EP4191151A1 - Hygroscopic device for extracting or blowing air for a ventilation installation, and ventilation installation comprising such a device - Google Patents

Abstract

The invention relates to a humidity-controlled device (1) for extracting or insufflating air for a ventilation installation, comprising a ventilation outlet (2) comprising:- closure means (6) movable between a closed position and an open position, - electrical control means (9) closure means (6), controlled by an electronic module (8), in which the ventilation mouth (2) comprises at least one pressure measurement means ( 5) and at least one hygrometry measuring means (7), the electrical control means (9) being configured to vary an air flow passing through the ventilation outlet (2) by adjusting the closing means (6) between the closed position and the open position, both as a function of the pressure and the humidity measured.

Description

The invention relates to a humidity-controlled device for extracting or blowing air, and a ventilation installation comprising such a device, for a building such as a dwelling or a tertiary building.

Such buildings, in particular housing, schools or offices, can accommodate people. They generally comprise one or more rooms, and at least one ventilation installation for the different rooms, configured to renew the internal air of these rooms.

A ventilation installation generally comprises an air extraction device configured to extract internal air from the rooms, and an air supply device configured to supply air from outside in order to compensate for this extraction. .

The main objective of renewing the air in rooms, also called ventilation, is to evacuate air pollutants linked to the presence of occupants, the presence of equipment or machines used in these rooms, as well as to evacuate pollutants emitted by the building itself. Air pollutants are in particular carbon dioxide CO2, humidity (ie water) and volatile organic compounds called “VOCs”.

In particular, a person breathing for a day a volume of air of approximately 12m ³ , it is important, for reasons of hygiene and comfort, to carry out a renewal of the air of the rooms in particular closed.

This air is also renewed to control the humidity level inside the building. In addition, it is necessary to control the flow of air renewal, in order to limit heat loss due to the evacuation of indoor air, especially when it is heated in winter.

The blowing of air into a building can be natural, with air ducts comprising an air inlet arranged in a room and an air outlet arranged outside the building. Such ducts allow thermal draft when there is a pressure difference between the air inlet and the air outlet, in particular when there is a temperature difference between the air inlet and the air outlet. air. More particularly, such ducts allow thermal draft when the temperature at the air inlet is higher than the temperature at the air outlet. The greater the temperature difference, the greater the difference in pressure is high, and the higher the airflow drawn during the thermal draft. When the temperature difference is small, the pressure differential between the air inlet and the air outlet is reduced, and the flow of air drawn may be insufficient.

The blowing of air into a building can be carried out by controlled mechanical ventilation called "VMC", comprising, in addition to the ducts described above, a turbine driven by an electric motor. The turbine generates a depression to activate the flow of air circulating in the air ducts. The turbine can in particular operate in fixed, modulated or intermittent flow.

As a variant, the air blowing into a building can comprise an intermediate blowing device, also called hybrid blowing, comprising a turbine configured to be stopped in the event of sufficient natural blowing, and configured to operate at a variable speed adapted when the natural insufflation is insufficient to compensate for the too low flow.

In particular, the speed of the turbine can be automatically adjusted according to the temperature at the air outlet.

The extraction of air in the building is generally done by extraction vents, placed on the ceiling or in the upper part of the walls.

In order to optimize the ventilation of rooms according to parameters such as the level of pollutants observed or the presence of people detected, it is known to produce automated adjustable air extraction or insufflation devices comprising an extraction mouth or air blower comprising an air flow passage section and closure means configured to modify the air flow passage section in order to adjust it to a predetermined value.

It is possible in particular to reduce the passage section of the air flow if the ventilation of the room is not required, in particular if no one is present there.

It is also known to use sensors for measuring the level of air pollutants and flow sensors, which can be connected or integrated into automated adjustable extraction and/or insufflation vents, in order to adjust the settings of optimized way.

In the remainder of the description, the term “ventilation outlet” will be understood to mean an air extraction or insufflation outlet.

Advantageously, such extraction or insufflation devices, with connected or integrated sensors, are powered independently by cells or batteries, which avoids installing power cables.

However, the existing extraction or insufflation devices generate pressure drops linked to the presence of a propeller in the ventilation opening, leading to a ventilation not adapted in relation to the level of pollutant and/or the air flow measured in the room in which the ventilation outlet is installed.

In addition, the air flow is generally adjusted according to the level of pollutant measured and a pressure hypothesis, called nominal pressure.

Thus, in the case where the pressure generated by the extraction or blowing device is greater than the nominal pressure, the room will be too ventilated, and, conversely, in the case where the pressure generated by the extraction device or blowing is lower than the nominal pressure, the room will not be sufficiently ventilated.

• des moyens d'obturation configurés pour être mobiles entre une position fermée et une position ouverte ;
• des moyens de commande électrique des moyens d'obturation, les moyens de commande électrique étant contrôlés par un module électronique ;

caractérisé en ce que ladite bouche de ventilation comprend au moins un moyen de mesure de pression et au moins un moyen de mesure d'hygrométrie, les moyens de commande électrique étant configurés pour faire varier un débit d'air traversant la bouche de ventilation par un ajustement des moyens d'obturation entre la position fermée et la position ouverte, à la fois en fonction de la pression et de l'hygrométrie mesurées.The invention aims to solve at least one of the aforementioned drawbacks by providing a humidity-controlled device for extracting or blowing air for a ventilation installation, comprising a ventilation outlet, said ventilation outlet comprising:

• closure means configured to be movable between a closed position and an open position;
• electrical control means of the closure means, the electrical control means being controlled by an electronic module;

characterized in that said ventilation outlet comprises at least one pressure measurement means and at least one hygrometry measurement means, the electrical control means being configured to vary an air flow passing through the ventilation outlet by a adjustment of the closure means between the closed position and the open position, both as a function of the pressure and the humidity measured.

Thus, the ventilation is optimized. In particular, the pressure measurement is carried out at the level of the ventilation outlet, which makes it possible to know precisely the pressure at the level of the ventilation outlet, unlike systems in which the pressure is measured in a ventilation duct, in particular at close to the fan, the measurement accuracy then being affected by pressure drops. In addition, in a ventilation system comprising several ventilation outlets in accordance with the invention, it is possible to know the pressure and the hygrometry at the level of each of the ventilation outlets, and to vary the air flow according to of these two quantities measured, independently at the level of each ventilation outlet. Thanks to the electrical control means configured to vary the flow of air passing through the ventilation opening, the ventilation is optimized without acting on the fan. The ventilation outlet according to the invention can advantageously be adapted to an existing ventilation system that does not include any means of varying the air flow.

The device of the invention may include one or more of the following optional characteristics, considered alone or in all possible combinations. According to one characteristic, the pressure measurement means is a pressure sensor. According to one characteristic, the ventilation opening comprises an air inlet, and an air outlet opposite the air inlet, the humidity-controlled device for extracting or insufflating air comprising a conduit for the circulation of air attached to the air outlet, the pressure measuring means being arranged between the air circulation duct and the air inlet of the ventilation opening.

According to one characteristic, the closure means comprise at least one shutter, the electrical control means being configured to adjust the flow of air passing through the ventilation outlet by moving the shutter.

According to one feature, the electronic module is configured to automatically control the flow of air passing through the ventilation outlet at a given flow rate both as a function of the pressure and the humidity measured in the ventilation outlet.

According to one characteristic, the given flow corresponds to a set point at a time T.

According to one characteristic, when the pressure measured by the pressure measurement means is greater than a nominal pressure, the air flow passing through the ventilation outlet is reduced, and when the pressure measured by the pressure measurement means is less than nominal pressure, the air flow through the vent is increased.

According to one characteristic, when the pressure measured by the pressure measuring means is greater than a nominal pressure, the air flow passing through the ventilation outlet is reduced by the electrical control means, and when the pressure measured by the pressure measurement is lower than the nominal pressure, the flow of air passing through the ventilation outlet is increased by the electrical control means.

According to one characteristic, the nominal pressure is between 20 Pa and 200 Pa, and preferably equal to 80 Pa.

• un dispositif hygroréglable d'extraction ou d'insufflation d'air tel que décrit précédemment ;
• un ventilateur ;

les moyens de commande électrique étant configurés pour asservir le débit d'air traversant la bouche de ventilation en fonction à la fois de l'hygrométrie mesurée dans la bouche de ventilation et de la pression mesurée dans la bouche de ventilation et générée par le ventilateur.The invention further relates to a ventilation installation comprising:

• a humidity-controlled device for extracting or blowing air as described above;
• a fan ;

the electrical control means being configured to control the flow of air passing through the ventilation outlet as a function both of the humidity measured in the ventilation mouth and the pressure measured in the ventilation mouth and generated by the fan.

• [Fig. 1] La figure 1 est une vue en coupe longitudinale d'un dispositif hygroréglable d'extraction ou d'insufflation d'air selon un mode de réalisation de l'invention.
• [Fig. 2] La figure 2 est une vue partielle en perspective d'un bâtiment comprenant une installation de ventilation selon un mode de réalisation de l'invention.

The invention will be described in more detail through the figures presented below, which will facilitate its understanding.

• [ Fig. 1 ] There figure 1 is a view in longitudinal section of a humidity-controlled device for extracting or blowing air according to one embodiment of the invention.
• [ Fig. 2 ] There figure 2 is a partial perspective view of a building comprising a ventilation installation according to one embodiment of the invention.

There figure 1 represents a humidity-controlled device 1 for extracting or blowing air according to one embodiment of the invention.

The humidity-controlled device 1 for extracting or insufflating air comprises a ventilation opening 2.

The ventilation mouth 2 is configured to be crossed by an air flow F. It can comprise an air inlet 4 and an air outlet 4', opposite the air inlet 4. The inlet of air 4 can be configured to be placed in a room to be ventilated in a building. We then speak of an extraction mouth.

As a variant, the air outlet 4' can be configured to be placed in a room to be ventilated in a building. We then speak of an air outlet.

More precisely, the ventilation mouth 2 can include a passage 10 for the air flow F, between the air inlet 4 and the air outlet 4'. Passage 10 has a passage section S.

The device 1 may comprise a conduit 3 for air circulation. The air circulation duct 3 can be fixed to the air outlet 4' of the ventilation opening 2, by fixing means not shown.

The ventilation mouth 2 comprises means 6 for closing the ventilation mouth 2. The closing means 6 are configured to be movable between a closed position in which a minimum air flow passes through the ventilation mouth 2, and an open position in which a maximum air flow passes through the vent 2. The maximum air flow can be called peak air flow. The maximum airflow is greater than the minimum airflow.

The closure means 6 can be in an intermediate position in which an intermediate air flow passes through the ventilation mouth 2.

In the example shown, the closure means are in the closed position.

The closure means 6 can be located at the level of the air inlet 4 of the ventilation mouth 2.

The closure means 6 can comprise one or more flaps.

By way of example, the closure means 6 can comprise a first flap 6' and a second flap 6". The second flap 6" can be fixed with respect to the first flap 6'.

The closure means 6 can make it possible to reduce or increase the passage section S of the passage 10 for the air flow F.

Pressure measuring means 5, such as a pressure sensor for example, are integrated in the ventilation mouth 2.

Of course, the pressure measurement means 5 are not limited to a pressure sensor. Indeed, the pressure sensor can be replaced by a manometer for example.

The pressure measuring means 5 are configured to measure the pressure of the air flow F passing through the ventilation mouth 2.

Hygrometry measuring means 7 can be arranged in the ventilation mouth 2.

The hygrometry measuring means 7 are configured to measure the hygrometry of the air flow F passing through the ventilation outlet 2.

The hygrometry measuring means 7 can be a hygrometer for example. Electrical control means 9 of the shutter means 6 can be integrated into the ventilation mouth 2.

The electrical control means 9 make it possible to adjust the flow rate of the air flow F passing through the ventilation outlet 2, both as a function of the pressure and the humidity measured by the pressure measurement means 5 and of hygrometry 7. The electrical control means 9 can be configured to actuate the shutter means 6 in order to vary a flow rate of the air flow F, both as a function of the pressure and the hygrometry measured.

The ventilation outlet 2 may include an electronic module 8 configured to control the electrical control means 9.

The electronic module 8 can make it possible to automatically control the flow rate of the air flow F passing through the ventilation opening 2 at a given flow rate depending on both the hygrometry and the pressure measured in the ventilation opening 2.

In the following paragraphs, the operation of the humidity-controlled device 1 for extracting or blowing air from a room, according to one embodiment of the invention, is detailed.

In this embodiment, an air flow F passes through the vent 2, from the air inlet 4 to the air outlet 4'. The pressure measuring means 5 measure the pressure of the air flow F at the level of the ventilation mouth 2. The measuring means of hygrometry 7 measure the hygrometry of the air flow F at the level of the ventilation opening 2.

Depending on the hygrometry and the pressure measured in the ventilation opening 2, the electrical control means 9 adjust the flow rate of the air flow F passing through the ventilation opening 2 in order to obtain optimum ventilation of the room.

More specifically, the electrical control means 9 actuate the shutter means 6 to adjust the flow rate of the air flow F.

More precisely, the flow rate of the air flow F is adjusted so as to obtain a given flow rate corresponding to a setpoint at a time T.

Depending on both the pressure and the humidity measured in the ventilation outlet 2, the electrical control means 9 automatically move the shutter means 6 to vary the passage section S of the air flow F from the vent 2.

More particularly, in an embodiment in which the closure means 6 comprise a first flap 6' and a second flap 6", the second flap 6" being fixed relative to the first flap 6', the electrical control means 9 move the first flap 6', called the mobile flap.

For example, when the pressure measured by the pressure measuring means 5 is greater than a nominal pressure, for example between 20 and 200 Pa or for example 80 Pa, the flow rate of the air flow F passing through the ventilation outlet 2 is reduced by the electrical control means 9 of the shutter means 6.

On the contrary, when the pressure measured by the pressure measuring means 5 is lower than the nominal pressure, the flow rate of the air flow F passing through the ventilation mouth 2 is increased by the electrical control means 9 of the shutter means 6.

More precisely, when the pressure measured by the pressure measuring means 5 is greater than the nominal pressure, the passage section S of the air flow F passing through the ventilation mouth 2 is reduced, and when the pressure measured by the means pressure measurement 5 is lower than the nominal pressure, the passage section S of the air flow F passing through the ventilation opening 2 is increased.

Even in the presence of a propeller in the ventilation mouth 2, no pressure drop will be detected in the ventilation mouth 2 thanks to the presence of the pressure measuring means 5. The pressure measuring means 5 and hygrometry 7 make it possible to know the exact flow rate of the air flow F which makes it possible to optimize the ventilation.

On the picture 2 , we see a ventilation installation 20 in a building. The ventilation installation 20 comprises a fan 21 connected to ventilation outlets 2. At least one ventilation outlet 2 comprises a humidity-controlled device 1 for extracting or blowing air as described above.

Claims (9)

Humidity-adjustable device (1) for extracting or blowing air for a ventilation installation, comprising a ventilation outlet (2), said ventilation outlet (2) comprising: - closure means (6) configured to be movable between a closed position and an open position; - electrical control means (9) of the closure means (6), the electrical control means being controlled by an electronic module (8); characterized in that said ventilation outlet (2) comprises at least one pressure measuring means (5) and at least one hygrometry measuring means (7), the electrical control means (9) being configured to vary a flow of air passing through the vent (2) by adjusting the closure means (6) between the closed position and the open position, both as a function of the pressure and the humidity measured. Device (1) according to Claim 1, characterized in that the pressure measuring means (5) is a pressure sensor. Device (1) according to any one of claims 1 or 2, characterized in that the ventilation mouth (2) comprises an air inlet (4), and an air outlet (4') opposite the air inlet (4), the device (1) comprising an air circulation duct (3) fixed to the air outlet (4'), the pressure measuring means (5) being placed between the duct (3) air circulation and the air inlet (4) of the ventilation opening (2). Device (1) according to any one of the preceding claims, characterized in that the closure means (6) comprise at least one shutter, the electrical control means (9) being configured to adjust the flow of air passing through the ventilation opening (2) by moving the flap. Device (1) according to any one of the preceding claims, characterized in that the electronic module (8) is configured to automatically slave the flow of air passing through the ventilation outlet (2) to a given flow both as a function pressure and humidity measured in the ventilation opening (2). Device (1) according to Claim 5, characterized in that the given flow rate corresponds to a set point at a time T. Device (1) according to any one of the preceding claims, characterized in that , when the pressure measured by the pressure measuring means (5) is greater than a nominal pressure, the air flow passing through the ventilation mouth ( 2) is reduced by the electrical control means (9), and, when the pressure measured by the pressure measuring means (5) is lower than the nominal pressure, the air flow passing through the ventilation mouth (2) is increased by the electrical control means (9). Device (1) according to Claim 7, characterized in that the nominal pressure is between 20 and 200 Pa and preferably equal to 80 Pa. Ventilation installation (20) comprising: - a device (1) according to any one of the preceding claims; - a fan (21); the electrical control means (9) being configured to control the flow of air passing through the ventilation outlet (2) as a function of both the humidity measured in the ventilation outlet (2) and the pressure measured in the ventilation mouth (2) and generated by the fan (21).

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