CN110359259A - Control method and clothes treatment device for clothes treatment device - Google Patents

Abstract

The present invention relates to clothes treatment device technical fields, specifically provide a kind of control method and clothes treatment device for clothes treatment device, it is intended to solve the problems, such as that existing clothes treatment device can not accurately judge whether to need being turned on or off heating module.For this purpose, clothes treatment device of the invention includes heating module, which includes the following steps: the cooling water temperature for detecting condensation module；The switch temperature of heating module is corrected according to cooling water temperature；The operating status of heating module is controlled according to revised switch temperature.Clothes treatment device of the invention includes condensation module, heating module, temperature sensor, temperature adjustmemt module and control module, and control module controls the operating status of heating module based on revised switch temperature.The present invention corrects the switch temperature of heating module according to specific operating condition, can accurately control the operating statuses such as be turned on or off of heating module, improve the drying effect of clothes treatment device.

Description

Control method and clothes treatment device for clothes treatment device

Technical field

The present invention relates to clothes treatment device technical fields, specifically provide a kind of control method for clothes treatment device And clothes treatment device.

Background technique

With the progress of science and technology, the automatization level of human lives is higher and higher, and daily housework is from manpower Gradually replaced machine.Clothes treatment device is brought as household electrical appliance common in daily life to people's lives Great convenience.Clothes treatment device mainly includes clothing washing facility, cloth drying device and washes dry integrated equipment, according to washing The mode of washing is classified, and washing-drying integral machine with drying function can be roughly divided into and with drying function by washing dry integrated equipment Roller washing machine.In the prior art, roller washing machine is heated air by the heating module of drying system, the air after heating It is sent into cylindric washer by blower, so that hot wind can act on the clothing in cylindric washer, so that the clothing in cylindric washer carried Moisture is evaporated into the steam of high temperature and humidity, and the steam of high temperature and humidity is inhaled into exchanger, and the steam of high temperature and humidity is exchanging Heat exchange is carried out with refrigerant in device, the steam of high temperature and humidity, which is condensed, becomes condensed water, and condensed water is flowed out along exchanger inner wall. In the process, drying system and external environment carry out heat exchange, and the temperature of external environment is higher, drying system and external environment The heat of exchange is relatively fewer, and more heat will enter in drying system, so that the condensing capacity of drying system is relative to adding Thermal energy power dies down, and the judgement precision for ending automatically drying procedure so as to cause drying system reduces, and clothing even can occur also Be not oven-dried and the case where drying procedure has terminated in advance, to greatly affected the usage experience of user.

To solve the above problems, temperature sensor is set in the drying channel of drying system in the prior art, the temperature Sensor can reflect the temperature conditions of external environment indirectly, control so as to the temperature detected according to temperature sensor Heating module is turned on or off.But existing control method does not consider the temperature of temperature sensor detection not Quasi- problem, during running drying procedure, after having run a drying procedure, rerun next drying procedure When, it is influenced by previous drying course, leads to the temperature of the detection of temperature sensor when running next drying procedure It is higher, to can not accurately judge whether to need being turned on or off heating module, it greatly affected making for user With experience.

Therefore, this field needs a kind of new control method for clothes treatment device and clothes treatment device to solve The above problem.

Summary of the invention

In order to solve the above problem in the prior art, can not accurately judge in order to solve existing clothes treatment device Whether is needed the problem of being turned on or off heating module, the present invention provides a kind of controlling parties for clothes treatment device Method, clothes treatment device include condensation module and heating module, and control method includes the following steps: to detect environment temperature and condensation The cooling water temperature of module；According to the switch temperature of environment temperature and cooling water temperature amendment heating module；According to revised Switch temperature controls the operating status of heating module.

In the optimal technical scheme of above-mentioned control method, " heating module is corrected according to environment temperature and cooling water temperature Switch temperature " the step of specifically include: environment temperature and cooling water temperature are compared with preset temperature threshold；According to ring Border temperature and cooling water temperature and the comparison result of preset temperature threshold correct switch temperature.

In the optimal technical scheme of above-mentioned control method, " according to environment temperature and cooling water temperature and preset temperature threshold The comparison result of value corrects switch temperature " the step of specifically include: correct switch temperature according to following equalities: T=a × T₁ +b×T₂+c×T₁×T₂+ d, wherein T is switch temperature, T₁For environment temperature, T₂For cooling water temperature, a is the first amendment system Number, b are the second correction factor, and c is third correction factor, and d is the 4th correction factor；And wherein, the first correction factor a, The size of two correction factor b, third correction factor c and the 4th correction factor d depend on environment temperature T₁With cooling water temperature T₂'s Size.

In the optimal technical scheme of above-mentioned control method, switch temperature T includes opening temperature T_onWith closing temperature T_off, Preset temperature threshold includes the first default environment temperature threshold value, the second default environment temperature threshold value, the first default cooling water temperature Threshold value and the second default cooling water temperature threshold value；Wherein, the first default environment temperature threshold value is less than the second default environment temperature threshold Value, the first default cooling water temperature threshold value is less than the second default cooling water temperature threshold value.

In the optimal technical scheme of above-mentioned control method, the first correction factor a, the second correction factor b, third amendment system Number c's and the 4th correction factor d is dimensioned such that: as environment temperature T₁Less than or equal to the first default environment temperature threshold value And cooling water temperature T₂When less than or equal to the first default cooling water temperature threshold value, opening temperature T_onWith closing temperature T_offProtect It holds constant；As environment temperature T₁Less than or equal to the first default environment temperature threshold value and cooling water temperature T₂It is preset greater than first cold But when coolant-temperature gage threshold value, opening temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂It is closed in inverse proportion System；As environment temperature T₁When greater than the first default environment temperature threshold value and being less than or equal to the second default environment temperature threshold value, open Open temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂In inversely prroportional relationship；As environment temperature T₁It is greater than Second default environment temperature threshold value and cooling water temperature T₂When less than or equal to the second default cooling water temperature threshold value, opening temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂In inversely prroportional relationship；As environment temperature T₁It is pre- greater than second If environment temperature threshold value and cooling water temperature T₂When greater than the second default cooling water temperature threshold value, opening temperature T_onAnd closing temperature T_offRemain unchanged.

In the optimal technical scheme of above-mentioned control method, the first default environment temperature threshold value be 10 DEG C, first preset it is cold But coolant-temperature gage threshold value is 10 DEG C, and the second default cooling water temperature threshold value is 35 DEG C；" according to environment temperature and cooling water temperature and in advance If the comparison result of temperature threshold corrects switch temperature " the step of specifically include: if environment temperature T₁Less than or equal to One default environment temperature threshold value and cooling water temperature T₂Less than or equal to the first default cooling water temperature threshold value, then corresponds to and open Temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively 0,0,0 and 110；Corresponding to closing temperature T_offThe first correction factor a, the second correction factor b, third correction factor c and the 4th amendment system Number d is respectively 0,0,0 and 170；If environment temperature T₁Less than or equal to the first default environment temperature threshold value, cooling water temperature T₂ Greater than the first default cooling water temperature threshold value and it is less than or equal to the second default cooling water temperature threshold value, then corresponds to opening temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively -0.2, -0.2,0 With 114；Corresponding to closing temperature T_offThe first correction factor a, the second correction factor b, third correction factor c and the 4th amendment Coefficient d is respectively -0.2, -0.2,0 and 170；If environment temperature T₁Less than or equal to the first default environment temperature threshold value and cold But coolant-temperature gage T₂Greater than the second default cooling water temperature threshold value, then correspond to opening temperature T_onThe first correction factor a, second repair Positive coefficient b, third correction factor c and the 4th correction factor d are respectively -0.1, -0.3,0 and 110；Corresponding to closing temperature T_off The first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively -0.1, -0.3,0 and 160。

In the optimal technical scheme of above-mentioned control method, the first default environment temperature threshold value is 10 DEG C, the second default ring Border temperature threshold is 35 DEG C, and the first default cooling water temperature threshold value is 10 DEG C, and the second default cooling water temperature threshold value is 35 DEG C； The step of " correcting switch temperature according to environment temperature and cooling water temperature and the comparison result of preset temperature threshold ", specifically wraps It includes: if environment temperature T₁Greater than the first default environment temperature threshold value and it is less than or equal to the second default environment temperature threshold value, it is cold But coolant-temperature gage T₂Less than or equal to the first default cooling water temperature threshold value, then correspond to opening temperature T_onThe first correction factor a, Second correction factor b, third correction factor c and the 4th correction factor d are respectively -0.3, -0.1,0 and 114；It is warm corresponding to closing Spend T_offThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively -0.3, - 0.1,0 and 160；If environment temperature T₁Greater than the first default environment temperature threshold value and it is less than or equal to the second default environment temperature Threshold value, cooling water temperature T₂Greater than the first default cooling water temperature threshold value and it is less than or equal to the second default cooling water temperature threshold Value then corresponds to opening temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th amendment system Number d is respectively -0.3, -0.3,0 and 112；Corresponding to closing temperature T_offThe first correction factor a, the second correction factor b, third Correction factor c and the 4th correction factor d is respectively -0.3, -0.3,0 and 150；If environment temperature T₁Greater than the first default environment Temperature threshold and be less than or equal to the second default environment temperature threshold value, cooling water temperature T₂Greater than the second default cooling water temperature threshold Value then corresponds to opening temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th amendment system Number d is respectively -0.4, -0.2,0 and 110；Corresponding to closing temperature T_offThe first correction factor a, the second correction factor b, third Correction factor c and the 4th correction factor d is respectively -0.4, -0.2,0 and 140.

In the optimal technical scheme of above-mentioned control method, the second default environment temperature threshold value be 35 DEG C, first preset it is cold But coolant-temperature gage threshold value is 10 DEG C, and the second default cooling water temperature threshold value is 35 DEG C；" according to environment temperature and cooling water temperature and in advance If the comparison result of temperature threshold corrects switch temperature " the step of specifically include: if environment temperature T₁It is default greater than second Environment temperature threshold value and cooling water temperature T₂Less than or equal to the first default cooling water temperature threshold value, then correspond to opening temperature T_on The first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively -0.3, -0.1,0 and 114；Corresponding to closing temperature T_offThe first correction factor a, the second correction factor b, third correction factor c and the 4th amendment system Number d is respectively -0.3, -0.1,0 and 160；If environment temperature T₁Greater than the second default environment temperature threshold value, cooling water temperature T₂ Greater than the first default cooling water temperature threshold value and it is less than or equal to the second default cooling water temperature threshold value, then corresponds to opening temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively -0.4, -0.2,0 With 110；Corresponding to closing temperature T_offThe first correction factor a, the second correction factor b, third correction factor c and the 4th amendment Coefficient d is respectively -0.4, -0.2,0 and 140.

In the optimal technical scheme of above-mentioned control method, if environment temperature T₁Greater than the second default environment temperature threshold value And cooling water temperature T₂Greater than the second default cooling water temperature threshold value, then correspond to opening temperature T_onThe first correction factor a, Two correction factor b, third correction factor c and the 4th correction factor d are respectively 0,0,0 and 75；Corresponding to closing temperature T_off? One correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d are respectively 0,0,0 and 110.

In addition, clothes treatment device includes condensation module and heated mould the present invention also provides a kind of clothes treatment device Block, clothes treatment device further include: temperature sensor is used to detect the cooling water temperature of environment temperature and condensation module；Temperature Correction module, the environment temperature for being used to detect according to temperature sensor and cooling water temperature are spent to correct opening for heating module Close temperature；Control module controls the operating status of heating module based on revised switch temperature.

It will be appreciated to those of skill in the art that detecting ring in the optimal technical scheme of control method of the invention The cooling water temperature of border temperature and condensation module；According to the switch temperature of environment temperature and cooling water temperature amendment heating module； The operating status of heating module is controlled according to revised switch temperature.With the existing environment temperature directly by detecting It is compared to control the technical solution of the operating status of heating module, process of the present invention in the operating status of control heating module In, the switch temperature of heating module is corrected by the environment temperature and cooling water temperature that detect, significantly reduces temperature biography The influence for the accuracy that the detection error of sensor judges switch temperature can accurately judge the switch temperature of heating module, So as to accurately control the operating statuses such as be turned on or off of heating module, avoids clothing and be not oven-dried also and dry The case where program has terminated in advance, improves the drying effect of washing-drying integral machine, and then improves the use body of user It tests.

Further, cooling water temperature and environment temperature are compared with preset temperature threshold；According to cooling water temperature, The comparison result of environment temperature and preset temperature threshold corrects switch temperature according to following equalities to correct switch temperature: T =a × T₁+b×T₂+c×T₁×T₂+ d, wherein the first correction factor a, the second correction factor b, third correction factor c and the 4th The size of correction factor d depends on environment temperature T₁With cooling water temperature T₂Size, can accurately correct opening for heating module Temperature is closed, so as to accurately control the operating statuses such as be turned on or off of heating module, clothing is avoided and is not dried also The case where dry and drying procedure has terminated in advance, improves the drying effect of washing-drying integral machine, and then improve user Usage experience.

Detailed description of the invention

Control method of the invention is described with reference to the accompanying drawings and in conjunction with washing-drying integral machine.In attached drawing:

Fig. 1 is the flow chart of control method of the invention；

Fig. 2 is the flow chart one of control method of the invention；

Fig. 3 is the flowchart 2 of control method of the invention；

Fig. 4 is the flow chart 3 of control method of the invention；

Fig. 5 is the framework schematic diagram of washing-drying integral machine of the invention.

Specific embodiment

The preferred embodiment of the present invention described with reference to the accompanying drawings.It will be apparent to a skilled person that this A little embodiments are used only for explaining technical principle of the invention, it is not intended that limit the scope of the invention.For example, although The application is described in conjunction with washing-drying integral machine, and still, technical solution of the present invention is not limited thereto, the controlling party Faxian It so also can be applied to other clothes treatment devices such as dryer, this change is without departing from the principle and scope of the present invention.

It should be noted that in the description of the present invention, term " first ", " second " are used for description purposes only, and cannot It is interpreted as indication or suggestion relative importance.

The technical issues of based on proposing in background technique, the present invention provides a kind of controlling parties for washing-drying integral machine Method, it is intended to according to the switch temperature of environment temperature and cooling water temperature amendment heating module, significantly reduce temperature sensor The detection error influence of accuracy that switch temperature is judged, can accurately judge the switch temperature of heating module, thus The operating statuses such as be turned on or off that heating module can accurately be controlled, avoid clothing and are not oven-dried and drying procedure also The case where having terminated in advance, improves the drying effect of washing-drying integral machine, and then improves the usage experience of user.

It is the flow chart of control method of the invention referring to Fig. 1 to Fig. 5, Fig. 1；Fig. 2 is the stream of control method of the invention Journey figure one；Fig. 3 is the flowchart 2 of control method of the invention；Fig. 4 is the flow chart 3 of control method of the invention；Fig. 5 is The framework schematic diagram of washing-drying integral machine of the invention.As shown in Figure 1, control method of the invention includes the following steps:

S1, the cooling water temperature for detecting environment temperature and condensation module；

S2, the switch temperature that heating module is corrected according to environment temperature and cooling water temperature；

S3, the operating status that heating module is controlled according to revised switch temperature.

Preferably, environment temperature is the mean temperature of the environment measured in the first preset time threshold, for example, first is default Time threshold is 1min；Cooling water temperature is the mean temperature of the cooling water measured in the second preset time threshold, for example, second Preset time threshold is 1min.Certainly, the first preset time threshold and the second preset time threshold be not limited to the example above when Between, those skilled in the art can neatly adjust the first preset time threshold and the second preset time threshold in practical applications Value, as long as meeting the requirement for determining environment temperature and cooling water temperature by the first preset time threshold and the second preset time threshold ?.

On the other hand, the present invention also provides a kind of washing-drying integral machines, as shown in figure 5, the washing-drying integral machine includes outer Shell, clothing process cartridge, condensation module, heating module, air supply module, temperature sensor, the temperature adjustmemt mould of setting inside the shell Block and control module, heating module are arranged inside the shell, for heating air；Condensation module is arranged inside the shell, and being used for will The steam of the high temperature and humidity generated in drying course condenses；Heating module is connect with clothing process cartridge by air supply module will add The hot wind of thermal modules heating is delivered in clothing process cartridge with by the clothes drying in clothing process cartridge；Temperature sensor is for examining Survey environment temperature and cooling water temperature；Temperature adjustmemt module is arranged in control module, for being detected according to temperature sensor Cooling water temperature correct the switch temperature of heating module；Control module is arranged on the shell, is based on revised switch Temperature controls the operating status of heating module.Certainly, heating module, air supply module, temperature sensor, temperature adjustmemt module and The actual installation position of control module is not limited to the installation site of the example above, and those skilled in the art can be in actual application In flexibly set the actual installation position of heating module, air supply module, temperature sensor, temperature adjustmemt module and control module It sets, as long as the mutual cooperation by heating module, air supply module, temperature sensor, temperature adjustmemt module and control module can Correct switch temperature.

Preferably, condensation module is the other structures such as condenser, condenser pipe, and details are not described herein.

Preferably, heating module is the other structures such as heating tube, heating blower, heater, and details are not described herein.

Preferably, air supply module is blower, is also possible to other structures, and details are not described herein.

Preferably, temperature sensor includes the first temperature sensor and second temperature sensor, and the first temperature sensor is set It sets in the outside of shell, for detecting environment temperature；Second temperature sensor is arranged in the solenoid valve of washing-drying integral machine, is used for Detect the temperature of cooling water.

Preferably, the first temperature sensor and second temperature sensor are infrared temperature sensor, are also possible to other classes The sensor of type, such as radio frequency sensor, in order to detect environment temperature and cooling water temperature, it should be noted that environment temperature It should not be limited the invention with the detection method of cooling water temperature.

Preferably, temperature adjustmemt module corrects temperature sensor according to preset temperature threshold by computer software design Temperature data, the temperature data after being corrected is supplied to control module.

Preferably, control module can identify the cooling water temperature that temperature sensor detects, according to the cooling detected Coolant-temperature gage controls the switch temperature of temperature adjustmemt module amendment heating module.Control module can be the control of washing-drying integral machine itself Molding block is also possible to additional control module or other mobile terminals, and details are not described herein.

In a kind of preferable embodiment, in above-mentioned steps S2, " according to environment temperature and cooling water temperature amendment heating The step of switch temperature of module ", specifically includes:

S21, environment temperature and cooling water temperature are compared with preset temperature threshold；

S22, switch temperature is corrected according to environment temperature and cooling water temperature and the comparison result of preset temperature threshold.

Using above-mentioned control method, the switch temperature of heating module can be corrected, accurately so as to accurately control Heating module such as is turned on or off at the operating statuses, avoid clothing be not oven-dried also and what drying procedure had terminated in advance It happens, improves the drying effect of washing-drying integral machine, and then improve the usage experience of user.

Further, in above-mentioned steps S22, " according to environment temperature and cooling water temperature compared with preset temperature threshold As a result correct switch temperature " the step of specifically include: according to following equalities correct switch temperature:

T=a × T₁+b×T₂+c×T₁×T₂+d

Wherein, T: switch temperature；

T₁: environment temperature；

T₂: cooling water temperature；

A: the first correction factor；

B: the second correction factor；

C: third correction factor；

D: the four correction factor.

Wherein, the size of the first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d take Certainly in environment temperature T₁With cooling water temperature T₂Size.

In above-mentioned steps, switch temperature T includes opening temperature T_onWith closing temperature T_off, preset temperature threshold includes the The default cooling of one default environment temperature threshold value, the second default environment temperature threshold value, the first default cooling water temperature threshold value and second Coolant-temperature gage threshold value；Wherein, the first default environment temperature threshold value is less than the second default environment temperature threshold value, the first default coolant water temperature Threshold value is spent less than the second default cooling water temperature threshold value.

Preferably, it in above-mentioned steps S22, " is corrected out according to cooling water temperature and the comparison result of preset temperature threshold The step of pass temperature ", further comprises:

S221, judge environment temperature T₁Whether the first default environment temperature threshold value, cooling water temperature T are less than or equal to₂Whether Less than or equal to the first default cooling water temperature threshold value；

If S222, environment temperature T₁Less than or equal to the first default environment temperature threshold value and cooling water temperature T₂Be less than or Equal to the first default cooling water temperature threshold value, then opening temperature T_onWith closing temperature T_offRemain unchanged；

S223, judge environment temperature T₁Whether the first default environment temperature threshold value and cooling water temperature T are less than or equal to₂It is It is no to be greater than the first default cooling water temperature threshold value；

If S224, environment temperature T₁Less than or equal to the first default environment temperature threshold value and cooling water temperature T₂Greater than One default cooling water temperature threshold value, then opening temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂It is in Inversely prroportional relationship；

S225, judge environment temperature T₁Whether it is greater than the first default environment temperature threshold value and is less than or equal to the second default ring Border temperature threshold；

If S226, environment temperature T₁Greater than the first default environment temperature threshold value and it is less than or equal to the second default environment temperature Threshold value is spent, then opening temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂In inversely prroportional relationship；

S227, judge environment temperature T₁Whether the second default environment temperature threshold value and cooling water temperature T are greater than₂It is less than or waits In the second default cooling water temperature threshold value；

If S228, environment temperature T₁Greater than the second default environment temperature threshold value and cooling water temperature T₂Less than or equal to Two default cooling water temperature threshold values, then opening temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂It is in Inversely prroportional relationship；

S229, judge environment temperature T₁Whether the second default environment temperature threshold value and cooling water temperature T are greater than₂Whether it is greater than Second default cooling water temperature threshold value；

If S230, environment temperature T₁Greater than the second default environment temperature threshold value and cooling water temperature T₂It is default greater than second Cooling water temperature threshold value, then opening temperature T_onWith closing temperature T_offRemain unchanged.

Specifically, in above-mentioned steps S222, if environment temperature T₁Less than or equal to the first default environment temperature threshold value And cooling water temperature T₂Less than or equal to the first default cooling water temperature threshold value, illustrate environment temperature and cooling water temperature compared with Low, the precision that will not be detected to temperature sensor impact, can accurately judge whether to need to open heating module or Person closes, then by opening temperature T_onWith closing temperature T_offIt is disposed as remaining unchanged, that is to say, that opening temperature T_onAnd closing Temperature T_offNot with environment temperature T₁With cooling water temperature T₂Variation and change.

Preferably, in above-mentioned steps S224, if environment temperature T₁Less than or equal to the first default environment temperature threshold value and Cooling water temperature T₂Greater than the first default cooling water temperature threshold value, although illustrating environment temperature T₁It is lower, but cooling water temperature T₂ Higher, the precision that can be detected to temperature sensor impact, can not accurately judge whether to need to open heating module or Person closes, then by opening temperature T_onWith closing temperature T_offIt is disposed as and environment temperature T₁With cooling water temperature T₂In inverse proportion Relationship, so that opening temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂Raising and reduce, with drop The switch temperature of low heating module avoids clothing and is not oven-dried also the case where drying procedure has terminated in advance, mentions The high drying effect of washing-drying integral machine, and then improve the usage experience of user.

Preferably, in above-mentioned steps S226, if environment temperature T₁Greater than the first default environment temperature threshold value and be less than or Equal to the second default environment temperature threshold value, illustrate that environment temperature is higher, no matter cooling water temperature it is higher or lower, can be right The precision of temperature sensor detection impacts, and can not accurately judge whether to need for heating module to be turned on or off, then Opening temperature T_onWith closing temperature T_offIt is disposed as and environment temperature T₁With cooling water temperature T₂In inversely prroportional relationship, so that opening Open temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂Raising and reduce, to reduce heating module Switch temperature avoids clothing and is not oven-dried also and drying procedure the case where having terminated in advance, improves and wash dry one The drying effect of machine, and then improve the usage experience of user.

Preferably, in above-mentioned steps S228, if environment temperature T₁Greater than the second default environment temperature threshold value and cooling water Temperature T₂Less than or equal to the second default cooling water temperature threshold value, illustrate that environment temperature is excessively high, and the temperature of cooling water is higher, meeting The precision of temperature sensor detection is impacted, can not accurately judge whether to need for heating module to be turned on or off, Then opening temperature T_onWith closing temperature T_offIt is disposed as and environment temperature T₁With cooling water temperature T₂In inversely prroportional relationship, so that Opening temperature T_onWith closing temperature T_offWith environment temperature T₁With cooling water temperature T₂Raising and reduce, to reduce heating module Switch temperature, avoid clothing and be not oven-dried also the case where drying procedure has terminated in advance, improve and wash dry one The drying effect of body machine, and then improve the usage experience of user.

Preferably, in above-mentioned steps S230, if environment temperature T₁Greater than the second default environment temperature threshold value and cooling water Temperature T₂Greater than the second default cooling water temperature threshold value, illustrate that the temperature of environment temperature and cooling water is excessively high, to temperature sensing The precision of device detection causes greatly to influence, and can not accurately judge whether to need for heating module to be turned on or off, then will Opening temperature T_onWith closing temperature T_offIt is disposed as remaining unchanged, that is to say, that opening temperature T_onWith closing temperature T_offNot with Environment temperature T₁With cooling water temperature T₂Variation and change, avoid that clothing is not oven-dried also and drying procedure is tied in advance The case where beam, occurs, and improves the drying effect of washing-drying integral machine, and then improves the usage experience of user.

It, can by the setting of the first default environment temperature threshold value and the first default cooling water temperature threshold value in the above process Further to provide the conclusion for how correcting switch temperature, washing-drying integral machine is repaired in varied situations using optimal Holotype can accurately judge the switch temperature of heating module, improve the drying effect of washing-drying integral machine.Wherein, first Default environment temperature threshold value can be the minimum temperature of environment temperature, and the first default cooling water temperature threshold value can be coolant water temperature The minimum temperature of degree, such as the first default environment temperature threshold value are 10 DEG C, and the first default cooling water temperature threshold value is 10 DEG C, switch The amendment scheme of temperature is optimal, to improve the drying effect of washing-drying integral machine.Certainly, the first default environment temperature threshold value and first Default cooling water temperature threshold value is not limited to the temperature of the example above, can also be other temperature, such as those skilled in the art exist The experimental temperature obtained under specific operation according to experiment, or the empirical temperature rule of thumb obtained, as long as meeting pre- by first If the first correction factor of selection that environment temperature threshold value and the first default cooling water temperature threshold value determine, the second correction factor, the The separation of three correction factors and the 4th correction factor can satisfy the requirement of amendment switch temperature.

It further, can be with by the setting of the second default environment temperature threshold value and the second default cooling water temperature threshold value The conclusion for how correcting switch temperature is further provided, enables washing-drying integral machine in varied situations using optimal amendment Mode can accurately judge the switch temperature of heating module, improve the drying effect of washing-drying integral machine.Wherein, second is pre- If the setting of environment temperature threshold value and the second default cooling water temperature threshold value neatly can be adjusted and be set according to practical situation It is fixed, such as the second default environment temperature threshold value is 35 DEG C, the second default cooling water temperature threshold value is 35 DEG C, as long as meeting by second The first correction factor of selection and the second correction factor that default environment temperature threshold value and the second default cooling water temperature threshold value determine Separation can satisfy amendment switch temperature requirement.

Preferably, the first correction factor, the second correction factor corresponding to opening temperature, third correction factor and the 4th are repaired At least one of positive coefficient and the first correction factor, the second correction factor corresponding to closing temperature, third correction factor and At least one of 4th correction factor is different, so that revised opening temperature is less than revised closing temperature.

Preferably, if environment temperature T₁Less than or equal to 10 DEG C (first default environment temperature threshold values) and cooling water temperature T₂Less than or equal to 10 DEG C (the first default cooling water temperature threshold value), then correspond to opening temperature T_onThe first correction factor a be 0, the second correction factor b is 0, third correction factor c is that the 0, the 4th correction factor d is 110, i.e. T_on=110 DEG C；Corresponding to closing Temperature T_offThe first correction factor a be the 0, second correction factor b be 0, third correction factor c is that the 0, the 4th correction factor d is 170, i.e. T_off=170 DEG C.

Preferably, if environment temperature T₁Less than or equal to 10 DEG C, cooling water temperature T₂Greater than 10 DEG C and it is less than or equal to 35 DEG C (the second default cooling water temperature threshold value) then corresponds to opening temperature T_onThe first correction factor a be -0.2, second amendment system Number b is -0.2, third correction factor c is that the 0, the 4th correction factor d is 114, i.e. T_on=-0.2 × T₁-0.2×T₂+114；It is corresponding In closing temperature T_offThe first correction factor a be the -0.2, second correction factor b be -0.2, third correction factor c is the 0, the 4th Correction factor d is 170, i.e. T_off=-0.2 × T₁-0.2×T₂+170。

Preferably, if environment temperature T₁Less than or equal to the first default environment temperature threshold value and cooling water temperature T₂It is greater than Second default cooling water temperature threshold value then corresponds to opening temperature T_onThe first correction factor a be the -0.1, second correction factor b It is that the 0, the 4th correction factor d is 110 for -0.3, third correction factor c, i.e. T_on=-0.1 × T₁-0.3×T₂+110；Correspond to Closing temperature T_offThe first correction factor a be the -0.1, second correction factor b be -0.3, third correction factor c is the 0, the 4th to repair Positive coefficient d is 160, i.e. T_off=-0.1 × T₁-0.3×T₂+160。

Preferably, if environment temperature T₁Greater than the first default environment temperature threshold value and it is less than or equal to the second default environment Temperature threshold, cooling water temperature T₂Less than or equal to the first default cooling water temperature threshold value, then correspond to opening temperature T_on? One correction factor a be the -0.3, second correction factor b be -0.1, third correction factor c is 0, the 4th correction factor d be 114, i.e., T_on=-0.3 × T₁-0.1×T₂+114；Corresponding to closing temperature T_offThe first correction factor a be the -0.3, second correction factor b It is that the 0, the 4th correction factor d is 160 for -0.1, third correction factor c, i.e. T_off=-0.3 × T₁-0.1×T₂+160。

Preferably, if environment temperature T₁Greater than the first default environment temperature threshold value and it is less than or equal to the second default environment Temperature threshold, cooling water temperature T₂Greater than the first default cooling water temperature threshold value and it is less than or equal to the second default cooling water temperature Threshold value then corresponds to opening temperature T_onThe first correction factor a be the -0.3, second correction factor b be -0.3, third correction factor C is that the 0, the 4th correction factor d is 112, i.e. T_on=-0.3 × T₁-0.3×T₂+112；Corresponding to closing temperature T_offFirst repair Positive coefficient a be the -0.3, second correction factor b be -0.3, third correction factor c is that the 0, the 4th correction factor d is 150, i.e. T_off =-0.3 × T₁-0.3×T₂+150。

Preferably, if environment temperature T₁Greater than the first default environment temperature threshold value and it is less than or equal to the second default environment Temperature threshold, cooling water temperature T₂Greater than the second default cooling water temperature threshold value, then correspond to opening temperature T_onFirst amendment Coefficient a be the -0.4, second correction factor b be -0.2, third correction factor c is that the 0, the 4th correction factor d is 110, i.e. T_on=- 0.4×T₁-0.2×T₂+110；Corresponding to closing temperature T_offThe first correction factor a be the -0.4, second correction factor b be - 0.2, it is 140 that third correction factor c, which is the 0, the 4th correction factor d, i.e. T_off=-0.4 × T₁-0.2×T₂+140。

Preferably, if environment temperature T₁Greater than the second default environment temperature threshold value and cooling water temperature T₂It is less than or equal to First default cooling water temperature threshold value then corresponds to opening temperature T_onThe first correction factor a be the -0.3, second correction factor b It is that the 0, the 4th correction factor d is 114 for -0.1, third correction factor c, i.e. T_on=-0.3 × T₁-0.1×T₂+114；Correspond to Closing temperature T_offThe first correction factor a be the -0.3, second correction factor b be -0.1, third correction factor c is the 0, the 4th to repair Positive coefficient d is 160, i.e. T_off=-0.3 × T₁-0.1×T₂+160。

Preferably, if environment temperature T₁Greater than the second default environment temperature threshold value, cooling water temperature T₂It is default greater than first Cooling water temperature threshold value and be less than or equal to the second default cooling water temperature threshold value, then correspond to opening temperature T_onFirst amendment Coefficient a be the -0.4, second correction factor b be -0.2, third correction factor c is that the 0, the 4th correction factor d is 110, i.e. T_on=- 0.4×T₁-0.2×T₂+110；Corresponding to closing temperature T_offThe first correction factor a be the -0.4, second correction factor b be - 0.2, it is 140 that third correction factor c, which is the 0, the 4th correction factor d, i.e. T_off=-0.4 × T₁-0.2×T₂+140。

Preferably, if environment temperature T₁Greater than the second default environment temperature threshold value and cooling water temperature T₂It is pre- greater than second If cooling water temperature threshold value, then correspond to opening temperature T_onThe first correction factor a be the 0, second correction factor b be 0, third is repaired Positive coefficient c is that the 0, the 4th correction factor d is 75, i.e. T_on=75 DEG C；Corresponding to closing temperature T_offThe first correction factor a be 0, Second correction factor b is 0, third correction factor c is that the 0, the 4th correction factor d is 110, i.e. T_off=110 DEG C.

Certainly, the value of the first correction factor, the second correction factor, third correction factor and the 4th correction factor is not limited to The value of the example above, those skilled in the art can neatly adjust in actual operation.

It is the flow chart of the control method of the first embodiment of the invention referring to Fig. 2, Fig. 2.

As shown in Fig. 2, the process of the control method of washing-drying integral machine of the invention can in a kind of possible embodiment To be:

S1, the cooling water temperature for detecting environment temperature and condensation module；

S21, environment temperature and 10 DEG C (first default environment temperature threshold values) are compared；

S2211, judge whether environment temperature is less than or equal to 10 DEG C；

S2212, if so, judging whether cooling water temperature is less than or equal to 10 DEG C；

If S222, cooling water temperature T₂Less than or equal to 10 DEG C (the first default cooling water temperature threshold value), then heated mould The opening temperature T of block_on=110 DEG C, closing temperature T_off=170 DEG C；

S2231, if it is not, judging whether cooling water temperature is less than or equal to 35 DEG C (second default cooling water temperature threshold values)；

If S2241, cooling water temperature are less than or equal to 35 DEG C, the opening temperature of heating module is T_on=-0.2 × T₁-0.2×T₂+ 114, closing temperature T_off=-0.2 × T₁-0.2×T₂+170；

If S2242, cooling water temperature are greater than 35 DEG C, the opening temperature of heating module is T_on=-0.1 × T₁-0.3× T₂+ 110, closing temperature T_off=-0.1 × T₁-0.3×T₂+160；

S3, according to revised opening temperature T_onWith closing temperature T_offTo control the operating status of heating module.

In the above-described embodiments, if environment temperature is greater than 10 DEG C, as shown in Figure 3:

S1, the cooling water temperature for detecting environment temperature and condensation module；

S21, environment temperature and 10 DEG C (first default environment temperature threshold values) are compared；

S2211, judge whether environment temperature is less than or equal to 10 DEG C；

S2251, if it is not, judging whether environment temperature is less than or equal to 35 DEG C (second default environment temperature threshold values)；

S2261, if so, judging whether cooling water temperature is less than or equal to 10 DEG C；

If S2262, cooling water temperature T₂Less than or equal to 10 DEG C, then the opening temperature T of heating module_on=-0.3 × T₁-0.1×T₂+ 114, closing temperature T_off=-0.3 × T₁-0.1×T₂+160；

S2263, if it is not, judging whether cooling water temperature is less than or equal to 35 DEG C (second default cooling water temperature threshold values)；

If S2264, cooling water temperature are less than or equal to 35 DEG C, the opening temperature of heating module is T_on=-0.3 × T₁-0.3×T₂+ 112, closing temperature T_off=-0.3 × T₁-0.3×T₂+150；

If S2265, cooling water temperature are greater than 35 DEG C, the opening temperature of heating module is T_on=-0.4 × T₁-0.2× T₂+ 110, closing temperature T_off=-0.4 × T₁-0.2×T₂+140；

S3, according to revised opening temperature T_onWith closing temperature T_offTo control the operating status of heating module.

In the above-described embodiments, if environment temperature is greater than 35 DEG C, as shown in Figure 4:

S1, the cooling water temperature for detecting environment temperature and condensation module；

S21, environment temperature and 35 DEG C (second default environment temperature threshold values) are compared；

S2271, judge whether environment temperature is greater than 35 DEG C；

S2272, if so, judging whether cooling water temperature is less than or equal to 10 DEG C；

If S2281, cooling water temperature T₂Less than or equal to 10 DEG C, then the opening temperature T of heating module_on=-0.3 × T₁-0.1×T₂+ 114, closing temperature T_off=-0.3 × T₁-0.1×T₂+160；

S2273, if it is not, judging whether cooling water temperature is less than or equal to 35 DEG C (second default cooling water temperature threshold values)；

If S2282, cooling water temperature are less than or equal to 35 DEG C, the opening temperature of heating module is T_on=-0.4 × T₁-0.2×T₂+ 110, closing temperature T_off=-0.4 × T₁-0.2×T₂+140；

If S230, cooling water temperature are greater than 35 DEG C, the opening temperature of heating module is T_on=75 DEG C, closing temperature T_off=110 DEG C；

S3, according to revised opening temperature T_onWith closing temperature T_offTo control the operating status of heating module.

Certainly, specific embodiment party examination in first environment temperature can also be compared with 35 DEG C, according to 35 DEG C Comparison result decides whether to be compared with 10 DEG C again, and it is similar to grant embodiment party's examination that above-mentioned example enumerates in fact, different herein One repeats.In addition, in practical applications, can also first judge the temperature of cooling water, then judge environment temperature, can also simultaneously into The judgement of row cooling water temperature and environment temperature, the change of this judgement sequence and mode without departing from the principle of the present invention and Range should all limit within the scope of the present invention.

It should be noted that above-described embodiment is only to be used to illustrate this in a kind of preferable embodiment of the invention The principle of inventive method, it is not intended that limit the scope of the invention, in practical applications, those skilled in the art can root Above-mentioned function distribution is completed by different steps according to needs, i.e., is decomposed the step in the embodiment of the present invention or group again It closes.For example, the step of above-described embodiment can be merged into a step, multiple sub-steps can also be further split into, with complete At all or part of function described above.For the title of the step of involved in the embodiment of the present invention, it is used for the purpose of Each step is distinguished, limitation of the present invention is not intended as.

So far, it has been combined preferred embodiment shown in the drawings and describes technical solution of the present invention, still, this field Technical staff is it is easily understood that protection scope of the present invention is expressly not limited to these specific embodiments.Without departing from this Under the premise of the principle of invention, those skilled in the art can make equivalent change or replacement to the relevant technologies feature, these Technical solution after change or replacement will fall within the scope of protection of the present invention.

Claims (10)

1. a kind of control method for clothes treatment device, the clothes treatment device includes condensation module and heating module, It is characterized in that, the control method includes the following steps:

Detect the cooling water temperature of environment temperature and the condensation module；

The switch temperature of the heating module is corrected according to the environment temperature and the cooling water temperature；

The operating status of the heating module is controlled according to revised switch temperature.

2. control method according to claim 1, which is characterized in that " according to the environment temperature and the coolant water temperature The step of switch temperature of the degree amendment heating module ", specifically includes:

The environment temperature and the cooling water temperature are compared with preset temperature threshold；

Described open is corrected according to the comparison result of the environment temperature and the cooling water temperature and the preset temperature threshold Close temperature.

3. control method according to claim 2, which is characterized in that " according to the environment temperature and the coolant water temperature Spend comparison result with the preset temperature threshold to correct the switch temperature " the step of specifically include:

The switch temperature is corrected according to following equalities:

T=a × T₁+b×T₂+c×T₁×T₂+d

Wherein, T is the switch temperature, T₁For the environment temperature, T₂For the cooling water temperature, a is the first correction factor, b For the second correction factor, c is third correction factor, and d is the 4th correction factor；And

Wherein, the first correction factor a, the second correction factor b, the third correction factor c and the 4th amendment The size of coefficient d depends on the environment temperature T₁With the cooling water temperature T₂Size.

4. control method according to claim 3, which is characterized in that the switch temperature T includes opening temperature T_onThe pass and Close temperature T_off, the preset temperature threshold includes the first default environment temperature threshold value, the second default environment temperature threshold value, first Default cooling water temperature threshold value and the second default cooling water temperature threshold value；

Wherein, the described first default environment temperature threshold value be less than the described second default environment temperature threshold value, described first preset it is cold But coolant-temperature gage threshold value is less than the described second default cooling water temperature threshold value.

5. control method according to claim 4, which is characterized in that the first correction factor a, second amendment system Count being dimensioned such that for b, the third correction factor c and the 4th correction factor d:

As the environment temperature T₁Less than or equal to the described first default environment temperature threshold value and the cooling water temperature T₂Be less than or When equal to the described first default cooling water temperature threshold value, the opening temperature T_onWith the closing temperature T_offRemain unchanged；

As the environment temperature T₁Less than or equal to the described first default environment temperature threshold value and the cooling water temperature T₂Greater than institute When stating the first default cooling water temperature threshold value, the opening temperature T_onWith the closing temperature T_offWith the environment temperature T₁ With the cooling water temperature T₂In inversely prroportional relationship；

As the environment temperature T₁Greater than the described first default environment temperature threshold value and it is less than or equal to the described second default environment temperature When spending threshold value, the opening temperature T_onWith the closing temperature T_offWith the environment temperature T₁With the cooling water temperature T₂ In inversely prroportional relationship；

As the environment temperature T₁Greater than the described second default environment temperature threshold value and the cooling water temperature T₂Less than or equal to institute When stating the second default cooling water temperature threshold value, the opening temperature T_onWith the closing temperature T_offWith the environment temperature T₁ With the cooling water temperature T₂In inversely prroportional relationship；

As the environment temperature T₁Greater than the described second default environment temperature threshold value and the cooling water temperature T₂Greater than described second When default cooling water temperature threshold value, the opening temperature T_onWith the closing temperature T_offRemain unchanged.

6. control method according to claim 5, which is characterized in that the first default environment temperature threshold value is 10 DEG C, The first default cooling water temperature threshold value is 10 DEG C, and the second default cooling water temperature threshold value is 35 DEG C；

" described open is corrected according to the comparison result of the environment temperature and the cooling water temperature and the preset temperature threshold The step of pass temperature ", specifically includes:

If the environment temperature T₁Less than or equal to the described first default environment temperature threshold value and the cooling water temperature T₂It is less than Or be equal to the described first default cooling water temperature threshold value, then correspond to the opening temperature T_onThe first correction factor a, second repair Positive coefficient b, third correction factor c and the 4th correction factor d are respectively 0,0,0 and 110；Corresponding to the closing temperature T_off's First correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d are respectively 0,0,0 and 170；

If the environment temperature T₁Less than or equal to the described first default environment temperature threshold value, the cooling water temperature T₂It is greater than The first default cooling water temperature threshold value and it is less than or equal to the described second default cooling water temperature threshold value, then corresponds to described Opening temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively- 0.2, -0.2,0 and 114；Corresponding to the closing temperature T_offThe first correction factor a, the second correction factor b, third amendment system Number c and the 4th correction factor d is respectively -0.2, -0.2,0 and 170；

If the environment temperature T₁Less than or equal to the described first default environment temperature threshold value and the cooling water temperature T₂It is greater than The second default cooling water temperature threshold value then corresponds to the opening temperature T_onThe first correction factor a, the second correction factor B, third correction factor c and the 4th correction factor d is respectively -0.1, -0.3,0 and 110；Corresponding to the closing temperature T_off's First correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d are respectively -0.1, -0.3,0 and 160。

7. control method according to claim 5, which is characterized in that the first default environment temperature threshold value is 10 DEG C, The second default environment temperature threshold value is 35 DEG C, and the first default cooling water temperature threshold value is 10 DEG C, and described second is default Cooling water temperature threshold value is 35 DEG C；

" described open is corrected according to the comparison result of the environment temperature and the cooling water temperature and the preset temperature threshold The step of pass temperature ", specifically includes:

If the environment temperature T₁Greater than the described first default environment temperature threshold value and it is less than or equal to the described second default environment Temperature threshold, the cooling water temperature T₂Less than or equal to the described first default cooling water temperature threshold value, then correspond to described open Open temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively- 0.3, -0.1,0 and 114；Corresponding to the closing temperature T_offThe first correction factor a, the second correction factor b, third amendment system Number c and the 4th correction factor d is respectively -0.3, -0.1,0 and 160；

If the environment temperature T₁Greater than the described first default environment temperature threshold value and it is less than or equal to the described second default environment Temperature threshold, the cooling water temperature T₂Greater than the described first default cooling water temperature threshold value and it is less than or equal to described second in advance If cooling water temperature threshold value, then correspond to the opening temperature T_onThe first correction factor a, the second correction factor b, third amendment Coefficient c and the 4th correction factor d is respectively -0.3, -0.3,0 and 112；Corresponding to the closing temperature T_offFirst amendment system Number a, the second correction factor b, third correction factor c and the 4th correction factor d are respectively -0.3, -0.3,0 and 150；

If the environment temperature T₁Greater than the described first default environment temperature threshold value and it is less than or equal to the described second default environment Temperature threshold, the cooling water temperature T₂Greater than the described second default cooling water temperature threshold value, then correspond to the opening temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively -0.4, -0.2,0 With 110；Corresponding to the closing temperature T_offThe first correction factor a, the second correction factor b, third correction factor c and the 4th Correction factor d is respectively -0.4, -0.2,0 and 140.

8. control method according to claim 5, which is characterized in that the second default environment temperature threshold value is 35 DEG C, The first default cooling water temperature threshold value is 10 DEG C, and the second default cooling water temperature threshold value is 35 DEG C；

" described open is corrected according to the comparison result of the environment temperature and the cooling water temperature and the preset temperature threshold The step of pass temperature ", specifically includes:

If the environment temperature T₁Greater than the described second default environment temperature threshold value and the cooling water temperature T₂It is less than or equal to The first default cooling water temperature threshold value then corresponds to the opening temperature T_onThe first correction factor a, the second correction factor B, third correction factor c and the 4th correction factor d is respectively -0.3, -0.1,0 and 114；Corresponding to the closing temperature T_off's First correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d are respectively -0.3, -0.1,0 and 160；

If the environment temperature T₁Greater than the described second default environment temperature threshold value, the cooling water temperature T₂Greater than described One default cooling water temperature threshold value and it is less than or equal to the described second default cooling water temperature threshold value, then it is warm corresponds to unlatchings Spend T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively -0.4, - 0.2,0 and 110；Corresponding to the closing temperature T_offThe first correction factor a, the second correction factor b, third correction factor c and 4th correction factor d is respectively -0.4, -0.2,0 and 140.

9. control method according to claim 8, which is characterized in that if the environment temperature T₁It is pre- greater than described second If environment temperature threshold value and the cooling water temperature T₂Greater than the described second default cooling water temperature threshold value, then correspond to described open Open temperature T_onThe first correction factor a, the second correction factor b, third correction factor c and the 4th correction factor d be respectively 0,0,0 With 75；Corresponding to the closing temperature T_offThe first correction factor a, the second correction factor b, third correction factor c and the 4th repair Positive coefficient d is respectively 0,0,0 and 110.

10. a kind of clothes treatment device, the clothes treatment device includes condensation module and heating module, which is characterized in that institute State clothes treatment device further include:

Temperature sensor is used to detect the cooling water temperature of environment temperature and the condensation module；

Temperature adjustmemt module, the environment temperature for being used to be detected according to the temperature sensor and cooling water temperature are to correct State the switch temperature of heating module；

Control module controls the operating status of the heating module based on revised switch temperature.