CN210128381U - Emulation thermoelectricity magnetism stove - Google Patents

Abstract

The utility model discloses an emulation thermal power magnetic oven, which belongs to the technical field of kitchen cooking appliances and solves the technical problem of single function of a luminous component in the electromagnetic oven in the prior art, the emulation thermal power magnetic oven in the utility model comprises an oven body, a luminous component and a control unit which are arranged in the oven body, the furnace body comprises a panel with a light transmission area, the control unit controls the light-emitting component to emit light, the light emitted by the light-emitting component projects out of the light transmission area to form simulated fire, the light-emitting component comprises a working display state with a simulated fire color and a fault display state with an abnormal color, the control unit controls the light-emitting component to work in the working display state or the fault display state according to the working condition of the induction cooker, the control unit controls the light-emitting component to display light with an abnormal color, and the abnormal color is different from the color of the simulated fire.

Description

Emulation thermoelectricity magnetism stove

[ technical field ] A method for producing a semiconductor device

The utility model relates to a kitchen cooking utensil technical field especially relates to an emulation thermoelectricity magnetic stove.

[ background of the invention ]

In the prior art, an electromagnetic oven converts electric energy into electromagnetic energy or heat energy, and utilizes the electromagnetic energy to excite molecular motion in an iron pot to heat the iron pot, or directly utilizes the heat energy to heat the pot, thereby realizing a food cooking appliance. The induction cooker adopts a heating mode completely without open fire, has the advantages of environmental protection, safety, high heat efficiency and the like, and lacks visual sense in the cooking process because of no open fire.

Therefore, the induction cooker with simulated fire is provided in the prior art, the light-emitting component is arranged below the light-transmitting panel of the induction cooker, the light-emitting component emits light similar to flame and general, so that the visual aesthetic feeling is brought to people, and then the display brightness of the light-emitting component is controlled according to the firepower of the induction cooker, so that a user can judge the current firepower of the induction cooker according to the display brightness, and the use experience of the user is improved. However, the light emitting assembly in the prior art can only be used for displaying the firepower of the induction cooker simply, and has no other indication function, so that the function is single, and the user experience is poor.

[ Utility model ] content

The utility model aims to solve the technical problem that overcome prior art not enough and provide an emulation thermoelectricity electromagnetism stove, can make the user discern through the colour that observes light-emitting component whether current electromagnetism stove is in normal operating condition to this promotes the user and uses experience, has also increased light-emitting component's instruction function simultaneously.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides an emulation thermoelectricity magnetism stove, includes the furnace body and installs light-emitting component and the control unit in the furnace body, the furnace body is including the panel that has the printing opacity district, the control unit control light-emitting component sends out the light, and the light projection that light-emitting component sent goes out the printing opacity district in order to form emulation fire, light-emitting component is including the working display state that has emulation fire colour, the trouble display state that has unusual colour, and the control unit is according to the operating mode of electromagnetism stove with control light-emitting component work at working display state or trouble display state, the control unit control light-emitting component shows unusual colour, unusual colour is different with emulation fire colour.

Furthermore, the simulated fire colors comprise a first color and a second color, and the color intensity, brightness or lightness of the first color is greater than that of the second color, so that the power of the simulated fire electric magnetic furnace corresponding to the simulated fire colors can be distinguished.

Furthermore, the working display state comprises a plurality of cooking states, and the control unit controls the light-emitting assembly to display the corresponding simulated fire color according to the cooking states.

Furthermore, the light-emitting component has a flashing state, and the control unit controls the flashing frequency of the light-emitting component according to the cooking state; or the light-emitting component has a breathing state, and the control unit controls the breathing frequency of the light-emitting component according to the cooking state.

Furthermore, the light-emitting component comprises a plurality of simulation firelights, the control unit comprises a control chip and 3 first triodes, each simulation firelight comprises 3 first pins and 1 second pin, the 3 first pins are respectively connected with the emitting electrodes of the 3 first triodes, the base electrodes of the 3 first triodes are respectively connected with the control chip, and the collecting electrodes of the 3 first triodes are connected to the control power supply.

Furthermore, the control chip sends out a control signal and adjusts the duty ratio of the control signal so as to respectively control the turn-on of the 3 first triodes.

Furthermore, when the induction cooker works abnormally, the control chip sends out a control signal to control 2 first triodes to be kept closed and control the other 1 first triode to be switched on, so that the simulated fire lamp displays light with abnormal color, and the abnormal color is red.

Furthermore, an emitter of the first triode is connected in series with a first resistor, the first pin is connected between the front end of the first resistor and the emitter of the first triode, and the rear end of the first resistor is connected with a second pin and grounded; and the collector of the first triode is connected with the second resistor in series and then is connected to the control power supply.

Furthermore, the control unit further comprises a second triode, the base of the second triode is connected with the control chip, the emitter of the second triode is connected with the collector of the first triode and grounded, and the collector of the second triode is connected to the control power supply.

Furthermore, a plurality of light-transmitting areas are arranged on the panel at intervals in the circumferential direction, and the light-emitting component comprises a plurality of simulated fire lamps corresponding to the light-transmitting areas.

The utility model has the advantages that:

the control unit controls the light-emitting assembly to display light with abnormal color, and the abnormal color is different from the simulated fire color; that is to say, the utility model provides an electromagnetism stove is normal during operation, the light of emulation fire colour is shown to the control unit control light-emitting component, and the electromagnetism stove is unusual during operation, the control unit control light-emitting component shows the light of unusual colour, and unusual colour is different from emulation fire colour. Therefore, a user can identify whether the current induction cooker is in a normal working state or not by observing the color of light emitted by the light-emitting component, and carry out corresponding operation in time, so that the use experience of the user is improved; in addition, the design can integrate the indicating function and the simulation fire display function on the light-emitting component, and the realization is realized only by software control, so that the condition that whether the induction cooker is in a normal working state or not is avoided by independently arranging other indicating lamps, namely, the indicating function is realized without changing hardware, and the internal circuit structure of the induction cooker is simplified.

The simulated fire colors comprise a first color and a second color, and the color intensity, brightness or lightness of the first color is greater than that of the second color so as to distinguish the power of the simulated thermal power magnetic furnace corresponding to the simulated fire colors. Therefore, the power of the induction cooker can be conveniently judged according to the intensity of the color, the user identification habit is met, and the human-computer interaction experience is greatly improved.

The working display state comprises a plurality of cooking states, and the control unit controls the light-emitting assembly to display the corresponding simulated fire color according to the cooking states. By the design, the indication function of the light-emitting component is further increased, the cooking state of the current induction cooker can be judged by a user through remotely observing the display color of the light-emitting component, the cooking state comprises a hot pot, cooking, frying, stir-frying and the like, and the function display key on the operation panel of the induction cooker is not required to be closely observed, so that the user experience is optimized, and the electromagnetic radiation received by the user is indirectly reduced.

The light-emitting component has a flashing state, and the control unit controls the flashing frequency of the light-emitting component according to the cooking state; or the light-emitting component has a breathing state, and the control unit controls the breathing frequency of the light-emitting component according to the cooking state. By the design, the use experience of a user can be further improved.

The control unit includes control chip and 3 first triodes, and every emulation fire lamp includes 3 first pins and 1 second pin, and 3 first pins are connected with the projecting pole of 3 first triodes respectively, and the base of 3 first triodes is connected with control chip respectively, and the collecting electrode of 3 first triodes is connected to control power. By the design, the control chip can realize the control of the display color of the simulated fire lamp through the circuit structure.

The control chip sends out control signal and adjusts the duty cycle of control signal to open of 3 first triodes of control respectively. The control mode of duty ratio, the control signal of the red of adjusting emulation fire light, green, blue tristimulus control signal respectively the duty ratio, the colour of adjusting the tristimulus colour promptly on the whole is strong and weak relatively, synthesizes into a colour, can show countless different colours in theory, has reliable stability height, saves cost and the characteristics of easy realization.

When the induction cooker works abnormally, the control chip sends out a control signal to control 2 first triodes to be kept closed and control the other 1 first triode to be switched on, so that the simulation fire lamp displays light with abnormal color, and the abnormal color is red. When the equipment is abnormal, the indicator lamp is generally displayed in red, so that the abnormal color is set to be red, and the abnormal color can be conveniently memorized and recognized by a user.

The emitter of the first triode is connected with a first resistor in series, a first pin is connected between the front end of the first resistor and the emitter of the first triode, and the rear end of the first resistor is connected with a second pin and grounded; and the collector of the first triode is connected with the second resistor in series and then is connected to the control power supply. The design can enable the circuit structure to realize the control function, and the scheme has low cost, is simple and reliable and is convenient to apply.

The control unit further comprises a second triode, the base electrode of the second triode is connected with the control chip, the emitting electrode of the second triode is connected with the collecting electrode of the first triode and grounded, and the collecting electrode of the second triode is connected to the control power supply. By the design, the control chip can realize the display brightness of the control light-emitting component through the second triode, so that the control unit can realize the effect of controlling the display brightness of the light-emitting component according to the cooking state of the induction cooker, the cooking state can be a cooking mode or cooking firepower or cooking time, so that the user can judge the cooking state of the current induction cooker through the display brightness of the current light-emitting component, and the use experience of the user is further improved.

The panel is provided with a plurality of light-transmitting areas arranged at intervals in the circumferential direction, and the light-emitting component comprises a plurality of simulated fire lamps corresponding to the light-transmitting areas. By the design, the shape of the simulated fire can be in a flame shape with a specific shape, and the reality degree of the simulated fire is further improved.

These features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

[ description of the drawings ]

The invention will be further explained with reference to the drawings:

fig. 1 is a schematic diagram of a circuit structure of a control unit connected to a light emitting device according to a first embodiment of the present invention;

fig. 2 is a control flow chart according to a first embodiment of the present invention;

fig. 3 is a schematic diagram of a circuit structure of the second embodiment of the present invention in which the control unit is connected to the light emitting device.

In the figure: 100-RGB lamp, 1-1# first pin, 2-2# first pin, 3-3# first pin, 4-second pin.

[ detailed description ] embodiments

The utility model provides an emulation thermoelectricity electromagnetism stove, include the furnace body and install light-emitting component and the control unit in the furnace body, the furnace body is including the panel that has the printing opacity district, the control unit control light-emitting component sends out the light, and the light that light-emitting component sent throws out the printing opacity district in order to form emulation fire, light-emitting component is including the working display state that has emulation fire colour, the fault display state that has unusual colour, and the control unit is according to the operating mode of electromagnetism stove with control light-emitting component work at working display state or fault display state, the control unit control light-emitting component shows the light of unusual colour, unusual colour is different with emulation fire colour.

The utility model provides an electromagnetism stove is normal during operation, the light of artificial fire colour is shown to the control unit control light-emitting component, and the electromagnetism stove is unusual during operation, the control unit control light-emitting component shows the light of unusual colour, and unusual colour is different from artificial fire colour. Therefore, a user can identify whether the current induction cooker is in a normal working state or not by observing the color of light emitted by the light-emitting component, and carry out corresponding operation in time, so that the use experience of the user is improved; in addition, the design can integrate the indicating function and the simulation fire display function on the light-emitting component, and the realization is realized only by software control, so that the condition that whether the induction cooker is in a normal working state or not is avoided by independently arranging other indicating lamps, namely, the indicating function is realized without changing hardware, and the internal circuit structure of the induction cooker is simplified.

The technical solutions of the embodiments of the present invention are explained and explained below with reference to the drawings of the embodiments of the present invention, but the embodiments described below are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example one

Referring to fig. 1 to 2, the simulated thermal electromagnetic oven in this embodiment includes an oven body, and a light emitting component and a control unit installed in the oven body, the oven body includes a panel, a light transmitting area corresponding to the light emitting component is provided on the panel, the control unit controls the light emitting component to emit light, the light emitted by the light emitting component projects the light transmitting area on the surface of the panel to form simulated fire, the electromagnetic oven is in normal operation, the light emitting component is in an operation display state, the control unit controls the light emitting component to display light of the color of the simulated fire, the electromagnetic oven is in an abnormal operation, the light emitting component is in a fault display state, the control unit controls the light emitting component to display light of an abnormal color, and the abnormal color is different from the color of. Therefore, a user can identify whether the current induction cooker is in a normal working state or not by observing the color of light emitted by the light-emitting component, and carry out corresponding operation in time, so that the use experience of the user is improved; in addition, the design can integrate the indicating function and the simulation fire display function on the light-emitting component, and the realization is realized only by software control, so that the condition that whether the induction cooker is in a normal working state or not is avoided by independently arranging other indicating lamps, namely, the indicating function is realized without changing hardware, and the internal circuit structure of the induction cooker is simplified.

Specifically, the light emitting assembly in this embodiment includes a plurality of simulated fire lamps, preferably, the simulated fire lamps are RGB lamps 100, the panel is provided with a plurality of light transmitting areas circumferentially arranged at intervals, the light transmitting areas are preferably flame-shaped, and the RGB lamps 100 correspond to the light transmitting areas one to one; the number of RGB lamps is no less than 4, preferably 5 ~ 12, matches with the structure and the panel size in printing opacity district. By the design, the shape of the simulated fire can be flame-shaped, and the reality degree of the simulated fire is further improved. Taking 5 RGB lamps 100 as an example, each RGB lamp 100 includes 3 first pins and 1 second pin 4, the RGB lamp is a three-color LED lamp, and the 3 first pins are turned on to respectively display monochromatic red, green, and blue lights, specifically, an ultraviolet LED may be used to cooperate with RGB of three-color phosphor, or a blue LED may be used to excite RGB of two-color phosphor, and so on; the 3 first pins are the # 1 first pin 1, the # 2 first pin 2 and the # 3 first pin 3, the # 1 first pin 1, the # 2 first pin 2 and the # 3 first pin 3 correspond to R, G and the controlled triode B, respectively, the control unit comprises a control chip (not shown in the figure) and 3 first triodes, the 3 first triodes are the first triode Q1, the first triode Q2 and the first triode Q3, respectively, wherein the base of the first triode Q1, the base of the first triode Q2 and the base of the first triode Q3 are connected with the control chip, the collector of the first triode Q1, the collector of the first triode Q2 and the collector of the first triode Q3 are connected with a +5V control power supply, the emitters of the first triode Q1 are connected with the # 3 first pins 3 of the plurality of RGB lamps 100 connected in parallel, respectively, and the emitters of the first triode Q2 are connected with the # 2 first pins 2 of the plurality of RGB lamps 100 connected in parallel, the emitting electrode of the first triode Q3 is respectively connected with the 1# first pins 1 of the RGB lamps 100 connected in parallel, and the emitting electrode of the first triode Q1 is connected with the second pins 4 of the RGB lamps 100 connected in parallel and then grounded.

In this embodiment, the emitter electrodes of the 3 first triodes are respectively connected in series with a first resistor, the first pin is connected between the front end of the first resistor and the emitter electrode of the first triode, and the rear end of the first resistor is connected with the second pin and grounded. Specifically, the 3 first resistors are respectively a 1# first resistor R2, a 2# first resistor R4 and a 3# first resistor R6, the 1# first pins 1 of the multiple parallel RGB lamps are connected between the front end of the 3# first resistor R6 and the emitter of the first triode Q3, the 2# first pins 2 of the multiple parallel RGB lamps are connected between the front end of the 2# first resistor R4 and the emitter of the first triode Q2, the 3# first pins 3 of the multiple parallel RGB lamps are connected between the front end of the 1# first resistor R2 and the emitter of the first triode Q1, and the rear ends of the 3 first resistors are connected with the second pins 4 of the multiple parallel RGB lamps and then grounded. In addition, the collector of the first triode is connected in series with the second resistor and then is connected to the +5V control power supply, namely, a # 1 second resistor R1 is connected between the collector of the first triode Q1 and the control power supply, a # 2 second resistor R3 is connected between the collector of the first triode Q2 and the control power supply, and a # 3 second resistor R5 is connected between the collector of the first triode Q3 and the control power supply. The design can enable the circuit structure to realize a control function, control the current and stabilize the circuit, and the scheme has the advantages of low cost, simplicity, reliability and convenient application.

Specifically, the control chip controls the RGB lamp to adjust the color in the following manner: the control chip sends out a control signal, and adjusts the duty ratio of the control signal to respectively control the turning on of the 3 first triodes, and further control the RGB lamp to display other colors except red, blue and green, it should be noted that the larger the duty ratio of the control signal of a certain first triode is, the lighter the single color corresponding to the first pin connected with the emitter of the first triode is, the smaller the duty ratio is, the darker the single color is, so by controlling the duty ratios of the control signals of the three first triodes, the shade ratio of three single primary colors can be adjusted, thereby realizing continuous color adjustment. The simulation fire color displayed when the induction cooker normally works is different from the abnormal color displayed when the induction cooker abnormally works, and the specific display color can be adjusted according to the preference of a user, so that the detailed description is omitted. The duty ratio control mode has the characteristics of high reliability and stability, cost saving and easiness in implementation.

Specifically, when the induction cooker is in an abnormal working state, the control chip sends out a control signal to keep the first triode Q1 and the first triode Q2 closed, the first triode Q3 is turned on, and the RGB lamp is in a fault display state, so that the RGB lamp displays light of an abnormal color, at this time, the abnormal color is red, and the simulated fire color can be any color different from a single red primary color displayed by the RGB lamp. When the equipment is abnormal, the indicator lamp is generally displayed in red, so that the abnormal color is set to be red, and the abnormal color can be conveniently memorized and recognized by a user. When the induction cooker is in a normal working state, the control chip sends out a control signal to control the first triode Q1, Q2 and Q3 to be switched on, each RGB lamp is in a working display state, the RGB lamps display light simulating the fire color, and the simulated fire color is orange, yellow-green, green-yellow, blue-green and the like with different depths; or the first triode Q1 and the first triode Q3 are controlled to be closed, and the first triode Q2 is controlled to be opened, so that the RGB lamp displays light with the simulated fire color of green; or the first triode Q2 and the first triode Q3 are controlled to be closed, and the first triode Q1 is controlled to be opened, so that the RGB lamp displays light with the simulated fire color of blue; or the first triode Q1 is controlled to be closed, and the first triode Q2 and the first triode Q3 are controlled to be opened, so that the RGB lamp displays various gradually-changed light from yellow green to orange red in the simulated fire color; or the first triode Q2 is controlled to be closed, and the first triode Q1 and the first triode Q3 are controlled to be opened, so that the RGB lamp displays the simulated fire light from blue-purple to purple-red; or the first triode Q3 is controlled to be closed, and the first triodes Q2 and Q1 are controlled to be opened, so that the RGB lamp displays the simulated fire with various gradually changed blue-green light.

It can be understood that, in other embodiments of the present invention, when the electromagnetic oven is in abnormal operation, the control chip controls the RGB lamp to display one of green and/or blue, that is, the abnormal color is green or blue; when the induction cooker works normally, the control chip controls the RGB lamp to display the simulated fire color, and the simulated fire color is red or any other color different from the abnormal color.

In summary, when the light emitting device in this embodiment adopts the RGB lamp 100, the RGB lamp can display light of a plurality of colors, so that a plurality of colors of simulated fire and abnormal colors can be displayed, theoretically, any one color formed by mixing RGB three primary colors is formed, so that the light emitting device is controlled by the later control unit to display more other colors according to the requirement without changing hardware settings.

Certainly, the simulated fire color comprises a first color and a second color, and the color intensity, brightness or lightness of the first color is greater than that of the second color so as to distinguish the power of the simulated fire electric magnetic furnace corresponding to the simulated fire color; or the same color with a combination of gradients of intensity, brightness, or lightness. As long as the color is the same as that identified by naked eyes, but one parameter of intensity, brightness or lightness is different, the power of the induction cooker can be conveniently judged according to the intensity of the color, the identification habit of a user is met, and the human-computer interaction experience is greatly improved.

In addition, the simulated thermal power electromagnetic oven has multiple cooking states, wherein the cooking states comprise a hot pot, cooking, frying, stir-frying and the like, the control unit controls the RGB lamp 100 to display corresponding simulated fire colors according to different cooking states, specifically, the control chip sends out control signals and adjusts the duty ratio of the control signals so that the RGB lamp 100 can display multiple different simulated fire colors, and then a user can judge the current cooking state of the electromagnetic oven according to the colors displayed by the RGB lamp 100, the mode can ensure that the user can judge the current cooking state of the electromagnetic oven by remotely observing the display colors of the light-emitting component, and does not need to closely observe function display keys on an operation panel of the electromagnetic oven, so that the electromagnetic radiation received by the user is reduced; in addition, the indicating function of the light-emitting component is further increased.

Example two

As shown in fig. 3, different from the first embodiment, the control unit in this embodiment further includes a second transistor Q4, and an upper end of the second resistor is not a +5V power supply, a base of the second transistor Q4 is connected to the control chip, an emitter of the second transistor Q4 is connected to collectors of the 3 first transistors and grounded, specifically, an emitter series resistor R8 of the second transistor Q4, a front end of R8 is connected to upper ends of the 3 second resistors, a rear end of R8 is grounded, and a collector series resistor R7 of the second transistor Q4 is connected to a +5V control power supply. So design, control chip accessible second triode Q4 realizes current regulation in order to control light emitting component's display brightness (every RGB lamp synchronous control), can make the effect that the control unit realized control light emitting component's display brightness according to the culinary art state of electromagnetism stove from this, the culinary art state can be for culinary art mode or culinary art firepower or culinary art time, so the user can judge the culinary art state of current electromagnetism stove through the display brightness of current light emitting component, further promoted user's use experience.

EXAMPLE III

Different from the first embodiment, in order to further improve the user experience, the light emitting assembly in this embodiment further has a blinking state, and the control unit controls the blinking frequency of the light emitting assembly according to the cooking state; such as a high-power state, a slow stewing state, a heat preservation state and the like. The actual control of the light emitting component to achieve the flashing state is the control of the switching time, for example, within a period of time, such as 10 seconds, 1 second may be on and off for 0.25 second, and the above cycle is performed for 8 times, wherein within the off time of 0.25 second, all 3 first triodes are off.

Or in order to further improve the user experience, in this embodiment, the lighting assembly further has a breathing state, and the control unit controls the breathing frequency of the lighting assembly according to the cooking state; in the present embodiment, the cooking state may be the power of the electromagnetic wire coil or the heating time. Only the specific signal mode of the control signal needs to be changed, and as the high level and the low level in the control signal are generally in a step type, the switching period control is in a flashing state under the condition; if the step mode of the electrical signal is changed into a gradual change mode, such as a sine wave, the state is changed into a breathing state.

The use of the flashing state may be used to indicate a cooking end state, a timed pending state, a fault state, etc.; the usage of the breathing state may be used to indicate the heating state, while the frequency of breathing may indicate the amount of power for heating, etc. On the basis of the first embodiment, the combination of the flashing state and the breathing state can greatly upgrade the user experience, and the indication of multiple functions becomes easy to design.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the drawings and the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (10)

1. The utility model provides an emulation thermoelectricity magnetism stove, includes the furnace body and installs light-emitting component and the control unit in the furnace body, the furnace body is including the panel that has the printing opacity district, the control unit control light-emitting component sends out the light, and the light projection that light-emitting component sent goes out the printing opacity district in order to form emulation fire, a serial communication port, light-emitting component is including the working display state that has emulation fire colour, the fault display state that has unusual colour, and the control unit is according to the operating mode of electromagnetism stove with control light-emitting component work at working display state or fault display state, the control unit control light-emitting component shows the light of unusual colour, unusual colour is different with emulation fire colour.

2. The simulated thermal power magnetic furnace according to claim 1, wherein the simulated fire color comprises a first color and a second color, and the color intensity, brightness or lightness of the first color is greater than that of the second color so as to distinguish the power level of the simulated thermal power magnetic furnace corresponding to the simulated fire color.

3. The simulated thermal power magnetic furnace according to claim 1, wherein the working display state comprises a plurality of cooking states, and the control unit controls the light emitting assembly to display the corresponding simulated fire color according to the cooking states.

4. The simulated thermal power magnetic furnace according to claim 3, wherein the light emitting assembly further has a blinking state, and the control unit controls the blinking frequency of the light emitting assembly according to a cooking state; or the light-emitting component also has a breathing state, and the control unit controls the breathing frequency of the light-emitting component according to the cooking state.

5. The simulated thermal electromagnetic oven according to any one of claims 1 to 4, wherein the light emitting assembly comprises a plurality of simulated fire lamps, the control unit comprises a control chip and 3 first triodes, each simulated fire lamp comprises 3 first pins and 1 second pin, the 3 first pins are respectively connected with the emitters of the 3 first triodes, the bases of the 3 first triodes are respectively connected with the control chip, and the collectors of the 3 first triodes are connected with a control power supply.

6. The simulated thermal power magnetic furnace according to claim 5, wherein the control chip sends out a control signal and adjusts the duty ratio of the control signal to control the turn-on of the 3 first triodes respectively.

7. The simulated thermal power induction cooker according to claim 5, wherein when the induction cooker works abnormally, the control chip sends out control signals to control 2 first triodes to be kept closed and control the other 1 first triode to be switched on, so that the simulated fire lamp displays light with an abnormal color, and the abnormal color is red.

8. The simulated thermal power magnetic furnace according to claim 5, wherein the emitter of the first triode is connected with a first resistor in series, the first pin is connected between the front end of the first resistor and the emitter of the first triode, and the rear end of the first resistor is connected with the second pin and grounded; and the collector of the first triode is connected with the second resistor in series and then is connected to the control power supply.

9. The artificial thermal electromagnetic oven according to claim 5, wherein the control unit further comprises a second triode, a base of the second triode is connected with the control chip, an emitter of the second triode is connected with a collector of the first triode and grounded, and the collector of the second triode is connected with a control power supply.

10. The simulated thermal power magnetic furnace according to claim 1, wherein a plurality of light-transmitting areas are arranged on the panel at intervals in the circumferential direction, and the light-emitting assembly comprises a plurality of simulated fire lamps corresponding to the light-transmitting areas.

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