FI81868C - Continuous concrete slab beam system and method for forming it - Google Patents

Description

81 868 Ί Continuous concrete slab beam and method of forming it

Plattbalksystem av kontinuerlig betong ooh förfarande för bildande av detta 5

The invention relates to a continuous concrete-concrete composite slab-10 beam comprising a plurality of prefabricated secondary beam elements, a plurality of prefabricated primary beam elements perpendicular to them and reinforcement, and having a continuous continuous slab on top of the secondary and primary beam elements.

It is known from FI patent application 803139 formed of concrete elements. . a structure in which the column elements are formed into a unitary continuous frame structure using such column elements comprising separate casting spaces, whereby after casting the structure is formed into a unitary concrete column structure. A separate slab structure is fitted on top of the column elements. The slab structure is formed of separate sub-slabs and thus it has not been possible to form a uniform slab-column structure from the structure. It is also known to use intermediate floor structures in casting, in which case the structure comprises a cast slab structure resting on columns. However, this structure has had to be formed using supported formwork structures, in which case the necessary under-support can be considered as a major disadvantage of this structure.

The object of the invention is to overcome the above disadvantages of the prior art structures and to form a continuous slab beam in which it has been possible to combine the speed of prefabricated construction with the good quality and better load-bearing capacity of a concrete structure achieved on site.

The structure according to the invention is mainly characterized in that the primary beam elements, the secondary beam elements and the slab are adapted to form a unitary monolithic structure, the slab mass being adapted to settle in the primary and secondary beam masses. upon entering the casting spaces, will be surrounded by reinforcements and, after casting has hardened, the cast slab will be integral with the primary and secondary beam elements perpendicular to each other, and wherein the structure comprises a self-supporting corrugated sheet metal mold below the slab.

The method according to the invention is mainly characterized in that in the method the secondary beam elements are placed perpendicularly on the primary beam elements, said beam formed by the primary beam elements and the secondary beam elements being arranged between the element columns or other fixed structure. in which the concrete molding of the slab is adapted to be confined to both the self-supporting mold and the casting cavities at the junctions of the primary and secondary beam elements. perpendicular to the primary and secondary beam elements and wherein the structure avoids mold supports below the slab and provides a continuous monolithic slab-beam structure.

The structure according to the invention uses a self-supporting mold which • is most preferably formed of a corrugated or corrugated metal plate.

This corrugated self-supporting mold is placed on horizontal beams and is adapted to remain in the structure. After reinforcement, the concrete slab is cast on top of the formwork plate and the concrete casting mass is adapted to be confined to both the self-supporting formwork for the primary and secondary beam elements and separate inter-beam casting spaces, which also include reinforcements projecting from the beams.

The use of the self-supporting mold according to the invention saves considerable costs and speeds up the construction work, because work below the level can be continued immediately after the installation of the mold plate and because no underlying structures supporting the casting mold are needed at all.

Il 3 81868 1 The invention will now be described with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

Figure 1 shows an axonometric representation of a concrete-concrete composite monolithic continuous slab beam according to the invention.

Figure 2A shows a top view of a structure according to the invention.

10 Figure 2B is the structure according to the invention in a side view as seen from arrow D of Figure 2A ^ katsontasuuntaan.

A structure according to the invention is shown in Figure 2C, the direction of the arrow D of Figure 2A ^ katsontasuuntaan.

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Figure 3 shows the formation of a through-hole through the structure according to the invention.

Figure 4 shows a structural end sealing solution used in connection with a corrugated sheet 20 according to the invention. The embodiment of the figure also shows the arrangement of the lower attachment to the corrugated mold plate.

The concrete-concrete composite monolithic slab-25 beam 10 according to the invention comprises a plurality of prefabricated primary beam elements 11 supported on fixed structures, e.g. an element column rail 17. The structure according to the invention comprises a plurality of prefabricated secondary beam elements 12 arranged on the primary beam elements 11. The primary beam elements 11 are preferably T-profiles in cross-section 30, comprising a vertical web portion 11a and a horizontal jaw structure portion 11b. The respective beam elements 12 are placed on the cover surfaces 11b 'of the jaw structure 11b. The primary beam elements 11 and the secondary beam elements 12 are arranged to each other so that the upper surfaces 11' and 12 'of the beams are substantially in the plane 35 of each other. In the structure according to the invention, a slab beam comprises a slab 13 cast on the primary and secondary beam elements 11, 12 and said slab 13 is further cast on a self-supporting mold 14, 4 81868 Ί which is placed substantially on the secondary beam elements 12. The self-supporting mold 14 is most preferably a structure of corrugated metal sheet. According to the invention, the corrugation gives the structure sufficient rigidity, so that no lower supports during casting are required. The structure according to the invention further comprises a reinforcement 15 in both the primary beam elements 11 and the secondary beam elements 12 and in the slab 13. The reinforcement 15 comprises the supporting reinforcements 15a required by the continuous slab beam structure connected to the primary beam elements 11 and the secondary beam elements 12b.

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According to the invention, the structure comprises a casting cavity 16a at the end of the secondary beam element 12 and / or on the side of the primary beam element 11. When both the primary beam element and the secondary beam element comprise said casting cavity 16a, said casting cavity is formed by a mutually compatible recess made both at the end of the secondary beam element and on the side surface of the primary beam element. According to the invention, a casting cavity is also formed at each element column 17 from the casting space 16b adjoining the upper end of the element column 17 to the ends of both the secondary beams and the primary beams.

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The distance between the primary beam elements 11 is preferably 5-7 m and the distance between the secondary beam elements 12 is preferably -X 2-2.5 m.

In the structure according to the invention, the casting of the plate 13 is adapted to penetrate the casting cavities 16a, 16b to form a continuous structure. Prior to the casting of the concrete trowel 13, the corrugated self-supporting formwork plate 14 is placed in place and preferably fastened to the secondary beam elements 12 by separate fastening means 18, e.g. with steel nails. As shown in Fig. 4, the ends of the corrugated mold plate 14 are preferably closed by an L-strip 19, thereby preventing the ingress of casting below the mold plate 14. The L-profile plate is arranged to rest on one side on the end of the mold plate 14 and on the other side on the surface 12 * of the secondary beam element 12.

When the placement of the corrugated mold plate 14 on the secondary beam elements has been completed and the possible attachment of the self-supporting mold 14 to the secondary beam elements and / or the primary beam elements 12 has taken place, reinforcement is performed. The reinforcing parts 15 are placed in the structure after the load-bearing corrugated mold 14 and then the casting of the slab 13 is performed. The concrete casting of the slab 13 settles around the reinforcements 15 and in the casting cavities 16a, 16b.

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In the structure according to the invention, a self-supporting mold 14 remains in the structure.

The structure according to the invention achieves considerable savings in construction costs, because the self-supporting mold does not need to be supported from below and the work can then be started under the structure immediately after the installation of the mold plate.

Figures 2A-2C show a monolithic slab beam according to the invention in an industrial construction application.

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Figure 2A shows a top view of a structure according to the invention in an industrial construction application. The structure comprises a plurality of prefabricated primary beam elements and a plurality of prefabricated secondary beam elements. The figure shows the position of the mold plate 14 as a cover for the space formed and delimited by the primary-beam elements and the secondary beam elements. A uniform concrete slab is cast on said corrugated sheet mold, in which case the casting of the slab will be limited not only to the self-supporting mold 14 but also to the casting cavities 16a and 16b. These casting compartments comprise reinforcements associated with the beams, so that when the casting mass enters the casting space, • · 25 h will be surrounded by reinforcements, and once the casting has hardened, the cast slab is fixedly connected to the beam structures.

Figure 2B shows a structure according to the invention from the side and viewed in the direction of arrow D of Figure 2A ^ katsantosuuntaan. The figure shows the extension of the concrete casting 30 to the casting spaces 16a and 16b. The casting space 16a and 16b comprises reinforcement 15.

A structure according to the invention is shown in Figure 2C, the direction of the arrow D of Figure 2A ^ katsantosuuntaan. The figure shows the situation after casting as the casting mass of the concrete-35 slab extends into the corrugated self-supporting mold plate.

6 81868 1 Figure 3 shows the possibility of forming various openings and other charges in the structure according to the invention. An area D of the desired opening is delimited on the self-supporting mold 14, and after casting the slab 13, the self-supporting mold 14 is cut at said opening D5.

Figure 4 is an axonometric view of the end structure of the corrugated self-supporting mold 14. The structure comprises an L-profile strip 19 adapted on one surface to abut the end 10 of the self-supporting mold 14 and to fill the mold corrugation openings Ε ^, Ε ^ etc. The second lower surface 19 'of the L-profile is fitted against the cover surface 12' of the secondary beam element 12 and fastening means 18, preferably the steel nails are inserted through the list side of the self-supporting mold 14 and the L-profile strip 19 onto the beam 12. This allows the mold 14 to be fixed in a precise position relative to the beam structure 15 11,12.

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Claims (2)

7,81868 ^ Claims A continuous concrete-concrete composite slab beam (10) comprising a plurality of prefabricated primary beam elements (12), a plurality of prefabricated secondary beam elements (11) perpendicular to them and reinforcement (15), and wherein the structure has a continuous primary and secondary beam element. a uniform slab (13), characterized in that the primary beam elements (11), the secondary beam elements (12) and the slab (13) are adapted to form a unitary monolithic structure 10, wherein the casting mass of the slab (13) is arranged to settle in the primary and secondary beam element cavities (16a, 16b), said casting spaces (16a, 16b) comprising reinforcements associated with the beams (11, 12), so that when the casting mass enters the casting spaces, the reinforcements will surround the reinforcements and the casting plate (13) will be fixed to secondary beam elements (11.12 ) and in which the structure comprises a self-supporting corrugated metal plate mold (14) below the plate (13), the mold (14) being adapted to rest substantially on the secondary beam elements (12). 20 A method of forming a structure according to claim 1, characterized in that in the method the secondary beam elements (12) are placed perpendicular to the primary beam elements (11), said beam formed by the primary beam elements and secondary beam elements 25 being arranged on the columns (17) or other fixed structure, casting a concrete slab (13) on a self-supporting corrugated metal sheet mold (14) interposed between the secondary beam elements (12), the concrete mass of the slab (13) being adapted to be confined to both the self-supporting mold (14) and the castings at the joints of the primary and secondary beam elements cavities (16a, 16b), wherein said casting spaces (16a, 16b) comprise reinforcements associated with the beams (11, 12), so that when the casting mass enters the casting spaces, reinforcements will surround the casting plate (13). to the primary-35 and secondary beam elements (11,12) perpendicular to each other, and in which case the mold supports below the slab (13) are avoided during the construction and a continuous monolithic slab-beam structure is obtained. 8 81868