FR2951484A1 - Passive solar house device for lighting and heating in construction of building e.g. residential building, has management and controlling system connected to interior and external environmental parameters sensor units - Google Patents

Abstract

The device has a side (2') or transparent roof portion (3) provided with exterior occultation units (7) that form a cover structure of a roof (2) in an occultation position. Mass heat storage structures (8, 9) are formed on a portion of the roof or support walls that are laid in interior volume (5). A management and controlling system is connected to interior and external environmental parameters sensor units, and controls an actuator that controls the occultation units and natural or forced air circulation units (11) in the interior volume.

Description

DESCRIPTION

The present invention relates to the field of construction of buildings and buildings, in particular residential buildings and more specifically houses, and relates to a passive solar home device, able to exploit directly solar radiation at least for lighting and heating. The present invention aims, in a general manner, at proposing a residential construction, of the individual or collective house type, answering criteria and requests of different natures, some of which are mutually antagonistic, namely: - respect a traditional house appearance, that is to say at least with walls and a roof, preferentially in adequacy with the existing surrounding constructions and the rules of construction in force locally; optimization of the direct exploitation of solar radiation, especially zenith, at least for lighting and heating, with the possibility of simple regulation; - research of decentralized fluidic management at least for air and for caloric energy, favoring natural distribution and diffusion and volume accumulation; 20 - creation of a living environment with neutral health effects, even preferentially beneficial for its occupants and improving their general feeling, for example by its internal layout, by the nature of the construction materials used or otherwise. Current dwelling house constructions normally make it possible to meet one or two of these criteria and requests, but generally to the detriment of others. Most of the houses or apartment buildings built in recent decades seek to integrate into the existing building environment, while maintaining their particularity, and have good thermal insulation reducing heating costs. In addition, we have seen the development of the exploitation of sustainable energy sources, such as wind, soil, air, underground water or others, but the achieved yield often does not cover -2 - the initial investment and the maintenance costs and the technical systems put in place are bulky and complex. Moreover, to date, the direct exploitation of solar radiation is not optimal and is often considered only as a source of natural lighting. In addition, the deep compartmentalization of the interior volume leads to many fluid transfers, generally from a central point. Finally, the use of inert, sanitized and / or non-biosourced construction materials does not allow interaction between the habitat and its occupants, or even produces harmful influences for occupants, without their knowledge. The collected solar energy is often transformed entirely into electrical energy or hot water, which leads to low yields and the loss of intrinsic vital qualities of direct solar radiation, especially zenith, which also carries information. beneficial to essences and living beings. More recently, many passive house projects have been proposed whose energy consumption has been reduced to a minimum. Their architectural appearance is however atypical, as sacrificed at the expense of technical performance, they can not blend in an already built environment. Similarly, many achievements of so-called "solar" houses have also been made, but they also have a very particular architectural appearance, are generally complex to achieve, often implement complicated technical systems and energy consumers. The present invention aims to overcome some of the drawbacks indicated above and to provide a traditional construction with a simple structure, pleasant to live and beneficial for its inhabitants, maximizing the use of direct solar radiation and limiting the contribution of external energy to the maximum, or even having a total autonomy in energy. For this purpose, the invention relates to a passive solar home device capable of directly exploiting the solar radiation at least for lighting and heating, said house having a roof with at least one pan or part of roof pan that can be rendered transparent and oriented for optimal exposure to solar radiation according to its geographical location of installation, said house comprising thermal storage structures, by absorption of solar radiation and / or by contact with air heated by this radiation and / or natural thermal regulation means, characterized in that the roof and the lateral support walls delimit a substantially open interior volume, allowing natural thermal convection and radiation, and exposed for the most part to solar radiation, more particularly zenith, passing through the or each transparent part or part of the roof, in that said at least one transparent pan or part of the roof is provided with external occulting means forming a roof covering structure in the occultation position, in that it comprises mass thermal storage structures which are exposed to the solar radiation passing through said at least one transparent roof or part of the roof and which form part of the roof or lateral support walls and / or are arranged in the interior space and in that it comprises a management and control system. control connected to means for sensing internal and external environmental parameters and controlling actuators controlling at least the means of concealment and means for putting into natural or forced circulation of the air in the interior volume and between the latter and the outside , preferably by double flow circulation. The invention will be better understood, thanks to the following description, which relates to preferred embodiments, given by way of non-limiting examples, and explained with reference to the appended diagrammatic drawings, in which: FIG. a schematic simplified sectional view of a solar house device according to a first embodiment of the invention; Figure 2 is a schematic and simplified top view of the house shown in Figure 1, the roof being removed; Figure 3 is a simplified schematic sectional view of a solar house device according to a second embodiment of the invention; Figure 4 is a simplified block diagram of a home device according to the invention; FIGS. 5A and 5B are diagrammatic representations in section (FIG. 5A) and from above (FIG. 5B) of two alternative embodiments of liquid heating means forming part of a house device according to any one of FIG. claims 1 to 4; Figures 6A and 6B are perspective views in two different directions of a portion or a transparent roof panel (e) forming part of a house device according to the invention; Figures 7 and 8 are partial perspective views of the roof and side walls of a house device according to two embodiments of the invention (whole pan or portion of roof pan that can be made transparent) illustrating the illumination interior obtained according to the orientation of the cover / shutter elements; Figures 9A, 9B and 9C are perspective views illustrating three successive phases of assembly and assembly of a module pan or transparent roof portion (e) of a house device according to the invention; Figs. 10A and 10B are partial side elevation (10A) and bottom views of a module as shown in Fig. 9C; Figs. 11A, 11B, and 11C are simplified perspective views showing in full (Fig. 11B); or in part (FIGS. 11A and 11C) a transparent roof panel formed of a plurality of modules as shown in FIGS. 9C, 10A and 10B; Figs. 12A and 12B are detail perspective and open views of two rows of cover members forming part of a module as shown in Figs. 9C and 10; FIGS. 13A and 13B are perspective side views of a module as shown in FIGS. 9C and 10 with its cover elements in the open state, after assembly (FIG. 13A) and after mounting on the roof of a house according to the invention (FIG. 13B), FIG. 13B illustrating the interior lighting resulting from the open position of the covering elements; Figure 13C is a partial schematic side elevational view of a module of occulting means forming part of the house device according to an alternative embodiment of the invention, the rows of cover elements being grouped into a packet; FIGS. 14 to 17 are partial views of a house device according to the invention, illustrating its interior layout, the transparent roof panel being removed, and FIG. 18 is a view on a different scale of a detail of Figure 17. Figures 1 to 4 and partially Figures 7, 8 and 14 to 17 show a passive solar home device 1 capable of directly exploiting the solar radiation at least for lighting and heating. This house 1 has a roof 2 with at least one part or part of roof panel 2 'can be made transparent and which is oriented for optimal exposure to solar radiation depending on its geographical location of installation said house having thermal storage structures 4, 8, 9, by absorption of solar radiation and / or by contact with air heated by this radiation and / or natural thermal regulation means. According to the invention, the roof 2 and the lateral support walls 4 delimit a substantially open interior volume 5, allowing natural thermal convection and radiation, and exposed for the most part to solar radiation, more particularly zenith, passing through the or each section 2 'or part 3 of transparent roof (e). In addition, at least one roof 2 'or part 3 of transparent roof (e) is provided (e) external occulting means 6, 7 forming roof covering structure in the occultation position. In addition, this house 1 comprises, on the one hand, mass thermal storage structures 8, 9 which are exposed to the solar radiation passing through said at least one pan 2 'or part 3 of transparent roof and which are part of the roof 2 or lateral support walls 4 and / or are arranged in the internal volume 5 and, on the other hand, a management and control system 10 connected to means 10 'sensors of internal and external environmental parameters and controlling actuators 10' controlling at least the occulting means 6, 7 and means 11 for natural or forced circulation of the air in the internal volume 5 and between the latter and the outside, preferably by double-flow circulation. orientation, the inclination and the disposition of the or each roof panel 2 'or part of the roof 3 transparent (e) are determined so as to allow maximum exploitation of the zenith radiation impacting the ma ison 1. The roof 2 may have a two-sided structure (Figures 1 and 2) or a single pan (Figure 3) and the extent of the roof area can be made selectively transparent may correspond to either pan 2 "entire roof, either to a portion 3 of the roof (limited to one pan or extending on both sides - ridge portion of the roof) or to correspond to a portion of a roof pan.

In order to achieve a regular renewal of the indoor air and simultaneously regulate the heat exchange between the interior volume 5 and the outside, it can be provided that at least the lateral support walls 4 located under said at least one roof panel 2 'transparent or partially transparent incorporate or are provided with (s) heat exchange means and / or air circulation between the interior and exterior volume. Such means are already known in themselves to those skilled in the art and do not require a more detailed description (for example walls called "Trombe" or the like). Moreover, the prediction of a double-flow air exchange between the inside and the outside allows an optimal recovery of calories or cold and a conservation at a constant temperature of the internal volume. The thermal insulation of the house 1 consists essentially of an external insulation (in order to privilege the mass storage of calories inside) and presents a very high coefficient for the latitudes of implantation of the house. The system 10 can implement regulation and control software including the following functions: - measuring the temperatures of the air outside and inside at several points; measuring the temperatures outside and inside the lateral support walls 4; - measure the speed and direction of the wind and the movement of the indoor air; - measure air quality and calculate renewal needs; - possibly take into account the weather forecasts, in order to regulate the hours and positions of opening of the solar roof and the proportion of the renewal of air.

This management and control system 10 may optionally be disconnected to perform a manual control of the device 1-home, if necessary to force an operating parameter beyond a programmed threshold value. Advantageously, the method of construction of the house device 1 and the materials used promote natural transmissions of thermal energy by conduction, radiation and convection. Thus, the following natural phenomena can be exploited: the thermal energy of the outside air is transmitted by convection to the lateral support walls 4, which are also thermally charged by the solar radiation, the thermal energy is transmitted by conduction by the lateral support walls 4 from the outside to the inside and vice versa, this conduction being slowed down by the insulation at the level of the walls, the inner face of lateral support walls 4 radiates thermal energy, thus causing a movement of air and a convective thermal diffusion. The constitution and the composition of the lateral support walls 4 are of course adapted to the installation latitude of the house 1. According to a first characteristic of the invention, particularly apparent from FIGS. 6 to 13, the or each roof section 2 ' transparent or partially transparent glass forming consists of a sealed glass wall and at least double-glazed, self-supporting or supported by a frame 12 whose exposed surface exposed to the sun is minimized, and the outer means of occultation 6, 7 are organized in modules 6 consisting of rows 7 'of covering elements 7 individual or individualized appearance, these rows 7' being pivotally mounted each on a cross member 12 articulated, and optionally mounted movable in translation for a grouping said rows 7 ', and these successive parallel rows 7' overlapping partially in the occultation position. The provision of occultation means 6, 7 that can be moved between a maximum open position with a minimum shadow projection and a total closed position, preferably with partial overlap between the blackout elements, allows the entrance of maximum solar radiation during the day (beneficial radiation) and to stop the lunar radiation during the night (generally considered harmful for living beings). Preferably, the support frame 12 is a perforated metal frame or glass and cover elements 7 are selected from the group formed by tiles, slate plates and treated metal plates each imitating one or more tile (s) or slate (s). Advantageously, the frame 12 consists essentially of longitudinal members or purlins 12 'extending in the direction of inclination of the pan 2' or the transparent roof portion 3 (e) considered (e) and supporting two by two of the glazed panels 3 'assembled in a sealed manner and forming the glass wall, so as to define in pairs and together with the glazed panels 3' that they laterally support a module or part 3 of roof pan 2 'transparent (e) , said longitudinal members 12 'being for example each composed of two parallel longitudinal sections, preferably connected by bonding spacers 12 ", and each being provided with a plurality of protruding lugs 14 regularly spaced and provided at their free ends with bearings 14' rotationally mounting the hinge pins 13 'crosspieces 13 carrying the rows of tiles, slates or metal plates 7, the latter being thus located to say 2. As shown in FIG. 13C, the tabs 14 can be mounted to move in translation on the longitudinal members 12 'and thus allow the rows 7' of elements 7 to be closely grouped together in the rotated state of FIGS. total opening, so as to completely clear most of the glazing panel 3 'extending under the module 6 in question (in the manner of a blind with foldable slats). In accordance with a practical embodiment of the concealment means, favoring easy tilting of the cover elements 7, ensuring a high resistance to tearing and conferring a continuous aesthetic appearance to the roof, it can be provided that the axes of articulation 13 'extend substantially in the middle of the rows 7' forming the modules 6 of occultation means, the cross members 13 are in surface contact with the tiles, slates or metal plates 7 and comprise at each of their opposite ends on the one hand, a means 13 "of rigid coupling by abutment with the complementary end of another crossbar 13 and, secondly, a pivot axis segment 13 ', and that said rows 7' are arranged with an alternating offset of half a unit, so as to form an apparent pattern of individual cover elements arranged in staggered rows, as shown in FIGS. 10A, 10B and 11C of the drawings. s, the crosspieces 13 may have a triangular section, rectangular or otherwise, and a hollow constitution and the rigid coupling means 13 "may consist of cooperating male / female ends for producing a cross 13 continuous for a row 7 'of elements 7 extending transversely on several modules 6.

The pivot axes 13 'may consist of inserts or may be formed integrally with the crosspieces 13, the latter may themselves extend individually by the cover elements 7. According to another characteristic of the invention , not specifically shown in the accompanying drawings, the modules 6 of the occulting means 7, 7 'of the same pan module 2' or of the transparent roofing part 3 (e) are kinematically connected to each other and are moved simultaneously and synchronously via a mechanism for transmitting and distributing movement, for example a toothed or threaded drive shaft engaging sectors or toothed or threaded pinions fitted to solidarity articulated sleepers, this mechanism being controlled by the system by means of at least one actuator 10 ", of the mechanical, electrical or hydraulic type, in order to be able to make available s inhabitants of the house 1 fluids or hot liquids, without requiring external energy supply, it may be provided that the roof 2 also comprises means 15 for heating heat transfer fluid by exposure to solar radiation, preferably in the form of transparent fluid circulation ducts or channels 18, enclosing a filament or a metal strip 18 ', in particular made of copper, or of a comb structure of metal strips or filaments 18' mounted in such ducts or channels 18, and associated with 18 "reflectors concentrating the solar radiation on said filament or said strip 18 ', said reflectors 18" being integrated in said ducts, for example in the form of coatings, or in the form of separate reflective structures , being located opposite the solar radiation with respect to the fluid present in the ducts (Figures 3, 4 and 5). FIG. 5A illustrates means 15 in the form of channels 18 internally coated with a reflective layer 18 "enclosing a metal filament 18 '(preferably copper), and in which circulates a coolant fluid, for example water FIG. 5B illustrates means 15 in the form of a metal comb formed of filaments or strips 18 'connected to a collector 18 "', the latter being in contact with the circulating flow of coolant at its point. maximum heating.

According to an alternative embodiment of the invention, the transparent conduits 18 for circulating coolant, for example water, and / or enclosing the strips or filaments 18 'are integrated in one or more glazed panels 3' with double glazing forming a portion 3 of said at least one transparent roof panel 2 ', this or these panels 3' being devoid of concealing means or provided with independently controlled dimming means (FIG. 3). The house device 1 according to the invention favors the mass storage of calories, in particular those recovered from direct solar radiation, in storage structures integrated into the actual construction of said house. As shown in FIGS. 1 to 3, 7, 8 and 14 to 17 of the accompanying drawings, these thermal storage structures essentially consist, on the one hand, of the lateral support walls 4 made of a solid mass material and exposed to the radiation. solar through said at least one 2 'pan or part 3 of transparent roof and optionally, on the other hand, by one or more non-transparent roof pan (s) 2 "of the house 1 covered (s) or doubled (s) internally by a material 8 with caloric or thermal accumulation capacity, in particular for the accumulation of the recovered caloric energy due to the exposure to the solar radiation of its inner face, said house 1 may also comprise structures dedicated thermal storage, not directly integrated into the construction of the house itself, such as for example transparent structures containing a transparent liquid, for example water, in the form of hollow walls 19 or of interior decorative structures, partitioning or not the internal volume 5. Said house 1 may also include a central reservoir of liquid fluids for the accumulation of recovered calories, this central reservoir may be confused with one of the transparent structures 19 or consist of a separate tank (see Figure 4). In addition, the lateral support walls 4, as well as possibly the underlayer insulating material 8, may incorporate liquid fluid circulation ducts connected to a general circulation circuit for heated liquid fluids connected, for example, also to means 15, the structures 19 and, where appropriate, a central tank. Such a circuit can also be connected to other calorie recovery systems, and more generally energy, exploiting other sources of natural energy, such as wind, underground heat, air or other, allowing thus to supplement the energy supply of the solar radiation, in order to confer to the device of house 1 a total energy autonomy.

According to an advantageous practical embodiment, promoting storage and thermal insulation while implementing a non-inert natural material, the lateral support walls 4 are made of rammed earth, if appropriate integrating or contained in a reinforcing and holding frame, and are provided with windows 4 'high heat insulating capacity, such as double or triple glazing, possibly equipped with means 4 "external occlusion, adjustable or not.In order to allow volume thermal regulation and benefit from the contribution heat of direct solar radiation in the entire interior volume 5 delimited by the roof 2 and the side walls 4, the latter is substantially open from the ground to the roof, being devoid of continuous or quasi-continuous horizontal separation structure. 14 to 17, the interior volume 5 may comprise one or more modular compartments 16 each corresponding to a room, and in that said compartments 16 are delimited by walls 16 'perforated or discontinuous, where appropriate mobile, and caloric storage capacity, for example by exposure to solar radiation, and optionally comprises a wall of upper closure forming the floor of a superimposed upper compartment and preferably open upwards.

Advantageously, the walls 16 'forming the compartments (16) may be at least partially hollow and constitute storage spaces. According to a preferred embodiment of the interior arrangement of the house device 1 according to the invention, authorizing the exploitation for residential purposes of the entire interior volume 5, it can be provided that at least one upper part of the interior volume 5 located under the roof 2 is partially compartmentalized by at least one structure 17 defining a place of life of organic and aerodynamic shape, for example a structure in the form of a perforated cylindrical shell portion, so as to form less a residential space in height.

Figures 1 to 3 and 14 to 18 illustrate different practical embodiments of such an upper habitable structure 17 which may have a completely enveloping constitution, while being largely perforated (Figures 14 to 18), or a constitution open on one side, preferably the side facing the pan 2 "or the part 3 of the transparent roof (Figures 1 to 3). Preferably, the or each structure 17 in the form of a portion of shell or conch is provided with orifices and openings for the passage of air and light and is made of a natural plant material, for example an assembly of wood or an interwoven structure of vegetable stems obtained by basketry or by a similar technique, said structure 17 being at least partially suspended from the roof frame and / or supported by solid or hollow piles or posts 17 ', for example made of wood Finally, in accordance with an embodiment of the invention Advantageously, the walls 18 'of the compartments 16 and / or the perforated walls of the structure 17 have a composite constitution with an inner layer of rammed earth and two opposite outer layers of rattan or a basketry product. Thus, the invention makes it possible to meet the various criteria and requests set out in the introduction to the present and proposes a house device 1 having an excellent energy and sanitary balance, totally passive, achieving an optimal balancing of temperatures by favoring radian heating and a natural circulation of fluids, promoting natural and ecological materials and limiting or even eliminating the movement of fuels, gray energies, discharges, transformations of bio-based energies and renewals of equipment and other equipment (low voltage at the system level) . Of course, the invention is not limited to the embodiments described and shown in the accompanying drawings. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection of the invention.

Claims (16)

CLAIMS1) Passive solar home device capable of directly exploiting solar radiation at least for lighting and heating, said house (1) having a roof (2) with at least one pan or part of roof pan (2 ') which can be made transparent and which is oriented for optimum exposure to solar radiation according to its geographical location of installation, said house having thermal storage structures (4, 8, 9), by absorption of solar radiation and / or by contact with air heated by this radiation and / or natural thermal regulation means, characterized in that the roof (2) and the lateral support walls (4) delimit an interior volume (5). ) substantially open, allowing natural thermal convection and radiation, and exposed for the most part to solar radiation, more particularly zenith, passing through the or each pan (2 ') or part (3) of transparent roof (e), in that said at least one transparent roof (2 ') or part (3) is provided with external occulting means (6, 7) forming a roof covering structure in position of occultation, in that it comprises mass thermal storage structures (8, 9) which are exposed to solar radiation passing through said at least one pan (2 ') or part (3) of transparent roof and which are part of the roof (2) or lateral support walls (4) and / or are arranged in the interior space (5) and in that it comprises a management and control system (10) connected to sensor means (10 ') of internal and external environmental parameters and commander of the actuators (10 ") controlling at least the occulting means (6, 7) and means (11) for natural or forced circulation of air in the interior volume (5). ) and between the latter and the outside, preferably by double-flow circulation. 2) Device according to claim 1, characterized in that the or each roof pan (2 ') transparent or partially transparent forming a canopy consists of a sealed glass wall and at least double glazing, self-supporting or supported by a frame (12) the exposed surface of which is exposed to the sun is minimized, and the outer obscuration means (6, 7) are arranged in modules (6) consisting of rows (7 ') of individual cover elements (7) or of individual appearance, these rows (7 ') being pivotally mounted each on a crossbar (12) hinged, and optionally mounted movable in translation for a grouping of said rows (7'), and these successive parallel rows (7 ') partly overlapping in the occultation position. 3) Device according to claim 2, characterized in that the support frame (12) is a perforated metal frame or glass and in that the cover elements (7) are selected from the group formed by tiles, plates slates and treated metal plates each imitating one or more tile (s) or slate (s). 4) Device according to claim 2 or 3, characterized in that the frame (12) consists essentially of longitudinal members or purlins (12 ') extending in the direction of inclination of the pan (2') or the part (3) transparent roof (e) considered and supporting two by two glass panels (3 ') assembled in a sealed manner and forming the glass wall, so as to define in pairs and together with the glazed panels (3) ') they laterally support a module or part (3) of transparent roof panel (2'), said longitudinal members (12 ') being for example each composed of two parallel longitudinal sections, preferably connected by spacers of link (12 "), and each being provided with a plurality of protruding lugs (14) regularly spaced and equipped at their free ends with bearings (14 ') for rotatably mounting the hinge pins (13') of the crosspieces ( 13) with rows of tiles, slates o u metal plates (7), the latter being thus located at a distance from said wall or glass part (3). 5) Device according to any one of claims 2 to 4, characterized in that the hinge pins (13 ') extend substantially in the middle of the rows (7') forming the modules (6) occultation means , in that the crosspieces (13) are in surface contact with the tiles, slates or metal plates (7) and comprise at each of their opposite ends, on the one hand, a means (13 ") of rigid coupling by abutment with the complementary end of another crossmember (13) and, on the other hand, a pivot axis segment (13 '), and in that said successive rows (7') are arranged with an offset alternating half a unit, so as to form an apparent pattern of individual cover elements arranged staggered. 6) Device according to any one of claims 4 and 5, characterized in that the modules (6) of occulting means (7, 7 ') of a same module pan (2') or portion (3) transparent roof (e) are kinematically connected to each other and are moved simultaneously and synchronously via a transmission mechanism and motion distribution, for example a toothed drive shaft or engaging threaded adapted sectors or pinions or threaded pins integral with the articulated crosspieces, this mechanism being controlled by the control system via at least one actuator (10 "), mechanical, electrical or hydraulic type. 7) Device according to any one of claims 2 to 6, characterized in that the roof (2) also comprises means (15) for heating heat transfer fluid by exposure to solar radiation, preferably in the form of ducts or channels ( 18) transparent fluid circulation, enclosing a filament or a metal strip (18 '), in particular copper, or a comb structure of strips or filaments (18') mounted in metal in such conduits or channels (18), and associated with reflectors (18 ") concentrating solar radiation on said filament or said strip (18 '), said reflectors (18") being integrated with said ducts, for example in the form of coatings, or made in the form of separate reflective structures, being located opposite the solar radiation relative to the fluid present in the conduits. 8) Device according to claim 7, characterized in that the transparent ducts (18) of coolant circulation, for example water, and / or containing the strips or filaments (18 ') are integrated in one or panels vitreous (s) (3 ') with double glazing forming part (3) of said at least one transparent roof panel (2'), this or these panels (3 ') being devoid of occultation means or equipped with independently controlled blanking. 9) Device according to any one of claims 1 to 8, characterized in that the thermal storage structures consist essentially on the one hand, by the lateral support walls (4) made of a solid mass material and exposed to radiation solar through said at least one pan (2 ') or part (3) of transparent roof and possibly, secondly, by one or more non-transparent roof pan (s) (2 ") of the house ( 1) covered or doubled internally by a material (8) with a heat-storage or thermal accumulation capacity, in particular for the accumulation of the recovered caloric energy due to the exposure to the solar radiation of its face intérieure.-16- 10) Device according to claim 9, characterized in that the lateral support walls (4) are made of rammed earth, if necessary integrating or contained in a reinforcement and holding frame, and are provided with windows (4 ') to high thermal insulating power, such as double or triple glazing, optionally equipped with means (4 ") external concealment, adjustable or not. 11) Device according to any one of claims 1 to 10, characterized in that the interior volume (5) defined by the roof (2) and the side walls (4) is substantially open from the ground to the roof, being devoid of continuous or quasi-continuous horizontal separation structure. 12) Device according to any one of claims 1 to 11, characterized in that the inner volume (5) comprises one or more modular compartments (16) each corresponding to a living room, and in that said compartments (16 ) are delimited by walls (16 ') perforated or discontinuous, where appropriate mobile, and with caloric storage capacity, for example by exposure to solar radiation, and possibly comprises an upper closure wall forming the floor of a compartment superimposed upper and preferably open upwards. 13) Device according to claim 12, characterized in that the walls (16 ') forming the compartments (16) are at least partially hollow and constitute storage spaces. 14) Device according to any one of claims 1 to 13, characterized in that at least a top portion of the interior volume (5) located under the roof (2) is partially compartmentalized by at least one structure (17) defining a a living space of organic and aerodynamic shape, for example a structure in the form of a portion of perforated cylindrical shell, so as to form at least one dwelling space in height. 15) Device according to claim 14, characterized in that the or each structure (17) in the form of shell portion or conch is provided with orifices and openings for the passage of air and light and is made of a natural plant material, for example a wood assembly or an interlaced structure of vegetable stems obtained by basketry or by a similar technique, said structure (17) being at least partially suspended from the roof structure and / or supported by solid or hollow cells or posts (17 '), for example of wood. 16) Device according to any one of claims 12 to 15, characterized in that the walls (18 ') of the compartments (16) and / or the perforated walls of the structure (17) have a composite constitution with an inner layer of rammed and two opposite outer layers rattan or a basketry product.