FR3024878A1 - REAL ESTATE BUILDING ELEMENTS, REAL ESTATE CONSTRUCTION AND REAL ESTATE CONSTRUCTION PROCESS - Google Patents

Abstract

The element (10, 40) of real estate construction having: a first face (105), said internal, a second face (110), said external, opposite to the inner face and four faces (115) connecting link the inner and outer faces, has a hollow interior volume (120) open on each connecting face, the inner and outer faces not opening on the inner volume.

Description

TECHNICAL FIELD OF THE INVENTION The present invention relates to building construction elements, a building construction and a building construction method. It applies, in particular, to the thermal insulation of building construction.

STATE OF THE ART The thermal insulation of a building construction, such as a house for example, is currently achieved by adding a thermal insulating material on the surfaces inside the building in the case of insulation called " from the inside. These systems have several disadvantages: - on the one hand, the cost of these systems is high because of the cost of materials and manpower requirements for the installation of the insulation layer and - secondly, these systems reduce the interior habitable surface of the construction, which reduces the sale price of the construction. In the case of insulation called "from the outside", an insulating material is positioned under a cladding enveloping the walls of the building construction. These systems have the advantage of not impacting the size of the habitable interior surface of the building construction. However, these systems are expensive, because of the cost of materials and manpower, and bulky. OBJECT OF THE INVENTION The present invention aims to remedy all or part of these disadvantages. For this purpose, according to a first aspect, the present invention aims a real estate building element having: a first face, said internal, a second face, said external, opposite the inner face and four connecting faces connecting the inner and outer faces, which has a hollow interior volume open on each connecting face, the inner and outer faces 30 not opening on the inner volume. Thanks to these arrangements, air circulates in the interior volume, which has the effect of distributing the heat received locally in a place of the interior space over the entire interior volume, including in cool places . As a result of these hot air movements, a building construction made from the 5 building elements is thermally insulated. In addition, the dimensions of the interior volume can be small, which reduces the dimensions of the building element. In addition, this construction element can be made by molding, which allows an industrial construction reducing the cost of the building element and the installation time of said element. In addition, the construction element 10 can be assembled by gluing to a building block, such as a block for example, which ensures a fast assembly speed. Finally, the building element imparts a great acoustic insulation to the building construction thus created without requiring installation of additional acoustic insulation materials. In embodiments, the construction element object of the present invention comprises: a first portion extending from the inner face to the inner volume and a second portion, complementary to the first portion, the distance between the face internal volume and the interior volume being at least twice the distance between the inner volume and the outer face. These embodiments allow easy assembly of elements of similar constructions to each other. In addition, these embodiments make it possible to produce a resistant structure, such as a wall, of a building construction.

In embodiments, the second portion is bonded to the first portion. The advantage of these embodiments is that they allow a simple industrial realization, by molding, of the parts of the construction element. In embodiments, the element of construction object of the present invention further comprises at least one hollow interior opening on two opposite faces of links, the other two connecting faces opening on any interior space.

These embodiments allow the construction element to enjoy the same advantages as those conferred by a block of concrete manufactured, called "block". In embodiments, each hollow interior space is integrally in the first part of the building element. The advantage of these embodiments is that they make it possible to standardize the construction element, which allows easy assembly of similar construction elements. According to a second aspect, the present invention aims at a real estate construction element presenting: a first face, called an internal face, a second face, said external, opposite to the internal face, and four connecting faces connecting the inner and outer faces. which comprises at least one hollow interior volume open on at least three connecting faces and the inner face. Since the objects, advantages and features of the building element object of the second aspect of the present invention are similar to those of the building element object of the first aspect of the present invention, they are not recalled here.

In embodiments, all the connecting faces open on the inner volume, one of the connecting faces having at least one opening on the inner volume, each opening of said connecting face having a larger opening dimension. less than five centimeters. These embodiments allow the construction element to perform a stiffener function, this construction element being molded. In embodiments, the outer face has at least one opening on the inner volume, each opening of the outer face having a larger opening dimension of less than five centimeters. These embodiments allow the building element to perform a stiffener function, this building element being molded. In embodiments, the construction element object of the present invention further comprises tubular cells opening on a connecting face. These embodiments allow the attachment of vertical pieces, such as planelles for example, on the building element.

In embodiments, the construction element object of the present invention is made of concrete. The advantage of these embodiments is that they allow low cost industrial molding of the building element.

According to a third aspect, the present invention relates to a building construction comprising a plurality of building elements object of the present invention, which are assembled by their connecting faces, the interior volumes of said building elements communicating with each other. Since the objects, advantages and characteristics of the building construction object of the present invention are similar to those of the building element object of the present invention, they are not recalled here. According to a fourth aspect, the present invention relates to a building construction method, which comprises a step of assembling building elements object of the present invention, by their connecting faces, by superimposing openings on the interior volume. Since the aims, advantages and characteristics of the process which are the subject of the present invention being similar to those of the construction element which is the subject of the present invention, they are not recalled here. In embodiments, the method that is the subject of the present invention implements at least one construction element that is the subject of the second aspect of the present invention and a step of plugging openings having a larger opening dimension of less than five. centimeters. These embodiments make it possible to contain the air in the hollow interior volume once the construction element has been positioned.

In embodiments, the method that is the subject of the present invention implements at least one construction element that is the subject of the present invention and a step for inserting tubes connecting the interior volumes of two building elements. The advantage of these embodiments is that they make it possible to connect the interior volumes of two remote building elements so as to ensure the thermal insulation of the building construction.

BRIEF DESCRIPTION OF THE FIGURES Other particular advantages, aims and characteristics of the invention will become apparent from the following nonlimiting description of at least one particular embodiment of the construction element, the building construction and the method. 5 of the invention, with reference to the accompanying drawings, in which: - Figure 1 shows schematically and in perspective, a particular embodiment of the construction element object of the present invention, 10 - the figure 2 represents, schematically and in perspective, a particular embodiment of the construction element object of the present invention, - Figure 3 shows, schematically and in profile, a particular embodiment of the construction element object of the FIG. 4 represents, schematically and from above, a particular embodiment of the element of FIG. FIG. 5 shows, schematically and from above, a particular embodiment of an assembly of construction elements which are the subject of the present invention; FIG. 6 represents, schematically and from above, a particular embodiment of the construction element object of the present invention, - Figure 7 shows, schematically and in profile, a particular embodiment of the construction element object of the present invention illustrated in Figure 6, 25 FIG. 8 schematically and from above shows a particular embodiment of an assembly of building elements which are the subject of the present invention; FIG. 9 is a diagrammatic and side view of a particular embodiment of the invention; construction element object of the present invention, - Figure 10 shows, schematically and in profile, a particular embodiment of the el Construction element object of the present invention, - Figure 11 shows schematically and from below, a particular embodiment of the construction element object of the present invention, - Figure 12 shows, schematically and in profile, a particular embodiment of the construction element which is the subject of the present invention; FIG. 13 is a diagrammatic and front view of a particular embodiment of the real estate construction object of the present invention, FIG. schematically and in profile, a particular embodiment of the real estate construction object of the present invention, - Figure 15 shows, schematically and in profile, a particular embodiment of the real estate construction object of the present invention, - Figure 16 represents, schematically and in profile, a particular embodiment of the real estate construction object of the present invention, - Figure 17 shows schematically a particular flow diagram of the process of the present invention, - Figure 18 shows, schematically and in profile, a particular embodiment of the construction object of the and Figure 19 shows, schematically and in profile, a particular embodiment of the real estate construction object of the present invention. DESCRIPTION OF EXAMPLES OF EMBODIMENT OF THE INVENTION The present description is given in a non-limiting manner.

FIG. 1, which is not to scale, shows a perspective view of an embodiment of the construction element 10 object of the present invention. This element 10 of real estate construction has: a first face 105, said internal, a second face 110, said external, opposite to the inner face 105 and 25 four faces 115 linking the inner faces 105 and outer 110, and comprises: - a hollow interior volume 120 open on each connecting face 115, the internal 105 and outer 110 faces not opening on the inner volume 120, - a first portion 125 extending from the inner face 105 to the volume 120, a second portion 130, complementary to the first portion 125, the distance between the inner face 105 and the inner volume 120 being at least twice the distance between the inner volume 120 and the outer face 110 and 3024878 7 - at least one hollow interior space 135 opening on two opposite faces 115 of opposite connection, the other two connecting faces 115 not opening on any interior space 135, each hollow interior space 135 being integrally in the space first part 125 of the building element 10.

The building element 10 has two parts 125 and 130. These two parts 125 and 130 can be molded independently or together. The first part 125 is similar to a manufactured building block, sometimes called "breeze block" and roughly presents a rectangular parallelepiped shape. This first part 125 is made, for example, by deposition of wet concrete in a mold to make a molding of the shape of the first part 125. This first part 125 has: an inner face 105, usually positioned inwardly a building construction made by assembling building elements 10, 15 - an external face, not referenced, opposite the inner face 105 and facing the second portion 130 and - four connecting faces 115 connecting the inner face 105 and the outer face not shown, a plurality of hollow volumes 135 extending between two of these connecting faces 115, opposite to each other.

The hollow volumes 135 are preferably oriented perpendicularly to the ground during the laying of the construction element 10. Preferably, the distance between the inner face 105 and the outer face of the first part measures twenty centimeters. The second part 130 comprises: a rigid surface, made of molded concrete for example, having an external face 110 oriented towards the outside of the building construction during the laying of the building element and a set of reliefs 140 configured to: - be fixed to the outer face of the first part 125 by gluing and 30 - allow the passage of air between the reliefs 140 so as to achieve the thermal insulation of the first portion 125. Preferably, the distance between the face external part of the first part 125 and the outer face 110 of the second part 130 when the two parts, 125 and 130, are assembled measures seven centimeters.

In Figure 2, schematically and in perspective, a particular embodiment of the assembled construction element 10 is observed. The construction element 10 is assembled during the molding of the construction element 10. This molding is produced, for example, in a mold 5 comprising fixed reliefs configured to produce the hollow volumes 135 on the one hand. and a portion of the interior volume 120 on the other hand. In addition, this mold comprises moving reliefs, perpendicular to the fixed reliefs, at the second portion 130, configured to be brought into contact with the fixed reliefs to produce another part of the interior volume 120 of the building element 10.

In variants, the molding uses only fixed reliefs and includes a step of drilling the construction element 10 to create the interior volume 120. In other variants, the first portion 125 and the second portion 130 are molded independently and glued to each other thereafter.

It will be noted, in particular, in FIGS. 1 and 2, that the air can circulate in the interior volume 120 both laterally and vertically with respect to the external face 110. FIG. 3 diagrammatically shows a third view, in profile, of the construction element 10 object of the present invention. It is observed, in particular, that the air can flow in the inner volume 120 laterally relative to the outer face 110 when the outer face 110 is positioned from the front or back relative to a user. FIG. 4 diagrammatically shows a fourth view, from above, of the construction element 10 which is the subject of the present invention. It is observed, in particular, that the air can circulate in the interior volume 120 vertically when the element 10 is placed on the ground. It is further observed that the construction element 10 comprises two hollow volumes 135. This FIG. 4 also makes it possible to illustrate the positioning of the mortar 145 on the construction element 10 for assembly with an element 10 of similar construction. The mortar 145 is positioned, for example, in three locations of the building element 10: a first portion of the mortar 145 is positioned on the second portion 130 of the building element 10, a second portion of the mortar 145 is positioned on the first portion 125 of the building element 10, between the hollow volumes 135 and the interior volume 120 and - a third portion of the mortar 145 is positioned on the first portion 125 5 of the building element 10, between the inner face 105 and the hollow volumes 135. FIG. 5 schematically and seen from above shows an assembly of two construction elements 10 which are the subject of the present invention. The two building elements 10 are connected by their connecting faces 115, a connecting joint 150 linking the building elements 10. The interior volumes of the building elements 10 are connected to one another. In addition, a tube 155 is positioned at the junction of the inner volumes so as to connect these two volumes. FIG. 6 shows diagrammatically and seen from above, an embodiment of the construction element 20 of the present invention. This real estate construction element 20 has: a first face 205, said internal, a second face 210, said external, opposite to the inner face, the outer face 210 has at least one opening on the inner volume 220, each opening of the external face having a larger opening dimension of less than five centimeters and four connecting faces 215 connecting the inner and outer faces, all connecting faces 215 open on the inner volume 220, one of the connecting faces having less an opening, not shown, on an interior volume 220, each opening of said connecting face 215 having a greater opening dimension of less than five centimeters, and comprises at least one hollow interior volume 220 open on at least three faces binding and the inner face. This building element 20 serves, for example corner stiffener for a building construction. The openings allow easy molding of the building element 20. These holes are, when assembling the building construction, capped by a worker so that the interior volume 220 remains isolated from the outside air. FIG. 7 diagrammatically shows a second view, in profile, of the construction element 20 illustrated in FIG. 6. In particular, there are 3024878 openings 225 positioned on a connecting face 215 of the element 20. These openings, superimposed, have a diameter less than 5 centimeters. FIG. 8 shows an assembly between a construction element 20 as illustrated in FIG. 6 and a construction element 10 as illustrated in FIG. 3. In particular, a mortar positioning 230 is observed to enable fixing another construction element 20 on the assembly. This other construction element 20 is positioned on the building element 10 and partly on another building element 20 so as to create, by iteration, a mesh of building elements 20 at the angle to ensure the stiffener function. FIG. 9 diagrammatically and in profile shows an embodiment of the construction element 30 of the present invention. This construction element 30 performs the function of chaining element. This building element 30 has a housing 305 open on a connecting face of the element 30. This housing 305 corresponds to a blind alternative of the internal space 135 of the construction element 10 described with reference to FIG. This housing 305 is configured to receive concrete. An armature and concrete are positioned in a plurality of housings 305 of different building elements 30 so as to increase the resistance of the building construction 20 to a mechanical deformation. FIG. 10 schematically and in profile shows a second view of the construction element 30 illustrated in FIG. 9. In this new view, the housing has been filled with concrete 310 and concrete 315, called "arase". covers the upper face of the construction element 30. This base concrete 315 is traversed by at least one hollow tube 320, for planelle, allowing the passage of air through the concrete arase 315. It is observed in the figure 11, schematically and from below, an embodiment of the planelle 40. This planelle 40 is a construction element 10 as described with reference to Figure 1, the interior spaces 135 are blind and configured to be nested on the tubes 320 hollow such as described with reference to Figure 10. These inner spaces 135 are 405 tubular cells opening on a connecting face of the planelle 40.

FIG. 12 diagrammatically and in profile shows an assembly between planelle 40 and a construction element 30 as described with reference to FIG. 10. FIG. 13 shows schematically and from the front, an embodiment of the construction object 50 object of the present invention. This building construction 50 comprises a plurality of elements 505 of construction as described with reference to Figures 1 to 12, which are assembled by their connecting faces, the interior volumes of said building elements communicating with each other. This plurality of building elements 505 illustrates, in FIG. 13, a wall comprising a window 510 surrounded by said building elements 505. The building elements 505 are assembled horizontally by juxtaposing the elements 505 and vertically by superposing the elements 505 of the elements 505. so that an upper element 505 is placed on two lower elements 505. This building construction 50 comprises a trunk 515 for roller shutter, 15 positioned above the window 510. This box 515 is traversed by hollow tubes 525 connecting the two elements 505 horizontally adjacent to the trunk 515 so as to allow air to move from one interior volume of one element 505 to the inner volume of the other element 505. In order to position a base and / or window cheeks on the height of a building element, the outer face of this element The construction element is removed to expose a structure similar to a conventional building element. The part of the hollow volume thus discovered is filled with concrete, this concrete serving as a support for the window support, for the base and rails of the shutter by the cheeks. In variants, the concrete serves to support any type of surface, such as a window for example. FIG. 14 diagrammatically and in profile shows a particular embodiment of a crawl space 60 from building elements as described in one of FIGS. 1 to 13. This crawl space 60 comprises: a rigid foundation 605 supporting the rest of the construction, a superposition of building elements 610 so that the interior volumes are connected, the outer face of these elements 610 being oriented towards the outside of the building, facing an earth 620, 3024878 12 an insulating layer 625 of insulating material, superimposed on the outer faces of the elements 610 and having a bowl shape at the junction between the element 610 in contact with the foundation 605 and the foundation 605 and a drain 615 positioned at the bottom of the bowl, in the ground 620.

FIG. 15 diagrammatically and in profile shows a particular embodiment of an assembly 70 of the device described with reference to FIG. 14, of a layer of raised concrete 705 and a superposition of elements. 710 of construction. It is observed, in particular, that the raised concrete 705 is in contact with the first parts of the building elements so that air can be introduced into the hollow volumes of the building elements. FIG. 16 diagrammatically and in profile shows a variant of the assembly 70 described with reference to FIG. 15 in which the superimposition of elements 805 of construction positioned below the ground level is positioned in such a way that the volumes hollow elements 805 are oriented towards the inside 15 of the construction. The superposition of elements positioned on the bare concrete is, nevertheless, oriented so that the hollow volumes of the elements gives on the outside of the construction above the ground. FIG. 17 diagrammatically shows a particular flow diagram of the process of the present invention. This building construction method 90 comprises: a step 905 for assembling building elements as described with reference to one of FIGS. 1 to 16, by their connecting faces, by superimposing openings on the interior volume; aperture blocking step 910 having a larger opening dimension of less than five centimeters when elements as described with reference to FIGS. 6-8 are assembled and a tube inserting step 915 connecting the interior volumes of two building elements. The assembly 905 of the building elements is made, horizontally, by juxtaposition and, vertically, by superposition. When horizontal juxtaposition of building elements, a connection joint is placed between each building element. During the vertical superposition of building elements, a layer of mortar is positioned between each building element. During this assembly step 905, the interior volume of each building element is connected to the interior volume of the neighboring building elements vertically and horizontally. The plugging step 910 of openings is carried out in the case of a structural element serving as a stiffener, the openings being plugged by a mason.

The insertion step 915 of tubes is carried out parallel to or after the assembly step 905. FIG. 18 shows a particular embodiment of the building construction object of the present invention. This building construction 1000 is made from building elements 1010 as described with reference to one of FIGS. 1 to 16. In this embodiment, the building elements 1010 are oriented towards the interior of the construction. 1000, that is to say that the openings of the hollow volumes are superimposed and that these hollow volumes are positioned inside the building 1000. We call "interior of the 15 construction 1000" the habitable part of the construction 1000. This embodiment has several advantages: First, the thermal and acoustic insulation is achieved by requiring a thickness of only eight centimeters, including seven centimeters corresponding to the hollow volume of the building elements 1010 and a centimeter corresponding to 20 plaster cast and paint this plaster. In the state of the art, an insulation using plasterboard usually requires ten or fourteen centimeters in thickness to be achieved. The gain of space allows an increase of the living space in the building construction. Secondly, this embodiment reduces the risk of a construction defect related to the laying of reinforced strips on joints between building elements 1010. Thirdly, this embodiment makes it possible to reduce the time required for placement of the plasterboard. plaster, the projection of plaster being faster than the installation of plasterboard.

Fourthly, the draft of the electrical ducts and the plumbing ducts is greatly facilitated by the presence of the space formed by the hollow volumes, these ducts and ducts being positioned in this space. In variants, once the ducts and ducts are positioned, rock wool or glass cellulose is blown into the space formed by the hollow volumes. These variants have the advantage of using natural products unlike polystyrene usually used in the case of laying plasterboard. Fifth, since the building element 1010 is usually made of concrete, the interior surface of the building construction 1000 is harder than in the case of plaster, for example. Sixthly, the cost of production is lower in the context of the projection of plaster than in the case of laying plasterboard or other surfaces for example. Seventhly, in the context of making a piece of water of the building construction, due to the absence of plasterboard, the risk of appearance of mold is reduced by the embodiment in the case where the paint used is waterproof. FIG. 19 shows a particular embodiment of the real estate construction 1100 object of the present invention. In this embodiment, one observes: a wall, made by superposition of building elements 1105 as described with reference to FIG. 18 placed on a foundation 1115, a floor 1120 between the floor of the building 110 and a hollow space 1110 formed by a set of hollow volumes such as the hollow volumes used in the building elements 1105. This hollow space 1110 is connected to the hollow space formed by the hollow volumes of the building elements 1105. This hollow space 1110 is horizontal and juxtaposed to the floor 1120. This embodiment allows for a heating floor function 25 when the air trapped in the hollow volume is hotter than the floor. Thus, as can be understood from reading the previous description, the building construction object of the present invention makes it possible to have a continuous air connection, through the hollow volumes of the building elements, on all the vertical surfaces of the building. construction. In the case of a framed roof, a connection with the insulation put in place in this frame, this insulation being generally the same as that used in the walls of the construction.

Claims (14)

REVENDICATIONS1. Element (10, 40) for real estate construction having: a first face (105), said internal, a second face (110), said external, opposite to the inner face and four faces (115) of connection connecting the inner and outer faces , characterized in that it comprises a hollow internal volume (120) open on each connecting face, the inner and outer faces not opening on the inner volume. 2. Construction element (10) according to claim 1, which comprises: a first portion (125) extending from the inner face (105) to the inner volume (120) and a second portion (130), complementary of the first part, the distance between the inner face and the inner volume being at least twice the distance between the inner volume and the outer face. 15 3. Element (10) of construction according to claim 2, wherein the second portion (130) is bonded to the first portion (125). 4. Element (10) of construction according to one of claims 1 to 3, which further comprises at least one hollow interior space (135) opening on two opposite faces (115) of connection, the other two faces of binding not opening on any interior space. The building element (10) according to one of claims 2 or 3 and claim 4, wherein each hollow interior space (135) is wholly in the first part (125) of the building element. 6. Element (20) real estate construction having: - a first face (205), said internal, - a second face (210), said external, opposite to the inner face and - four faces (215) linking the connecting inner and outer faces, characterized in that it comprises at least one hollow internal volume (220) open on at least three connecting faces and the inner face. 3024878 16 7. Element (20) of construction according to claim 6, wherein all the faces (215) of connection open on the volume (220) inside, one of the connecting faces having at least one opening (225) on the volume interior, each opening of said connecting face having a larger opening dimension of less than five centimeters. 8. Element (20) of construction according to one of claims 6 or 7, wherein the outer face (210) has at least one opening on the volume (220) inside, each opening of the outer face having a larger dimension opening less than five centimeters. 9. Element (40) of construction according to one of claims 1 to 8, which further comprises tubular cells (405) opening on a connecting face. 10. Construction element according to one of claims 1 to 9, consisting of concrete. 11. Construction (50) real estate comprising a plurality of elements (505) of construction according to one of claims 1 to 10, which are assembled by their connecting faces, the inner volumes of said building elements 20 communicating with each other. 12. Method (90) for building construction, characterized in that it comprises a step (905) of assembly of building elements according to one of claims 1 to 10, by their connecting faces, by superposing openings on the inner volume. Method (90) according to claim 12, employing at least one construction element according to one of claims 7 or 8 and a step (910) for plugging apertures having a larger lower opening dimension. to five centimeters. 14. The method (90) according to one of claims 12 or 13, implementing at least one construction element according to one of claims 1 to 10 and a step of insertion of tubes connecting the volumes. interiors of two building elements.