FR2894649A1 - Device for heat regulation in a room comprises a wall with a cavity through which a heat transfer fluid can be passed - Google Patents

Abstract

Device for heat regulation in a room comprises a wall with a cavity through which a heat transfer fluid can be passed to diffuse heat or cold through the wall.

Description

The present invention relates to a device for maintaining

  a programmed temperature, inside a storage room or dwelling, by the thermal action of the wall partitions of this room. At present, a large number of dwellings, mainly old, suffer from a loss of heat from the heating, through the external walls, in cold period, and an unbearable temperature during heat waves. The walls are indeed subject to differences in temperature (sun, shade, night, day, summer, winter, etc ...) that cause dilatations and withdrawals, harmful to their health .The current heating means (radiators, convectors , etc.) occupy a place that penalizes the location of the furniture. The present invention proposes to isolate the building from the outside, and to regulate the internal temperature, by the air conditioning of the external walls. If necessary, floors and ceilings can be treated in the same way. This air conditioning is performed in the following manner: There is, inside the wall partitions, around the building perimeter, a series of cavities (4), relatively independent of each other, spread over the largest possible area. These cavities are separated from the outside of the building by a thermal insulation (2), the most efficient possible, covered with a coating (3), ensuring: - its protection against the weather and various assaults; appearance of the building. In these cavities, circulates a coolant, (for example air), heated or cooled, as needed. This heat or coolness is transmitted: - to the rooms, through the internal partition (5); --Building (1) of the building, ensuring thermal damping. The positioning of these cavities (4), within the wall partition, depends on the nature of the wall (1). In the case of masonry stone walls, they will preferably be placed between the wall (1) and the internal wall (5). It is worth remembering that, in all cases, the insulation is placed outside the wall (1). In the case of existing walls, in agglos or bricks, the cavities will preferably be arranged between the insulation (2) and the wall (1). In this case, the inner partition (5) is no longer necessary, the inner part of the agglos or bricks, can accommodate a plaster or plaster (8). If a thermal insulation already exists, between the wall (1) and the inner wall (5), it must preferably be removed because it impedes the proper operation of the method described above. In the case of new constructions, cells (4) may be provided by the manufacturers of agglos or bricks, communicating with each other at the time of construction, realizing thermal regulation cavities (4), within the wall itself (1). The case of steel frame or wood frame constructions can be treated as well. If it is an existing building, there is a good chance that insulation is already in place. An additional insulation (2) will be placed on the existing facade, covered with a new outer covering (3). The cavities (4) will be arranged on the inner face, covered by the inner partition (5). For future constructions, the insulation (2) with its coating (3), will be fixed on the outer face of the frame. Within the latter, an additional insulation (7) comprising a thermal insulation and a sound insulator, may be installed to take advantage of the existing vacuum and thus reduce the volume of the cavities (4). The inner wall (5) can be fixed on the inner face of the frame. These few examples of implementation of the method according to the invention are illustrated in FIGS. 1 to 7 in which there is found in FIG. 1: an old construction of masonry stone; in fig. 2: an old building in agglos or bricks; in fig. 3: a new construction in modified agglos or bricks; in fig. 4 drawing 1 a wood or metal frame construction; with the landmarks: • (1) schematizing the masonry structure; • (2) "thermal insulation; (3)" exterior cladding; • (4) a thermal cavity in which the coolant circulates; • (5) the interior partition; • (6) "a corridor for circulation of heat transfer fluid, between two agglos, (7) additional insulation, and (8)" plaster or interior plaster. This invention does not imply the automatic implementation of an air conditioning, a single function, for example heating, can be used. For food preservation, only the cold function will be used, only one air conditioning cavity will be needed. It will be distributed on all the partitions and the cold will be uniformly diffused. With respect to dwelling houses, room temperatures may not be uniform. It is logical that the temperature of the kitchen is different from that of the bathroom or living room. The cavities (4) will be distributed so that a cavity will correspond to a room. Heating will only be activated if the room temperature is lower than the programmed temperature. Heating means are in the field of professionals, they are not developed here. Indeed, an electric system will be preferred by an electrician while hot water is better suited to a plumber. Only the diffusion of this heat falls within the scope of this patent. In a preferred version, the heat source will be placed at the bottom of the heating cavity. The cold will be diffused from the top of the cavities (4). It is, of course, possible to send the calories or frigories, by forced air, by any side of the cavities (4), but it requires the use of additional energy. The cavities (4) must not have communication with the interior of the room, (or with the outside of the building). Indeed, the air circulating in the cavities (4) is not intended for ventilation of premises, it serves as a means of transmitting heat energy. The ventilation of the premises does not fall within the scope of this patent. In summary, wall heating allows, in the old houses, a considerable improvement of the health of the habitat, eliminating the effects of condensation on the walls and thus, the proliferation of the molds. The cost of heating is also considerably reduced (an investment quickly depreciated). As far as future houses are concerned, in addition to saving space, achieved through the removal of heating appliances, (remaining in place even when they become useless), the design of wall partitions, incorporating, within them, heating cavities (4), will significantly reduce the cost of labor for their construction. It should be noted that not all cases have been treated in this description of the invention. Some interior partitions are likely to contain cavities (4), for example when a garage or storeroom, is located within the dwelling, the outer walls will be insulated to protect the interior against freezing, the internal partitions separating the garage of the rest of the house, will be equipped in cavities (4). These can be used also in floors or ceilings, if the need arises. In order to concretize the explanations given in the description above, here is an example, represented by FIG. 8, of making an outer wall, in a wood frame construction. The outer coating (3), made for example of polymerized compressed wood, is fixed on the outside of the framework, after putting a reflective film (9) on the latter. Then comes the installation of the insulation (2) phonic and thermal, also covered with a reflective film (9). Wooden cleats, fixed on the sides of the frame, will determine the dimensions of the cavity (4). On these cleats, the inner partition (5) will be placed, leaving at the bottom of the rooms sufficient space for the electrician to install a battery of resistors (10), which will heat the cavity ( 4). After the wiring of the latter, it will only remain to put the plinth (11). It should be noted that the resistors will be isolated from the sector by a thermostatic relay, controlled by a temperature sensor, placed in the room.

Claims (8)

  1) Device for providing thermal regulation, in a room or a dwelling, by the wall walls, characterized in that it comprises at least one cavity (4), positioned on the periphery of this room, traversed by a coolant , responsible for diffusing heat or coolness through the partition corresponding to the room to be heated or refreshed.   2) Device according to claim 1, characterized in that this cavity (4) is embodied by a space created between two layers of materials constituting the wall wall.   3) Device according to claim 1, characterized in that this cavity (4) has no orifice communicating with the room to be heated or cooled.   4) Device according to claim 1, characterized in that the cavity (4) is insulated from the outside by a thermal insulator (2), covered with a protection (3) also serving to ensure the external appearance of the room or of the dwelling.   5) Device according to the preceding claims, characterized in that the cavity 15 (4) is traversed by a coolant, fed by a heat source or cold, integrated or not.   6) Device according to claim 4, characterized in that at least one orifice of the cavity (4) communicates with the source of heat or cold, if it is not integrated.   7) Device according to claim 4, characterized in that, each cavity (4) 20 is a source of heat or cold, isolated from the general installation, by a solenoid valve or relay, controlled by a temperature sensor, placed in the room to be air conditioned.   8) Device according to the preceding claims, characterized in that it can be used also in floors, ceilings, internal partitions, if the need is felt.