EP3824151A1

EP3824151A1 - Plate and slab intended for creating a floor or a wall and methods for producing a plate and a slab of this kind

Info

Publication number: EP3824151A1
Application number: EP19753170.0A
Authority: EP
Inventors: François Cochet; Raymond NICOLET
Original assignee: Constructions Composites Bois
Current assignee: Carbon Capture Buildings Greentech SAS
Priority date: 2018-07-17
Filing date: 2019-07-17
Publication date: 2021-05-26
Also published as: FR3084092A1; WO2020016531A1; CA3106583A1; US20210262229A1; FR3084092B1; US11434637B2

Abstract

Plate intended for creating a floor or a wall, comprising multiple joists (3), each joist (3) comprising a frame (4) secured to a base (5), each base (5) being created from a curable securing material, the plate comprising a support (6) having multiple formwork portions (7) positioned such that they project from a receiving surface (8) of the support (6), the formwork portions (7) forming recesses (9) for receiving respectively the joists (3), the bottom of these recesses being formed by the receiving surface (8) of the support (6), each joist (3) being located in a respective recess (9) where the base (5) of the joist (3) is secured to the bottom of the recess (9), the support (6) being a one-piece part.

Description

Plate and slab intended to produce a floor or a wall and methods of manufacturing such plate and slab

Technical field of the invention

The invention relates to plates and slabs intended to make a floor or a wall. State of the art

Currently, there are different structures to carry out a construction, such as a house or a building. We can cite the French patent application FR2950910 which discloses a panel for the realization of a construction comprising two parallel uprights coated in a binder between two walls. But such a panel has a substantial thickness since it has two walls and uprights coated in a binder placed between the two walls.

Mention may also be made of French patent application FR2909695, which discloses a composite structure for the manufacture of walls, panels, or slabs, comprising a wooden supporting frame coated with a binding product composed of cement or lime mixed with reinforcing particles. in wood. However, such a structure does not have sufficient lift, in particular for making constructions with several floors.

Furthermore, there are also floors produced using a process in which beams are placed spaced from each other, then chests, also called slabs, placed between two beams so that a user can move around. stepping on the chests. Then, concrete is poured over the whole to form a concrete slab. However, such a method comprises several steps and it is particularly long to implement. Mention may also be made of floors made from a concrete slab in which reinforcements are integrated. The slab is then placed where you want to make a floor, then pour concrete on the slab to finalize the floor, in particular by embedding the exposed parts of the reinforcements in the concrete. But in the event of a fire, the reinforcements can heat up and cause the concrete to burst, causing the floor to sag.

We can also cite a method of manufacturing a floor in which beams are placed in the place where it is desired to make the floor, the beams being held by supports, such as stays. Then place wooden slabs under the beams. In particular, the slabs have projecting parts to allow the user to walk on the slabs. Then we pour concrete to make the floor. However, such a process also requires several steps, including placement of a summer, which makes it long and tedious.

Subject of the invention

An object of the invention is to overcome these drawbacks, and more particularly to provide means for producing floors or walls more quickly.

Another object is to provide means for producing a plate intended to produce a floor or a wall, which can be prefabricated and transportable from the place of prefabrication to the place of assembly where the floor and the wall are made.

Another object is to provide means for producing floors which are resistant to fire.

According to one aspect of the invention, there is provided a plate intended to produce a floor or a wall, comprising several beams, each beam comprising an armature fixed to a base, each base being produced from a hardening fixing material, the plate comprising a support having several formwork parts projecting from a support receiving surface, the formwork parts forming housings to receive the beams respectively and whose bottom is formed by the receiving surface of the support, each beam being located in a respective housing where the base of the beam is fixed to the bottom of the housing.

In particular, the support is a single piece.

Thus, a plate is provided which allows a floor or a wall to be produced more quickly, since it incorporates both a support and beams held together, which avoids having to install several elements during the mounting of the floor or the wall. In addition, the plate can be prefabricated before making the floor or the wall from such a plate. The prefabrication of the plate can be carried out outside the mounting location, with greater control of manufacturing.

The support can be made from a curable support material in which wooden elements are embedded.

Such a plate offers effective fire resistance because it protects the beams and prevents their expansion in the event of a fire.

According to one embodiment, the support is made from, or comprises, a material comprising an organic element of plant origin.

Each beam can be configured so that its frame is isolated from the support so that its frame is not in direct contact with the support. According to another aspect, a slab is proposed for producing a floor, comprising a plate as defined above, and a concrete covering covering the formwork parts and the housing of the plate.

The curable material for fixing each beam may be concrete, the proportions of which are identical to that of the concrete covering the shuttering parts and the housings.

According to yet another aspect, a method of manufacturing a plate as defined above is proposed, comprising:

- a supply of a one-piece support having several formwork parts projecting from a support receiving surface, the formwork parts forming housings;

- placement of a frame in each dwelling; and

- pouring a hardenable fixing material into each housing so as to produce, for each housing, a base fixed to the bottom of the housing to fix the frame to the support.

According to another aspect, a method of manufacturing a slab as defined above is proposed, comprising:

- a supply of a plate as defined above; and

- pouring of a concrete covering covering the formwork parts and the plate housings.

Brief description of the drawings

Other advantages and characteristics will emerge more clearly from the description which follows of particular embodiments and implementation of the invention given by way of nonlimiting examples and represented in the appended drawings, in which:

- Figure 1 schematically illustrates a sectional view of an embodiment of a support for beams according to the invention; - Figure 2 schematically illustrates a sectional view of an embodiment of a plate; and

- Figure 3 schematically illustrates a sectional view of an embodiment of a slab.

detailed description

In Figure 1, there is shown an embodiment of a support 6, in Figure 2, there is shown an embodiment of a plate 1, and in Figure 3, there is shown an embodiment of 'a slab 2. Slab 2 is used, in particular, for covering floors, for example a floor, or walls.

The plate 1 is intended to make a floor or a wall. That is to say that the plate 1 can be placed horizontally to make a floor, or vertically to make a wall.

Generally, the plate 1 comprises several beams 3 and a support 6. A beam 3 is an elongated element whose section is adapted to impart resistance to bending. In particular, each beam 3 comprises a frame 4 fixed to a base 5. A frame 4 is intended to reinforce the beam, and its section determines, with the section of the base 5, the resistance to bending of the beam 3. Generally, the frame 4 is made of metal. The base 5 is made from a curable fixing material, that is to say that the curable material is suitable for fixing the frame 4 to the support 6. The curable fixing material can be a concrete. Concrete is a mixture of different elements, such as gravel, sand, a binder and water. The binder can be cement or lime. The proportions of the various elements of the concrete vary according to the hardness of the concrete that one wishes to obtain. For example, the frame 4 has a parallelepiped shape or can have a triangular section. Generally, the beam 3 extends along a longitudinal axis A of the support 6. In particular, the length of a beam 3 is greater than its height and its width. The support 6 is intended, in particular to support the beams 3. The support 6 comprises several formwork parts 7 projecting from a receiving surface 8 of the support 6. More generally, the formwork parts 7 form housings 9 shaped for receive respectively the beams 3 to support. A housing 9 has a bottom corresponding to the receiving surface 8 of the support 6, and side walls 10, 11 corresponding to the side walls of two formwork parts 7 located consecutively on the support 6. The two side walls 10, 11 of two shuttering parts 9 consecutive being located opposite one another and extending along the longitudinal axis A. In Figure 2, it can be noted that each beam 3 is located in a housing 9. In particular , the base 5 of a beam 3 is fixed to the bottom of the housing, that is to say on the receiving surface 8 of the support 6. More particularly, the support 6 is a single piece, that is to say - say that the support is made from a single piece. Thus, an easily transportable plate is provided because the beams 3 are held by mechanical fixing to the support 6. In addition, the construction of the floors is better controlled since it is no longer necessary to assemble the beams 3 at the place of production of the floor. . Advantageously, a support 6 is provided, a contact surface 13 of which, opposite the receiving surface 8, is continuous. Thus, the support 6 has no cracks and therefore no brittleness zones. The plate 1 therefore has better resistance to bending and offers a fire-fighting property since the support 6 partially protects the beams 3.

According to a preferred embodiment, the support 6 is made from a curable support material in which are embedded wooden elements. The wooden elements can be of different sizes. The curable support material can be a binder, such as a cement, and in this case the support is made of concrete-wood. The concrete-wood material provides an improved fire-fighting property on the floor. Wood is a better thermal insulator than sand used in conventional concrete. In addition, the binder coats the wooden elements and protects them from the flames. As a variant, the support 6 can be produced at starting from, or understanding, a material comprising an organic element of plant origin. An organic element of plant origin can be wood, straw, cellulose, hemp or cork. An organic element includes carbon. Thus, a support 6, produced from, or comprising, a material comprising an organic element of vegetable origin, makes it possible to produce floors from carbon of natural origin, that is to say an organic element which was not produced by the chemical industry, and which did not require additional energy expenditure.

Furthermore, each beam 3 is configured so that its frame 4 is isolated from the support 6 so that its frame 4 is not in direct contact with the support 6. In other words, the base 5 is fixed directly to the support , and the armature 4 is fixed directly to the base, and the armature 4 is not in direct contact with the support 6. That is to say that each armature 4 has an exposed part to the air free located outside the base 5. The plate 1 is therefore lightened since the beams 3 are not fully coated. In addition, the fire-fighting property of the floor is improved, because when flames are in contact with the contact surface 13, opposite the receiving surface 8, of the support, the flames are not in direct contact with the beams 3 Such a support 6 thus limits the propagation of heat in the event of a fire. In addition, the support 6 made from a concrete-wood material protects the beams from excessive expansion which could occur in the event of a fire.

In addition, when the support 6 is made from a concrete-wood material, the base 5 is preferably made of concrete, so as to securely fix the base 5 to the support 6. In fact, the concrete forming the base 5, when cast, easily penetrates into the microcavities of support 6.

Furthermore, a support 6 may include connecting parts 14 intended to fit into a complementary connecting part 15 of another support 6, as illustrated in FIGS. 1 to 3. The connecting parts 14 are located on a side face of the support 6. It is thus possible to fit several plates 1 together to make the floor or the wall.

In Figure 3, there is shown a slab 2. The slab 2 is obtained from the plate 1 described above, and comprises a concrete coating 16 covering the formwork parts 7 and the housings 9. Thus, the parts visible beams 3 are embedded in the concrete coating 16. According to yet another advantage, the curable fixing material of each beam 3 is a concrete whose proportions are identical to that of the concrete coating 16 covering the formwork parts 7 and housing 9.

In FIGS. 1 and 2, the main steps of an embodiment of a method for manufacturing a plate 1 are shown. The method of manufacturing plate 1, as defined above, comprises :

- A supply of a monobloc support 6 having several formwork parts 7 projecting from a receiving surface 8 of the support 6, the formwork parts 7 forming housings 9;

- placement of a frame 4 in each housing 9,

- pouring a hardening fixing material into each housing 9 so as to produce, for each housing, a base 5 fixed to the bottom of the housing 9 in order to fix the frame 4 to the support 6.

In Figure 3, there is shown an embodiment of a method of manufacturing a slab 2, as defined above. The process includes:

- a supply of a plate 1, as defined above; and

- pouring of a concrete coating 16 covering the formwork parts 7 and the housings 9 of the plate 1.

When pouring the concrete coating 16, a wire mesh 17 can be added, so as to provide a reinforced concrete coating 16.

Claims

claims

1. Plate intended to produce a floor or a wall, comprising several beams (3), each beam (3) comprising a frame (4) fixed to a base (5), each base (5) being produced from a curable fixing material, the plate comprising a support (6) having a plurality of formwork parts (7) projecting from a receiving surface (8) of the support (6), the formwork parts (7) forming housings ( 9) to receive the beams (3) respectively and the bottom of which is formed by the receiving surface (8) of the support (6), each beam (3) being located in a respective housing (9) where the base (5 ) of the beam (3) is fixed to the bottom of the housing (9), the support (6) being a single piece, characterized in that the support (6) is made from a curable support material where are embedded wooden elements.

2. Plate according to claim 1, wherein the support (6) comprises an organic element of plant origin chosen from straw, cellulose, hemp or cork.

3. Plate according to claim 1 or 2, wherein each beam (3) is configured so that its frame (4) is isolated from the support (6) so that its frame (4) is not in direct contact with the support (6).

4. Slab for producing a floor, comprising a plate according to one of claims 1 to 3, and a concrete covering (16) covering the formwork parts (7) and the housings (9) of the plate.

5. Slab according to claim 4, wherein the curable material for fixing each beam (3) is a concrete whose proportions are identical to that of the concrete covering the formwork parts (7) and the housings (9).

6. Method for manufacturing a plate according to one of claims 1 to 3, comprising:

- a supply of a one-piece support (6) made from a hardenable support material in which wooden elements are embedded, the support (6) having several formwork parts (7) projecting from a surface of receiving (8) of the support (6), the formwork parts (7) forming housings (9);

- placement of a frame (4) in each housing (9); and

- pouring a hardening fixing material into each housing (9) so as to produce, for each housing (9), a base (5) fixed to the bottom of the housing (9) to fix the frame (4) to the support (6).

7. A method of manufacturing a slab according to claim 4 or 5, comprising:

- a supply of a plate according to one of claims 1 to 3; and

- pouring of a concrete covering (16) covering the formwork parts (7) and the housings (9) of the plate.