CN109874191B

CN109874191B - Appliance and heating platform

Info

Publication number: CN109874191B
Application number: CN201711271167.1A
Authority: CN
Inventors: 麻百忠; 李娟�; 汪钊
Original assignee: Foshan Shunde Midea Electrical Heating Appliances Manufacturing Co Ltd
Current assignee: Foshan Shunde Midea Electrical Heating Appliances Manufacturing Co Ltd
Priority date: 2017-12-05
Filing date: 2017-12-05
Publication date: 2022-02-01
Anticipated expiration: 2037-12-05
Also published as: CN109874191A

Abstract

The invention provides an appliance and a heating platform, which are applied to the technical field of household appliances. Wherein, the utensil includes: the bottom wall of the body is provided with a groove which is sunken towards the inside of the device; the photosensitive device is arranged in the groove to sense the light beam from the heating platform; processing means for generating first data from the light beam; and the appliance communication device is communicated with the heating platform and used for sending the first data to the heating platform so that the heating platform heats the appliance according to the first data. Through the photosensitive device on the utensil, can realize utensil and heating platform's accurate positioning, realize better that the utensil is heated the thermally equivalent of part, avoid the user position to prevent that the skew heating region from leading to heating effect not good, heating function can not normally realize even causing the utensil to have the problem of potential safety hazard when the heating when using the utensil.

Description

Appliance and heating platform

Technical Field

The invention relates to the technical field of household appliances, in particular to an appliance and a heating platform.

Background

At present, the electric appliances with cookware in the market and the planar heating electric appliances needing to be matched with the cookware for use have great defects in the mode of controlling the position of the cookware, and the electric appliances are provided with temperature measuring points at the positions contacted with the cookware so as to achieve the aims of monitoring the cooking effect at any time and carrying out safety protection. However, if the user places the pot in a position deviating from the heating area or in a temperature-measuring area, the cooking effect may be poor, or the cooking function controlled by the temperature may not be normally realized, or even the protection function by the temperature detection may not be realized. Therefore, the functions of the cooking appliance can be better realized by detecting and reminding the position, problems and the like of the cooking pot used by the user in time.

Therefore, design an utensil and heating platform, can in time detect and remind the position of the utensil that the user used to fine realization is to the position management and control of heated part in this utensil, thereby better realization is heated by the thermally equivalent of heated part and response temperature measurement becomes the problem of awaiting urgent need to solve.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the invention proposes an appliance.

A second aspect of the invention provides a heated platen.

In view of this, according to a first aspect of the invention, there is provided an appliance comprising: the device comprises a body, a photosensitive device, a processing device and an appliance communication device, wherein the photosensitive device is connected with the body to sense a light beam from a heating platform; the processing device is used for generating first data according to the light beam; the appliance communication device is in communication with the heating platform for sending the first data to the heating platform to cause the heating platform to heat the appliance according to the first data.

According to the appliance provided by the invention, when the appliance is placed on the heating platform, if the light sensing device senses the light beam from the heating platform, the processing device carries out data processing according to the light beam sensed by the light sensing device and generates first data, and then the appliance communication device sends the first data to the heating platform, so that the heating platform selects a proper mode or temperature to heat the appliance according to the first data; if the sensing device does not sense the light beam, first data generated by the processing device is sent to the heating platform through the appliance communication device, and the heating platform receives the first data, so that the heating platform selects a corresponding heating mode and reminds a user; so through the photosensitive device on the utensil, can realize utensil and heating platform's accurate positioning, better realization the utensil by the thermally equivalent of heating part, avoid the user position to prevent that the skew heating region from leading to heating effect not good, heating function can not normally realize even causing the utensil to have the problem of potential safety hazard when the heating when using the utensil. By the matching use of the heating platform and the appliance, the appliance does not need to be provided with a heating device, and can realize an intelligent cooking function only by matching with the heating platform, so that the cost of the appliance is reduced, the volume of the appliance can be effectively reduced, the space occupation of the appliance is reduced, and the experience of a user is effectively improved; and the heating platform can interact with various types of appliances, has higher universality, and greatly facilitates the use of the appliances and the heating platform by users.

In addition, according to the appliance in the above technical solution provided by the present invention, the following additional technical features may be further provided:

in the above technical solution, preferably, a groove recessed into the inside of the device is provided on the bottom wall of the body, and the photosensitive device is disposed in the groove.

In this technical scheme, be provided with on the body diapire to having the inside sunken recess of utensil, be provided with photosensitive device in the recess, avoid photosensitive device to be scraped and bump, ensure photosensitive device's stability.

In any one of the above technical solutions, preferably, the processing device includes: the judging unit is used for judging whether the photosensitive device senses the light beam or not; the detection unit is used for detecting the intensity of the light beam sensed by the photosensitive device and setting the intensity of the light beam as first data when the judgment result is yes; and the alarm unit sends an alarm prompt to the user when the judgment result is negative.

In the technical scheme, the processing device judges whether the photosensitive device senses the light beam through the judging unit, and when the judgment is yes, the detecting unit detects the intensity of the light beam sensed by the photosensitive device again and sets the intensity as first data; when judging for when not, the light sensing device does not sense the light beam, explains that the user does not place the utensil in heating platform or the utensil places the heating region of position skew heating platform, then alarm device sends alarm information suggestion to the user, avoids placing the heating region of utensil position skew heating platform and causing the heating effect not good, heating function can not normally realize or even cause the utensil to have the problem of potential safety hazard when heating because of the user, has promoted user's use and has experienced.

In any of the above technical solutions, preferably, the photosensitive device is a photosensitive device, a capacitive photosensitive device, or an inductive photosensitive device.

In the technical scheme, the photosensitive device can be a photosensitive device, a capacitive photosensitive device or an inductive photosensitive device, the three devices can convert optical signals into electric signals, and if light beams emitted by the heating plane are sensed, the light beams can be converted into electric signals with corresponding intensities according to the intensities of the sensed light beams, so that the processing device of the appliance can process the light signals; if no light beam is sensed, no electrical signal can be generated; therefore, the photosensitive device can realize photoelectric conversion by selecting a photosensitive device, a capacitance photosensitive device or an inductance photosensitive device, and further realize whether the photosensitive device senses a light beam or not and judge whether the appliance placing position deviates from a heating platform heating area or not.

In any of the above technical solutions, preferably, the detection unit is configured to detect a current value passing through the photosensitive device when the photosensitive device is a photosensitive device, and determine the intensity of the light beam according to the current value.

In the technical scheme, the photosensitive device is a photosensitive device, and the photosensitive device can change as long as receiving illumination, so that a changed electric signal is obtained; the current obtained by the difference of the illumination intensity is different, for example, the resistance value of the photoresistor is reduced after the photoresistor is illuminated, and the current is increased. Therefore, by utilizing the difference of illumination intensity, the detection unit judges whether the appliance is placed at the optimal heating position or not by detecting the current flowing through the photosensitive device, and the problems that the appliance is heated unevenly, the heating function cannot be normally realized and even the appliance has potential safety hazard when being heated in the heating process due to the deviation of the appliance position are solved.

In any of the above aspects, preferably, the appliance power supply device is connected to the processing device or the appliance communication device to supply power to the processing device and the appliance communication device.

In the technical scheme, the appliance power supply device is connected with the processing device or the appliance communication device to supply power to the processing device and the appliance communication device, so that the processing device and the appliance communication device can work normally, and the whole appliance is in a normal working state.

In any one of the above technical solutions, preferably, the appliance power supply device includes: an appliance coil connected to the processing device or the appliance communication device and coupled to the platform coil of the heating platform such that electrical energy is transferred from the platform coil to the appliance coil.

In the technical scheme, the appliance power supply device supplies power to the processing device or the appliance communication device, the appliance power supply device is provided with an appliance coil and is connected with the processing device or the appliance communication device, the heating platform is also provided with a platform coil and is provided with a platform power supply module, the appliance coil is coupled with the heating platform coil with current action by utilizing the electromagnetic induction principle to realize energy transfer, namely, the heating platform is used for wirelessly charging the appliance power supply device, so that the appliance power supply device can supply power to the processing device and the appliance communication device, and the appliance can be in a normal working state.

In any of the above technical solutions, preferably, the appliance display device is connected to the appliance communication device and is configured to display the function information and the alarm prompt information; and the appliance input device is connected with the appliance communication device and used for receiving a setting instruction from a user so as to control the heating platform.

In the technical scheme, the appliance display device is connected with the appliance communication device, the appliance display device can display function information and alarm prompt information according to a received signal of the appliance communication device, so that a user can visually check whether the position of the appliance deviates and the current heating mode or function selection is carried out, the displayed appliance state and function information are beneficial to the user to know the running state of the appliance, the controllability of the appliance is improved, and the problems that the heating effect is poor, the heating function cannot be normally realized and even the safety hazard exists when the appliance is heated due to the fact that the appliance deviates caused by negligence of the user are solved; meanwhile, the appliance is also provided with an appliance input device which is connected with the appliance communication device, a user can perform related setting according to the appliance placing position or self preference through the appliance input device, and then transmits an instruction to the heating platform through the appliance communication device, so that the heating platform is controlled to select a corresponding heating mode or function, the operation function of the appliance is optimized, and the user experience is improved.

In any of the above technical solutions, preferably, the appliance communication device is an infrared communication device, a bluetooth communication device, a radio frequency communication device, a zigbee communication device, or a WIFI communication device.

In this technical scheme, utensil communication device can be infrared communication device, bluetooth communication device, radio frequency communication device, zigbee communication device or WIFI communication device, and the signal wireless transmission between utensil and heating platform can all be realized to these devices to the realization is through the control of utensil and heating platform's position relation to utensil and heating platform, promotes user experience.

In any of the above technical solutions, preferably, the cross-sectional area of the groove gradually decreases from one side of the opening to the other side; the photosensitive device is arranged at the top of the groove.

In the technical scheme, the cross sectional area of the groove is gradually reduced from one side of the opening to the other side, namely the groove is equivalent to an umbrella-shaped groove. The photosensitive device is arranged on the top of the groove, and the photosensitive device can be just irradiated on the top of the groove or can deviate when the light beam is irradiated. When the light sensing device just irradiates the top of the groove, the light beam intensity received by the light sensing device is the maximum; when the light beam irradiation position deviates relative to the top of the groove, the intensity of the light beam received by the photosensitive device is different according to the distance of the light beam from the top of the groove, and the farther the distance is, the lower the intensity of the light beam received by the photosensitive device is, and the closer the distance is, the lower the intensity of the light beam received by the photosensitive device is.

According to a second aspect of the present invention, there is provided a heating platform comprising: the heating device comprises at least one heating part, and the heating part is used for heating the appliance placed on the heating platform; the light source is connected with the body of the heating platform and used for emitting light beams to the appliance so that the appliance generates first data according to the light beams; platform communication means, in communication with the appliance, for receiving first data from the appliance; and the control device controls the heating part heating appliance according to the first data.

According to the heating platform provided by the invention, an appliance on the heating platform is heated through at least one heating part in the heating device, meanwhile, a light source is arranged on the top wall of the platform, the light source emits a light beam to the appliance, namely, the appliance is positioned through the light beam, if the appliance receives the light beam, first data is generated according to the light beam, the platform communication device receives the first data from the appliance, then the control device controls the heating part to heat the appliance according to the first data, if the light beam is not received, the placing position of the appliance is proved to be deviated, and the heating platform receives the first data sent by the appliance, selects a corresponding heating mode and reminds a user; so fix a position the utensil through the light beam on the heating platform, can realize utensil and heating platform's accurate positioning, better realization the utensil by the thermally equivalent of heating part, avoid the user position to prevent that the skew heating region from leading to heating effect not good when using the utensil, heating function can not normally realize even causing the utensil to have the problem of potential safety hazard when the heating. By the matching use of the heating platform and the appliance, the appliance does not need to be provided with a heating device, and can realize an intelligent cooking function only by matching with the heating platform, so that the cost of the appliance is reduced, the volume of the appliance can be effectively reduced, the space occupation of the appliance is reduced, and the experience of a user is effectively improved; and the heating platform can interact with various types of appliances, has higher universality, and greatly facilitates the use of the appliances and the heating platform by users.

In the above technical solution, preferably, the control device includes: a matching unit matching a heating power corresponding to the intensity of the light beam according to the intensity of the light beam; and a control unit for controlling the heating part to heat the appliance according to the heating power.

In the technical scheme, the light beams with different intensities can be matched with corresponding heating powers through the matching unit of the control device, and the control unit controls the heating part to heat the appliance according to the heating powers, namely, the intensity of the light beams received by the appliance can be influenced by the different placing positions of the appliance, so that the first data generated by the appliance is influenced, and the heating powers matched with the heating platform matching unit are influenced. Therefore, the light beams with different intensities are received at different positions of the appliance, the corresponding heating power is automatically matched, the problems that the heating effect is poor, the heating function cannot be normally realized and even potential safety hazards exist in the appliance when the appliance is heated due to the fact that the user places the appliance position deviating from the heating region of the heating platform are avoided, and the use experience of the user is improved.

In any of the above technical solutions, preferably, the method further includes: and the platform power supply device is connected with the control device and the light source or the platform communication device to supply power for the control device, the light source and the platform communication device.

In the technical scheme, the platform power supply device is connected with the control device and the light source or the platform communication device and supplies power, so that the control device, the light source or the platform communication device can work normally, and the whole heating platform is in a normal working state.

In any one of the above technical solutions, preferably, the platform power supply device includes: the driving module is connected with the power supply; a platform coil connected with the drive module and coupled with an appliance coil of the appliance to power the appliance.

In the technical scheme, a driving module in the platform power supply device is connected with a power supply to supply power to the whole heating platform; in addition, the platform coil is connected with the driving module, and by utilizing the electromagnetic induction principle, the platform coil with the current function and the appliance coil realize energy transfer through energy coupling, namely, the heating platform is used for wirelessly charging the appliance power supply device, so that the appliance power supply device can supply power to the processing device and the appliance communication device, and the appliance can be in a normal working state.

In any of the above technical solutions, preferably, the platform communication device is an infrared communication device, a bluetooth communication device, a radio frequency communication device, a zigbee communication device, or a WIFI communication device.

In any of the above technical solutions, preferably, the method further includes: the platform display device is connected with the control device and is used for displaying the function information and the alarm prompt information; and the platform input device is connected with the control device and used for receiving a setting instruction from a user so as to control the heating platform.

In the technical scheme, the platform display device and the platform input device are connected with the control device, a user can perform related setting according to the placement position of the appliance or the preference of the user through the platform input device, and then the platform display device displays corresponding function information and alarm prompt information, so that the user can visually check whether the position of the appliance deviates and the current heating mode or function selection is performed, the displayed appliance position state and function information are beneficial to the user to know the running states of the appliance and the heating platform, the controllability of the heating platform is improved, the control function of the heating platform is optimized, and meanwhile, the problems that the heating effect is poor, the heating function cannot be normally realized and even the safety hazard exists in the appliance when the appliance is heated due to negligence of the user are avoided.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1a illustrates an exemplary view of an appliance and heating platform provided in accordance with one embodiment of the present invention;

FIG. 1b illustrates an exemplary view of a heating platform provided in accordance with an embodiment of the present invention;

fig. 2 shows a schematic block diagram of an appliance provided according to a first embodiment of the invention;

fig. 3 shows a schematic block diagram of an appliance provided according to a second embodiment of the invention;

fig. 4 shows a schematic block diagram of an appliance provided according to a third embodiment of the present invention;

fig. 5 shows a schematic block diagram of an appliance provided according to a fourth embodiment of the present invention;

fig. 6 shows a schematic block diagram of an appliance provided according to a fifth embodiment of the present invention;

FIG. 7 shows a schematic block diagram of a heating platform provided in accordance with a first embodiment of the present invention;

FIG. 8 shows a schematic block diagram of a heating platform provided in accordance with a second embodiment of the present invention;

FIG. 9 shows a schematic block diagram of a heating platform provided in accordance with a third embodiment of the present invention;

FIG. 10 shows a schematic block diagram of a heating platform provided in accordance with a fourth embodiment of the present invention;

FIG. 11 shows a schematic block diagram of a heating platform provided in accordance with a fifth embodiment of the present invention;

FIG. 12 shows a control flow diagram of an appliance and a heating platform provided in accordance with a first embodiment of the present invention;

wherein, the correspondence between the reference numbers and the component names in fig. 1a and fig. 1b is:

1, a device; 2, heating the platform; 3 light source.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The appliance and heating platform according to some embodiments of the invention are described below with reference to fig. 1-12.

FIG. 1a illustrates an exemplary view of an appliance and heating platform provided in accordance with one embodiment of the present invention; as shown in fig. 1a, the heating platform 2 is an electromagnetic heating structure, which can heat an induction heating appliance; the appliance 1 is configured to be capable of electromagnetic induction heating. The two structures are independent, the heating platform 2 is communicated with a power supply to carry out independent heating work, but the appliance 1 above cannot heat, and the heating platform 2 can also heat other appliances capable of being heated by induction. Fig. 1a shows a heating platform 2 in use with an appliance 1. Fig. 1b is a front view of a heating platform 2 capable of electromagnetic heating, where 3 is a light source.

Fig. 2 shows a schematic block diagram of an appliance 100 provided according to a first embodiment of the invention; as shown in fig. 2, the appliance 100 includes:

a body 102;

a photosensitive device 104 connected with the body to sense the light beam from the heating platform;

processing means 106 for generating first data from the light beam;

an appliance communication device 108 in communication with the heating platform for sending the first data to the heating platform to cause the heating platform to heat the appliance in accordance with the first data.

According to the appliance 100 provided by the invention, the bottom wall of the body 102 is provided with the groove which is concave towards the inside of the appliance, the photosensitive device 104 is arranged in the groove, when the appliance is placed on the heating platform, if the photosensitive device 104 senses the light beam from the heating platform, the processing device 106 performs data processing according to the light beam sensed by the photosensitive device 104 and generates first data, and then the appliance communication device 108 transmits the first data to the heating platform, so that the heating platform selects a proper mode or temperature to heat the appliance according to the first data; if the sensing device 104 does not sense the light beam, the first data generated by the processing device 106 is sent to the heating platform through the appliance communication device 108, and the heating platform receives the first data, so that the heating platform selects a corresponding heating mode and reminds a user; therefore, the photosensitive device 104 on the appliance can realize accurate positioning of the appliance and the heating platform, uniform heating of the heated part of the appliance is better realized, and the problems that the heating effect is poor, the heating function cannot be normally realized and even the potential safety hazard exists in the appliance when the appliance is heated due to the fact that the position of a user is prevented from deviating from the heating area when the appliance is used are avoided. By the matching use of the heating platform and the appliance, the appliance does not need to be provided with a heating device, and can realize an intelligent cooking function only by matching with the heating platform, so that the cost of the appliance is reduced, the volume of the appliance can be effectively reduced, the space occupation of the appliance is reduced, and the experience of a user is effectively improved; and the heating platform can interact with various types of appliances, has higher universality, and greatly facilitates the use of the appliances and the heating platform by users.

Fig. 3 shows a schematic block diagram of an appliance 200 provided according to a first embodiment of the invention; as shown in fig. 3, the appliance 200 includes:

a body 202, wherein a groove which is concave towards the inside of the device is arranged on the bottom wall of the body;

the photosensitive device 204 is arranged in the groove to sense the light beam from the heating platform;

a processing device 206, comprising: the determining unit 208 determines whether the photosensitive device 204 senses the light beam; a detection unit 210, which detects the intensity of the light beam sensed by the photosensitive device 204 and sets the intensity of the light beam as first data when the determination result is yes; an alarm unit 212, which gives an alarm prompt to the user when the judgment result is negative;

an appliance communication device 214 in communication with the heating platform for sending the first data to the heating platform to cause the heating platform to heat the appliance in accordance with the first data.

In this embodiment, the processing device 206 determines whether the light-sensitive device 204 senses the light beam through the determination unit 208, and when the determination is yes, the detection unit 210 detects the light-sensitive device againThe intensity of the light beam sensed by the device 204 and set this intensity as the first data; when the judgment result is no, the light sensing device 204 does not sense the light beam, which indicates that the user does not place the appliance in the heating platform or the heating area of the appliance placement position deviating from the heating platform, the alarm device 212 sends an alarm message prompt to the user, wherein the alarm message can be a buzzer alarm and/or a display error report, so that the problems that the heating effect is poor, the heating function cannot be normally realized and even the safety hazard exists in the appliance during heating due to the fact that the user places the heating area of the appliance position deviating from the heating platform are avoided, and the use experience of the user is improved. In this embodiment, the depth of the groove is preferably 2cm to 3cm, and the opening area of the groove is 3% to 8% of the area of the bottom wall of the appliance; in particular, the bottom wall area of the appliance is 320cm²The opening area of the groove is 9.6cm²To 16cm²Preferably, the opening area is 12cm²To 15cm²(ii) a The accuracy of the light sensed by the photosensitive device is further improved by limiting the depth and the opening area of the groove, so that the position of the tool is accurately judged; the depth of the recess is also related to the volume of the photosensitive device, the area of the opening of the recess, and the sensitivity of the photosensitive device.

In any of the above embodiments, preferably, the photosensitive device is a photosensitive device, a capacitive photosensitive device, or an inductive photosensitive device.

In this embodiment, the photosensitive device may be a photosensitive device, a capacitive device, or an inductive device, and all of the three devices may convert the optical signal into an electrical signal, and if a light beam emitted from the heating plane is sensed, the light beam may be converted into an electrical signal with corresponding intensity according to the intensity of the light beam sensed by the photosensitive device, so that the processing device of the appliance processes the light beam; if no light beam is sensed, no electrical signal can be generated; therefore, the photosensitive device can realize photoelectric conversion by selecting a photosensitive device, a capacitance photosensitive device or an inductance photosensitive device, and further realize whether the photosensitive device senses a light beam or not and judge whether the appliance placing position deviates from a heating platform heating area or not.

In any of the above embodiments, preferably, the detection unit is configured to detect a current value passing through the photosensitive device when the photosensitive device is a photosensitive device, and determine the intensity of the light beam according to the current value.

In this embodiment, the photosensitive device is a photosensitive device, and the photosensitive device changes as long as it receives illumination, thereby obtaining a changing electrical signal; the current obtained by the difference of the illumination intensity is different, for example, the resistance value of the photoresistor is reduced after the photoresistor is illuminated, and the current is increased. Therefore, by utilizing the difference of illumination intensity, the detection unit judges whether the appliance is placed at the optimal heating position or not by detecting the current flowing through the photosensitive device, and the problems that the appliance is heated unevenly, the heating function cannot be normally realized and even the appliance has potential safety hazard when being heated in the heating process due to the deviation of the appliance position are solved.

Fig. 4 shows a schematic block diagram of an appliance 300 provided according to a first embodiment of the invention; as shown in fig. 4, the appliance 300 includes:

a body 302, wherein a groove which is concave towards the inside of the device is arranged on the bottom wall of the body;

a photosensitive device 304 disposed in the groove to sense a light beam from the heating stage;

a processing device 306, comprising: the determining unit 308 determines whether the light sensing device 304 senses a light beam; a detection unit 310, detecting the intensity of the light beam sensed by the photosensitive device 304 and setting the intensity of the light beam as first data when the determination result is yes; an alarm unit 312, which sends an alarm prompt to the user when the judgment result is negative;

an appliance communication device 314 in communication with the heating platform for sending the first data to the heating platform to cause the heating platform to heat the appliance according to the first data;

an appliance power supply 316 connected to the processing device or the appliance communication device to supply power to the processing device and the appliance communication device.

In this embodiment, the appliance power supply means 316 is connected to the processing means 306 or the appliance communication means 314 to supply power to the processing means 306 and the appliance communication means 314, ensuring that the processing means 306 and the appliance communication means 314 can work normally, thereby keeping the whole appliance in a normal working state.

Fig. 5 shows a schematic block diagram of an appliance 400 provided according to a first embodiment of the invention; as shown in fig. 5, the instrument 400 includes:

a body 402, a groove depressed towards the inside of the device is arranged on the bottom wall of the body;

a photosensitive device 404 disposed in the groove to sense a light beam from the heating stage;

processing means 406, comprising: the determining unit 408 determines whether the photosensitive device 404 senses a light beam; a detection unit 410, detecting the intensity of the light beam sensed by the photosensitive device 404 and setting the intensity of the light beam as first data when the judgment result is yes; an alarm unit 412 which gives an alarm prompt to the user when the judgment result is negative;

an appliance communication device 414 in communication with the heating platform for sending the first data to the heating platform to cause the heating platform to heat the appliance according to the first data;

appliance power supply 416, comprising: an appliance coil 418 connected to the processing device or appliance communication device and coupled to the platform coil of the heating platform such that electrical energy is transferred from the platform coil to the appliance coil.

In this embodiment, the appliance power supply device 416 supplies power to the processing device 406 or the appliance communication device 414, the appliance power supply device 416 is provided with an appliance coil 418 and is connected with the processing device 406 or the appliance communication device 414, the heating platform is also provided with a platform coil and is provided with a platform power supply module, and the appliance coil 418 realizes energy transfer by energy coupling with the heating platform coil with current action by using the electromagnetic induction principle, that is, the appliance power supply device 416 is wirelessly charged by using the heating platform, so that the appliance power supply device 416 can supply power to the processing device 406 and the appliance communication device 414, and the appliance can be in a normal working state.

Fig. 6 shows a schematic block diagram of an appliance 500 provided in accordance with a first embodiment of the invention; as shown in fig. 6, the appliance 500 includes:

a body 502, wherein a groove which is concave towards the inside of the device is arranged on the bottom wall of the body;

a photosensitive device 504 disposed in the recess to sense a light beam from the heating stage;

a processing device 506, comprising: a determining unit 508 for determining whether the photosensitive device 504 senses a light beam; a detection unit 510, detecting the intensity of the light beam sensed by the photosensitive device 504 and setting the intensity of the light beam as first data when the determination result is yes; an alarm unit 512, which sends an alarm prompt to the user when the judgment result is negative;

an appliance communication device 514 in communication with the heating platform for sending the first data to the heating platform to cause the heating platform to heat the appliance according to the first data;

appliance power supply 516 comprising: an appliance coil 518 connected to the treatment device or appliance communication device and coupled to the platform coil of the heating platform such that electrical energy is transferred from the platform coil to the appliance coil;

appliance display means 520 connected to the appliance communication means 514 for displaying function information and alarm prompt information;

an appliance input device 522 is coupled to the appliance communicator 514 for receiving setting instructions from a user to control the heating platform.

In this embodiment, the appliance display device 520 is connected to the appliance communication device 514, the appliance display device 520 can display function information and alarm prompt information according to the received signal of the appliance communication device 514, so that a user can visually check whether the location of the appliance is deviated and whether the current heating mode or function is selected, the displayed appliance state and function information help the user to know the running state of the appliance, the controllability of the appliance is improved, and meanwhile, the problems that the heating effect is poor, the heating function cannot be normally realized and even the safety hazard exists when the appliance is heated due to the fact that the appliance is deviated by negligence of the user are avoided; meanwhile, the appliance is further provided with an appliance input device 522 which is connected with the appliance communication device 514, a user can perform related setting according to the appliance placing position or own preference through the appliance input device 522, and then transmits an instruction to the heating platform through the appliance communication device 514, so that the heating platform is controlled to select a corresponding heating mode or function, the operation function of the appliance is optimized, and the user experience is improved.

In any of the above embodiments, preferably, the appliance communication device is an infrared communication device, a bluetooth communication device, a radio frequency communication device, a zigbee communication device, or a WIFI communication device.

In this embodiment, the appliance communication device may be an infrared communication device, a bluetooth communication device, a radio frequency communication device, a zigbee communication device or a WIFI communication device, and these devices can all realize wireless signal transmission between the appliance and the heating platform, thereby realizing control over the appliance and the heating platform through the position relationship between the appliance and the heating platform, and improving user experience.

In any of the above embodiments, preferably, the cross-sectional area of the groove gradually decreases from one side of the opening to the other side; the photosensitive device is arranged at the top of the groove.

In this embodiment the cross-sectional area of the groove decreases from one side of the opening to the other, i.e. the groove behaves like an umbrella-like groove. The photosensitive device is arranged on the top of the groove, and the photosensitive device can be just irradiated on the top of the groove or can deviate when the light beam is irradiated. When the light sensing device just irradiates the top of the groove, the light beam intensity received by the light sensing device is the maximum; when the light beam irradiation position deviates relative to the top of the groove, the intensity of the light beam received by the photosensitive device is different according to the distance of the light beam from the top of the groove, and the farther the distance is, the lower the intensity of the light beam received by the photosensitive device is, and the closer the distance is, the lower the intensity of the light beam received by the photosensitive device is.

FIG. 7 shows a schematic block diagram of a heating platform 600 provided in accordance with a first embodiment of the present invention; as shown in fig. 7, the heating stage 600 includes:

a heating device 602 comprising at least one heating element for heating an appliance placed on the heating platform;

a light source 604 connected to the body of the heating platform for emitting a light beam to the appliance, so that the appliance generates first data according to the light beam;

a platform communication means 606 in communication with the appliance for receiving first data from the appliance;

and a control device 608 for controlling the heating member heating means according to the first data.

In this embodiment, the body of the heating platform is a base or a panel of the heating platform, the light source can be disposed on the panel or inside the heating platform, and when the light source is disposed inside the heating platform, the panel is a transparent panel; heating the appliance on the heating platform 600 by at least one heating part in the heating device 602, meanwhile, arranging a light source 604 on the top wall of the platform, emitting a light beam to the appliance by the light source 604, namely, positioning the appliance by the light beam, if the appliance receives the light beam, generating first data according to the light beam, receiving the first data from the appliance by a platform communication device 606, controlling the heating part to heat the appliance by a control device 608 according to the first data, if the light beam is not received, proving that the appliance is placed at a deviated position, receiving the first data sent by the appliance by the heating platform, selecting a corresponding heating mode and reminding a user; so fix a position the utensil through the light beam on the heating platform 600, can realize utensil and heating platform 600's accurate positioning, better realization the utensil by the thermally equivalent of heating part, avoid the user position to prevent that the skew heating region from leading to heating effect not good, heating function can not normally realize even causing the problem that the utensil has the potential safety hazard when the heating when using the utensil. By the matching use of the heating platform and the appliance, the appliance does not need to be provided with a heating device, and can realize an intelligent cooking function only by matching with the heating platform, so that the cost of the appliance is reduced, the volume of the appliance can be effectively reduced, the space occupation of the appliance is reduced, and the experience of a user is effectively improved; and the heating platform can interact with various types of appliances, has higher universality, and greatly facilitates the use of the appliances and the heating platform by users.

FIG. 8 shows a schematic block diagram of a heating platform 700 provided in accordance with a first embodiment of the present invention; as shown in fig. 8, the heating stage 700 includes:

a heating device 702 comprising at least one heating element for heating an appliance placed on a heating platform;

a light source 704 disposed on a top wall of the heating platform for emitting a light beam toward the appliance to cause the appliance to generate first data from the light beam;

a platform communication means 706 in communication with the appliance for receiving first data from the appliance;

a control device 708 comprising: a matching unit 710 matching a heating power corresponding to the intensity of the light beam according to the intensity of the light beam; and a control unit 712 for controlling the heating member to heat the appliance according to the heating power.

In this embodiment, the light beams with different intensities can be matched to the corresponding heating powers by the matching unit 710 of the control device 708, and the control unit 712 controls the heating element to heat the fixture according to the heating powers, that is, the different placement positions of the fixture can affect the intensity of the light beam received by the fixture, and further affect the first data generated by the fixture, and thus affect the heating powers matched to the matching unit 710 of the heating platform 700. As shown in fig. 12, after the operation is started, the processing device of the appliance samples the current value of the photosensitive sensor of the photosensitive device to generate first data, and sends the first data to the platform communication device 706 of the heating platform, the platform communication device 706 then sends the data to the control device 708, the matching unit 710 of the control device 708 matches the heating power corresponding to the intensity of the light beam according to the intensity of the light beam, when the first data a is greater than or equal to the preset value M, the information that the highest gear is not limited is output, the control unit 712 controls the heating device, the power gear is set to be in the unlimited mode, the control process corresponding to the function is output, and the heating is controlled. (the control flow chart takes the highest gear as the 5 th gear for example.) if a is smaller than M, the ratio of a/M is calculated and obtained, then the ratio is multiplied by the highest gear to obtain a product, the limited selectable highest gear value is obtained by judging the range of the product, the control unit 712 controls the heating device to limit the heating power gear, and simultaneously, the control process corresponding to the function is output and the heating is controlled. Through such control, heating platform 700 has just been injectd by the position of utensil to the heating power of utensil, so, through receiving the light beam of different intensity and the corresponding heating power of automatic matching to the different positions of utensil, avoid placing the heating region that utensil position skew heating platform 700 and cause the heating effect not good, heating function can not normally realize or even cause the utensil to have the problem of potential safety hazard when heating because of the user, promoted user's use and experienced.

Fig. 9 shows a schematic block diagram of a heating platform 800 provided in accordance with a first embodiment of the present invention; as shown in fig. 9, the heating stage 800 includes:

a heating device 802 comprising at least one heating element for heating an appliance placed on a heating platform;

a light source 804 disposed on a top wall of the heating platform for emitting a light beam toward the appliance to cause the appliance to generate first data from the light beam;

a platform communication means 806 in communication with the appliance for receiving the first data from the appliance;

a control device 808, comprising: a matching unit 810 matching a heating power corresponding to the intensity of the light beam according to the intensity of the light beam; a control unit 812 that controls the heating member to heat the appliance according to the heating power;

a platform power supply 814, the platform power supply 814 coupled to the controller 808, the light source 804, or the platform communicator 806 to provide power to the controller 808, the light source 804, and the platform communicator 806.

In this embodiment, the platform power supply 814 is connected to and supplies power to the control device 808, the light source 804 or the platform communication device 806, so as to ensure that the control device 808, the light source 804 or the platform communication device 806 can work normally, thereby keeping the whole heating platform 800 in a normal working state.

FIG. 10 shows a schematic block diagram of a heating platform 900 provided in accordance with a first embodiment of the present invention; as shown in fig. 10, the heating stage 900 includes:

a heating device 902 comprising at least one heating element for heating an appliance placed on a heating platform;

a light source 904 disposed on a top wall of the heating platform for emitting a light beam towards the appliance to cause the appliance to generate first data from the light beam;

a platform communication means 906 in communication with the appliance for receiving first data from the appliance;

a control device 908 comprising: a matching unit 910 matching a heating power corresponding to the intensity of the light beam according to the intensity of the light beam; a control unit 912 controlling the heating member to heat the appliance according to the heating power;

a platform power supply 914 comprising: a driving module 916, connected to the power supply; a platform coil 918 connected to the drive module and coupled to an appliance coil of the appliance to power the appliance.

In this embodiment, the driving module 916 of the platform power supply 914 is connected to a power source to supply power to the whole heating platform 900; in addition, the platform coil 918 is connected to the driving module 916, and by using the principle of electromagnetic induction, the platform coil 918 on which current acts and the appliance coil realize energy transfer through energy coupling, that is, the heating platform 900 is used to wirelessly charge the appliance power supply device, so that the appliance power supply device can supply power to the processing device and the appliance communication device, and the appliance can be in a normal working state.

In any of the above embodiments, preferably, the platform communication device is an infrared communication device, a bluetooth communication device, a radio frequency communication device, a zigbee communication device, or a WIFI communication device.

Fig. 11 shows a schematic block diagram of a heating platform 1000 provided in accordance with a first embodiment of the present invention; as shown in fig. 11, the heating stage 1000 includes:

a heating device 1002 comprising at least one heating element for heating an appliance placed on a heating platform;

a light source 1004 disposed on the top wall of the heating platform for emitting a light beam towards the appliance to cause the appliance to generate first data from the light beam;

a platform communication device 1006 in communication with the appliance for receiving first data from the appliance;

the control device 1008 includes: a matching unit 1010 matching a heating power corresponding to the intensity of the light beam according to the intensity of the light beam; a control unit 1012 for controlling the heating member to heat the appliance according to the heating power;

a platform power supply 1014 comprising: the driving module 1016, wherein the driving module 1016 is connected with a power supply; a platform coil 1018, the platform coil 1018 connected to the drive module 1016 and coupled to an appliance coil of an appliance to power the appliance.

The platform display device 1020 is connected with the control device 1008 and used for displaying function information and alarm prompt information;

a platform input device 1022 connected to the control device 1008 for receiving a setting command from a user to control the heating platform 1000.

In this embodiment, the platform display device 1020 and the platform input device 1022 are both connected to the control device 1008, and a user can perform related settings according to the placement position of the appliance or the preference of the user through the platform input device 1022, and then display corresponding function information and alarm prompt information through the platform display device 1020, so that the user can visually check whether the appliance is deviated or not and whether the current heating mode or function is selected, and the displayed appliance position state and function information help the user to know the operation state of the appliance and the heating platform 1000, thereby improving the controllability of the heating platform 1000, optimizing the control function of the heating platform 1000, and simultaneously avoiding the problems of poor heating effect, abnormal realization of the heating function and even potential safety hazard of the appliance during heating caused by the deviation of the appliance due to negligence of the user.

Fig. 12 shows a control flow chart of the appliance and the heating platform provided according to the first embodiment of the present invention. As shown in fig. 12, taking the highest gear as the 5 th gear for example, after the start of the operation:

s1202, sampling the current value of the photosensitive sensor to generate a sampling current value a, and sending the sampling current value a to a heating platform;

s1204, judge whether the sampled current value a is greater than or equal to the preset current value M, if yes, turn to step S1206, if no, turn to step S1210;

s1206, setting the power gear to be in an unlimited mode;

s1208, limiting and outputting a corresponding control process of the function according to the power gear and controlling execution;

s1210, calculating and obtaining the ratio of the sampling current value to a preset current value, namely a/M;

s1212, multiplying the ratio of a/M and the highest gear to obtain a product which is the power upper limit p;

s1214, determining whether the upper power limit p is greater than or equal to 4 and less than 5, if so, going to step S1216, and if not, going to step S1220;

s1216, setting the power gear to gear 4;

s1218, outputting the corresponding control process of the function according to the power gear limit and controlling the execution;

s1220, determining whether the upper power limit p is greater than or equal to 3 and less than 4, if so, going to step S1222, and if not, going to step S1226;

s1222, setting the power gear to 3 rd gear;

s1224, outputting a corresponding control process of the function according to the power gear limit and controlling execution;

s1226, judging whether the power upper limit p is more than or equal to 2 and less than 3, if so, turning to the step S1228, and if not, turning to the step S1232;

s1228, setting the power gear to be a 2 nd gear;

s1230, outputting the corresponding control process of the function according to the power gear limit and controlling the execution;

s1232, setting the upper limit of the power to the 1 st gear;

and S1234, outputting a corresponding control process of the function according to the power gear limit and controlling execution.

In this embodiment, through the above control process, the heating power of the heating platform to the appliance is limited by the position of the appliance, so that the heating power is automatically matched by receiving light beams with different intensities at different positions of the appliance, thereby avoiding the problems of poor heating effect, abnormal realization of heating function and even potential safety hazard of the appliance during heating caused by the deviation of the appliance position from the heating region of the heating platform placed by a user. The heating platform is matched with the appliance, so that the appliance does not need to be provided with a heating device, and can realize an intelligent cooking function only by being matched with the heating platform, the cost of the appliance is reduced, the volume of the appliance can be effectively reduced, the space occupation of the appliance is reduced, and the experience of a user is effectively improved; and the heating platform can interact with various types of appliances, has higher universality, and greatly facilitates the use of the appliances and the heating platform by users.

The technical scheme of the invention is explained in detail in the above with reference to the attached drawings, and the invention provides an appliance, which can realize accurate positioning of the appliance and a heating platform through a photosensitive device on the appliance, better realize uniform heating of a heated part of the appliance, and avoid the problems that when a user uses the appliance, the position is prevented from deviating from a heating area, so that the heating effect is poor, the heating function cannot be normally realized, and even the potential safety hazard exists in the appliance during heating.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In the present invention, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An appliance, comprising:

a body;

the photosensitive device is connected with the body to sense the light beam from the heating platform;

processing means for generating first data from the light beam;

an appliance communication device in communication with the heating platform for sending the first data to the heating platform to cause the heating platform to heat the appliance in accordance with the first data;

the processing device comprises:

the judging unit is used for judging whether the photosensitive device senses the light beam or not;

the detection unit is used for detecting the intensity of the light beam sensed by the photosensitive device and setting the intensity of the light beam as the first data when the judgment result is yes;

and the alarm unit sends an alarm prompt to the user when the judgment result is negative.

2. The apparatus of claim 1, wherein the treatment device comprises:

the body diapire on be provided with to the inside sunken recess of utensil, photosensitive device sets up in the recess.

3. The apparatus according to claim 1,

the photosensitive device is a photosensitive device, a capacitive photosensitive device or an inductive photosensitive device.

4. The apparatus according to claim 3,

the detection unit is used for detecting the current value passing through the photosensitive device when the photosensitive device is a photosensitive device, and determining the intensity of the light beam according to the current value.

5. The apparatus of claim 1, further comprising:

an appliance power supply connected with the processing device or the appliance communication device to supply power to the processing device and the appliance communication device;

an appliance coil connected to the processing device or the appliance communication device and coupled to the platform coil of the heating platform such that electrical energy is transferred from the platform coil to the appliance coil.

6. The apparatus according to any one of claims 1 to 5, further comprising:

the appliance display device is connected with the appliance communication device and is used for displaying function information and alarm prompt information;

and the appliance input device is connected with the appliance communication device and used for receiving a setting instruction from a user so as to control the heating platform.

7. The apparatus according to any one of claims 1 to 5,

the appliance communication device is an infrared communication device, a Bluetooth communication device, a radio frequency communication device, a Zigbee communication device or a WIFI communication device.

8. The apparatus according to claim 2,

the cross sectional area of the groove is gradually reduced from one side of the opening to the other side of the opening;

the photosensitive device is arranged at the top of the groove.

9. The apparatus according to any one of claims 3 to 5,

a groove which is sunken towards the inside of the device is formed in the bottom wall of the body, and the photosensitive device is arranged in the groove;

the photosensitive device is arranged at the top of the groove.

10. A heating platform for heating an appliance as claimed in any one of claims 1 to 9, comprising:

a heating device comprising at least one heating element for heating the appliance placed on the heating platform;

the light source is connected with the body of the heating platform and used for emitting light beams to the appliance so that the appliance generates first data according to the light beams;

a platform communication device in communication with the appliance for receiving first data from the appliance;

a control device that controls the heating member to heat the appliance according to the first data.

11. The heated platen of claim 10, wherein the control means comprises:

a matching unit matching a heating power corresponding to the intensity of the light beam according to the intensity of the light beam;

and the control unit controls the heating part to heat the appliance according to the heating power.

12. The heated platen of claim 10, further comprising:

a platform power supply device connected with the control device, the light source or the platform communication device to supply power to the control device, the light source and the platform communication device.

13. The heated platen of claim 12, wherein the platen power supply comprises:

the driving module is connected with a power supply;

a platform coil connected with the drive module and coupled with an appliance coil of the appliance to power the appliance.

14. The heated platen of any of claims 10-13,

the platform communication device is an infrared communication device, a Bluetooth communication device, a radio frequency communication device, a Zigbee communication device or a WIFI communication device.

15. The heated platen of any of claims 10-13, further comprising:

the platform display device is connected with the control device and is used for displaying functional information and alarm prompt information;

and the platform input device is connected with the control device and used for receiving a setting instruction from a user so as to control the heating platform.