EP0542116A1 - Permanent forming element - Google Patents

Abstract

The invention relates to a shuttering element for producing cutouts in precast concrete compound units. According to the invention, this shuttering element comprises at least two separate side wall parts (1 to 4) which can be assembled to form a frame, the wall parts having, at the abutment points, stop surfaces (1a' to 4b') via which each side wall part is supported on the adjoining side wall parts with respect to forces which are directed into the interior of the shuttering element. <IMAGE>

Description

The invention is based on a lost formwork for the creation of recesses, in particular through openings, in concrete components such as concrete ceilings or concrete walls.

Such formwork bodies are known in various embodiments. So there is a rectangular formwork box made of bound wood wool, which is closed at the bottom by a floor. The floor is attached to the slab formwork with nails and, like the recess body, remains part of the concrete component. After concreting and removing the slab formwork, the floor must be removed in whole or in part in order to reveal the cross-section required for the laying of pipes.

A disadvantage of this known formwork box is the considerable effort required to open the floor. In general, a series of holes must be drilled for this, so that a piece of soil of the desired size can be broken out.

In addition, these formwork bodies require a high transport volume because they cannot be stacked one inside the other.

In addition, formwork bodies are known which consist of sheet steel and are open at the bottom. The four wall parts in transport condition form a flat, continuous sheet of metal, which is folded into a square cross-sectional shape only on the construction site along predetermined bending edges. The abutting ends of the sheet are fastened together by bending overhanging tongues.

Although this formwork body is characterized by a small construction volume, it is subject to the known corrosion problems due to its metallic material. It is therefore particularly unsuitable for exposed concrete.

Proceeding from this, the object of the present invention is to improve the formwork body of the type described at the outset in such a way that it is distinguished by simple installation, low transport volume and suitability for exposed concrete ceilings.

This object is achieved in that the formwork body consists of at least two separate side wall parts which can be assembled into a frame, for which purpose they have abutment surfaces at their abutments, via which each side wall part is liquid-concrete-tight against the adjacent side wall parts against forces directed into the interior of the formwork body supports and that the side wall parts are held by holding means in the assembled position.

In this way, the formwork body made of flat or curved side wall parts, which can easily stack and can be transported in a space-saving manner, put together. The time-consuming drilling of a base plate is eliminated and, in addition, the known bendable metal tongues can be dispensed with due to the mutual support of the side wall parts, so that one no longer has to rely on sheet material that is at risk of corrosion. Since the compressive forces exerted by the concrete are absorbed by the side wall parts themselves, the circumferential holding means is hardly subjected to any stress. A simple tape, in particular an adhesive tape, binding wire or the like, is sufficient for this.

The side wall parts are expediently constructed in the same way and are provided at their abutment points with two angled stop surfaces each. This ensures optimal support of the wall parts in two mutually perpendicular horizontal directions, and since the same wall parts are used for longitudinal and transverse walls, low manufacturing prices result.

The person skilled in the art has various options for the shape of the stop surfaces. It is particularly favorable if they are formed by protruding strips at both joints of each side wall part, one strip being offset inwards relative to the adjacent edge of your wall part. This gives the advantageous possibility of constructing the wall parts in a modular manner from a large number of identical wall elements which are arranged next to one another in a grid pattern and which are integrally connected to one another via separation zones. This grid-like subdivision allows wall parts different lengths on the construction site and assemble into a formwork body of the desired size. The shortening of the side wall parts takes place along the separation zones mentioned - either by forming them through predetermined breaking points or by the stop surface running next to them being designed as a guide for a separation cut.

In this context, it is particularly advantageous if the stop surfaces lie outside these separation zones. This ensures that the position of the stop surfaces and thus the dimensional accuracy and tightness of the finished recess body is not influenced by how exactly the separation process is carried out and how large the gap between successive elements resulting from the separation process is.

However, it is also within the scope of the invention to provide a strip only at one end of a wall part and to offset this strip from the wall end to the center of the wall so that the strip itself and the projecting wall end form two stop surfaces which run approximately perpendicular to one another, on which the adjacent wall part, which can be formed at this end without a strip, is supported. With this solution, there can be a slight reduction in the effective wall part length in a separating cut by connected wall elements, but this is generally irrelevant.

In addition, it is within the scope of the invention to form the stop surfaces not by protruding strips, but instead by a groove, such that the end of the one wall part protrudes into the groove of the other. If the wall part consists of several elements arranged in one piece next to each other, the separation zones between the elements are best located within the groove, so that after the separation process, at least at one end of the wall, two groove walls running approximately perpendicular to one another are available as stop faces for the adjacent wall part. Possible inaccuracies of the separating cut are not critical in this case because they have no influence on the position of the groove walls.

In order to anchor the side wall parts in place, they are fastened in a manner known per se at their lower side edge to a formwork panel or the like.

Concrete-like materials are recommended as material for the wall parts, in particular mortar, fiber-reinforced mortar, but also bonded wood wool or plastic.

This offers the possibility of profiling the wall parts in order to increase the bond on both sides with the concrete.

Fig. 1

vier stehende Seitenwandteile von oben;

Fig. 2

die vier Seitenwandteile gemäß Fig. 1 in zusammengesetzter Form;

Fig. 3a, c und d

die Stoßstellen benachbarter Seitenwandteile und

Fig. 3b

die Trennzone in einem Seitenwandteil.

Further details and features of the invention will become apparent from the following description of exemplary embodiments with reference to the drawing; shows

Fig. 1

four standing side wall parts from above;

Fig. 2

the four side wall parts of Figure 1 in assembled form.

3a, c and d

the joints of adjacent side wall parts and

Fig. 3b

the separation zone in a side wall part.

In the exemplary embodiment, the recess body is assembled from two longitudinal wall parts 1 and 2 and from two transverse wall parts 3 and 4. Each wall part has projections at its ends in the form of inwardly projecting, approximately vertically extending strips 1a and 1b or 2a and 2b or 3a and 3b or 4a and 4b. It is essential that these strips form stop surfaces 1a 'and 1b' etc., on which the adjacent wall parts are supported, preferably also via their projecting strips. In addition, each strip has stop surfaces 1a '' and b '' etc. which supports itself on the abovementioned stop surfaces of the adjacent wall part. The abovementioned stop surfaces of each bar run roughly at right angles to one another and are aligned with respect to the wall part in such a way that two pairs of surfaces are formed at each joint, along which adjacent wall parts lie flat and over the entire height of the wall part. As a result, each wall element is supported against the concrete forces directed into the interior of the formwork on its two neighboring wall parts, and at the same time a liquid-concrete-tight system is obtained at the joints.

2, 3a, 3c and 3d show this system with a composite formwork body.

In order to reliably fix the formwork body at the desired location, the side wall parts have a projecting strip 1c, 2c, 3c or 4c at least at their lower edge. They can be attached to the usual slab formwork. They can be attached to the usual slab formwork. They also have projecting ledges the advantage that they are available for supporting formwork parts to close the recess body at the lower end for later pouring with concrete.

As the figures further show, the longer wall parts 1 and 2 each consist of two similar elements 11 and 12 or 21 and 22, which correspond in shape and size to the transverse wall parts 3 and 4. The elements 11 and 12 and 21 and 22 are each integrally connected to one another via a separation zone 13 or 23. This separation zone must naturally lie between adjacent stop bars 1a and 1b or 2a and 2b, it being essential that the stop surfaces at both ends of each wall element 11, 12, 21 and 22 lie outside the separation zone 13 and 23, respectively, so that their for The grid dimension of the wall parts, the decisive position does not depend on how exactly and with what material waste the neighboring wall elements are separated. In this way, production can be limited to wall parts, which consist of ten elements, for example, and from which the individual elements can be separated in the desired length on site. It can then be used to create any rectangular cut-outs, for example in a 10-centimeter grid.

Since the forces emanating from the fresh concrete are absorbed by the mutually supporting side wall parts themselves, simple aids are sufficient to keep the formwork body in the compiled form before the concrete is poured in. In the exemplary embodiment, adhesive tapes 5 and 6 are used for this purpose, which are in the area of Butt joints have been glued to the adjacent wall parts.

In summary, the invention offers the advantage that a formwork body made of concrete-like materials is obtained which, in the modular system, consists of individual wall parts of variable length and thus has a small transport volume and which can be assembled in a simple manner on the construction site.

Claims (11)

Lost formwork for the creation of recesses, in particular through openings, in concrete components such as concrete ceilings or concrete walls,
characterized,
that the formwork body consists of at least two separate side wall parts (1 to 4) which can be assembled into a frame, for which purpose they have stop surfaces (1a ', 1a'',1b', 1b '' to 4a ', 4a''at their abutment points, 4b 'and 4b''), by means of which each side wall part is supported against the forces directed into the formwork interior on the adjacent side wall parts in a liquid-concrete-tight manner and that the side wall parts (1 to 4) are held in the assembled position by holding means. Scarf body according to claim 1,
characterized,
that the side wall parts (1 to 4) of the same type and at their abutments each have two angled stop surfaces (1a ', 1a''or1b', 1b ''). Formwork body according to claim 1 or 2,
characterized,
that the arches (1a ', 1a''and1b', 1b '') at both joints of each side wall part (1 to 4) are formed by protruding strips (1a, 1b to 4a, 4b), each strip (1a, 2a, 3a, 4a) being offset inwards relative to the adjacent edge of your wall part. Scarf body according to one of the preceding claims,
characterized,
that the side wall parts (1, 2) consist of a plurality of similar and grid-like side-by-side wall elements (11, 12 or 21, 22) which are integrally connected to one another via separation zones (13, 23). Shawl body according to claim 4,
characterized,
that the separation zones (13, 23) are formed by predetermined breaking points. Scarf body according to claim 4 or 5,
characterized,
that the stop surfaces (1b, 2b, 3b, 4b) are simultaneously designed as a guide for a cut through the separation zone (13, 23). Shawl body according to claim 4,
characterized,
that the stop surfaces (1a, 1a '' and 1b ', 1b'';2a', 2a '', 2b 'and 2b'') lie outside the separation zone (13 and 23). Scarf body according to one of the preceding claims,
characterized,
that the side wall parts (1 to 4) are to be attached at their lower edge to a formwork panel or the like. Scarf body according to one of the preceding claims,
characterized,
that the side wall parts have an inwardly projecting fastening strip (1c to 4c) at their lower edge. Scarf body according to one of the preceding claims,
characterized,
that the individual side wall parts are held in the assembled position by circumferential holding means (5, 6). Scarf body according to one of the preceding claims,
characterized,
that the side wall parts consist of mortar, in particular fiber-reinforced mortar, bonded wood wool, plastic or concrete-like materials.

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