PL173565B1 - Rigid cross-braced reinforcement combined with boarding - Google Patents

Abstract

Universal element for in situ flat two-way reinforced deck structures. Effect: optimized industrialization of in situ concrete building. The product is a prefabricated self-supporting lattice element providing all necessary components for any concrete deck structure besides concrete, such as formwork, ceiling surface, reinforcement in two ways and air cavities. The components form part of unit with a fixed precise geometry and accurate amount of material according to predetermined requirements. The element can be industrailly manufactured in a fully automated process. The erection on site is very simple. The elements can be joined directly and are immediately ready for concreting. The industrialization of the in situ work offers large savings in both time and materials, such as the entire horizontal formwork bottom, a large part of the vertical formwork and all the traditional reinforcement binding. Analyses have shown savings up to 30 %.

Description

The invention relates to a formwork, in particular for cross-reinforced flat concrete slabs.

Perhaps of all options considered, the best available floor structure is a continuous concreted floor manufactured on site. ' Unfortunately, this type of structure has the disadvantage of the high cost and time-consuming temporary formwork, with industrial production being only partially mastered with uni-reinforced floor structures and never with cross floor structures. One way to reduce the formwork in reinforced one-way ^; about ceiling structures is the use of built-in permanent formwork. It is known to use thin steel plates as permanent shuttering and as reinforcement.

We can distinguish two categories here. The first is when steel plates or sections are used as shuttering rather than reinforcement. This category is not interesting in the context of the present invention. The second is when steel plates are used as shuttering and reinforcement. This solution is widespread, especially in the USA and Sweden. However, known methods make it possible to construct only unidirectionally reinforced structures. Permanent cross-reinforcement is not possible as the cross-bars cannot be bonded to the plates by bonding and cannot be manually welded to the plates in place, as thin plates are burned through this way. Moreover, the large number of welds is completely irrational.

The first of these categories includes the invention disclosed in the German patent application DE 21 10 913. It should be noted that the new method cannot even be applied to uni-directional reinforced structures, since no load-bearing capacity can be assigned to a completely free steel surface for reasons of fire protection.

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The second category includes German Patent Nos. DE 26 04 998 and DE 12 45 565, US Patent No. 3,238,681, and French Patent Nos. 1,249,543 and 1,152,818. All the publications mentioned concern only unidirectional structures.

In addition, German patent specification No. 25 17 485 should also be mentioned. However, this publication is in no way related to the present invention as it discloses a structure for a deck made of steel supporting beams embedded in concrete, and not a structure of a reinforced concrete deck.

Due to the lack of an industrial technique for the production of cross structures, a statically inferior unidirectional floor structure is widely used, even in situations where a cross floor structure would be much better. It should be realized that real cross-structures can only be realized by industrial welding of complete building elements.

The object of the invention is a formwork, especially for cross-reinforced flat concrete slabs.

Formwork comprising a thin-walled bottom and extending outward from the bottom, spaced parallel steel ribs and rebars attached to the outer ends of the ribs, according to the invention is characterized in that the reinforcing bars are arranged transversely to the ribs and are welded to their upper part at spacing corresponding to the spacing between the ribs, the reinforcing bars together with the ribs forming a cross-reinforced mesh and at the same time the formwork.

Preferably, the ribs and the bottom are formed of profiled thin-walled metal sheet.

Preferably, the ribs and the bottom are formed of a plurality of sheet metal plates adjacent to each other.

Preferably, the steel profiles forming the ribs are partially embedded in the thin concrete slab forming the bottom.

Preferably, parallel to the cross-reinforced mesh made of ribs and bars is placed a traditional reinforcing mesh made of crossing reinforcing bars, and between these meshes a number of hollow elements are inserted into the respective openings of both meshes and held by these meshes, both meshes being connected to each other by connecting means.

Thus, in the self-supporting cross-reinforced formwork according to the invention, the conventionally welded cross mesh is changed in such a way that the bottom layer of the reinforcing bars is transformed into sheet metal plates with the same steel cross-sectional area as the mentioned bottom layer bars and arranges them in spacing corresponding to the aforementioned conventional mesh bars, resulting in an open mesh cross reinforcement on one side formed by the upper layer of bars and ribs in the sheet profile, thus free flow for the concrete and, on the other side, a continuous steel surface which, in addition to Reinforcement functions also work as formwork and ceiling.

The geometry of the sheet profile has been changed in such a way that in the event of a fire, the exposed bottom part can be ignored, as the fully integrated ribs are sufficient to bear the standard fire conditions. The height of the ribs of the sheet metal profile can be varied depending on the required load capacity, fire resistance, spacing between intermediate supports, etc. the load-bearing capacity can also be increased by means of edge fibgran beams.

In a specific embodiment of the invention suitable for the production of hollow ceilings, a cross-shaped spatial reinforcement-formwork (named Compo-Deck) is made of a mesh of hollow elements. The result is a universal element consisting of a self-supporting complete steel mesh and hollow plastic elements, which in addition to concrete contain all the necessary structural elements such as formwork, reinforcement, air chambers and ceiling surface, composite

173,565 into a fixed geometry unit that can be manufactured on an industrial scale and fully automated.

In another embodiment of the invention, suitable for lithium floor surfaces, the cross reinforcement-formwork can be produced with a filigree beam and an upper mesh, and without hollow elements.

The present invention provides cross-formwork-reinforcement, which is a complete steel building element acting as a cross-reinforcement and as a formwork, and also as a complete floor, without increasing the amount of steel used. The invention does not only improve a single process, but provides a machined end piece and thus eliminates the number of processes that were previously done manually. This element can be produced fully automatically by slightly modifying the known machines for welding typical reinforcing meshes, and these elements can be delivered in a prefabricated form with areas up to 40-50 m ² . Moreover, thanks to the automation of production, products are obtained with much greater accuracy, stability and better quality, which eliminates uncontrolled processes and waste of time.

A particularly important feature of cross-reinforced structures concreted on site is the possibility of eliminating horizontal formwork (ceiling formwork), which traditionally absorbs 2/3 of the formwork costs. Moreover, an element of this type is largely self-supporting in the longitudinal direction of the floor slabs, which makes it possible to significantly reduce the load-bearing vertical formwork.

A very important factor <is the simplicity of assembling stable and accurate elements in the right place, which allows work on the construction site to be carried out by fewer workers, who may be unskilled workers. The conducted analysis showed savings in formwork and reinforcement works of 20 - 30%.

The subject of the invention is shown in the drawing in which fig. 1 shows the main part of the formwork-reinforcement according to the invention, fig. cross-section through two connected formwork-reinforcement elements, fig. 3 - cross-section of the element on the edge, fig. 4 - longitudinal section of two connected elements, fig. 5 - longitudinal section of the element on the edge, fig. 6 - top view of two connected elements Fig. 7 is a top view of an element with edge formwork, Fig. 8 is a photograph of the element in a top view, and Fig. 9 is a photograph of the element seen from below with one half of the bottom face painted white.

The cross reinforcement-formwork of Fig. 1 is constructed in the same way as the usual welded reinforcement meshes and with the same welding machines that were adapted to plate profiles instead of rebar. The finished reinforcement-formwork 10 consists of a thin-walled bottom made of profiled thin-walled sheet or adjacent sheets of sheet 11, arranged parallel and welded together in the upper part by numerous transverse, typical reinforcing bars 12. The plate profiles have ribs 14 spaced at intervals corresponding to the spacing of the transverse bars 12. The plates may be plain C-profiles as shown in the figure, but this does not exclude the use of other embodiments.

The profiles can therefore be shaped to suit the external fireproof material or internal components into which screws can be screwed.

Figures 2 to 7 show the reinforcement-formwork forming part of a hollow concrete floor (Compo-Deck). The hollow elements 23 lie directly on the reinforcement-formwork 10, forming a net mesh with hollow elements 23. In the shown embodiment, the two reinforcement elements are joined together, resulting in a bottom closed with a separate section 18 identical to the sheet-metal section 11. Each sides, the reinforcement elements rest on a filigree beam 21 welded on

173 565 to the lower mesh 12 and the upper mesh 22 to improve strength during transport and when pouring concrete. The formwork 10 can be finished and sealed, also in the prefabricated embodiment, by side walls provided and welded on the outer periphery of the outer reinforcement elements, e.g. side section 16 and section 17 essentially correspond to sections 11.

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Claims (5)

Patent claims 1.Shuttering comprising a thin-walled bottom extending outward from the bottom, spaced apart, parallel steel ribs and reinforcing bars attached to the outer ends of the ribs, characterized in that the reinforcing bars (12) are arranged transversely to the ribs (14) and are welded to their upper part at intervals corresponding to the spacing between the ribs (14), the reinforcing bars (12) together with the ribs (14) forming a cross-reinforced mesh and at the same time the formwork. 2. Formwork according to claim 2. A machine as claimed in claim 1, characterized in that the ribs (14) and the bottom are formed of profiled thin-walled metal sheet (11). 3. Formwork according to claim 2. A plate as claimed in claim 1, characterized in that the ribs (14) and the bottom are formed of a plurality of contiguous sheet metal plates (11). 4. Formwork according to claim 4. A method as claimed in claim 1, characterized in that the steel profiles forming the ribs (14) are partially embedded in a thin concrete slab forming the bottom. 5. Formwork according to claim 1 1, 2, 3, or 4, characterized in that parallel to the cross-reinforced mesh made of ribs (14) and bars (12) is a traditional reinforcing mesh (22) made of crossing reinforcing bars, and between these meshes there are disposed a plurality of hollow elements (23) engaging in respective openings of the two meshes and held by the meshes, both meshes being connected to each other by connecting means (21).