CN215424188U - Heating system of wireless power supply temperature measurement - Google Patents

Abstract

The embodiment of the utility model discloses a heating system for wireless power supply temperature measurement, which is characterized in that a coil panel module in a heating device is electromagnetically coupled with a wireless receiving coil module in a temperature measuring device, so that induction current is generated in the wireless receiving coil module, and the effect that the heating device supplies power to the temperature measuring device wirelessly is realized; first singlechip among the heating device utilizes the wireless communication connection of the second wireless communication module among first wireless communication module and the temperature measuring device to obtain the temperature value that temperature sensor gathered, the purpose of the wireless temperature measurement of heating device has been realized, the separable effect of heating device and temperature measuring device has finally been reached, make the temperature measuring device of a heating device multiple different grade type and function that can match, and a temperature measuring device also can match the heating device of multiple different grade type and function, user's use experience has been promoted, the manufacturing cost of equipment and user's purchase cost have been reduced.

Description

Heating system of wireless power supply temperature measurement

Technical Field

The utility model relates to the technical field of wireless control, in particular to a heating system for wireless power supply temperature measurement.

Background

In the current market, kitchen appliances are more and more in variety, and each kitchen appliance is independent equipment and independent use, for example electric rice cooker, electric pressure cooker, electric stewpot etc. for kitchen appliances's manufacturing cost is higher, and after the household electrical appliances broke down and can't be used, the user usually abandons the household electrical appliances of trouble and buys again, leads to user's purchase cost higher.

Disclosure of Invention

The heating device is provided with a first single chip microcomputer, a first wireless communication module and a coil disc module, and the temperature measuring device is provided with a second single chip microcomputer, a second wireless communication module, a temperature sensor and a wireless receiving coil module, so that the effects of wireless power supply and wireless temperature measurement between the heating device and the temperature measuring device are achieved.

In a first aspect, the present application provides a wirelessly powered thermometric heating system, the system comprising: a heating device and a temperature measuring device; the heating device includes: the coil panel module comprises a first singlechip, a first wireless communication module and a coil panel module, wherein the first wireless communication module and the coil panel module are electrically connected with the first singlechip; the temperature measuring device includes: the wireless receiving coil module, the second wireless communication module and the temperature sensor are all electrically connected with the second singlechip; the second wireless communication module is in wireless communication connection with the first wireless communication module; the coil panel module is in electromagnetic induction connection with the wireless receiving coil module; when the heating device is in a working state, the wireless receiving coil module is coupled with an electromagnetic field generated after the coil panel module is electrified and generates induction current;

the second single chip microcomputer is used for acquiring the temperature value acquired by the temperature sensor and sending the temperature value by using the second wireless communication module;

the first single chip microcomputer is used for receiving the temperature value through the first wireless communication module and controlling the heating power of the coil panel module.

In a possible embodiment, the heating device further comprises: a first display module;

the first display module is electrically connected with the first single chip microcomputer.

In one possible embodiment, the first display module includes: a display screen and/or a display light.

In a possible embodiment, the thermometric device further comprises: a second display module;

the second display module is electrically connected with the second single chip microcomputer.

In one possible embodiment, the second display module includes: a display screen and/or a display light.

In a possible embodiment, the heating device further comprises: a key module;

the key module is electrically connected with the first single chip microcomputer.

In a possible embodiment, the heating device further comprises: an electromagnetic heating power panel;

the electromagnetic heating power panel is electrically connected with the first single chip microcomputer.

In one possible embodiment, the first wireless communication module and the second wireless communication module are: bluetooth, WIFI, a short-range wireless communication device or an infrared communication device.

In a possible embodiment, the heating device further comprises: a heat sink;

the heat dissipation device is electrically connected with the first single chip microcomputer.

In a possible embodiment, the heating device and the temperature measuring device are separable.

The embodiment of the utility model has the following beneficial effects:

by adopting the heating system for wirelessly supplying power and measuring temperature, the coil disc module is arranged in the heating device, and the wireless receiving coil module is arranged in the temperature measuring device, so that the coil disc module can be coupled with the wireless receiving coil module after being electrified to generate a magnetic field, and the wireless receiving coil module can generate induction current, further the wireless receiving coil module can provide electric energy for the temperature measuring device, and the effect that the heating device is wirelessly supplied with power for the temperature measuring device through electromagnetic induction connection with the temperature measuring device is realized; through set up first wireless communication module in heating device and set up second wireless communication module and temperature sensor in temperature measuring device, so that temperature sensor transmits the temperature value of gathering for first wireless communication module through second wireless communication module with wireless communication's mode, and first wireless communication module transmits the temperature value of acquireing for first singlechip, the purpose of the wireless temperature measurement of heating device has been realized, the separable effect of heating device and temperature measuring device has finally been reached, make a heating device can match the temperature measuring device of multiple different grade type and function, and a temperature measuring device also can match the heating device of multiple different grade type and function, user's use experience has been promoted, the manufacturing cost of equipment and user's purchase cost have been reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

FIG. 1 is a block diagram of a heating system for wireless power supply temperature measurement in an embodiment of the present application;

fig. 2 is another block diagram of a heating system for wirelessly supplying power to measure temperature in the embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a block diagram of a heating system for wirelessly supplying power and measuring temperature in an embodiment of the present application is shown, where the heating system includes: a heating device 102 and a temperature measuring device 101; the heating device 102 includes: the coil panel comprises a first single chip microcomputer 108, a first wireless communication module 109 and a coil panel module 107, wherein the first wireless communication module 109 and the coil panel module 107 are electrically connected with the first single chip microcomputer 108; the temperature measuring device 101 includes: the wireless receiving coil module 103, the second wireless communication module 105 and the temperature sensor 106 are electrically connected with the second singlechip 104; the second wireless communication module 105 is in wireless communication connection with the first wireless communication module 109; the coil panel module 107 is connected with the wireless receiving coil module 103 through electromagnetic induction; when the heating device 102 is in an operating state, the wireless receiving coil module 103 is coupled with an electromagnetic field generated by the coil panel module 107 after being electrified and generates an induced current; the second single chip microcomputer 104 is used for acquiring a temperature value acquired by the temperature sensor 106 and sending the temperature value by using the second wireless communication module 105; the first single chip 108 is configured to receive the temperature value through the first wireless communication module 109 and control the heating power of the coil panel module 107.

In the embodiment of the present application, the heating device 102 is a device having an electromagnetic heating function, the function is mainly realized by the coil panel module 107 arranged in the heating device 102, when a high-frequency voltage flows through the coil panel module 107, the coil panel module 107 can generate an alternating magnetic field changing at a high speed, and then the device including the ferrous container and the temperature measuring device 101 is placed on the heating device 102 for use in cooperation, the surface of the ferrous container is equivalent to cutting an alternating magnetic induction line, at this time, a metal part at the bottom of the ferrous container generates an alternating current, i.e., a vortex, so that the vortex makes iron atoms at the bottom of the ferrous container move irregularly at a high speed, the atoms collide with each other and rub to generate heat energy, and the heating function of the heating device 102 on the temperature measuring device 101 is realized.

Further, the wireless receiving coil module 103 is arranged around the outside of the iron container in a surrounding mode, the wireless receiving coil module 103 and the coil panel module 107 are arranged in parallel, when the coil panel module 107 generates an alternating magnetic field changing at a high speed, the magnetic flux penetrating through the wireless receiving coil module 103 also changes at a high speed, and therefore induced current is generated in the wireless receiving coil module 103, electric energy is provided for the temperature measuring device 101, and the function of wirelessly supplying power to the temperature measuring device 101 by the heating device 102 is achieved.

Further, when the heating device 102 is in a working state, after the wireless receiving coil module 103 is coupled with the electromagnetic field generated by the coil panel module 107 after being powered on, and generates an induced current and provides electric energy for the temperature measuring device 101, the temperature sensor 106 in the temperature measuring device 101 starts to acquire a temperature value and transmits the acquired temperature value to the second single chip microcomputer 104 in real time, and the second single chip microcomputer 104 is used for acquiring the temperature value acquired by the temperature sensor 106 and sending the temperature value by using the second wireless communication module 105; the first single chip 108 is configured to receive the temperature value through the first wireless communication module 109 and control the heating power of the coil panel module 107.

In the embodiment of the application, the coil panel module 107 is arranged in the heating device 102, and the wireless receiving coil module 103 is arranged in the temperature measuring device 101, so that after the coil panel module 107 is electrified to generate a magnetic field, the coil panel module can be coupled with the wireless receiving coil module 103, and the wireless receiving coil module 103 can generate an induced current, and further the wireless receiving coil module 103 can provide electric energy for the temperature measuring device 101, thereby realizing the effect that the heating device 102 is in electromagnetic induction connection with the temperature measuring device 101 to wirelessly supply power to the temperature measuring device 101; through setting up first wireless communication module 109 in heating device 102 and setting up second wireless communication module 105 and temperature sensor 106 in temperature measuring device 101, so that temperature sensor 106 transmits the temperature value of gathering to first wireless communication module 109 through second wireless communication module 105 with wireless communication, and first wireless communication module 109 transmits the temperature value of acquireing to first singlechip 108, the purpose of heating device 102 wireless temperature measurement has been realized, the separable effect of heating device 102 and temperature measuring device 101 has finally been reached, make a heating device 102 can match the temperature measuring device 101 of multiple different types and function, and a temperature measuring device 101 also can match the heating device 102 of multiple different types and function, user's use experience has been promoted, the manufacturing cost of equipment and user's purchase cost have been reduced.

Referring to fig. 2, which is another structural block diagram of the heating system for wirelessly powering and measuring temperature in the embodiment of the present application, the heating device 102 further includes: a first display module 201; the first display module 201 is electrically connected with the first single chip 108. Specifically, the first display module 201 includes: a display screen and/or a display light. The specific number of the display screens and/or the display lamps is set according to practical situations and is not limited herein. Specifically, the display screen and/or the display lamp can be used to display the parameters set by the user, the actual operating parameters of the heating device 102, and the operating status of the heating device 102, and the content specifically displayed by the display screen and/or the display lamp is not limited herein. The set heating mode and the operating state of the heating device 102 can be intuitively observed by the user by setting the first display module 201.

In this embodiment, the temperature measuring device 101 further includes: a second display module 205; the second display module 205 is electrically connected with the second single chip 104. Specifically, the second display module 205 includes: the specific number of the display screens and/or the display lamps is set according to the actual situation, and is not limited herein. Specifically, the display screen and/or the display lamp may be used to display parameters set by a user, actual operating parameters of the temperature measuring device 101, and an operating state of the temperature measuring device 101, and the content specifically displayed by the display screen and/or the display lamp is not limited herein. The second display module 205 can enable a user to visually observe the working state of the thermometric device 101.

In the embodiment of the present application, the heating device 102 further includes: a key module 202; the key module 202 is electrically connected with the first single chip 108. Specifically, the key module 202 may be a mechanical button, a touch button, or a touch screen, and a user interacts with the heating device 102 through the key module 202, so as to implement setting of a heating mode by the user, where a specific interaction manner between the user and the device is not limited, and any manner that the device can acquire user setting information belongs to the protection scope of the present application.

In the embodiment of the present application, the heating device 102 further includes: an electromagnetic heating power supply board 203; the electromagnetic heating power panel 203 is electrically connected with the first single chip 108. Specifically, the electromagnetic heating power panel 203 is used for being connected with a power supply and providing electric energy for the heating device 102, the specific electromagnetic heating power panel 203 may be electrically connected with the power supply through a wire externally connected with a power plug, so as to obtain electric energy, the electromagnetic heating power panel 203 may also obtain electric energy from a battery or obtain electric energy from the power supply through a wire and a power adapter, it should be noted that a manner in which the electromagnetic heating power panel 203 obtains electric energy may be set according to an actual situation, and this is not limited herein.

In the embodiment of the present application, the first wireless communication module 109 and the second wireless communication module 105 are: bluetooth, WIFI, a short-range wireless communication device or an infrared communication device. The establishment of wireless communication between the first wireless communication module 109 and the second wireless communication module 105 can be displayed through the first display module 201 and the second display module 205. The wireless communication between the heating device 102 and the temperature measuring device 101 is realized by arranging the first wireless communication module 109 and the second wireless communication module 105, so that the heating device 102 can acquire the temperature value acquired by the temperature sensor 106 in the temperature measuring device 101 in real time.

In the embodiment of the present application, the heating device 102 further includes: a heat sink 204; the heat sink 204 is electrically connected to the first single-chip 108. By providing the heat sink 204 in the heating device 102, the heat sink 204 is used for cooling the heating device 102.

In the embodiment of the present application, the heating device 102 and the temperature measuring device 101 are separable.

In a possible embodiment, the heating device 102 is disposed in the heating base device, and the temperature measuring device 101 is disposed in a pot body that can be used with the heating base device. The pot body includes the pot courage, casing and the pot cover that can the holding pot courage, wireless receiving coil module 103 winding sets up between pot courage and casing, and the relative parallel arrangement of coil panel module 107 in wireless receiving coil module 103 and the heating base equipment, wireless receiving coil module 103 passes through the wire and is connected with the second singlechip 104 electricity that sets up in the pot cover, second wireless communication module 105 and temperature sensor 106 all are connected with second singlechip 104 electricity and are located the accommodation space of pot cover, second display module 205 inlays in the surface of pot cover and is connected with second singlechip 104 electricity. The first single chip microcomputer 108, the first wireless communication module 109, the coil panel module 107, the first display module 201, the button module 202, the heat dissipation device 204 and the electromagnetic heating power panel 203 are arranged in the heating base device, the first display module 201 and the button module 202 are embedded on the outer surface of the heating base device and are electrically connected with the first single chip microcomputer 108, the first wireless communication module 109, the coil panel module 107, the heat dissipation device 204 and the electromagnetic heating power panel 203 are located in the accommodating space of the heating base device, and the first wireless communication module 109, the coil panel module 107, the heat dissipation device 204 and the electromagnetic heating power panel 203 are electrically connected with the first single chip microcomputer 108.

Further, after the electromagnetic heating power panel 203 is connected to a power supply through a wire with a plug electrically connected with the electromagnetic heating power panel 203, the electromagnetic heating power panel 203 provides electric energy for the first single chip microcomputer 108, at this time, the first single chip microcomputer 108 can provide electric energy for a power supply display lamp and a display screen in the first display module 201 electrically connected with the first single chip microcomputer and enable the power supply display lamp and the display screen to be lighted, a user can select a heating mode through the key module 202, and the first single chip microcomputer 108 is used for receiving a target temperature value, a heating time length and a cooking type corresponding to the heating mode and displaying the information on the display screen. After a user presses a start button, the first single chip microcomputer 108 starts to provide electric energy for the coil panel module 107, the coil panel module 107 can generate a rapidly-changing alternating magnetic field after being electrified, alternating current, namely eddy current, is generated on a metal part at the bottom of the pot liner, iron atoms at the bottom of the pot liner move irregularly at a high speed due to the eddy current, the atoms collide with each other and rub to generate heat energy, and the heating base device starts to heat the pot body.

Meanwhile, when the coil panel module 107 is powered on to generate a rapidly changing alternating magnetic field, the wireless receiving coil module 103 performs electromagnetic coupling with the alternating magnetic field to generate an induction current, and supplies electric energy to the second wireless communication module 105 and the temperature sensor 106 in the pot cover and the second display module 205 embedded in the pot cover through the second single chip microcomputer 104, at this time, a display lamp and a display screen in the second display module 205 are lighted up, the second wireless communication module 105 establishes wireless communication connection with the first wireless communication module 109, and displays specific connection conditions on the display screens in the first display module 201 and the second display module 205, the temperature sensor 106 starts to acquire a temperature value in the pot container and transmits the temperature value to the second single chip microcomputer 104, the second single chip microcomputer 104 transmits the received temperature value to the first wireless communication module 109 through the second wireless communication module 105, and the first single chip microcomputer 108 receives the temperature value through the first wireless communication module 109, the display screens in the first display module 201 and the second display module 205 display the temperature value, and in the heating mode, the first single chip microcomputer 108 is used for controlling the heating power of the coil panel module 107, when the temperature value is equal to the target temperature value, the first single chip microcomputer 108 is used for controlling the coil panel module 107 to stop heating, at the moment, the heating base device stops heating the pot body and completes cooking, and meanwhile, the first single chip microcomputer 108 is used for controlling the heat dissipation device 204 to start to dissipate heat and cool the heating base device.

It can be understood that the heating base device and the pan body are separable, so that one heating base device can be matched with a plurality of pan bodies with different types and functions for use, and one pan body can also be matched with a plurality of heating base devices with different types and functions for use.

It should be noted that the above embodiment is only one possible embodiment, and in practical applications, the arrangement and the position of the heating device 102 and the temperature measuring device 101 in the corresponding apparatus may also be in other manners, which is not limited herein.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A wirelessly powered thermometric heating system, the system comprising: a heating device and a temperature measuring device; the heating device includes: the coil panel module comprises a first singlechip, a first wireless communication module and a coil panel module, wherein the first wireless communication module and the coil panel module are electrically connected with the first singlechip; the temperature measuring device includes: the wireless receiving coil module, the second wireless communication module and the temperature sensor are all electrically connected with the second singlechip; the second wireless communication module is in wireless communication connection with the first wireless communication module; the coil panel module is in electromagnetic induction connection with the wireless receiving coil module; when the heating device is in a working state, the wireless receiving coil module is coupled with an electromagnetic field generated after the coil panel module is electrified and generates induction current;

the second single chip microcomputer is used for acquiring the temperature value acquired by the temperature sensor and sending the temperature value by using the second wireless communication module;

the first single chip microcomputer is used for receiving the temperature value through the first wireless communication module and controlling the heating power of the coil panel module.

2. The wirelessly powered thermometric heating system of claim 1, wherein the heating device further comprises: a first display module;

the first display module is electrically connected with the first single chip microcomputer.

3. The wirelessly powered thermometric heating system of claim 2, wherein the first display module comprises: a display screen and/or a display light.

4. The wirelessly powered thermometric heating system of claim 1, wherein the thermometry device further comprises: a second display module;

the second display module is electrically connected with the second single chip microcomputer.

5. The wirelessly powered thermometric heating system of claim 4, wherein the second display module comprises: a display screen and/or a display light.

6. The wirelessly powered thermometric heating system of claim 1, wherein the heating device further comprises: a key module;

the key module is electrically connected with the first single chip microcomputer.

7. The wirelessly powered thermometric heating system of claim 1, wherein the heating device further comprises: an electromagnetic heating power panel;

the electromagnetic heating power panel is electrically connected with the first single chip microcomputer.

8. The wirelessly powered thermometric heating system of claim 1, wherein the first wireless communication module and the second wireless communication module are: bluetooth, WIFI, a short-range wireless communication device or an infrared communication device.

9. The wirelessly powered thermometric heating system of claim 1, wherein the heating device further comprises: a heat sink;

the heat dissipation device is electrically connected with the first single chip microcomputer.

10. The wirelessly powered thermometric heating system of claim 1, wherein the heating device and the thermometry device are separable.

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