CN103162377A - Mobile terminal and temperature regulation method - Google Patents
Mobile terminal and temperature regulation method Download PDFInfo
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- CN103162377A CN103162377A CN 201110421737 CN201110421737A CN103162377A CN 103162377 A CN103162377 A CN 103162377A CN 201110421737 CN201110421737 CN 201110421737 CN 201110421737 A CN201110421737 A CN 201110421737A CN 103162377 A CN103162377 A CN 103162377A
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Abstract
The invention discloses a mobile terminal. The mobile terminal comprises a sensor module, a controller and an infrared transmission device. The infrared transmission device is used for transmitting a control instruction of regulating an air-conditioner temperature to an air-conditioner, the sensor module is used for detecting the current temperature and comparing the current temperature with a preset temperature, and when the current temperature is different from the preset temperature, the sensor module controls the controller to transmit a first temperature regulation instruction to the infrared transmission device to regulate the air-conditioner temperature to be the preset temperature. The invention further discloses a temperature regulation method. According to the mobile terminal and the temperature regulation method, the air-conditioner temperature can be regulated automatically according to changes of environment temperature and air pressure to be maintained in a range all the time, wherein a user can feel conformable in the temperature, meanwhile, manual regulation on the air-conditioner temperature is eliminated, and convenience is brought to the user in use.
Description
Technical field
The present invention relates to a kind of mobile terminal and temperature control method, particularly relate to a kind of mobile terminal and the temperature control method that can automatically regulate air-conditioner temperature.
Background technology
Generally, the use of air-conditioning is all to control running state of air conditioner by the control panel or the remote controller that arrange on the direct control air-conditioning.Yet after entering sleep night, the user just can't regulate the temperature of air-conditioning by remote controller.And the room that children, the elderly or weakling live is in time again very necessary according to the temperature that room temperature is adjusted air-conditioning.In addition, under some occasion, the temperature in the room can not change, but the variation of air pressure also can directly have influence on the comfort level situation of human body.According to interrelated data, when air pressure has falling of 3KPa~7KPa to fall, just mean that airborne steam is more, air pressure descends, if do not adjust temperature this moment, still can bring impact to the comfort level of human body.
In order to make the user, particularly children, old man and weakling live ground more comfortable, wish to find a kind of apparatus and method that air-conditioner temperature can be adjusted to automatically the temperature that human body feels comfortably cool, and find and a kind ofly can automatically regulate according to the variation of air pressure the apparatus and method of air-conditioner temperature.
Summary of the invention
The technical problem to be solved in the present invention is the defective that can only rely on control panel or remote controller manual adjustments air-conditioner temperature and air-conditioner temperature automatically to regulate according to the variation of environment temperature, air pressure in prior art in order to overcome, and a kind of mobile terminal and temperature control method that is able to automatically regulate according to the variation of environment temperature, air pressure air-conditioner temperature is provided.
The present invention solves above-mentioned technical problem by following technical proposals:
A kind of mobile terminal, its characteristics be, it comprises a sensor module, a controller and an infrared dispensing device, and this infrared dispensing device is used for sending a control instruction of regulating air-conditioner temperature to an air-conditioning, wherein,
This sensor module be used for to be surveyed Current Temperatures and should current temperature and preset temperature comparison, when this current temperature and this preset temperature were not identical, this sensor module was controlled this controller and is sent one first adjustment instruction air-conditioner temperature is adjusted to this preset temperature to this infrared dispensing device.Wherein, the temperature that feels comfortably cool of the user that arranges for the user of this preset temperature.Certainly, everyone body sense comfort temperature is different, and this can be arranged voluntarily by the user.
Preferably, after this sensor module is completed initialization, this sensor module also is used for surveying an initial temperature and this initial temperature and this preset temperature is compared, and when the difference of this initial temperature and this preset temperature reaches a first threshold, is this initial temperature with this preset temperature assignment.
Preferably, this controller also is used for controlling this sensor module with one first this current temperature of sample frequency detection.According to power consumption and the power consumption of this mobile terminal integral body and the situation of change of environment temperature of sensor module, those skilled in the art can arrange this first sample frequency as required.
Preferably, when this current temperature is identical with this preset temperature, this sensor module also is used for surveying current air pressure and should presets air pressure relatively by current air pressure and one, when this current air pressure reached a Second Threshold with the difference that should preset air pressure, this sensor module should be sent into this controller by current air pressure;
This controller also is used for the relation of air pressure current according to this and an air pressure of presetting and temperature and calculates and the corresponding strain temperature of this current air pressure, and sends one second adjustment instruction air-conditioner temperature is adjusted to this strain temperature to this infrared dispensing device.When temperature does not change, this sensor module is further surveyed air pressure whether in the air pressure range that makes the user feel comfortably cool, because also can making us body, the larger variation of air pressure do not feel well, this moment, suitable adjusting temperature was very necessary with the variation that adapts to air pressure, and the concrete calculating of this strain temperature can obtain by the relation of air pressure and temperature.
Preferably, after this sensor module is completed initialization, this sensor module also is used for surveying an initial gas pressure and also this initial gas pressure and a default air pressure is compared, and when this initial gas pressure reached the 3rd threshold value with the difference that should preset air pressure, should preset the air pressure assignment was this initial gas pressure.That is to say, this sensor module can complete initialize after the user first detect current temperature and air pressure (user is in initial temperature and the initial gas pressure of the most comfortable state) when feeling comfortably cool, do the calibration of an initial value.Here need to prove, temperature, pneumatic parameter value that lineup's body is fit to have been kept in this sensor module, if the difference of initial temperature and initial gas pressure and pre-retention parameter value (preset temperature and default air pressure) is during less than the threshold value (first threshold and the 3rd threshold value) that realizes arranging, this sensor module just is judged as not to be needed this preset temperature and default air pressure are adjusted.Certainly the comfort temperature, the comfortable air pressure that adapt to of different user may have deviation, at this time just needs adjustment preset temperature slightly, default air pressure (be about to initial temperature as new preset temperature, with initial gas pressure as new default air pressure).And the new reference value that the preset temperature after adjusting, default air pressure will change as rear surface temperature adjustment.
Preferably, this controller also is used for controlling this sensor module with one second this current air pressure of sample frequency detection.This second sample frequency of suitable selection also can be saved the electric power resource of mobile terminal.
Preferably, this sensor module comprises a temperature sensor and/or a baroceptor, and wherein the temperature sensing head of this temperature sensor contacts with air, the just variation of temperature sensor better of this temperature sensor like this.
The present invention also provides a kind of temperature control method, and its characteristics are, it adopts mobile terminal as above to realize, comprises the following steps:
Step S
1, this sensor module surveys Current Temperatures;
Step S
2, relatively whether this current temperature identical with this preset temperature for this sensor module, if return to step S
1If not, enter step S
3
Step S
3, this sensor module controls this controller and sends this first adjustment instruction air-conditioner temperature is adjusted to this preset temperature to this infrared dispensing device.
Preferably, step S
1Also comprise before:
Step S
01, initialize this sensor module, and after completing initialization, this sensor module is surveyed an initial temperature;
Step S
02, this sensor module with this initial temperature and this preset temperature relatively, if the difference of this initial temperature and this preset temperature does not reach a first threshold, enter step S
1If the difference of this initial temperature and this preset temperature reaches this first threshold, enter step S
03
Step S
03, be this initial temperature with this preset temperature assignment, enter afterwards step S
1
Preferably, step S
1In this sensor module survey this current temperature with one first sample frequency.
Preferably, step S
2Comprise the following steps:
Step S
21, relatively whether this current temperature identical with this preset temperature for this sensor module, if enter step S
22If not, enter step S
3
Step S
22, this sensor module survey current air pressure and should current air pressure with a default air pressure relatively, if this current air pressure and be somebody's turn to do the difference of presetting air pressure and do not reach a Second Threshold returns to step S
1If this current air pressure reaches this Second Threshold with the difference that should preset air pressure, enter step S
23
Step S
23, this sensor module should send into this controller by current air pressure, the relation of this controller air pressure current according to this and an air pressure of presetting and temperature is calculated and the corresponding strain temperature of this current air pressure, and send one second adjustment instruction air-conditioner temperature is adjusted to this strain temperature to this infrared dispensing device, complete the adjusting of air-conditioner temperature.
Preferably, step S
1Also comprise before:
Step S
01 ', initialize this sensor module, and after completing initialization, this sensor module is surveyed an initial gas pressure;
Step S
02 ', this sensor module with this initial gas pressure with should default air pressure relatively, if this initial gas pressure does not reach one the 3rd threshold value with difference that should default air pressure, enter step S
1If this initial gas pressure reaches the 3rd threshold value with the difference that should preset air pressure, enter step S
03 '
Step S
03 ', should to preset the air pressure assignment be this initial gas pressure, enters afterwards step S
1
Preferably, step S
22In this sensor module survey this current air pressure with one second sample frequency.
Positive progressive effect of the present invention is: mobile terminal of the present invention and temperature control method can be regulated air-conditioner temperature automatically according to the variation of environment temperature, air pressure, air-conditioner temperature is remained at make within the user feels the scope of the most comfortable, removed simultaneously the operation of manual adjustments air-conditioner temperature from, convenient for users to use.
Description of drawings
Fig. 1 is the structured flowchart of the mobile terminal of one embodiment of the invention.
Fig. 2 is the flow chart of the temperature control method of one embodiment of the invention.
The specific embodiment
Provide preferred embodiment of the present invention below in conjunction with accompanying drawing, to describe technical scheme of the present invention in detail.
With reference to figure 1, mobile terminal 1 of the present invention comprises a sensor module 11, a controller 12 and an infrared dispensing device 13, and this infrared dispensing device 13 is used for sending a control instruction of regulating air-conditioner temperature to an air-conditioning, wherein,
This sensor module 11 is used for surveying Current Temperatures and should current temperature and preset temperature comparison, when this current temperature and this preset temperature were not identical, this sensor module was controlled this controller 12 and is sent one first adjustment instruction air-conditioner temperature is adjusted to this preset temperature to this infrared dispensing device 13.
In order to make this mobile terminal can automatically be applicable to the user of different demands to the control of air-conditioner temperature, after this sensor module 11 is completed initialization, this sensor module 11 also is used for surveying an initial temperature and this initial temperature and this preset temperature is compared, when the difference of this initial temperature and this preset temperature reaches a first threshold, be this initial temperature with this preset temperature assignment, be about to this initial temperature as new preset temperature, with as after the benchmark of comparison.
In addition, this controller 12 also is used for controlling this sensor module 11 and surveys this current temperature with one first sample frequency, and those skilled in the art can rationally arrange this first sample frequency to save the resource of mobile terminal 1 according to self needs.
Except the variation of environment temperature can affect body sense comfort level, the variation of air pressure also can make human body not feel well, thus, when this current temperature is identical with this preset temperature, this sensor module 11 also is used for surveying current air pressure and should presets air pressure relatively by current air pressure and one, when this current air pressure reached a Second Threshold with the difference that should preset air pressure, this sensor module 11 should be sent into this controller 12 by current air pressure;
This controller 12 also is used for the relation and the corresponding strain temperature of this current air pressure of barometer calculation current according to this and an air pressure of presetting and temperature, and sends one second adjustment instructions air-conditioner temperature is adjusted to this strain temperature to this infrared dispensing device 13.
Similarly, in order to adapt to the needs of different user, after this sensor module 11 is completed initialization, this sensor module 11 also is used for surveying an initial gas pressure and this initial gas pressure and a default air pressure is compared, when this initial gas pressure reaches the 3rd threshold value with the difference that should preset air pressure, should preset the air pressure assignment is this initial gas pressure, namely to make this initial gas pressure that the user feels comfortably cool should preset air pressure as new.
In addition, this controller 12 also is used for controlling this sensor module with one second this current air pressure of sample frequency detection.
Wherein, this sensor module 11 comprises a temperature sensor and/or a baroceptor (all not showing in figure), and in order to guarantee the Effect on Detecting of this temperature sensor, the temperature sensing head of this temperature sensor contacts with air.
Why mobile terminal can control air-conditioning, because the controller (a for example control chip) of mobile terminal is expanded internal storage, first collected the coding of all remote controllers that may exist on market, then with the inside of these code storage at control chip, these codings are numbered (namely code table) according to the model of electrical equipment, when reality is used, find numbering according to the model of control apparatus in code table, according to instructions for use input numbering, just can use." data " output refers to some instructions are numbered with number, forms a binary number, represents different instruction output.The related data that the controller of mobile terminal is sent sensor module back is encoded, converting ultrared form to launches again, certainly the remote control prerequisite of exchanging is that identical or identical, the concrete remote control of encoding of remote-controlled chip can adopt existing module to realize.
Below with reference to Fig. 2, introduce the temperature control method of one embodiment of the invention, it adopts above-mentioned mobile terminal and comprises the following steps:
Whether step 105, sensor module relatively this current temperature be identical with a preset temperature, if enter step 107; If not, enter step 106.
Comparatively commonly used is to increase a pressure sensor (as sensor module) and an infrarede emitting diode (as infrared dispensing device) on mobile terminal.Under the state that air-conditioning has been opened and temperature is suitable, open this function of automatic control air conditioner temperature, click and enter menu, select to open this function.After receiving instruction, pressure sensor just can be started working.At first, pressure sensor can first detect current temperature and air pressure, does the calibration of an initial value.Here need explanation, kept temperature, pneumatic parameter value that lineup's body is fit in pressure sensor, if when the difference of initial value and pre-retention parameter value is worth less than certain, chip just is judged as not to be needed to adjust.But the comfort level temperature that the somebody adapts to may have deviation, at this time just needs this valve value of adjustment slightly.This group numerical value will be as a reference value of rear surface temperature adjustment variation.
After handling above-mentioned event, pressure sensor is just started working.Receive extraneous air temperature variations, pressure sensor just outputs signal to the control chip (as controller) of mobile terminal, mobile terminal just sends the instruction of opening infrarede emitting diode, by the conversion of data, sends with ultrared form.Air-conditioning just can rise or the decline temperature after receiving ultra-red order like this.
In addition, can by controlling sample frequency, reduce power consumption.The battery capacity of mobile terminal is limited after all, and pressure sensor can not be in a high efficiency duty for a long time.In order to reduce the power consumption of mobile terminal, can adjust the sampling rate of pressure sensor.
In addition, the temperature in the room can not change sometimes, but the variation of air pressure also can directly have influence on the comfort level situation of human body.According to interrelated data, when air pressure has falling of 3KPa~7KPa to fall, just mean that airborne steam is more, air pressure descends, and just needs this moment to reduce temperature, adjusts the low problem of bringing of air pressure.This also can be adjusted by arranging in advance.
Due to the TEMP of pressure sensor part must can be good with the air in the external world mutual, just must be mainly to reserving relevant space in project organization.
Although more than described the specific embodiment of the present invention, it will be understood by those of skill in the art that these only illustrate, protection scope of the present invention is limited by appended claims.Those skilled in the art can make various changes or modifications to these embodiments under the prerequisite that does not deviate from principle of the present invention and essence, but these changes and modification all fall into protection scope of the present invention.
Claims (13)
1. a mobile terminal, is characterized in that, it comprises a sensor module, a controller and an infrared dispensing device, and this infrared dispensing device is used for sending a control instruction of regulating air-conditioner temperature to an air-conditioning, wherein,
This sensor module be used for to be surveyed Current Temperatures and should current temperature and preset temperature comparison, when this current temperature and this preset temperature were not identical, this sensor module was controlled this controller and is sent one first adjustment instruction air-conditioner temperature is adjusted to this preset temperature to this infrared dispensing device.
2. mobile terminal as claimed in claim 1, it is characterized in that, after this sensor module is completed initialization, this sensor module also is used for surveying an initial temperature and this initial temperature and this preset temperature is compared, when the difference of this initial temperature and this preset temperature reaches a first threshold, be this initial temperature with this preset temperature assignment.
3. mobile terminal as claimed in claim 1, is characterized in that, this controller also is used for controlling this sensor module and surveys this current temperature with one first sample frequency.
4. mobile terminal as claimed in claim 1, it is characterized in that, when this current temperature is identical with this preset temperature, this sensor module also is used for surveying current air pressure and should presets air pressure relatively by current air pressure and one, when this current air pressure reached a Second Threshold with the difference that should preset air pressure, this sensor module should be sent into this controller by current air pressure;
This controller also is used for the relation of air pressure current according to this and an air pressure of presetting and temperature and calculates and the corresponding strain temperature of this current air pressure, and sends one second adjustment instruction air-conditioner temperature is adjusted to this strain temperature to this infrared dispensing device.
5. mobile terminal as claimed in claim 4, it is characterized in that, after this sensor module is completed initialization, this sensor module also is used for surveying an initial gas pressure and this initial gas pressure and a default air pressure is compared, when this initial gas pressure reached the 3rd threshold value with the difference that should preset air pressure, should preset the air pressure assignment was this initial gas pressure.
6. mobile terminal as claimed in claim 4, is characterized in that, this controller also is used for controlling this sensor module and surveys this current air pressure with one second sample frequency.
7. mobile terminal as described in any one in claim 1-6, is characterized in that, this sensor module comprises a temperature sensor, and wherein the temperature sensing head of this temperature sensor contacts with air.
8. a temperature control method, is characterized in that, it adopts mobile terminal as claimed in claim 1 to realize, comprises the following steps:
Step S
1, this sensor module surveys Current Temperatures;
Step S
2, relatively whether this current temperature identical with this preset temperature for this sensor module, if return to step S
1If not, enter step S
3
Step S
3, this sensor module controls this controller and sends this first adjustment instruction air-conditioner temperature is adjusted to this preset temperature to this infrared dispensing device.
9. temperature control method as claimed in claim 8, is characterized in that, step S
1Also comprise before:
Step S
01, initialize this sensor module, and after completing initialization, this sensor module is surveyed an initial temperature;
Step S
02, this sensor module with this initial temperature and this preset temperature relatively, if the difference of this initial temperature and this preset temperature does not reach a first threshold, enter step S
1If the difference of this initial temperature and this preset temperature reaches this first threshold, enter step S
03
Step S
03, be this initial temperature with this preset temperature assignment, enter afterwards step S
1
10. temperature control method as claimed in claim 8, is characterized in that, step S
1In this sensor module survey this current temperature with one first sample frequency.
11. temperature control method as claimed in claim 8 is characterized in that, step S
2Comprise the following steps:
Step S
21, relatively whether this current temperature identical with this preset temperature for this sensor module, if enter step S
22If not, enter step S
3
Step S
22, this sensor module survey current air pressure and should current air pressure with a default air pressure relatively, if this current air pressure and be somebody's turn to do the difference of presetting air pressure and do not reach a Second Threshold returns to step S
1If this current air pressure reaches this Second Threshold with the difference that should preset air pressure, enter step S
23
Step S
23, this sensor module should send into this controller by current air pressure, the relation of this controller air pressure current according to this and an air pressure of presetting and temperature is calculated and the corresponding strain temperature of this current air pressure, and send one second adjustment instruction air-conditioner temperature is adjusted to this strain temperature to this infrared dispensing device, complete the adjusting of air-conditioner temperature.
12. temperature control method as claimed in claim 11 is characterized in that, step S
1Also comprise before:
Step S
01 ', initialize this sensor module, and after completing initialization, this sensor module is surveyed an initial gas pressure;
Step S
02 ', this sensor module with this initial gas pressure with should default air pressure relatively, if this initial gas pressure does not reach one the 3rd threshold value with difference that should default air pressure, enter step S
1If this initial gas pressure reaches the 3rd threshold value with the difference that should preset air pressure, enter step S
03 '
Step S
03 ', should to preset the air pressure assignment be this initial gas pressure, enters afterwards step S
1
13. temperature control method as claimed in claim 11 is characterized in that, step S
22In this sensor module survey this current air pressure with one second sample frequency.
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CN 201110421737 CN103162377A (en) | 2011-12-15 | 2011-12-15 | Mobile terminal and temperature regulation method |
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CN104848488A (en) * | 2015-05-15 | 2015-08-19 | 广东欧珀移动通信有限公司 | Temperature control method and device of air conditioner |
WO2015154532A1 (en) * | 2014-09-03 | 2015-10-15 | 中兴通讯股份有限公司 | Heat treatment method and device |
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CN105549109A (en) * | 2015-12-11 | 2016-05-04 | 四川长虹电器股份有限公司 | Scanning method and air-conditioning equipment |
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WO2015154532A1 (en) * | 2014-09-03 | 2015-10-15 | 中兴通讯股份有限公司 | Heat treatment method and device |
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CN105202717A (en) * | 2015-10-30 | 2015-12-30 | 广东美的制冷设备有限公司 | Control method, system and mobile terminal of air conditioner as well as infrared control device |
CN105202717B (en) * | 2015-10-30 | 2018-03-09 | 广东美的制冷设备有限公司 | Control method, system, mobile terminal and the infrared control device of air conditioner |
CN105549109A (en) * | 2015-12-11 | 2016-05-04 | 四川长虹电器股份有限公司 | Scanning method and air-conditioning equipment |
CN105549109B (en) * | 2015-12-11 | 2018-09-25 | 四川长虹电器股份有限公司 | A kind of scan method and air-conditioning equipment |
CN106091274A (en) * | 2016-06-20 | 2016-11-09 | 珠海格力电器股份有限公司 | Air conditioning system and control device, control method |
CN106288150A (en) * | 2016-08-03 | 2017-01-04 | 深圳创维空调科技有限公司 | A kind of temperature control method based on air-conditioning remote control and system |
CN106288150B (en) * | 2016-08-03 | 2019-06-11 | 深圳创维空调科技有限公司 | A kind of temperature control method and system based on air-conditioning remote control |
CN111308900A (en) * | 2020-02-28 | 2020-06-19 | Oppo(重庆)智能科技有限公司 | Intelligent electric appliance, control method and storage medium |
CN111637545A (en) * | 2020-05-29 | 2020-09-08 | 深圳市康贝电子有限公司 | Humidity calibration method, calibration module and dehumidifier |
CN111637545B (en) * | 2020-05-29 | 2021-07-02 | 深圳市康贝电子有限公司 | Humidity calibration method, calibration module and dehumidifier |
WO2023050952A1 (en) * | 2021-09-30 | 2023-04-06 | 海信视像科技股份有限公司 | Control apparatus and control method |
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Application publication date: 20130619 |