FR2930570A1 - Prefabricated concrete element e.g. bench, has external surfaces adapted to be used as heating surfaces, and electrical heating resistances arranged near external surfaces, where resistances are partially surrounded by concrete - Google Patents

Abstract

The element has external surfaces adapted to be used as heating surfaces, where electrical heating resistances are arranged near the external surfaces. Each resistance extends in a plane parallel to a plane of one of the external surfaces. The resistances are partially surrounded by concrete. A surface opposite to each external surface is covered with a heat insulation protection for allowing diffusion of heat towards the external surface. An independent claim is also included for a method for fabricating a concrete element.

Description

The present invention generally relates to prefabricated elements of concrete, such as facing, slab or furniture. The invention also relates to a method of manufacturing such an element.

Heretofore, prefabricated concrete elements, such as slabs, do not make it possible to produce heating walls, such as heated floors. The production of a floor heating requires to have one or more electrical resistances on a trellis at the location of the construction where it is desired to make the floor, then to come pour the concrete in situ to oy walnut said electrical resistance.

Such a design of a floor heating by pouring concrete in situ is complicated to implement. In addition, such a heating floor can not be realized in a modular way. Finally, the concrete pouring in situ can be used only for the realization of floors and not for the realization of other walls or coverings, such as walls, or for the realization of furniture, such as benches.

The present invention aims to allow the realization of prefabricated heating elements.

The invention also aims to allow the realization of heating walls using prefabricated modular elements.

To this end, the invention relates to a prefabricated concrete element such as facing, slab or furniture, characterized in that it comprises at least one heating electric resistance, at least partially embedded in the concrete.

The integration of such an electrical heating resistor into the concrete makes it easy to form a prefabricated heating element.

The production of a plurality of such prefabricated elements makes it possible to form assemblable modules for the production of modular heating walls. In particular, it is possible to achieve a heating floor by assembling said prefabricated modular elements without having to pour the concrete in-situ. Such prefabricated elements also allow the realization of heating walls. Said prefabricated element also allows the realization of heating furniture, either with a single prefabricated element affecting the shape of said furniture, or with the aid of an assembly of several prefabricated modular elements to form said furniture.

The fact of drowning the electrical resistance in the thickness of the concrete also makes it possible not to increase the bulk of said prefabricated element.

Finally, the presence of the electrical resistance in the concrete does not modify the physicochemical characteristics of the concrete.

According to other advantageous features of the invention: - the or each electrical resistance affects the shape of a coil to allow a good distribution of heat in said prefabricated element; said prefabricated element being of the type comprising at least one so-called outer face intended to be used as a heating face, the or each electrical heating resistor is disposed close to said at least one outer face, preferably at least 2 cm; the or each electrical resistance extends in a plane substantially parallel to the plane of the or one of said outer faces; the or each face opposite to the or each outer face is covered with a thermally insulating protection to allow a better diffusion of the heat towards the or each opposite outer face; said element has the shape of a slab of thickness in the range [25 mm to 100 mm]; at least one of the ends of the heating resistor opens out of said element so as to be connected to a mains electricity network; both ends of the heating resistor open out of said element so that they can be connected either to a mains electricity network and to another identical prefabricated element, or to two other identical prefabricated elements.

The invention also relates to a method of manufacturing a concrete element such as facing, slab, furniture, the method comprising the following steps: one or more electrical resistors are positioned inside a mold, the or each resistor being positioned near the bottom face of the mold, preferably at least 2 cm, the concrete is poured into the mold by at least partially embedding said or each resistor in the concrete, once hardened concrete, the prefabricated element is demolded.

According to an advantageous characteristic of the method according to the invention, for positioning the or each electrical resistance inside the mold, a frame is used to which rods are suspended which bear at or near their free end the or each electrical resistance.

The invention will be better understood on reading the following description of an exemplary embodiment. As recalled above, the invention relates to a prefabricated concrete element such as facing, slab or furniture.

In characteristic manner to the invention, said element comprises at least one heating electric resistance, at least partially embedded in the concrete.

Preferably, the electrical resistance is formed by an electric cable comprising a resistive element protected by a sheath.

Advantageously, the or each electrical resistor has the shape of a coil to allow a good distribution of heat in the prefabricated element. The prefabricated element comprises at least one so-called outer face intended to be used as a heating face. I_a or each heating electric resistance is disposed near said at least one outer face, preferably at least 2 cm from said outer face. The or each electrical resistance extends in a plane substantially parallel to the plane of the or one of said outer faces. The or each face opposite to the or each outer face is covered with a thermally insulating protection to allow a better diffusion of heat to the or each opposite outer face. According to a particular application of the invention, said element has the shape of a slab of thickness in the range [25 mm to 100 mm]. Such slabs can be used for the design of a heated floor or heating walls. Preferably, for such a slab, the diameter of the electric heating cable is between 8 mm and 13 itself. The power consumed by the cable is of the order of 100 to 200 Watts. When the electric cable reaches a temperature of about 34 ° C, the outer face of the slab reaches a temperature of about 23 ° C. When the electric cable reaches a temperature of about 450C, the outer face of the slab reaches a temperature of the order of 33 ° C.

At least one of the ends of the heating resistor opens out of said prefabricated element to be connected to a mains power network. Preferably, for the production of modular prefabricated elements, the two ends of the heating resistor open out of said element in order to be connected either to a mains-type electrical network and to another identical element or to two other identical elements. The open ends of the electrical resistance may protrude or flush the corresponding face of said element. As mentioned above, the design of modular prefabricated elements allows for different heating walls, such as floor, wall or cladding. Such prefabricated element can also be used alone by being directly connected to an electrical network. Said prefabricated element can thus form a furniture such as a bench, the seat face corresponding to the heated outer face.

The or each prefabricated element as described above can be achieved by implementing the following manufacturing method. The method of manufacture comprises the following main steps. One or more electrical resistors are positioned inside a mold, the or each resistor being positioned near the bottom face of the mold, preferably at least 2 cm. The concrete is poured into the mold by embedding the said or each resistor in the concrete, excluding the ends of the or each resistance to be connected to the sector or to another identical prefabricated element. Once the concrete has hardened, the prefabricated element is demolded.

Preferably, in particular for the design of parallelepiped shaped elements such as slabs, the mold is of the bowl type, that is to say the top face of which is open.

Preferably, to position the or each resistor inside the mold, a frame is used to which rods are suspended which carry at or near their free end the or each electrical resistance. The frame can bear on the upper rim of the mold or on other supports.

The rods are preferably made of plastic. Preferably, the rods 25 being at least partially embedded in the concrete, the parts of the rods protruding from the prefabricated element are cut. The cutting of the rods is carried out once the concrete has hardened, before or after demolding.

Preferably, the concrete used is a fiber concrete, said ultra high performance, whose fibers are polypropylene or metal.

The present invention is not limited to the embodiment described, but the skilled person will be able to make any variant within his mind. 30

Claims (10)

REVENDICATIONS1. Prefabricated concrete element such as facing, slab or furniture, characterized in that it comprises at least one electric heating element, s at least partially embedded in the concrete. 2. prefabricated element according to claim 1, characterized in that the or each electrical resistance is in the form of a coil to allow a good distribution of heat in the prefabricated element. i0 3. Prefabricated element according to one of the preceding claims, of the type comprising at least one so-called outer face intended to be used as a heating face, characterized in that the or each electric heating element is disposed close to said at least one outer face. preferably at least 2 cm. 4. Prefabricated element according to the preceding claim, characterized in that the or each electrical resistance extends in a plane substantially parallel to the plane of the or one of said outer faces. 20 5. prefabricated element according to one of the two preceding claims, characterized in that the or each face opposite to the or each outer face is covered with a thermally insulating protection to allow a better diffusion of heat to the or each face 25 opposite exterior. 6. Prefabricated element according to one of the preceding claims, characterized in that it affects the shape of a slab of thickness in the range [25 mm to 100 mm]. 7. prefabricated element according to one of the preceding claims, characterized in that at least one end of the heating resistor opens out of said element to be connected to an electrical network type 6secteur. 8. Prefabricated element according to one of the preceding claims, characterized in that the two ends of the heating resistor open out of said prefabricated element to be connected to either a mains-type electrical network and another identical prefabricated element, or to two other identical prefabricated elements. 9. A method of manufacturing a concrete element such as facing, slab, furniture, characterized in that it comprises the following steps: - one or more electrical resistors are positioned inside a mold, the or each resistor being positioned near the bottom face of the mold, preferably at least 2 cm, the concrete is poured into the mold by at least partially embedding said or each resistor in the concrete, once hardened concrete, the prefabricated element is demolded. 10. Manufacturing process according to the preceding claim, characterized in that, to position the or each resistance inside the mold, a frame is used to which rods which bear at or near their free end are suspended. the or each electrical resistance. 7