CA2539263A1 - 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
Za present invention relates to an apparatus to alternately provide heating and air conditioning of a volume, such as a room or a room living, working or storage or any other closed place.
In particular, the invention relates to a heater formed of a closed fireplace associated an air conditioning unit ensuring the succession of the closed hearth for the heating function and by the modulation and dosage of the input of the unit of air conditioning both in warm air and in air refreshed, an exceptional constancy of the inside temperature at the set point desired to ensure superior comfort through d, 0 optimal climatic environment.
The invention also relates to a device can be built or installed around a unit closed hearth for example chimney type or tiled stove or other stove. We will call after this device installation because it is mounted on square.
The use of closed fireplaces or open, or tiled stoves to ensure the primary or supplementary heating of premises particularly individual dwellings, has experienced a revival of interest, for various economic reasons or aesthetic. This type of installation is often associated to some idea of quality of life and comfort. he the same is true of air-conditioning installations, which after having been reserved for essentially professionals, are now generating enthusiasm for General public.

2 Conventionally, the air conditioning of living quarters or other premises outside periods of heating assumes a heat transfer between the volume to air-condition and outside or another area. The known installations comprise an inner assembly, composed of an evaporator / exchanger, a compressor, and a regulator or capillary, and a set exterior consisting of a condenser / exchanger. The heat transfer is achieved through the changes successive statuses of a refrigerant, whose Evaporation is accompanied by heat absorption and the condensation of a release of heat.
The evaporator / exchanger allows the fluid to vaporize by absorbing the heat of the environment, which is restored to the outside by the condenser / exchanger when the fluid condenses.
Between these two elements, the compressor ensures the fluid circulation 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 premises. It is therefore necessary to provide two devices and therefore two completely separate installations to ensure share the main heating function or complementary, and secondly the function of air conditioning outside the heating periods.
There are certainly so-called air conditioners reversible which offer a heating function.
However, this type of installation may possibly serve to bring extra heat energy but it will not ensure satisfactory the heating of large volumes dimensions. Moreover, he loses much of its effectiveness when the outside temperature

3 fall below a certain threshold, the yields of reversible air conditioners being particularly weak.
To overcome these disadvantages, some reversible air conditioners include resistors additional quantities in inner sets, which allows for additional heating even when the outside temperature is particularly low. It is clear, however, that these solutions remain complex, therefore expensive, and that they suppose anyway important installation work.
It is therefore interesting to be able to couple heating and cooling functions in the framework of a single installation, allowing to heat the room or the room to ensure ventilation out of heating period.
An installation of this type is described in FR 2 814 227, which relates to an installation heater comprising a heating boiler and a circuit of circulation of water through radiators, a cold generator being disposed at neighborhood of the boiler.
A heat exchanger allows to transfer to the water circulating in the water circulation circuit the frigories that are generated by the generator of cold, and thus ensure air conditioning. This functional duality, which is based on the use of the water circulation circuit of the installation of existing central heating for chilled water, however, is not fully satisfactory in the to the extent that it involves a significant change in the heating system, which must be associate a number of new elements for ensure the air conditioning function. Otherwise, this solution can only be implemented in the where the heating function is performed through of a central heating installation, and is not

4 transferable to traditional type heaters, such as a fireplace or stove.
Document US 2001/0092 610 A10 describes a installation in which a fireplace is connected to a heat exchanger itself connected to an air intake exterior.
The purpose of this installation is very different from that of the present invention, in the extent that it is only a question of warming l0 external air using the heat released by the combustion inside the fireplace, thus improving the performance of the heating installation. The US 6,149,066 also discloses an installation intended to allow the heating of outside air using the energy dissipated by a device of heating, also to improve efficiency of the installation.
JP 200299367 discloses a device air conditioning system comprising a circuit refrigeration coupled with a gas burner in order to allow if necessary to warm the cooled air diffused by the refrigeration circuit.
The inventions mentioned above have only for the sole purpose of regulating the temperature of the air diffused through a packaging facility of air, and not to provide a heating function regardless of the air conditioning function or enjoying the heat of the condenser as a calorie intake.
The present invention aims to remedy the above mentioned disadvantages by proposing a device and an installation combining the functions of heating and air conditioning. The installation and especially the device do not require modifications structural components of the rooms or premises or hard work of adaptation.

More precisely, the invention exploits the evacuation and distribution of hot air by ducts for rising and distributing hot air a heating unit. Advantageously, one

5 creates a link, a coupling or a combination between these ducts of hot air and an air conditioning unit to thus achieve an air distribution to adapted temperature refreshed if necessary in all the targeted volumes.
The invention will be better understood through the description given below of several variants possible, and with reference to the figures annexed in which.
- Figure 1 is a sectional view illustrating a first embodiment of the installation according to the present invention, a closed fireplace and a air conditioning located under the slab receiving the unit of heater, FIG. 2 is a sectional view of the installation according to a second embodiment, in which the heating unit is a stove made of earthenware, - Figure 3 is a sectional view illustrating a third embodiment of the installation according to the present invention, in which unit of air conditioning is directly integrated into the heating unit, FIG. 4 is a diagrammatic view in longitudinal section showing a general compact device according to the invention ready to be posed or installed.
The present invention proceeds from the concept general inventive method of placing preferably in downstream of the aeration circuit of calorie evacuation produced by a closed fireplace, or at the birth of it, or in a ventilation circuit

6 preceding, at least one exchanger of a unit of air conditioning or a heat pump comprising at two exchangers, in order to produce at least one air flow at a suitable temperature, if necessary cooled, especially in hot weather and to bring in permanence or occasionally calories or additional frigories at the closed fireplace, especially in cool and cold weather.
The device described below can be industrially built integrally in series and commercially available ready to install or install or may be formed on the spot from elements or of existing organs for example a closed hearth of fireplace or stove.
1S represents a first mode of realization that, the heater and air conditioning according to the present invention is constituted on the spot in the room or the room.
According to this embodiment, we associate a closed fireplace located in the room or room to heat or ventilate at least one exchanger of a air conditioning unit some of which can be arranged outside the room or room by example in the cellar of the house or building.
The heating unit 1 may consist of a fireplace 1 'classic, which consists of a fireplace closed 2 mounted on a tablet 3 itself arranged on a base 4 resting on the slab 5 of the room or local, the whole being able to be semi recessed in a caisson l6 in masonry. Closed hearth 2 is surrounded a jamb 6 surmounted by a hood 8 forming the part top of the chimney 1 '. A decorative beam 7 can be interposed between the base of the hood 8 and the jamb 6.
Closed hearth 2 incorporates a fairing 17 receiving in its upper part at least one, but of preferably several risers and then WO 2005/03121

7 PCT / FR2004 / 002429 evacuation of the heated air 10, for example two, to ensure the rise of warming air towards the upper ends that open out of the hood 8 through exit grilles 9.
For this purpose, the conduit (s) 10 have preferably a bent shape, the angle in the part bent 15 of said ducts being a function of the inclination of the side walls of the hood 8.
In a classic operating mode of a chimney of this type, the closed hearth 2 is fueled from the front in solid fuel, in general wood, and the hot air thus produced is conveyed to through the hood 8 and evacuated through the ducts evacuate 10 the hot air and diffuse it through grids 9 to warm the room or room and possibly other parts.
According to the example shown, the unit of air conditioning which can be of the reversible type, has an outer heat exchanger block 20 connected to a internal exchanger block 21 by a conduit of the type known 22.
The outer heat exchanger block 20 is arranged to the outside of the house or building to be equipped and the inner exchanger block 21 is preferably disposed under the closed firebox 2 and in the example shown in cellar, under the slab 5 and in correspondence of the fireplace placed in the room 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 attached to the ceiling, we reduce the distance separating it from the chimney 1 'and it is possible strongly limit wastage and consumption.
The inner heat exchanger block 21 is connected to a flexible sheath 24 whose opposite end opens in the lower part of the box 16 masonry, for

8 ensure the return of warmed air the room.
Cool air will be aired in the room at means of one, two or more flexible sheaths Preferably thermally insulated, connected to the upper part of the inner heat exchanger block 21 and opening into the chimney 1 '.
In this first embodiment and implementation of the present invention, there is the outlet ducts 25 of the interior exchanger block 21 from the air conditioning unit to the exhaust ducts 10 located on top of the hearth 2 of the chimney 1 ', by means of a Y-shaped fitting 30 which will be arranged preferably at the elbow 15 of one or more ducts 10 of the chimney.
Thanks to the connection by insulated ducts thermally which is thus carried out between the block inside 21 of the air conditioning unit and the ducts of hot air at the outlet of the fireplace 2 of the chimney the, one creates a refreshed air distribution in all the planned volumes and this by the sheaths of this fireplace.
There is thus a double installation particularly compact function, since it will possible to pass the ventilation ducts 25 connected to the interior exchanger block 21 of the air conditioner on both sides of the hearth 2 of the chimney 1 ', and so to integrate them in the chimney, so achieve a totally invisible installation in the room or room.
This will enable the unit of air-conditioning outside the heating periods, in injecting the air refreshed by the evaporator of the air conditioner in hot air outlet ducts the chimney, this operation can be performed manually or thanks to an automatic damper (no represented) associated with the connectors 30 in Y. It will be possible

9 also make them work together, especially in the case of a reversible air conditioning unit.
The installation according to the present invention also has the advantage of greatly decreasing the sound volume of the air conditioner, and therefore the discomfort induced for the occupants of the dwelling or room.
Similarly, since the air-conditioned air uses the same output as the hot air, we decimate the works of hold in the housing and so it is not necessary to provide a distribution system standalone and separate for air conditioning, hence a important economy.
The implementation of the invention in relation to this first embodiment involving a l5 chimney as a heating unit can do the object of other applications.
Thus, according to a second embodiment of the heating system according to this invention, the air conditioner is connected to the heating to an installation in which the chimney is replaced by a tiled stove.
According to this embodiment variant, the installation will include an air conditioning unit constituted as previously of an outer block 20 and of an inner block 21, which is as before mounted on a support 23 fixed to the ceiling under the slab 5, in correspondence of the heating unit 1, which is here consists of a tiled stove 40 or stones decorative arranged in the room or the room. The stove earthenware 40 is placed on a base 41 itself placed on slab 5 of the room.
The set may also include a wood boiler 42 arranged in the cellar, under the slab 5, and having a loading door 43 and a 3 ~ heat recovery 44. A return air duct 45 passing on the side of the boiler 42 leads to the base of the base 41 of the stove 40.

The heat emitted by the boiler 92 rises and is recovered in two ducts 10 'from two 96 openings in the part of the ceiling located above the boiler and whose ends 5 opposite open inside the stove 90 after have crossed the slab 5.
Evacuation and diffusion of hot air are provided through two outlets 97 output having unrepresented adjustable grates,

10 arranged on both sides at the top of each of the side walls of the stove 90, just in below its faience ceiling 48.
The indoor exchanger block 21 of the unit of air conditioning is connected to one or several ducts 10 ' connecting the boiler 42 and the stove 90 by via two flexible sheaths 25 '.
The junction between the conduit (s) 10 'and the flexible sheaths 25 'is made as in the previous variant by means of 30 'shaped fittings from Y.
We can thus in the same way, create a air distribution refreshed in the room when the heating system is not in operation, thanks to the coupling of the ventilation ducts of the air conditioner and hot air rise ducts from the heating unit.
Figure 3 shows a third form of construction of a heating and air conditioning according to the invention, wherein the unit air conditioning is directly integrated into the heating thus forming a device entirely constituted, that is to say a complete functional unit.
According to this variant, the unit of air conditioning is arranged directly on the slab 5 and under the focus 2 of a heating unit 1, which in the example shown consists of a closed hearth.

11 According to this variant embodiment, the air refreshed or tempered, generated at the outlet of the exchanger inside 21 of the air conditioner goes directly on sides of the heating unit 1 and the user can order the diffusion, according to the period or its choice, cold air, refreshed, temperate or hot in all the volumes of the room or room and those without the need to provide for additional arrangements or grids in relation to at a conventional fireplace installation with distribution of heated air.
The cold air rises along the firebox 2, in the space between the outer wall and the box of the heating unit, to join the ducts of 10 hot air rise connected to the upper part of the home 2.
This embodiment is even simpler than the previous two, insofar as it removes the need to intervene on both sides of the slab of the room or room to equip.
As a result, it is no longer necessary to provide for works or means of connection between the chimney function and the air conditioning function.
Many variants of the invention can be imagined both in form and nature closed hearth than in those of the air conditioning and its organs and means enabling them to be coupled aeromagnetically to one another.
This is also true of the heat exchanger outside the air conditioning unit and its compressor that can be integrated into the base of the apparatus according to the invention. We can even use air conditioning units without compressor.
Advantageously, and whatever the envisaged variant, the installation may include and preferably include a unit air-conditioning type, which will provide

12 the added benefit of allowing to heat the volume without having to activate the heating unit, or activating it, bringing warmth complementary if necessary.
It will be possible and one way at a time simple and fast ensure a rise in temperature minimum volume, for example in the event of a moderate fall the ambient temperature does not require a setting en route or restarting the heating unit and, above all, by means of constant temperature of rooms or premises and this regardless of the operating regime and the heating rate of the closed fireplace 2.
For this purpose, the control means 49 can regulate between the temperature of air heated by the fireplace and that of the internal interchanges in the case of the mixed regime that is to say the one in which the two units operate simultaneously, because we can then have an occasional power dosable supplement provided by the heat exchanger of the reversible air conditioning then operating in condenser.
These means of regulation can act especially on the fan group blowing on the or the internal exchangers 21 or by suction so to bring a variability of flow to the flow of air from the exchanger or exchangers.
These regulation means are connected to different temperature sensors placed in places appropriate and in particular one or more sensors 49 'of temperature of 1 room or room Of course, these means of regulation and these sensors apply preferably to all variants and modes of execution and we can use those already existing on the heating unit.

13 The invention also relates to a apparatus built in mass production in factory or workshop and installed as new equipment in the room or the desired room.
According to one of the embodiments, the apparatus according to the invention is made in a compact form in which all the organs and elements constituting this new functional unit are integrated into the same mechanically welded mechanical assembly or otherwise l0 assembled.
This set is compact and ready to install and installed in a suitable location or in integrating it into a dwelling allowing all necessary connections including aeraulic.
Hereinafter will be described by way of example a apparatus of this type with reference to FIG.
which i1 is schematically shown in section vertical longitudinal.
This device is in the form of a set 50 ready to be laid and installed forming a metal casing, the whole bodied by a dressing soundproofing and thermally insulating.
T1 comprises in the central part a unit of heating 51 closed fire 52 for example fuel solid, especially wood. The closed hearth 52 presents preferably a glass door not visible on the cut access to the fireplace for fueling and for the vision of the flames. The closed hearth 52 is realized in this example in the form of a box metal 53 continuing upward through a drain or smoke box 54 opening outwards by a central outlet nozzle 55 for the purpose of connection to the flue.
The upper part, is surrounded by a recuperator 56 forming a superior chamber of recovery leading to the outside for example by the upper wall of the box.

14 All the organs of the apparatus are contained in the box 50 which continues upwards for himself end with an upper wall 57 crossed by the outlet central nozzle 55 and by a plurality of exhaust nozzles such as 58 air to the desired temperature for connection to the gaines for example flexible and isolated, transport and distribution of the air coming out of the device. The back of closed hearth 52 sits directly on the wall back of the box 50 or away from an interval recovery along which rises warming the air coming from below. All the walls of the box, rear, lateral 59 and 60, and upper 57 of the box 50 and its front wall above the door are suitably insulated thermally for avoid any heat loss and conversely any heat input into the summer or intermediate diet.
The closed hearth 52 partially presents lower its own combustion air intake for example in the form of a register admitting in an adjustable manner the combustion air and in the upper part the exhaust or smoke box 54 with preferably the recuperator of heat 56.
There is a gap between the walls 53 of the closed hearth 52 and insulating ones of the outside box forming an inner peripheral chamber of recovering 61 calories. This room recovery 61 develops in height. v'air mounts the along this line by warming up in contact with the walls of the closed fireplace 52. The chamber of recovery 61 extends to the smoke box 54 to recover and evacuate the calories radiated by all the parts heated by the heat of the hearth.
The smoke box 54 will preferably have its own internal or external recuperator for example the recuperator 56 which will lead to the upper part of the inner peripheral chamber of recovery 61 or some other way to be evacuated by the common evacuation nozzles 58 serving as an outlet for the peripheral recovery chamber 61.
The set 50 ends down by a S inner block 62 closing at least one exchanger, but preferably two exchangers 63 and 64, of the same unit of climatization in a volume interior receiver 65 arranged in the compartment of the lower part of the technical block 62. The latter 10 forms a mechanical support 66 for the assembly 50 of the device by which it rests on the ground by means a support plate 67.
This is the indoor exchanger of the unit air conditioning that can become an evaporator or

15 condenser in the case of a cooling unit reversible. It can be, as in the example represented in FIG. 4, of the two elements 63 and 64 parallel heat exchangers of the same unit of air conditioning both filling the same function of either evaporators or condensers in the case of reversibility or constituting both conventional exchangers one evaporator and the other condenser with for example two escape routes, suitably separated by a flapper or other means.
This lower technical block 62 is also appropriately isolated phonically and thermally and has on each of its lateral faces the right to its exchanger respected a protected air inlet each by a filter. The exchanger (s) 63, 64 are for example placed each on one side of the volume 65. A ventilation group 68, for example an aeration group operating in suction, is disposed above the interior volume 65. The entrance to this one emerges in the inner volume 65 and his or its outputs allow to establish a distributed flow to from a central birth to walk flat 1st along a lower distribution compartment 69 and

16 feed uniformly and from below the chamber of recovery 61 air suitably conditioned in temperature from control means 70.
These are connected to at least one sensor 71 the temperature of the ambient air in the room or local and at least to a temperature sensor 72 of the air in the recovery chamber at the level of focus and at a temperature sensor 73 air from output of the device. Optionally, if necessary the regulation may also include a sensor temperature 74 of the air leaving the technical block lower 62.
Sensor information is taken in account and managed by conventional means in order to control the operation of the ventilation group and this is the air conditioning unit.
The exchanger (s) placed in the volume 65 interior are connected to a unit of air conditioning with or without compressor. All the organs of this air conditioning unit can be grouped and placed in the compartment of the interior volume 65 including the compressor if it exists.
Of course, according to different variants, some components including the second heat exchanger and the compressor can be placed outside of the device or in a medium other than air or buried or otherwise disposed of.
The output of the interior volume 65 has the ventilation group 68 which is responsible for establishing a adjustable flow rate of aeraulic flow for example in sucking the outside air through at least one or through the two exchangers 63 and 64 placed each in front of an air inlet protected by a filter.
To facilitate understanding, the journey of the air is represented by arrows in Figure 4 since entering the volume compartment lower 66 to its exit by the nozzles WO 2005/0312

17 PCT / FR2004 / 002429 evacuation 58.
Thus, the air circuit continues towards the base of the hearth where it is directed directly to the peripheral recovery chamber 61 in which he enters and from which he is evacuated by the outlet ducts.
Fresh, temperate or hot air transported by the exhaust ducts are distributed in the room or the room and leaves at the desired temperature by mouths provided with grills, but may be brought other ducts in other adjoining rooms or more distances in which it is diffused by the intermediary of adapted mouths.
These sheaths can also be grafted onto a ventilation network existing or to be the house or building.
Volume 66 of the lower technical block can also contain the unit's compressor air conditioning and even, thanks to thermal insulation sufficient and one or more flow control valves, the other exchanger acting as an evaporator or condenser as appropriate for an air conditioning unit reversible.
The temperature of the air coming out of the volume lower 66 can be measured by a sensor 74 and compared to the air temperature outside the focus 2 by the sensor 72 or that of the fumes or any other reflecting the pace of heating in order to establish an air temperature regulation of the room or of the room according to the set temperature given by the occupant (s) acting on the extra calories or calories provided by the air conditioning unit. There are two ways to vary this volume output temperature lower: on the one hand the speed of the group of ventilation and secondly the operating point from the unity of climate. As will be seen below

18 this possibility will occur in the case of mixed and when using the air conditioning unit in the closed hearth, that is to say when the power fire will be reduced. The invention offering this possibility allows to better regulate the temperature of the room, knowing that this temperature coming from the only wood heating is quite difficult to maintain constant. This advantage brings and confers a comfort unparalleled as part of the wood burning fireplace.
l0 The operation of the device proves to be especially simple. It will be briefly described below after.
In winter, or during heating season, in the case of a reversible air conditioning unit, we take advantage the additional heat provided by the condenser. This complement is added in a proportioned way by the means of regulation, to the calories generated by the home. In addition, it allows a rise in heat more fast and in some cases to aim a power calorific heat for the home.
In summer or in hot weather season, the heat exchanger of the air conditioning unit reversible works as an evaporator and the closed fireplace does not work anymore or very Occasionally. This evaporator provides a flow of fresh air that rises along the hearth, for stand out in the upper part by the network of ducts.
In intersaïson two main cases are at consider.
It's still cool or cool outside and the exchanger is used as a condenser providing a supplemental amount of calories even house frigories that can work in reduced pace.
Or, it's cooler, but not yet hot enough to wish refreshed air, but temperate or slightly warm air in the morning and in the morning,

19 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 lice cool the air or temper it compared to that produces the fireplace at a reduced rate. In the evening and in the morning, it is enough to operate the exchanger of the unit air-conditioning in condenser to produce air at suitable temperature without needing to turn on the 10 homes.
As can be seen, this device is useful in any case to bring comfort desired mood. He will supply according to the desires or the needs, from the air to the ideal room temperature and this from a single device located at inside the room or room.
The appliance and the heating and air conditioning according to the present invention have been described above through several variants of realization which are not however limiting.
The solutïon proposed by the invention is easily transposable to an installation in which a wood boiler is integrated in a stove earthenware, the heating unit being no longer dissociated. The stove will then have on the front a loading door to feed the boiler wood and an orifix located on the front facade for air outlet 'hot, and in the back a heat recovery.
The connection between the device air conditioning located in the cellar and the stove will be realized by means of two flexible ducts running at the back from the stove and opening in a top box having an orifice for the evacuation of cold air.
Similarly, the variants described make reference to the use of wood as a combustible but it must be well understood that everything other type of compatible fuel may be used without calling into question the principles general operating principles of the invention.
If the air conditioning unit is compressor, 5 this one can be placed inside of installation or device.
Of course, air conditioning units without compressor are also targeted.
With regard to the other exchanger, it can 10 be placed outside or inside the room or the room or house or building in which the heating unit is arranged.
The exchanger (s) outside the device are placed in the places or in the 15 more appropriate, inside, outside, in air, in water, buried or otherwise disposed.
One can also consider a unit of air conditioning with several external exchangers placed in different environments for example in the air for

20 one and in the water for the other.
The air conditioning unit can be of the type heat pump or any type of transfer means of heat energy with one or more heat exchangers in the air, in the water or buried.

Claims (36)

1. Combined heating and air conditioning unit for living quarters and premises comprising a unit of closed hearth heating (1) (2) and an aeraulic circuit evacuation of the calories produced by the closed hearth (2) characterized in that it is formed on the one hand from the unit of closed hearth heating (1) (2) including the aeraulic circuit evacuation of calories for distribution outside the air device heated by the closed hearth (2) and by possibly its gas and smoke outlet assembly from combustion and secondly an air conditioning unit comprising at least two exchangers of which at least one, called internal heat exchanger, is placed in an internal aeraulic circuit communicating to the outside by said aeraulic circuit heat removal from the closed hearth for the distribution of air from inside to outside of the unit. 2. Apparatus according to claim 1 characterized in that at least one of the exchangers is placed downstream and preference at the start of the aeraulic circuit associated with the fireplace closed (2). 3. Apparatus according to claim 1 characterized in what 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 a unit air conditioning unit and a ventilation unit bringing the flow air flow from the air conditioning unit in the circuit aeraulics 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 organs constituting a air conditioning unit and a ventilation group bringing the aeraulic flow from the air conditioning unit in the aeraulic circuit of the closed hearth heating unit (1) (2). 6 Apparatus according to any one of claims above characterized in that the air conditioning unit includes speed-dependent operation regulation constant outlet air. 7. Apparatus according to any one of claims from 1 to 4 characterized in that the unit of air conditioning includes an operating regulation in depending on the temperature of the room or the room in which finds the device to keep a constant air temperature Release. 8. Apparatus according to one of claims previous 6 or 7 characterized in that the regulation of operation of the air conditioning unit acts on the ventilation group. 9. Apparatus according to one of claims previous 6 or 7 or 8 characterized in that the regulation of operation of the air conditioning unit acts on the ventilation unit and on the operating point of the air conditioning unit. 10. Apparatus according to any one of claims from 6 to 9 characterized in that the closed hearth has its own heating rate regulation associated with the regulation of the air conditioning unit. 11. Combination heating and air conditioning unit according to Claim 1, characterized in that the closed hearth heater (1) (2) has one or more ducts evacuation (10). 12. Heating and air conditioning unit according to claims 1 or 18 characterized in that at least one of exhaust ducts (10) of the heating unit (1) is connected to at least one of the two heat exchangers of the air conditioner. 13. Heating apparatus according to any one of preceding claims characterized in that the exchanger inside the air conditioning unit is placed under the fireplace closed (2). 14. Next heating and air conditioning unit any one of the preceding claims, characterized in what the air conditioning unit is reversible type. 15. Heating and air conditioning unit according to any one of the preceding claims characterized in that that the heating unit (1) is a closed fireplace. 16. Apparatus according to any one of claims previous ones characterized in that the heating unit (1) is a solid fuel stove. 17. Next heating and air conditioning unit one of claims 1 and 10 to 19, characterized in that the heating unit (1) is a tiled stove (40). 18. Next heating and air conditioning unit one of claims 1 and 10 to 14, characterized in that the heating unit (1) is a decorative stone stove. 19. Next heating and air conditioning unit the preceding claim, characterized in that the unit of heater (1) is a tiled (40) or stone stove decorative elements associated with a boiler (42). 20. Next heating and air conditioning unit one of the preceding claims, characterized in that the connection between the exhaust ducts (10) for circulation of the heated air and the internal exchanger (21) the air conditioning unit is carried out by means of two ducts flexible (25). 21. Heating and air conditioning unit according to any one of the preceding claims, characterized in that at least one of the exhaust ducts (10) forms an elbow (15). 22. Next heating and air conditioning unit claim 15, characterized in that the flexible sheaths (25) connecting the indoor exchanger (21) to the air conditioning are integrated in the heating unit (1). 23. Next heating and air conditioning unit claim 20 or 21, characterized in that the connection between the exhaust ducts (10) of the heating unit (1) and the flexible ducts (25) starting from the internal exchanger (21) of the air conditioning unit is made by means of a connector (30) in Y. 24. Next heating and air conditioning unit claim 23, characterized in that the Y connector (30) is arranged at the bend (15) of the exhaust ducts (10) of the heating unit (1). 25, Next heating and air conditioning unit one of the preceding claims, characterized in that the front heat exchanger (21) of the air conditioning unit is fitted on a support (23) directly attached to the ceiling. 26. Apparatus according to any one of claims previous ones characterized in that the other exchanger of the unit of air conditioning is outside the room or room. 27. Apparatus according to any one of claims from 1 to 25, characterized in that the other the air conditioning unit is placed inside the room or local 28. Apparatus according to any one of claims from 1 to 25, characterized in that the other the air conditioning unit is located inside the unit. 29. Apparatus according to any one of claims previous ones characterized in that the other exchanger of the unit of air conditioning is an exchanger immersed in another environment. 30. Apparatus according to any one of the claims previous ones characterized in that the other exchanger of the unit of air conditioning is a buried exchanger. 31. Apparatus according to any one of claims from 1 to 18 characterized in that the other heat exchanger the air conditioning unit is an exchanger immersed in water. 32. Apparatus according to any one of the claims previous ones characterized in that the other exchanger of the unit of air conditioning is that of a heat pump. 33. Apparatus according to any one of the claims above 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 into the device. 35. Installation according to any one of preceding claims characterized in that the unit of closed hearth heater (1) (2) has several ducts discharge (10) and in that at least one of the conduits outlet (10) is connected to at least one of the two air conditioning unit heat exchangers. 36. Installation according to any one of preceding claims characterized in that one realizes distribution and diffusion of air cooled by the coupling of the air conditioning unit exhaust ducts with those of the heating unit.