FR3029731A1 - INFRARED CENTERING SYSTEM FOR INDUCTION TABLE - Google Patents

Abstract

The invention relates to a centering system for operation with an appliance (1) or a cooking vessel and an induction table (2), and wherein: - a first optical device (4) is positioned in the apparatus appliance (1) or the cooking vessel and the first optical device (4) can generate or receive one or more optical rays and - a second optical device (5) is positioned in the induction table (2) and the second optical device (5) can generate or receive one or more optical rays; and the centering system is arranged to detect alignment of the first optical device (4) with respect to the second optical device (5).

Description

FIELD OF THE INVENTION The present invention generally relates to a system for centering an appliance or cooking vessel on an induction hob. More particularly, the centering system relates to household appliances or cooking vessels that are powered or heated wirelessly energy by an induction table to achieve heating or energy recovery to supply functions related to heating or even a combination of both. It is known in the prior art circular marking systems on the hobs of generators or induction tables as in particular those disclosed in JP2000323270 or WO2009147664. In these documents the marking is intended to identify the inductor (s) and thus to properly position the appliance or the cooking vessel inside the marking to ensure maximum energy transfer between the various elements. However, and in the case of energy recovery to supply functions related to heating, for these devices to work properly it is necessary that the inductor of the device to be powered is ideally positioned. For this it must be positioned in front of the inductor of the induction generator. The perfect alignment of these inductors allows to get the most power with the best efficiency of contactless energy transfer. It is an imperative condition to ensure a sufficient energy transfer while having a dimensioning of the induction generator and the household appliance or cooking vessel as optimum as possible. Tolerance of an offset between the induction generator and the appliance or the cooking vessel would reduce the overall efficiency of the application and therefore sizing the induction generator which would impact the final cost. In addition, these systems also have the disadvantage that the centering of the household appliance or the cooking vessel is made at the discretion of the user and in general in an imprecise manner without the user being informed of the good aligning the appliance or cookware on the induction hob. An object of the present invention is to meet the disadvantages of the prior art mentioned above and in particular first of all to propose a system which can inform the user of the correct alignment of a household appliance or a container of cooking with the induction table in order to transfer as much energy as possible for heating the appliance or cooking vessel or for energy recovery. For this purpose, a first aspect of the invention relates to a centering system 15 intended to operate with a household appliance or a cooking vessel and an induction table comprising a generator inductor provided to supply energy and positioned in the induction table. , the appliance or the cooking vessel are powered and / or heated wirelessly by the energy supplied by the generator inductor 20, characterized in that it comprises: a first optical device positioned in the appliance or the appliance; cooking vessel and the first optical device can generate or receive one or more optical rays and - a second optical device positioned in the induction table and the second optical device can generate or receive one or more optical rays; and in that the centering system is arranged to detect the alignment of the first optical device with respect to the second optical device from one or more optical rays emitted by the first optical device and received by the second optical device or one or more optical rays emitted by the second optical device and received by the first optical device. According to one embodiment, the appliance or cooking vessel comprises a receiver inductor for recovering energy and the first optical device is positioned in the middle of the receiver inductor and the second optical device is positioned in the middle. of the generator inductor. Placing the optical devices in the middle of the inductors makes it possible to use only two optical devices and when these are aligned the appliance or cooking vessel can rotate about the axis formed by the two optical devices. aligned without the inductors shifting relative to each other. According to one embodiment, the receiver inductor and the generator inductor are aligned when the first optical device receives one or more optical rays emitted by the second optical device or when the second optical device receives one or more optical rays emitted by the first optical device. Optical rays must be received directly so that the spurious rays are not taken into account by the different optical devices. According to one embodiment, the one or more optical rays emitted by the first optical device or by the second optical device comprise: - status data of the appliance or cooking vessel or induction hob of in order to know the state of the appliance or cooking vessel or induction hob or - control data of the appliance or cooking vessel or induction hob so as to control the operation of the appliance or cookware or induction hob; and the status or control data may be bidirectionally exchanged between the appliance or cooking vessel and the induction hob via the first optical device and the second optical device only when the first device optical and the second optical device are aligned. The appliance or the cooking vessel and the induction table can thus communicate with each other via the optical rays and only when the optical devices are aligned, thereby eliminating the possibility of to have spurious information that could come from other sources. In other words, the proposed solution makes it possible, through one and the same means, to provide two-way communication between the appliance and the induction hob and a centering indicator of the appliance by compared to the induction table. According to one embodiment, the appliance or cooking vessel or induction table comprises a display for viewing the alignment of the first optical device with the second optical device.

The interest of such a display is to have a device for rendering the centering information visible to a user. According to one embodiment, the display comprises one or more light-emitting diodes which are in a first state of ignition if the first optical device is aligned with the second optical device and which are in a second state of ignition if the first optical device is not aligned with the second optical device. The usefulness of having such an indication of the centering is to be able to quickly know the status of the alignment of the optical devices between them. According to one embodiment, the induction table comprises a device for visualizing the presence of an appliance or a cooking vessel connected to the second optical device. Such a device can detect whether a household appliance or a cooking vessel is present on the induction table and inform a user. According to one embodiment, the appliance or cooking vessel or induction table comprises a device for measuring the decentration of the first optical device with respect to the second optical device or the second optical device with respect to the first optical device. . Such a device makes it possible to know the relative position of the two optical devices with each other.

According to one embodiment, the decentration measuring device comprises a photosensitive slab with optical rays, positioned on the induction table or on the bottom of the appliance or cooking vessel, and which allows to know the position. on the photosensitive slab of an incident optical ray. The photosensitive slab makes it possible to easily integrate within the scope of the invention and makes it possible to capture optical rays reliably. According to one embodiment, the appliance or the cooking vessel or the induction table comprises a device for displaying the position of the ray incident on the photosensitive slab relative to the position 15 of the first optical device or the second device optical. In this way, it is possible to visualize the relative positions of the two optical systems with respect to one another in real time and from this visualization the alignment of the two optical devices can be corrected in order to align them. According to one embodiment, the first optical device is a transmitter 20 and / or infrared receiver connected to a microcontroller and the second optical device is a transmitter and / or infrared receiver connected to a microcontroller. Infrared transmitters and / or receivers operate in wavelengths in which there is little interference. According to one embodiment, the appliance or cooking vessel or induction table comprises a user interface adapted to receive input control data to be transmitted by the first optical device or the second optical device, so as to control at least one function of the appliance or cooking vessel from the induction hob or to control at least one function of the hob from the appliance or cooking vessel .

A second aspect of the invention relates to an induction-operated electrical appliance system which comprises at least one appliance or cooking vessel and at least one induction hob and wherein the appliance or cooking vessel comprises a first optical device. According to one embodiment of the electrical appliance system, the induction table comprises a second optical device. The aims, aspects and advantages of the present invention will be better understood from the following description of a particular embodiment of the invention given by way of non-limiting example with reference to the accompanying drawings. in which: - Figure 1 is a general sectional view of the electrical appliance system in a first position; Figure 2 is a general sectional view of the appliance system in a second position; FIG. 3 is a view from above of a variant of the electrical appliance system in the position of FIG. 1; FIG. 4 is a detailed view from above of the variant of the electrical appliance system of FIG. 3 in the position of FIG. 2.

Figure 1 shows a sectional view of an appliance system which includes a centering system, an induction table 2 and a household appliance 1 or a cooking vessel. By appliance 1 is meant all appliances that may include heating functions but also functions related to heating.

As functions additional to the heating, it is possible in particular to have a power supply for chopping, mixing or for supplying lighting, communication or visualization devices. By heating function of an appliance 1 is meant that one part of the appliance 1 can rise in temperature either by means of electric heating resistors or by currents induced in a metal part of the appliance. Domestic appliance 1. The cooking vessel is a container adapted to be placed on an induction table 2 and heated by it at the bottom. The cooking vessel may also include functions related to the heating. We find in a nonlimiting way the additional functions mentioned above. The induction table 2 comprises one or more inductors 3 generators intended to provide energy. The one or more inductors 3 generators 10 are positioned in the induction table 2. The centering system comprises a first optical device 4. This first optical device 4 is composed of an optical sensor connected to a microcontroller 12. This optical sensor is either an infrared transmitter, an infrared receiver or a combined transceiver. Thus it can generate or receive one or more optical rays in the infrared wavelengths. This optical sensor is positioned in the appliance 1 or in the cooking vessel. It is positioned perpendicular to the bottom of the appliance 1 or at the bottom of the cooking vessel so that the one or more optical rays 10 emitted are emitted perpendicularly to the bottom of the appliance 1 or to the bottom of the appliance. cooking. The appliance 1 or the cooking vessel, in addition to being heated, comprises a receiver inductor 6 for recovering energy in order to supply functions related to heating. The first optical device 4 is positioned in the middle of the inductor 6 receiver. By "positioned in the middle" is meant that the first optical device 4 is positioned in the center of the circle when, for example, the receiver inductor 6 has the shape of a circle. In general, if the receiver inductor 6 is of any shape or comprises several receiver inductors 6, the first optical device 4 will be placed on an axis of revolution of the total magnetic field formed by the one or more inductors 6. receptors.

The centering system also comprises a second optical device 5. This second optical device 5 is composed of an optical sensor connected to a microcontroller 13. This optical sensor is either an infrared transmitter, an infrared receiver or a transceiver combined. Thus it can generate 5 or receive one or more optical rays in the infrared wavelengths. This second optical device 5 is positioned in the induction table 2. This second optical device 5 is more particularly positioned in the middle of the generator inductor 3 and perpendicular to the plane of the induction table 2 so that the one or more The optical radiation 11 emitted is perpendicular to the plane of the induction table 2. The definition of "medium" is here the same as that stated above. In general, the invention is not limited to wavelengths of the infrared and other wavelengths are possible when the first or the second optical device (4, 5) is adapted to detect these 15 wavelengths. In FIG. 1, the first optical device 4 and the second optical device 5 are shifted, which implies that the generator inductor 3 and the receiver inductor 6 are not in opposite relation and that the energy efficiency transmitted from the induction table 2 to the appliance 1 is not optimal.

In order to inform a user, the appliance 1, or the cooking vessel or the induction table 2, comprises a display 7 making it possible to visualize the alignment of the first optical device 4 with the second optical device 5. L The display 7 comprises one or more light-emitting diodes which are in a first state of ignition if the first optical device 4 is aligned with the second optical device 5 and which are in a second state of ignition if the first optical device 4 is switched on. is not aligned with the second optical device 5. A sound device (not shown) may also be provided to inform a user of the alignment of the optical devices (4, 5).

As shown in Figures 1 to 4, the induction table 2 comprises a display device 8 of the presence of a household appliance 1 or a cooking vessel on the induction table 2. This display device 8 is connected to the second optical device 5 and it can detect 5 if an appliance 1 or a cooking vessel is present on the induction table 2 and inform a user. Indeed if the second optical device 5 does not detect optical rays then the display device 8 indicates that a household appliance 1 or a cooking vessel is not present on the induction table 2.

FIG. 2 shows the electrical appliance system in the case where the first optical device 4 is centered with the second optical device 5. In this way, the first optical device 4 directly receives the one or more optical rays 11 emitted by the second optical device 5 and the second optical device 5 directly receives the one or more optical rays 10 emitted by the first optical device 4. In this way the induction table 2 is informed that an appliance 1 or a cooking vessel is positioned on the table induction 2 but the appliance 1 or the cooking vessel is also informed that an induction table 2 is positioned under the appliance 1 or the cooking vessel.

The one or more optical rays (10, 11) emitted by the first optical device 4 or by the second optical device 5 comprise state data of the household appliance 1 or the cooking vessel or the induction hob 2 so as to know the state of the appliance 1 or the cooking vessel or the induction table 2.

These emitted optical rays (10, 11) also comprise control data of the household appliance 1 or the cooking vessel or the induction hob 2. This control data makes it possible to control the operation of the appliance 1 or the cooking vessel or the induction table 2.

The state or control data may be bidirectionally exchanged between the appliance 1 or the cooking vessel and the induction hob 2. FIGS. 3 and 4 show a variant of the electrical appliance system in which the appliance 1 or the cooking vessel or the induction table 2 comprises a device for measuring the decentering of the first optical device 4 with respect to the second optical device 5 or the second optical device 5 with respect to the first optical device 4. The The decentering measuring device comprises a slab 9 photosensitive to optical rays. It is positioned on the induction table 2 or on the bottom of the appliance 1 or the cooking vessel and it makes it possible to locate the position of an optical ray incident thereon. The decentering measuring device is connected to a display device 16 of the position of the incident ray on the photosensitive plate 9 which makes it possible to visualize the relative positions of the two optical devices (4, 5) with respect to each other. another in real time, the second optical device 5 being fixed relative to the induction table 2 and the first optical device 4 being movable relative to the induction table 2. From this visualization, a user can correct the aligning the two optical devices (4, 5) with each other. In general, and as shown in Figures 1 to 4, the appliance 1 or the cooking vessel or the induction table 2 comprises a user interface 14. This user interface 14 is adapted to receive input control data. This user interface comprises touch or electromechanical keys. The information entered on the user interface 14 can directly control the functions of the element of the electrical household system on which the user interface 14 is located or can be transmitted by the first optical device 4 or by the second optical device 5 to the another element of the home appliance system.

Several situations may be encountered when using the household appliance 1 or the cooking vessel with the induction cooker 2. First of all, no appliance 1 or cooking vessel is positioned on the appliance. In this case, the optical sensor 5 of the second optical device 5 does not detect optical rays. The microcontroller 13 interprets the information and the result is viewable on the display device 8. Once an appliance 1 or a cooking vessel positioned on the induction table 2, the two optical devices (4, 5) can be either 10 aligned or non-aligned. If the two optical devices (4, 5) are not aligned, the second optical device 5 of the induction table 2 will receive optical radiation mainly from the reflection of its own optical radiation emitted on the bottom of the appliance. 1 or cooking vessel. The second optical device 5 is adapted to recognize the power of the optical rays received and to deduce that below a certain power threshold of the optical rays received, the first optical device 4 of the appliance 1 or the container of cooking is offset from the second optical device 5 of the induction table 2.

The display of this shift will be via the display device 16 mentioned above or via the display 7 or both. When the two optical devices (4, 5) are opposite each other, the one or more optical rays 10 emitted by the first optical device 4 are directly received by the second optical device 5. In this way the threshold power required for the second optical device 5 to detect the proper alignment of the first optical device 4 is achieved. The display 7 now indicates by a change of state of the diodes that the two optical devices (4, 5) are aligned and the display device 16 indicates the proper alignment, for example, by the superposition of a bright spot in the center of a cross-shaped frame of reference.

3029731 12 Once the alignment is completed, a bidirectional data exchange can be done and the control of the induction table 2 is possible either via the appliance 1 or the cooking vessel, or directly via the induction table 2 and in one case as in the other via the user interface 14 which allows input of control data. For example, in this case, a user can control the heating power of the induction table 2 through the appliance 1 or the cooking vessel. It will be understood that various modifications and / or improvements evident to the appliance 1. Those skilled in the art can be made to the embodiment of the invention described in the present description without departing from the scope of the invention defined by the appended claims.

Claims (7)

REVENDICATIONS1. Centering system provided for operation with household appliance (1) or cooking vessel and induction hob (2), the induction hob (2) comprising a generator inductor (3) which is provided to supply energy and which is positioned in the induction table (2), the appliance (1) or the cooking vessel are powered and / or heated wirelessly by the energy supplied by the generator inductor (3), characterized in that it comprises: a first optical device (4) positioned in the appliance (1) or the cooking vessel and the first optical device (4) can generate or receive one or more optical rays and a second optical device (5) positioned in the induction table (2) and the secbnd optical device (5) can generate or receive one or more optical rays; and in that the centering system is arranged to detect the alignment of the first optical device (4) with respect to the second optical device (5) from one or more optical rays (10) emitted by the first optical device (4). ) and received by the second optical device (5) or one or more optical rays (11) emitted by the second optical device (5) and received by the first optical device (4). 2. Centering system according to the preceding claim characterized in that the appliance (1) or the cooking vessel comprises a receiver (6) receiver for recovering energy and the first optical device (4) is positioned at middle of the receiver inductor (6) and the second optical device (5) is positioned in the middle of the generator inductor (3). 3. Centering system according to the preceding claim characterized in that the inductor (6) receiver and the inductor (3) generator are aligned when the first optical device (4) receives one or more optical rays (11) issued by the second optical device (5) or when the second optical device (5) receives one or more optical rays (10) emitted by the first optical device (4) and the optical rays (10, 11) are received directly. 4. Centering system according to one of claims 1 to 3 characterized in that the one or more optical rays (10, 11) emitted by the first optical device (4) or by the second optical device (5) comprise: - status data of the appliance (1) or cooking vessel or induction hob (2) so as to know the state of the appliance (1) or the cooking or cooking vessel (1) the induction table (2) or - control data of the household appliance (1) or cooking vessel or induction table (2) so as to control the operation of the appliance (1) or cooking vessel or induction table (2); and in that the status or control data can be bidirectionally exchanged between the appliance (1) or the cooking vessel and the induction table (2) via the first optical device (4). ) and the second optical device (5) only when the first optical device (4) and the second optical device (5) are aligned. 5. Centering system according to one of claims 1 to 4 characterized in that the appliance (1) or the cooking vessel or the induction table (2) comprises a display (7) for viewing the aligning the first optical device (4) with the second optical device (5). 6. Centering system according to the preceding claim characterized in that the display (7) comprises one or more light-emitting diodes 309,731 which are in a first state of ignition if the first optical device (4) is aligned with the second optical device (5) and which are in a second state of ignition if the first optical device (4) is not aligned with the second optical device (5). 5 7. Centering system according to one of the preceding claims characterized in that the induction table (2) comprises a display device (8) the presence of a household appliance (1) or a cooking vessel connected to the second optical device (5). Centering system according to one of the preceding claims, characterized in that the appliance (1) or cooking vessel or induction table (2) comprises a device for measuring the decentering of the first optical device (4) by relative to the second optical device (5) or the second optical device (5) relative to the first optical device (4). Centering system according to the preceding claim characterized in that the device for measuring the decentering comprises a slab (9) photosensitive to optical rays, positioned on the induction table (2) or on the bottom of the household appliance (1). ) or the cooking vessel, and which makes it possible to know the position on the photosensitive plate 9 of an incident optical ray. 10. Centering system according to one of claims 8 or 9 characterized in that the appliance (1) or the cooking vessel or the induction table (2) comprises a display device (16) of the position incident beam on the photosensitive slab (9) with respect to the position of the first optical device (4) or the second optical device (5). 11. Centering system according to one of the preceding claims characterized in that the first optical device (4) is an infrared transmitter and / or receiver connected to a microcontroller (12) and the second optical device (5) is a transmitter and / or infrared receiver connected to a microcontroller (13). 12. Centering system according to one of the preceding claims, characterized in that the appliance (1) or the cooking vessel or the induction table (2) comprises a user interface (14) adapted to receive in input of the control data to be transmitted by the first optical device (4) or by the second optical device (5), so as to control at least one function of the appliance (1) or the cooking vessel from of the induction table (2) or to control at least one function of the induction table (2) from the appliance (1) or the cooking vessel.