CN201211116Y - Electronic control system of electric kettle - Google Patents

Abstract

The utility model discloses an electronic control system for an electric kettle, which comprises a signal processing unit, a signal acquisition unit and a heating unit, wherein the signal acquisition unit comprises a water temperature detection circuit used to measure water temperature and a steam detection circuit used to measure steam temperature on the water surface; the signal processing unit receives voltage information which is acquired by the water temperature detection circuit and the water temperature detection circuit and represents the temperature; by judging whether the temperature difference between the water temperature and the steam temperature on the water surface is smaller than a preset value of the temperature difference, or by judging whether the water temperature detected within a preset time interval is constant, the signal processing unit transfers a control signal to the heating unit to control the on/off of the heating unit and further realize the automatic adjustment of water boiling temperature under different environmental pressures so as to adapt to the needs of water boiling judgment of different areas; and the installation of a vacant combustion protector ensures that the vacant combustion protector automatically cuts off the heating unit when the heating unit heats the vacant combustion protector to the temperature of between 105 and 111 DEG C, thereby protecting the electric kettle.

Description

A kind of electronic control system of insulating pot

Technical field

The utility model relates to a kind of electric-heating technology, especially relates to a kind of electronic control system of insulating pot.

Background technology

The appearance of insulating pot brings great convenience for people's live and work, and commercially available modal insulating pot is that annular electrical heating elements is installed in the abdominal cavity of kettle body, and water is opened the back by artificial outage, need be on duty, and careless easy damage electrical heating elements; Someone installs the mechanical warning vapour whistle at pot lid or Hu Zuichu, but people still can not away from.

For addressing the above problem, various insulating pot and the heating control technology of utilizing temperature controller to heat have appearred, as disclosed Chinese utility model patent on December 16th, 1992 " a kind of temperature-control electric kettle " (CN2124644) a kind of temperature-control electric kettle disclosed, this insulating pot is the temperature sensor that direct-reading temperature control range regulation mechanism is arranged that a live contact is installed on the Hu Bi of common electrical kettle, this temperature sensor links to each other with the controlled end of a thermostat by pilot, and the drive end of thermostat is directly controlled the break-make of electric heater power supply; This thermostat also is provided with a manual constant temperature self-locking switch for circuit breaking, it when this switch is in off-state automatic constant-temperature, temperature regulable outage locking when switch is in closure state is finished automatic constant-temperature, automatic constant temperature outage locking dual-use function thereby allow boiled water cool off naturally.But the operation principle of this insulating pot mainly also is based on the mechanical schemes of bimetal leaf, utilizes elastic sheet metal to control temperature, and the temperature range deviation is bigger, and is still not too convenient by the manual adjustment temperature range.

Disclosed Chinese utility model patent on March 22 nineteen ninety-five " automatic control electronics insulating pot " (CN2192255) discloses a kind of automatic control electronics insulating pot, in the kettle body of this insulating pot electrical heating elements is housed, kettle body lower end is a base, electric-connected socket is housed on the base, temperature, lack of water sensor also are housed in the kettle body, and sky that is loaded in the base burns and water boils, and automatic control circuit is connected with sensor as aforementioned and heating.This insulating pot economize on electricity, long service life helps improving drinking water quality, can influence water quality but the sensor in this insulating pot is installed in interior the contact with water of kettle, and only rely on detected temperature to control heating, under extreme fortuitous event, lacks safeguard protection.

Disclosed Chinese invention patent on March 22nd, 2006 " control method of electric kettle " (CN1749897) discloses a kind of control method of electric kettle, and temperature sensor, microprocessor and control circuit are set in electric kettle; Temperature sensor detects the temperature of water in the electric kettle in real time behind the power-up initializing, and detection signal is delivered to microprocessor; Microprocessor is determined default value; Detect the switching state of heater circuit, to continuous timing heat time heating time; Judge keeping warm mode, to insulation heating cycle and insulation timing heat time heating time; Whether the temperature-sensing element that detects measurement point operate as normal; Carrying out anti-dry detects and controls; Judge heating or insulation request; Send the signal of heating or insulation to control circuit, and heat or preservation and controlling; After finishing, heating or insulation get back to init state.This control method adopts microprocessor will detect the temperature in the electric kettle, the on off operating mode of determining default value, detection heater circuit, judgement keeping warm mode, anti-dry detection and control, heat and be incubated each control procedure; carry out integral body control comprehensively; utilize constantly refreshing of microprocessor; realized the accurate control of each course of work of electric kettle; the convenient use; but under the malfunctioning and extreme fortuitous event of circuit; this control method can't be carried out safeguard protection, may have serious potential safety hazard in actual use.

All there is two large problems in above-mentioned various solution: when one, above-mentioned insulating pot or control method were applied to different regions (having different environmental pressures), can not conform needed and judges effectively whether water has been opened; Two, under the malfunctioning and extreme fortuitous event of circuit, above-mentioned insulating pot or control method lack safeguard protection, may have serious potential safety hazard in actual use.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of setting that can adjust the boiling water temperature according to the change of environmental pressure automatically, and the electronic control system of insulating pot easy to use, simple in structure.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: a kind of electronic control system of insulating pot, comprise signal processing unit and the signal collection unit and the heating unit that are connected with described signal processing unit, described signal collection unit comprises the steam testing circuit that is used to measure the water temperature testing circuit of water temperature and is used to measure water surface vapor (steam) temperature, described water temperature testing circuit is close under the bottom surface that is arranged on the insulating pot body and away from described heating unit, described steam testing circuit is arranged in the insulating pot handle, and described water temperature testing circuit is connected with described signal processing unit respectively with described steam testing circuit; Described signal processing unit receives the information of voltage of the representation temperature of described water temperature testing circuit and the collection of described steam testing circuit, by judging whether the temperature difference between water temperature and the water surface vapor (steam) temperature sets value less than the temperature difference, perhaps by judging whether detected water temperature is invariable in the time interval of setting, obtain water temperature and whether reach the boiling water temperature, by described signal processing unit control signal is transferred to heating unit, control the electric break-make of described heating unit, under different environmental pressures, realize the automatic adjustment of boiling water temperature.

Described temperature difference setting value is for ± 2 ℃; The time interval of described setting is 30 seconds.

Be close under the bottom surface of described insulating pot body the free protector that burns is set; described empty first end that burns protector is by being arranged on the power interface incoming transport electricity on the insulating pot base, and described empty second end and the described heating unit that burns protector interconnects by a road in the power circuit.

Described heating unit comprises heating element heater and heating control circuit; described heating control circuit is controlled the on off operating mode of described heating element heater by described control signal; described power circuit is to be arranged on described heating control circuit and the described empty step-down rectifying circuit that burns between the protector; be used for to be converted to by the alternating current that power interface inserts driving power that drives described heating control circuit work and the working power that is used for this electronic control system.

Described signal processing unit comprises microprocessor and clock signal circuit, is preset with indexed variable in the described microprocessor, and described indexed variable comprises that constant temperature is provided with indexed variable, closes indexed variable and boiling water indexed variable.

Described signal processing unit is provided with the described microprocessor that resets when working power the is undesired power monitoring chip that resets.

Described microprocessor also is connected with key circuit, LED display circuit, temperature display circuit and sound instruction circuit, described key circuit be arranged on the insulating pot handle on the heating start button, the heating close key be connected with the constant temperature key, described constant temperature key cooperates described heating start button and described heating close key to have the function that plus-minus is adjusted thermostat temperature, by the default thermostat temperature setting value of the cooperation of described constant temperature key, described heating start button and described heating close key; Described temperature display circuit comprises the LCDs that is arranged on the insulating pot handle, and described LCDs is used to show water temperature and water surface vapor (steam) temperature or at constant temperature water temperature and thermostat temperature setting value under the state is set; When detected water temperature surpasses 103 ± 1 ℃, be defined as empty the burning; The thermostat temperature setting value is 0 ℃～99 ℃, when thermostat temperature setting value is 0 ℃ or when being lower than environment temperature, close the constant temperature function automatically, be higher than the boiling water temperature of 99 ℃ of less thaies under the current environment when the thermostat temperature setting value, and when not detecting empty the burning, heating unit will be in heated condition all the time.

When the heating of the heating element heater in the described heating unit made described empty temperature of burning protector reach 108 ± 3 ℃, the described empty protector that burns cut off described heating unit automatically.

Compared with prior art, advantage of the present utility model is that the signal collection unit comprises the steam testing circuit that is used to measure the water temperature testing circuit of water temperature and is used to measure water surface vapor (steam) temperature, by judging whether the temperature difference between water temperature and the water surface vapor (steam) temperature sets value less than the temperature difference, perhaps by judging whether detected water temperature is invariable in the time interval of setting, the setting of boiling water temperature is adjusted in the change that is implemented in environmental pressure down automatically, adapts to the needs of the boiling water judgement of different regions (different environmental pressures); The free protector that burns is set in electronic control system, and when the heating element heater heating makes empty temperature of burning protector reach 108 ± 3 ℃, the empty protector that burns will cut off heating unit automatically, avoid entire circuit malfunctioning, protect electronic control system effectively.

Description of drawings

Fig. 1 is the structured flowchart of electronic control system of the present utility model;

Fig. 2 is the empty circuit diagram that burns protector, step-down rectifying circuit and heating control circuit of the present utility model;

Fig. 3 is the circuit diagram of key circuit of the present utility model;

Fig. 4 is the circuit diagram of sound instruction circuit of the present utility model;

Fig. 5 is the circuit diagram of LED display circuit of the present utility model;

Fig. 6 is the reset circuit diagram of chip of signal processing unit of the present utility model, signal collection unit and power monitoring;

Fig. 7 is the circuit diagram of temperature display circuit of the present utility model;

Fig. 8 is the control procedure schematic diagram of microprocessor of the present utility model;

Fig. 9 is that microprocessor generation AD of the present utility model measures the process schematic diagram when interrupting.

The specific embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

A kind of electronic control system of insulating pot, this electronic control system is mainly used in wireless insulating pot, wireless insulating pot can be the insulating pot of 3kW/220V or following power, wireless insulating pot generally includes the base (not shown) that is used to hold the body (not shown) of water and is provided with control circuit, body is provided with the handle (not shown), and base is provided with the power interface (not shown).Shown in Fig. 1～7, this electronic control system is a Process Control System, it comprises signal processing unit 1 and signal collection unit 2 that is connected with signal processing unit 1 and heating unit 3, signal processing unit 1 is arranged in the wireless insulating pot handle, and heating unit 3 is arranged in the wireless insulating pot base; Signal collection unit 2 comprises the steam testing circuit 22 that is used to measure the water temperature testing circuit 21 of water temperature and is used to measure water surface vapor (steam) temperature, water temperature testing circuit 21 is close under the bottom surface that is arranged on wireless insulating pot body and as far as possible away from the heating element heater in the heating unit 3 31, steam testing circuit 22 is arranged in the wireless insulating pot handle, obtains water surface vapor (steam) temperature by detecting the temperature that flows into the steam in the handle nearby.Signal collection unit 2 collecting temperature information also are converted into the signal of telecommunication and are transferred to signal processing unit 1, by judging that whether the temperature difference between water temperature and the water surface vapor (steam) temperature is less than setting value, perhaps by judging whether detected water temperature is invariable in the time interval of setting, by signal processing unit 1 control signal is transferred to heating unit 3, the electric break-make of control heating unit 3; The temperature difference between water temperature and water surface vapor (steam) temperature sets value less than the temperature difference, when perhaps detected water temperature is invariable in the time interval of She Dinging, can determine that the interior water of wireless insulating pot is by boiled, realize under the change of environmental pressure, adjusting automatically the setting of boiling water temperature, adapted to the needs of different regions judgement boiling water temperature.The production technology of the test point of the test point of temperature difference setting value and water temperature and water surface vapor (steam) temperature is relevant in the present embodiment, and the temperature difference under the common process between water temperature and the water surface vapor (steam) temperature may be selected to be ± and 2 ℃, promptly temperature difference setting value is ± 2 ℃; The time interval of setting is relevant with the power and the capacity of insulating pot, and power is that 1kW and capacity are the time interval of setting under 1.2 liters of situations to may be selected to be 30 seconds, and promptly the time interval of She Dinging is 30 seconds.

The bottom surface of wireless insulating pot body tightens to be sticked and is equipped with the empty protector F1 that burns, this sky burns protector as far as possible away from the heating element heater in the heating unit 3 31, empty first end that burns protector F1 inserts 220V alternating current (civil power) by the power interface that is arranged on the wireless insulating pot base, and empty second end and the heating unit 3 that burns protector F1 interconnects by a road of power circuit 5; This example hollow is burnt protector F1 and is selected integrated resettable fuse device KSD301 for use, and when 31 heating of the heating element heater in the heating unit 3 made the temperature of the burning protector F1 that has leisure reach 108 ± 3 ℃, the empty protector F1 that burns cut off heating unit 3 automatically.

Above-mentioned signal processing unit 1 comprises microprocessor IC3 (being MCU) and the clock signal circuit 11 that is used with microprocessor IC3, be preset with indexed variable among the microprocessor IC3, indexed variable comprises that constant temperature is provided with indexed variable, closes indexed variable and boiling water indexed variable.Microprocessor IC3 employing model is the single-chip microcomputer of MDT2051 in the present embodiment, and its inside is provided with the AD converter (ADC, Analog to Digit Converter) with 8 certainties of measurement; Clock signal circuit 11 comprises crystal oscillator AT, the 6th capacitor C 6 and the 7th capacitor C 7, the equal ground connection of first end of first end of the 6th capacitor C 6 and the 7th capacitor C 7, crystal oscillator AT is arranged between second end of second end of the 6th capacitor C 6 and the 7th capacitor C 7, and the public connecting end of the public connecting end of the 6th capacitor C 6 and crystal oscillator AT and the 7th capacitor C 7 and crystal oscillator AT is connected with pin OSC2 and the OSC1 of microprocessor IC3 respectively.

Above-mentioned heating unit 3 comprises heating element heater 31 and heating control circuit 32, and heating control circuit 32 is by the on off operating mode of control signal control heating element heater 31.Above-mentioned power circuit 5 is for being arranged on heating control circuit 32 and the empty step-down rectifying circuit that is provided with between the protector F1 that burns, and the 220V alternating current that step-down rectifying circuit is used for inserting by power interface is converted to the working power 4 that is used to drive the driving power of heating control circuit 32 work and is used for this electronic control system work.Heating control circuit 32 comprises the first triode Q1, the 14 resistance R 14 and relay J 1, is connected with the 5th diode D5 on the relay J 1.Step-down rectifying circuit 5 comprises the bridge rectifier 51 that exchanges small-sized magnetic saturation transformer T1 and be made up of the first diode D1, the second diode D2, the 3rd diode D3 and the 4th diode D4, and step-down rectifying circuit 5 uses and exchanges small-sized magnetic saturation transformer T1 to stablize VD.Exchange between second end of elementary and empty burning protector F1 of small-sized magnetic saturation transformer T1 and be provided with first capacitor C 1; the two ends of first capacitor C 1 have been arranged in parallel first resistance R 1; bridge rectifier 51 is connected with small-power three terminal regulator IC1; the earth terminal GND ground connection of small-power three terminal regulator IC1; the input Vin of small-power three terminal regulator IC1 is connected with the negative terminal of bridge rectifier 51 and the 5th diode D5 and the public connecting end of relay J 1 respectively; be provided with second capacitor C 2 between the input Vin of small-power three terminal regulator IC1 and the ground; be provided with the 3rd capacitor C 3 and the 4th capacitor C 4 between the output end vo ut of small-power three terminal regulator IC1 and the ground; the colelctor electrode of the first triode Q1 is connected with the public connecting end of the 5th diode D5 and relay J 1; the grounded emitter of the first triode Q1, the base stage of the first triode Q1 is connected with microprocessor IC3 by the 14 resistance R 14.The model of present embodiment middle low power three terminal regulator IC1 is 78L05; First capacitor C 1 is a decompression capacitor; Second capacitor C 2, the 3rd capacitor C 3 and the 4th capacitor C 4 are filter capacitor.Through the empty 220V alternating current that burns protector F1, by becoming the 80V alternating voltage after 1 step-down of first capacitor C, first resistance R 1 is used to discharge the electric charge on first capacitor C 1, inserting primary voltage is that 80V alternating voltage and transformation ratio are the small-sized magnetic saturation transformer of the interchange T1 of 10:1, also can to keep its elementary voltage 80V substantially constant for transformer T1 when fluctuation takes place alternating current (civil power), the secondary voltage 8V of transformer T1 obtains the DC voltage of about 9V after process bridge rectifier 51 is by 2 filtering of second capacitor C, the 9V DC voltage is used to drive heating control circuit 32 work; The 9V DC voltage obtains stable 5V DC voltage through the further voltage stabilizing and the filtering of small-power three terminal regulator IC1 and the 3rd capacitor C 3 and the 4th capacitor C 4, as the working power 4 of whole electronic control system.

Above-mentioned signal processing unit 1 is provided with the microprocessor IC3 that resets when 5V working power 4 the is undesired power monitoring chip IC2 that resets, microprocessor IC3 and power monitoring reset and are provided with the tenth resistance R 10 and the 11 resistance R 11 between the chip IC2.The reset model of chip IC2 of power monitoring is CAT1022 in the present embodiment, its inside has E2PROM (being a kind of memory of can online electricity wiping with electronically written), the various parameters that are used for storage system, and the microprocessor IC3 that resets when working power 4 is undesired is in case wrong control occurs; The tenth resistance R 10 and the 11 resistance R 11 dividing potential drop working powers 4 backs provide reference voltage by microprocessor IC3 for AD converter.

Above-mentioned water temperature testing circuit 21 comprises the 12 resistance R 12 and the first thermistor RT1; Steam testing circuit 22 comprises the 13 resistance R 13 and the second thermistor RT2.According to the temperature characterisitic of thermistor self, temperature survey will reach 1 ℃ certainty of measurement under 0 ℃～100 ℃ situations, needs 10 AD certainty of measurement at least; Owing to represent the voltage of water temperature and water surface vapor (steam) temperature to have small random fluctuation, though the certainty of measurement of the AD converter of microprocessor IC3 inside has only 8, obtain the AD certainty of measurement that mean value can reach 10 by repeatedly measuring more than 50 times.

Microprocessor IC3 also is connected with key circuit 6, LED (Light Emitting Diode, light emitting diode) display circuit 7, temperature display circuit 8 and sound instruction circuit 9.

Above-mentioned key circuit 6 and heating start button (on) S1 that is arranged on the wireless insulating pot handle, heating close key (off) S2 is connected with constant temperature key (keep) S3, constant temperature key S3 and heating start button (on) S1, heating close key (off) cooperates the function with plus-minus adjustment thermostat temperature (step value is ± 1 ℃), can preset the thermostat temperature setting value, the thermostat temperature setting value can be by artificial setting in environment temperature and boiling water temperature range, thermostat temperature setting value is 0 or closes the constant temperature function when being lower than environment temperature automatically, when thermostat temperature setting value is higher than the boiling water temperature of 99 ℃ of less thaies under the current environment, unless detect empty the burning, otherwise heating element heater 31 will be in heated condition all the time; The equal ground connection of first end of heating start button S1, heating close key S2 and constant temperature key S3; Different buttons inserts different resistance, second end of heating start button S1 is connected with the 3rd resistance R 3, second end of heating close key S2 is connected with the 4th resistance R 4, second end of constant temperature key S3 is connected with the 5th resistance R 5, be provided with the 5th capacitor C 5 between the public connecting end of the 3rd resistance R 3, the 4th resistance R 4 and the 5th resistance R 5 and the ground, and be provided with second resistance R 2 between the working power 4, and connect to introduce different voltage with microprocessor IC3, the AD converter of microprocessor IC3 inside carries out AD to the voltage of introducing and measures.

Above-mentioned LED display circuit 7 comprises the six diode D6 corresponding with heating start button S1, corresponding the 7th diode D7 and the eight diode D8 corresponding with constant temperature key S3 with heating close key S2, first end of the 6th diode D6, the 7th diode D7 and the 8th diode D8 is connected with working power 4 with the 9th resistance R 9 by the 7th resistance R 7, the 8th resistance R 8 respectively, and second end of the 6th diode D6, the 7th diode D7 and the 8th diode D8 is connected with microprocessor IC3 respectively.The 6th diode D6, the 7th diode D7 and the 8th diode D8 are light emitting diode (LED); By microprocessor IC3 difference output low level, be used to drive the 6th diode D6, the 7th diode D7 and the luminous indication of the 8th diode D8.

Temperature display circuit 8 comprises the LCDs LCD on the handle that is arranged on wireless insulating pot, and LCDs LCD adopts general Liquid Crystal Module EDM1190A in the present embodiment.LCDs LCD is used to show water temperature and water surface vapor (steam) temperature or at constant temperature water temperature and thermostat temperature setting value under the state is set by microprocessor IC3 control; When detected water temperature surpasses 103 ± 1 ℃, be defined as empty the burning; The thermostat temperature setting value is 0 ℃～99 ℃, when thermostat temperature setting value is 0 ℃ or when being lower than environment temperature, close the constant temperature function automatically, be higher than the boiling water temperature of 99 ℃ of less thaies under the current environment when the thermostat temperature setting value, and when not detecting empty the burning, heating unit will be in heated condition all the time.Left side two digits is used to show dynamic water temperature among the LCDs LCD in the present embodiment, and right side two digits is used to show water surface vapor (steam) temperature; Be provided with under the state of thermostat temperature, the right two digits is used to show the thermostat temperature setting value that is being provided with.Show 0 ℃ when each temperature is lower than 0 ℃, and show when being higher than 99 ℃--℃.

Tut indicating circuit 9 comprises buzzer (BELL) U1 and the second triode Q2, first end of buzzer U1 is connected with working power 4, second end of buzzer U1 is connected with the colelctor electrode of the second triode Q2, the grounded emitter of the second triode Q2, the base stage of the second triode Q2 is connected with microprocessor IC3 by the 6th resistance R 6., drive buzzer U1 and pipe to its input low level by microprocessor IC3, realize the sound indication.

When this electronic control system is applied to insulating pot, all functional parts should be installed in as far as possible in the insulating pot handle and and heater block between should keep certain safe distance, to guarantee not and can destroy because of heat or other variations produce the accuracy of signal transduction process.

Be applied to the electronic control method of above-mentioned electronic control system, as shown in Figure 8, it may further comprise the steps:

A. the hardware circuit of electronic control system and the software environment of microprocessor IC3 are carried out power-up initializing;

B. default constant temperature is provided with indexed variable, closes indexed variable and boiling water indexed variable in the microprocessor IC3 of signal processing unit 1;

C. utilize water temperature testing circuit 21 to detect the water temperatures of water in the insulating pots in real time, and water temperature is converted to the signal of telecommunication is transferred to the microprocessor IC3 of signal processing unit and carries out AD and measure; In the present embodiment water temperature is carried out 50 times and measure, obtain mean value as the water temperature that measures, water temperature is because average value benefits can reach the certainty of measurement more than 10;

The water temperature that measures can show by temperature display circuit 8;

D. judge among the microprocessor IC3 whether close indexed variable effective, if effectively, then cut off heating unit 3, and return execution in step c; Otherwise, continue to carry out;

E. judge whether the boiling water indexed variable among the microprocessor IC3 is effective, if the boiling water indexed variable is effective, judge then whether the thermostat temperature setting value is 0 ℃, if be 0 ℃, then return execution in step c, if be not 0 ℃, then when water temperature exceeds the thermostat temperature setting value, cut off heating unit 3 and also return execution in step c, when water temperature does not exceed the thermostat temperature setting value, keep heating unit 3 and heat and return execution in step c; If the boiling water indexed variable is invalid, then continue to carry out;

F. judge whether water temperature surpasses 103 ± 1 ℃, if surpass, then be defined as empty the burning, indexed variable is closed in set, and cuts off heating unit 3 and return execution in step c; Otherwise, continue to carry out;

G. utilize steam testing circuit 22 to detect water surface vapor (steam) temperatures, and water surface vapor (steam) temperature is converted to the signal of telecommunication is transferred to the microprocessor IC3 of signal processing unit and carries out AD and measure; In the present embodiment water surface steam is carried out 50 times and measure, obtain mean value as the water surface vapor (steam) temperature that measures, water surface vapor (steam) temperature is because average value benefits can reach the certainty of measurement more than 10;

H. microprocessor IC3 judges whether the temperature difference between water temperature and the water surface vapor (steam) temperature sets value less than the temperature difference, and this temperature difference setting value is ± 2 ℃, if less than temperature difference setting value, determines that then water is by boiled and set boiling water indexed variable; Perhaps microprocessor IC3 judges whether detected water temperature is constant in the time interval of setting, and this setting-up time is spaced apart 30 seconds, if water temperature is invariable, determines that then water is by boiled and set boiling water indexed variable; If water is driven then the buzzer of sound instruction circuit 9 and sent water and open sound, cut off heating unit 3 and also return execution in step c; Otherwise, keep heating unit 3 and heat and return execution in step c.

When 31 heating of the heating element heater in the heating unit 3 made empty temperature of burning protector F1 reach 108 ± 3 ℃, the empty protector F1 that burns cut off heating unit 3 automatically.

Heating start button S1, heating close key S2 inserts different resistance with constant temperature key S3, when microprocessor IC3 detects heating start button S1, when heating close key S2 or constant temperature key S3 press, button is introduced voltage to microprocessor IC3, AD converter by microprocessor IC3 inside carries out the AD measurement to the voltage of introducing, measure and represent the signal of telecommunication of the button input of pressing to obtain corresponding measured value, microprocessor IC3 produces the AD measurement and interrupts entering break in service, in break in service, determine corresponding key according to different measured values, interrupt service routine is as shown in Figure 9, and is specific as follows:

1), judge whether constant temperature among the microprocessor IC3 is provided with indexed variable effective, if effectively, then execution in step 2), otherwise, continue to carry out;

1a), judge whether to be heating start button S1, heating close key S2 or constant temperature key S3,, then directly interrupt returning if be illegal value according to measured value, otherwise, according to the function difference execution in step 1b of different buttons), step 1c) or step 1d);

1b), if heating start button S1 is effective, remove among the microprocessor IC3 close indexed variable and boiling water indexed variable after interrupt returning;

1c), if heating close key S2 is effective, among the set microprocessor IC3 close indexed variable after interrupt returning;

1d), if constant temperature key S3 effective, the constant temperature among the set microprocessor IC3 interrupts returning after indexed variable is set;

2), judge whether to be heating start button S1 according to measured value, if heating start button S1 then adjusts the thermostat temperature setting value and makes it increase by 1 degree back to interrupt returning, the thermostat temperature setting value is the highest to be no more than 99 ℃; Otherwise, continue to carry out;

3), judge whether to be heating close key S2 according to measured value, if heating close key S2 then adjusts the thermostat temperature setting value and makes it reduce 1 degree back to interrupt returning, the thermostat temperature setting value is minimum to be not less than 0 ℃; Otherwise, continue to carry out;

4), judge whether to be constant temperature key S3, if constant temperature key S3 then removes and interrupts returning after constant temperature among the microprocessor IC3 is provided with indexed variable according to measured value; Otherwise, directly interrupt returning.

Claims (8)

1, a kind of electronic control system of insulating pot, comprise signal processing unit and the signal collection unit that is connected with described signal processing unit, heating unit, it is characterized in that described signal collection unit comprises the steam testing circuit that is used to measure the water temperature testing circuit of water temperature and is used to measure water surface vapor (steam) temperature, described water temperature testing circuit is close under the bottom surface that is arranged on the insulating pot body, described steam testing circuit is arranged in the insulating pot handle, and described water temperature testing circuit is connected with described signal processing unit respectively with described steam testing circuit.

2, the electronic control system of a kind of insulating pot according to claim 1 is characterized in that described temperature difference setting value is for ± 2 ℃; The time interval of described setting is 30 seconds.

3, the electronic control system of a kind of insulating pot according to claim 1; it is characterized in that being close under the bottom surface of described insulating pot body the free protector that burns being set; described empty first end that burns protector is by being arranged on the power interface incoming transport electricity on the insulating pot base, and described empty second end and the described heating unit that burns protector interconnects by a power circuit.

4, the electronic control system of a kind of insulating pot according to claim 3; it is characterized in that described heating unit comprises heating element heater and heating control circuit; described heating control circuit is controlled the on off operating mode of described heating element heater by described control signal; described power circuit is to be arranged on described heating control circuit and the described empty step-down rectifying circuit that burns between the protector; be used for to be converted to by the alternating current that power interface inserts driving power that drives described heating control circuit work and the working power that is used for this electronic control system.

5, the electronic control system of a kind of insulating pot according to claim 4, it is characterized in that described signal processing unit comprises microprocessor and clock signal circuit, be preset with indexed variable in the described microprocessor, described indexed variable comprises that constant temperature is provided with indexed variable, closes indexed variable and boiling water indexed variable.

6, the electronic control system of a kind of insulating pot according to claim 5 is characterized in that described signal processing unit is provided with the described microprocessor that resets when working power the is undesired power monitoring chip that resets.

7, the electronic control system of a kind of insulating pot according to claim 5, it is characterized in that described microprocessor also is connected with key circuit, the LED display circuit, temperature display circuit and sound instruction circuit, described key circuit and the heating start button that is arranged on the insulating pot handle, the heating close key is connected with the constant temperature key, described constant temperature key cooperates described heating start button and described heating close key to have the function that plus-minus is adjusted thermostat temperature, by described constant temperature key, the default thermostat temperature setting value of the cooperation of described heating start button and described heating close key; Described temperature display circuit comprises the LCDs that is arranged on the insulating pot handle, and described LCDs is used to show water temperature and water surface vapor (steam) temperature or at constant temperature water temperature and thermostat temperature setting value under the state is set; When detected water temperature surpasses 103 ± 1 ℃, be defined as empty the burning; The thermostat temperature setting value is 0 ℃～99 ℃, when thermostat temperature setting value is 0 ℃ or when being lower than environment temperature, close the constant temperature function automatically, be higher than the boiling water temperature of 99 ℃ of less thaies under the current environment when the thermostat temperature setting value, and when not detecting empty the burning, heating unit will be in heated condition all the time.

8, the electronic control system of a kind of insulating pot according to claim 7; it is characterized in that when the heating of the heating element heater in the described heating unit makes described empty temperature of burning protector reach 108 ± 3 ℃ the described empty protector that burns cuts off described heating unit automatically.

Images