FR3124583A1 - Air treatment system with regulation by air quality sensor - Google Patents

Abstract

Air treatment system with regulation by air quality sensor The present invention proposes an air treatment system comprising a ventilation device by suppression comprising a turbine with variable ventilation speed according to a quality factor of air, characterized in that said system comprises: - a measuring station comprising a sensor configured to provide an air quality alert level, said measuring station and the ventilation device being interconnected by means of a two-way radio communication link; and in that - the ventilation device is configured to communicate to said measurement station an operating ventilation speed, and said measurement station transmits a ventilation speed modification command to the ventilation device according to the alert level of air quality. In order to provide an air quality alert level, the measuring station includes a VOC/CO2 sensor. This sensor is configured to detect a level of CO2 in the air and provide an estimate of the concentration of total volatile organic compounds, called TVOC "total volatile organic compounds" in the form of an air quality index. The invention also relates to a connected air treatment system. Figure for abstract: 1

Description

Air treatment system with regulation by air quality sensor

The present invention relates to the field of air treatment devices comprising air quality sensors. More particularly, the invention relates to an air treatment system by adjustable suppression according to an air quality factor, as well as its optimal configuration in terms of management and maintenance.

State of the art

There are known in the state of the art air treatment devices by overpressure intended for its installation in a habitat to renew its interior air. In particular, these devices include means for blowing outside air inside the home, as well as filtration and heating means to inject clean air with an optimal humidity level. It is thus possible not only to improve indoor air quality, but also to improve the energy consumption of the home. Indeed, the overpressure makes it possible to optimize the means of thermal regulation by generating a carpet of hot air, and so that the walls dry out and return the heat without absorbing it.

Patent FR 3 043 176 B1 (LABO AAI) gives an example of an air treatment device by overpressure integrating hygrometry and temperature sensors in order to optimize the blown air parameters, as well as a solution for the integration of an electronic board to effectively regulate the treatment of large volumes of air.

Although these devices are effective, today it is desired to regulate the air treatment according to more specific pollution indices, such as the CO ₂ level, and the presence of VOC volatile organic compounds, as well as a configuration of a system allowing optimal air treatment according to said indices.

To this end, the invention proposes an air treatment system comprising a suppression ventilation device comprising a turbine with variable ventilation speed as a function of an air quality factor, characterized in that said system comprises:
- A measuring station comprising a sensor configured to provide an air quality alert level, said measuring station and the ventilation device being interconnected by means of a two-way radio link; and in that
- the ventilation device is configured to communicate to said measurement station an operating ventilation speed, and said measurement station transmits a ventilation speed modification command to the ventilation device according to the quality alert level of air.

In one embodiment, the sensor of the measuring station is sensitive to CO ₂ and VOC volatile organic compounds, and the air quality alert level is determined according to a CO ₂ level and/or an air quality index based on a total VOC concentration, said alert level comprising several sequential alert states, respectively and gradually increasing the ventilation speed. For example, the quality index is based on a concentration of formaldehyde, ethane, isoprene/2-methyl-1,3 Butadiene, ethanol, acetone and benzene.

In a preferred embodiment, the air treatment system is a connected system and comprises a communication system comprising a remote server, such as a cloud server hosting a database and a management application accessible from a smartphone or a computer. Similarly, the measurement station comprises a WI-FI communication module configured to transmit operating data from the ventilation device and/or from said measurement station to the server, and the management application intervenes on the ventilation speed at the means of a command transmitted to the ventilation device via the measuring station. A user of the system can thus advantageously monitor and control the operation of the turbine of the air device by means of his smartphone or his computer.

This embodiment may also comprise all or part of the following characteristics considered separately or in any technically operable combination.

• The ventilation device comprises a filter provided with pressure sensors, and said ventilation device is configured to transmit measurements from said sensors to the server via the measurement station, and in which the management application is configured to determine a saturation level of said filter and so that a user is notified by the application of a need for a filter change.
• The ventilation device comprises a central unit controlling the operating speed of the turbine and air heating means according to the measurements of the hygrometry sensors and the temperature sensors of the said ventilation device, the said central unit being configured to transmit the operating data to the server via said measuring station, said operating data comprising a history of the operating speed of the turbine, a history of air temperature and of use of air heating means, an air humidity history, and/or errors of said ventilation device.
• The air treatment system comprises a plurality of pairs of air treatment devices and measurement stations transmitting operating data to the server for its storage in the database.
• Each pair of air treatment device and measuring station is configured to transmit identification and configuration data of said pair to the server.
• The server is accessible through several management applications, a first user application giving restricted access to the database, an installer application giving expanded access to the database, and an administrator application giving full access to the database of data.
• The user application gives access to a user register of the database comprising a configuration of a local network of a pair of ventilation device and measuring station, the technical and operating characteristics of said pair, and an installer having configured said couple.
• The installer application gives access to all of the user registers containing an identifier of said installer in the database, to configuration commands for each pair present in said user registers, as well as to a register containing a list of pairs of processing device and capture station connected to said installer; And
• The administrator application provides access to a plurality of user and installer registers, and to commands for managing said plurality of registers.

Other advantages, aims and particular characteristics of the present invention will emerge from the description which will follow, given for the purpose of explanation and in no way limiting, with reference to the appended drawings.

Presentation of drawings

A schematic representation of the air handling system installed in a home.

A schematic representation of a connected air treatment system according to the invention

Detailed description of an embodiment of the invention

The objective of the present invention is an air treatment system making it possible to regulate the air treatment according to the air quality inside a dwelling.

Another object of the invention is to provide an air treatment system comprising an optimal configuration for determining the air treatment needs of a home and for managing the system.

To this end, the invention proposes an air system comprising a ventilation device by air suppression and a measurement station comprising an air quality sensor, said station being detached from the ventilation device and communicating with said device at the means of a wireless link.

As schematically illustrated in the , the overpressure air ventilation device 10 is typically installed in the upper part of the dwelling, for example in the attic of a house, and so as to be in a position to blow outside air into the dwelling and create a downdraft of air flowing outward from the habitat. The ventilation device comprises at least one inlet for an air inlet duct, a filtration module provided with pressure sensors, a variable-speed turbine, means for heating the hygrometry sensors, as well as a unit control (not shown).

The control unit allows the fan speed of the turbine to be regulated according to preconfigured modes or in response to a user command, it also regulates the intensity of heating to inject air at a temperature and rate of optimum humidity. Additionally, the present invention proposes to also regulate the fan speed of the turbine according to an air quality alert level determined inside the dwelling by the measuring station 20. It is thus possible to optimize the air treatment according to a need in real time to improve the air quality inside the dwelling.

Advantageously, the measuring station 20 is a unit detached from the air treatment device and able to be placed freely inside the housing. The measuring station 20 can therefore be placed in a location and at a height representative of the air breathed by the inhabitants of the dwelling, for example in the living room. In contrast, the air handler must be placed strategically to properly distribute the air flow entering the home from the outside of the house, so it is often installed in the attic.

In order to provide an air quality alert level, the measuring station 20 includes a VOC/CO ₂ sensor. This sensor is configured to detect a level of CO ₂ in the air and provide an estimate of the total concentration of volatile organic compounds, called TVOC “total volatile organic compounds” in the form of an air quality index. In one embodiment, the sensor is sensitive to formaldehyde, ethane, isoprene/2-methyl-1,3 butadiene, ethanol and acetone, and the air quality index is based on their presence.

According to one embodiment, the measuring station comprises a control module comprising an electronic card comprising processing and calculation means connected to said CO ₂ /VOC sensor, said microprocessor being configured to determine an alert level or the issuance of an alarm based on the air quality index and the CO ₂ level detected by the sensor. For example, the measuring station determines an alert level in the form of digital alert states gradually increasing the ventilation speed and the emission of an alarm as indicated in table 1 below, and in which the values “aaa”, “bbb”, “ccc”, “ddd”, “eee”, “xx”, “yy”, and “zz” are configurable.

Indicator
air quality CO ₂ rate Action on turbine speed / Alarm Alert level IAQ <50 > aaa ppm No action 0 50 < IAQ < 100 > bbb ppm + xx % /no alarm 1 100 < IAQ < 150 > ccc ppm + yy%/pre-alarm 2 150 < IAQ < 200 > ddd ppm + zz%/alarm 3 IAQ > 200 > eee ppm +100%/alarm + 4

In order to regulate the speed of the turbine in real time, the ventilation device 10 is configured to periodically transmit an operating speed to the measuring station. The measuring station analyzes and validates said operating speed according to the alert level determined, for example when the alert level is 0 and no action on the turbine is necessary. Or, when an alert level > 0 is detected, the measuring station transmits a speed increase command according to the alert level determined by the sensor. This measurement increase command can be given for a fixed period, then the measurement station re-evaluates the alert level and the necessary actions on the turbine. In another embodiment, the measuring station is also configured to command a decrease in ventilation speed when it proves to be too high in relation to the detected alert level.

There shows a schematic representation of a preferred embodiment of an air treatment system of the invention comprising the ventilation device 10 of air by overpressure and the air quality measuring station 20 detached from said device ventilation. In this embodiment, the system of the invention is a connected air treatment system and also comprises a remote server (such as a cloud server) hosting a database and a management application accessible by smartphone or computer. .

On the one hand, the measuring station and the air treatment device respectively comprise a wireless communication module comprising radio transmission and reception means. Preferably, the air treatment device and the measuring station communicate via a bidirectional 868 MHz radio link in order to ensure a stable communication link and a good level of signal reception despite the presence of interfering materials between the two.

On the other hand, the measuring station also comprises a WI-FI communication module and communicates with the server 30 and the application by means of a WI-FI link. More specifically, the measuring station transmits operating data from the ventilation device 10 and from the measuring station 20 to the server.

Advantageously, the server 30 hosts in the database the data transmitted by the measuring station 20. For example, the database comprises a so-called user register comprising the operating and identification data of the ventilation device 10 and of the measurement station 20, such as system configuration parameters, turbine operating speed history, air temperature and air heating means usage history, humidity history of air, errors of said ventilation device, an air quality level history, an identifier of the air treatment device and/or of the measuring station, an identifier of the dwelling, and/or an identifier of the system installer and users.

The initial transmission of identification data of a couple of ventilation devices and a measuring station can for example be made in the installation process. In this process, the ventilation device is paired with the measuring station so as to form a specific pair, and for which the Wi-Fi parameters (SSID of the site, encryption key) are configured. This pair will then be recognized or activated in the server database by means of a unique identifier of the measuring station, this identifier having been assigned at the manufacturing stage to each measuring station. It will thus be possible to create a dedicated register in the database to store the operating data of said couple.

In order to optimize the management of the system, the invention proposes providing access to said database by means of a management application. A user will therefore be able to access the registers of the database and read the operating alerts of the ventilation device 10. The management application also makes it possible to send, if necessary, a manual intervention command to modify the ventilation speed. Similarly, the management application is configured to calculate a saturation state of the filters, or to alert on a need for intervention on the ventilation device. A user will also be able to access the identification data of the installer of the device and contact him in the event of the need for intervention.

This configuration of the system allows optimal management of the ventilation device, the ventilation speed of which is managed in real time by the measuring station, while being able to be supervised and controlled by a user of the device by means of a smartphone application. It is also possible to draw the user's attention to a need for intervention on the ventilation device, which is often neglected once installed in the home.

In one embodiment, the air treatment system comprises a plurality of pairs of air treatment devices and measurement stations transmitting operating and identification data to the server. The invention therefore proposes to create installer access to said database by means of a dedicated application. The installer application allows access to the set of user registers sharing an installer identifier, and allowing access to configuration commands for each pair of ventilation device and measuring station.

Finally, the invention proposes to create privileged access to the database of the server 30 by means of an administrator application giving access to the set of registers of the database of the server of different users and installers, and allowing access management commands for said registers.

The configuration of the air treatment system is thus very advantageous in that it is possible to supervise the operation of the air ventilation device at several levels, and so as to guarantee as well as possible an effective treatment of air by appropriate use of the device according to the real needs of a habitat, as well as due to good maintenance of the equipment.

Claims (9)

Air treatment system comprising a ventilation device (10) comprising a turbine with variable ventilation speed as a function of an air quality factor, characterized in that said system comprises:
- a measurement station (20) comprising a sensor configured to provide an air quality alert level, said measurement station (20) and the ventilation device (10) being interconnected by means of a link two-way radio; and in that
- the ventilation device (10) is configured to communicate to said measurement station (20) an operating ventilation speed, and said measurement station (20) transmits to the ventilation device (10) a speed modification command of ventilation according to the air quality alert level. A treatment system according to claim 1, wherein the sensor of the measuring station (20) is sensitive to CO ₂ and/or VOC volatile organic compounds, and wherein the air quality alert level is determined by as a function of a CO ₂ level and/or an air quality index based on a total VOC concentration, said alert level comprising several sequential alert states, respectively and gradually increasing the ventilation speed . A treatment system according to claim 2, wherein the quality index is based on a concentration of formaldehyde, ethane, isoprene/2-methyl-1,3 Butadiene, ethanol, acetone and/or benzene. Air treatment system according to one of the preceding claims, comprising a remote server hosting a database and a management application accessible by a mobile terminal or a computer, and in which the measuring station comprises a communication module WI -FI configured to transmit operating data from the ventilation device and/or from said measuring station to the server, and in which the management application intervenes on the ventilation speed by means of a command transmitted to the ventilation device by through the measuring station. Air treatment system according to claim 4, in which the ventilation device comprises a filter provided with the pressure sensors, and the said ventilation device is configured to transmit measurements from the said sensors to the server via the measurement station , and wherein the management application is configured to determine a saturation level of said filter. Air treatment system according to one of Claims 4 or 5, in which the ventilation device comprises a central unit controlling the operating speed of the turbine and air heating means as a function of the measurements of the air sensors. hygrometry and temperature sensors of said ventilation device, said central unit being configured to transmit operating data to the server via said measurement station, said operating data comprising a history of the operating speed of the turbine, a history of air temperature and use of air heating means, history of air humidity, and/or errors of said ventilation device. Air treatment system according to one of Claims 4 to 6, comprising a plurality of pairs of air treatment devices and measurement stations transmitting their operating and identification data to the server for its storage in the base of data. Air treatment system according to one of Claims 4 to 7, in which the server is accessible through several management applications, a first user application giving restricted access to the database, an installer application giving access extended to the database, and an administrator application giving full access to the database. An air treatment system according to claim 8, wherein:
-the user application gives access to a user register of the database comprising a configuration of a local network of a pair of ventilation device and measuring station, the technical and operating characteristics of said pair, and an installer having configured said couple
- the installer application gives access to all of the user registers comprising an installer identifier and to configuration commands for each pair in said user registers, as well as to a register comprising a list of processing device and station pairs capture linked to said installer identifier; And
the administrator application gives access to a plurality of user and installer registers, and to commands for managing said plurality of registers.