CN105611657A - Temperature change based method and device for intelligently compensating heating time and electric oven - Google Patents

Abstract

The application provides a temperature change based method and device for intelligently compensating heating time and an electric oven. The method comprises the following steps of acquiring temperature of a cavity chamber of an electric device in real time when the electric device is in a working state; judging whether a temperature drop exceeding a predetermined fluctuation range occurs or not; and if yes, acquiring an environment change state parameter of the cavity chamber, calculating compensation time according to the environment change state parameter of the cavity chamber, and dynamically adjusting a running control parameter of the electric device according to the compensation time. Through the above means, the baking time compensation can be intelligently calculated and fulfilled according to amplitude and time of the temperature drop, the complete baking process can be completed in no need of change of the heating time by a user, and the usage experience of the user can be improved to a great extent.

Description

Method and apparatus based on the variations in temperature intelligent compensation heat time, electric oven

Technical field

The application relates to food processing electrical appliance field, especially, relates to a kind of based on variations in temperature intelligent compensationThe method and apparatus of heat time, electric oven.

Background technology

Along with the raising of social life level, food health is more and more paid close attention to, increasing people starts to closeThe food processing of note family, the electric equipment products such as Domestic electric oven, micro-wave oven have been come into family kitchen gradually. With electricityThe use of baking box is example, and in actual use, it is larger that some operation can cause baking box spin manifold temperature to occurVariation, for example, in the process of curing, open the door, can cause the cavity temperature rapid drawdown of baking box, even if close the door itRear baking box works on, and the temperature before cavity rises to and opens the door also needs the regular hour. General user existsWhile curing, can baking temperature and baking time be set according to the menu introduction on network, still, when going outWhen the problems such as the cavity temperature rapid drawdown now causing because of the operations such as checking baking mode of opening the door in the process of curing, userAfter the baking time of setting arrives, the problem that there will be food to be short of to some extent because baking dynamics is not enough,Can only be after baking finish, by rule of thumb predictive compensation time and toast compensation of user, give userBring bad experience.

Summary of the invention

The application provides a kind of method and apparatus, electric oven based on the variations in temperature intelligent compensation heat time,In the time there is the situation of cavity temperature rapid drawdown, need user that benefit is set by hand for solving the equipment such as existing electric ovenRepay the problem of heat time.

A kind of disclosed method based on the variations in temperature intelligent compensation heat time of the application, comprising: at electrical equipmentWhen equipment is in running order, the temperature in Real-time Obtaining electric equipment chamber; Judge whether described temperature goes outNow exceed the decline of default fluctuation range; If so, obtain cavity environment variable condition parameter, according to above-mentioned chamberThe room environmental variable condition calculation of parameter make-up time, and dynamically adjust electric equipment according to the described make-up timeOperational parameter control; Wherein, described cavity environment variable condition parameter comprise chamber temp while starting to decline,Chamber temp decline time started, the minimum chamber temp being reduced to, time while arriving minimum chamber temp,A default temperature temperature and chamber temp rise to the time of a default temperature temperature.

Preferably, the described make-up time adopts following formula to calculate:

$t=\frac{(T0-T1)*(t3-t1)-\frac{(T0-T2)*(t3-t1)}{2}-\frac{(T2-T1)*(t2-t1)}{2}-\frac{(T0-T1)*(t3-t2)}{2}}{T0}$

Wherein, t represents the make-up time, chamber temp when T2 represents to start to decline, and t1 represents under chamber tempFall the time started, T1 represents the minimum chamber temp being reduced to, when t2 represents to arrive minimum chamber temp timeBetween, T0 represents a default temperature temperature, t3 represents that chamber temp rises to the time of a default temperature temperature.

Preferably, described chamber temp T2 while starting to decline equals a default temperature temperature T 0, described compensationThe computing formula of time t is as follows:

$t=\frac{(T0-T1)*(t3-t1)}{2*T0}.$

Preferably, described electric equipment is electric oven.

The disclosed a kind of device based on the variations in temperature intelligent compensation heat time of the application, comprising: temperature is realTime acquisition module, in the time that electric equipment is in running order, the temperature in Real-time Obtaining electric equipment chamberDegree; Variations in temperature judge module, for judging whether the temperature in described chamber occurs exceeding default fluctuation modelThe decline of enclosing, in the time that the temperature fall in described chamber exceedes default fluctuation range, the scheduled timeComputing module calculates the time that needs compensation; Make-up time computing module, changes shape for obtaining cavity environmentState parameter, according to the described cavity environment variable condition calculation of parameter make-up time, and sends out the described make-up timeDeliver to the control module of electric equipment; Wherein, described cavity environment variable condition parameter comprises while starting to declineChamber temp, chamber temp decline time started, the minimum chamber temp being reduced to, arrive minimum chamberTime when temperature, a default temperature temperature and chamber temp rise to the time of a default temperature temperature.

Preferably, the described make-up time adopts following formula to calculate:

$t=\frac{(T0-T1)*(t3-t1)-\frac{(T0-T2)*(t3-t1)}{2}-\frac{(T2-T1)*(t2-t1)}{2}-\frac{(T0-T1)*(t3-t2)}{2}}{T0}$

Wherein, t represents the make-up time, chamber temp when T2 represents to start to decline, and t1 represents under chamber tempFall the time started, T1 represents the minimum chamber temp being reduced to, when t2 represents to arrive minimum chamber temp timeBetween, T0 represents a default temperature temperature, t3 represents that chamber temp rises to the time of a default temperature temperature.

Preferably, described chamber temp T2 while starting to decline equals a default temperature temperature T 0, described compensationThe computing formula of time t is as follows:

$t=\frac{(T0-T1)*(t3-t1)}{2*T0}.$

Preferably, described electric equipment is electric oven.

The disclosed a kind of electric oven of the application, comprises control module, temperature sensor and above-mentionedly becomes based on temperatureChange the device of intelligent compensation heat time, wherein: described temperature Real-time Obtaining module is real by temperature sensorTime obtain the temperature in electric oven chamber; Described control module is received the compensation that make-up time computing module sendsAfter time, dynamically adjust the operational parameter control of electric oven.

Compared with prior art, the application has the following advantages:

Amplitude and time that the application's preferred embodiment can decline according to temperature, intelligence computation is also carried out automaticallyBaking time compensation (increasing baking time), user can complete once complete without the amendment heat timeCure process, can improve largely user's experience.

Brief description of the drawings

Fig. 1 is the flow chart of method one embodiment of the application based on the variations in temperature intelligent compensation heat time;

Fig. 2-1 is the normal stoving temperature curve of baking box (cures in process noiseless, cavity temperature is normal);

Fig. 2-2 are the normal stoving temperature curve of baking box after Fig. 2-1 is optimized;

Fig. 2-3 are baking box affected stoving temperature curve (cavity temperature in temperature-rise period in temperature-rise periodBecause other operations reduce);

Fig. 2-4 for Fig. 2-3 optimize after stoving temperature curve (in temperature-rise period, cavity temperature is because other are graspedWork reduces);

Fig. 2-5 are that (in temperature-rise period, cavity temperature is due to it for stoving temperature curve after the time bias of Fig. 2-4He operates reduction);

Fig. 2-6 be baking box after temperature stabilization affected stoving temperature curve (in temperature stabilization rear chamber temperatureBecause other operations reduce);

Fig. 2-7 are for the stoving temperature curve of Fig. 2-6 after optimizing is (in temperature stabilization rear chamber temperature because other are graspedWork reduces);

Fig. 2-8 are that stoving temperature curve after the time bias of Fig. 2-7 is (in temperature stabilization rear chamber temperature due to itHe operates reduction);

Fig. 3 is the structural representation of device one embodiment of the application based on the variations in temperature intelligent compensation heat timeFigure.

Detailed description of the invention

For the above-mentioned purpose, the feature and advantage that make the application can become apparent more, below in conjunction with accompanying drawing andDetailed description of the invention is described in further detail the application.

With reference to Fig. 1, show method one embodiment of the application based on the variations in temperature intelligent compensation heat timeFlow process, in this method embodiment, for convenience of describing, describes as an example of baking box example; In addition, will causeThe reason of oven cavity temperature decrease describes to open the door as example, but the application will not limit this, also canTo be the temperature decrease that other operations cause. This method for optimizing embodiment comprises the following steps:

Step S101: in the time that electric oven is in running order, the temperature in Real-time Obtaining oven chamber;

In this preferred embodiment, the temperature in oven chamber can be by being arranged on the temperature in electric oven chamberDegree sensor Real-time Obtaining.

Step S102: judge whether described temperature occurs exceeding the decline of default fluctuation range; If so, turn stepRapid S103; Otherwise, finish this flow process;

Taking the course of work of electric oven as example, incipient stage heating tube continuous firing, reaches a default temperature temperatureAfter, heating tube stops heating; After this, be the indoor stoving temperature of holding chamber, heating tube fever on and off,Until the time of curing finishes. If represent chamber temp rule over time with stoving temperature curve,Incipient stage is the straight line increasing progressively, and (reaches after a default temperature temperature) subsequently the curve for fluctuating up and down,As shown in accompanying drawing 2-1. In the time judging whether chamber temp occurs that the operations such as Yin Kaimen cause rapid drawdown, need to be by chamberThe fluctuation of room temperature in above-mentioned scope forecloses, can the curve shown in Fig. 2-1 is high on y directionThe half of degree is as default fluctuation range.

Step S103: obtain cavity environment variable condition parameter, according to described cavity environment variable condition parameterCalculate the make-up time, and dynamically adjust the operational parameter control of electric oven according to the described make-up time;

Wherein, described cavity environment variable condition parameter comprises chamber temp, the chamber temp while starting to declineTime started, the minimum chamber temp being reduced to, the time while arriving minimum chamber temp, default temperature declineField temperature and chamber temp rise to the time of a default temperature temperature etc.

Below, 2-1～2-8 by reference to the accompanying drawings, illustrates the concrete calculation of calculating the make-up time in the application's step S103Method.

In the course of the work, incipient stage continuous heating, reaches after a default temperature temperature baking box, and heating tube stopsOnly heating, after this heating tube fever on and off, until the time of curing finish. Concrete stoving temperature curve isStart straight line and increase progressively, the curve fluctuating up and down subsequently, as shown in accompanying drawing 2-1. In this preferred embodiment, canTo adopt area between temperature curve and time shaft (lateral shaft) food needs in a bake processHeat summation.

Because stoving temperature curve is to preset a temperature temperature as benchmark, fluctuate, and the fluctuation fluctuatingRate gap is very little, for convenience of calculation, temperature curve can be reduced to accompanying drawing 2-2.

Baking box, in the process of curing, occurs sometimes opening the door and observes the situation of food state, once and open the door,Can cause oven cavity temperature decrease. Again close behind the door, also need the regular hour just can make in oven cavityTemperature be restored to the temperature before opening the door. Can see the heating of baking box from the curve of accompanying drawing 2-2Journey is broadly divided into two parts:

Process 1: baking box persistent fever while starting working, the process that temperature straight line rises.

Process 2: after first round temperature rise, the process that oven temperature keeps.

The action of opening the door may occur in any time of baking, and accompanying drawing 2-3 is depicted as the action of opening the door and occurred inThe situation of journey 1, accompanying drawing 2-6 is that the action of opening the door occurs in the situation of process 2.

For the first situation:

For the ease of calculating, the stoving temperature curve of accompanying drawing 2-3 is optimized to the stoving temperature song after optimizationLine is referring to accompanying drawing 2-4, and the heat that can cause the area of dash area A as this opening door operation damagesLose.

Opening door operation has caused the thermal loss of oven cavity, while arriving preset time t 0, and this baked goodsThe shortage of heat of obtaining, so need to compensate the time of curing, the time of automatically curing increases t, and (t isThe absolute value of rectangle B on time-axis direction, and the area of rectangle B equals the face of dash area ALong-pending). Stoving temperature curve after compensation is as shown in accompanying drawing 2-5. Wherein:

Along slope coordinate axle represents temperature:

T1: reduce the minimum chamber temp being reduced to because the action of opening the door causes temperature;

T2: while opening the door action, the Current Temperatures of oven chamber;

T0: a default temperature temperature, is determined by predefined temperature;

Transverse coordinate axis represents the time:

T1: open the door the time;

T2: chamber temp falls to the time of minimum temperature T1;

T3: temperature rise is to the time of a default temperature temperature T 0;

The area S of shade A_AComputational methods:

S_A＝(T0-T1)*(t3-t1)-(T0-T2)*(t3-t1)/2-(T2-T1)*(t2-t1)/2-(T0-T1)*(t3-t2)/2

Make the area S of shade B_BEqual the area S of shade A_A, can calculate and obtain shade B in the time(time of the curing t=t0 ˊ-t0 that needs compensation, wherein t0 is the end of curing of presetting to length on direction of principal axisTime, t0 ˊ increases curing the end time after the make-up time), computational methods are:

Height=S of area/shade B of t=shade B_A/T0。

For the second situation:

For the ease of calculating, the temperature curve of accompanying drawing 2-6 is optimized, the temperature curve after optimization is referring to attachedFig. 2-7. The area of dash area A is the thermal loss that this opening door operation causes.

Opening door operation has caused the thermal loss of oven cavity, the shortage of heat that this baked goods obtains, instituteSo that the time of curing is compensated, the time of automatically curing increases t, and t is that rectangle B is on time-axis directionAbsolute value, and the area of rectangle B equals shaded area A. Temperature curve after compensation is as accompanying drawing 2-8Shown in.

The area S of shade A_AComputational methods:

The temperature of along slope coordinate axle is a temperature temperature, the default temperature of chamber temp T2=while now starting rapid drawdownTemperature T 0.

The minimum temperature that after the default temperature of a Δ T=T2-T1=temperature T 0-opens the door, temperature drops to;

The time started of transverse coordinate axis is t1: open the door the time;

The end time of transverse coordinate axis is t3: the temperature of oven temperature sensor reaches default temperature againThe time of temperature T 0.

Now, the area of shade A is: S_A＝(T0-T1)*(t3-t1)/2。

Make the area S of shade B_BEqual the area S of shade A_A, can calculate and obtain shade B laterallyThe axial time (what need compensation cures the time t), and computational methods are:

Height=((T0-T1) * (t3-t1)/2)/T0 of area/B of t=shade B.

It should be noted that, T0=T2 substitution the first situation is calculated to the formula of make-up time t, can obtainArrive and the identical formula of above-mentioned formula, therefore, the formula of the first situation can be considered as to general formula,The second situation is considered as to the special case of the first situation.

The application's preferred embodiment, by above-mentioned means, can change for oven temperature, and a kind of intelligence is providedTime bias algorithm, when the situation of the chamber temp rapid drawdown causing in operations such as occurring Yin Kaimen, Yong HuwuNeed the amendment time of curing can complete once the complete process of curing.

For aforesaid each embodiment of the method, simple in order to describe, therefore it is all expressed as to a series of actionCombination, but those skilled in the art should know, the application is not subject to the limit of described sequence of movementSystem, because according to the application, some step can adopt other orders or carry out simultaneously; Secondly, this areaTechnical staff also should know, said method embodiment all belongs to preferred embodiment, related action and mouldPiece might not be that the application is necessary.

With reference to Fig. 3, show device one embodiment of the application based on the variations in temperature intelligent compensation heat timeStructured flowchart, comprising:

Temperature Real-time Obtaining module 31, for locating disposing the electric equipment of described device (as electric oven)In the time of duty, the temperature in Real-time Obtaining electric equipment chamber;

Variations in temperature judge module 32, for judging whether the temperature in described chamber occurs exceeding default fluctuationThe decline of scope, in the time that the temperature fall in described chamber exceedes default fluctuation range, when scheduledBetween computing module 33 calculate the time that needs compensation;

Make-up time computing module 33, for obtaining cavity environment variable condition parameter, according to described chamber ringThe border variable condition calculation of parameter make-up time, and the described make-up time is sent to electric equipment (as electric oven)Control module;

Cavity environment variable condition parameter wherein comprises that chamber temp, the chamber temp while starting to decline declinesTime started, the minimum chamber temp being reduced to, the time while arriving minimum chamber temp, a default temperature temperatureDegree and chamber temp rise to the time of a default temperature temperature.

In a further preferred embodiment, make-up time computing module 33 adopts following formula to calculate and mendsRepay the time:

$t=\frac{(T0-T1)*(t3-t1)-\frac{(T0-T2)*(t3-t1)}{2}-\frac{(T2-T1)*(t2-t1)}{2}-\frac{(T0-T1)*(t3-t2)}{2}}{T0}$

In above-mentioned formula, t represents the make-up time, chamber temp when T2 represents to start to decline, and t1 represents to declineTime started, T1 represents the minimum chamber temp being reduced to, time when t2 represents to arrive minimum chamber temp,T0 represents a default temperature temperature, and t3 represents that chamber temp rises to the time t3 of a default temperature temperature.

In another further preferred embodiment, the chamber temp T2 in the time starting to decline equals default temperatureWhen temperature T 0, make-up time t can adopt following formula to calculate:

$t=\frac{(T0-T1)*(t3-t1)}{2*T0}$

Disclosed herein as well is a kind of electric oven possessing based on variations in temperature intelligent compensation heat time function,This electric oven disposes the device based on the variations in temperature intelligent compensation heat time shown in Fig. 3, and electric oven alsoDispose control module and temperature sensor, wherein: described temperature Real-time Obtaining module 31 is passed through TEMPTemperature in device Real-time Obtaining electric oven chamber; Described control module receives that make-up time computing module 33 sendsMake-up time after, dynamically adjust the operational factor of controlling the electric oven working time.

It should be noted that, said apparatus and electric oven embodiment belong to preferred embodiment, related unitWith module might not be that the application is necessary. It should be noted that in addition, the application is based on variations in temperatureThe device embodiment of intelligent compensation heat time can also be used for other electric equipment products such as micro-wave oven, makes above-mentionedElectric equipment products increase the function based on the variations in temperature intelligent compensation heat time.

Each embodiment in this description all adopts the mode of going forward one by one to describe, and each embodiment stressesBe all and the difference of other embodiment, between each embodiment identical similar part mutually referring to.For the application's device embodiment, because it is substantially similar to embodiment of the method, so the ratio of describingSimpler, relevant part is referring to the part explanation of embodiment of the method.

A kind of method and the dress based on the variations in temperature intelligent compensation heat time above the application being providedPut, electric oven, be described in detail, applied principle and the enforcement of specific case to the application hereinMode is set forth, and the explanation of above embodiment is just for helping to understand the application's method and core thereofThought; Meanwhile, for one of ordinary skill in the art, according to the application's thought, in specific embodiment partyIn formula and range of application, all will change, in sum, this description should not be construed as this ShenRestriction please.

Claims (9)

1. the method based on the variations in temperature intelligent compensation heat time, is characterized in that, comprising:

In the time that electric equipment is in running order, the temperature in Real-time Obtaining electric equipment chamber;

Judge whether described temperature occurs exceeding the decline of default fluctuation range;

If so, obtain cavity environment variable condition parameter, according to above-mentioned cavity environment variable condition calculation of parameterMake-up time, and according to the dynamically operational parameter control of adjustment electric equipment of described make-up time;

Wherein, described cavity environment variable condition parameter comprises chamber temp, the chamber temp while starting to declineTime started, the minimum chamber temp being reduced to, the time while arriving minimum chamber temp, default temperature declineField temperature and chamber temp rise to the time of a default temperature temperature.

2. method according to claim 1, is characterized in that, the described make-up time adopts following formulaCalculate:

$t=\frac{(T0-T1)*(t3-t1)-\frac{(T0-T2)*(t3-t1)}{2}-\frac{(T2-T1)*(t2-t1)}{2}-\frac{(T0-T1)*(t3-t2)}{2}}{T0}$

Wherein, t represents the make-up time, chamber temp when T2 represents to start to decline, and t1 represents under chamber tempFall the time started, T1 represents the minimum chamber temp being reduced to, when t2 represents to arrive minimum chamber temp timeBetween, T0 represents a default temperature temperature, t3 represents that chamber temp rises to the time of a default temperature temperature.

3. method according to claim 2, is characterized in that, described chamber temp while starting to declineT2 equals a default temperature temperature T 0, and the computing formula of described make-up time t is as follows:

$t=\frac{(T0-T1)*(t3-t1)}{2*T0}.$

4. method according to claim 1, is characterized in that, described electric equipment is electric oven.

5. the device based on the variations in temperature intelligent compensation heat time, is characterized in that, comprising:

Temperature Real-time Obtaining module, in the time that electric equipment is in running order, Real-time Obtaining electric equipmentTemperature in chamber;

Variations in temperature judge module, for judging whether the temperature in described chamber occurs exceeding default fluctuation modelThe decline of enclosing, in the time that the temperature fall in described chamber exceedes default fluctuation range, the scheduled timeComputing module calculates the time that needs compensation;

Make-up time computing module, for obtaining cavity environment variable condition parameter, according to described cavity environmentThe variable condition calculation of parameter make-up time, and be sent to the control module of electric equipment the described make-up time;

Wherein, described cavity environment variable condition parameter comprises chamber temp, the chamber temp while starting to declineTime started, the minimum chamber temp being reduced to, the time while arriving minimum chamber temp, default temperature declineField temperature and chamber temp rise to the time of a default temperature temperature.

6. device according to claim 5, is characterized in that, the described make-up time adopts following formulaCalculate:

$t=\frac{(T0-T1)*(t3-t1)-\frac{(T0-T2)*(t3-t1)}{2}-\frac{(T2-T1)*(t2-t1)}{2}-\frac{(T0-T1)*(t3-t2)}{2}}{T0}$

Wherein, t represents the make-up time, chamber temp when T2 represents to start to decline, and t1 represents under chamber tempFall the time started, T1 represents the minimum chamber temp being reduced to, when t2 represents to arrive minimum chamber temp timeBetween, T0 represents a default temperature temperature, t3 represents that chamber temp rises to the time of a default temperature temperature.

7. device according to claim 6, is characterized in that, described chamber temp while starting to declineT2 equals a default temperature temperature T 0, and the computing formula of described make-up time t is as follows:

$t=\frac{(T0-T1)*(t3-t1)}{2*T0}.$

8. device according to claim 5, is characterized in that, described electric equipment is electric oven.

9. an electric oven, is characterized in that, comprise control module, temperature sensor and claim 5 to7 arbitrary described devices based on the variations in temperature intelligent compensation heat time, wherein:

Described temperature Real-time Obtaining module is by the temperature in temperature sensor Real-time Obtaining electric oven chamber;

Described control module is received after the make-up time of make-up time computing module transmission, is dynamically adjusted electric ovenOperational parameter control.