exterior building unit for addition to existing constructions - Google Patents

Abstract

The base plate (2) of the balcony or terrace or similar is connected to a concrete roof (4) of the building by fixing members (3) formed as an anchor (5) which is fixed in a corresponding recess (6) in the roof by adhesive. The anchor has at the free end (7), a projection (8) smaller in diameter than the anchor body and able to absorb the tensile forces. The anchor body (9) and/or projection are connected to the inside wall (11) of the recess by a multi-component mixture sleeve (10).

Description

The invention relates to an external component for attachment to existing buildings, in the form of a balcony or conservatory with a floor slab and at least a guardrail, the floor slab using fasteners with a concrete ceiling of the existing building.

With increasing increases in housing needs and increasing requirements with regard to the comfort of apartments, it has been shown to be necessary Increase the living quality of buildings by adding balconies or conservatories. There is also a tendency to improve the quality of windows in terms of insulation raised to large windows and balconies. In new buildings, the production of balconies and conservatories are not too big of a problem because they are on ceilings of the residential building can be applied. In this case, the balcony only provides one projecting part of the ceiling slab. The reinforcement of the balcony is used for the Manufacturing connected to the ceiling reinforcement and balcony and ceiling are possible concreted in one operation. Because the base plate of the balcony is practical constitutes part of the ceiling, no further structural measures are necessary. Right-angled struts are placed on the base plate, usually rectangular, which serve to attach the guardrail or form it yourself.

However, retrofitting balconies is much more difficult or conservatories on existing buildings. The weight of the balcony can not only be removed via the ceiling tile, but must be above supports be derived into the ground. Likewise, those shown in the balcony Flat tensile and transverse forces through constructive measures be included. So there are additional tension and compression elements to provide which can be guaranteed further protection of the balcony. About that In addition, when retrofitting balconies, the facade and the insulation are also important to penetrate or even remove in as few places as possible. The danger the formation of undesirable cold bridges is then due to the mass of Components significantly. In addition, the non-positive connection between the balcony and building components in the field of insulation or cladding Building does not dissipate the forces, which leads to a high moment load of these components can come. Another problem has arisen with previously known ones technical systems for retrofitting balconies or conservatories it was found that the required proof of stability required a lot of effort are to provide. Solutions tailored to the respective building also bring the disadvantage that the required stability with considerable effort must be supported by invoices.

The invention is therefore based on the object, with significantly less effort than before, stable and in retrospect to existing buildings also with facing or cladding to create attachable external components with fastenings. This should be approved by the building authorities, so that a case-by-case verification is not necessary. You need to building physics requirements meet.

The object is achieved in that the static connection Fastening part between the balcony and the building is designed as an anchor is in a corresponding recess, preferably a borehole in the concrete ceiling with the production of a non-positive connection through adhesive action fixed and at its free end with one absorbing the tensile forces Extension with a smaller diameter than the anchor body is equipped.

On the one hand, a blind hole is used to later accommodate the anchor, on the other hand, with the same drilling axis behind it, deeper into the building penetrating blind hole of smaller diameter made to accommodate the extension. In order to fix this type of anchor in the concrete ceiling, it is widely used two-component adhesive to create the bond between anchor and concrete ceiling. It is provided that the anchor body and / or the extension over a multi-component mixture jacket with the recess inner wall is provided, which preferably the entire outer surface of the anchor body and Process encased. Both components are used immediately before the Anchor inserted into the hole. By inserting the rotating anchor, the Both components of the adhesive are then mixed together so that they are together react and the hardened adhesive is formed. The extension is due its small diameter inserted into the concrete ceiling and surrounded by the concrete, that above all it can absorb the necessary tractive forces. The remaining powers will safely absorbed by the thicker anchor body in diameter. A safe one This fixes the balcony to the existing ceiling. As embodiments are conceivable that anchor body and extension together or separately the same or different multi-component mixtures. Consequently solutions that can be tailored to the respective requirements are possible. Preferably anchor and extension are separated with two cartridges of different diameters and adhesives of different consistency. The anchor body comes first the task to absorb radial forces, while the extension in the first Line is stressed by axial forces, which pulls him stressful forces are derived. By choosing the small diameter is - As mentioned above - ensures that there is sufficient concrete cover and the anchor body is thus securely integrated.

In order to ensure the necessary positive connection between anchor and extension, in a preferred embodiment, the extension is welded to the anchor or screwed on and then again preferably over a weld secured. A particularly inexpensive embodiment is the use of commercially available dowels that absorb the determined tensile forces as an extension. The advantage of these anchors is that they are statically proven and approved and a further proof of tensile force in the axial direction of the armature or the extension is no longer necessary because the extension can absorb the tensile forces alone. Through the The cost can be compared using a common standard component Fortunately, previously known embodiments significantly lower.

The armature body and its lateral surface serve primarily to absorb the radial forces to increase the non-positive effect between anchor and concrete ceiling irregular shape. In a preferred embodiment, the outer surface is formed as a thread, whereby the resistance of the anchor to train in known way is increased. Furthermore, it is also the embodiment the lateral surface as a thread around a commercially available and therefore inexpensive, the length of the thread preferably corresponds to that of the anchor body. In order to it is possible to use the anchor nut, regardless of the insulation thickness, always create an effective bond with the masonry or the ceiling.

The fastening system according to the invention thus acts mechanically as Clamping, the anchor body enclosing a building insulation or Fairing ensures length. The thickness of an insulation or cladding can be variable. The gap can thus be bridged without that it can be used as a support or support surface for the anchor body can. Nevertheless, there is a secure connection between the balcony and the concrete ceiling.

A lug, which is attached to the outside of the building, is used to attach the external component End of the anchor is assigned. After the anchor body is inserted into the borehole is and the effect of the adhesive has started, it is first at a Execution of the lateral surface as a thread fixed by a first nut. Subsequently a tab, preferably an angle iron is placed on the thread, which as Attachment of the outer component is used. The vertical leg of the angle iron is braced on the outer wall of the building via a second anchor nut, thus forming horizontal leg the support for the balcony slab. This way is in use of at least two anchor bodies a conceivably flexible support for created the balcony, especially steel or concrete beams, wooden beams or other support systems can be connected. The one between the balcony and the wall of the house The resulting distance is desirable in terms of building physics because water is drained off here can be without puddling and thus dampening the wall is coming. In the horizontal leg of the angle iron is one with one in the concrete slab fixed sleeve dowel corresponding vertical hole provided. This The task of sleeve dowels is to connect angle iron and concrete slab and at the same time to fix the concrete slab in its plane. It is for easier assembly expedient to design the hole as an elongated hole.

The extension has a preferred way of increasing its tensile resistance Embodiment known conical or flange-shaped sections. Farther the extension is surrounded by metal reinforcement and connected to it, due to their grid-like structure, improved wetting of the dowel with adhesive and thus to increase the adhesive effect. Further the lateral surface of the extension can also be designed as a thread.

The diameter ratio of the extension to the anchor has proven to be particularly favorable proven if it is chosen between 1: 2 and 1: 4, preferably in the ratio 1: 3.

Fig. 1

einen Schnitt durch eine Balkonplatte, die Außenwand eines bestehenden Gebäudes und eine Betondecke, verbunden durch ein Befestigungsteil in Ansicht von der Seite,

Fig. 2

einen ebensolchen Schnitt in Ansicht von oben und

Fig. 3

einen ebensolchen Schnitt in Vorderansicht.

Further details and advantages of the subject matter of the invention emerge from the following description of the associated drawing, in which a preferred exemplary embodiment is shown with the necessary details and individual parts. Show it:

Fig. 1

a section through a balcony slab, the outer wall of an existing building and a concrete ceiling, connected by a fastening part in a view from the side,

Fig. 2

a similar cut in top view and

Fig. 3

a similar section in front view.

Figure 1 shows a fastening part 3, consisting of anchor 5 and extension 8. Der actual anchor 5 consists of the anchor body 9 and the nut 20. In the in this The embodiment shown is the outer surface 12 of the anchor body 9 provided with a thread 13, the extension 8 is on the anchor body 9 with Metal reinforcement 24 welded on.

After production of the recess 6 with recess inner wall 11, in this Example a borehole, the recess 33 was drilled in the same axis. Of the The bond between the concrete ceiling 4 and anchor body 9 is via a multi-component mixture jacket 10 manufactured.

The axial forces are predominantly via the extension 8, the radial forces in removed primarily over the anchor body 9. As can be seen from Figure 1, is above and there is sufficient concrete cover below the extension 8, so that sufficient security against cracking and thus impairment of stability given is. The anchor body 9 is at its free end 7 deep enough in the Concrete ceiling used so that this mounting of the anchor body acts as a clamp. It is therefore possible for the anchor - which still lies in the area of the masonry 25 - in the area 14 of the insulation but no longer - between the free end 7 and the outside of the building End 15 a length ensuring the insulation having.

The anchor 5 is tightened via a first nut 26 before an anchor nut 20 the bracket 16 designed here as an angle iron 17 in turn braced. The Angle iron 17 is composed of a vertical leg 18, which on the Anchor 5 is attached and a horizontal leg 19, which as a support for the base plate 2 of the balcony 1 is used. Via a sleeve dowel 22 and a bore 23 through the tab 16 extending screw 34, the base plate 2 is additional fixed. Figure 2 shows particularly well the desired distance a between the base plate 2 and outer wall of the building 21. Rainwater can drain off without any backwater. Moisturization of the masonry 25 cannot occur.

Figure 3 shows a partial view of the balcony with the posts 27. In this figure these are for transferring the concrete weight of the balcony 1 into the ground provided post 27 recognizable. The posts 27 are with their upper End 31 inserted into holes 29 drilled into the bottom plate 2 from below, while the lower ends 27 of the upper support post 30 into holes 28 drilled from the top Base plate 2 are used. These posts 30 and 31 are also over welded flanges 32 secured. Such a balcony 1 is from above as from supported or clamped below. The posts 27 are at all four corners of the base plate 2 provided.

All of the above-mentioned features, including those that can only be taken from the drawings, alone and in combination are regarded as essential to the invention.

Claims (14)

External component for attachment to existing buildings, in the form of a balcony (1) or a winter garden with a floor slab (2) and at least one protective railing, the floor slab (2) being connected to a concrete ceiling (4) of the building via fastening parts (3),
characterized,
that the fastening part (3) is designed as an anchor (5), which is fixed in a corresponding recess (6) in the concrete ceiling (4) to produce a non-positive connection by adhesive action and at the free end (7) with an extension absorbing the tensile forces (8) with a smaller diameter than the anchor body (9). External component according to claim 1,
characterized,
that the armature body (9) and / or the extension (8) is connected to the recess inner wall (11) via a multi-component mixture jacket (10). External component according to one or more of the preceding claims,
characterized,
that the extension (8) associated with the armature (5) is welded or screwed on and then preferably secured by a weld seam, is non-positively connected to the armature body (9). External component according to one or more of the preceding claims,
characterized,
that an extension (8) is a commercially available dowel which absorbs the determined tensile forces and is connected to the anchor body (9). External component according to one or more of the preceding claims,
characterized,
that the outer surface (12) of the armature (5) is designed as a thread (13). External component according to one or more of the preceding claims,
characterized,
that the outer surface (12) of the anchor body (9) has a thread (13) that extends over the entire length of the anchor body (9). External component according to one or more of the preceding claims,
characterized,
that the anchor body (9) has a length ensuring the encasing of a building insulation (14) or cladding. External component according to one or more of the preceding claims,
characterized,
that the building-outside end (15) of the anchor (5) is assigned a tab (16) which serves as a support and attachment of the balcony (1). External component according to one or more of the preceding claims,
characterized,
that the tab (16) is designed as an angle iron (17), the vertical leg (18) of which is fixed to the outer wall (21) of the building via the anchor nut (20) and the horizontal leg (19) forms the support for the base plate (2) . External component according to one or more of the preceding claims,
characterized,
that a bore (23) corresponding to a sleeve dowel (22) fixed in the base plate (2) is provided in the horizontal leg (19) of the bracket (16). External component according to one or more of the preceding claims,
characterized,
that the bore (23) is designed as an elongated hole. External component according to one or more of the preceding claims,
characterized,
that the extension (8) has conical or flange-shaped sections. External component according to one or more of the preceding claims,
characterized,
that the extension (8) is surrounded by a metal reinforcement (24) and connected to it, or its outer surface is designed as a thread. External component according to one or more of the preceding claims,
characterized,
that the diameter ratio of the extension (8) to the anchor body (9) is 1: 2 to 1: 4, preferably 1: 3.

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