CN207569931U - A kind of electromagnetic stove temperature measuring equipment and electromagnetic stove - Google Patents
A kind of electromagnetic stove temperature measuring equipment and electromagnetic stove Download PDFInfo
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- CN207569931U CN207569931U CN201721469292.9U CN201721469292U CN207569931U CN 207569931 U CN207569931 U CN 207569931U CN 201721469292 U CN201721469292 U CN 201721469292U CN 207569931 U CN207569931 U CN 207569931U
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Abstract
The utility model is related to household appliance technical fields, specifically disclose a kind of electromagnetic stove temperature measuring equipment and electromagnetic stove, which includes at least two temperature measurement components, and each temperature measurement component includes temperature detecting unit, in the heating region of electromagnetic stove micro-crystal plate upper surface;Coupled capacitor one, two-plate are respectively arranged on the upper and lower surface of micro-crystal plate;And coupled capacitor two, two-plate are respectively arranged on the upper and lower surface of micro-crystal plate;Each the controller of the coupled capacitor one of temperature measurement component, temperature detecting unit, coupled capacitor two and electromagnetic stove forms series loop.The utility model realizes the signal transmission between the temperature detecting unit outside electromagnetic stove and the controller inside electromagnetic stove by coupled capacitor, without conducting wire in kind, improves the accuracy of thermometric.By setting multiple temperature measurement components, the temperature of detection pan bottom each region when each region difference is larger, makes pan bottom each region temperature close by the power for reducing electromagnetic stove.
Description
Technical field
The utility model is related to household appliance technical field more particularly to a kind of electromagnetic stove temperature measuring equipments and electromagnetic stove.
Background technology
Electromagnetic stove temperature measuring equipment is mainly the temperature for measuring food in cookware or cookware, and the controller of electromagnetic stove is installed on electricity
Inside magnetic stove.
Existing electromagnetic stove temperature measuring equipment is generally mounted to the micro-crystal plate lower surface of electromagnetic stove, temperature sensor and electromagnetic stove
Controller be respectively positioned on inside electromagnetic stove, pass through signal wire and realize signal transmission therebetween.When measuring, the temperature of cookware
It is transmitted on micro-crystal plate, by measuring the temperature of micro-crystal plate lower surface come indirect feedback cookware temperature.Using above-mentioned temp measuring method
When temperature measurement error it is big, can not accurately reflect true temperature.
There is a kind of thermometric mode in the prior art, controller is set on inside electromagnetic stove, and a part for temperature probe is set on
Inside electromagnetic stove, another part of temperature probe is pierced by directly to measure temperature of boiler by the trepanning on micro-crystal plate.It adopts
Temperature measurement error is although reduced, but seriously reduce the mechanical strength of micro-crystal plate, while also increase micro- with this kind of thermometric mode
The waterproof difficulty of brilliant plate and the processing cost of micro-crystal plate.
Temperature sensor is set on the upper surface of micro-crystal plate, i.e., set on electromagnetic stove by another middle thermometric mode in the prior art
Outside, controller be set on electromagnetic stove inside, the controller of temperature sensor and electromagnetic stove passes through bluetooth, wifi, RFID chip
Deng realization wireless signal transmission.Although temperature sensor can be in direct contact cookware bottom, the accuracy of thermometric is improved, is needed
It to power to temperature sensor, use is extremely inconvenient.
In addition, existing electromagnetic stove generally uses a temperature sensor measurement cookware temperature, since electromagnetic stove is using electricity
Magnetic heats so that the temperature of electromagnetic stove heating region center is higher, and the temperature far from heating region gradually lowers.Due to
The bottom of a pan is relatively thin, the bottom of a pan can be caused to deform if the temperature difference is bigger, can be upward similar to the bottom of a pan edge, intermediate prominent downwards
It rises, reduces the service life of cookware.And in some sticky food materials of boiling, easily occur being sticking phenomenon.
Utility model content
The purpose of this utility model is to provide a kind of electromagnetic stove temperature measuring equipment and electromagnetic stoves, can solve temperature detection
While signal transmission issues between unit and controller, solve the problems, such as cookware deformation and be sticking.
For this purpose, the utility model uses following technical scheme:
A kind of electromagnetic stove temperature measuring equipment, including at least two temperature measurement components, each temperature measurement component includes
Temperature detecting unit, in the heating region of electromagnetic stove micro-crystal plate upper surface;
Coupled capacitor one, two-plate are respectively arranged on the upper and lower surface of the micro-crystal plate;And
Coupled capacitor two, two-plate are respectively arranged on the upper and lower surface of the micro-crystal plate;
Each controller of the coupled capacitor one of the temperature measurement component, temperature detecting unit, coupled capacitor two and electromagnetic stove
Form series loop.
Further, the coupled capacitor one is included set on the first pole plate of the micro-crystal plate upper surface and set on described
Micro-crystal plate lower surface and the second pole plate being correspondingly arranged with first pole plate;
The coupled capacitor two is included set on the third pole plate of the micro-crystal plate upper surface and set on the micro-crystal plate following table
Face and the quadripolar plate being correspondingly arranged with the third pole plate;
The first pole plate, temperature detecting unit and the third pole plate of each temperature measurement component are sequentially connected in series, each described
Second pole plate, the quadripolar plate of temperature measurement component are electrically connected to the controller.
Further, the temperature measurement component is equipped at least four, wherein the temperature detecting unit of a temperature measurement component is set
In the heating region center, the temperature detection list of the temperature measurement component in addition to set on the heating region center
Member is circumferentially uniformly distributed along the heating region;
The coupled capacitor one and coupled capacitor two of each temperature measurement component are set on outside the heating region.
Further, first pole plate, the second pole plate, third pole plate and quadripolar plate are pasted onto the micro-crystal plate
On.
Further, first pole plate, temperature detecting unit and the third pole plate of each temperature measurement component are formed
Thermometric end pieces;
The temperature measurement component, which further includes, is covered in the insulation of the thermometric end pieces far from micro-crystal plate upper surface side
Stent;
Cookware is positioned on the insulating support.
Further, the insulating support is made from a material that be thermally conductive, and it pastes the end face of the thermometric end pieces and is equipped with
Heat-conducting silicone grease.
Further, the controller includes:
Signal generating module, for emitting high-frequency signal to the coupled capacitor one;
Signal receives and processing module, for receiving the coupled signal of the corresponding coupled capacitor two, and to the coupling
It closes signal and carries out flat wave voltage stabilizing and enhanced processing formation analog signal;And
Temperature collecting module identifies the analog signal, and the analog signal is converted to numerical signal.
Further, the micro-crystal plate is polar substances.
Further, the temperature detecting unit is thermistor, thermometer resistor, semiconductor transducer, condenser type pass
Sensor or inductance type transducer.
To achieve these goals, the utility model additionally provides a kind of electromagnetic stove, including being equipped with the housing of opening and setting
The micro-crystal plate of opening side is equipped in the housing, further includes above-mentioned electromagnetic stove temperature measuring equipment, the housing and the crystallite
Plate forms the installation cavity for placing the controller.
The beneficial effects of the utility model:The utility model realizes the temperature being located at outside electromagnetic stove by coupled capacitor
The signal transmission between detection unit and the controller inside electromagnetic stove is spent, solves existing electromagnetic stove temperature measuring equipment
The problem of thermometric accuracy and property easy to use cannot be had both simultaneously.Without conducting wire in kind, the accurate of thermometric is improved
Property.
The utility model uses multi-point sampler mode, can be measured according to the temperature detecting unit of each temperature measurement component
Temperature level, judge whether the temperature of pan bottom each region identical, such as if it is different, the power of electromagnetic stove can be reduced,
So that the temperatures approach of pan bottom each region is identical, solves the excessively high cookware that easily leads to of long-time local temperature and deform temperature
It spends and is sticking problem.
Description of the drawings
Fig. 1 is electromagnetic stove temperature measuring equipment structure diagram described in the utility model embodiment one;
Fig. 2 is electromagnetic stove temperature measuring equipment sectional view described in the utility model embodiment one;
Fig. 3 is micro-crystal plate described in the utility model embodiment one, the thermometric end pieces and corresponding insulation branch
Position relationship explosive view between frame;
Fig. 4 is the distribution map of temperature measurement component described in the utility model embodiment one;
Fig. 5 is the schematic diagram of electromagnetic stove temperature measuring equipment described in the utility model embodiment one.
In figure:
1st, micro-crystal plate;11st, heating region;2nd, temperature detecting unit;3rd, coupled capacitor one;31st, the first pole plate;32nd, second
Pole plate;4th, coupled capacitor two;41st, third pole plate;42nd, quadripolar plate;5th, controller;51st, signal generating module;52nd, signal connects
Receipts and processing module;53rd, temperature collecting module;6th, adhesive glue;7th, cookware;8th, insulating support;9th, thermometric end pieces.
Specific embodiment
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.
A kind of electromagnetic stove temperature measuring equipment is present embodiments provided, as depicted in figs. 1 and 2, which includes
At least two temperature measurement components, each temperature measurement component includes temperature detecting unit 2, set on 1 upper surface of electromagnetic stove micro-crystal plate
In heating region 11;Coupled capacitor 1, two-plate are respectively arranged on the upper and lower surface of the micro-crystal plate 1;Coupled capacitor
24, two-plate is respectively arranged on the upper and lower surface of the micro-crystal plate 1;The coupled capacitor one of each temperature measurement component
3rd, the controller 5 of temperature detecting unit 2, coupled capacitor 24 and electromagnetic stove forms series loop.
In the present embodiment, the controller 5 of the electromagnetic stove is usually provided in inside electromagnetic stove, in order to improve the accurate of measurement
Property, temperature detecting unit 2 is set in the heating region 11 of 1 upper surface of micro-crystal plate by the present embodiment, i.e., positioned at electromagnetic stove
It is external.The present embodiment by the coupled capacitor realize be located at electromagnetic stove outside the temperature detecting unit 2 and positioned at electromagnetism
The signal transmission between the controller 5 inside stove, thermometric standard cannot be had both simultaneously by solving existing electromagnetic stove temperature measuring equipment
The problem of true property and property easy to use.
The present embodiment sets at least two temperature measurement components, can be according to each thermometric group using multi-point temperature measurement mode
The temperature level that the temperature detecting unit 2 of part measures, judges whether the temperature of 7 bottom surface each region of cookware identical, such as if it is different,
The power of electromagnetic stove can be reduced so that the temperatures approach of 7 bottom surface each region of cookware is identical, avoids local temperature excessively high and burns
Bad cookware 7.
Specifically, the coupled capacitor 1 is included set on the first pole plate 31 of 1 upper surface of micro-crystal plate and set on institute
The second pole plate 32 stated 1 lower surface of micro-crystal plate and be correspondingly arranged with first pole plate 31;The coupled capacitor 24 includes being set on
It the third pole plate 41 of 1 upper surface of micro-crystal plate and set on 1 lower surface of micro-crystal plate and corresponding with the third pole plate 41 sets
The quadripolar plate 42 put;The first pole plate 31, temperature detecting unit 2 and the third pole plate 41 of each temperature measurement component are gone here and there successively
Connection, the second pole plate 32, the quadripolar plate 42 of each temperature measurement component are electrically connected to the controller 5.
Coupled capacitor 1 described in the present embodiment and coupled capacitor 24 are polarity free capacitor, can realize that alternating-current pulse is believed
Number transmission.
It, just can be into without conducting wire in kind this embodiment simplifies the signal transmission between temperature detecting unit 2 and controller 5
The transmission of row signal, and be easily installed, the other structures of electromagnetic stove will not be impacted, and can be according to the shape of micro-crystal plate
Shape selects corresponding coupled capacitor.
As shown in Fig. 2, in the present embodiment, first pole plate 31, the second pole plate 32, third pole plate 41 and quadripolar plate
42 are pasted onto on the micro-crystal plate 1.Four pole plates are each attached on micro-crystal plate 1 by adhesive glue 6, adhesive glue 6 can make
It is each fixed between pole plate and micro-crystal plate 1, and the air between pole plate and micro-crystal plate 1 can be discharged, avoid pole plate
Because there are dielectric constant is caused to decline during air between micro-crystal plate 1.Bonding the adhesive glue 6 of pole plate and micro-crystal plate 1 needs to select
High-k and the good adhesive glue of heat resistance, in the present embodiment, the adhesive glue 6 for bonding pole plate and micro-crystal plate 1 selects fourth fine
Glue.
First pole plate, 31 and second pole plate 32, third pole plate 41 and quadripolar plate 42 are made of electrically conductive material, institute
State conductive material and can select and be capable of conductive metal or nonmetallic, the present embodiment preferentially select magnetic permeability is low, resistivity it is low with
And conductive material at low cost, to avoid being interfered in the electromagnetic stove course of work by electromagnetic electrothermic.In the present embodiment, the conduction
Material selection aluminium or copper.
The micro-crystal plate 1 is polar substances and temperature is selected to influence to change smaller material to it.With the micro-crystal plate 1 and
The adhesive glue 6 of pole plate and micro-crystal plate 1 is bonded as dielectric, the first pole plate 31 and the second pole plate 32 is made to form the coupled capacitor
One 3, the third pole plate 41 and quadripolar plate 42 form the coupled capacitor 24.The dielectric polarizes under the electric field
Phenomenon so that the capacitance of coupled capacitor improves several times compared to by dielectric of vacuum.In the present embodiment, two coupling electricity
The capacitance calculation formula of appearance is as follows:C=ε S/d, wherein ε are dielectric constant, and S is the face of the end face of face micro-crystal plate 1 on pole plate
Product, d are the distance between opposing end surface of each two pole plates of coupled capacitor.In the present embodiment, due to select dielectric constant compared with
High bonding glue bond pole plate and micro-crystal plate 1, and the thickness very little of adhesive glue 6, therefore the thickness pair of adhesive glue 6 can be ignored
The influence of capacitance.
Due to the electromagnetic oven of electromagnetic heating, closer to 11 center of heating region, temperature is higher, and corresponding 7 face of cookware adds
The temperature that the position at 11 center of thermal region is heated is also higher;And position temperature of the heating region 11 far from its center is relatively
It is low, occur heating non-uniform situation, after much time using, the position at 7 face heating region of cookware, 11 center is easily
Cookware 7 is caused to deform.In order to which each position in 7 bottom of cookware is enable to be cooled uniformly, as shown in figure 4, in the present embodiment, institute
Temperature measurement component is stated equipped at least four, wherein a temperature detecting unit 2 is set on 11 center of heating region, except setting
It is uniformly distributed in the temperature detecting unit 2 outside 11 center of heating region along the circumferential direction of the heating region 11.
Preferably, there are four the temperature measurement component is set, the temperature detecting unit of three temperature measurement components 2 is circumferential be uniformly distributed in it is described
11 periphery of heating region, the temperature detecting unit 2 of a temperature measurement component, which is set on, states 11 center of heating region.
Compare temperature value that the temperature detecting unit 2 set on 11 center of heating region detects in the heating region 11 and
The temperature value detected along the circumferential equally distributed temperature detecting unit 2 of heating region 11, if the difference of two temperature values
Absolute value is more than preset difference value, then reduces the power of the electromagnetic stove, reduces the absolute value of the difference, and slow heating avoids
The bottom of a pan deforms, to reduce the larger influence to 7 service life of cookware of temperature gap, and meanwhile it is easy when solving the sticky food materials of boiling
The problem of being sticking.
Electromagnetic stove temperature measuring equipment described in the present embodiment further includes the buzzer siren for the controller 5 for being connected to electromagnetic stove.Such as
If heating power reduce a period of time after the difference absolute value still always be more than preset difference value in the case of or certain
The measured value of a temperature detecting unit 2 does not change always, it is determined that cookware 7 is placed off heating region 11, the buzzing
Alarm work makes a sound alarm, and user's cookware 7 is reminded to deviate heating region 11.
By setting four temperature measurement components, it can ensure that cookware 7 is placed on by stable on micro-crystal plate 1, be not in put
Put unbalanced situation.
It is each described in order to avoid electromagnetic heating impacts coupled capacitor since electromagnetic stove is using electromagnetic heating
The coupled capacitor 1 and coupled capacitor 24 of temperature measurement component be set on the heating region 11 outside, it is ensured that signal transmission it is accurate
Property.
The temperature detecting unit 2 is thermistor, thermometer resistor, semiconductor transducer, capacitance type sensor or electricity
Sensing type sensor.Preferably, the temperature detecting unit 2 selects the fireballing thermistor of temperature-responsive, can further carry
The accuracy of high measurement.
As shown in figure 3, in the present embodiment, first pole plate 31 of each temperature measurement component, temperature detecting unit 2 with
And third pole plate 41 forms a thermometric end pieces 9;The temperature measurement component, which further includes, is covered in the thermometric end pieces 9 far from described
The insulating support 8 of 1 upper surface side of micro-crystal plate.By the way that insulating support 8 is set to prevent the coupled capacitor 1 and the coupling electricity
It is interfered between holding 24 by circuit and causes short-circuit conducting, since the insulating support 8 is insulation, insulation branch can be prevented
Frame 8 is by electromagnetic heating.In the present embodiment, cookware 7 is positioned on the insulating support 8, by being set to the insulating support 8
Temperature detecting unit 2 between micro-crystal plate 1 measures the temperature of 7 bottom of cookware.
Insulating support 8 is made from a material that be thermally conductive described in the present embodiment, and the thickness of the insulating support 8 is 0.8mm-1.2mm,
By setting the smaller insulating support 8 of thickness that insulating support 8 is avoided to impact temperature survey accuracy.The insulating support
8 end faces for pasting the thermometric end pieces 9 are equipped with heat-conducting silicone grease, to improve heat conductivility.In the present embodiment, the insulating support
8 are attached to the upper surface of micro-crystal plate 1 using the good gluing of heat resistance.By setting insulating support 8 being capable of the inspection of effective protection temperature
Unit 2 is surveyed, plays the effect of dustproof and waterproof.
In the present embodiment, the controller 5 includes signal generating module 51, high for emitting to the coupled capacitor 1
Frequency signal;Signal receives and processing module 52, for receiving the coupled signal of the corresponding coupled capacitor 24, and to described
Coupled signal carries out flat wave voltage stabilizing and enhanced processing forms analog signal;And temperature collecting module 53, identify the simulation
Signal, and the analog signal is converted into numerical signal.
As shown in figure 5, signal generating module 51 described in the present embodiment being capable of tranmitting frequency and the fixed height of voltage magnitude
Frequency square-wave pulse signal, leads to the physical characteristic of high-frequency signal using capacitance, high-frequency signal can smoothly by coupled capacitor without
Generate distortion.The chip that can emit pulse signal may be used in the signal generating module 51, can also use pulse signal
Control circuit.
Coupling of the high frequency square wave pulse signal Jing Guo coupled capacitor 1, arrival are connected on 1 upper surface of micro-crystal plate center
The thermistor of the heart, in the electromagnetic stove course of work, cookware 7 is positioned over the surface of heating region 11, the resistance of the thermistor
Value variation with temperature and change, the voltage magnitude of high frequency square wave pulse signal can also change with the variation of resistance value,
To form measuring signal, the measuring signal is coupled to signal reception and processing module 52 by coupled capacitor 24, steady by flat wave
The analog signal that temperature collecting module 53 can identify is formed after pressure and enhanced processing, the analog signal passes through temperature acquisition
The A/D module of module 53 is converted into digital signal, achievees the purpose that identify temperature.
The present embodiment additionally provides a kind of electromagnetic stove, the housing including being equipped with opening, and opening one is equipped with set on the housing
The micro-crystal plate 1 of side and above-mentioned electromagnetic stove temperature measuring equipment, the housing and the micro-crystal plate 1, which are formed, places the controller 5
Installation cavity.Signal transmission between controller 5 and temperature detecting unit 2 is realized by coupled capacitor, without conducting wire in kind,
Improve the accuracy of thermometric.
Obviously, above-described embodiment of the utility model is used for the purpose of clearly illustrating the utility model example, and
It is not the restriction to the embodiment of the utility model.For those of ordinary skill in the art, in above description
On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments
It is exhaustive.All any modification, equivalent and improvement made within the spirit and principles of the present invention etc., should be included in
Within the protection domain of the utility model claims.
Claims (10)
1. a kind of electromagnetic stove temperature measuring equipment, which is characterized in that including at least two temperature measurement components, each temperature measurement component includes
Temperature detecting unit (2), in the heating region (11) of electromagnetic stove micro-crystal plate (1) upper surface;
Coupled capacitor one (3), two-plate are respectively arranged on the upper and lower surface of the micro-crystal plate (1);And
Coupled capacitor two (4), two-plate are respectively arranged on the upper and lower surface of the micro-crystal plate (1);
Each control of the coupled capacitor one (3) of the temperature measurement component, temperature detecting unit (2), coupled capacitor two (4) and electromagnetic stove
Device (5) processed forms series loop.
2. electromagnetic stove temperature measuring equipment according to claim 1, which is characterized in that the coupled capacitor one (3) is including being set on
The first pole plate (31) of micro-crystal plate (1) upper surface and set on the micro-crystal plate (1) lower surface and with first pole plate
(31) the second pole plate (32) being correspondingly arranged;
The coupled capacitor two (4) is including being set on the third pole plate (41) of the micro-crystal plate (1) upper surface and set on the crystallite
Plate (1) lower surface and the quadripolar plate (42) being correspondingly arranged with the third pole plate (41);
The first pole plate (31), temperature detecting unit (2) and the third pole plate (41) of each temperature measurement component are sequentially connected in series, often
Second pole plate (32) of a temperature measurement component, quadripolar plate (42) are electrically connected to the controller (5).
3. electromagnetic stove temperature measuring equipment according to claim 1, which is characterized in that the temperature measurement component is equipped at least four,
The temperature detecting unit (2) of wherein one temperature measurement component set on the heating region (11) center, except set on described plus
The temperature detecting unit (2) of the temperature measurement component outside thermal region (11) center is circumferential uniformly along the heating region (11)
Distribution;
The coupled capacitor one (3) and coupled capacitor two (4) of each temperature measurement component are set on the heating region (11) outside.
4. electromagnetic stove temperature measuring equipment according to claim 2, which is characterized in that first pole plate (31), the second pole plate
(32), third pole plate (41) and quadripolar plate (42) are pasted onto on the micro-crystal plate (1).
5. electromagnetic stove temperature measuring equipment according to claim 2, which is characterized in that described the first of each temperature measurement component
Pole plate (31), temperature detecting unit (2) and third pole plate (41) form thermometric end pieces (9);
The temperature measurement component, which further includes, is covered in the exhausted of the separate micro-crystal plate (1) the upper surface side of the thermometric end pieces (9)
Edge stent (8);
Cookware (7) is positioned on the insulating support (8).
6. electromagnetic stove temperature measuring equipment according to claim 5, which is characterized in that the insulating support (8) is by Heat Conduction Material
It is made, and it pastes the end face of the thermometric end pieces (9) equipped with heat-conducting silicone grease.
7. electromagnetic stove temperature measuring equipment according to claim 1, which is characterized in that the controller (5) includes:
Signal generating module (51), for emitting high-frequency signal to the coupled capacitor one (3);
Signal receives and processing module (52), for receiving the coupled signal of the corresponding coupled capacitor two (4), and to described
Coupled signal carries out flat wave voltage stabilizing and enhanced processing forms analog signal;And
Temperature collecting module (53) identifies the analog signal, and the analog signal is converted to numerical signal.
8. electromagnetic stove temperature measuring equipment according to claim 1, which is characterized in that the micro-crystal plate (1) is polar substances.
9. electromagnetic stove temperature measuring equipment according to claim 1, which is characterized in that the temperature detecting unit (2) is temperature-sensitive
Resistance, thermometer resistor, semiconductor transducer, capacitance type sensor or inductance type transducer.
10. a kind of electromagnetic stove, including being equipped with the housing of opening and the micro-crystal plate (1) of opening side being equipped with set on the housing,
It is characterized in that, further includes any electromagnetic stove temperature measuring equipment of claim 1 to 9, the housing and the micro-crystal plate (1) shape
Into the installation cavity for placing the controller (5).
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CN201721469292.9U CN207569931U (en) | 2017-11-07 | 2017-11-07 | A kind of electromagnetic stove temperature measuring equipment and electromagnetic stove |
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CN201721469292.9U CN207569931U (en) | 2017-11-07 | 2017-11-07 | A kind of electromagnetic stove temperature measuring equipment and electromagnetic stove |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108758717A (en) * | 2018-07-25 | 2018-11-06 | 佛山市顺德区美的洗涤电器制造有限公司 | System for detecting temperature and cooking stove with it |
CN109848396A (en) * | 2019-03-19 | 2019-06-07 | 福建鼎厨王厨具有限公司 | A kind of split type bottom plate die-casting process of aluminum pot |
CN111076238A (en) * | 2018-10-18 | 2020-04-28 | 深圳市敏杰电子科技有限公司 | Temperature measurement system and induction cooker temperature measurement system comprising same |
CN111550840A (en) * | 2020-05-14 | 2020-08-18 | 珠海格力电器股份有限公司 | Induction cooker cooking method and device, induction cooker and cooking system |
CN111550835A (en) * | 2019-02-12 | 2020-08-18 | 陈景超 | Heating device with temperature measuring circuit and control method thereof |
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2017
- 2017-11-07 CN CN201721469292.9U patent/CN207569931U/en active Active
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108758717A (en) * | 2018-07-25 | 2018-11-06 | 佛山市顺德区美的洗涤电器制造有限公司 | System for detecting temperature and cooking stove with it |
CN108758717B (en) * | 2018-07-25 | 2023-09-08 | 佛山市顺德区美的洗涤电器制造有限公司 | Temperature detection system and cooking stove with same |
CN111076238A (en) * | 2018-10-18 | 2020-04-28 | 深圳市敏杰电子科技有限公司 | Temperature measurement system and induction cooker temperature measurement system comprising same |
CN111550835A (en) * | 2019-02-12 | 2020-08-18 | 陈景超 | Heating device with temperature measuring circuit and control method thereof |
CN109848396A (en) * | 2019-03-19 | 2019-06-07 | 福建鼎厨王厨具有限公司 | A kind of split type bottom plate die-casting process of aluminum pot |
CN111550840A (en) * | 2020-05-14 | 2020-08-18 | 珠海格力电器股份有限公司 | Induction cooker cooking method and device, induction cooker and cooking system |
CN111550840B (en) * | 2020-05-14 | 2021-06-11 | 珠海格力电器股份有限公司 | Induction cooker cooking method and device, induction cooker and cooking system |
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