EP1148179A1 - Heat insulating, fire protected construction element for connecting a supporting element with a supporting element and method of connecting it - Google Patents

Abstract

The component for the connection of a supported component(1) to a supporting component(2) has an insulating element(5) covered at the top and bottom by a fireproof plate(3,4) which on its longitudinal edge covered by the top side fireproof plate(3) has a recess to accommodate a protrusion(1a,2a) projecting from the connecting face of the supported and/or supporting component, thereby sealing the top side fireproof plate from below. An Independent claim is included for a procedure to connect a supported component to a supporting component.

Description

The invention relates to an insulating and against fire Protected connection component for connecting a worn one Component to a load-bearing component.

The connection components mentioned are in particular known from building technology to support a load-bearing Member like a building ceiling slab a worn one Component like a cantilevered balcony slab or a Connect finished stairs.

The connection component is all elements or Allocate parts that are used when connecting the load-bearing and worn component play a role. In one Connection components are therefore included: mounting bracket, with which the supported component to the supporting component is connected; Insulating material for thermal protection reasons between the carrying and carried Component is arranged; any panels with which the mounting brackets or the insulating material are covered become; and the same. In addition, the exact stands Embodiment of the connection component in an immediate Connection with the design of the to be connected Components, since the mounting bracket of the connection component with the components to be connected are anchored and the Connection areas between the individual components should be as accurate as possible.

In addition to thermal insulation, there are often additional fire protection measures required to burn in case of fire to prevent insulation material. The EP 0 658 660 A1 therefore proposes an insulating body which with fire protection panels on the top and bottom is equipped. The upper fire protection plate extends on both sides beyond the width of the insulator to Cover column due to tensile load between the insulating body and the adjacent components may occur. Such a protrusion of the fire protection material is not with the lower fire protection plate necessary because the lower section of the insulation joint in the Print area.

On the part of the applicant, a Fire protection solution offered for a connection component, after which, similar to EP 0 658 660 A1, an insulating body is used with a protruding on both sides top fire protection panels. The two protruding sections of the upper fire protection plate are each taken up by a recess, in the connection area of the adjacent components is trained. This will form the top of the adjacent components and the upper fire protection plate a flat surface. It is also recommended the insulator on the underside with a 2 cm and on the top with to protect a 1 cm thick fire protection plate achieved a fire resistance duration of 90 minutes (F90) becomes.

Furthermore, EP 0 892 118 A1 proposes an insulating body in front, on the top and bottom of a hollow chamber clamped or stuck from hard wall material that is at least partially with a fire protection material is filled. It is suggested the top Cavity a few millimeters or centimeters above the Insulator protrude, leaving the cavity the gaps occurring due to the tensile load are fireproof can cover. As an alternative to widening the upper cavity is suggested the upper one Cavity with strips of intumescent material too assemble that swell under heat and in Seal the surrounding area of the existing column.

The invention has for its object a thermal insulation Connection component for connecting a worn one Component to create a load-bearing component that with inexpensive and reliable fire protection is provided and simply with the worn or load-bearing component can be connected.

This task is performed according to a connection component Solved claim 1, which is characterized in that the insulating body covered with fire protection panels his covered by a fire protection plate on the top Long edge is provided with a recess to one from the connection surface of the worn component and / or load-bearing component projecting lead, through which the top fire protection plate from below is sealable.

While suggested at the prior art discussed the gap caused by tensile load between the upper fire protection plate and each adjacent component from above with fire protection material to cover, the invention provides for this gap of below by the one to be picked up by the return To seal the lead. This can be done via the Saving protruding fire protection material, which too leads to a considerable cost advantage.

To reliably seal the top fire protection panel to ensure it is recommended that the Return from the longitudinal edge of the insulating body Has a depth of at least about 0.2 to 0.5 cm to one Take up the lead with a corresponding overhang can. This is not only the gap formation due to tensile forces but also sufficient heating in the event of a fire Taken into account.

The insulator should have at least one underside 1 to 2 cm and the top of a minimum of 1 to 1.5 cm thick fire protection plate must be covered so that a Fire resistance duration of 90 minutes is achieved.

Aside from the recess, the should go through long sides of the insulating body and the fire protection plates Course of the connection surface of the connection component in the be essentially straightforward so that manufacturing and Simplify assembly.

The insulating body can, for example, be in one piece Block of insulating material such as polystyrene on which as fire protection panels, glass fiber reinforced lightweight panels be stuck on. The insulating body can, however also consist of several sub-blocks by the glued fire protection panels are held together. To lay the mounting bracket in the insulator to facilitate, the mounting bracket preferably with box-shaped plastic cuffs surround the inside can be stiffened with ribs. The cuffs, through the inside of which the mounting brackets run are in Cutouts of the insulating material used, the Insulating material and the cuffs together Form insulating body. The invention on the longitudinal edge the recess is provided in in this case both of the insulating material and the plastic cuffs formed.

The supporting and / or supported component can be a concrete component like being a concrete slab. Concrete components are usually formed by formwork in a formwork manufactured. This process has among others the Advantage that the mounting brackets used for connection of the connection component already during manufacture pour the concrete component into the concrete component and anchored and that the resulting prefabricated component when assembling on site only to the corresponding other component must be connected. It offers itself, the mounting bracket of the connection component first pour into the worn component and that the resulting prefabricated component on site with the load-bearing one Connect component by the free mounting beam ends be poured into the load-bearing component.

If the mounting bracket of the connection component in one Concrete component can be poured in, with the Recess provided long side of the insulating body use to form the connection surface of the concrete component. When concreting, the concrete fills the recess in the Insulating body with concrete so that on the connection surface of the concrete component, the projection is formed in one piece which is the top fire protection plate of the Seals the connection component from below.

A typical example of such a prefabricated component, the manufactured in the above manner is one Balcony slab. Because the walkable top of a balcony slab should be as smooth as possible, that with the Balcony panel connecting component to be connected to or in the formwork arranged upside down, so that the later top of the balcony slab from Formwork floor is molded. The one with the connection component the finished cast balcony slab is then on site, i.e. on the construction site, cantilevered on a building ceiling slab connected.

For reasons of cost, the same formwork is often used not only manufactured prefabricated parts of different lengths, but also prefabricated components, in which the connecting component is not protected against fire. The side of the Formwork on which the connection component is positioned is therefore usually of a sliding type Stop rail limited with the location of the connection surface fixed between the concrete slab and the connecting component becomes. Since the invention enables the connection component to be equipped with fire protection panels, the Long sides cannot protrude beyond the insulating body the connection component provided with fire protection plates same dimensions as a connection component without Have fire protection equipment. In contrast to those from the State of the art connection components in which the fire protection material on the top of the insulator survives, so the invention allows the Manufacturing between connection components with and without Move fire protection equipment without the stop rail due to excess fire protection material to have to move.

The case where the upper Fire protection plate from below sealing projection first when attaching the connection component to the worn or load-bearing component is formed. However, it is also imaginable that the worn by the pad protruding lead is already preformed before the connection component is attached. The protrusion can also be formed by on the mating surface of the worn or carrying Component one of the recess in the insulating body removable profile strip made of metal, plaster laminate or another suitable material is attached with which the upper fire protection plate can be sealed from below.

The above variant of a separate Work step to be attached to the respective component Profile bar is more expensive than the direct training one Advantage through concreting. However, this opens up Variant the possibility of connecting component independently from the contact surface design of the bearing or provided component with fire protection. It can therefore also manufacture components manufactured as standard, for which initially no fire protection equipment during manufacture was provided, with the fire protection solution according to the invention are provided.

Fig. 1 einen Längsschnitt, der in Kragrichtung eine erste Gestaltung des Anschlussbereichs zwischen einer Balkonplatte, einem Anschlussbauteil und einer Deckenplatte zeigt;

Fig. 2 eine Ausschnittvergrößerung des mit einer Strichpunktlinie bezeichneten Bereichs in Fig. 1;

Fig. 3 einen Längsschnitt, der in Kragrichtung eine zweite Gestaltung des Anschlussbereichs zwischen der Balkonplatte, dem Anschlussbauteil und der Deckenplatte zeigt;

Fig. 4 eine Draufsicht auf die Oberseite eines Anschlussbauteils; und

Fig. 5 eine Ansicht der längsseitigen Anschlussfläche eines Anschlussbauteils.

In the following the invention will now be described with reference to the accompanying drawings using preferred exemplary embodiments. The description is based on the example of a cantilevered balcony slab (supported component) that is connected to a building ceiling slab (supporting component). Show it:

1 shows a longitudinal section showing a first configuration of the connection area between a balcony slab, a connection component and a ceiling plate in the cantilever direction;

FIG. 2 shows an enlargement of a detail of the area designated by a chain line in FIG. 1;

3 shows a longitudinal section, which shows in the cantilever direction a second design of the connection area between the balcony plate, the connection component and the ceiling plate;

4 shows a plan view of the top of a connection component; and

5 shows a view of the longitudinal connection surface of a connection component.

1 shows a balcony slab 1 and a ceiling slab 2, which are connected via an intermediate connection component are that from a top and bottom of fire protection panels 3, 4 covered insulating body 5, go through the mounting bracket 6a, 6b and 7. Fig. 4 shows a top view of the connection component before it with the balcony plate 1 and the ceiling plate 2 was connected.

As in particular in the enlarged detail in FIG. 2 becomes clear, the insulating body 5 points to its from of the fire protection plate 3 covered longitudinal edges Returns 5a. Take these recesses 5a one each from the connecting surface of the adjacent Balcony plate 1 protruding projection 1a and one of the Protruding connection surface of the adjacent ceiling plate 2 Projection 2a on. The projections 1a, 2a seal the fire protection plate covering the insulating body on the top 3 from the bottom.

The depth of the projections 5a or the overhang of the Projections 1a, 2a from the pad is 0.2 to 0.5 cm to ensure a seal even then if due to tensile forces or due to thermal expansion in the connection area between the vertical part the connecting surfaces of the balcony and ceiling panels 1, 2 and the long side of the fire protection plate 3 a gap occurs. The tops of the balcony and ceiling tile 1, 2 and the upper fire protection plate 3 form a plane Area.

To the tensile, pressure and To absorb lateral forces are different types of Mounting brackets used. In the upper connection area, in tensile forces 6a, 6b used. In the lower connection area, in the pressure forces occur in particular, a pressure rod 7 used. The pressure rod 7 consists of two in the longitudinal direction trending angled profiles that in Rectangular pressure plates end so that the printing forces can be better absorbed.

3 shows the design of the connection area another point of the connection component. This Connection area differs from that above described in that instead of the pressure rod 7, a Push rod 8 to absorb the compressive forces and additional Diagonal bars 9 are available to absorb the transverse forces are. The pressure rod 8 consists of one in the longitudinal direction trending rod, in rectangular pressure plates ends.

The mounting bracket passing through the insulating body 5 6a, 7, 8, 9 are made of stainless steel, while the in Inside the balcony and ceiling tile 1, 2 trending Assembly support 6b are made of structural steel.

As an alternative to that shown in Figures 1 and 3 Design in which the mounting bracket 6a, 7, 8, 9 directly go through the insulating body 5, it is conceivable to surround the assembly supports with sleeves 10, as shown in Fig. 5. The cuffs 10 as well the insulating material surrounding them is a component of the insulating body 5 on the top of the fire protection plate 3 covered longitudinal edge with a projection 5a Mistake.

As shown in Fig. 3, the pad is the Balcony plate 1 at the point where the diagonal bars 9 enter the balcony slab 1 with a thickening 1b Mistake. Outside the connection area of the diagonal bars 9, this thickening 1b is not necessary, so that the long side of the insulating body 5, apart from the recess 5a, over the entire long side seen opposite the balcony slab 1 essentially forms a straight connection surface. The pad the ceiling panel, however, is up to the projection 2a plan. The connection surface of the insulating body 5 thus has on this page, apart from the return 5a, one completely straight line.

The insulating body 5 is on the underside of one Fire protection plate 4 covered. By doing that in the bottom Connection area prevailing compressive forces is one Gap formation unlikely. Hence the lower one Fire protection plate 4 no seal like that for the Upper fire protection plate 3 is provided.

The connection component is with the balcony plate 1 and Ceiling plate 2 is preferably connected as follows:

First, by concreting in a formwork cuboid shaped balcony slab 1, into which the one End of the mounting bracket 6a, 6b, 7, 8, 9 is poured. During the casting process, the long side of the Fire protection panels 3, 4 covered and with the recess 5a provided insulating body 5 a side surface of the Formwork and forms the connection surface of the balcony slab with the projection 1a. The top of the connector, i.e. the upper fire protection plate 3 is located in the manufacturing process below, so that the later top the balcony slab 1 when concreting in the formwork is at the bottom. This creates a smooth top, i.e. a smooth walkable surface.

The prefabricated component obtained in the manner explained above balcony plate 1 and connecting component become first connected to the building ceiling slab 2 on the construction site. In the partially prefabricated ceiling tile 2 is a recess for receiving the free ends of the Mounting bracket 6a, 6b, 7, 8, 9 provided. The pad of the connection component is attached to the ceiling panel 2 set and the free ends of the mounting bracket 6a, 6b, 7, 8, 9 poured into the recess and anchored. At this casting process is the long side of the Fire protection panels 3, 4 covered and with the recess 5a provided insulating body 5, the connection surface to form the ceiling plate 2 with the projection 2a.

After the connection is completed, one of the ceiling slab 2 cantilevered balcony slab 1 with a insulation area formed by the insulating body 5, the top and bottom of the fire protection panels 3, 4 is covered. In the event of a fire, a blow will result Insulator 5 by those received by the recesses 5a Protrusions 1a, 2a prevented the upper Seal fire protection plate 3 from below.

Claims (9)

Connection component for connecting a supported component (1) to a supporting component (2), with an insulating body (5), which is covered on the top and bottom by fire protection plates (3, 4); and assembly supports (6a, 6b, 7, 8, 9) which pass through the longitudinal sides of the insulating body (5) and can be connected to the supported component (1) and the supporting component (2),
characterized in that
the insulating body (5) is provided on its longitudinal edge covered by an upper-side fire protection plate (3) with a recess (5a) in order to protrude from the connection surface of the carried component (1) and / or supporting component (2) ) through which the top fire protection plate (3) can be sealed from below. Connection component according to claim 1,
characterized in that
the recess (5a) from the long side of the insulating body (5) has a depth of at least 0.2 cm. Connection component according to claim 1,
characterized in that
the insulating body (5) is covered on the underside by a fire protection plate (4) that is at least 1 to 2 cm thick and on the top side by a fire protection plate (3) that is at least 1 to 1.5 cm thick. Connection component according to claim 1,
characterized in that
the longitudinal sides of the insulating body (5) and also the fire protection plates (3, 4), apart from the recess (5a), form an essentially rectilinear connection surface. Connection component according to claim 1,
characterized in that
the insulating body (5) has sleeves (10) which surround the mounting brackets (6a, 6b, 7, 8, 9) and which are also provided with the recess (5a) on their longitudinal edges covered by the top fire protection plate (3). Method for connecting a connection component according to one of the preceding claims with a supported component (1) or a supporting component (2), which is a concrete component into which the mounting supports (6a, 6b, 7, 8, 9) are cast,
characterized in that
the connection surface of the concrete component is formed by the longitudinal side of the insulating body (5) provided with the recess (5a), with the projection (1a, 2a) being formed in one piece. Method according to claim 6,
characterized in that
the longitudinal side of the insulating body (5) provided with the recess (5a) serves as a side surface of a formwork in which the concrete component is formed. Method according to claim 7,
characterized in that
the top of the connection component is at the bottom when the concrete component is formed. Method according to one of claims 6 to 8,
characterized in that
the supported component (1) is a balcony slab and the load-bearing component (2) is a building ceiling slab and the connecting component is first connected to the balcony slab in order to then be connected to the building ceiling slab.

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