 SYSTEM FOR ASSISTING THE USE OF AN ELECTRICAL APPLIANCE
专利摘要:
System for assisting the use of a household appliance (1) by means of an application executed by an independent computer terminal (4) available to a user, said system comprising a transmitter module (5) as well as means for telecommunication establishing a wireless connection between said application and transmitter module (5), a control means, said transmitter module (5) being adapted to operate in at least: - a normal mode, which is active as long as said control means detects no breakage of said wireless connection, and wherein the transmitter module (5) monitors and / or harvests and / or generates a first set of data relating to the operation of the appliance (1) which it transmits in part or in full to the application; - A degraded mode in which the transmitter module (5) monitors and / or harvest and / or generates a second set of data relating to the operation of the appliance (1). Domestic appliances. 公开号:FR3023999A1 申请号:FR1456922 申请日:2014-07-17 公开日:2016-01-22 发明作者:Karim Houni;Belkacem Aberbache 申请人:SEB SA; IPC主号:
专利说明:
[0001] The present invention relates to the general technical field of cooking utensils of the cooking receptacle type, and in particular to the pressure cooker sector, that is to say cooking pots. pressure cookers for steaming the food contained therein. The present invention more particularly relates to a system for assisting the use of a household appliance by means of an application executed by an independent computer terminal available to a user, said system comprising a transmitter module designed to be embedded on said appliance household appliances as well as telecommunication means designed to establish a wireless connection between said computer terminal and transmitter module. The invention also relates to an assembly comprising a system for assisting the use of a household appliance by means of an application executed by an independent computer terminal available to a user, said independent computer terminal and said application. The invention also relates to a method of assisting the use of a household appliance by means of an application executed by an independent computer terminal available to a user, a transmitter module being embedded on said appliance, said method comprising establishing a wireless connection between said computer terminal and transmitter module. The invention further relates to a computer program product comprising computer program code means adapted to perform the steps of a method of assisting the use of a home appliance when said program is executed by a computer. Appliances are known designed to operate according to predetermined sequences, possibly configurable. Such operating sequences generally consist of a series of distinct phases that take place one after the other, automatically, semi-automatically or manually (in the latter two cases, a user intervention to one or more occasions is necessary). By way of example of such household appliances, mention may be made of food cooking appliances under steam pressure, often referred to as "pressure cookers". Pressure cookers usually consist of a tank for the food to be cooked and a lid to be reported and locked on the tank to form with the latter a sealed cooking chamber. Such a cooking chamber is intended to be subjected to the influence of a heating source (such as a cooking plate) so as to allow its rise in pressure and temperature and thus the cooking under pressure of the food contained in the latter. The operation of these known pressure cookers is governed by different organs capable of providing different functions (locking / unlocking, pressure regulation, decompression ...). Each of these functions can be controlled by the user by means of one or more corresponding control means intended to be actuated manually by the user. In particular, a domestic pressure cooker with a manual selector is known for allowing the user to manually control the decompression of the cooking chamber, as well as the adjustment of the calibration of the control valve depending in particular on the nature of the food to be cooked. cook. In this known pressure cooker, the manual selector in question is thus mounted movably between several positions, namely a first position corresponding to the triggering of the decompression of the cooking chamber and one or more other position (s) corresponding to one ( or more) level (s) of pressure setpoint. In addition to this manual selector, there are control members for locking / unlocking the lid relative to the tank and a programmable timer whose triggering is controlled by a temperature sensor. In view of the foregoing, the use of such a pressure cooker may appear at first sight relatively complex, forbidding and / or anxious for a normally informed user who wishes to use such a pressure cooker in a family context. The relative complexity of piloting such a pressure cooker, which also allows to obtain, when properly used, cooking results quite remarkable, both organoleptically and nutritionally, leads to the risk of seeing the user to be unable to use the pressure cooker optimally and to take full advantage of all its advantages. Ultimately, the modern domestic pressure cookers known to date have outstanding cooking performance, at the price, however, of a design that may appear complex to their users, so that the latter (or at least some of them) could not not make the most of their functionalities the pressure cookers in question. This lack of ergonomics and clarity of information can even lead the user, in certain situations, not to properly use his pressure cooker (the user thinking, for example, having launched a cycle of cooking under pressure while he left , without noticing it, its pressure cooker in decompression position) or even lead, in the most critical case and in combination with other factors, a possible risk of accidents, including burns. In order to overcome the various disadvantages described above, it has been proposed a system of pressure cooker with assisted use that takes advantage of the fact that mobile computer terminals, such as a smartphone or tablet touch, are now widespread. The system in question is thus based on the implementation of a user assistance application which communicates with the pressure cooker via a wireless link established between the computer terminal on which the application is executed. and the pressure cooker. The application can thus collect data from the pressure cooker and use these operating data to assist the user in the use of the pressure cooker, for example by indicating the manipulations that he must perform at different stages of the pressure cooker. cooking cycle and verifying that these manipulations have been correctly performed. [0002] Such a system thus provides a particularly intuitive, ergonomic and efficient assistance of assistance, at least in the context of normal operation. However, there are situations where the user assistance system mentioned above may be ineffective and even confusing to the user. This is particularly the case when the wireless communication between the portable terminal and the appliance (in this case the pressure cooker) is interrupted, temporarily or permanently, while the appliance is working, and in particular is operating in a particular operating sequence (i.e., a specific cooking cycle, as part of a pressure cooker). There are many reasons for the execution of the application to be interrupted, temporarily or permanently, or out of sync with the progress of the current operating sequence. Such malfunctions may arise from the occurrence of different events (too great distance between the pressure cooker and the portable terminal on which the assistance application is executed, electromagnetic disturbance of the wireless communication, termination of the terminal due to a power supply fault (battery discharged) ...). In such situations of abnormal operation or operation stoppage of the application, the assistance to the user is no longer ensured, which can lead to errors in the handling of the pressure cooker (or any other device household appliance concerned). In addition, in the case where the interruption of operation is only momentary, there is a risk that the assistance to use provided by the application is then out of sync with the course of the actual operating cycle of the application. appliance (that is to say, the cooking cycle in the case of a pressure cooker). In this case, the system could mislead the user by inciting him to perform, at inappropriate times, manipulations (reduction of heating power, decompression ...) inappropriate. The objects assigned to the invention are therefore intended to remedy the various disadvantages listed above and to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, which is particularly simple, intuitive and ergonomic is also particularly reliable, robust and able to ensure a minimum level of assistance in use, even in particularly deteriorated operating conditions. Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, which has an excellent "resilience" of operation, enabling it to provide assistance to optimal use, even if interruptions or malfunctions have occurred. [0003] Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, which operates according to a particularly simple and universal principle, adaptable to different types of household appliances. [0004] Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, the use of which is extremely easy and does not require any particular prior learning or skill or particular aptitude. . Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, which is particularly pleasant and intuitive to use and which limits the possibilities for the user to make mistakes. . Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, capable of providing assistance during the entire operating cycle, and this same if the system's own operation has been interrupted or temporarily disrupted. Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, capable of operating autonomously and automatically. Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, of particularly simple construction, robust and inexpensive. Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, capable of automatically providing particularly sophisticated, user-friendly and ergonomic assistance. [0005] Another object of the invention is to propose a new system for assisting the use of a household appliance, in particular a pressure cooker, which relies on the implementation of compact technical means, proven and inexpensive. Another object of the invention is also to propose a new assembly comprising a system for assisting the use of a household appliance, an independent computer terminal and an application intended to be executed by said computer terminal, which is particularly reliable. easy to implement, reliable and robust operation, and inexpensive. Another object of the invention is to provide a new method of assisting the use of a particularly reliable household appliance, easy to implement and cheap. The objects assigned to the invention are achieved by means of a system for assisting the use of a household appliance by means of an application executed by an independent computer terminal available to a user, said system comprising a transmitter module designed to be embedded on said appliance as well as telecommunication means designed to establish a wireless connection between said application and transmitter module, said system being characterized in that it also comprises a control means designed to detect a possible breaking said wireless connection, said transmitter module being adapted to operate in at least: a normal mode, which is active as long as said control means does not detect a break in said wireless connection, and wherein the transmitter module monitors and / or harvesting and / or generating a first set of data concerning the operation of the electrical apparatus rearranging it transmits all or part of the application, through said wireless connection, so that said application uses at least some of the data of said first set of data for its execution; a degraded mode, which is active as long as said control means detects a break of said wireless connection, and wherein the transmitting module monitors and / or harvesting and / or generates a second set of data relating to the operation of the appliance and autonomously using at least some of said data of the second data set to communicate to the user, visually and / or audibly, information relating to the operation of the appliance. [0006] The objects assigned to the invention are also achieved by means of a set comprising: a system for assisting the use of a household appliance by means of an application executed by an independent computer terminal available to a user , said system being in accordance with the invention as defined above; - said independent computer terminal; and said application. The objects assigned to the invention are also achieved by means of a method of assisting the use of a household appliance by means of an application executed by an independent computer terminal available to a user, a transmitting module being embedded in said appliance, said method comprising the establishment of a wireless connection between said computer terminal and application, said method being characterized in that it implements a control operation to detect a possible break in said wireless connection, said transmitter module being adapted to operate according to at least: a normal mode, which is active as long as no break in said wireless connection is detected, and wherein the transmitter module is monitoring and / or harvesting and / or generates a first set of data concerning the operation of the appliance which it transmits in part or in full to the appl ication, through said wireless connection, so that said application uses at least some of the data of said first set of data for its execution; a degraded mode, which is active as long as a break in said wireless connection is detected, and wherein the transmitting module monitors and / or harvesting and / or generates a second set of data relating to the operation of the appliance and uses autonomously at least some of said data of the second data set to communicate to the user, visually and / or soundly, information relating to the operation of the appliance. The objects assigned to the invention are finally achieved by means of a computer program product comprising computer program code means adapted to perform the steps of a method according to the invention as defined above. when said program is executed by a computer. Other features and advantages of the invention will appear and will appear in more detail on reading the description given below, with reference to the accompanying drawings, given by way of illustrative and non-limiting example, in which Figure 1 illustrates according to a schematic view in perspective, an assembly according to the invention comprising (i) a system for assisting the use of a household appliance (formed in this case by a pressure cooker) by means of an application executed by a independent computer terminal (formed in this case by a smartphone, or "smartphone" in English) available to a user, (ii) said independent computer terminal and (iii) said application. According to a first aspect, the invention relates to a system for assisting the use of a household appliance 1 by means of an application executed by an independent computer terminal 4 available to a user. By "household appliance" is meant here any device, utensil or tool designed to perform a home task, said devices or tools can be powered by thermal energy (cooking plate for example) and / or electric, and / or manual, etc. . The term "appliance" is therefore taken here in its broadest common sense, and is therefore not limited specifically to the designation of electrical appliances. In the example described in detail in the following and which is illustrated in Figure 1, the appliance 1 is a pressurized food cooking appliance that can also be called the "pressure cooker", and which is intended to cook foods under pressure of steam, preferably in a family context (domestic appliance). The invention is however not limited to such an application and may concern any other appliance, the latter is intended to provide a culinary function (deep-fat fryer, rice cooker, bread machine, yogurt maker, ice cream maker, coffee maker, oven , steam cooker, multifunctional robot ...) or others (fan, vacuum cleaner, central steam, auxiliary heating ...). The invention finds particularly particularly useful when it serves to assist a user in the use of an appliance capable of operating in accordance with sequences (or cycles) predetermined and possibly configurable, such as cooking cycles when the appliance is a pressure cooker. In the preferred embodiment illustrated in FIG. 1, the appliance for cooking food under pressure forming the appliance 1 is advantageously a domestic pressure cooker, which therefore has in particular a portable character (that is to say manually movable) and independent. Advantageously, the pressure cooker in question is thermally passive, that is to say that it is designed to increase pressure under the effect of an independent heating source which is external to it, such as a cooking plate . However, it is entirely possible, without departing from the scope of the invention, for the heating source to be part of the pressure cooker 1 (as is the case for electric pressure cookers). As is well known as such, the pressure cooker 1 comprises a vessel 2 forming a cooking vessel and advantageously substantially having a symmetry of revolution along a central vertical axis X-X '. The tank 2 is for example manufactured by stamping a blank of metal material such as aluminum or stainless steel. A thermally conductive bottom may advantageously be attached, for example by hot stamping, on the bottom of the container obtained by stamping, in order to form a tank 2 equipped with a thermally conductive bottom. The pressure cooker 1 also comprises a lid 3 intended to be attached to the tank 2 in order to form with the latter a substantially sealed cooking chamber, that is to say sufficiently hermetic to allow a significant increase in pressure within it, by example at a level exceeding the atmospheric pressure of between 4 kPa and 150 kPa. The lid 3 is advantageously made of a metallic material (for example stainless steel) and preferably has a general disc shape, complementary to the shape of the tank 2 with which it is associated to form the cooking chamber. The lid 3 is designed to be locked I unlatched at will relative to the tank 2, the lid 3 of the lock allowing the enclosure to mount pressure without exhaust lid 3 under the effect of pressure internal pressure cooker . To this end, the pressure cooker forming the appliance 1 comprises a means for locking / unlocking the lid 3 on the tank 2, which can be in this case any known type (stirrup, bayonet, locking system). jaws, segments, etc.). The locking / unlocking means may, for example, be capable of changing between a locking configuration of the lid 3 with respect to the tank 2 in which the lid 3 is secured to the tank 2 so as to allow the rise in pressure, and a configuration unlatching the lid 3 relative to the tank 2 in which the lid 3 can be freely separated from the tank 2, by the user, manually. Preferably, said pressurized food cooking apparatus is also provided with a pressure regulating valve, designed to maintain the pressure in the cooking chamber (formed by the combination of the lid 3 and the tank 2) at a predetermined level of setpoint called operating pressure. Preferably, said pressure regulating valve is a calibrated calibrated pressure regulating valve, so that the set point is adjustable by setting the calibration. Preferably, said pressurized food cooking appliance further comprises a decompression member, allowing the user to reduce the pressure within the chamber, particularly at the end of the cooking process, so that the user can open the lid 3 under acceptable safety conditions. The independent computer terminal 4 is completely separate and independent of the appliance 1. It advantageously has a portable character and is preferably designed to be transported and manipulated with one or two hands by a user. Preferably, the computer terminal 4 is constituted by a smartphone (in English "smartphone"), a touch pad (like Apple iPad ®) or a laptop, and is preferably equipped with Bluetooth ® technology, and in particular Bluetooth technology 4. 0 "low energy" ®. The independent computer terminal 4 is thus in the form of a computer, it being understood that this generic term must be considered here in its broadest sense, that is to say covering not only conventional computers (desktop computer). or portable-type laptop) but also touchscreen tablets and smartphones, all these devices being able to interpret and execute computer programs and applications, which justifies their name computer. By "application" is meant here an application software intended to provide, when executed on the independent computer terminal 4, assistance in the use of the appliance 1, producing for example information of all kinds (sound and / or visual, interactive or not) to guide the user in his use of the appliance 1, preferably in real time, in the manner of a virtual "coach". Preferably, the independent computer terminal 4 is provided with a display screen 4A and / or speakers for communicating to the user visually and / or sound, the above-mentioned assistance-to-use information. . The information produced by the application executed by the independent computer terminal 4 may also include control information, which is not necessarily intended to be intelligible to the user to guide him in his use, but may for example directly influence the The application executed by the independent computer terminal 4 can therefore advantageously produce audiovisual information intended to guide the user in his use of the appliance 1, and / or to produce control signals which control the operation of the appliance. , or contribute to driving, directly, the operation of the appliance 1. The assistance system for use according to the invention also comprises a transmitter module 5 designed to be embedded on said appliance 1, as well as telecommunications means designed to establish a connection wireless ion between said application executed by the computer terminal 4 and said transmitter module 5. The transmitter module 5 is advantageously attached, permanently or removably, to the appliance 1, and is preferably in the form of a unitary subassembly, monobloc which can for example be attached and detached manually and at will from the appliance 1. The transmitter module 5 is preferably embedded on the lid 3 of the pressure cooker advantageously forming the appliance 1, as illustrated in FIG. 1. The transmitter module 5 advantageously integrates electronic data processing means, of the microprocessor or microcontroller type. The wireless connection established between said application and the transmitter module 5 can be achieved by any known means for connecting without contact the transmitter module 5 and the computer terminal 4 to allow a data exchange between them. Preferably, said wireless connection is a connection by electromagnetic waves, and preferably by radio waves, infrared or other, allowing (without physical connection of the wire or cable type between the terminal 4 and the transmitter module 5) an analog data transfer and / or digital between the transmitter module 5 and the application, via the computer terminal 4. Preferably, said telecommunication means implement a link between the transmitter module and the computer terminal that complies with the "Bluetooth 4" standard. 0 Iow energy ". The wireless connection is therefore in this case a Bluetooth ® connection relying particularly advantageously on the protocol "Bluetooth 4. 0 Iow energy ®". This of course means that in this preferential case, both the transmitter module 5 and the computer terminal 4 embark said telecommunications means, which rely on Bluetooth technology to achieve a contactless communication and wired connection between the application and the module transmitter 5. Preferably, said communication is bidirectional, in which case the transmitter module 5 constitutes a transmitter / receiver module while the computer terminal 4 is also provided with transmission / reception means, thus enabling a bidirectional transfer of digital or analog data between the application executed by the computer terminal 4 and the transmitter module 5. The system according to the invention also comprises a control means designed to detect a possible break of said wireless connection. By "break" denotes any partial or total interruption of the connection, or disturbance thereof, which prevents a normal and / or complete exchange of data between the transmitter module 5 and the application executed by the terminal 4. Such a break can arise for example from the occurrence of one or more of the following events, cited for illustrative and not limiting: too large distance between the device 1 and the terminal 4 on which the application is executed; - Electromagnetic disturbance of the wireless connection due to the operation of another device in the vicinity of the appliance 1 and / or the terminal 4; - Inadvertent stop execution of the application on the terminal 4; - Unwanted shutdown of the terminal 4, for example due to a power supply fault (discharged battery); - Stop or malfunction of the terminal 4 following a malfunction of software nature ("system bug") or hardware ... Advantageously, the control means in question is part of Bluetooth ® technology 4.0 ("low energy"), which allows indeed by itself a permanent monitoring of the state of the wireless connection to immediately report any significant breakage or degradation of the latter and issue a warning signal in this sense, said alert signal can for example be processed by the transmitter module 5 to trigger, preferably automatically, an appropriate process, as discussed below. The transmitter module 5 is designed to operate according to at least: a normal mode, which is active as long as the control means does not detect a break of said wireless connection, and according to which the transmitter module 5 monitors and / or harvest and / or generates a first set of data relating to the operation of the appliance 1, which it transmits in part or in full to the application, through said wireless connection, so that said application uses at least some of the data of said first dataset for its execution; a degraded mode, which is active as long as said control means detects a break of said wireless connection, and wherein the transmitter module 5 monitors and / or harvest and / or generates a second set of data relating to the operation of the apparatus household appliance 1 and autonomously uses at least some of said data of the second set of data to communicate to the user, visually and / or audibly, information relating to the operation of the appliance 1. [0007] Preferably, said transmitter module 5 is designed to signal itself to a user, by means of an audible and / or visual signal, the presence or absence of the wireless connection, so that the user can know if the system is in normal mode or in degraded mode. Thus, the assistance system for use in accordance with the invention preferably rests on the following general normal operating diagram: the transmitter module 5 is functionally connected to the appliance 1, which allows it to access locally operating parameters of the appliance 1, which may be part of the first data set referred to above; the first data set in question, which advantageously contains information on the operation, at a given instant, of the appliance 1, is transmitted by the transmitter module 5, via the wireless connection established between the transmitter module 5 and the terminal 4, the application being executed by the computer terminal 4. 10 said application then takes into account all or part of the data in question to provide the user with information to assist the use of the computer. 1 of the appliance, for example through a graphical interface displayed on the screen 4A of the terminal 4. In the event that the control means detects a break in the wireless connection, the transmitter module 5 is more capable of normally exchanging data with the application, which is no longer able to perform its function of assistance for use, since it can no longer take into account the state of OPERATING In this case, the application is no longer functionally related to the appliance 1, which can of course cause serious problems of use. In order to remedy this difficulty, the transmitter module 5 is then designed to operate according to the above-mentioned degraded mode, as long as the wireless connection between the appliance 1 and the transmitter module 5 is broken. When operating in this degraded mode, the transmitter module 5 is always operably connected to the appliance 1 so that it is in particular able to continue collecting data relating to the operation of the appliance 1, and locally using these data (which correspond to the second set of data referred to above) to transmit by itself (instead of the terminal subset 41 application), in the form of visual and / or sound signals, information allowing Assist the user in the use of the appliance 1. [0008] Thus, the assistance with the use provided by the system according to the invention is provided by the terminal subassembly 41 application in normal operation (normal mode) and directly by the transmitter module 5 itself in abnormal operation (loss of the functional connection between the computer terminal 4 and the appliance 1), that is to say in degraded mode. Advantageously, the transmitter module 5 is designed to transmit to said application, as soon as the wireless connection is re-established after a connection break, at least one reconfiguration signal including at least all or some of said data of said second set of data, said application being able to use the data of the reconfiguration signal to resume the normal course of its execution which had been interrupted by said termination of connection. Thanks to this preferred technical characteristic, the system is able, when the wireless connection is restored after interruption, to automatically switch from degraded mode to normal mode and to take into account the operation of the appliance 1 while the degraded mode was active. to continue running the application in normal mode. For example, in the preferred case where the appliance 1 is constituted by a pressure cooker, the transmitter module 5 is advantageously designed to indicate to the application, via the wireless connection and at the moment when the latter is restored , what is the cooking phase in progress, so that the application can take this into account to subsequently provide information to assist the use of the pressure cooker, and not to provide inappropriate information by restarting at zero or by simply taking the course of its execution where it had stopped during the untimely break of the wireless connection, which would lead to desynchronize the execution of the application and the course of the cooking cycle. [0009] Advantageously, the appliance 1 is provided with a manually movable control selector 6, for example movable between a plurality of positions respectively corresponding to a plurality of operating state of the appliance 1. The control selector 6 advantageously allows a user to control one or more of the functions of the appliance 1. [0010] In the embodiment illustrated in the figures, where the appliance 1 is a pressurized food cooking appliance, the control selector 6 is intended to manually control one or more of the functions of the food cooking appliance. under pressure. [0011] For example, as illustrated, the control selector 6 is intended to manually control at least the adjustment of the calibration of the calibrated regulation valve calibrated setting which is preferably provided the pressure food cooking appliance forming the In the example shown, the control selector 6 is advantageously intended to also manually control the decompression member which is preferably provided with the pressurized food cooking appliance. In this advantageous embodiment illustrated in FIG. 1, the control selector 6 is preferably in the form of a slider 6A rotatably mounted along a substantially vertical axis, which in this case corresponds to the axis XX ' 2. In the example illustrated, the slider 6A is designed to move between different predetermined positions, each associated with respective identification markings 7, 8, 9, 10, 11 positioned on the apparatus of the invention. pressure cooking, for example on the surface of the lid 3 (so as to be perfectly visible to the user) according to a predetermined arrangement. [0012] Each of said positions corresponds to a specific feature and the identification markings 7, 8, 9, 10, 11 are designed to allow the user to identify which feature is associated with each indexed position of the cursor 6A. For example, the first identification marking 7 corresponds to the activation of the decompression of the apparatus, whereas the second, third, fourth and fifth identification markings 8, 9, 10, 11 respectively correspond to four values of Operating pressure setpoints (ie four different control valve setting levels), suitable for different types of foods (vegetables, starchy foods, meat, fish). Thus, when the slider 6A points to the identification marking 7, the decompression of the pressurized food cooking appliance is controlled, so that the inside of the cooking chamber is placed in communication with the cooking appliance. outside to bring down the pressure in the chamber and bring it back to atmospheric pressure. On the contrary, when the slider 6A points to one or the other of the second, third, fourth or fifth identification markings 8, 9, 10, 11, the pressurized cooking apparatus is then placed in a cooking configuration. under pressure, that is to say that the cooking chamber is sealed so that the inside of the enclosure can communicate with the outside only through the control valve whose tare (on which the operating pressure setpoint depends) is set to a predetermined level associated with the predetermined position of the slider 6A. Preferably, the instantaneous position of the control selector 6 is part of the first data set and / or the second data set, and preferably is part of the first data set and the second set of data. In other words, in this preferred embodiment, the transmitter module 5 is designed to continuously monitor the position of the control selector 6 and is thus able to determine in real time (by means of position sensors, for example C-MOS type sensors intended to be excited by a magnet embedded in the control selector 6) in which predetermined position is said control selector 6. The transmitter module 5 is also able in this case to communicate this instantaneous position information from the control selector 6 to the application executed by the computer terminal 4, via wireless connection. This information is advantageously transmitted by the transmitter module 5 to the application executed by the computer terminal 4 in normal mode, so that the application can know at any time in which position is the control selector 6, but also when the Wireless connection is restored after a connection break, so that the application can immediately take into account the instantaneous position in which the control selector 6 is located. [0013] In addition, when the transmitter module 5 operates in degraded mode, the transmitter module 5 is advantageously designed to continuously monitor the position of the control selector 6 so that the transmitter module 5 can take into account in real time the instantaneous position of the selector switch. command 6 to communicate to the user, visually and / or audibly, information relating to the operation of the pressure food cooking appliance forming in this case the appliance 1. Thus, the instantaneous position of the control selector 6 is preferably part of the information used by the application (in normal mode) or the module 5 itself (in degraded mode) to provide assistance with the use of the appliance 1. [0014] Advantageously, the appliance is capable of implementing a plurality of different predetermined operation sequences, each including a respective series of successive phases. Preferably, characteristic parameters of each of said predetermined operation sequences are recorded in the application, so that the application can invite a user to select a predetermined operating sequence. [0015] In the preferred case where the appliance 1 is a food cooking appliance under pressure, the latter is advantageously capable of implementing a plurality of cooking cycles advantageously corresponding to said plurality of predetermined operating sequences and including them. each of them a respective series of cooking steps corresponding to said respective series of successive phases. Preferably, each cooking cycle is associated with a corresponding cooking recipe that the user can select by means of the application. Advantageously, each series of cooking steps includes at least one pressure cooking step during which the pressure cooking apparatus regulates the pressure prevailing therein so that it is maintained substantially at a set value, said setpoint value being advantageously adjustable by setting the calibration of the calibrated control valve preferably equipping the pressure cooker. Each baking cycle preferably comprises a first pressure increase step, followed by a second pressure baking step, during which the pressure within the chamber is maintained at a predetermined set point, each cycle of cooking continues with a third decompression step during which the pressure in the cooking chamber drops to gradually return to atmospheric pressure. Each cooking cycle is distinguished from other cooking cycles for example by the duration of each step and / or by the set value for the step of cooking under pressure. Preferably, the application is designed to inform the user of the beginning and / or end of one or more of said successive phases forming the predetermined operating sequence implemented by the appliance 1, when the transmitter module 5 of the latter operates in normal mode. [0016] Advantageously, said transmitter module 5 is also capable, when operating in degraded mode, of informing the user, visually and / or audibly, of the beginning and / or the end of at least one of said phases of the predetermined operating sequence that said appliance 1 being implemented. Preferably, said predetermined operating sequences are each identified by an identification code, a particular predetermined operating sequence that can be selected by means of the application, via the control interface (touch screen, keyboard or other) which is equipped with the computer terminal 4. The application is advantageously designed to control the transmission of said identification code of the operating sequence thus selected to the transmitter module 5 via the wireless connection. The transmitter module 5 advantageously has a memory designed to store, at least temporarily, said identification code, so that the transmitter module 5 locally has said identification code even if the wireless connection is subsequently interrupted. Thus, in this preferred embodiment, the invention is advantageously designed to allow the user to select, via the application, a predetermined operating sequence, from among a plurality of available operating sequences, said predetermined sequence thus selected being characterized by various parameters including for example the duration of each phase comprising the sequence as well as other parameters relating to the implementation of each phase (value of particular instructions, etc.). Advantageously, the application hosts for this purpose a database that associates each predetermined operating sequence with an identification code. This identification code is transmitted, from the selection, by means of the application, of the corresponding predetermined operation sequence by the user, to the transmitter module 5, which thus saves the selected identification code, for example in view to use it directly in degraded mode or to communicate it to the application, after a return to the normal mode consecutive to a functioning in degraded mode, in case the event responsible for the passage in degraded mode would have led the application to lose the identification code corresponding to the predetermined operating sequence previously selected by the user. Preferably, the reconfiguration signal includes said identification code, so that as soon as the wireless connection is re-established after a connection break, the transmitter module 5 transmits, via the reconfiguration signal, the identification code. of the predetermined operating sequence that was in progress at the time of said break in connection, which may result for example from a power off of the computer terminal 4 (due for example to a defect in the battery of the latter ). Advantageously, the transmitter module 5 is able to identify the phase in progress of the predetermined operating sequence that said appliance I is implementing, said first set of data and / or said second data set including data representative of the identity of said phase being unfolded. Thanks to this technical characteristic, the transmitter module 5 is able to communicate to the application, in real time, the identity of the phase being unfolded, which allows the application to provide assistance to the optimal use . This identification of the phase during unwinding is obtained for example by the implementation of measuring means and / or detection means which determine, from the evaluation of certain parameters (temperature, duration, etc.). the identity of the phase being unfolded. [0017] Even more preferably, the aforementioned reconfiguration signal includes said data representative of the identity of said phase being unwound, so that as soon as the wireless connection is re-established after a connection break, the transmitter module 5 can inform the application, via the reconfiguration signal, of the identity of the phase in progress, which allows the application to resume the normal course of its execution. In the preferred embodiment in which the appliance I is a pressurized food cooking appliance capable of carrying out a pressure cooking step during which the appliance regulates the pressure prevailing therein for it is maintained substantially at a set value, the transmitter module 5 preferably incorporates a detection device of the moment when said pressure cooking step begins. Advantageously, the reconfiguration signal includes data representative of said instant or starts said step of cooking under pressure. With this feature, the transmitter module 5 is able, at the time of resuming operation in normal mode after operation in degraded mode, to indicate to the application the moment when the step of cooking under pressure started, this may allow for example the application to determine the remaining duration of implementation of said step of cooking under pressure. Preferably, said device for detecting the instant in which said step of cooking under pressure includes at least firstly a pressure and / or temperature sensor making it possible respectively to measure the level of pressure and / or temperature prevailing at within the cooking apparatus (that is to say within the cooking chamber formed by the tank 2 and the lid 3) and secondly calculation means for automatically determining, from said measured pressure and / or temperature levels, said instant when said pressure cooking step begins. Preferably, the detection device is designed to detect the moment when the pressure prevailing in the pressure cooker reaches for the first time substantially the selected set value (in cash by means of the control selector 6), the instant in question. thus marking the beginning of the step of cooking under pressure. Preferably, the detection device is designed in this case to operate according to the principle described in EP-1 458 268, the content of which is incorporated by reference. In this preferred embodiment, the detection device includes a temperature sensor advantageously disposed in, or in the vicinity of, a steam exhaust duct disposed downstream of the pressure regulating valve, to enable said temperature sensor to capture the temperature increase resulting from the escape of steam through a conduit, and to produce in response a trigger signal. This trigger signal is advantageously part of the first set of data transmitted by the transmitter module 5 to the application in normal mode. In this case, the application is advantageously designed to trigger, upon receipt of the trigger signal from the transmitter module 5, a countdown of a predetermined duration corresponding in this case to a desired duration of cooking food at the pressure of operation. This predetermined duration is advantageously determined automatically by the system, as a function, for example, of the recipe followed by the user. Preferably, the transmitter module 5 also incorporates a timer designed to count down a predetermined time from said instant when said pressurized cooking step begins. Thus, the transmitter module 5 is capable, when operating in degraded mode, counting by itself said predetermined duration through the timer which it has locally. The predetermined duration can be counted even if the transmitter module 5 can no longer communicate with the application. [0018] Advantageously, the transmitter module 5 is designed to determine the residual time remaining to be counted by the timer incorporated in the transmitter module 5 at the moment when the wireless connection is reestablished after having been interrupted, the previously mentioned reconfiguration signal including in this case data representative of said residual duration. Thanks to this characteristic, the system can operate in the following way: the system operates first normally, the normal mode of the transmitter module 5 being activated; when the transmitter module 5 detects, by means of its detection device, the moment when the pressure within the device 1 reaches the selected setpoint via the control selector 6, a triggering signal ( part of the first data set) is transmitted to the application, which in response undertakes the countdown of a predetermined duration corresponding to the required cooking time at the selected set pressure; in parallel, the triggering signal also controls the counting, by the timer incorporated in the transmitter module 5, of the same predetermined duration, so that the application on the one hand and the transmitter module 5 on the other hand count in parallel this predetermined duration; - if for any reason the execution of the application is disturbed to the point of triggering the activation of the degraded mode, and the latter is still active at the end of the countdown of the predetermined duration by the timer incorporated in the module transmitter, then the transmitter module 5 is advantageously designed to inform the user, visually and / or audibly, that the predetermined time has elapsed, which allows the user to take the necessary actions (eg decompression of the device and extinguishing of the heating source); on the other hand, if the transmitter module 5 reverts from the degraded mode to the normal mode when the countdown of the predetermined duration is not completed, the remaining time remaining to be counted down will be immediately transmitted, by means of the wireless link, to the application , which can then continue the count and thus indicate to the user the end of the count and the appropriate steps that should be implemented (decompression ...). Advantageously, the value of the predetermined duration can be selected by means of the application, which is designed to control the transmission of the value thus selected to the transmitter module via the wireless connection in normal mode, said transmitter module 5 having a memory designed to store said selected value, so that the transmitter module 5 locally has said selected value even in degraded mode. An example of operation of a system for assisting the use of an appliance 1 according to the illustrated embodiment will be described in the following. In this example, the system according to the invention consists of a system for assisting the use of a pressurized food cooking appliance provided with an adjustable pressure control valve and a selector control unit 6 for manually controlling the decompression of the apparatus and the regulation setting of the regulating valve to select an operating pressure setpoint value from among 4 predetermined values respectively corresponding to the positions indicated by the markings 8, 9, 10 11. In this example of use, the user wishes to prepare a dish according to a recipe contained in the application loaded into, and intended to be executed by, the computer terminal 4 available to the user. The user thus selects the recipe concerned by means of a graphical interface produced by the application and displayed on the screen 4A of the computer terminal 4, which is formed in this case by a smartphone. The user can choose, using this graphical interface produced by the application, to follow the step-by-step recipe. In this case, the recipe is associated with a predetermined operating sequence of the pressure food cooking appliance identified by a specific identification code, as previously discussed. The selection of the recipe by the user by means of the graphical interface generated by the application causes transmission to the transmitting module 5 of said identification code, so that said transmitting module 5 stores in its memory said identification code for it may be possible to retransmit it in turn to the application after possibly switching to degraded mode. The graphical interface generated by the application on the screen of the computer terminal 4 is advantageously designed to first guide the user in establishing the wireless connection between the transmitter module 5 and the computer terminal 4, so that to allow interactive user assistance for the rest of the recipe. To this end, the graphical interface in question first invites the user to press on the one hand on a start button which is provided with the transmitter module 5 and on the other hand on a virtual button displayed connection by the graphical interface visible on the screen of the computer terminal 4. This dual operation leads to setting up a communication between the device 1 and the computer terminal 4, in this case by means of the Bluetooth 4.0 ® technology. as previously stated. Preferably, the computer terminal 4 first looks for the Bluetooth ® signal transmitted by the transmitter module 5 and then establishes the connection, and finally signals that the connection is correctly performed by a message delivered via the graphical interface displayed by the screen of the computer terminal 4 to the user. Said graphic interface is then designed to invite the user to move the control selector 6 (formed in this case by the cursor 6A) to place it in a position corresponding to a specific cooking program, that is to say to an appropriate set point for the recipe concerned. If the user does not correctly respond to this invitation, for example by leaving the command selector 6 in the decompression position, the graphical interface generated by the application is designed to display an error symbol and to reiterate its invitation. to manually move the control selector 6 next to the marking 8, 9, 10, 11 corresponding in this case to the appropriate setpoint for the recipe concerned. The user then proceeds to move the control selector 6 from its decompression position (marking 7) to its position corresponding for example to the first operating pressure set point (in which it points in this case to the second identification marking 8), which has the concomitant effect of moving, on the screen of the computer terminal 4, a virtual pointer symbolizing the control selector 6 of a position in which it pointed to a first pictogram corresponding to the first marking 7 at a position in which it points to a second pictogram corresponding to the second marking 8. The graphical interface then indicates to the user that the preheating step (rise in pressure of the apparatus) is in progress and the for this purpose, you can adjust the heating source (hob) to full power so that the pressure setpoint can be reached as quickly as possible. When the set point is reached, the control valve opens to let the steam escape in order to regulate the pressure level, which has the effect of generating a sudden rise in temperature at the vapor outlet pipe arranged downstream of the regulating valve, elevation which is detected by the temperature sensor of the detection device equipping the transmitter module 5. The latter transmits in return a trigger signal which: - is transmitted by the wireless connection to the application, to automatically trigger the count, by the application, a predetermined time corresponding to the required duration of the step of cooking under pressure = this count can advantageously be displayed in the form of a countdown by means of a virtual display that is part of the graphical interface generated by the application executed by the computer terminal 4. - triggers locally, within the transmitter module 5, the countdown of the same predetermined duration by the timer which is advantageously provided with said transmitter module 5. Once the countdown is complete, the application signals to the user that the step of cooking under pressure is complete, by the Intermediate for example a window including a message displayed on the screen of the computer terminal 4. The user is then asked to cut the heating source, a reminder message can advantageously appear for this purpose and not disappearing from the Terminal 4 screen in response to a positive action of validation (click on a virtual button for example) of the user. The system can then, in the case of a conventional cooking cycle, signal to the user (through a graphical interface generated by the application on the screen of the terminal 4) that the cooking is finished and the Invite accordingly to place the control switch 6 in the decompression position (identified by the marking 7) to open the lid 3 as soon as possible. Alternatively, the pressurized cooking apparatus can implement, preferably but optionally, a so-called "soft cooking" step in which the food continues to cook under the effect of the thermal inertia, remaining within the pressure cooker which is decompressed and is no longer subjected to a positive thermal input from the heating source (excluding thermal inertia effect), the latter being cut completely (that is to say not more powered - for example electric - or fuel - eg gas -). In order to implement this terminal phase of "soft cooking", the user is invited by the application, for example via a message displayed on the screen of the computer terminal 4, to decompress his pressure cooker by placing the control selector 6 in the appropriate position (the decompression position corresponding to the first identification marking 7). The user then manipulates the command selector 6 to bring it into the decompression position, which has the effect of simultaneously moving the virtual cursor displayed by the application on the screen of the terminal 4 so that it points to a pictogram symbolizing decompression. If this manipulation is correctly performed by the user, the graphical interface generated by the application on the screen of the computer terminal 4 signals with a validation message to the user that everything is in order. The soft cooking phase then continues and the user is preferably informed by the application. Eventually, a temporal count, visible to the user (for example being displayed on the screen of the computer terminal 4) allows the user to know the predetermined duration of this terminal stage of and soft cooking ", whose end him is advantageously indicated by an appropriate message displayed by the application on the screen of the computer terminal 4, again inviting him to ensure that the heating source is cut and that the pressure cooker is not under pressure. Once the cooking cycle described above is completed, the user can separate the lid 3 of the tank 2 and access the cooked food. In the case where, during the firing cycle according to the example described above, the system control means detects a break in the wireless connection, the transmitter module 5 is designed to automatically switch to degraded mode. In the preferred example described above, the control means is part of the Bluetooth 4.0 low energy® technology. The technical means establishing the wireless link according to the Bluetooth 4.0 low energy ® protocol are indeed designed to immediately emit a signal of loss of connection, which then automatically triggers the deactivation of the normal mode and the activation of the degraded operating mode of the module. transmitter 5. In degraded mode, the transmitter module 5 operates in the following manner. [0019] An indicator light illuminated continuously by a green light when the transmitting module 5 operating in normal mode starts flashing red from then on as long as the transmitter module 5 is operating in degraded mode. During the degraded mode, the transmitter module 5 is designed to emit various predetermined sound and / or light signals to signal for example: - the attainment of the programmed pressure setpoint value (that is to say the moment when begins the step of cooking under pressure); the beginning of the step of "soft cooking" (when such a step is implemented); the end of the cooking cycle (at the end of the step of cooking under pressure or at the end of the step of "soft cooking" if such a step is carried out); - Incorrect positioning of the control dial 6, when the latter points to a marking that does not correspond to the pressure set required for the selected recipe). [0020] Preferably, in degraded mode, each change of position of the control selector 6 further causes the generation of a short sound signal by the transmitter module 5, to signal the change of position. In the event that the wireless connection is then restored, automatically causing the return to normal mode, the transmitter module 5 is advantageously designed to immediately transmit to the application, automatically, via the wireless connection, a reconfiguration signal including for example the following data: - instantaneous position of the control selector 6; - identification of the cooking phase in progress (step of cooking under pressure or step of "soft cooking" for example); - time remaining to be counted (for the pressure cooking stage or the soft cooking stage); - identification code of the cooking cycle corresponding to the currently selected recipe. [0021] These different pieces of information allow the application executed by the computer terminal 4 to be automatically reconfigured when the connection is re-established, thereby enabling the user to continue the cooking cycle with the assistance of the application. [0022] In the event of a new loss of connection, the transition to degraded mode takes place in the same manner as described above, and in a fully automatic manner. The degraded mode thus ensures an increased level of security of the assistance system according to the invention by mitigating any possible failure of the computer terminal 4. [0023] Furthermore, the application is designed to be able at any time to interrogate (via the wireless connection) the transmitter module 5 so that it returns, via the wireless connection, all of the following information that the transmitter module 5 locally holds at the time of the interrogation by the application: - Required predetermined duration of the pressure cooking step, as determined by the application according to the chosen recipe, it being understood that this predetermined duration can optionally have been manually modified by the user via the application. Identifier of the current cooking step (pressure rise step, pressure cooking step or "soft cooking" step). These various steps are advantageously identified by the detection of a predetermined rate of temperature increase as a function of time. As long as this predetermined rate has not been detected, the control valve has not opened and therefore the pressure increase step is still in progress. As soon as this predetermined rate has been detected, the step of cooking under pressure starts for a predetermined duration counted by the application and / or the emitter module 5; once the predetermined cooking time under pressure has been fully counted, the "soft cooking" step begins. Time counted, corresponding to the time counted by the transmitter module 5 since the event "detection of a predetermined rate of increase of the temperature with respect to time" or the time counted by the transmitter module 5 from the beginning of the step of "soft cooking". - State of the battery energy level still available in the battery supplying the transmitter module 5, expressed as a percentage. - Actual position of the control selector 6, corresponding to the instantaneous position in which the control selector 6 is actually at the instant when the transmitter module '5 is interrogated by the application. - Temperature instant temperature measured by said temperature sensor. - Detection of the predetermined rate of temperature increase as a function of time: once the transmitter module 5 is functionally connected to the computer terminal 4 via the wireless connection, the transmitter module 5 automatically executes a control operation of the temperature measured by the temperature sensor of the detection device incorporated in the transmitter module 5. At the end of this control operation, the transmitter module 5 generates a Boolean variable called hereinafter "slope detection" and which is the "true" state when a sudden change in this temperature (for example greater than x ° Clmin, where x is a predetermined value correlated to the opening of the control valve) is detected. - Identification code of the cooking cycle corresponding to the current recipe (hereinafter "recipe code") achievement selected by the user by means of the application, and which was transmitted to the transmitter module 5 to be registered in memory by the latter, as previously stated. - Identifier of the model of pressure cooking appliance (for example, during the first use of the user assistance system, the user is invited to declare by the application the pressure cooker model that he is going to use. when the transmitter module 5 is switched on, the application communicates to the transmitter module 5 the reference of the pressure cooker model concerned). - Required position of the control selector 6 (position in which should be the control selector 6, depending on the selected recipe, when the transmitter module 5 is queried by the application). [0024] All of this information is advantageously transmitted in the form of a data frame, for example according to Table 1 below. [0025] Parameters Formats Pre-determined time required for the cooking step under Byte (s) Dur Etap pressure Identifier of the current cooking step Byte (s) Ether_identification Time counted Byte (s) T_dec Battery status Byte (s) Battery Position actual control selector 6 Byte (s) Pos_Rel Temperature Byte (s) T ° c Slope detection Byte (s) Detect_P Recipe code Byte (s) Cde Model identifier of pressure cooker Byte (s) Ident_Mod Required position of the control selector 6 Byte (s) Pos_Req Table 1 Of course, the user assistance system described in the foregoing can be implemented with any household appliance, and especially with any household appliance likely to use the appliance. Bluetooth protocol 4. 0 ® and can rely on a communication frame for example similar to the frame of Table 1 clavant. The invention is therefore absolutely not limited to an implementation dedicated to a pressurized food cooking appliance, even if this embodiment is particularly preferred. The invention furthermore relates to an assembly comprising - a system for assisting the use according to the preceding description, that is to say a system for assisting the use of a household appliance 1 by means of an application executed by an independent computer terminal 4 which a user has; said independent computer terminal 4; - and said application. The description described above concerning the system taken alone remains of course valid, mutatis mutandis, for the aforementioned set including the system, the terminal and the application. [0026] The invention also relates as such to a method of assisting the use of an appliance 1 advantageously to be implemented by means of the system described in the foregoing. The method according to the invention thus advantageously constitutes a method of assisting the use of a household appliance 1 by means of an application executed by an independent computer terminal 4 available to a user, a transmitter module 5 being embedded on said appliance 1. The method according to the invention comprises establishing a wireless connection between said application and transmitter module 5, as explained above. The method further implements a control operation for detecting a possible break of said wireless connection. The transmitter module 5 is in turn designed to operate according to at least: a normal mode which is active as long as no break in said wireless connection has been detected, and in which the transmitter module 5 is monitoring and / or harvesting and / or generates a first set of data relating to the operation of the appliance 1 which it transmits in part or in full to the application, through said wireless connection, so that said application uses at least some of the data of said first data set for execution; a degraded mode, which is active as long as a break in said wireless connection is detected, and in which the transmitter module 5 monitors and / or harvests and / or generates a second set of data concerning the operation of the appliance 1 and autonomously uses at least some of said data of the second data set to communicate to the user, visually and / or audibly, information relating to the operation of the appliance 1. [0027] Of course, the foregoing description relating on the one hand to the assistance system and on the other hand to the corresponding set remains valid, mutatis mutandis, for the present method of assistance with the use. Finally, the invention also relates as such to a computer program product comprising computer program code means adapted to perform the steps of a method according to the above when said program is executed by a computer. [0028] The invention thus makes it possible to optimize and make reliable a process for assisting the use of a household appliance, preferably made by means of a computer terminal 4, of the kind ordinate or touchscreen tablet, functionally connected, by a contactless connection to the appliance 1 concerned.
权利要求:
Claims (8) [0001] REVENDICATIONS1. System for assisting the use of an appliance (1) by means of an application executed by an independent computer terminal (4) available to a user, said system comprising a transmitter module (5) designed to be embedded on said appliance (1) as well as telecommunication means designed to establish a wireless connection between said application and transmitter module (5), said system being characterized in that it also comprises a control means designed to detect a possible break said wireless connection, said transmitter module (5) being adapted to operate in at least: a normal mode, which is active as long as said control means does not detect a break in said wireless connection, and wherein the transmitter module (5) monitors and / or harvest and / or generates a first set of data relating to the operation of the household appliance (1) which it transmits separately ie or totally to the application, through said wireless connection, so that said application uses at least some of the data of said first set of data for its execution; a degraded mode, which is active as long as said control means detects a break in said wireless connection and / or a fault in execution of the application, and in which the transmitter module (5) monitors and / or collects and / or generates a second set of data relating to the operation of the appliance (1) and autonomously uses at least some of said data of the second set of data to communicate to the user visually and / or audibly information relating to the operation of the appliance (1). [0002] 2 - System according to claim 1 characterized in that said transmitter module (5) is adapted to transmit to said application, as soon as said wireless connection is re-established after a connection break, at least one reconfiguration signal including at least all or some of said data of said second data set, said application being able to use the data of said reconfiguration signal to resume the normal course of its execution which had been interrupted by said disconnection. [0003] 3 - System according to claim 1 or 2 characterized in that said appliance (1) is provided with a control selector (6) movable manually, the instantaneous position of said control switch (6) forming part of the first data set and / or the second data set. [0004] 4- System according to claim 3 characterized in that said appliance (1) is a pressure food cooking appliance provided with a calibrated pressure regulating valve calibrated, the control selector (6) being intended manually controlling at least the setting of the calibration of said control valve. [0005] 5 - System according to one of claims 1 to 4 characterized in that said appliance (1) is capable of implementing a plurality of different predetermined operating sequences, each including each a respective series of successive phases. [0006] 6 - System according to claim 4 characterized in that said transmitter module (5) is capable, when operating in degraded mode, to inform itself by the user, visually and / or sound, the beginning and / or the end of at least one of said phases of the predetermined operating sequence that said appliance (1) is implementing. [0007] The system of claim 5 or 6 characterized in that said predetermined operating sequences are each identified by an identification code, a particular predetermined operating sequence selectable by the application, which is adapted to control the transmitting the identification code of the operation sequence thus selected to the transmitter module (5) via said wireless connection, said transmitter module (5) having a memory adapted to store said identification code, so that the transmitter module (5) locally has said identification code even if the wireless connection is subsequently interrupted. [0008] System according to claims 2 and 7, characterized in that said reconfiguration signal includes said identification code. - System according to one of claims 5 to 8 characterized in that the transmitter module (5) is able to proceed to the identification of the phase in progress of the predetermined operating sequence that said appliance (1) is implementing, said first set of data and / or said second set of data including data representative of the identity of said running phase. 10 -System according to claims 2 and 9 characterized in that said reconfiguration signal includes said data representative of the identity of said phase in progress. 11 -System according to one of claims 5 to 10 characterized in that said appliance (1) is a pressure food cooking appliance capable of implementing a plurality of cooking cycles corresponding to said plurality of sequences predetermined operating modes and each including a respective series of cooking steps corresponding to said respective series of successive phases, each series of cooking steps including at least one pressurized cooking step during which said apparatus ( 1) regulates the pressure within it so that it is maintained substantially at a set value. 12 -System according to claim 11 characterized in that said emitter module (5) incorporates a device 20 for detecting the moment when said pressure cooking step begins. 13 - System according to claims 2 and 12 characterized in that said reconfiguration signal includes data representative of said instant where said step of cooking under pressure begins. 14 -System according to claim 12 or 13 characterized in that said detection device includes at least on the one hand a pressure and / or temperature sensor for measuring respectively the level of pressure and / or temperature prevailing within of the apparatus and secondly calculating means for automatically determining, from said measured pressure and / or temperature levels, said instant at which said step of cooking under pressure starts.15 - System according to one claims 11 to 14 characterized in that said transmitter module (5) incorporates a timer designed to count down a predetermined time from said time when said step of cooking under pressure begins. 16 -System according to claims 2 and 15 characterized in that said transmitter module (5) is designed to determine the remaining time remaining to be counted by the timer when the wireless connection is restored after being interrupted, said reconfiguration signal including data representative of said residual duration. System according to Claim 15 or 16, characterized in that the value of said predetermined duration can be selected by means of the application, which is designed to control the transmission of the thus selected value to the transmitter module (5) via of said wireless connection in normal mode, said transmitter module (5) having a memory adapted to store said selected value, so that the transmitter module (5) locally has said selected value even in degraded mode. 18 -System according to one of claims 1 to 17 characterized in that said transmitter module (5) is designed to signal itself to a user, by means of an audible and / or visual signal, the presence or the absence of the wireless connection, so that the user can know if the system is in the normal mode or in the degraded mode. 19 -System according to one of claims 1 to 18 characterized in that said telecommunications means implement a connection between the transmitter module (5) and the computer terminal (4) which complies with the standard "BlueTooth ® 4.0 Low Energy ". 20 - An assembly comprising: a system for assisting the use of a household appliance (1) by means of an application executed by an independent computer terminal (4) available to a user, said system being in conformity with the object claims 1 to 19 - said independent computer terminal (4); - and said application. 21 - method of assisting the use of a household appliance (1) by means of an application executed by an independent computer terminal (4) available to a user, a transmitter module (5) being embedded on said appliance (1), said method comprising establishing a wireless connection between said application and transmitter module (5), said method being characterized in that it implements a control operation to detect a possible break in said wireless connection, said transmitter module (5) being adapted to operate according to at least: - a normal mode, which is active as long as no break in said wireless connection is detected, and wherein the transmitter module (5 ) monitors and / or harvest and / or generates a first set of data relating to the operation of the appliance that it transmits in part or in full to the application, through said wireless connection, so that said application uses at least some of the data of said first data set for its execution; a degraded mode, which is active as long as a break in said wireless connection is detected, and in which the transmitter module (5) monitors and / or harvests and / or generates a second data set concerning the operation of the domestic appliance (1) and autonomously uses at least some of said data of the second data set to communicate to the user, visually and / or audibly, information relating to the operation of the appliance (1). A computer program product comprising computer program code means adapted to perform the steps of a method according to the object of claim 21 when said program is executed by a computer.
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同族专利:
公开号 | 公开日 CN106575469A|2017-04-19| CN106575469B|2019-12-13| FR3023999B1|2017-10-27| WO2016009138A1|2016-01-21| EP3169199A1|2017-05-24| EP3169199B1|2022-02-16|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 EP1263167A1|2001-06-01|2002-12-04|Zensys A/S|A system and a method for building routing tables and for routing signals in an automation system| FR2931648A1|2008-06-02|2009-12-04|Sitram|Pressure cooker for cooking food, has processor generating signal representative of operation state of cooker based on information, and transmitter transmitting signal to receiver| FR2834193B1|2001-12-27|2004-04-09|Seb Sa|PRESSURE FOOD COOKING APPARATUS HAVING A TEMPERATURE SENSOR| CN201879448U|2010-11-29|2011-06-29|河南省电力公司开封供电公司|Electric pressure cooker with remote control function| CN103631211A|2012-08-29|2014-03-12|三星电子(中国)研发中心|Method, device and system for controlling household appliance device| CN203204366U|2013-04-24|2013-09-18|浙江智联电子有限公司|Control system used for electric pressure cooker based on bluetooth communication|CN107065678A|2017-05-11|2017-08-18|北京小米移动软件有限公司|Cook guard method and device| CN110250935A|2017-08-09|2019-09-20|沙克忍者运营有限责任公司|Cooking system| CN107702274B|2017-09-18|2020-08-04|广东美的制冷设备有限公司|Terminal control method, device and computer readable storage medium| CN108170111A|2017-12-29|2018-06-15|成都若比邻科技有限公司|A kind of intelligence control system and its method of work suitable for kitchen appliance| CN110236366A|2018-03-09|2019-09-17|夏普株式会社|Cooking device| CN109164714A|2018-11-12|2019-01-08|辽宁福之卉科技发展有限公司|A kind of control method and device of the automatic cooking machine of editable recipe| CN111297182A|2018-12-11|2020-06-19|浙江绍兴苏泊尔生活电器有限公司|Cooking appliance and control method and device thereof| CN110432765A|2019-09-05|2019-11-12|珠海格力电器股份有限公司|The operating pressure control method and system of a kind of electric cooker, electric cooker| JP2021097877A|2019-12-23|2021-07-01|東芝ライフスタイル株式会社|Home appliance, home appliance system, evaluation method, and evaluation criteria generation method| US20210121012A1|2020-03-30|2021-04-29|Sharkninja Operating Llc|Cooking device and components thereof|
法律状态:
2015-07-31| PLFP| Fee payment|Year of fee payment: 2 | 2016-01-22| PLSC| Publication of the preliminary search report|Effective date: 20160122 | 2016-07-29| PLFP| Fee payment|Year of fee payment: 3 | 2017-04-21| CA| Change of address|Effective date: 20170322 | 2017-07-31| PLFP| Fee payment|Year of fee payment: 4 | 2018-07-27| PLFP| Fee payment|Year of fee payment: 5 | 2019-07-31| PLFP| Fee payment|Year of fee payment: 6 | 2020-07-31| PLFP| Fee payment|Year of fee payment: 7 | 2021-07-29| PLFP| Fee payment|Year of fee payment: 8 |
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申请号 | 申请日 | 专利标题 FR1456922A|FR3023999B1|2014-07-17|2014-07-17|SYSTEM FOR ASSISTING THE USE OF AN ELECTRICAL APPLIANCE|FR1456922A| FR3023999B1|2014-07-17|2014-07-17|SYSTEM FOR ASSISTING THE USE OF AN ELECTRICAL APPLIANCE| EP15748287.8A| EP3169199B1|2014-07-17|2015-07-10|System for assisting the use of an electrodomestic appliance| CN201580037866.2A| CN106575469B|2014-07-17|2015-07-10|System for assisting the use of an electrical household appliance| PCT/FR2015/051922| WO2016009138A1|2014-07-17|2015-07-10|System for assisting the use of an electrodomestic appliance| 相关专利
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