FR3071309B1 - VENTILATION SYSTEM OF A BUILDING - Google Patents

Abstract

The invention relates to the field of ventilation systems of a building. It relates to a ventilation system 1 of a building defining an interior space 2 to be ventilated, the system comprising: - a first valve 11 arranged between the interior space 2 and a second space 3, - a first control device 12 of the opening of the first valve, and - a first detector 13 for controlling the first control device and for detecting the opening of a second valve 21 intended to be arranged between said interior space and a third space 4. The first control device 12 controls the opening of the first valve 11 when the opening of the second valve 21 is detected by the first detector 13. Thus, the system makes it possible to synchronize the opening of the two valves so as to create a natural ventilation in the interior space .

Description

TECHNICAL FIELD OF THE INVENTION The invention relates to the field of ventilation systems. It finds particularly advantageous for the natural ventilation of buildings including housing.

STATE OF THE ART

There is a growing need to cool buildings, especially houses and especially single-family houses.

In many cases, the solutions used to cool single-family houses, especially in summer, are based on the use of reversible air conditioning. These solutions consume a significant amount of energy.

There is therefore an issue of limiting the environmental impact related to the refreshing of residential buildings. This issue is accentuated by the fact that during the construction of new buildings, it is now very often expected to install reversible air conditioning.

To limit the environmental impact of these polluting technologies, an interesting alternative is natural ventilation.

Among the various existing natural ventilation techniques, it seems worthwhile to resort to cooling by natural renewal of the air by a window either roof or at the top of the house, which opens automatically as soon as the conditions in temperature are favorable. However, in practice, this technique achieves only a very local refresh, at the open window.

An object of the present invention is therefore to provide a ventilation system whose environmental impact is limited or no, and more effective. Another object of the present invention is to provide a ventilation system taking advantage of a ventilation technique already installed, for example that described above.

SUMMARY OF THE INVENTION

To achieve this objective, according to a first aspect, the present invention provides a ventilation system of a building delimiting a first space located inside the building and forming at least one interior space to ventilate, the system comprising: a first valve agency between I space inteneur and a second space, a first control device configured to control the opening and closing of the first valve, and a first detector configured to control the first control device.

The first detector is further configured to detect the opening of a second valve intended to be arranged between said interior space and a third space. The first pilot device controls the opening of the first valve when the opening of the second valve is detected by the first detector.

According to a second aspect, the invention relates to a ventilation system of a building delimiting a first space located inside the building and forming at least one interior space to be ventilated, the system comprising a box, preferably of substantially parallelepipedal shape , arranged between the interior space and a second space, and a first face has an opening opening into the interior space and a second face has an opening opening into the second space. The first opening is adapted to receive a first valve. The system further comprises a first control device configured to control the opening and closing of the first valve and at least one detector configured to control the first control device. In this way, when said at least one detector controls the first control device, the first valve opens to provide a passage section to an air flow between the interior space and the second space. Said at least one detector may further be configured to detect the opening of a second valve intended to be arranged between said interior space and a third space and the first control device may be configured to control the opening of the first valve when the opening of the second valve is detected by said at least one detector.

Thus, thanks to the ventilation system according to any of its first and second aspects, an air flow is created in the interior space. For example, the created airflow enters the interior space through one of the second and third spaces and emerges from the other of the second and third spaces. The system thus ensures a renewal of the air in the interior space.

More particularly, the system makes it possible to synchronize the opening of two valves located for example between a dwelling place as an interior space and the atmosphere as second and third spaces. More particularly, the two valves may be located in different rooms of the dwelling place so as to create a natural ventilation. The environmental impact of the system is limited because it requires less energy to operate than existing systems, while achieving improved efficiency because the ventilation it generates is not only localized at a valve but extends throughout the interior space.

It has the advantage of being inexpensive. Its integration, especially on a place of residence, can easily be carried out so as to ensure its discretion. The system allows a cooling, especially nocturnal, of the order of a few degrees, for example 5 ° C, compared to the value of the temperature in the interior space in the absence of the system, potentially without creating drafts uncomfortable.

It is thus proposed a ventilation system with high efficiency and to take advantage of an already installed ventilation technique according to which the second valve is included in a known device for automatic opening and closing of window, a device of those known equipping the roof windows as discussed above.

In the context of the development of the present invention, it has emerged that it can be improved, in particular to counteract the possibilities of burglary, noise and / or light pollution, the attraction of insects in the interior space, while retaining the effective natural ventilation function that the invention provides.

BRIEF DESCRIPTION OF THE FIGURES

The objects, objects, as well as the features and advantages of the invention will become more apparent from the detailed description of an embodiment of this dermere which is illustrated by the following accompanying drawings in which:

FIGURE 1 represents an overall view in transparency of a dwelling place, defining an interior space to ventilate, equipped with a ventilation system according to a non-limiting embodiment of the invention.

FIGURE 2 shows the casing of a ventilation system according to a first embodiment.

FIGURE 3 shows the casing of a ventilation system according to a second embodiment.

FIGURE 4 shows the casing of a ventilation system according to a third embodiment.

The drawings are given by way of examples and are not limiting of the invention. They constitute schematic representations of principle intended to facilitate the understanding of the invention and are not necessarily at the scale of practical applications.

DETAILED DESCRIPTION OF THE INVENTION

Before beginning a detailed review of embodiments of the invention, are set forth below optional features that may optionally be used in combination or alternatively: the first detector may further be configured to detect the closure of the second valve and the first control device controls the closing of the first valve when the closing of the second valve is detected by the first detector; the first valve is located at a higher ground level than the second valve. The first valve may be located in the lower part of said interior space and the second valve is located in the upper part of said interior space. The system thus makes it possible to take full advantage of existing convective air movements, especially in the interior space; the interior space defines a dwelling place preferably comprising one of a ground floor and a basement as a lower part and at least one floor, for example a top floor, as an upper part . The two flaps can be located in different rooms of the home. The first valve opened in the interior space, preferably outside a main room of the dwelling place, for example in a clearance such as a corridor or a stairwell. The system thus has a discreet integration so as not to disturb the comfort, especially visual and acoustic occupants; the interior space defines a dwelling place and the second space includes one of the atmosphere and an outhouse, such as a garage or storeroom, adjoining said dwelling place and the third space includes the atmosphere. The system thus makes it possible to take advantage of outside winds and / or space (s) naturally storing an air generally cooler than that present in the place of residence. Alternatively, at least one of the second and third spaces is located outside the building; the interior space defines a dwelling place and the second flap constitutes at least a portion of a roof window or a window in the upper part of said dwelling place; the system is configured so that the opening and closing of the second valve are controlled by a second control device, and so that the second control device controls a second detector. The system is advantageously compatible with any existing device for closing and automatic opening of the second valve. The second detector comprises at least one temperature sensor, the measurement of which makes it possible to calculate a difference between the temperature of the interior space and the temperature of the second space. Depending on this difference, the opening and closing of the at least one second valve can be controlled. To do this, at least one of the following instructions is preferably followed: the temperature of the second space is less than the temperature of the interior space, the temperature of the interior space is greater than a predetermined set temperature, and the current date is included in a predetermined period of the year, for example in at least one of a summer period and an offseason, preferably in a summer season and offsets. The system is thus operated only when the temperature conditions are met to ensure a cooling of the interior space, and this fully automated; the first valve is configured to open so as to provide an air flow passage section substantially equal to that offered by the opening of the second valve. This ensures the efficiency of the air renewal of the interior space while avoiding creating significant pressure differences at the first and second valves Venturi effect; the first detector comprises an electrical switch, such as a rabbet contact, intended to cooperate with the second valve to allow to detect the opening and closing. The first detector is thus advantageously simple, robust and inexpensive; the system may further comprise a device for shutting down a controlled mechanical ventilation, the cut-off device being configured to stop the controlled mechanical ventilation when the first valve is open and to enable the controlled mechanical ventilation to be put into operation when the first valve is closed. The system thus makes it possible to limit the operation of the mechanical extraction of a dwelling place during a significant period of the year; the system may further comprise at least one of an air blower and an air extractor arranged on either side of the first flapper and configured to be operated when the first valve is open. Preferably, the air blowing device and / or the air extraction device is implemented only by no or very low wind conditions in the second space and / or the third space. This ensures the sufficiency of the renewal of air in the interior space; and the system according to its first aspect may further comprise a box, preferably of substantially parallelepiped shape, a first face has an opening opening into the interior space and configured to receive the first valve and a second face has an opening opening in the second space. The system thus comprises an intermediate chamber between the main space and the second space giving it great integrability and great adaptability, not only in terms of dimensioning, but also in terms of the capacity to add optional equipment intended to meet certain requirements. at least disadvantages potentially generated by the implementation of the system.

The following are optional features of the system according to the preceding characteristic and / or the system according to the second aspect of the invention, which may optionally be used in combination or alternatively: the system may further comprise at least one of an anti-intrusion grid, for example aluminum, and a mosquito net, each arranged in conjunction with the opening of the second face of the box. This avoids any risk of intrusion into the interior space via the box of malicious people, such as thieves, and / or pests, including insects; the first and second openings are arranged to limit or even cancel any direct light communication between the inner space and the second space. More particularly, the first and second faces of the box form between them an angle of between 60 ° and 120 °, preferably substantially equal to 90 °. Alternatively or in addition, the first and second faces of the box are opposed to each other and the first valve and the opening of the second face of the box are not vis-à-vis one another. The attraction of pests, and especially insects, into the interior space from the second space is thus advantageously reduced or even canceled; at least one of a soundproofing device and a thermal insulation device are arranged on at least one of the first valve and walls of the box. The system is thus isolated phonetically and / or thermally; the box comprises a metal structure defining at least its edges and corners and a wall filling material of the box, the filling material being preferably an insulating material selected from expanded polystyrene and extruded polystyrene, preferably the metal structure now in place the filling material; the box comprises wooden walls and preferably comprises an insulation material, selected from glass wool and rock wool, arranged to cover the walls of the box. In this case, the box preferably comprises a sealed film covering the insulation material. The waterproof film makes it possible to guarantee the quality of the air exchanged between the interior space and the second space; the first valve comprises at least one of double glazing and an opaque surface thermally and / or phonetically insulated; and the first valve comprises a tilt and turn flap.

"Dwelling place" or "dwelling" means a building or part of a building, firstly comprising main rooms intended for living or sleeping, possibly isolated rooms, secondly service rooms, such as kitchens, washrooms, laundry rooms; , storage rooms, dryers, as well as clearances and possibly dependencies.

In a first aspect and with reference to Figure 1, the invention relates to a ventilation system 1 of a building. The building defines a first space located in its interior and forming an interior space 2 to ventilate. The interior space 2 can form a dwelling place. In addition, the building may possibly delimit one or more dependencies. The system comprises a first valve 11, a first control device 12 and a first detector 13.

The first valve 11 is arranged between the inner space 2 to be ventilated and a second space 3, for example the atmosphere.

The first valve 11 may comprise at least one of a single flap (as shown in Figure 4), a bellows flap (as shown in Figures 2 and 3), and preferably a tilt and turn flap. Alternatively, it may include a louver or jealousy. The first valve 11 may further comprise at least one of a double glazing and an opaque surface preferably isolated thermally and / or phonetically.

The first control device 12 is configured to drive, optionally alternately or successively, the opening and closing of the first valve 11.11 may include an electric motor. It can be adapted to bring and maintain the first valve 11 in at least some open positions included in its closed position and a maximum open position.

The first detector 13 is configured to control the first control device 12. The first detector 13 is for example able to control the power supply of the electric motor of the first control device 12. Alternatively, the first detector is able to transmit data control of closing and / or partial or complete opening of the first valve 11 to the first control device 12 which is able to interpret, for example using a microcontroller, the data it receives to perform the command.

The first detector 13 is further configured to detect the opening and closing of a second valve 21 intended to be arranged between said interior space 2 and opening onto a third space 4, for example the atmosphere. In this case, the first detector 13 may comprise an electrical switch, such as a rabbet contact, intended to cooperate with the second valve 21 to detect its opening and closing. The first detector 13 is thus advantageously simple, robust and inexpensive. In view of the above, it is understood that the first control device 12 can control the closing of the first valve 11 when the closure of the second valve 21 is detected by the first detector 13.

As illustrated in FIG. 1, the interior space 2 defines a dwelling place. The latter comprises if necessary a ground floor or a basement in its lower part and at least one floor, preferably a last floor in its upper part. For reasons of integration, it being desired that the system be as discrete as possible, the first valve 11 preferably opens into the interior space 2 outside a main room of the dwelling place, for example in a clearance such as a corridor or a stairwell.

The second valve 21 may be in accordance with the first valve 11 described above. Preferably, the second valve 21 constitutes at least a portion of a window of the dwelling place. More particularly, the second valve 21 may constitute at least part of a roof window or a vertical window in the upper part of a dwelling place as interior space 2.

Potentially, the second valve 21 cooperates with a second control device 22. The latter can be configured to control, optionally alternately or successively, the opening and closing of the second valve 21.

In addition, the second valve 21 and / or the second control device 22 can cooperate with a second detector 23. The latter is then configured to control the second control device 22. It can be a remote control that a occupant manipulates to control the opening or closing of the second valve 21. Preferably, the second detector 23 comprises at least one temperature sensor whose measurement can calculate a difference between the temperature of the interior space 2 and the temperature of the second space 3. The opening and closing of the second valve 21 can therefore be automatically controlled as a function of the temperature difference detected / calculated by the second detector 23. Preferably, at least one of the following instructions are then complied with to control the opening of the second valve 21: - the temperature of the second space 3 is lower than the temperature of the e interior space 2, - the temperature of the interior space 2 is greater than a predetermined set temperature, and - the current date falls within a predetermined period of the year, for example in a summer period and potentially in at least one one of the offseason.

The system 1 is therefore advantageously compatible with any existing device for closing and automatic opening of the second valve 21. This device can be controlled manually or automatically at least according to temperature data and pre-established instructions.

The operation of the system 1 is a function of the closing state or opening (s) of the second valve 21. In fact, the first control device 12 pilot 1'ouverture the first valve 11 when the opening of the second valve 21 is detected by the first detector 13.

The system 1 can thus be operated only when the temperature conditions are met to ensure a cooling of the interior space 2, and this fully automated manner. A relevant algorithm, for example implemented by a microcontroller of at least one of the first and second detectors 13, 23, thus makes it possible to manage all the summer and hot off-season periods without recourse to air conditioning.

The system 1 thus makes it possible to synchronize the opening of two valves 11, 21 located in different places, for example different rooms, an interior space 2, in particular a dwelling place, so as to create a natural ventilation. It has the advantage of being inexpensive. As detailed below, its integration, including a place of residence, can easily be carried out so as to ensure its discretion. In particular, when it is used according to the above-mentioned instructions, the system 1 allows a nocturnal cooling of the order of 5 ° C relative to the value of the temperature in the interior space 2 in the absence of the system 1. The objective The operation of the system 1 can therefore be the cooling of the interior space 2, to avoid summer overheating or to maintain comfort conditions in intermediate periods. The risk of creating uncomfortable air currents can also be prevented, in particular by the choice of rooms in the place of residence where the flaps are arranged.

The second space 3 includes one of the atmosphere and an outhouse, such as a garage or storeroom, adjoining a dwelling place as the interior space 2 and the third space 4 comprises the atmosphere. The system 1 thus makes it possible to take advantage of outside winds and / or space (s) storing naturally a generally cooler air than that present in the place of residence.

Advantageously, the first valve 11 may be located at a higher height of the ground than the second valve 21. For example, the first valve is located in the lower part of said interior space 2 and the second valve is located in the upper part of said interior space 2 The system 1 thus makes it possible to take full advantage of, if not synergistic manner, with existing air movements in at least one of the second and third spaces 3, 4, air movements of convective nature existing especially in the interior space. 2. It can be estimated that the rate of air change in the interior space is equivalent to twice the volume of the interior space 2 per hour if the air flow is due to natural convection only. related to the temperature difference between the indoor temperature and the outdoor environment. The renewal rate can reach up to ten times the volume of the interior space 2 per hour in the event of dynamic stress due to the effect of the external wind.

According to one embodiment of its first aspect or according to its second aspect, and as illustrated in Figures 2 to 4, the system 1 comprises a box 100. The box is preferably of substantially parallelepiped shape, for example rectangle, including to facilitate integration and manufacture, but the box can take other forms such as that of a cylinder, straight or curved, circular or polygonal section.

A first face 101 of the box 100 has an opening 110 opening into the interior space 2 and is adapted to receive the first valve 11. A second face 102 of the box 100 has an opening 120 opening into the second space 3. In this way, the casing 100 comprises walls formed by its non-opening faces 110, 120.

The box 100 intermediate between the inner space 2 and the second space 3 gives great integrability and high adaptability to the system 1, and this, first of all in terms of dimensioning.

The casing 100 is preferably dimensioned so as to offer to the flow of air, passing through the openings 110, 120, a passage section substantially equal to that provided by the second valve 21. For example, the casing 100 has a substantially length between 70 and 120 cm, a height substantially between 30 and 40 cm and a depth of substantially between 10 and 30 cm. Note that these dimensions give the box 100 adaptability above a door block in the thickness of a wall, for example in rubble. The door considered can for example be the one giving from a corridor of the place of residence to the adjoining garage.

By another integration example, it is also possible to arrange the box on the (s) side (s) of a window located at the bottom of a stairwell.

The system 1 thus has a discrete integration so as not to disturb the comfort, particularly visual and acoustic of the occupants. A visual and acoustic discomfort could actually be generated by the system 1, especially when it closes or opens, if it were arranged in a privileged living space, or even vis-à-vis such a space .

As introduced above, the first valve 11 may be arranged to open so as to provide the flow of air a passage section substantially equal to that offered by the opening of the second valve 12. This ensures that efficiency of the renewal of air in the interior space 2, while avoiding creating significant pressure differences at one of the first and second valves by Venturi effect; this could lead to damage to the system 1 or equipment housed in the interior space 2.

The passage section offered to the flow of air by the second valve 21 may be a function of the measured / calculated temperature difference and one or more other parameters related to the physical properties of the air in at least one of the interior space 2, the second space 3 and the third space 4. Among these other parameters, let us mention the meteorological data which can in particular comprise, in addition to the external temperature data: sunlight data, hygrometric data, data of atmospheric pressure, wind data, bedtime and sunrise data, precipitation data, at locations more or less close to the interior space. Uncomfortable air can also be prevented by the choice of the degree of opening of each of the first and second valves 11,21.

Alternatively, the system 1 may further comprise a device for shutting down a controlled mechanical ventilation (or VMC). The cutoff device is then configured to stop the VMC when the first valve 11 is open. It can also be configured to allow the restarting of the controlled mechanical ventilation when the first valve 11 closes. The system 1 thus makes it possible to limit the operation of the mechanical extraction of a dwelling place during an important period of the year.

According to another variant, the system 1 may further comprise at least one of an air blower device and an air extraction device arranged on one side or the other of the first valve 11 and configured to be operated when the first valve 11 is open. Preferably, the air blowing device and / or the air extraction device is implemented only in a condition of zero or very low wind (that is to say at a speed substantially equal to or less than 10 km / h) in the second and / or third spaces 3, 4 and / or when the temperature difference between the indoor temperature and the outside ambient temperature is too low for the conduction alone to be sufficient to ensure Renewal rate of twice the volume of the interior space 2 per hour. This ensures the sufficiency of the renewal of air in the interior space 2 (with the objective of permanently ensuring a renewal rate of at least twice the volume of the interior space 2 per hour ), which is all the more important, for safety reasons, the VMC can be cut when the first valve 11 is open.

If the embodiment of the invention comprising a box 100 is advantageous in terms of integrability and adaptability, it is also in terms of the ability to add optional equipment to respond to some potentially related secondary issues to the implementation of the system 1 as described above. The system can be improved to prevent burglary, acoustic and / or light annoyance and insect attraction.

Thus, and with reference to FIGS. 3 and 4, the system 1 comprising a box 100 may also comprise at least one anti-extrusion grid 121, preferably metal, for example aluminum, and a net, arranged in conjunction with the opening 120 of the second face 102 of the box 100. This avoids any risk of intrusion into the interior space 2 via the box 100 respectively of malicious people, such as thieves, and / or pests, such as insects. . Furthermore, the anti-extrusion grille 121 may have a design contributing to the aesthetics of the system 1.

In particular, its design may recall other elements of the place of residence, these elements possibly also participating in the security of the place of residence, such as grilles to the windows located in the lower part of the place of residence or an entrance gate on the place of residence. The use of a mosquito net is particularly simple and inexpensive; however, it can have a significant impact on the charge of the ventilation airflow. Alternatives to the net are envisaged which consist in covering at least partially the inner walls of the box 100 with a remnant anti-mosquito product or in arranging, together with the box 100, an anti-mosquito device with ultrasound. In addition, volatile organic compound filters can be arranged on the box 100.

As illustrated in FIGS. 3 and 4, the box 100 of the system 1 may have openings 110, 120 arranged so as to limit or even cancel any direct light communication between the interior space 2 and the second space 3. Each of the first and second faces 101, 102 of the box may comprise an opening 110, respectively 120, total or partial. Preferably, and as illustrated in Figure 3, the first and second faces 101, 102 of the box 100 are in planes forming between them an angle of between 60 ° and 120 °, preferably substantially equal to 90 °. Alternatively, and as illustrated in FIG. 4, the first and second faces 101, 102 of the box 100 are opposed to each other, but the first valve 11 and the opening 120 of the second face 102 of the box 100 are not facing each other. to each other. Thus, a direct light communication is avoided more particularly from the interior space 2 to the second space 3, through the box 100. The attraction of pests, and especially insects, in the interior space 2 since the second space 3 is thus advantageously reduced or canceled. In addition, the pressure drop of the ventilation air flow is minimized with respect to a solution consisting of arranging a net together with the opening of the second face 102 of the box 100. Furthermore, the presence of an angle ( or an offset) between the two openings 110, 120 of the box 100 participates in the acoustic insulation between the interior space 2 and the second space 3. The system 1 according to this characteristic therefore allows a smooth passage of the air flow while by attenuating the various nuisances.

The embodiment of the invention comprising a box 100 may further comprise a sound insulation device and / or a thermal insulation device arranged on at least one of the first valve 11 and the walls of the box 100. system 1 is thus isolated phonetically and / or thermally. It is therefore possible to consider the system 1, and in particular the box 100, as a sealed and isolated element, having no impact on the particular thermal behavior of the interior space 2 in the winter season.

The structure of the box 100 should preferably be light. For that, it can present several configurations of which two are presented below which, to a certain extent, are combinable between them.

According to a first configuration, the box 100 comprises a metal structure defining at least its edges and corners and a filling material of the walls of the box 100. The filling material is preferably an insulating material selected from expanded polystyrene and extruded polystyrene . If necessary, the metal structure holds the filling material in place.

In a second configuration, the walls of the box 100 are made of wood. Preferably, the casing 100 also comprises an insulating material chosen from glass wool and rockwool and arranged so as to cover the walls of the casing 100. Preferably, the casing 100 further comprises a sealing film covering the insulation material. The film makes it possible to prevent the flow of air from entraining the interior space 2 of the particles of the insulation material. This ensures the quality of the air entering the interior space 2 via the box 100. The invention is not limited to the embodiments described above and extends to all the embodiments covered by the revendications.

For example, the passage that draws the box for the air flow may include baffles. This makes it possible in particular to limit or even cancel any direct light communication between the space 2 and the second space 3.

By another example, a ventilation system according to the invention comprising several first valves 11 and a control device 21 by valve, but potentially only one first detector 13 adapted to control each first control device 12 is envisaged. More particularly, with reference to Figure 1, the garage defining the second space 3 could be closed by a door above which a first valve 11 could cooperate with a first control device 12; the first valve 11 located above the garage door and the first valve 11 located above the entrance door in the interior space 2 can be opened by their respective first control device under the control of a unique first detector 13 always configured to detect the opening and closing of the second valve 21.

In view of the foregoing description, it is clear that the invention provides an effective solution to improve the cooling of homes, while consuming a very limited energy and having very low realization costs and installation.

Claims (6)

1. Ventilation system (1) of a building defining a first space inside the building and forming at least one interior space (2) to be ventilated, the system comprising: - a first valve (11) arranged between the interior space (2) and a second space (3), - a first control device (12) configured to control the opening and closing of the first flap (11), and - a first detector (13) configured to control the first control device (12), characterized in that the first detector (13) is further configured to detect the opening and closing of a second valve (21) to be arranged between said interior space (2) and a third space (4) and in that the first control device (12) controls the opening of the first valve (11) when the opening of the second valve (21) is detected by the first detector (13), so to create a flow of air in the interior space (2). 2. System (1) according to the preceding claim, wherein the first valve (11) is located at a height of the ground higher than the second valve (21). 3. System (1) according to any one of the preceding claims, wherein the interior space (2) defines a dwelling place preferably comprising one of a ground floor and a basement as a that lower part and at least one stage, for example a last stage, as an upper part, and wherein the first valve (11) opens into the interior space (2), preferably outside a main room of the dwelling place, for example in a corridor such as a corridor or a stairwell. 4. System (1) according to any one of the preceding claims, wherein the interior space (2) defines a dwelling place, in which the second space (3) comprises I of one atmosphere and one dependence, such as that a garage or a storeroom, adjoining said place of residence, and in which the third space (3) comprises the atmosphere. 5. System (1) according to any one of the preceding claims, wherein the interior space (2) defines a dwelling place and wherein the second valve (21) constitutes at least a portion of a roof window or a window in the upper part of the said dwelling place. 6. System (1) according to any one of the preceding claims, configured so that the opening and closing of the second valve (21) are controlled by a second control device (22) and for the second control device ( 22) is controlled by a second detector (23). 7. System (1) according to the preceding claim, wherein the second detector (23) comprises at least one temperature sensor whose measurement calculates a difference between the temperature of the interior space (2) and the temperature of the second space (3), difference according to which the opening and closing of the second valve (21) are controlled, preferably respecting at least one of the following instructions: - the temperature of the second space (3) is below the temperature of the interior space (2), - the temperature of the interior space (2) is greater than a predetermined set temperature, and - the current date is within a predetermined period of the year, for example in the at least one of a summer period and an offseason. 8. System (1) according to any one of the preceding claims, wherein the first detector (13) comprises an electrical switch, such as a rabbet contact, intended to cooperate with the second valve (21) to allow detect opening and closing. 9. System (1) according to any one of the preceding claims, further comprising a device for cutting a controlled mechanical ventilation, the cut-off device being configured to stop controlled mechanical ventilation when the first valve (11) is open. 10. System (1) according to any one of the preceding claims, further comprising a box (100), a first face (101) has an opening (110) opening into the interior space (2) and configured to receive the first valve (11) and a second face (102) has an opening (120) opening into the second space (3). 11. System (1) according to the preceding claim, further comprising at least one of an anti-intrusion grid (121), for example aluminum, and a net, arranged in conjunction with the opening (120) of the second face (102) of the box (100). 12. System (1) according to any one of claims 10 and 11, wherein the openings (110, 120) are arranged to limit or cancel any direct light communication between the interior space (2) and the second space (3), preferably the first and second faces (101, 102) of the box (100) forming between them an angle of between 60 ° and 120 °, preferably substantially equal to 90 °. 13. System (1) according to any one of claims 10 to 12, wherein at least one of a sound insulation device and a thermal insulation device is arranged on at least one of the first valve (11) and walls of the box (100). 14. System (1) according to any one of claims 10 to 13, wherein the box (100) comprises a metal structure defining at least its edges and corners and a wall filling material of the box (100), the filling material being preferably an insulating material selected from expanded polystyrene and extruded polystyrene, preferably the metal structure holding the filling material in place. 15. System (1) according to any one of claims 10 to 13, wherein the box (100) comprises wooden walls, preferably the box (100) also comprising an insulation material, selected from the wool of glass and rock wool, arranged so as to cover the walls of the box (100), preferably the box (100) further comprising a sealed film covering the insulation material. 16. System (1) according to any one of the preceding claims, wherein the first valve (11) comprises at least one of double glazing and an opaque surface thermally and / or phonetically insulated. 17. System (1) according to any one of the preceding claims, wherein the first valve (11) comprises a tilt and turn flap.