EP3267121A1 - Method for determining an open state of an openable panel of a room of a building and associated determining device - Google Patents

Abstract

A method for determining an opening state of an opening of a building room, the room being equipped with the opening, a temperature sensor and a humidity sensor, the method comprising : a step of measurement by the humidity sensor of the relative humidity level of the air inside the room and measurement by the temperature sensor of the air temperature inside the room; a determination step, in particular a calculation step, of the absolute humidity of the air inside the room from the relative humidity level of the air inside the room and the room temperature; the air inside the room; a step of analyzing the temporal evolutions of the internal absolute humidity; and - A step of using the results of the analysis step to determine the opening state of the opening.

Description

The invention relates to a method for determining an opening state of an opening of a room of a building. The invention also relates to a method of controlling a home automation device. The invention also relates to a device for determining an opening state of an opening of a room of a building. The invention also relates to a computer program implementing one of the mentioned methods. The invention finally relates to a recording medium on which such a program is recorded.

In a building comprising opening on the outside of the building, it appears important to be able to determine if one of the opening is in an open or closed configuration. This can be used to rationally manage the energy used in the building to ensure thermal comfort inside the building.

When the opening is operated using a home automation drive device of the opening, this device has in principle knowledge of the opening or closing state of the opening. In some cases, the home automation device still has the ability to transmit this information to another system, including a power management system.

However, in some other cases, the home automation drive device of the opening is not aware of the opening state of the opening or does not have the ability to transmit this information to another system. In some other cases, the opening can be moved manually.

Some motorized window devices include ambient parameter sensors. The analysis of these parameters allows in particular to optimize the quality of the ambient air in the room to improve the internal comfort of the user by acting on the openings and closures of the motorized windows to make the so-called natural ventilation. However, it is not intended to detect a manual opening of a window or a door and to avoid the impact of this action on the energy consumption of the heating and / or air conditioning system.

It then appears advantageous to have a device for autonomously determining the opening state of the door, this opening state being the result of an action of any kind on the door, in particular a manual action. Furthermore, the device must also be able to determine the opening state of the opening whatever the nature of the opening, including a door or a window.

To solve this problem, each window can be equipped with an opening sensor. It is particularly known documents WO2009058127 or US2014135998 to provide dedicated opening sensors detecting the opening of a window or a door. This is not always economically feasible.

Document is known JP2745917 a method of avoiding waste of energy by discriminating the open and closed states of a window of a room as a function of the rate of temperature change in the room after switching on the heating. It is then determined if it is necessary to continue warming up the room or to suspend it by turning off the heating.

However, this solution has disadvantages. In particular, the detection of the opening of the window appears not very precise and the method can not be used when the temperatures inside and outside the premises are equal or slightly different. The accuracy and speed of detection is very dependent on the temperature difference between the inside and the outside of the room.

The object of the invention is to provide a device and an aperture determination method which overcomes the above disadvantages and improves the aperture state determining devices and methods known from the prior art. In particular, the invention makes it possible to provide a device and a method that are simple and reliable and that allow precise detection of the open state.

• une étape de mesure par le capteur d'humidité du taux d'humidité relative de l'air à l'intérieur du local et de mesure par le capteur de température de la température de l'air à l'intérieur du local ;
• une étape de détermination, notamment une étape de calcul, de l'humidité absolue de l'air à l'intérieur du local à partir du taux d'humidité relative de l'air à l'intérieur du local et de la température de l'air à l'intérieur du local;
• une étape d'analyse des évolutions temporelles de l'humidité absolue intérieure ; et
• une étape d'utilisation des résultats de l'étape d'analyse pour déterminer l'état d'ouverture de l'ouvrant.

A method according to the invention makes it possible to determine a state of opening of an opening of a room of a building, the room being equipped with the opening, a temperature sensor and a humidity sensor. . The method comprises:

• a step of measurement by the humidity sensor of the relative humidity rate of the air inside the room and measurement by the temperature sensor of the air temperature inside the room;
• a determination step, in particular a calculation step, of the absolute humidity of the air inside the room from the relative humidity level of the air inside the room and the temperature of the room. air inside the room;
• a step of analysis of the temporal evolutions of the absolute humidity inside; and
• a step of using the results of the analysis step to determine the opening state of the opening.

In the analysis step, it is possible to calculate the temporal variation rate of the absolute humidity of the air inside the room, in particular the rate of temporal variation of the absolute humidity of the room can be calculated in real time. the air inside the room.

• on peut comparer un premier seuil au taux de variation temporelle de l'humidité absolue de l'air à l'intérieur du local ; et
• on peut considérer que l'ouvrant est ouvert si le premier seuil est supérieur au taux de variation temporelle de l'humidité absolue de l'air à l'intérieur du local.

In the step of using the results:

• a first threshold can be compared with the temporal variation rate of the absolute humidity of the air inside the room; and
• it can be considered that the opening is open if the first threshold is greater than the temporal variation rate of the absolute humidity of the air inside the room.

• on peut comparer un deuxième seuil au taux de variation temporelle de l'humidité absolue de l'air à l'intérieur du local ; et
• on peut considérer que l'ouvrant est fermé si le deuxième seuil est inférieur au taux de variation temporelle de l'humidité absolue de l'air à l'intérieur du local.

In the step of using the results:

• a second threshold can be compared with the temporal variation rate of the absolute humidity of the air inside the room; and
• it can be considered that the opening is closed if the second threshold is less than the temporal variation rate of the absolute humidity of the air inside the room.

The second threshold may be zero.

The first threshold may be dependent on the temperature of the air inside the room and / or the temperature of the air outside the room and / or the absolute humidity of the air at the room. outside the room and / or the second threshold may be dependent on the temperature of the air inside the room and / or the air temperature outside the room and / or the absolute humidity of the room. the air outside the room.

The step of using the results of the analysis step can be inhibited when the difference between the absolute humidity of the air inside the room and the absolute humidity of the air outside the room. local is less than a third threshold, especially less than 1 g / kg.

The method may comprise, when the opening is in an open state, a step of calculating a rate of renewal of the air in the room, the calculation using the variations of the absolute humidity of the air at the room. inside the premises.

The method may comprise, following the passage of the opening of a closed state to an open state, a step of initialization of the rate of renewal of the air in the room.

The method may comprise the transmission of an information or control message as soon as the rate of renewal of the air is greater than a fourth threshold.

• une étape de détermination d'un état d'ouverture d'un ouvrant du local du bâtiment mettant en oeuvre le procédé de détermination défini précédemment ;
• une étape de réception par un dispositif de commande du dispositif domotique d'une information d'état de l'ouvrant ;
• une étape d'exécution d'une commande déterminée par l'état de l'ouvrant par le dispositif domotique, en particulier une étape d'exécution d'une commande de mise hors fonction du dispositif domotique si l'ouvrant est ouvert et/ou une étape d'exécution d'une commande de remise en fonction ou de maintien en fonction du dispositif domotique si l'ouvrant est fermé.

A method according to the invention makes it possible to control a home automation device, in particular a heating and / or air conditioning device, providing a comfort function in a building room. The method comprises:

• a step of determining an opening state of an opening of the building premises implementing the determination method defined above;
• a step of reception by a control device of the home automation device of a status information of the opening;
• a step of executing a command determined by the state of the door leaf by the home automation device, in particular a step of executing an off command of the home automation device if the door is open and / or a step of executing a command to restart or maintain the home automation device if the door is closed.

A device according to the invention makes it possible to determine a state of opening of an opening of a room of a building, the room being equipped with the opening.

The device comprises hardware and / or software elements implementing the determination method defined above.

• un élément de détermination, notamment un élément de calcul, de l'humidité absolue de l'air à l'intérieur du local à partir de l'humidité relative de l'air à l'intérieur du local ; et/ou
• un élément d'analyse des évolutions temporelles de l'humidité absolue de l'air à l'intérieur du local ; et/ou
• un élément utilisant des résultats fournis par l'élément d'analyse pour déterminer l'état d'ouverture de l'ouvrant ; et/ou
• un élément de détermination, notamment un élément de calcul, de l'humidité absolue de l'air extérieur au local à partir de l'humidité relative de l'air à l'extérieur du local.

The hardware and / or software elements may include:

• a determining element, in particular a calculating element, of the absolute humidity of the air inside the room from the relative humidity of the air inside the room; and or
• an element of analysis of temporal evolutions of the absolute humidity of the air inside the room; and or
• an element using results provided by the analysis element to determine the opening state of the sash; and or
• a determining element, in particular a calculating element, of the absolute humidity of the air outside the room from the relative humidity of the air outside the room.

The invention also relates to a computer program comprising computer program code means adapted to implement the steps of the determination method defined above or the control method defined above when the program runs on a computer.

The invention also relates to a processor-readable recording medium on which is recorded a computer program comprising instructions for executing the steps of the previously defined determination method or the previously defined control method.

• La figure 1 représente un bâtiment équipé d'un dispositif de détermination selon l'invention.
• La figure 2 représente un mode de réalisation du dispositif de détermination selon l'invention.
• La figure 3 représente un ordinogramme d'un mode d'exécution d'un procédé de détermination selon l'invention.
• La figure 4 est un graphique illustrant les relations existant entre la température, l'humidité absolue et l'humidité relative de l'air.
• La figure 5 est un graphique illustrant d'une part les variations de la température de l'air intérieur à un local au cours d'une période et les variations de l'humidité absolue de l'air intérieur à un local au cours de la même période.

The appended drawing represents, by way of example, an embodiment of a determination device according to the invention and an embodiment of a determination method according to the invention.

• The figure 1 represents a building equipped with a determination device according to the invention.
• The figure 2 represents an embodiment of the determination device according to the invention.
• The figure 3 represents a flow chart of an embodiment of a determination method according to the invention.
• The figure 4 is a graph illustrating the relationships between temperature, absolute humidity and relative humidity.
• The figure 5 is a graph illustrating, on the one hand, the variations of the indoor air temperature at a local during a period and the variations of the absolute humidity of the indoor air at a local during the same period.

An example of a building 1 equipped with an embodiment of a device for determining a state of opening of an opening 3 according to the invention is described below with reference to the figure 1 .

Building 1 can be a residential building or a commercial building, for example an office building or an industrial building. The building includes for example a compartmentalization in several premises. In particular, the building comprises a room 2 equipped with the opening 3. The opening 3 allows, in its open configuration, an air exchange between the environment 30 outside the building and the inner environment 20 to the local. Thus, in an open or open type of opening, the opening allows a renewal of the air located inside the room. In the embodiment shown, the opening is a window. However, the opening can be of another nature, including a door, a French window, a ventilation hatch or a ventilation system including a motorized ventilation system.

In the example of building shown, the building is compartmentalized in several premises. Thus, the room 2 is equipped with a door 4 allowing access to room 2 from another room in the building. The door 4 allows, in its open configuration, an air exchange between the indoor environment 35 little busy building, but outside the room, and the inner environment 20 to the local. Thus, in an open or open type of opening, the door as an opening, allows a renewal of the air located inside the room. This may be the case of a meeting room.

The room 2 is also equipped with a home automation device 10 providing a comfort function in the building room. The home automation device 10 may be a heating device, an air conditioning device or a motorized ventilation device. The home automation device 10 can be controlled by a control unit 11. This control unit can be arranged in the room 2 or in any other place. According to one aspect of the invention, the operation of the home automation device 10 is dependent on the opening or closing state of the opening of the room.

The room 2 is also equipped with a device 90 for determining the opening state of the opening 3 of the room 2 of the building 1. The control unit 11 can be a thermostat or any other type of control device of the home automation device.

This device 90 for determining the opening state of the door leaf is described in more detail below with reference to the figure 2 . The determining device 90 comprises elements 91, 92, 93, 94, 95, 96 hardware and / or software implementing or governing the method of determining the opening state of the opening 3 object of the invention . In particular, the determination device 90 comprises the hardware and / or software elements making it possible to implement the steps of the method for determining the opening state of the opening 3 which is the subject of the invention. These different elements may include software modules.

• un capteur 91 de mesure de l'humidité relative HRI contenue dans l'air à l'intérieur 20 du local ;
• un capteur 93 de mesure de la température TI de l'air à l'intérieur 20 du local ;
• un élément 95 d'acquisition de différents autres paramètres, comme par exemple la température TE de l'air à l'extérieur 30, 35 du local, l'humidité relative HRE contenue dans l'air à l'extérieur 30, 35 du local. Cet élément d'acquisition peut être un capteur physique local dédié, un capteur physique local partagé par différentes applications ou un accès informatique à un service donnant ces valeurs tel qu'un service internet ;
• un calculateur 92 ;
• un élément 94 d'émission d'un signal comme un signal d'information ou un signal de commande ;
• une mémoire 96.

For example, the hardware and / or software elements may include all or some of the following:

• a sensor 91 for measuring the relative humidity HRI contained in the air inside the room;
• a sensor 93 for measuring the temperature TI of the air inside the room;
• an element 95 for acquiring various other parameters, such as, for example, the temperature TE of the outside air 30, 35 of the room, the relative humidity HRE contained in the outside air 30, 35 of the room . This acquisition element may be a dedicated local physical sensor, a local physical sensor shared by different applications or computer access to a service giving these values such as an internet service;
• a calculator 92;
• an element 94 for transmitting a signal such as an information signal or a control signal;
• a memory 96.

The acquisition element 95 must be able to provide the temperature and humidity of the external environment 30 to the building and the room when it is desired to determine the state of the opening 3 allowing in open configuration the exchanges of air between the inner and the outer medium and the outer medium of the room and the building. The acquisition element 95 must be able to supply the temperature and the humidity of the outside medium to the room but inside the building when it is desired to determine the state of the opening 4 allowing in open configuration the exchanges of air between the inner and the outer medium and the outer medium on the premises but inside the building.

• un élément 921 de détermination, notamment un élément de calcul, de l'humidité absolue HAI de l'air à l'intérieur du local à partir de l'humidité relative HRI de l'air à l'intérieur du local et de la température TI de l'air à l'intérieur du local ;
• un élément 922 d'analyse des évolutions temporelles de l'humidité absolue de l'air à l'intérieur du local, notamment un élément de calcul d'un taux TX de variation temporelle de l'humidité absolue de l'air à l'intérieur du local ;
• un élément 923 utilisant des résultats fournis par l'élément d'analyse pour déterminer l'état d'ouverture de l'ouvrant ;
• un élément de détermination 924, notamment un élément de calcul, de l'humidité absolue HAE de l'air extérieur au local à partir de l'humidité relative HRE de l'air à l'extérieur du local et de la température TE de l'air à l'extérieur du local.

The calculator advantageously comprises all or part of the following elements:

• an element 921 for determining, in particular a calculation element, the absolute humidity HAI of the air inside the room from the relative humidity HRI of the air inside the room and the temperature IT of the air inside the room;
• an element 922 for analyzing temporal changes in the absolute humidity of the air inside the room, in particular an element for calculating a TX rate of temporal variation of the absolute humidity of the air at the room; interior of the premises;
• an element 923 using results provided by the analysis element to determine the opening state of the sash;
• a determining element 924, in particular a calculation element, of the absolute humidity HAE of the air outside the room from the relative humidity HRE of the air outside the room and the temperature TE of the room. outside the room.

• un premier comparateur 9231 permettant de comparer le taux TX à un premier seuil S1 ;
• un deuxième comparateur 9232 permettant de comparer le taux TX à un deuxième seuil S2 ; et
• un troisième comparateur 9233 permettant de comparer la différence DELTA entre l'humidité absolue HAI de l'air à l'intérieur du local et l'humidité absolue HAE de l'air à l'extérieur du local à un seuil S3.

For example, element 923 includes some or all of the following:

• a first comparator 9231 for comparing the TX rate to a first threshold S1;
• a second comparator 9232 for comparing the TX rate with a second threshold S2; and
• a third comparator 9233 making it possible to compare the difference DELTA between the absolute humidity HAI of the air inside the room and the absolute humidity HAE of the air outside the room at a threshold S3.

A single comparator can be used to replace the comparators mentioned above.

One embodiment of the method for determining an opening state of the opening 3 of the room 2 of the building 1 is described below with reference to the figure 3 . This embodiment is described in the case of a period where the interior of the room is heated.

In a first step E10, a memory 96 is initialized to contain a value characterizing the opening state of the opening leaf. In this step, the memory is initialized so that it translates that the opening is in the closed state. It is also possible to initialize a memory with values quantifying the absolute humidity HAI of the air inside the room, the absolute humidity HAE of the air outside the room, the relative humidity HRI of the room. air inside the room, the relative humidity HRE of the air outside the room, the temperature TI of the air inside the room and the temperature TE of the air outside the room. local.

In a second step E20, a measurement is made of the relative humidity HRI of the air inside the room. This measurement is advantageously carried out by the moisture measurement sensor of the relative humidity rate 91. Similarly, an acquisition of the relative humidity HRE of the air is carried out outside the room.

In a third step E30, a measurement is made of the temperature TI of the air inside the room. This measurement is advantageously carried out by the temperature measurement sensor 93. Similarly, an acquisition of the temperature TE of the air is carried out outside the room.

avec :

• HA : l'humidité absolue dans l'air ; et
• Temperature : la température de l'air.

In a fourth step E40, the absolute humidity HAI of the air inside the room is determined, in particular by calculation, from the relative humidity HRI of the air inside the room and the temperature. TI from the air inside the room. Likewise, the absolute humidity HAE of the air outside the room is determined from the relative humidity HRE of the air outside the room and from the temperature TE of the air to the room. outside the premises. The absolute humidity of the air can be determined by means of a conversion table such as that shown on the figure 4 . On this one, the temperature is represented in abscissa by the letter θ and the absolute humidity is represented in ordinate on the left of the graph by the letter x. In addition, ten characteristic curves are plotted for ten values of relative humidity φ data and noted at the right ends of these curves. We can also determine the absolute humidity of the air by an equation such as: $$\mathit{HA}=1000\times 0,622\times \frac{\mathit{Interm}}{101300-\mathit{Interm}}\mathrm{with}\mathit{Interm}=\frac{\mathit{<figure-callout\; id="100"\; label="HR"\; filenames="imgf0003.png"\; state="\{\{state\}\}">HR</figure-callout>}}{100}\times {10}^{2,7877+\frac{7,625\times \mathit{<figure-callout\; id="6"\; label="Temperature"\; filenames="imgf0003.png"\; state="\{\{state\}\}">Temperature</figure-callout>}}{241,6+\mathit{Temperature}}}$$

with:

• HA : the absolute humidity in the air; and
• Temperature : the temperature of the air.

This determination is for example carried out by the element 921 of the computer 92.

As seen above, the environment outside the room may be the environment outside the building or the environment outside the premises but inside the building. The air outside the room can therefore be the air from the outside of the building or the air from the outside to the inside of the building.

Preferably, during a fifth step E45, the difference DELTA is compared between the absolute humidity HAI of the air inside the room and the absolute humidity HAE of the air outside the room at a threshold S3. For example, the threshold S3 may be less than 1 g / kg. The comparisons are for example made by the comparators 9231 and 9233 of the computer 92. If this difference is smaller than the threshold S3, then the method is difficult to apply and does not make it possible to differentiate an open sash from a closed sash and it is looped on the sill. step E20. Otherwise, that is to say if this difference is greater than the threshold S3, we go to the sixth step E50.

In a sixth step E50, the temporal evolutions of the absolute humidity HAI of the air inside the room are analyzed. This obviously assumes that at different times, for example at regular time intervals, the determined values of the absolute humidity HAI of the air inside the room have been stored. For example, a history of the values of the absolute humidity HAI of the air inside the room has been constituted. For example, the history covers at least several minutes before the present moment. Preferably, during this analysis step, the rate of change TX of the absolute humidity HAI of the air inside the room is determined as a function of time. For example, this analysis step makes it possible to obtain the variation rate TX of the absolute humidity HAI of the air inside the premises in real time. This analysis is performed for example by the analysis element 922 of the computer 92.

• la température TI de l'air à l'intérieur du local ; et/ou
• la température TE de l'air à l'extérieur du local ; et/ou
• l'humidité absolue HAE de l'air à l'extérieur du local.

Le premier seuil S1 est par exemple inférieur à -0.04 g/kg.min.In a seventh step E60, the results of the analysis step are used to determine the opening state of the sash. For example, the TX rate calculated in the previous step is compared with a first threshold S1. The first threshold may be dependent on:

• the IT temperature of the air inside the room; and or
• the TE temperature of the air outside the room; and or
• the absolute humidity HAE of the air outside the room.

The first threshold S1 is for example less than -0.04 g / kg.min.

If the TX rate is below the threshold S1, then we go to an eighth step E70. Otherwise, we move to a ninth step E80.

In step E70, considering the result of the test of step E60, it is considered that the opening is in an open state. Thus, it is possible to record in the memory 96 a value that translates the open state of the opening.

• la température TI de l'air à l'intérieur du local ; et/ou
• la température TE de l'air à l'extérieur du local ; et/ou
• l'humidité absolue HAE de l'air à l'extérieur du local.

Le deuxième seuil S2 est par exemple égal à 0 g/kg.min. Cela signifie que l'humidité absolue intérieure HAI a cessé de diminuer et donc que l'ouvrant a été refermé. La comparaison est par exemple effectuée par le comparateur 9232 du calculateur 92.In the ninth step E80, the TX ratio calculated in step E50 is compared to a second threshold S2. The second threshold may be dependent on:

• the IT temperature of the air inside the room; and or
• the TE temperature of the air outside the room; and or
• the absolute humidity HAE of the air outside the room.

The second threshold S2 is for example equal to 0 g / kg.min. This means that the indoor HAI absolute humidity has stopped decreasing and therefore the opening has been closed. The comparison is for example carried out by the comparator 9232 of the computer 92.

If the TX rate is below the threshold S2, then we loop on the second step E20. Otherwise, we go to a step E90.

In step E90, considering the result of the test of step E80, it is considered that the opening is in a closed state. Thus, one can record in the memory 96 a value reflecting the closed state of the opening.

The method advantageously comprises the transmission of an information or command message as soon as the state of the opening stored in memory changes from "closed" to "open" or, more generally, when the state of the opening stored in memory changes value. The message may be informative and intended for a user. It can be a visual message and / or sound. The message can be sent via SMS or e-mail. Alternatively or additionally, the message may be a control message, in particular a message stopping the home automation device providing the comfort function or a start-up message of the home automation device providing the comfort function. Such a control message can be sent either directly to the home automation devices providing the comfort function or to the control unit 11. The transmission of the information or control message is provided by the transmission element 94 of the determining device 90.

As seen previously, preferably, the method of determining the opening state of the opening is inhibited when the difference DELTA between the absolute humidity HAI of the air inside the room and the absolute humidity HAE air outside the room is below a threshold S3, especially less than 1 g / kg. Alternatively, only certain steps of the method can be inhibited, such as the step of using the results of the analysis step. This situation can occur during a stormy period in summer or during a heat wave. Thus, if the absolute humidity inside and outside is too close, or if the absolute humidity outside is greater than the absolute humidity inside, the process is not used. invention for detecting the opening state of the opening.

Advantageously, the method may comprise a step of calculating a rate of renewal of the air in the room, that is to say a rate of air exchange between the inside 20 of the room and the outside. 30 from the local. To do this, the calculation uses changes in the absolute humidity of the air inside the room. Preferably, the value of this rate is initialized and its determination begins when it is detected that the opening passes from a closed state to an open state. Preferably, the initialization of this renewal rate is at most at a given time interval. For example, the rate is initialized at most once a day, in particular during the first opening of the opening of the day. The variation of the absolute humidity HAI of the air inside the room makes it possible to determine the air exchange that has occurred between the outside of the room and the interior of the room when the opening is in its room. open state. This can in particular be achieved with knowledge of other parameters such as the absolute humidity HAE of the air outside the room.

The rate of air exchange is advantageously correlated with an index of moisture evacuation from the inside to the outside. This corresponds to the decrease of the absolute humidity of the air inside the room. It is thus possible to calculate an opening time of the opening so that the renewal of air is independent of the climatic conditions outside the room.

Avec :

• HAlinit : l'humidité absolue de l'air à l'intérieur du local lors de l'ouverture de l'ouvrant et lors de l'initialisation de l'indice ;
• HAIcourante : l'humidité absolue courante de l'air à l'intérieur du local ;
• HAE : l'humidité absolue de l'air à l'extérieur du local.

The moisture evacuation index can be constructed as the ratio: $$\left(\mathrm{HAIinit}-\mathrm{HAIcourante}\right)/\left(\mathrm{HAIinit}-\mathrm{EDT}\right)$$

With:

• HAlinit: the absolute humidity of the air inside the room during the opening of the opening and during the initialization of the index;
• HAIcurrent: the absolute humidity of the air inside the room;
• HAE: the absolute humidity of the air outside the room.

With such a definition, when the humidity evacuation index is 100%, the absolute humidity of the air inside the room is equal to the absolute humidity of the air outside the room. local. All excess moisture inside is evacuated outside. By neglecting the elements capable of storing moisture (wood, earth) and the instantaneous productions of humidity, this corresponds to a completely renewed interior air.

In practice, for a constant indoor air renewal rate (for example 1 vol / h air), the mixture of indoor and outdoor air caused by an opening of the opening causes a law of decrease of the air moisture evacuation index having decreasing exponential variation. Since the two absolute humidities are never strictly equal, it is necessary to set a threshold on the evacuation index of the humidity (for example 70%) beyond which it is considered that the air of the room has been sufficiently renewed. As soon as the index of evacuation of moisture exceeds this threshold, we can advise the occupant of the room to close the opening. As for state information opening the opening, the information that the room air has been sufficiently renewed can be issued in different ways. The time required to reach the threshold depends on the external conditions, and the difference between the outdoor conditions and the indoor conditions. For example, the difference in temperature and wind or drafts are important, plus the renewal of air is fast.

Thanks to the determination method according to the invention, closing the opening manually before the threshold is reached can be detected. Information can then be provided to the occupant of the room to indicate that the air has not been renewed sufficiently in the room.

The moisture evacuation index threshold desired by the occupant can be set arbitrarily and stored. This threshold can therefore be adjustable, especially among other parameters. Preferably, the threshold can be automatically learned by the system, in particular on the basis of the opening and manual closing detections of the opening made by the determination method according to the invention. For example, it is possible to calculate a mean moisture evacuation index from a history of openings and closures of the opening. This average index can be registered as a threshold. Thus, one can then, on this basis, advise the occupant of the room as to the optimum time of closure of the opening. This optimal moment is thus variable according to the external conditions all things being equal elsewhere. If, for example, in the last month, the average humidity evacuation index is 70%, 70% is recorded as the threshold and the occupant is then informed as soon as the threshold is reached so that he knows that the opening can be closed.

If the opening is motorized, it can be closed automatically at the ideal time provided by the method described above. Otherwise, we can prevent as seen above the occupant as soon as the threshold is reached so that he knows that the opening can be closed.

A simple measurement of the outside temperature is enough to deduce the best moment of the day to open an opening in order to renew the air of the room. It is not necessary for this to analyze the humidities of the air inside and outside the room. As seen previously, the lower the temperature difference between the inside and the outside, the less energy is exchanged. For example, 5 minutes of opening of the opening when -10 ° C outside may correspond to about 40 minutes of opening of the opening when it is 12 ° C outside, for an indoor temperature of about 19 ° C.

Advantageously, the determination device issues an information or command message as soon as the rate of renewal of the air is greater than a threshold S4 which has been defined previously.

By default, it is possible to do without the measurement or the acquisition of the humidity of the air outside the room by making a simple measurement or acquisition of the temperature of the air outside the room and considering constantly the relative humidity of the air outside the room is 100%. This allows a degraded method of determining the state of the opening.

• une étape de détermination de l'état d'ouverture de l'ouvrant 3 du local 2 du bâtiment 1 mettant en oeuvre le procédé de détermination décrit précédemment ;
• une étape de réception par le dispositif 11 de commande du dispositif domotique d'une information d'état de l'ouvrant ;
• une étape d'exécution d'une commande déterminée par l'état de l'ouvrant par le dispositif domotique, en particulier une étape d'exécution d'une commande de mise hors fonction du dispositif domotique si l'ouvrant est ouvert et/ou une étape d'exécution d'une commande de remise en fonction ou de maintien en fonction du dispositif domotique si l'ouvrant est fermé.

One embodiment of a control method of the home automation device 10 providing a comfort function in the room 2 of the building 1 is described below. The method comprises:

• a step of determining the opening state of the opening 3 of the room 2 of the building 1 implementing the determination method described above;
• a step of reception by the control device 11 of the home automation device of a status information of the opening;
• a step of executing a command determined by the state of the door leaf by the home automation device, in particular a step of executing an off command of the home automation device if the door is open and / or a step of executing a command to restart or maintain the home automation device if the door is closed.

To simplify the reading, throughout this document, the evocation of a parameter can be equivalent to the evocation of a value of this parameter. Thus, throughout this document, in particular, the terms "a temperature value" and "a temperature" may be equivalent, "an absolute humidity value" and "an absolute humidity" may be equivalent and "a rate value of 'relative humidity' and 'relative humidity' may be equivalent.

Throughout this document, "opening state of an opening" means the configuration and / or the position of the opening. Such an open state can be a closed state, an open state, or a half open state.

Throughout this document, "opening" means any device for renewing the air inside the room. In particular, it may be a window, a door, a ventilation hatch, or even a ventilation system.

• des personnes occupant ce local,
• des activités de ces personnes (cuisine, douches),
• d'éventuelles plantes d'intérieur.

The invention is based on the following hypotheses and principles. During the heating period and even generally, the temperature outside the room is lower than the temperature inside the room. The absolute humidity outside is generally lower than the absolute humidity inside (even in case of rain). Indeed, in principle, in temperate regions, the absolute humidity of the air in a occupied space is higher to the absolute humidity of the outside air of the room because of the production of humidity inside the room because:

• people occupying this room,
• activities of these people (cooking, showers),
• possible houseplants.

Thus, an opening of an opening of the room has the effect of dropping suddenly the absolute humidity of the air inside the room, until reaching a balance with the absolute humidity of the air at the room. outside the premises. As soon as the window is closed, the absolute humidity drop of the air inside the room stops. Thus, from the moment when the absolute humidity of the air outside the room is lower than the absolute humidity of the air inside the room, the determination method according to the invention can be applied. . It should be noted that this is independent of the temperature difference between the inside and the outside. For example, in case of rain, the relative humidity of the air outside the room is 100%. As shown on the figure 4 if the outside air temperature is 12 ° C, the air contains a little less than 9g of water per m ³ , ie the absolute humidity of the air at the outside is worth a little less than 9g / m ³ . As shown on the figure 4 this rate corresponds to a relative humidity of 60% for air at 20 ° C. As soon as there is human activity (cooking, showering, presence, indoor plants), the relative humidity of the air inside the room increases above 60%. In the heating period, particularly when it is particularly desired to prevent the heating operation with an open door, the fact that the outside temperatures are low imposes absolute humidities of the outside air very low. The accuracy of the detection method is enhanced in such situations.

From a theoretical point of view, a detection of the opening state of the opening when the absolute humidity of the outside air is greater than the absolute humidity of the indoor air is possible. However, this situation is very rare during the heating period (if not impossible).

If an air conditioner is used, this will lower the indoor temperature and decrease the indoor absolute humidity (by condensation in the heat exchanger). Therefore, the absolute humidity of the air inside the room is generally lower than the absolute humidity of the air outside the room. It is therefore possible to detect the opening of the opening symmetrically to what is done during the heating period. An opening of the opening causes a rapid increase in the absolute humidity of the air inside the room. However, the detection is less reliable, the production of humidity inside the premises disturbing the detection. In this case of air-conditioning, the difference between the absolute humidity HAE of the air outside the room and the absolute humidity HAI of the air inside the room at the threshold S3 is compared.

On the example of the figure 5 , it can be seen that the absolute humidity falls (curve A) due to the openings of the opening are much clearer than the temperature drops (curve B) due to the openings of the opening. Here, if the aperture of the sash (whose instant is represented by a segment referenced O) is detected substantially at the same time with the method that is the subject of the invention and with the method known from the prior art, it detects on the other hand, more quickly the closing of the window (whose moment is represented by a segment referenced F) with the method using the relative humidity than with the method using the temperature. For example, it is possible to detect the closing of the window as soon as the absolute humidity has a variation which becomes positive again.

• le chauffage, en particulier le chauffage d'appoint ;
• l'ensoleillement direct ou indirect ;
• l'inertie thermique de l'enceinte du local et des éléments contenus dans le local ;
• les sources de chaleur pouvant se trouver dans des pièces adjacentes au local, comme une cuisine ;

Ces phénomènes compliquent la détection de l'ouverture et surtout la détection de la fermeture de l'ouvrant.The determination method according to the invention has various advantages. The use of the absolute humidity of the air inside the room to detect the opening state of the opening allows a more specifies that that which can be obtained by using only the temperature of the air inside the room because the absolute humidity of the air inside the room is less influenced by disturbing phenomena contrary to the temperature of the room. inside the room that is influenced by:

• the heating, in particular the auxiliary heating;
• direct or indirect sunshine;
• the thermal inertia of the enclosure of the room and the elements contained in the room;
• sources of heat that may be in rooms adjacent to the premises, such as kitchens;

These phenomena complicate the detection of the opening and especially the detection of the closure of the opening.

Taking into account the humidity and temperature parameters increases the accuracy and speed of detection of the opening states.

The absolute humidity values may be expressed in g / m ³ or in g / kg.

Claims (15)

Method for determining a state of opening of an opening (3) of a room (2) of a building (1), the room being equipped with the opening (3), a temperature sensor (93) and a humidity sensor (91), the method comprising: a step of measurement by the humidity sensor of the relative humidity ratio (HRI) of the air inside (20) of the room and measurement by the temperature temperature sensor (TI) of the indoor air (20) of the room; a step of determining, in particular a calculation step, the absolute humidity (HAI) of the air inside the room from the relative humidity level of the air inside the room and from the temperature of the air inside the room; a step of analyzing the temporal evolutions of the internal absolute humidity; and - A step of using the results of the analysis step to determine the opening state of the opening. Method according to the preceding claim, characterized in that , in the analysis step, the rate of temporal variation of the absolute humidity of the air inside the room is calculated, in particular the real-time temporal variation of the absolute humidity of the air inside the room. Method according to claim 1 or 2, characterized in that in the step of using the results: comparing a first threshold (S1) with the temporal variation rate of the absolute humidity of the air inside the room; and - It is considered that the opening is open if the first threshold is greater than the temporal variation rate of the absolute humidity of the air inside the room. Method according to one of the preceding claims, characterized in that in the step of using the results: comparing a second threshold (S2) with the temporal variation rate of the absolute humidity of the air inside the room; and - It is considered that the opening is closed if the second threshold is less than the temporal variation rate of the absolute humidity of the air inside the room. Method according to Claim 4, characterized in that the second threshold is zero. Process according to one of Claims 3 to 5, characterized in that the first threshold is dependent on the temperature (TI) of the air inside the room and / or the temperature (TE) of the air at the outside (30; 35) of the room and / or the absolute humidity (EDH) of the air outside the room and / or characterized in that the second threshold is dependent on the temperature of the air inside the room and / or the air temperature outside the room and / or the absolute humidity of the air outside the room. Method according to one of the preceding claims, characterized in that the step of using the results of the analysis step is inhibited when the difference (DELTA) between the absolute humidity of the air inside of the room and the absolute humidity of the air outside the room is less than a third threshold (S3), especially less than 1 g / kg. Method according to one of the preceding claims, characterized in that it comprises, when the opening is in an open state, a step of calculating a rate of renewal of the air in the room, the calculation using the variations the absolute humidity of the air inside the room. Method according to the preceding claim, characterized in that it comprises, following the passage of the opening of a closed state to an open state, a step of initialization of the rate of renewal of the air in the room. Method according to Claim 8 or 9, characterized in that it comprises transmitting an information or command message as soon as the air renewal rate is greater than a fourth threshold (S4). A method of controlling a home automation device (10), in particular a heating and / or air conditioning device, providing a comfort function in a room (2) of a building (1), the method comprising: - A step of determining a state of opening of an opening (3) of the room (2) of the building (1) implementing the determination method according to one of the preceding claims; - A step of receiving by a device (11) for controlling the home automation device of a status of the opening information; a step of executing a command determined by the state of the door leaf by the home automation device, in particular a step of executing a command to disable the home automation device if the door is open and / or a step of executing a command to restart or maintain the home automation device if the door is closed. Device (90) for determining a state of opening of an opening (3) of a room (2) of a building (1), the room being equipped with the opening (3), the device comprising elements (91, 92, 93, 94, 95, 96) hardware and / or software implementing the method according to one of claims 1 to 10, in particular hardware elements (91, 92, 93, 94, 95, 96) and / or software designed to implement the method according to one of claims 1 to 10, the hardware and / or software elements comprising: a humidity sensor (91); a temperature sensor (93); an element (921) for determining, in particular a calculating element, the absolute humidity of the air inside the room from the relative humidity of the air inside the room; and or an element (922) for analyzing the temporal evolutions of the absolute humidity of the air inside the room; and or an element (923) using results provided by the analysis element to determine the opening state of the opening leaf. Device according to the preceding claim, characterized in that the hardware and / or software elements comprise: - An element (924) for determining, in particular a calculating element, the absolute humidity of the air outside the room from the relative humidity of the air outside the room. Computer program comprising computer program code means adapted to implement the steps of the method according to one of claims 1 to 10 or claim 11 when the program runs on a computer. A processor-readable recording medium on which is recorded a computer program comprising instructions for performing the steps of the method according to one of claims 1 to 10 or claim 11.

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