NL8006287A - Concrete floor structure - has plate-type insulating components resting on U=shaped ones fitting round beam flanges - Google Patents

Abstract

The concrete floor structure comprises parallel inverted T-section beams spaced apart, and components of insulating material supported by the horizontal flanges of the beams and covering their undersides, and also forming permanent shuttering. The floor surface is formed by pouring concrete over the beams and shuttering. The insulating components comprise, on the one hand, U-section members (1, 2) fitting round the beam flanges (1), and on the other, plate-type members (3) resting on the upper flanges of the U-shaped ones.

Description

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Concrete floor construction, which is insulated at the bottom and elements of insulating material used for this.

The invention relates to a concrete floor construction consisting of mutually arranged mutually parallel inverted T-beams; from U-shaped elements of insulating material, which engage around the ends of the legs of the T-beams, such that two elements mounted on a T-beam cover the bottom of the T-beam; from substantially plate-shaped elements of insulating material, which rest on the upper legs of the U-shaped elements and form a permanent formwork; and from a floor surface obtained by pouring concrete over the T-beams and the formwork elements of insulating material.

Such a concrete floor construction is described in the non-prepublished Dutch patent application 15 79 04326 in the name of the applicant.

Although the U-shaped elements can be manufactured by foaming material in a mold, it has been found in practice to cut these elements from a block, although a certain amount of waste has to be taken into account.

It has now been found that a particularly inexpensive production of the elements from insulating material can be achieved by cutting the U-shaped elements from the two longitudinal edges of a substantially rectangular plate in cross-section, such that the body of each U- shaped element is formed from one side of the plate and the legs from the top and bottom of the plate.

During transport, the U-shaped elements can be present on the plate, so that a compact unit of the plate with the two U-shaped elements is maintained.

On the construction site, the U-shaped elements are removed from the plate and placed on the T-beams, after which the plate is placed on the U-shaped elements. Thereby the plate with its protruding part, which remains between the cut-out legs of the two U-shaped elements, falls between the U-shaped elements. This has the advantage that the 80 06 28 7 - 2 plate will not be able to move during the pouring of the concrete, while the U-shaped elements are also better held in place on the legs of the T-beams.

When cutting a number of plates with the associated U-shaped elements from a block, only a small amount of waste will be created if the middle part of the plate is displaced slightly, perpendicular to its plane, such that a slightly curved plate is far-10. This allows the strength of the plate to be increased when this is desired to make the plate suitable for carrying a certain weight. In general, when installed, the slab must be able to support the weight of a person walking over the slabs, as may be the case during the mounting of the slabs and before the concrete is poured. Furthermore, the plate can be better adapted to the locally desired thickness of the further part of the floor construction.

As already indicated in the above-mentioned patent application, it is possible to coat certain parts of the insulating elements with a flexible material, in order to protect the insulating material against deterioration thereof, e.g. by mice when it has a ground-floor floor regarding. A fire-retardant foil can also be considered as a flexible material.

The invention is now further elucidated with reference to embodiments shown in the drawing, in which: Fig. 1 shows a cross-section over a part of a floor construction according to the present invention; FIG. 2 is a sectional view of two U-shaped elements mounted on a plate-shaped element, as these elements are cut from a rectangular cross-section plate; Fig. 3 shows a section according to Fig. 2, but of a slightly modified embodiment of the plate-shaped element; and FIG. 4 shows the manner in which a number of elements of FIG. 3 are cut from one block of insulating material. 40 In the manufacture of a floor construction 8 0 06 28 7 - 3 - according to the present invention use is made of T-beams 1, see fig. 1, on which U-shaped elements 2 of insulating material are slid and on which plates 3 of insulating material material.

As can be seen in particular from Fig. 2, a substantially insulating material 3 with two U-shaped elements 2 can be cut from a plate of insulating material with a rectangular cross-section, such that virtually no waste is created and that during transport of the no harmful free space is present.

As appears in particular from fig. 1, when the insulating elements are applied to the T-beams, the lower part of the plate 3 falls between the 15 U-shaped elements 2. As a result, the plate 3 becomes, and also the associated U-shaped elements, held in place during pouring of the concrete.

Figures 3 and 4 show a slightly modified version of Figures 1 and 2. Figs. 4 shows the manner in which a number of U-shaped elements 2 and the plates 4 are cut from a block of insulating material, the plate 4 taking on a slightly curved shape. However, only a small amount of waste is produced during cutting, namely only the two strips 5 on one side of the block and the strip 6 on the other side. By slightly curving the plate 4, its strength can be increased, but in particular it is possible to adapt the construction height of the floor and the thickness of the concrete, which is located above the plate 4, to the thickness, which is desired to achieve a certain bearing capacity of the floor finally obtained.

It will be clear that the invention is not limited to the illustrated embodiment. For example, the curvature of the plate-shaped elements 4 can be designed differently and the intersecting lines between the U- and plate-shaped elements can be oriented slightly differently, so that, for example, a wedge-shaped gap is created between the side of the plates 3 or 4 and the T-beam. , which can be filled by the concrete.

All of these options will be apparent to those skilled in the art.

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Claims (3)

Concrete floor construction consisting of spaced apart mutually parallel inverted T-beams; made of insulating U - shaped elements, which grip around the ends of the legs of the 5 T-bars such that two elements mounted on a T-bar cover the bottom of the T-bar; from substantially plate-shaped elements of insulating material, which rest on the upper legs of the U-shaped elements and form a permanent formwork; and from a floor surface obtained by pouring concrete over the T-beams and formwork elements of insulating material, characterized in that the U-shaped elements are cut from the two longitudinal edges of a substantially rectangular plate in cross section such that the body of each U-shaped member is formed from a side of the plate and the legs from the top and bottom of the plate. 2. Concrete floor construction according to claim 1, characterized in that the middle part of the slab, at right angles to its plane, is shifted slightly, such that a slightly curved slab is obtained. U-shaped and plate-shaped elements of insulating material for use in the concrete floor construction as described in one or more of the preceding claims. 8 0 06 28 7