AT395459B - SHUTDLE ELEMENT - Google Patents

Description

AT 395 459 B

Formwork element preferably for ends, separations or connections of reinforced floor slabs to be concreted opposite or with other components, for example with a shell of a two-layer masonry.

If a double-layer masonry is used in a building, the floor slab may only rest on 5 of a shell in order to avoid a sound and heat bridge from one wall shell to another.

The distance remaining between the shells is filled with isolation mark.

If the work is carried out correctly, the formwork between the inner and outer wall shell is installed flush with the edge of the shell on which the floor slab lies, and removed after the concrete has hardened sufficiently. However, this is not easy and time-consuming, especially for reasons of space. 10 In part, the problem with external walls was solved so that the outer shell was pulled up above the level of the floor slab to be concreted and used to support the formwork boards. However, if you consider that the specific pressure on a formwork board with a floor slab can often be up to 6 N / cm ^ and that the masonry of the outer shell is often not sufficiently hardened during today's construction times, this can be caused Imagine damage easily. 15 The problems have been identified. In CH-PS 625 589 an angle iron is described, with one leg that comes to lie in the floor slab to be concreted, while the second leg is used for releasably holding a formwork board by means of fastening elements, which formwork board must be removed after the concrete has hardened. However, the proposed solution is unsuitable for connection to two-wall masonry. 20 The present invention has the task of creating a formwork element of the type mentioned at the outset, which is suitable for closings, separations or connections of reinforced concrete floor slabs opposite or with other components, and one represents inexpensive solution

This problem is solved by a formwork element according to the preamble with the features of the characterizing part of the claim. 25 Further advantageous embodiments emerge from the dependent claims, the description and the attached drawings.

In the drawing, two exemplary embodiments are shown and explained using the following description. It shows:

Figure 1 is a schematic section through a connection of a two-layer masonry to a Bodcn-30 ceiling tile, using an element according to the invention.

Figure 2 is a perspective view of a formwork element in which the legs extending perpendicular to the plane of the floor-ceiling panel lie outside the insulation panel and

Figure 3 shows a variant with legs running in the insulation plate.

FIG. 4 shows a spacing element for a positive connection with a leg running in the plane of the floor-35 cover plate.

Figure 5 shows the formwork element according to Figure 2 with the support rod for the construction barrier slats.

In Figure 1, the connection of a floor slab (1) to a double-layer masonry (2) is shown. An insulation layer (5) is arranged between the outer shell (3) and the inner shell (4). Although the element according to the invention is preferably intended for the connection of a floor slab to a double-layer masonry 40, the application is not intended to be limited to this. For example, it can also be in the contact area of

Floor slab on a retaining wall »: serve. In this case, the insulation plate of the formwork element acts as a spacer to form an expansion joint. In such a case, concrete can also be concreted on both sides of the insulation plate, for example from sound-insulating material. During installation, the formwork element can either be attached directly to the floor slab formwork or to the reinforcement (6) of the floor slab (11). This will be discussed in more detail below.

In addition to the angled flat irons shown, other commercially available irons, which can be correspondingly shaped or welded together, are also suitable as right-angled irons (10). The right-angled irons (10) each have a long leg (11) and a short leg (12). The longer legs (11) 50 come to lie in the installed floor cover plate (1).

The irons (10) are connected to one another with cross struts (13). The number, location and course are freely selectable. However, the arrangement of the cross connections (13) as shown in Figure 2 is particularly advantageous - cross bracing connects the longer legs (11) to one another and reduces the risk of bending one leg during transport or during laying on the building. The shorter legs 55 (12) are interconnected with two cross braces. Auxiliary struts (14) are welded to these cross struts and run parallel to the short legs (12).

An insulation plate (15) running parallel to the short legs (12) of the iron (10) is

AT 395 459 B

A large number of holding elements (16), (17) are held at a fixed distance from the legs (12). The holding elements (16), (17) serve to transmit either tensile or compressive forces on the insulation plate (15) to the metal structure, that is to say directly or indirectly on the rectangular iron (10). The holding elements (16) have a relatively large contact surface (18) which lies on the side of the insulation plate remote from the short legs (12). 5 A pin (19) connected in one piece runs perpendicular to the bearing surface (18). The pin (19) pierces the

Insulation plate (15) and holds in a form-fitting manner in a bore of the shorter leg (12) of the iron (10) or in a through bore of an auxiliary web (14).

The support elements (17) rest with their bearing surface (18) on the side facing the short leg (12), the insulation plate (15). Perpendicular to the support surface (18) is an isosceles triangle (20) which 10 is integrally connected to the support surface (18) and carries a clip (21) at its tip. The holding elements (17) are held on the cross struts (13) with the clamp (21). The holding elements (16), (17) resting on both sides of the insulation plate enable the forces if the formwork element is used for a purpose other than for creating a connection of a floor cover plate (1) to a double-shell masonry (3), (4) to record on the insulation plate (15). 15 The formwork element can be fixed in its position in different ways. The closest possibility is the direct connection of the rectangular iron (10) or the cross struts (13) with the reinforcement (6) of the floor slab (1). For this purpose it may be desirable if the right-angled irons are welded together to form a T-shaped element, as is shown schematically in FIG. 1

Preferably, however, the right-angled iron (10) are attached to the formwork of the floor slab (1) to be concreted. For this purpose, holes are provided in the longer leg (11) of the rectangular iron (10), into which spacer elements (22) (FIG. 4) are pressed in a form-fitting manner. The nails or nail pins (23) required for fastening with the formwork are clamped in the spacing elements (22). The use of nail pins, which are held clamped in the spacer elements, has various advantages. 25 For the time being, this gives the processor a finished product that is without additional

Aid is usable. It is more important, however, that the use of clamped nail pins has the advantage that they are either removed together with the formwork when stripping or can be easily pulled out using pliers. While the exemplary embodiment according to FIG. 2 is preferably intended for the use of mineral fiber plates as 30 insulation plates, FIG. 3 shows an example for the use of foamed plastic insulation plates. The right-angled irons are again designated with (10), the cross bracing of the long legs (11) with (13). The short legs (12) are connected to one another with a relatively large flat iron (23), which has the function of a cross brace, but at the same time also increases the strength of the plastic insulation plate (25). The insulation plate (25) envelops the legs (12) in the example shown. and the flat iron 35 (23). The easiest way to foam the insulation plate (25) directly onto the finished welded element.

Of course, the bar-shaped cross strut (23) can also be replaced by one or more rod-shaped struts. The bar-shaped cross strut (23) can also be made of plastic. It is also possible to bring the cross strut into the insulation plate (25) alone and to attach it to the short legs of the iron (10) only afterwards. 40 The choice of materials does not play a significant role in the invention, all of the usual ones in construction

Materials can be used as long as the required strength values and quality regulations are observed.

The insulation plate (15), (25) is dimensioned on the basis of various criteria. The height of the insulation plate should at least correspond to the thickness of the floor cover plate (1) to be created. The thickness of the insulation plate is preferably adapted to the thickness of the insulation between the two shells (3), (4) of the double-shell masonry (2).

In order to ensure safety for people who are near the edge of the floor slab (1) before or after concreting, a special bracket is used, which allows a parapet to be attached along the insulation panels, so that the risk of falling from already created part of the building is eliminated. This holder comprises a square steel tube (24) which is welded to the 50 legs (12) running parallel to the insulation plate (15) on a side perpendicular to the insulation plate (15). At the same time, said square tube can also be welded to the cross struts (13). The lower end is advantageously closed with a plastic base (28) which supports the weight of the parapet on the formwork panel.

After concreting, this plastic base can be removed. The lower end of the square tube (24) can also be slightly distanced from the lower surface of the floor cover plate (1) and closed as desired. At 55 the upper end of the square tube (24) a plastic square tube (25) is inserted, which is at least so long that it is flush with the upper level of the floor slab (1) to be concreted or slightly above it. This plastic square tube allows easy insertion and removal of a support rod (26), -3-

Claims (11)

AT 395 459 B, which can consist of a steel square tube and serves as a support for building barrier panels (27) .If the parapet is dismantled after concreting, the part of the plastic square tube (25) that may protrude from the concrete floor slab (1) can easily be removed be cut off. 5 PATENT CLAIMS 1. Formwork element, preferably for ends, separations or connections of reinforced floor slabs to be concreted opposite or with other components, for example with a shell of a double-walled masonry, with at least two approximately rectangular irons, each of which one leg into the floor slab to be concreted lie, characterized in that a plate (15, 25) made of heat insulation material 15 is attached from the legs (12) arranged at right angles to the level of the floor-ceiling plate (1), which plate serves as a formwork for the floor cover plate and the like Height corresponds at least to the thickness of the floor slab (1) to be concreted 2. Formwork element according to claim 1, characterized in that the legs (12) extending at right angles to the plane of the floor cover plate extend parallel to the insulation plate (15) outside the same. 20th 3. Formwork element according to claim 1, characterized in that the legs (12) extending at right angles to the level of the floor cover plate run inside the insulation plate (25). 4. Formwork element according to claim 1, characterized in that the thickness of the insulation plate (15, 25) corresponds to the thickness 25 of the insulation (5) between the wall shells (3, 4). 5. Formwork element according to claim 1, characterized in that in the plane of the floor slab to be concreted (1) to come to lie legs (11) are provided with spacing elements (22). 6. Formwork element according to claim 5, characterized in that the spacer elements (22) are positively held in the legs (11) bushings in which nail pins (23) are held in a clamping manner. 7. Formwork element according to claim 1, characterized in that in the plane of the floor slab to be concreted (1) coming leg (11) on the reinforcement (6) of the floor slab (1) 35 can be fastened. 8. Formwork element according to claim 1, characterized in that the legs (11, 12) of the right-angled iron (10) are connected to one another by means of transverse struts (13, 23). 9. Formwork element according to claims 2 and 8, characterized in that on the perpendicular to the plane of the floor slab to be concreted (1) leg (12) form-fitting holding elements (16) are fastened with relatively large contact surfaces (18) which penetrate the insulation plate , and that attachable holding elements (17) are fastened to the cross struts (13) and bear with their bearing surface (18) on the closest outer surface of the insulation plate (15). 45 10. Formwork element according to claims 3 and 8, characterized in that at least one bar-shaped cross strut (23) is arranged in the foamed insulation plate (25). 11. Formwork element according to claim 9, characterized in that on the perpendicular to the plane of the concrete to be-50 floor slab (1) extending legs (12) on one side, which is opposite the insulation plate (15) at right angles and to which the legs (12 ) connecting cross struts (13) a bottom-closed square tube (24) made of steel is welded in a direction parallel to the legs (12), such that a plastic square tube (25) is slipped over this square tube (24), the upper end of which is at least is flush with the height of the floor slab (1) to be concreted and that in these two square pipes (24, 25) a 55 square pipe (26) is inserted as a holding rod (26) for building barrier slats (27). With 3 sheets of drawings -4-