CN106595002B - Air-conditioner control method and device - Google Patents

Abstract

The invention discloses a kind of air-conditioner control methods, comprising: calculates carry-on inductance value every prefixed time interval, user's ambient temperature that the carry-on inductance value wearable device detects is calculated；Between the first carry-on sensillary area where determining carry-on inductance value；Corresponding temperature between first carry-on sensillary area is adjusted to the running temperature of air conditioner.The invention also discloses a kind of air conditioner controlling devices.The present invention directly carries out the adjusting of operating parameter according to user's ambient temperature that wearable device detects, so that the adjusting of air conditioner running temperature is more accurate.

Description

Air-conditioner control method and device

Technical field

The present invention relates to air conditioner technical field more particularly to a kind of air-conditioner control methods and device.

Background technique

Air conditioner carries out air-conditioning according to room temperature in operation refrigeration or heating mode, to make user feel comfortable often The adjusting of device operating parameter such as wind speed and set temperature, but between the temperature experienced of room temperature and user with difference only It is adjusted according to room temperature, it is not accurate enough to will lead to room temperature control.

Summary of the invention

The present invention provides a kind of air-conditioner control method and device, main purpose are to solve the control to room temperature Not accurate enough technical problem.

To achieve the above object, the present invention provides a kind of air-conditioner control method, and the air-conditioner control method includes:

Around the carry-on inductance value of prefixed time interval calculating, the user that the carry-on inductance value wearable device detects Temperature computation obtains；

Determine corresponding temperature between the first carry-on sensillary area where the carry-on inductance value；

Corresponding temperature between described first carry-on sensillary area is adjusted to the running temperature of the air conditioner.

Optionally, include: the step of corresponding temperature between the first carry-on sensillary area where the determination carry-on inductance value

Current operational mode is obtained, the operational mode includes refrigeration mode and heating mode；

Corresponding temperature variable between the described first carry-on sensillary area is obtained, and the carry-on sense is obtained according to the operational mode The corresponding temperature fiducial value in section；

Current running temperature is corrected according to the temperature variable, and according to corresponding comparison side between the described first carry-on sensillary area The formula temperature fiducial value and revised current running temperature, and obtain comparison result, wherein the manner of comparison Including being maximized and minimum value；

Using the corresponding temperature of the comparison result as corresponding temperature between the described first carry-on sensillary area.

Optionally, include: the step of corresponding temperature variable between the acquisition first carry-on sensillary area

Obtain user's position parameter corresponding with the distance between the air conditioner；

The temperature variable is calculated according to the carry-on inductance value and the position parameter.

Optionally,

Corresponding manner of comparison is when being maximized between the carry-on sensillary area, and current running temperature is greater than or equal to institute When stating temperature fiducial value, described the step of current running temperature is corrected according to the temperature variable is executed；

Alternatively, corresponding manner of comparison is when being minimized between the carry-on sensillary area, and current running temperature be less than or When equal to the temperature fiducial value, described the step of current running temperature is corrected according to the temperature variable is executed.

Optionally, include: the step of corresponding temperature between the first carry-on sensillary area where the determination carry-on inductance value

Obtain corresponding temperature increment value between the described first carry-on sensillary area；

Corresponding temperature the temperature increment value obtains the described first carry-on sensillary area is increased or decreased between current running temperature Degree.

Optionally, include: the step of corresponding temperature increment value between the acquisition first carry-on sensillary area

Obtain user's position parameter corresponding with the distance between the air conditioner；

The temperature increment value is calculated according to the carry-on inductance value and the position parameter.

In addition, to achieve the above object, the present invention also proposes a kind of air conditioner controlling device, the air conditioner controlling device Include:

Computing module, for calculating carry-on inductance value, the carry-on inductance value wearable device detection every prefixed time interval Obtained user's ambient temperature is calculated；

Determining module, for determining corresponding temperature between the first carry-on sensillary area where the carry-on inductance value；

Module is adjusted, for corresponding temperature between the described first carry-on sensillary area to be adjusted to the operation temperature of the air conditioner Degree.

Optionally, the determining module includes:

First acquisition unit, for obtaining current operational mode every prefixed time interval, the operational mode includes Refrigeration mode and heating mode, and corresponding temperature variable between the first carry-on sensillary area is obtained, and according to the operation mould Formula obtains corresponding temperature fiducial value between the carry-on sensillary area；

Amending unit, for correcting current running temperature according to the temperature variable；

Comparing unit, for according to the manner of comparison temperature fiducial value corresponding between the described first carry-on sensillary area with And revised current running temperature, and obtain comparison result, wherein the manner of comparison includes being maximized and minimum value；

Processing unit, for using the corresponding temperature of the comparison result as corresponding temperature between the described first carry-on sensillary area Degree.

Optionally, the first acquisition unit includes:

Subelement is obtained, for obtaining the corresponding position parameter of the distance between user and the air conditioner；

Computation subunit, for calculating the temperature variable according to the carry-on inductance value and the position parameter.

Optionally, the correction module, is also used to:

Corresponding manner of comparison is when being maximized between the carry-on sensillary area, and current running temperature is greater than or equal to institute When stating temperature fiducial value, current running temperature is corrected according to the temperature variable；

Alternatively, corresponding manner of comparison is when being minimized between the carry-on sensillary area, and current running temperature be less than or When equal to the temperature fiducial value, current running temperature is corrected according to the temperature variable.

Optionally, the determining module includes:

Second acquisition unit, for obtaining corresponding temperature increment value between the described first carry-on sensillary area；

Increment unit obtains the described first sense with oneself for increasing or decreasing the temperature increment value to current running temperature The corresponding temperature in section.

Optionally, the second acquisition unit includes:

Subelement is obtained, for obtaining the corresponding position parameter of the distance between user and the air conditioner；

Computation subunit, for calculating the temperature increment value according to the carry-on inductance value and the position parameter.

Air-conditioner control method and device proposed by the present invention determine according to current user's ambient temperature and calculate sense with oneself Value, and between the first carry-on sensillary area where the determining carry-on inductance value, corresponding temperature between the first carry-on sensillary area is adjusted to The running temperature of the air conditioner, this programme directly carry out operation ginseng according to user's ambient temperature that wearable device detects Several adjusting, so that the adjusting of air conditioner running temperature is more accurate.

Detailed description of the invention

Fig. 1 is the flow diagram of the air condition of that present invention control method first embodiment；

Fig. 2 is between the first carry-on sensillary area where carry-on inductance value determining in the air condition of that present invention control method second embodiment The refinement flow diagram of the step of corresponding temperature；

Fig. 3 is the first sense with oneself where determining carry-on inductance value in the air condition of that present invention control control method 3rd embodiment The journey schematic diagram of the step of corresponding temperature in section；

Fig. 4 is the functional block diagram of the air condition of that present invention control device first embodiment；

Fig. 5 is the refinement the functional block diagram that module is adjusted in the air condition of that present invention control device second embodiment；

Fig. 6 is the functional block diagram of the air condition of that present invention control device 3rd embodiment.

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.

The present invention provides a kind of air-conditioner control method.

Referring to Fig.1, Fig. 1 is the flow diagram of the air condition of that present invention control method first embodiment.

The present embodiment proposes a kind of air-conditioner control method, which includes:

Step S10 calculates carry-on inductance value every prefixed time interval, what the carry-on inductance value wearable device detected User's ambient temperature is calculated；

User's ambient temperature can detect to obtain by the wearable device that user wears, and temperature is arranged on wearable device and passes Sensor, the room temperature that each prefixed time interval is arrived to air conditioner uploading detection, air conditioner make the room temperature received For user's ambient temperature.

When air conditioner is in the awake mode of sense with oneself, using wind speed and the distance between user and air conditioner to carry-on Inductance value is modified, i.e., carry-on inductance value AMV=K (Ta+A1+A2)-H, and wind speed is corresponding with correction value A1, user and the air conditioner The distance between to be corresponding with correction value A2, K and H be constant, K and H can determine that the activity of user is not by the activity of user It is different with corresponding K and H.

When air conditioner is in sleep sense mode with oneself, radiation temperature, user's sleep state, prefixed time interval can be used Interior movement step number and/or body temperature etc. are modified data to carry-on sense, such as AMV=KTa+LTr+M, wherein Ta is to use Family ambient temperature, Tr are radiation temperature, and K, L and M can also be determined otherwise for constant, such as the movement step number of user And the data such as current point in time, Tr=Ta+A1, A1 are the first correction value.The judgement that awake sense with oneself and sleep are felt with oneself It is determined by whether the activity or current point in time of user are located at sleep period.

Step S20 is determined between the first carry-on sensillary area where the carry-on inductance value；

Corresponding temperature between described first carry-on sensillary area is adjusted to the running temperature of the air conditioner by step S30.

The carry-on inductance value being calculated can be divided between multiple carry-on sensillary areas and be controlled, avoid fluctuating due to carry-on inductance value The inaccuracy for causing temperature to adjust, specifically the division with oneself between sensillary area can be set as needed by developer, specifically Delimitation value corresponding with K, H, A1 and A2 between carry-on sensillary area is related, and details are not described herein.It can be set between different carry-on sensillary areas Fixed different temperature can also set different temperature adjustable strategies very trip temperature and adjust.

It is understood that if the temperature difference between the first carry-on sensillary area between corresponding temperature and current set temperature too Greatly, it running temperature be disposably adjusted to corresponding temperature between the first carry-on sensillary area may result in user and feel not comfortable enough, Then default degree can be adjusted every prefixed time interval, the corresponding temperature between running temperature to be adjusted to the first carry-on sensillary area Degree, so that user's impression is more comfortable.

Between the described first carry-on sensillary area between the second carry-on sensillary area where the upper carry-on inductance value being once calculated not Meanwhile corresponding time interval between the first carry-on sensillary area is obtained, using between the corresponding time between the described first carry-on sensillary area Every the update prefixed time interval.The corresponding time interval for updating running temperature is different between different carry-on sensillary areas, can lead to It crosses renewal time interval and improves the comfort level of user, while reducing the number for calculating carry-on inductance value, save the energy consumption of air conditioner.? When identical between the second carry-on sensillary area between first carry-on sensillary area, keep the prefixed time interval constant

The air-conditioner control method that the present embodiment proposes determines the carry-on inductance value of calculating according to current user's ambient temperature, And between the first carry-on sensillary area where the determining carry-on inductance value, corresponding temperature between the first carry-on sensillary area is adjusted to described The running temperature of air conditioner, this programme directly carry out operating parameter according to user's ambient temperature that wearable device detects It adjusts, so that the adjusting of air conditioner running temperature is more accurate.

Further, referring to Fig. 2, the air condition of that present invention control method second embodiment is proposed based on first embodiment, In the present embodiment, the step S20 includes:

Step S21, obtains current operational mode, and the operational mode includes refrigeration mode and heating mode；

Step S22 obtains corresponding temperature variable between the first carry-on sensillary area, and obtains institute according to the operational mode State corresponding temperature fiducial value between carry-on sensillary area；

Step S23 corrects current running temperature according to the temperature variable, and according to corresponding between the described first carry-on sensillary area The manner of comparison temperature fiducial value and revised current running temperature, and obtain comparison result, wherein described Manner of comparison includes being maximized and minimum value；

Step S24, using the corresponding temperature of the comparison result as corresponding temperature between the described first carry-on sensillary area.

Corresponding user experiences different between each sensillary area with oneself, such as corresponding user's impression can divide between each carry-on sensillary area Wei not be cold, colder, cool, comfortable, warm, hotter and hot, corresponding user is felt as cold, colder, cool between the first carry-on sensillary area When corresponding manner of comparison can be to be maximized, when corresponding user is felt as comfortable between the first carry-on sensillary area, set temperature Constant, corresponding manner of comparison is to be minimized when corresponding user is felt as warming up, being hotter and hot between the first carry-on sensillary area, The temperature fiducial value heating mode and refrigeration mode difference.Corresponding temperature variable is different between different sensillary areas with oneself, which becomes Amount can be the preset temperature variable value of developer, can also be calculated according to other conditions.

When different from the distance between air conditioner due to user, the impression of user is different, then needs according to user and air-conditioning The step of the distance between device adjusts the running temperature of air conditioner, that is, obtains corresponding temperature variable between the described first carry-on sensillary area Include:

Obtain user's position parameter corresponding with the distance between the air conditioner；

The temperature variable is calculated according to the carry-on inductance value and the position parameter.

User is different from the distance between air conditioner, and corresponding position parameter is also different, can be by position parameter and carry-on inductance value Between product subtract temperature variable as temperature variable, and to current running temperature to be modified to current running temperature, It will be compared between revised running temperature and temperature fiducial value, i.e., corresponding user is felt as between the first carry-on sensillary area Corresponding manner of comparison can be TS (n+1)=max (TSn-AMV*C, Tb) when cold, colder, cool, corresponding between the first carry-on sensillary area User when being felt as comfortable, TS (n+1)=TSn, corresponding user is felt as warming up, is hotter and hot between the first carry-on sensillary area When, TS (n+1)=min (TSn-AMV*C, Tb), Tb are temperature fiducial value, and TSn is current running temperature, and AMV is carry-on inductance value, C is position parameter, and corresponding Tb is different between different carry-on sensillary areas.

It is understood that corresponding manner of comparison is to be maximized between the carry-on sensillary area, and current running temperature When more than or equal to the temperature fiducial value, described the step of current running temperature is corrected according to the temperature variable is executed；Or Person, corresponding manner of comparison is to be minimized, and current running temperature is less than or equal to the temperature between the carry-on sensillary area When fiducial value, described the step of current running temperature is corrected according to the temperature variable is executed.

Corresponding manner of comparison is when being maximized between the carry-on sensillary area, and current running temperature is less than the temperature ratio When compared with value, or between the carry-on sensillary area corresponding manner of comparison is to be minimized, and current running temperature is greater than the temperature When spending fiducial value, running temperature is constant.

In technical solution disclosed in the present embodiment, directly by comparing the correction value of running temperature and the temperature ratio of setting Compared with value to determine object run temperature, the object run temperature made is more accurate.

Further, referring to Fig. 3, the air condition of that present invention control method 3rd embodiment is proposed based on first embodiment, In the present embodiment, step S20 includes:

Step S25 obtains corresponding temperature increment value between the first carry-on sensillary area；

Step S26 increases or decreases the temperature increment value obtains the described first carry-on sensillary area current running temperature Corresponding temperature.

TS (n+1)=TSn+Z or TS (n+1)=TSn-Z, Z are temperature increment value, corresponding use between each sensillary area with oneself Family impression is different, for example, between each carry-on sensillary area corresponding user's impression may respectively be it is cold, colder, cool, comfortable, warm, hotter with And heat, TS (n+1)=TSn+Z when corresponding user is felt as cold, colder, cool between the first carry-on sensillary area, in the first sense with oneself When the corresponding user in section is felt as comfortable, TS (n+1)=TSn, between the first carry-on sensillary area corresponding user be felt as warming up, compared with TS (n+1)=TSn-Z when heat and heat, the temperature fiducial value heating mode and refrigeration mode difference.It is right between different sensillary areas with oneself The temperature increment value answered is different, which can be the preset temperature variable value of developer, can also be according to other conditions It is calculated, such as TS (n+1)=TSn+AMV*C or TS (n+1)=TSn-AMV*C, AMV are carry-on inductance value, C is position system Number, i.e. step S21 include: to obtain user's position parameter corresponding with the distance between the air conditioner；According to the carry-on sense Value and the position parameter calculate the temperature increment value.

It is understood that when air conditioner is in the awake mode of sense with oneself, it can be according to the corresponding temperature of second embodiment Shaping modes carry out running temperature adjusting, can be corresponding according to 3rd embodiment when air conditioner is in sleep sense mode with oneself Temperature shaping modes carry out running temperature adjusting, such as are located in preset recovery time section or at user in current point in time When active state, running temperature adjusting is carried out according to the corresponding temperature shaping modes of second embodiment, in current time point It, can be according to 3rd embodiment in preset sleep period or when duration that user remains static is greater than preset duration Corresponding temperature shaping modes carry out running temperature adjusting.

The present invention further provides a kind of air conditioner controlling devices.

It is the functional block diagram of the air condition of that present invention control device first embodiment referring to Fig. 4, Fig. 4.

It is emphasized that it will be apparent to those skilled in the art that functional block diagram shown in Fig. 4 is only one preferably real The exemplary diagram of example is applied, those skilled in the art surrounds the functional module of air conditioner controlling device shown in Fig. 4, can carry out easily The supplement of new functional module；The title of each functional module is self-defined title, is only used for each of assisted air conditioner control device A program function block is not used in restriction technical solution of the present invention, and the core of technical solution of the present invention is, each self-defined title The function to be reached of functional module.

The present embodiment proposes a kind of air conditioner controlling device, which includes:

Computing module 10, for calculating carry-on inductance value, the carry-on inductance value wearable device inspection every prefixed time interval The user's ambient temperature measured is calculated；

User's ambient temperature can detect to obtain by the wearable device that user wears, and temperature is arranged on wearable device and passes Sensor, the room temperature that each prefixed time interval is arrived to air conditioner uploading detection, air conditioner make the room temperature received For user's ambient temperature.

When air conditioner is in the awake mode of sense with oneself, using wind speed and the distance between user and air conditioner to carry-on Inductance value is modified, i.e., carry-on inductance value AMV=K (Ta+A1+A2)-H, and wind speed is corresponding with correction value A1, user and the air conditioner The distance between to be corresponding with correction value A2, K and H be constant, K and H can determine that the activity of user is not by the activity of user It is different with corresponding K and H.

When air conditioner is in sleep sense mode with oneself, radiation temperature, user's sleep state, prefixed time interval can be used Interior movement step number and/or body temperature etc. are modified data to carry-on sense, such as AMV=KTa+LTr+M, wherein Ta is to use Family ambient temperature, Tr are radiation temperature, and K, L and M can also be determined otherwise for constant, such as the movement step number of user And the data such as current point in time, Tr=Ta+A1, A1 are the first correction value.The judgement that awake sense with oneself and sleep are felt with oneself It is determined by whether the activity or current point in time of user are located at sleep period.

Determining module 20, for determining between the first carry-on sensillary area where the carry-on inductance value；

Module 30 is adjusted, for corresponding temperature between the described first carry-on sensillary area to be adjusted to the operation temperature of the air conditioner Degree.

The carry-on inductance value being calculated can be divided between multiple carry-on sensillary areas and be controlled, avoid fluctuating due to carry-on inductance value The inaccuracy for causing temperature to adjust, specifically the division with oneself between sensillary area can be set as needed by developer, specifically Delimitation value corresponding with K, H, A1 and A2 between carry-on sensillary area is related, and details are not described herein.It can be set between different carry-on sensillary areas Fixed different temperature can also set different temperature adjustable strategies very trip temperature and adjust.

It is understood that if the temperature difference between the first carry-on sensillary area between corresponding temperature and current set temperature too Greatly, it running temperature be disposably adjusted to corresponding temperature between the first carry-on sensillary area may result in user and feel not comfortable enough, Then default degree can be adjusted every prefixed time interval, the corresponding temperature between running temperature to be adjusted to the first carry-on sensillary area Degree, so that user's impression is more comfortable.

It is understood that between the described first carry-on sensillary area with second where the upper carry-on inductance value being once calculated When different between carry-on sensillary area, corresponding time interval between the first carry-on sensillary area is obtained, with right between the described first carry-on sensillary area The time interval answered updates the prefixed time interval.The corresponding time interval for updating running temperature between different carry-on sensillary areas Difference can be improved the comfort level of user by renewal time interval, while reduce the number for calculating carry-on inductance value, and air conditioner is saved Energy consumption.When identical between the second carry-on sensillary area between the first carry-on sensillary area, keep the prefixed time interval constant

The air conditioner controlling device that the present embodiment proposes determines the carry-on inductance value of calculating according to current user's ambient temperature, And between the first carry-on sensillary area where the determining carry-on inductance value, corresponding temperature between the first carry-on sensillary area is adjusted to described The running temperature of air conditioner, this programme directly carry out operating parameter according to user's ambient temperature that wearable device detects It adjusts, so that the adjusting of air conditioner running temperature is more accurate.

Further, referring to Fig. 5, the air condition of that present invention control device second embodiment is proposed based on first embodiment, In the present embodiment, determining module 20 includes:

First acquisition unit 31, for obtaining current operational mode, the operational mode packet every prefixed time interval Refrigeration mode and heating mode are included, and obtains corresponding temperature variable between the first carry-on sensillary area, and according to the operation Corresponding temperature fiducial value between carry-on sensillary area described in pattern acquiring；

Amending unit 32, for correcting current running temperature according to the temperature variable；

Comparing unit 33, for according to the manner of comparison temperature fiducial value corresponding between the described first carry-on sensillary area And revised current running temperature, and obtain comparison result, wherein the manner of comparison includes being maximized and minimum Value；

Processing unit 34, for using the corresponding temperature of the comparison result as corresponding temperature between the described first carry-on sensillary area Degree degree.

Corresponding user experiences different between each sensillary area with oneself, such as corresponding user's impression can divide between each carry-on sensillary area Wei not be cold, colder, cool, comfortable, warm, hotter and hot, corresponding user is felt as cold, colder, cool between the first carry-on sensillary area When corresponding manner of comparison can be to be maximized, when corresponding user is felt as comfortable between the first carry-on sensillary area, set temperature Constant, corresponding manner of comparison is to be minimized when corresponding user is felt as warming up, being hotter and hot between the first carry-on sensillary area, The temperature fiducial value heating mode and refrigeration mode difference.Corresponding temperature variable is different between different sensillary areas with oneself, which becomes Amount can be the preset temperature variable value of developer, can also be calculated according to other conditions.

When different from the distance between air conditioner due to user, the impression of user is different, then needs according to user and air-conditioning The distance between device adjusts the running temperature of air conditioner, i.e. first acquisition unit 31 includes:

Subelement is obtained, for obtaining the corresponding position parameter of the distance between user and the air conditioner；

Computation subunit, for calculating the temperature variable according to the carry-on inductance value and the position parameter.

User is different from the distance between air conditioner, and corresponding position parameter is also different, can be by position parameter and carry-on inductance value Between product subtract temperature variable as temperature variable, and to current running temperature to be modified to current running temperature, It will be compared between revised running temperature and temperature fiducial value, i.e., corresponding user is felt as between the first carry-on sensillary area Corresponding manner of comparison can be TS (n+1)=max (TSn-AMV*C, Tb) when cold, colder, cool, corresponding between the first carry-on sensillary area User when being felt as comfortable, TS (n+1)=TSn, corresponding user is felt as warming up, is hotter and hot between the first carry-on sensillary area When, TS (n+1)=min (TSn-AMV*C, Tb), Tb are temperature fiducial value, and TSn is current running temperature, and AMV is carry-on inductance value, C is position parameter, and corresponding Tb is different between different carry-on sensillary areas.

It is understood that correction module, being also used to the corresponding manner of comparison between the carry-on sensillary area is to be maximized When, and when current running temperature is greater than or equal to the temperature fiducial value, current running temperature is corrected according to the temperature variable； Alternatively, corresponding manner of comparison is when being minimized between the carry-on sensillary area, and current running temperature be less than or equal to it is described When temperature fiducial value, current running temperature is corrected according to the temperature variable.

Corresponding manner of comparison is when being maximized between the carry-on sensillary area, and current running temperature is less than the temperature ratio When compared with value, or between the carry-on sensillary area corresponding manner of comparison is to be minimized, and current running temperature is greater than the temperature When spending fiducial value, running temperature is constant.

In technical solution disclosed in the present embodiment, directly by comparing the correction value of running temperature and the temperature ratio of setting Compared with value to determine object run temperature, the object run temperature made is more accurate.

Further, referring to Fig. 6, the air condition of that present invention control device 3rd embodiment is proposed based on first embodiment, In the present embodiment, the determining module 20 includes:

Second acquisition unit 23, for obtaining corresponding temperature increment value between the described first carry-on sensillary area；

Increment unit 24 obtains described first with oneself for increasing or decreasing the temperature increment value to current running temperature Corresponding temperature between sensillary area.

TS (n+1)=TSn+Z or TS (n+1)=TSn-Z, Z are temperature increment value, corresponding use between each sensillary area with oneself Family impression is different, for example, between each carry-on sensillary area corresponding user's impression may respectively be it is cold, colder, cool, comfortable, warm, hotter with And heat, TS (n+1)=TSn+Z when corresponding user is felt as cold, colder, cool between the first carry-on sensillary area, in the first sense with oneself When the corresponding user in section is felt as comfortable, TS (n+1)=TSn, between the first carry-on sensillary area corresponding user be felt as warming up, compared with TS (n+1)=TSn-Z when heat and heat, the temperature fiducial value heating mode and refrigeration mode difference.It is right between different sensillary areas with oneself The temperature increment value answered is different, which can be the preset temperature variable value of developer, can also be according to other conditions It is calculated, such as TS (n+1)=TSn+AMV*C or TS (n+1)=TSn-AMV*C, AMV are carry-on inductance value, C is position system Number, i.e., second acquisition unit 23 includes: acquisition subelement, for obtaining the corresponding position of the distance between user and the air conditioner Set coefficient；Computation subunit, for calculating the temperature increment value according to the carry-on inductance value and the position parameter.

It is understood that when air conditioner is in the awake mode of sense with oneself, it can be according to the corresponding temperature of second embodiment Shaping modes carry out running temperature adjusting, can be corresponding according to 3rd embodiment when air conditioner is in sleep sense mode with oneself Temperature shaping modes carry out running temperature adjusting, such as are located in preset recovery time section or at user in current point in time When active state, running temperature adjusting is carried out according to the corresponding temperature shaping modes of second embodiment, in current time point It, can be according to 3rd embodiment in preset sleep period or when duration that user remains static is greater than preset duration Corresponding temperature shaping modes carry out running temperature adjusting.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or device.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art The part contributed out can be embodied in the form of software products, which is stored in a storage medium In (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that a terminal device (can be mobile phone, computer, cloud Hold server, air conditioner or the network equipment etc.) method that executes each embodiment of the present invention.

The above is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills Art field, is included within the scope of the present invention.

Claims (12)

1. a kind of air-conditioner control method, which is characterized in that the air-conditioner control method includes:

Carry-on inductance value is calculated every prefixed time interval, the carry-on inductance value is calculated by user's ambient temperature, the user Ambient temperature is the room temperature that wearable device detects；

Determine corresponding temperature between the first carry-on sensillary area where the carry-on inductance value；

Corresponding temperature between described first carry-on sensillary area is adjusted to the running temperature of the air conditioner；

Wherein, include: the step of corresponding temperature between the first carry-on sensillary area where the determination carry-on inductance value

Obtain corresponding temperature variable and temperature fiducial value between the described first carry-on sensillary area；

Current running temperature, the temperature fiducial value and revised current operation temperature are corrected according to the temperature variable Degree obtains corresponding temperature between the first carry-on sensillary area where the carry-on inductance value.

2. air-conditioner control method as described in claim 1, which is characterized in where the determination carry-on inductance value The step of corresponding temperature, includes: between one carry-on sensillary area

Current operational mode is obtained, the operational mode includes refrigeration mode and heating mode；

It obtains corresponding temperature variable between the described first carry-on sensillary area, and is obtained between the carry-on sensillary area according to the operational mode Corresponding temperature fiducial value；

Current running temperature is corrected according to the temperature variable, and according to manner of comparison ratio corresponding between the described first carry-on sensillary area The temperature fiducial value and revised current running temperature, and obtain comparison result, wherein the manner of comparison includes It is maximized and minimum value；

Using the corresponding temperature of the comparison result as corresponding temperature between the described first carry-on sensillary area.

3. air-conditioner control method as claimed in claim 2, which is characterized in that right between the acquisition first carry-on sensillary area The step of temperature variable answered includes:

Obtain user's position parameter corresponding with the distance between the air conditioner；

The temperature variable is calculated according to the carry-on inductance value and the position parameter.

4. air-conditioner control method as claimed in claim 2, which is characterized in that

Corresponding manner of comparison is when being maximized between the carry-on sensillary area, and current running temperature is greater than or equal to the temperature When spending fiducial value, described the step of current running temperature is corrected according to the temperature variable is executed；

Alternatively, corresponding manner of comparison is when being minimized between the carry-on sensillary area, and current running temperature is less than or equal to When the temperature fiducial value, described the step of current running temperature is corrected according to the temperature variable is executed.

5. air-conditioner control method as described in claim 1, which is characterized in where the determination carry-on inductance value The step of corresponding temperature, includes: between one carry-on sensillary area

Obtain corresponding temperature increment value between the described first carry-on sensillary area；

Corresponding temperature the temperature increment value obtains the described first carry-on sensillary area is increased or decreased between current running temperature.

6. air-conditioner control method as claimed in claim 5, which is characterized in that right between the acquisition first carry-on sensillary area The step of temperature increment value answered includes:

Obtain user's position parameter corresponding with the distance between the air conditioner；

The temperature increment value is calculated according to the carry-on inductance value and the position parameter.

7. a kind of air conditioner controlling device, which is characterized in that the air conditioner controlling device includes:

Computing module, for calculating carry-on inductance value every prefixed time interval, the carry-on inductance value is calculated by user's ambient temperature It obtains, user's ambient temperature is the room temperature that wearable device detects；

Determining module, for determining corresponding temperature between the first carry-on sensillary area where the carry-on inductance value, wherein the determination The step of corresponding temperature includes: right between obtaining the first carry-on sensillary area between the first carry-on sensillary area where the carry-on inductance value The temperature variable and temperature fiducial value answered；Current running temperature, the temperature fiducial value are corrected according to the temperature variable And revised current running temperature obtains corresponding temperature between the first carry-on sensillary area where the carry-on inductance value；

Module is adjusted, for corresponding temperature between the described first carry-on sensillary area to be adjusted to the running temperature of the air conditioner.

8. air conditioner controlling device as claimed in claim 7, which is characterized in that the determining module includes:

First acquisition unit, for obtaining current operational mode every prefixed time interval, the operational mode includes refrigeration Mode and heating mode, and corresponding temperature variable between the first carry-on sensillary area is obtained, and obtain according to the operational mode Take corresponding temperature fiducial value between the carry-on sensillary area；

Amending unit, for correcting current running temperature according to the temperature variable；

Comparing unit, for according to manner of comparison corresponding between the described first carry-on sensillary area temperature fiducial value and repairing Current running temperature after just, and obtain comparison result, wherein the manner of comparison includes being maximized and minimum value；

Processing unit, for using the corresponding temperature of the comparison result as corresponding temperature between the described first carry-on sensillary area.

9. air conditioner controlling device as claimed in claim 8, which is characterized in that the first acquisition unit includes:

Subelement is obtained, for obtaining the corresponding position parameter of the distance between user and the air conditioner；

Computation subunit, for calculating the temperature variable according to the carry-on inductance value and the position parameter.

10. air conditioner controlling device as claimed in claim 8, which is characterized in that the correction module is also used to:

Corresponding manner of comparison is when being maximized between the carry-on sensillary area, and current running temperature is greater than or equal to the temperature When spending fiducial value, current running temperature is corrected according to the temperature variable；

Alternatively, corresponding manner of comparison is when being minimized between the carry-on sensillary area, and current running temperature is less than or equal to When the temperature fiducial value, current running temperature is corrected according to the temperature variable.

11. air conditioner controlling device as claimed in claim 7, which is characterized in that the determining module includes:

Second acquisition unit, for obtaining corresponding temperature increment value between the described first carry-on sensillary area；

Increment unit, for being increased or decreased the temperature increment value obtains the described first carry-on sensillary area between current running temperature Corresponding temperature.

12. air conditioner controlling device as claimed in claim 11, which is characterized in that the second acquisition unit includes:

Subelement is obtained, for obtaining the corresponding position parameter of the distance between user and the air conditioner；

Computation subunit, for calculating the temperature increment value according to the carry-on inductance value and the position parameter.