WO2005031217A1 - Heating and air-conditioning device - Google Patents

Abstract

The invention relates to a device which can be used alternatively to heat and air-condition a space, such as a residential, working or storage premises or room or any other enclosed area. The inventive device consists of: a heating unit (1) comprising a closed firebox (2) and an air circuit which is used to release the calories produced by said closed firebox (2); and an optionally-reversible air-conditioning unit comprising at least two exchangers including an inner exchanger which is placed in an inner air circuit that communicates with the exterior by means of the aforementioned calorie-releasing air circuit in order to diffuse the air from inside the device externally. In addition, at least one of the exchangers is placed upstream and, preferably, at the outlet of the air circuit which is connected to the closed firebox (2). In this way, at least one air flow can be obtained at a suitable temperature and cooled if necessary, e.g. during hot periods, and additional calories or frigories can be permanently or occasionally supplied to the closed heating firebox, e.g. during cold periods.

Description

 HEATING AND AIR CONDITIONING APPARATUS

The present invention relates to an apparatus for alternately providing heating and cooling of a volume, such as a room or a living room, working or storage or any other closed place. Particularly, the invention relates to a heating device formed by a closed hearth associated with an air conditioning unit ensuring by the relief of the closed hearth for the heating function and by the modulation and dosage of the input of the air-conditioning unit in both heated and cooled air, an exceptional consistency of the indoor temperature to the desired set-point to ensure superior comfort through optimal climate conditions. The invention also relates to an apparatus that can be built or installed around a closed hearth heating unit, for example of the chimney type or tiled stove or other stove. This unit will be referred to here as it is mounted on site. The use of closed or open fireplaces, or tiled stoves to provide primary or supplementary heating of living quarters, especially individual ones, has been renewed, for various economic and social reasons. aesthetic. This type of installation is often associated with a certain idea of quality of life and comfort. It is the same air conditioning facilities, which after being reserved for mainly professional uses, now arouse the enthusiasm of the general public. Conventionally, the air conditioning of living quarters or other outside periods of heating requires a transfer of heat between the volume to be air-conditioned and outside or another area. Known installations comprise an inner assembly, consisting of an evaporator / exchanger, a compressor, and an expander or capillary, and an outer assembly consisting of a condenser / exchanger. Heat transfer is achieved by successive changes of state of a refrigerant fluid, the evaporation of which is accompanied by heat absorption and condensation of heat generation. The evaporator / exchanger allows the fluid to vaporize by absorbing heat from the environment, which is returned to the outside by the condenser / exchanger when the fluid condenses. Between these two elements, the compressor ensures the circulation of the fluid while increasing its pressure and its temperature, while the regulator lowers its pressure to allow its evaporation at low temperature. The looping repetition of these functions ensures the air conditioning of the room. It is therefore necessary to provide two devices and therefore two completely separate facilities to ensure, on the one hand the heating function as main or complementary, and on the other hand the air conditioning function outside the heating periods. There are certainly so-called reversible air conditioners that offer a heating function. However, this type of installation may possibly be used to provide additional heat energy but it will not provide satisfactory heating of large volumes. In addition, it loses much of its effectiveness when the outside temperature fall below a certain threshold, the returns of reversible air conditioners being particularly low. To overcome these disadvantages, some reversible air conditioners have additional resistances in interior assemblies, which allows to provide additional heating even when the outside temperature is particularly low. It is clear, however, that these solutions remain complex, and therefore expensive, and that they imply in any case important implementation works. It is therefore interesting to be able to combine the heating and cooling functions in the context of a single installation, to heat the room or the room and then to ventilate it outside the heating period. An installation of this type is described in document FR 2 814 227, which relates to a heating installation comprising a heating boiler and a circuit for circulating water through radiators, a cold generator being arranged in the vicinity of the boiler. . A heat exchanger makes it possible to transfer to the water circulating in the water circulation circuit the frigories that are generated by the cold generator, and thus provide air conditioning. This functional duality, which is based on the use of the water circulation circuit of the existing central heating plant for chilled water, is not, however, fully satisfactory since it involves a significant change in the water supply. heating system, to which must be associated a number of new elements to ensure the air conditioning function. Furthermore, this solution can be implemented only in the case where the heating function is performed through a central heating installation, and is not transposable to traditional type of heating, such as a fireplace or stove. Document US 2001/0042 610 A10 describes an installation in which a fireplace is connected to a heat exchanger which is itself connected to an outside air intake. The purpose of this installation is very different from that of the present invention, insofar as it is only a question here of heating outside air by using the heat released by the combustion inside the furnace, so that improve the performance of the heating system. The document US Pat. No. 6,149,066 also describes an installation intended to allow the heating of outside air by using the energy dissipated by a heater, again in order to improve the efficiency of the installation. JP 200249367 discloses an air conditioning apparatus having a refrigeration circuit coupled to a gas burner, to allow, if necessary, to heat up the cooled air diffused by the refrigeration circuit. The inventions mentioned above have only the sole purpose of regulating the temperature of the air diffused through an air conditioning installation, and not to ensure a heating function independently of the air conditioning function or benefiting heat of the condenser as a contribution of calories. The present invention aims to overcome the disadvantages mentioned above by providing an apparatus and an installation combining the functions of heating and air conditioning. The installation and, above all, the appliance do not require any major structural modifications of rooms or premises or work that is difficult to adapt. More specifically, the invention exploits the evacuation and distribution of hot air by the rise ducts and distribution of hot air of a heating unit. Advantageously, a connection is created, a coupling or a combination between these hot air ducts and an air conditioning unit to thereby achieve an air distribution at appropriate temperature refreshed if necessary in all targeted volumes. The invention will be better understood through the description given below of several possible variants of embodiment, and with reference to the appended figures in which: FIG. 1 is a sectional view illustrating a first embodiment of the installation according to the present invention, implementing a closed fireplace and an air conditioning unit located under the slab receiving the heating unit; - Figure 2 is a sectional view of the installation according to a second embodiment, in which the heating unit is a tiled stove, Figure 3 is a sectional view illustrating a third embodiment of the installation according to the present invention, wherein the air conditioning unit is directly integrated with the heating unit. - Figure 4 is a schematic longitudinal sectional view generally showing a compact device according to the invention ready to be installed or installed. The present invention proceeds from the general inventive concept which consists in placing, preferably downstream of the air flow circuit for the evacuation of the calories produced by a closed combustion hearth, or at the birth thereof, or in a ventilation circuit. previous, at least one heat exchanger of an air conditioning unit or a heat pump comprising at least two heat exchangers, in order to produce at least one flow of air at a suitable temperature, if necessary cooled, especially during periods of hot weather and to bring continuously or occasionally additional calories or frigories to the closed fireplace, especially in cold and cool weather. The apparatus described below can be manufactured industrially in series and is commercially ready to install or install or can be built on site from existing elements or components such as a closed fireplace or stove. Figure 1 shows a first embodiment according to which, the heating and air conditioning apparatus according to the present invention is formed on site in the room or room. According to this embodiment, a closed hearth chimney located in the room or space to be heated or ventilated is associated with at least one exchanger of an air conditioning unit, a part of which may be arranged outside the room or local for example in the cellar of the house or building. The heating unit 1 may consist of a conventional chimney, which is composed of a closed hearth 2 mounted on a tablet 3 itself disposed on a base 4 resting on the slab 5 of the room or room, l set that can be semi recessed in a box 16 masonry. The closed hearth 2 is surrounded by a jamb 6 surmounted by a hood 8 forming the upper part of the chimney. A decorative beam 7 may be interposed between the base of the hood 8 and the jamb 6. The closed hearth 2 integrates a fairing 17 receiving in its upper part at least one, but preferably several risers and then for evacuation of the heated air 10, for example two, to ensure the rise of the air heating towards the upper ends which open out of the hood 8 through exit grilles 9. For this purpose, the duct or ducts 10 preferably have a bent shape, the angle in the bent portion 15 of said ducts being a function of the inclination of the side walls of the hood 8. In a conventional mode of operation of a chimney of this type, the closed hearth 2 is fed from the front with solid fuel, usually wood, and the hot air thus produced is conveyed through the hood 8 and discharged through the exhaust ducts 10 the hot air and diffusing it through the grids 9 to warm the room or room and possibly other rooms. According to the example shown, the air conditioning unit, which may be of the reversible type, comprises an external heat exchanger unit connected to an indoor heat exchanger unit 21 by a known type of duct 22. The external heat exchanger unit 20 is arranged outside. of the house or building to be equipped and the inner heat exchanger block 21 is preferably placed under the closed firebox 2 and in the example shown in the cellar, under the slab 5 and in correspondence with the chimney placed in the room located above. For this purpose, the inner heat exchanger block 21 will be mounted on a support 23 itself fixed to the ceiling. By arranging the inner heat exchanger block 21 on a support directly fixed to the ceiling, the distance separating it from the chimney 1 is reduced and it is thus possible to greatly limit the losses and the consumption. The inner heat exchanger block 21 is connected to a flexible sheath 24, the opposite end of which opens at the bottom of the box 16 made of masonry, for ensure the return of warmed air to the room. The cooled air will be diffused into the room by means of one, two or more flexible ducts 25, preferably thermally insulated, connected to the upper part of the inner exchanger block 21 and opening into the chimney 1a. In this first embodiment and implementation of the present invention, the outlet ducts 25 of the indoor heat exchanger unit 21 of the air conditioning unit are connected to the exhaust ducts 10 located on the top of the hearth 2 of the chimney. the, by means of a Y-shaped connector 30 which will be preferably disposed at the elbow 15 of one or conduits 10 of the chimney. Thanks to the connection thermally insulated sheaths which is thus carried out between the inner block 21 of the air conditioning unit and the hot air ducts at the outlet of the hearth 2 of the chimney l ', it creates a distribution of air cooled in all the planned volumes and this by the sheaths of this fireplace. There is thus a particularly compact dual function installation, since it will be possible to pass the ventilation ducts 25 connected to the indoor exchanger block 21 of the air conditioner on either side of the hearth 2 of the chimney l, and therefore to integrate them in the chimney, to thus realize a completely invisible installation in the room of living or the room. The air conditioning unit can thus be activated outside the heating periods, by injecting the air cooled by the evaporator of the air conditioner into the hot air outlet ducts of the chimney, this operation being able to be carried out manually or by means of an automatic valve (not shown) associated with the connectors 30 in Y. It will be possible also operate jointly, especially in the case of a reversible air conditioning unit. The installation according to the present invention also has the advantage of greatly reducing the sound volume of the air conditioner, and therefore the inconvenience caused to the occupants of the dwelling or room. Similarly, since the air conditioning uses the same outlet as the warm air, the right-of-way work in the dwelling is reduced and it is not necessary to provide a separate and independent distribution system for the conditioned air. hence a significant saving. The implementation of the invention with respect to this first embodiment involving a chimney as a heating unit can be the object of other applications. Thus, according to a second embodiment of the heating system according to the present invention, the air conditioner is connected to the heating unit at an installation in which the chimney is replaced by a tiled stove. According to this variant embodiment, the installation will comprise an air conditioning unit constituted as previously of an outer block 20 and an inner block 21, which is as previously mounted on a support 23 fixed to the ceiling under the slab 5, in correspondence of the heating unit 1, which here consists of a tiled stove 40 or decorative stones disposed in the room or room. The tiled stove 40 is placed on a base 41 itself placed on the slab 5 of the room. The assembly may also comprise a wood boiler 42 arranged in the cellar, under the slab 5, and comprising a loading door 43 and a heat recovery unit 44. An air return duct 45 passing on the side of the boiler 42 opens at the base of the base 41 of the stove 40. The heat emitted by the boiler 42 rises and is recovered in two ducts 10 'from two openings 46 formed in the portion of the ceiling situated above the boiler and whose opposite ends open into the stove 40 after having 5. The evacuation and diffusion of the hot air are provided through two outlet orifices 47 having unrepresented adjustable grids, arranged on either side in the upper part of each of the side walls of the duct. stove 40, just below its earthenware ceiling 48. The indoor heat exchanger block 21 of the air conditioning unit is connected to one or several ducts 10 'connecting the boiler 42 and the stove 40 via two ducts. soft 25 '. The junction between the duct or ducts 10 'and the flexible ducts 25' is effected as in the preceding variant by means of Y-shaped connectors 30 '. It is thus possible in the same way to create a distribution of air cooled in the room when the heating system is not in operation, thanks to the coupling of the ventilation ducts of the air conditioner and the hot air rising ducts of the heating unit. FIG. 3 represents a third embodiment of a heating and air-conditioning installation according to the invention, in which the air-conditioning unit is directly integrated into the heating unit thus forming an entirely constituted apparatus, that is to say say a complete functional unit. According to this variant, the air conditioning unit is disposed directly on the slab 5 and under the fireplace 2 of a heating unit 1, which in the example shown consists of a closed fireplace. According to this variant embodiment, the cooled or tempered air generated at the outlet of the indoor exchanger 21 of the air conditioner passes directly to the sides of the heating unit 1 and the user can thus control the diffusion, depending on the period or cold, cooled, temperate or hot air in all room or room volumes and adjoining rooms, without the need for additional arrangements or grilles in relation classic fireplace heating with heated air distribution. Cold air rises along the firebox 2, in

1 space between the outer wall and the box of the heating unit, to join the hot air rise ducts 10 connected to the upper part of the fireplace 2. This embodiment is even simpler than the previous two , to the extent that it removes the need to intervene on both sides of the slab of the room or the room to be equipped. Therefore, it is no longer necessary to provide work or connection means between the chimney function and the air conditioning function. Many variants of the invention can be imagined both in the shape and nature of the closed hearth in those of the air conditioning unit and its organs and means for coupling aerauliquement one to the other. This is also the case of the external exchanger of the air conditioning unit and its compressor which can be integrated into the base of the apparatus according to the invention. It can even use air conditioning units without compressor. Advantageously, and whatever the embodiment variant envisaged, the installation may comprise and will preferably comprise a reversible type of air-conditioning unit, which will provide the additional advantage of allowing the volume to be heated without having to activate the heating unit, or by activating it, to provide additional heat if necessary. It will thus be possible, in a manner that is both simple and rapid, to ensure a minimum rise in the temperature of the volume, for example in the event of a moderate fall in the ambient temperature not requiring start-up or restarting of the unit. heating and above all ensure by regulating means 49 a constant temperature of the rooms or premises and this regardless of the operating speed and the heating rate of the fireplace closed 2. For this purpose, the control means 49 can regulate between the temperature of the air heated by the hearth and that of the internal exchanger or exchangers in the case of the mixed regime that is to say the one in which the two units operate simultaneously, because one can then have d an occasional dosable supplement of calorific power brought by the exchanger of the reversible air conditioning unit then operating in condenser. These regulating means can act in particular on the ventilation unit blowing on the inner exchanger (s) 21 or by suction in order to bring a variability of flow rate to the complementary air flow coming from the one or more of these exchangers. These regulating means are connected to different temperature sensors placed at the appropriate places and in particular one or more sensors 49 'of temperature of the room or room. Of course, these control means and these sensors preferably apply to all the variants. and modes of execution and one can use those already existing on the heating unit. The invention also relates to a device manufactured in large series in factory or workshop and installed as new equipment in the room or the desired room. According to one embodiment, the apparatus according to the invention is made in a compact form in which all the members and elements constituting this new functional unit are integrated in the same mechanical assembly welded or otherwise assembled. This set is compact and ready to be installed and installed in a suitable location or 1 'integrating into a housing for all necessary connections including aeraulic. An apparatus of this type will now be described by way of example with reference to FIG. 4, in which it is diagrammatically shown in vertical longitudinal section. This device is in the form of a set 50 ready to be installed and installed forming a metal box, all bodied by a soundproofing and thermally insulating cladding. It comprises in the central part a heating unit 51 closed hearth 52 for example solid fuel, including wood. The closed hearth 52 preferably has a glass door not visible on the fireplace access cut for its fueling and for the vision of the flames. The closed hearth 52 is made in this example in the form of a metal box 53 continuing upwards by a drain or smoke box 54 opening outwardly through a central outlet nozzle 55 for its connection to the duct chimney. The upper part is surrounded by a recuperator 56 forming an upper recovery chamber opening to the outside for example by the upper wall of the box. All the organs of the apparatus are contained in the box 50 which continues upwards and terminates in an upper wall 57 through which the central outlet nozzle 55 passes and a plurality of evacuation nozzles such as 58 of the air at the desired temperature for connection to ducts for example flexible and insulated, transport and distribution of air leaving the device. The back of the closed hearth 52 rests directly on the rear wall of the box 50 or away from a recovery interval along which warms the air coming from below. All the walls of the box, rear, side 59 and 60, and upper 57 of the box 50 and its front wall above the door are suitably thermally insulated to prevent any loss of heat and conversely any heat input into the heating system. summer or intermediate. The closed hearth 52 has in the lower part its own combustion air inlet, for example in the form of a register that can adjustably adjust the combustion air, and in the upper part the duct or smoke box 54 with, preferably, the recuperator heat 56. There is a gap between the walls 53 of the closed hearth 52 and the insulating ones of the outer box forming an inner peripheral chamber 61 for recovering calories. This recovery chamber 61 is growing in height. The air rises along the latter by heating in contact with the hot walls of the closed hearth 52. The recovery chamber 61 extends to the smoke box 54 to recover and evacuate the calories radiated by all the heated parts by the heat of the hearth. The flue gas box 54 will preferably have its own internal or external recuperator, for example the recuperator 56 which will open in the upper part of the inner peripheral chamber for recovery. 61 or in another way to be able to be evacuated by the common evacuation nozzles 58 serving as an output to the peripheral recovery chamber 61. The assembly 50 ends downwards by a lower technical block 62 closing at least one exchanger , but preferably two heat exchangers 63 and 64, of the same air conditioning unit in a receiving interior volume 65 formed in the compartment of the lower part of the technical unit 62. The latter forms a mechanical support 66 for the assembly 50 of the device by which it rests on the ground by means of a support plate 67. This is the inner exchanger of the air conditioning unit can become evaporator or condenser in the case of a reversible air conditioning unit . It may be, as in the example shown in FIG. 4, two parallel exchanger elements 63 and 64 of the same air-conditioning unit both fulfilling the same function of either evaporators or condensers in the case reversibility or constituting the two conventional exchangers one evaporator and the other condenser with for example two evacuation routes, suitably separated by a valve or other means. This lower technical block 62 is also suitably isolated acoustically and thermally and has on each of its lateral faces to the right of its respective exchanger an air inlet each protected by a filter. The exchanger or exchangers 63, 64 are for example each placed on one side of the interior volume 65. A ventilation unit 68, for example an air-flow unit operating in suction, is disposed above the interior volume 65. it emerges in the interior volume 65 and its outlet (s) make it possible to establish a flow distributed from a central birth to walk flat along a lower distribution compartment 69 and feeding uniformly and from below the recovery chamber 61 with air suitably conditioned in temperature from control means 70. These are connected to at least one sensor 71 of the ambient air temperature in the room or room and at least one temperature sensor 72 of the air in the recovery chamber at the focal point and a temperature sensor 73 of the outlet air of the apparatus. Optionally, if necessary the regulation may also include a temperature sensor 74 of the air output of the lower technical block 62. The information of the sensors are taken into account and managed by conventional means to control the operation of the group of ventilation and that of the air conditioning unit. The exchanger or exchangers placed in the interior volume 65 are connected to an air conditioning unit with or without a compressor. All the units of this air conditioning unit can be grouped together and placed in the interior volume compartment 65 including the compressor if it exists. Of course, according to different variants, certain components including the second exchanger and the compressor can be placed outside the device or in another medium than air or buried or otherwise disposed. The outlet of the interior volume 65 includes the ventilation unit 68 which is responsible for establishing an adjustable flow of airflow for example by drawing the outside air through at least one or through the two heat exchangers 63 and 64 each placed in front of a air inlet protected by a filter. For ease of understanding, the air path is represented by arrows in FIG. 4 from its entry into the compartment of the lower volume 66 to its outlet through the nozzles 58. Thus, the air circuit continues to the base of the hearth where it is directed directly to the peripheral recovery chamber 61 into which it enters and from which it is discharged through the outlet duct or ducts. The fresh, temperate or hot air transported by the exhaust ducts is distributed in the room or room and out at the desired temperature by mouths provided with grilles, but can be brought by other ducts in other rooms adjacent or more distant in which it diffuses through adapted mouths. These sheaths can also be grafted onto an existing ventilation network or to be built in the house or building. The volume 66 of the lower technical unit may also contain the compressor of the air conditioning unit and even, thanks to a sufficient thermal insulation and one or more flow control valves, the other exchanger acting as an evaporator or condenser as appropriate for a reversible air conditioning unit. The temperature of the outgoing air of the lower volume 66 can be measured by a sensor 74 and then compared to the temperature of the air outside the hearth 2 by the sensor 72 or that of the fumes or any other reflecting the appearance of heated to establish a room air temperature regulation of the room or room according to the set temperature given by the occupant (s) by acting on the extra calories or frigories provided by the air conditioning unit . There are two ways to vary this outlet temperature of the lower volume: on the one hand the speed of the ventilation unit and on the other hand the operating point of the air conditioning unit. As will be seen below this possibility will intervene in the case of a mixed regime and in case of use of the air conditioning unit in the closed hearth that is to say when the firepower will be reduced. The invention offers this possibility to better regulate the temperature of the room, knowing that this temperature from the only wood heating is quite difficult to maintain constant. This advantage brings and confers unequaled comfort in the framework of the fireplace wood heating. The operation of the device is particularly simple. It will be briefly described below. In winter, or in the heating season, in the case of a reversible air conditioning unit, we take advantage of the additional heat that provides the condenser. This complement is added in a controlled way by the means of regulation, the calories generated by the home. In addition, it allows a faster rise in heat and in some cases to aim for a lower heat output for the home. In the summer or hot weather season, the heat exchanger of the reversible air conditioning unit operates as an evaporator and the closed hearth does. works more or very occasionally. This evaporator provides a stream of cooled air that rises along the fireplace, to emerge in the upper part by the network of ducts. In offseason two main cases are to be considered. It's still cool or cool outside and

The heat exchanger is used as a condenser providing metered complementary calories or even cold rooms in the home that can operate at reduced speed. Or, it is cooler, but not hot enough to want fresh air, but warm or slightly warm air in the morning and evening, while during the day it can get hot already. The invention makes it possible to cover all these needs. During the day, it is enough to operate the exchanger of the air conditioning unit in evaporator to cool the air or to temper it compared to that which produces the fireplace at reduced pace. In the evening and in the morning, it is sufficient to operate the exchanger of the air conditioning unit in a condenser to produce air at a suitable temperature without the need to light the fireplace. As can be seen, this device is useful in all cases to bring the desired atmosphere comfort. It will provide according to the desires or needs, air at the ideal room temperature and this from a single device located inside the room or room. The apparatus and the heating and air-conditioning system according to the present invention have been described above through several variant embodiments which are not however limiting. The solution proposed by the invention is easily transferable to an installation in which a wood boiler is integrated into a tiled stove, the heating unit is then no longer dissociated. The stove will then have on the front a loading door to feed the wood boiler and a hole located on the front for hot air outlet, and the rear part of a heat recovery. The connection between the air conditioning unit located in the cellar and the stove will be achieved by means of two flexible ducts running at the rear of the stove and opening into an upper box with an opening for the evacuation of cold air. Similarly, the variants described refer to the use of wood as fuel but it must be understood that all Another type of compatible fuel may be used without this calling into question the general operating principles of the invention. If the air conditioning unit is a compressor, it can be placed inside the installation or the appliance. Of course, air conditioning units without compressor are also targeted. Regarding the other exchanger, it can be placed outside or inside the room or the room or house or building in which the heating unit is located. The exchanger (s) external to the apparatus are placed in the most appropriate locations or environments, indoors, outdoors, in air, in water, buried or otherwise arranged. It is also possible to envisage an air conditioning unit with several external exchangers placed in different environments, for example in the air for one and in the water for the other. The air conditioning unit may be of the heat pump type or any type of heat energy transfer means with one or more exchangers in the air, in the water or buried.

Claims

1. Combined heating and air-conditioning apparatus for living quarters and rooms comprising a heating unit (1) with a closed hearth (2) and an air-flow circuit for evacuating the calories produced by the closed hearth (2), characterized in that it is formed on the one hand of the heating unit (1) closed hearth (2) comprising the ventilation circuit aeration calorie for the diffusion outside the apparatus of the air heated by the closed hearth (2) and possibly its output assembly of combustion gases and fumes and secondly an air conditioning unit comprising at least two exchangers, at least one of which, said internal exchanger, is placed in a ventilation circuit internal communicating externally by said ventilation air caloric circuit closed hearth for the diffusion of air from the inside to the outside of the device.

2. Apparatus according to claim 1 characterized in that at least one of the exchangers is placed downstream and preferably at the birth of the aeraulic circuit associated with the closed hearth (2).

3. Apparatus according to claim 1 characterized in that the air conditioning unit is reversible.

4. Apparatus according to claim 1 or 2 or 3 characterized in that it comprises the two exchangers of an air conditioning unit and a ventilation unit bringing the air flow from the air conditioning unit into the aeraulic circuit of the heating unit (1) with closed hearth (2).

5. Apparatus according to claim 1 or 2 or 3 characterized in that it comprises all the members constituting an air conditioning unit and a ventilation unit bringing the air flow from the air conditioning unit into the air flow of the unit heating system (1) with closed hearth (2).

Apparatus according to any one of the preceding claims, characterized in that the air conditioning unit comprises an operating regulation according to the pace. constant output air.

7. Apparatus according to any one of the preceding claims 1 to 4 characterized in that the air conditioning unit comprises an operating control according to the temperature of the room or the room in which the appliance is located to keep a constant temperature of the outlet air.

8. Apparatus according to one of the preceding claims 6 or 7 characterized in that the operating regulation of the air conditioning unit acts on the fan unit mode.

9. Apparatus according to one of the preceding claims 6 or 7 or 8 characterized in that the operating regulation of the air conditioning unit acts on the speed of the ventilation unit and on the operating point of the air conditioning unit.

10. Apparatus according to any one of claims 6 to 9 characterized in that the closed hearth has its own regulation of heating rate associated with the regulation of the air conditioning unit.

11. Mixed heating and air conditioning unit according to claim 1 characterized in that the heating unit (1) closed hearth (2) has one or more discharge ducts (10).

Heating and air-conditioning apparatus according to claim 1 or 18, characterized in that at least one of the exhaust ducts (10) of the heating unit (1) is connected to one of the at least two heat exchangers. of the air conditioning unit.

13. Heating apparatus according to any one of the preceding claims, characterized in that the inner exchanger of the air conditioning unit is placed under the closed hearth (2).

14. Heating and air conditioning apparatus according to any one of the preceding claims, characterized in that the air conditioning unit is of the reversible type.

Heating and air-conditioning apparatus according to any one of the preceding claims, characterized in that the heating unit (1) is a closed fireplace.

16. Apparatus according to any preceding claim characterized in that the heating unit (1) is a solid fuel stove.

Heating and air-conditioning unit according to one of claims 1 and 10 to 14, characterized in that the heating unit (1) is a tiled stove (40).

Heating and air-conditioning apparatus according to one of claims 1 and 10 to 14, characterized in that the heating unit (1) is a decorative stone stove.

19. Heating and air conditioning apparatus according to the preceding claim, characterized in that the heating unit (1) is a stove earthenware (40) or decorative stones associated with a boiler (42).

Heating and air-conditioning apparatus according to one of the preceding claims, characterized in that the connection between the exhaust ducts (10) for the circulation of the heated air and the internal exchanger (21) of the air conditioning unit is performed by means of two flexible ducts (25).

21. Heating and air conditioning apparatus according to any one of the preceding claims, characterized in that at least one of the exhaust ducts (10) forms a bend (15).

Heating and air-conditioning apparatus according to Claim 15, characterized in that the flexible connecting ducts (25) of the indoor exchanger (21) of the air conditioning unit are integrated in the heating unit (1). .

Heating and air-conditioning apparatus according to Claim 20 or 21, characterized in that the connection between the discharge ducts (10) of the heating unit (1) and the flexible ducts (25) extending from the indoor exchanger (21) of the air conditioning unit is realized by means of a fitting (30) Y.

Heating and air-conditioning apparatus according to Claim 23, characterized in that the Y-connection (30) is arranged at the bend (15) of the exhaust ducts (10) of the heating unit (1). .

25. Heating and air-conditioning apparatus according to one of the preceding claims, characterized in that the inner exchanger (21) of the air conditioning unit is mounted on a support (23) directly fixed to the ceiling.

26. Apparatus according to any one of the preceding claims characterized in that the other exchanger of the air conditioning unit is outside the room or room. 21. Apparatus according to any one of the preceding claims from 1 to 25, characterized in that the other heat exchanger of the air conditioning unit is placed inside the room or the room 28. Apparatus according to any one of the claims previous 1 to 25 characterized in that the other exchanger of the air conditioning unit is located inside the apparatus. 29. Apparatus according to any preceding claim characterized in that the other exchanger of the air conditioning unit is an exchanger immersed in another medium. 30. Apparatus according to any preceding claim characterized in that the other exchanger of the air conditioning unit is a buried exchanger. 31. Apparatus according to any preceding claim from 1 to 18 characterized in that the other exchanger of the air conditioning unit is a heat exchanger immersed in water. 32. Apparatus according to any preceding claim characterized in that the other exchanger of the air conditioning unit is that of a heat pump. 33. Apparatus according to any preceding claim characterized in that the air conditioning unit is a heat pump. 34. Apparatus according to the preceding claim characterized in that the compressor of the air conditioning unit or that of the heat pump is integrated or incorporated in 1 device. 35. Installation according to any one of the preceding claims, characterized in that the heating unit (1) closed hearth (2) has several exhaust ducts (10) and in that at least one of the ducts of outlet (10) is connected to at least one of the at least two exchangers of the air-conditioning unit. 36. Installation according to any one of the preceding claims characterized in that one carries out a distribution and diffusion of air refreshed by the coupling of the exhaust ducts. the air conditioning unit with those of the heating unit.