EP3710072A1

EP3710072A1 - Method for executing session of diffusion of active gaseous composition in habitable environment

Info

Publication number: EP3710072A1
Application number: EP18879771.6A
Authority: EP
Inventors: Olivier Partrat
Original assignee: Evergreen Land Ltd
Current assignee: Evergreen Land Ltd
Priority date: 2017-11-15
Filing date: 2018-11-13
Publication date: 2020-09-23
Also published as: US20210187236A1; FR3073419B1; FR3073419A1; EP3710072A4; WO2019097394A1; CN112040990A

Abstract

A method is disclosed to provide a diffusion procedure (D) during which at least one characteristic of said diffusion is controlled in order to confer a diffusion desired for said composition, and, before the execution of said diffusion procedure (D), to execute a previous procedure of treatment (T1) of the air of the environment, said previous treatment (T1) procedure intending to: measure at least one physico-chemical parameter of said air; compare said measured parameter to a threshold; and, if said threshold is exceeded by said measured parameter, activate a device for treatment of the air that is arranged in order to modify said parameter in compliance with said threshold.

Description

METHOD FOR EXECUTING A DIFFUSION SESSION OF AN ACTIVE GAS COMPOSITION IN A HABITABLE ENVIRONMENT

The invention relates to a method for executing a diffusion session of an active gas composition in a habitable environment, as well as a system for implementing such a method.

It applies in particular to a diffusion session of a gaseous composition whose active ingredient comprises at least one volatile compound, for example at least one essential oil, especially for aromatherapy purposes.

Document FR-3 040 596 describes an odoriferous gas composition diffuser device comprising a flow generator of said composition contained in a tank. In particular, this device can be controlled to confer the desired diffusion for said composition, in particular by varying the flow velocity of the air flow at the reservoir.

However, for a session to be truly beneficial, especially in the context of aromatherapy, it must be performed in a controlled environment, particularly with regard to the relative absence of pollutants in the air at that session.

Thus, above the level of organic volatile component or not, and / or particles suspended in the air of the environment, a diffusion of an aromatherapeutic composition may be unnecessary or even dangerous. Likewise, the efficiency of the session is improved when the rate of active composition in the air to be breathed is maintained in a defined therapeutic window.

The document WO-2017/186606 describes a method for generating a scented atmosphere in a room comprising an air purification device capable of removing a polluting substance, which provides for monitoring the concentration of the polluting substance and for diffusing at least one a substance in the room when the monitored concentration falls below a predefined threshold.

In particular, in order to limit the risks of a potentially dangerous chemical reaction between the polluting and odorous substances, this document provides for monitoring the concentration of the polluting substance to control the diffusion of the odorant substance.

However, this management is not compatible with the dissemination sessions envisaged, in particular in that they must be driven according to the desired effects and not the concentration of pollutants.

The invention aims to improve the prior art by proposing in particular a method for executing a diffusion session of an active gas composition in a habitable environment, in which the benefit of said session is optimized, particularly in relation to a aromatherapy session.

For this purpose, according to a first aspect, the invention proposes a method of performing a diffusion session of an active gas composition in a habitable environment, said method providing for a diffusion procedure during which at least one characteristic said diffusion is controlled to confer a desired diffusion for said composition, said method providing, prior to the execution of said broadcast procedure, to perform a prior procedure for treating the air of the environment, said prior procedure of treatment providing for:

measuring at least one physico-chemical parameter of said air;

comparing said measured parameter with a threshold; and,

- If said threshold is exceeded by said measured parameter, activate an air treatment device which is arranged to modify said parameter in accordance with said threshold.

According to a second aspect, the invention proposes a system for a diffusion session of an active gas composition in a habitable environment, said system comprising a device for diffusing said gaseous composition, a device for measuring at least one physico-chemical parameter of the air and a device for treating said air, said system further comprising a steering application of said devices which is arranged for the implementation of such a method.

Other features and advantages of the invention will appear in the description which follows, made with reference to the appended figures, in which:

FIG. 1 schematically represents the procedures implemented in a method of execution according to one embodiment of the invention;

• Figure 2 schematically shows a system according to one embodiment of the invention.

In connection with these figures, there is described below a method of performing a diffusion session of an active gas composition in a habitable environment, and a system for the implementation of such a session.

Advantageously, the invention can be implemented in a living environment, for example a room in particular with an air volume of less than 200 m ³ , for example less than 80 m ³ . According to another application envisaged, the living environment may have a lower air volume, for example being the passenger compartment of a motor vehicle.

In particular, the session allows the diffusion of a gaseous composition whose active ingredient comprises at least one volatile compound, for example at least one essential oil, especially for aromatherapy purposes, said composition then being inhaled by the occupant (s). (s) of the environment to confer the expected effect, for example by helping to reduce oxidation and inflammation. According to other applications envisaged, the action of the gaseous composition may confer at least one other welfare function, such as, for example, perfuming, deodorant, biocidal, bactericidal, fungicidal, repulsive or attractive functions. To do this, the system comprises a device 1 for diffusing the active gas composition. According to an advantageous embodiment, the diffusion is said to be dry in that it is obtained by a flow of air at the level of a volatile formulation of the composition to be diffused.

By way of example, specific formulations are described below according to the effect desired for the session.

Formulation 1: brain energy function, memory

Formulation 2: relaxing function

Formulation 3: sleep enhancement function

Formulation 4: Respiratory function

Formulation 5: mosquito repellent function

According to one embodiment, in particular known from document FR-3 040 596, the diffusion device 1 comprises at least one cartridge containing a volatilizable formulation of the composition to be diffused, and means for generating an air flow at said level. cartridge. As a variant, optionally in addition to the air-flow volatilization means, the diffusion device 1 comprises means for thermal and / or vibratory volatilization, for example piezoelectric, of the composition to be diffused. Advantageously, the cartridge may be removable and / or reclosable between two diffusion procedures. Furthermore, the diffusion device 1 may comprise at least two cartridges that can be used together or separately by the volatilization means, in order to envisage a combined or separate action of the volatilizable formulations contained in each of said cartridges.

The broadcast session includes a broadcast procedure D during which at least one feature of said broadcast is driven to provide a desired broadcast for said composition, including providing for controlling the volatilization means. In particular, the diffusion control characteristic can be chosen from the diffusion time and the gaseous composition concentration of a diffused air flow.

The execution system of the session comprises an application 2 for controlling the diffusion device 1, in particular the speed of generation of the air flow by the volatilization means of said device. The application 2 can be implemented in a digital medium, for example integrated in the device 1 of diffusion or formed of an electronic device present in the environment, such as a computer or a smartphone.

The digital medium comprises communication means, for example of the Bluetooth or Wifi type, with the broadcasting device 1, as well as a user interface. Furthermore, the digital medium comprises memory means, in particular for storing the history of use and relevant data for the sessions to be performed.

In relation with FIG. 2, the execution system of the session comprises a module 5 dedicated to controlling the devices 1, 3, 4, said module being able to be permanently disposed in the environment to receive the piloting instructions of the application 2 in order to ensure said control, including independently in the absence of the digital medium. In particular, module 5 comprises means of communication with, on the one hand the application 2 and, on the other hand, the devices 1, 3, 4, said application can then no longer have to communicate directly with said devices.

According to one embodiment, the broadcast procedure D provides an initial determination of at least one control characteristic of said broadcast, said determination being made according to the broadcast session to be performed and / or the nature of the environment. In particular, the driving characteristics may be the diffusion time, for example of the order of 20 minutes, and the speed of the air flow, the broadcast may however be interrupted and / or prolonged or manually modulated by the user. .

The cartridge containing the volatilizable formulation to be diffused contains information, in particular concerning the nature of the formulation it contains, and the system comprises means for reading said information which are capable of transmitting said information to application 2 to drive at least a characteristic of diffusion according to them. According to one embodiment, the information is contained in an RFID type support.

Thus, when introducing a cartridge into the broadcasting device 1, the broadcasting procedure D can be automatically controlled by the application 2 as a function of the session to be executed.

In particular, the volatilization means are controlled to adapt the speed and / or the nature of the air flow as a function of the expected concentration of active gas composition. Indeed, a faster and / or more concentrated flow makes it possible to increase the concentration of the gaseous composition in the air of the environment.

The system comprises a device 3 for measuring at least one physico-chemical parameter of the air, for example chosen from a volatile organic content rate or not, a rate of suspended particles, the humidity, the temperature and the pressure. In particular, such a device 3 comprises at least one sensor of the parameter and means for measuring and communicating said measured parameter.

By means of this device 3, the diffusion procedure D provides an iterative measurement of at least one physico-chemical parameter of the air of the environment, at least one characteristic of said diffusion being controlled as a function of said measured parameter.

The device 3 can thus measure a parameter related to the diffused gas composition, for example a content of at least one organic volatile component contained in said composition, said device comprising means for communicating said parameter to the application 2 which, after comparison with a desired rate, pilot the device 1 broadcast dynamically. Thus, the effectiveness of the session is improved since the rate of active composition in the air can be maintained in a defined therapeutic window.

The system also comprises a device 4 for treating the air of the environment, for example in the form of an air purifier which can in particular decrease levels of volatile organic component or not, levels of particles in suspension, in particular by filtration.

By means of such a device 4 and prior to the execution of the diffusion procedure D, the method provides for carrying out a prior procedure for treating T1 of the air of the environment, said prior treatment procedure providing for:

measuring at least one physico-chemical parameter of said air;

comparing said measured parameter with a threshold; and,

- If said threshold is exceeded by said measured parameter, activate the air treatment device 4 which is arranged to modify said parameter in accordance with said threshold.

The devices 1, 4, 5 of the system can be physically separated by communicating with the wireless application 2, or by means of at least one link Wired. According to another embodiment, at least two of the devices 1, 4, 5 can be integrated in the same device.

According to one embodiment, the device 3 can measure a parameter related to the pollution of the air of the environment, for example levels of volatile organic component or not, levels of particles in suspension, in particular as a function of the size of said particles but also the environment itself, for example its humidity, temperature and pressure.

The measured parameter is then communicated to the application 2 which, after comparison with the threshold, can interact with the processing device 4 to be able to control it. In particular, depending on the session to be executed, the application 2 integrates the parameter (s) and their respective threshold, said application interacting with the measurement device 3 to obtain the relevant data.

Thus, by setting at least one optimal threshold for at least one of the physico-chemical parameters of the air in the environment, the application 2 can control the diffusion procedure D only after controlling the treatment device 4 particularly the relative lack of pollutants in the air during the session.

In particular, the air breathed during the session is healthy in that it responds to a given quality, said quality can be further improved by providing other types of driving parameter of the session, particularly with respect to light in the environment. In one embodiment, a light sensor may be used to control a light emitter 6 in agreement with the session to be performed, in particular to be able to combine the benefits of light therapy with those of the diffusion of the gas composition.

According to one embodiment, the method provides for activating the air handling device 4 for a given time and / or performing the diffusion procedure D after the lapse of a given time, in particular of the order of 15 minutes at the end of the T1 pre-treatment procedure. In particular, the procedure for T1 processing and diffusion procedure D are performed independently, one after the other, in order to be optimized each for their purpose.

To make reliable the implementation of the diffusion procedure D in an optimal environment, the method provides a measurement of at least one physicochemical parameter of the air at the end of the prior treatment procedure T1 and, in case of overrun a threshold by said measured parameter, to perform an additional procedure of treatment of said air before activation of the device 1 broadcast.

In addition to this pre-treatment of the air, advantageously, the method provides, after the execution of the diffusion procedure D, a subsequent procedure for treating T2 of the air of the environment during which the device 4 of air treatment is activated if necessary to change at least one physicochemical parameter of said air.

In particular, the modified parameter is related to the diffused gas composition, in particular by treating the air after the diffusion so that the gaseous composition concentration is reduced to truly end the session in the environment.

Advantageously, the application 2 can provide the user with at least one of the following functions:

- REMOTE CONTROL: access and trigger devices 1, 3, 4 from anywhere;

- PILOT THE BROADCAST: start or schedule a session with a 7 day program;

- MONITOR AIR QUALITY: know what you breathe at a glance, for example on your smartphone;

- FOLLOW YOUR AIR PURIFICATION: follow the purification activity of the device 4 of real-time processing; - RAPIDLY VIEW REPORTS: Easily access detailed air quality history reports and export them to your desktop or laptop;

- CHECK YOUR LIFE CONSUMABLES: see how much time is left for your capsules and your treatment device filter 4 before having to be changed.

Claims

1. A method of executing a diffusion session of an active gas composition in a habitable environment, said method providing a diffusion procedure (D) during which at least one characteristic of said diffusion is controlled to confer diffusion desired for said composition, said method being characterized in that it provides, prior to the execution of said diffusion procedure, to perform a prior procedure for the treatment (T1) of the air of the environment, said prior procedure treatment plan providing for:

measuring at least one physico-chemical parameter of said air;

comparing said measured parameter with a threshold; and,

- If said threshold is exceeded by said measured parameter, activate an air treatment device (4) which is arranged to modify said parameter in accordance with said threshold.

2. Method of execution according to claim 1, characterized in that it provides, after the execution of the diffusion procedure (D), a subsequent procedure of treatment (T2) of the air of the environment during of which an air treatment device (4) is activated in order to modify at least one physicochemical parameter of said air.

3. Execution method according to claim 2, characterized in that the modified parameter is related to the diffused gas composition.

4. Method of execution according to any one of claims 1 to 3, characterized in that the diffusion procedure (D) provides an iterative measurement of at least one physico-chemical parameter of the air of the environment, at least one characteristic of said diffusion being controlled as a function of said measured parameter.

5. Execution method according to claim 4, characterized in that the measured parameter is related to the gas composition diffused.

6. Method of execution according to any one of claims 1 to 5, characterized in that the diffusion procedure (D) provides an initial determination of at least one control characteristic of said diffusion, said determination being performed according to the broadcast session to be performed and / or the nature of the environment.

7. Method of execution according to any one of claims 1 to 6, characterized in that the diffusion control characteristic is selected from the diffusion time and the gas composition concentration of a diffused air flow.

8. Execution method according to any one of claims 1 to 7, characterized in that the diffusion procedure (D) provides for controlling volatilization means of the composition to be diffused.

9. The method of embodiment according to claims 7 and 8, characterized in that the volatilization means are controlled to adapt the speed and / or the nature of the air flow as a function of the expected concentration of gas composition.

10. The method of embodiment according to any one of claims 1 to 9, characterized in that the physicochemical parameter is selected from volatile organic content or non-volatile content and suspended particle levels.

1 1. Execution method according to any one of claims 1 to 10, characterized in that it provides for activating the device (4) for treating the air for a given time.

12. Method of execution according to any one of claims 1 to 1 1, characterized in that it provides for performing the diffusion procedure (D) after the flow of a given time at the end of the prior treatment procedure (T1).

13. Method of execution according to any one of claims 1 to 12, characterized in that it provides a measurement of at least one physicochemical parameter of the air at the end of a treatment procedure ( T1, T2) and, if a threshold is exceeded by said measured parameter, to carry out an additional procedure for treating said air.

14. The method of embodiment according to any one of claims 1 to 13, characterized in that the gaseous composition comprises at least one volatile compound, especially for aromatherapy purposes.

15. The method of execution according to any one of claims 1 to 14, characterized in that it provides for driving a light emitter (6) in accordance with the session to be executed.

16. System for a diffusion session of an active gaseous composition in a habitable environment, said system comprising a device (1) for diffusing said gaseous composition, a device (3) for measuring at least one physico-chemical parameter air and a device (4) for treating said air, said system further comprising an application (2) for controlling said devices which is arranged for the implementation of a method according to any one of claims 1 to 15.

17. System according to claim 16, characterized in that the diffusion device (1) comprises at least one cartridge containing a volatilizable formulation of the composition to be diffused, and means for volatilization of said formulation in an air stream which are controlled. by the application (2).

18. System according to claim 17, characterized in that it comprises means for reading information carried by the cartridge, said means being capable of transmitting said information to the application (2) for controlling at least one characteristic of the broadcast as a function of them.

19. System according to claim 17 or 18, characterized in that the cartridge is removable and / or reclosable between two diffusion procedures (D).

20. System according to any one of claims 17 to 19, characterized in that the device (1) for diffusion comprises at least two capsules that can be used together or separately by the volatilization means.

21. System according to any one of claims 17 to 20, characterized in that it further comprises a module (5) dedicated to controlling the devices (1, 3, 4).