EP3644291A1 - Method and device for detecting the type of opening on which a detection device is installed - Google Patents

Abstract

The present invention relates to a method and a device for detecting the type of opening on which a detection device is installed, the opening being an opening of the three-state or two-state type. The detection device comprises an oscillator whose frequency varies as a function of the proximity of a metallic element of a device for setting the opening in different states. The detection device: - measures (E801) the frequency of the oscillator of the detection device at a first predetermined rate, - checks (E802) from the measured frequency, whether the opening has passed from a state to a other state, - increments (E806) a counter if the other state corresponds to the opening state of the opening, - determines (E810), if the value of the counter is equal to the predetermined value, if among the frequencies measured, a majority of the frequencies are distributed in two or three distinct frequency ranges, - detects (E810, E812) the type of opening as a function of the number of distinct frequency ranges determined.

Description

The present invention relates to a method and a device for detecting the type of opening on which the detection device is installed and for updating parameters used by the detection device to determine the state of the opening.

Openings such as windows offer different opening possibilities.

For example, there are windows with an opening mechanism in French, English, sliding, bellows or combining two opening mechanisms such as tilt-and-turn windows.

French windows are equipped with leaf sashes that pivot vertically on their edge inwards, with hinges on the frame. They are often supplemented by a horizontal fixed frame located under the opening leaf.

Tilt-and-turn windows can be opened by tilting on a horizontal axis, called a gusset, or on a vertical French axis. The tilting on a horizontal axis allows in particular the opening from above.

Many dwellings are equipped with central alarms to notify the inhabitants of the building of an attempt to intrude an individual into the building.

Some of these homes have both a home automation gateway and an alarm center.

Very often, the individual tries to enter the building by taking advantage of the opening of a window in the building.

Knowing the state of a building's window is a feature that tends to become essential.

A building has a plurality of openings of different types. The devices for detecting a position of an opening setting means in different states must be adapted to each type of opening. Conventionally, a detection device is designed for only one type of opening.

The detection device can be installed in the opening during the manufacture of the opening, or can be installed in the opening when it is put in place by an installer or can be installed in the opening after setting it up.

The installer must then have both detection devices suitable for French-style, sliding openings and detection devices suitable for tilt-and-turn openings.

This requires, for each type of opening, a management of the stock of detection devices adapted to these.

In addition, the manufacturing cost of such detection devices is increased by the disparity of the types of detectors.

The present invention aims to solve the drawbacks of the prior art by proposing a method and a detection device which are suitable for different types of openings.

• activation d'une première temporisation,
• mesure de la fréquence de l'oscillateur du dispositif de détection à un premier rythme prédéterminé,
• vérification à partir de la fréquence mesurée, si l'ouverture est passée d'un état dans un autre état,
• mémorisation de l'autre état et de la fréquence mesurée,
• vérification si l'état mémorisé correspond à l'état d'ouverture de l'ouverture,
• incrémentation d'un compteur si l'état mémorisé correspond à l'état d'ouverture de l'ouverture,
• vérification si la première temporisation est écoulée,
• vérification, si la première temporisation est écoulée, si la valeur du compteur est égale à une valeur prédéterminée,
• détermination, si la valeur du compteur est égale à la valeur prédéterminée, si parmi les fréquences mesurées, une majorité des fréquences sont réparties dans deux ou trois plages de fréquences distinctes,
• détection du type d'ouverture en fonction du nombre de plages de fréquences distinctes déterminées.

To this end, according to a first aspect, the invention provides a method of detecting the type of opening on which a detection device is installed, the opening being an opening of the three-state or two-state type, characterized in that that the detection device comprises an oscillator whose frequency varies as a function of the proximity of a metallic element of a device for setting the opening in different states and in that the method comprises the steps, executed by the device detection of:

• activation of a first time delay,
• measurement of the frequency of the oscillator of the detection device at a first predetermined rate,
• verification from the measured frequency, if the opening has passed from one state to another state,
• memorization of the other state and of the measured frequency,
• checking whether the memorized state corresponds to the opening state of the opening,
• incrementation of a counter if the memorized state corresponds to the state of opening of the opening,
• verification if the first time delay has elapsed,
• verification, if the first time delay has elapsed, if the counter value is equal to a predetermined value,
• determination, if the counter value is equal to the predetermined value, if among the frequencies measured, a majority of the frequencies are distributed in two or three distinct frequency ranges,
• detection of the type of opening as a function of the number of distinct frequency ranges determined.

• des moyens d'activation d'une première temporisation,
• des moyens de mesure de la fréquence de l'oscillateur du dispositif de détection à un premier rythme prédéterminé,
• des moyens de vérification à partir de la fréquence mesurée, si l'ouverture est passée d'un état dans un autre état,
• des moyens de mémorisation de l'autre état et de la fréquence mesurée,
• des moyens de vérification si l'état mémorisé correspond à l'état d'ouverture de l'ouverture,
• des moyens d'incrémentation d'un compteur si l'état mémorisé correspond à l'état d'ouverture de l'ouverture,
• des moyens de vérification si la première temporisation est écoulée,
• des moyens de vérification, si la première temporisation est écoulée, si la valeur du compteur est égale à une valeur prédéterminée,
• des moyens de détermination, si la valeur du compteur est égale à la valeur prédéterminée, si parmi les fréquences mesurées, une majorité des fréquences sont réparties dans deux ou trois plages de fréquences distinctes,
• des moyens de détection du type d'ouverture en fonction du nombre de plages de fréquences distinctes déterminées.

The invention also relates to a device for detecting the type of opening on which the detection device is installed, the opening being an opening of the three-state or two-state type, characterized in that the detection device comprises an oscillator whose the frequency varies as a function of the proximity of a metallic element of a device for setting the opening in different states and in that the detection device comprises:

• means for activating a first time delay,
• means for measuring the frequency of the oscillator of the detection device at a first predetermined rate,
• means of verification from the measured frequency, if the opening has passed from one state to another state,
• means for memorizing the other state and the measured frequency,
• verification means if the memorized state corresponds to the opening state of the opening,
• means for incrementing a counter if the memorized state corresponds to the opening state of the opening,
• means of verification if the first time delay has elapsed,
• verification means, if the first time delay has elapsed, if the value of the counter is equal to a predetermined value,
• means for determining, if the value of the counter is equal to the predetermined value, if among the frequencies measured, a majority of the frequencies are distributed in two or three distinct frequency ranges,
• means for detecting the type of opening as a function of the number of distinct frequency ranges determined.

Thus, the detection device is adapted to different types of openings. The installation of the detection device on any type of opening is thus facilitated, as is the manufacture.

• mesure de la fréquence de l'oscillateur du dispositif de détection à un second rythme prédéterminé,
• détermination, à partir des fréquences mesurées, si l'ouverture reste dans un même état pendant une durée prédéterminée,
• détermination, si l'ouverture reste dans un même état pendant une durée prédéterminée, d'une moyenne des fréquences mesurées,
• modification d'une valeur d'une plage de fréquences avec la fréquence moyenne si la fréquence moyenne est compatible avec la plage dont la valeur est modifiée.

According to a particular embodiment of the invention, when the type of opening is detected, the method comprises the steps of:

• measurement of the frequency of the oscillator of the detection device at a second predetermined rate,
• determination, from the measured frequencies, if the opening remains in the same state for a predetermined duration,
• determination, if the opening remains in the same state for a predetermined period, of an average of the measured frequencies,
• modification of a value of a frequency range with the average frequency if the average frequency is compatible with the range whose value is modified.

Thus, the present invention is adapted to possible drifts over time of the components of the detection device as well as to climatic variations.

According to a particular embodiment of the invention, if the average frequency is not compatible with a frequency range, the method includes a step of verifying iterations of the steps for detecting the type of opening.

Thus, it is possible to reconfigure the detection device when a bad detection has been determined during the installation of the detection device.

The invention also relates to computer programs stored on an information medium, said programs comprising instructions making it possible to implement the methods described above, when they are loaded and executed by a computer system.

• la Fig. 1 représente un bâtiment dans lequel la présente invention est implémentée ;
• la Fig. 2 représente une ouverture de type oscillo-battante équipée d'un dispositif de détection du type d'ouverture sur laquelle le dispositif de détection est installé selon la présente invention ;
• la Fig. 3 représente une ouverture de type ouverture à la française équipée d'un dispositif de détection du type d'ouverture sur laquelle le dispositif de détection est installé selon la présente invention ;
• la Fig. 4 représente un exemple d'architecture d'un dispositif de détection du type d'ouverture sur laquelle le dispositif de détection est installé et de mise à jour de paramètres utilisés par le dispositif de détection pour déterminer l'état de l'ouverture ;
• la Fig. 5 représente une séquence des différents positions prises par un élément du dispositif de mise d'une ouverture dans des différents états lorsque celui-ci est installé dans une ouverture de type à la française ;
• la Fig. 6 représente une séquence des différents positions prises par un élément du dispositif de mise d'une ouverture dans des différents états lorsque celui-ci est installé dans une ouverture de type oscillo-battante ;
• la Fig. 7a représente une plage de fréquences de variation d'un oscillateur du dispositif de détection lorsque celui-ci est installé dans une ouverture de type à la française ;
• la Fig. 7b représente une plage de fréquences de variation d'un oscillateur du dispositif de détection lorsque celui-ci est installé dans une ouverture de type oscillo-battante ;
• la Fig. 8 représente un algorithme, exécuté par le dispositif de détection pour détecter le type d'ouverture sur laquelle le dispositif de détection est installé selon la présente invention ;
• la Fig. 9 représente un algorithme, exécuté par le dispositif de détection du type d'ouverture sur laquelle le dispositif de détection est installé pour la mise à jour de paramètres utilisés par le dispositif de détection pour déterminer l'état de l'ouverture selon la présente invention ;
• la Fig. 10 représente un algorithme, exécuté par le dispositif de détection du type d'ouverture sur laquelle le dispositif de détection est installé pour la correction du type d'ouverture détecté.

The characteristics of the invention mentioned above, as well as others, will appear more clearly on reading the following description of an exemplary embodiment, said description being made in relation to the accompanying drawings, among which:

• the Fig. 1 shows a building in which the present invention is implemented;
• the Fig. 2 shows a tilt-and-turn type opening equipped with an opening type detection device on which the detection device is installed according to the present invention;
• the Fig. 3 represents an opening of the French opening type equipped with a device for detecting the type of opening on which the detection device is installed according to the present invention;
• the Fig. 4 represents an example of architecture of a device for detecting the type of opening on which the detection device is installed and updating parameters used by the detection device to determine the state of the opening;
• the Fig. 5 represents a sequence of the different positions taken by an element of the device for placing an opening in different states when it is installed in a French type opening;
• the Fig. 6 represents a sequence of the different positions taken by an element of the device for setting an opening in different states when this is installed in an opening of the tilt-and-turn type;
• the Fig. 7a represents a range of frequencies of variation of an oscillator of the detection device when the latter is installed in a French type opening;
• the Fig. 7b represents a range of frequencies of variation of an oscillator of the detection device when the latter is installed in an opening of the tilt-and-turn type;
• the Fig. 8 represents an algorithm, executed by the detection device to detect the type of opening on which the detection device is installed according to the present invention;
• the Fig. 9 represents an algorithm, executed by the device for detecting the type of opening on which the detection device is installed for updating parameters used by the detection device to determine the state of the opening according to the present invention;
• the Fig. 10 represents an algorithm, executed by the opening type detection device on which the detection device is installed for the correction of the detected opening type.

The Fig. 1 shows a building in which the present invention is implemented.

In the example of the Fig. 1 , the building 10 is equipped with four openings denoted 20a, 20b, 21a and 21b which can take at least two positions.

For example, the openings 20a and 20b are tilt-and-turn windows that can take three positions. Each window is equipped with a device for detecting the type of opening on which the detection device is installed and for updating the parameters used by the detection device to determine the state of the opening.

For example, the openings 21a and 21b are French-style or sliding windows that can take two positions. Each window is equipped with a device for detecting the type of opening on which the detection device is installed and for updating the parameters used by the detection device to determine the state of the opening.

For example, the building 10 includes an alarm center 30 of the building which is capable of interpreting messages received from each detection device according to the present invention.

The alarm center 30 is connected to the detection devices for example by means of a radio link.

The alarm center 30 comprises means for notifying at least one resident of the building of the position in which each device for placing a window in at least three different states is found.

The notification means are, for example, a screen from the alarm center 30 or a link to a device such as a smart mobile telephone making it possible to notify the user of the mobile telephone of the state of each window 20 or 21.

The building comprises a home automation gateway 40 of the building which is capable of interpreting messages received from each detection device according to the present invention.

The home automation gateway 40 is connected to the detection devices for example by means of a radio link.

The home automation gateway 40 includes means for notifying at least one resident of the building of the state in which each window is located.

The notification means are for example a link to a device such as a smart mobile telephone making it possible to notify the user of the mobile telephone of the state of each window 20.

• active une première temporisation,
• mesure la fréquence de l'oscillateur du dispositif de détection à un premier rythme prédéterminé,
• vérifie à partir de la fréquence mesurée, si l'ouverture est passée d'un état dans un autre état,
• mémorise l'autre état et la fréquence mesurée,
• vérifie si l'état mémorisé correspond à l'état d'ouverture de l'ouverture,
• incrémente un compteur si l'état mémorisé correspond à l'état d'ouverture de l'ouverture,
• vérifie si la première temporisation est écoulée,
• vérifie, si la première temporisation est écoulée, si la valeur du compteur est égale à une valeur prédéterminée,
• détermine, si la valeur du compteur est égale à la valeur prédéterminée, si parmi les fréquences mesurées, une majorité des fréquences sont réparties dans deux ou trois plages de fréquences distinctes,
• détecte le type d'ouverture en fonction du nombre de plages de fréquences distinctes déterminées.

According to the present invention, the detection device:

• activates a first delay,
• measures the frequency of the oscillator of the detection device at a first predetermined rate,
• checks from the measured frequency, whether the opening has passed from one state to another state,
• memorizes the other state and the measured frequency,
• checks whether the memorized state corresponds to the opening state of the opening,
• increments a counter if the memorized state corresponds to the opening state of the opening,
• checks if the first timer has elapsed,
• checks, if the first time delay has elapsed, if the value of the counter is equal to a predetermined value,
• determines, if the counter value is equal to the predetermined value, if among the frequencies measured, a majority of the frequencies are distributed in two or three distinct frequency ranges,
• detects the type of opening based on the number of distinct frequency ranges determined.

The Fig. 2 shows a tilt-and-turn type opening equipped with a device for detecting the type of opening on which the detection device is installed according to the present invention.

The oscillating system allows the window to be opened by tilting the sash inwards, in its upper part. The vertical hinges are left inactive, while the leaf is retained by a mechanical arm on the upper part of the window. This prevents any intrusion from the outside while leaving free the passage of air. This type of window is particularly widespread in apartment buildings, because the oscillating system prevents burglary while ensuring ventilation.

Each window 21 includes a device for placing a window in different states, for example a handle which controls the movement of a metallic element such as a rod denoted 230.

The handle takes a different position for three different states of window 21.

When the handle is in the position marked 220a in Fig. 2 , the window is in a bellows open position, ie a tilting of the leaf inwards, in its upper part.

When the handle is in the position marked 220b in Fig. 2 , the window is open to the French.

When the handle is in the position marked 220c in Fig. 2 , the window is locked, that is to say closed.

Each window 21 comprises a detection device 200 of the type of opening on which the detection device is installed and updating parameters used by the detection device to determine the state of the opening.

Each detection device 200 comprises an oscillator whose frequency varies when a metallic element such as the rod 230 is near the oscillator. For example, the impedance of an inductor of the oscillator varies depending on the overlap of the inductor by the metal rod.

The Fig. 3 represents an opening of the French opening type equipped with a device for detecting the type of opening on which the detection device is installed according to the present invention.

Each window 20 comprises a device for placing a window in different states, for example a handle which controls the movement of a metallic element such as a rod marked 230.

The handle takes a different position for two different states of window 20.

When the handle is in the position marked 320b in Fig. 3 , the window is in an open position.

When the handle is in the position marked 320a in Fig. 3 , the window is locked, that is to say closed.

Each window 20 comprises a detection device 200 of the type of opening on which the detection device is installed and updating parameters used by the detection device to determine the state of the opening.

Each detection device 200 comprises an oscillator whose frequency varies when a metallic element such as the rod 330 is near the oscillator.

The Fig. 4 shows an example of architecture of a device for detecting the type of opening on which the detection device is installed and updating parameters used by the detection device to determine the state of the opening.

• un processeur, micro-processeur, ou microcontrôleur 400 ;
• une mémoire volatile 403 ;
• une mémoire non volatile 402 ;
• un oscillateur 405 dont la fréquence d'oscillation varie en fonction de la proximité d'un élément métallique tel qu'une tringle;
• un module radio 406 ;
• un bus de communication 401 reliant le processeur 400 à la mémoire ROM 403, à la mémoire RAM 403, l'oscillateur 405 et le module radio 406.

The detection device 200 comprises:

• a processor, microprocessor, or microcontroller 400;
• a volatile memory 403;
• a non-volatile memory 402;
• an oscillator 405, the oscillation frequency of which varies as a function of the proximity of a metallic element such as a rod;
• a radio module 406;
• a communication bus 401 connecting the processor 400 to the ROM memory 403, to the RAM memory 403, the oscillator 405 and the radio module 406.

The processor 400 is capable of executing instructions loaded in the volatile memory 403 from the non-volatile memory 402, from a storage medium, such as an SD card or the like, or from a communication network. When the detection device is powered up, the processor 400 is capable of reading volatile memory 403 instructions and execute them. These instructions form a computer program which causes the implementation, by the processor 400, of all or part of the methods described in relation to the Figs. 8 , 9 and 10 .

All or part of the processes described in relation to Figs. 8 , 9 and 10 can be implemented in software form by execution of a set of instructions by a programmable machine, such as a DSP ( Digital Signal Processor in English or Digital Signal Processing Unit in French) or a microcontroller or be implemented in hardware form by a dedicated machine or component, such as an FPGA ( Field-Programmable Gate Array in English or Field-Programmable Door Matrix in French) or an ASIC ( Application-Specific Integrated Circuit in English or Integrated Circuit Specific to an Application) in French).

The Fig. 5 represents a sequence of the different positions taken by an element of the device for placing an opening in different states when it is installed in an opening of the French type.

The element of the device for placing an opening in different states is a handle.

When installing the opening, the installer must perform a sequence at a predetermined rate.

For example, the installer repeats a predetermined number of times from position 50a to position 50b and from position 50b to position 50a.

The predetermined number is for example equal to three.

For example, the installer remains in each position 50a and 50b for a period of between 0.5 and 3 seconds.

The detection device 200 of the type of opening on which the detection device is installed detects this sequence as will be described with reference to the Fig. 8 .

The same operation can also be carried out during the life cycle of the detection device 200.

The Fig. 6 represents a sequence of the different positions taken by an element of the device for setting an opening in different states when it is installed in an opening of the tilt-and-turn type.

The element of the device for placing an opening in different states is a handle.

When installing the opening, the installer must perform a sequence at a predetermined rate.

For example, the installer repeats a predetermined number of times from position 60a to position 60b, from position 60b to position 60c, from position 60c to position 60d and from position 60b to position 60e.

The predetermined number is for example equal to three.

For example, the installer remains in each position 60a, 60b, 60c, 60d and 60e for a period of between 0.5 and 3 seconds.

The detection device 200 of the type of opening on which the detection device is installed detects this sequence as will be described with reference to the Fig. 8 .

The same operation can also be carried out during the life cycle of the detection device 200.

The Fig. 7a represents a range of frequencies of variation of an oscillator of the detection device when the latter is installed in a French type opening.

The frequency range is between a frequency F1 corresponding to the locked state of the opening and a frequency F2 corresponding to the open state of the opening.

For example, for a PVC opening, the frequency F1 is between 4.85 MHz and 5.1 MHz.

For example, for a PVC opening, the frequency F2 is between 4.4 MHz and 4.65 MHz.

Of course the above-mentioned frequency ranges can be modified according to the material or materials such as aluminum, wood, making up the opening.

The frequency F3 is defined as the decision threshold between the locked state and the open state. The frequency F3 is not centered on the frequency range between F1 and F2 so as to guarantee with certainty that information representative of a closed state is certain.

For example F3 = F1-15% (F1-F2).

The Fig. 7b represents a range of frequencies of variation of an oscillator of the detection device when the latter is installed in an opening of the tilt-and-turn type.

The frequency range is between a frequency F1 corresponding to the locked state of the opening and a frequency F2 corresponding to the open state in tilt and turn of the opening.

For example, for a PVC opening, the frequency F1 is between 4.85 MHz and 5.1 MHz.

For example, for a PVC opening, the frequency F2 is between 4.4 MHz and 4.65 MHz.

Of course, the above-mentioned frequency ranges can be modified as a function of the material or materials making up the opening.

The frequency F4 is the average of F1 and F2.

The frequency F3 ′ is defined as the decision threshold between the locked state and the open state in tilt-and-turn or French style.

The frequency F3 "is defined as the decision threshold between the open state in tilt-turn and the open state in French opening.

• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}=\mathrm{F}\mathrm{1}-\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right),$$
  
• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}\prime =\mathrm{F}\mathrm{2}+\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right),$$
  

The frequencies F3 'and F3 "are defined by:

• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}=\mathrm{F}\mathrm{1}-\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right),$$
  
• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}\prime =\mathrm{F}\mathrm{2}+\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right),$$
  

The Fig. 8 represents an algorithm, executed by the detection device to detect the type of opening on which the detection device is installed according to the present invention.

The present algorithm is described in an example in which it is executed by the processor 400 of the detection device 200.

At step E800, the processor 200 activates a time delay noted T and initializes a counter Cpt to 0.

For example, the time delay T is for example between 15 and 30 seconds.

In the next step E801, the processor reads the value of a counter which makes it possible to measure the frequency of the oscillator 405.

In the next step E802, the processor 200 checks whether the determined frequency corresponds to a state different from the previous iteration by considering that the opening is a French-style or sliding opening.

If the frequency is between F2 and F3, the state is the open state. If the frequency is between F3 and F1, the state is the closed state.

If a change of state is detected, the processor 400 goes to step E804. If not, the processor 400 goes to step E803.

In step E803, the processor 400 executes a waiting loop with a duration equal to a predetermined value T1.

For example, T1 is between 0.5 seconds and 3 seconds. For example, T1 is equal to 1 second.

At the end of the duration T1, the processor 400 returns to step E801.

In step E804, the processor 400 stores the determined frequency as well as the state corresponding to the determined frequency.

In step E805, the processor 400 checks whether the state memorized in the corresponding step is an open state.

If so, the processor 400 goes to step E806. If not, the processor 400 goes to step E809.

In step E809, the processor 400 executes a waiting loop of duration equal to the predetermined value T1.

At the end of the duration T1, the processor 400 returns to step E801.

In step E806, the processor 400 increments the counter Cpt by one unit.

In step E807, the processor 400 checks whether the timer T is still in progress.

If not, the processor 400 goes to step E800. If so, the processor 400 goes to step E808.

In step E808, the processor 400 checks whether the value of the counter Cpt at least is equal to 3.

If so, the processor 400 goes to step E810. If not, the processor 400 goes to step E809.

If the time delay T has not elapsed, the processor 400 checks whether the value of the counter Cpt at least is equal to 3 and, if so, goes to step E810.

In step E810, the processor 400 checks whether three different states are detected.

The detection of three states is for example carried out by checking, if among the frequencies measured, a majority of the frequencies are distributed in three pages of distinct frequencies. A first frequency range is for example between 4.4 MHz and 4.65 MHz, a second frequency range is for example between 4.65 MHz and 4.85 MHz and a third frequency range is for example between 4.85 MHz and 5.1 MHz.

If three different states are detected, the processor 400 goes to step E811. If not, the processor 400 goes to step E812.

In step E811, the processor 400 determines that the detection device 200 is placed in an opening of the tilt-turn type and transmits a message via the radio module 406 to the alarm center 30 and / or of the home automation gateway 40 indicating that the opening is of the tilt-and-turn type.

In step E812, the processor 400 determines that the detection device 200 is placed in a sliding or French-style opening and transmits a message via the radio module 406 to the alarm center 30 and / or the home automation gateway 40 indicating that the opening is of the sliding or French type.

The Fig. 9 represents an algorithm, executed by the opening type detection device on which the detection device is installed for updating the parameters used by the detection device to determine the state of the opening according to the present invention.

The present algorithm is described in an example in which it is executed by the processor 400 of the detection device 200.

In step E900, the processor 200 activates a time delay noted T2.

For example, the time delay T2 is equal to 20 seconds.

In the next step E901, the processor reads the value of the counter which makes it possible to measure the frequency of the oscillator 405.

In the next step E902, the processor 200 checks whether the determined frequency corresponds to a state different from the previous iteration by considering that the opening is a French-style or sliding opening.

If the frequency is between F2 and F3, the state is the open state. If the frequency is between F3 and F1, the state is the closed state.

If a change of state is detected, the processor 400 goes to step E903. If not, the processor 400 goes to step E906.

At this same step, the processor 400 stores the determined frequency and state.

In step E903, the processor 400 resets the timer T2 and erases the stored frequencies.

In the next step E904, the processor 400 executes a waiting loop of a duration equal to a predetermined value T1.

For example, T1 is between 0.5 seconds and 3 seconds. For example, T1 is equal to 1 second.

At the end of the duration T1, the processor 400 returns to step E901.

In step E906, the processor 400 checks whether the timer T2 has elapsed.

If so, the processor 400 goes to step E908. If not, the processor 400 goes to step E907.

In step E907, the processor 400 executes a waiting loop of duration equal to the predetermined value T1.

At the end of the duration T1, the processor 400 returns to step E901.

In step E908, the processor 400 calculates the average Fmoy of the stored frequencies.

In step E909, the processor 400 checks whether the frequency Fmoy is included in a range corresponding to the frequency F1.

For example, the range is equal to F1 plus or minus 15%.

If the frequency Fmoy is included in a range corresponding to the frequency F1, the processor 400 goes to step E910 and assigns the value Fmoy to the frequency F1. If not, the processor 400 goes to step E911.

In step E911, the processor 400 checks whether the frequency Fmoy is included in a range corresponding to the frequency F2.

For example, the range is equal to F2 plus or minus 15%.

If the frequency Fmoy is included in a range corresponding to the frequency F2, the processor 400 goes to step 912 and assigns the value Fmoy to the frequency F2.

In step E913, the processor 400 checks whether the opening has been determined during the execution of the algorithm of the Fig. 8 like a tilt-and-turn opening.

• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}=\mathrm{F}\mathrm{1}-\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right),$$
  
• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}\prime =\mathrm{F}\mathrm{2}+\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right)\mathrm{.}$$
  

If so, the processor 400 goes to step E914 to redefine the frequencies F3 'and F3 "according to the following formulas:

• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}=\mathrm{F}\mathrm{1}-\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right),$$
  
• $$\mathrm{F}\mathrm{3}\mathrm{ʹ}\prime =\mathrm{F}\mathrm{2}+\mathrm{15}\%\left(\mathrm{F}\mathrm{1}-\mathrm{F}\mathrm{2}\right)\mathrm{.}$$
  

This operation carried out, the processor returns to step E900 after a waiting loop of duration equal to T1.

Step E915 corresponds to a step of redefining the type of opening.

Step E915 is described more precisely with reference to Fig. 10 .

The Fig. 10 represents an algorithm, executed by the opening type detection device on which the detection device is installed for the correction of the detected opening type.

The present algorithm is described in an example in which it is executed by the processor 400 of the detection device 200.

In step E100, the processor 400 checks whether the frequency Fmoy is between the frequencies F1 and F2. If so, the processor 400 goes to step E102. If not, the processor 400 goes to step E101.

In step E101, the processor 400 determines that a manipulation error has been made, redefines the value of F2 to make it equal to Fmoy.

In step E102, the processor 400 checks whether Fmoy is between F2 + (15% (F1-F2)) and F1- (15% (F1-F2)).

If not, the processor 400 goes to step E104. If so, the processor 400 goes to step E103.

In step E103, the processor 400 redefines the value of the frequency F3 as F3 = F1-15% (F1-F2).

In step E104, the processor 400 triggers a new detection of the type of opening on which the detection device is installed.

For this, the processor 400 controls the transfer of a message via the radio module 406 to the alarm center 30 and / or the home automation gateway 40 indicating that the algorithm as described with reference to the Fig. 8 must be executed.

The message is then transferred to a screen of the alarm center or to a device such as a smart mobile phone allowing the user of the mobile phone to be notified that a new detection of the type of opening must be carried out for the opening on which the detection device is installed.

Of course, the present invention is not limited to the embodiments described here, but encompasses, quite the contrary, any variant within the reach of ordinary skill in the art.

Claims (4)

Method for detecting the type of opening on which a detection device is installed, the opening being an opening of the three-state or two-state type, characterized in that the detection device comprises an oscillator whose frequency varies as a function of the proximity of a metallic element of a device for setting the opening in different states and in that the method comprises the steps, executed by the device for detecting: - activation (E800) of a first time delay, - measurement (E801) of the frequency of the oscillator of the detection device at a first predetermined rate, - verification (E802) from the measured frequency, if the opening has passed from one state to another state, - memorization (E804) of the other state and of the measured frequency, - verification (E805) if the memorized state corresponds to the opening state of the opening, - incrementation (E806) of a counter if the memorized state corresponds to the state of opening of the opening, - check (E807) if the first timer has elapsed, - verification (E808), if the first time delay has elapsed, if the value of the counter is equal to a predetermined value, - determination (E810), if the value of the counter is equal to the predetermined value, if among the frequencies measured, a majority of the frequencies are distributed in two or three distinct frequency ranges, - detection (E810, E812) of the type of opening as a function of the number of distinct frequency ranges determined. Method according to claim 1, characterized in that when the type of opening is detected, the method comprises the steps of: - measurement of the frequency of the oscillator of the detection device at a second predetermined rate, - determination, from the measured frequencies, if the opening remains in the same state for a predetermined period, - determination, if the opening remains in the same state for a predetermined period, of an average of the measured frequencies, - modification of a value of a frequency range with the average frequency if the average frequency is compatible with the range whose value is modified. Method according to claim 2, characterized in that if the average frequency is not compatible with a frequency range, the method comprises a step of verifying repetitions of the steps for detecting the type of opening. Device for detecting the type of opening on which the detection device is installed, the opening being an opening of the three-state or two-state type, characterized in that the detection device comprises an oscillator whose frequency varies as a function of the proximity of a metallic element of a device for setting the opening in different states and in that the detection device comprises: - means for activating a first time delay, means for measuring the frequency of the oscillator of the detection device at a first predetermined rate, means of verification from the measured frequency, if the opening has passed from one state to another state, - means for memorizing the other state and the measured frequency, means of verification if the memorized state corresponds to the state of opening of the opening, means for incrementing a counter if the memorized state corresponds to the opening state of the opening, - means of verification if the first delay has elapsed, means of verification, if the first time delay has elapsed, if the value of the counter is equal to a predetermined value, means of determination, if the value of the counter is equal to the predetermined value, if among the frequencies measured, a majority of the frequencies are distributed in two or three distinct frequency ranges, - means for detecting the type of opening as a function of the number of distinct frequency ranges determined.

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