CN105202705B - For the control method and device of air conditioner - Google Patents

Abstract

The present invention proposes a kind of control method and device for air conditioner, which includes the activity situation for detecting human body in preset time range；The sports fatigue degree of human body is judged according to activity situation, to obtain corresponding sports fatigue state parameter；According to the corresponding preset rules of sports fatigue state parameter and the current operating conditions parameter of air conditioner, control air conditioner adjustment operating status or to remain operational state constant.The operating status of air conditioner can be automatically adjusted according to the activity situation of human body by the present invention, effectively promotes user experience.

Description

For the control method and device of air conditioner

Technical field

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

Background technology

Now with being constantly progressive and user's improvement of living standard, more and more home appliances for smart home technology It can realize intelligent operating.It, can be according to itself need to temperature when user adjusts indoor temperature using air-conditioner device Ask, manually adjust air-conditioner device heated or freezed, for example, when user movement for a period of time after may feel that fatigue, At this point, user wishes to set air-conditioner device to a suitable operating status, to help itself fatigue-relieving sense.

In the prior art, user can adjust the operating status of air-conditioner device by manually mode, to help certainly Body alleviate post exercise feeling of fatigue, still, user and what kind of conditioners running conditions be unaware of being capable of effective fatigue-relieving Sense, poor user experience.

Invention content

The present invention is directed to solve at least some of the technical problems in related technologies.

For this purpose, an object of the present invention is to provide a kind of control method for air conditioner, it can be according to human body Activity situation automatically adjusts the operating status of air conditioner, effectively promotes user experience.

It is another object of the present invention to propose a kind of control device for air conditioner.

In order to achieve the above objectives, the control method for air conditioner that first aspect present invention embodiment proposes, including：Inspection Survey the activity situation of human body in preset time range；The sports fatigue journey of the human body is judged according to the activity situation Degree, to obtain corresponding sports fatigue state parameter；According to the corresponding preset rules of the sports fatigue state parameter and air-conditioning The current operating conditions parameter of device controls the air conditioner adjustment operating status or keeps the operating status constant.

The control method for air conditioner that first aspect present invention embodiment proposes, by being lived according to the human body detected Momentum situation obtains corresponding sports fatigue state parameter, and according to the corresponding preset rules of sports fatigue state parameter and air-conditioning The current operating conditions parameter of device, control air conditioner adjustment operating status or to remain operational state constant can be according to human body Activity situation automatic adjustment air conditioner operating status, effectively promote user experience.

In order to achieve the above objectives, the control device for air conditioner that second aspect of the present invention embodiment proposes, including：It is living Momentum situation detection module, for detecting the activity situation of human body in preset time range；Sports fatigue state parameter obtains Modulus block, for judging the sports fatigue degree of the human body according to the activity situation, to obtain corresponding sports fatigue State parameter；Operating status control module, for according to the corresponding preset rules of the sports fatigue state parameter and air conditioner Current operating conditions parameter, control air conditioner adjustment operating status or keep the operating status constant.

The control device for air conditioner that second aspect of the present invention embodiment proposes, by being lived according to the human body detected Momentum situation obtains corresponding sports fatigue state parameter, and according to the corresponding preset rules of sports fatigue state parameter and air-conditioning The current operating conditions parameter of device, control air conditioner adjustment operating status or to remain operational state constant can be according to human body Activity situation automatic adjustment air conditioner operating status, effectively promote user experience.

The additional aspect of the present invention and advantage will be set forth in part in the description, and will partly become from the following description It obtains significantly or is recognized by the practice of the present invention.

Description of the drawings

Above-mentioned and/or additional aspect and advantage of the invention will become from the following description of the accompanying drawings of embodiments Significantly and it is readily appreciated that, wherein：

Fig. 1 is the flow diagram for the control method for air conditioner that one embodiment of the invention proposes；

Fig. 2 is the system structure diagram of intelligent wearable device in the embodiment of the present invention；

Fig. 3 is the system interaction schematic diagram of intelligent wearable device and air conditioner in the embodiment of the present invention；

Fig. 4 is the system interaction schematic diagram of Intelligent bracelet and air conditioner in the embodiment of the present invention；

Fig. 5 is the system structure diagram of Intelligent bracelet in the embodiment of the present invention；

Fig. 6 is the system structure diagram of air conditioner in the embodiment of the present invention；

Fig. 7 is the flow diagram for the control method for air conditioner that another embodiment of the present invention proposes；

Fig. 8 is the structure diagram for the control device for air conditioner that another embodiment of the present invention proposes；

Fig. 9 is the structure diagram for the control device for air conditioner that another embodiment of the present invention proposes；

Figure 10 is the structure diagram for the control device for air conditioner that another embodiment of the present invention proposes.

Specific embodiment

The embodiment of the present invention is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the present invention, and is not considered as limiting the invention.On the contrary, this The embodiment of invention includes falling into all changes in the range of the spirit and intension of attached claims, modification and equivalent Object.

Fig. 1 is the flow diagram for the control method for air conditioner that one embodiment of the invention proposes, this method includes：

S11：Detect the activity situation of human body in preset time range.

The executive agent of the present embodiment is intelligent wearable device.

Intelligent wearable device such as watch, Intelligent bracelet and intelligent shoe.

Wherein, activity situation is the movement step number of human body in preset time range, and the movement step number of human body can use M It represents.

Optionally, preset time range can according to demand be preset by user.

Preset time range is, for example, section (t1, t2), wherein, t1<=07:00, t2>=19:00.

It is, for example, 5000 steps to move step number M.

For example, intelligent wearable device detection is in preset time range (07:00,19:00) the movement step number M of human body is in 7000 steps.

In the present embodiment, the system structure of intelligent wearable device can be with as shown in Fig. 2, wherein, intelligent wearable device 20 be wrapped Include battery and charging module 201, wireless communication module 202, activity situation detection module 203 and other modules 204.Electricity Pond is used to provide electric energy to intelligent wearable device with charging module 201, and wireless communication module 202 is used to realize with air conditioner wireless Communication connection, further to realize the remote control to air conditioner, wherein, wireless communication connection mode is bluetooth or WIFI. Activity situation detection module 203 is used to detect the activity situation of human body, and other modules 204 are used for integrated intelligent wearable device Other function modules.

In the present embodiment, the system interaction block diagram of intelligent wearable device and air conditioner may refer to Fig. 3, wherein, human body Intelligent wearable device detects human activity amount situation, and according to the corresponding sports fatigue degree of the human activity amount situation detected Parameter automatically adjusts the current operating conditions parameter of air conditioner so that air conditioner is run with being suitable for the state of human body.

By taking intelligent wearable device is Intelligent bracelet as an example, the system interaction block diagram of Intelligent bracelet and air conditioner may refer to figure 4。

Specifically, the system structure of Intelligent bracelet can be with as shown in figure 5, wherein, Intelligent bracelet 50 includes battery and charging Module 501, bluetooth module 502, motor driving module 503, acceleration sensor module 504 and button and display module 505.Wherein, battery is used to provide electric energy to Intelligent bracelet with charging module 501, and bluetooth module 502 is used for the wireless of bluetooth Communication mode realizes wireless communication connection with air conditioner, further to realize the remote control to air conditioner, motor driving module 503 for driving Intelligent bracelet to work, and acceleration sensor module 504 is used to detect the acceleration of human body during the motion Degree, button are used to show the activity situation of human body with display module 505.

S12：The sports fatigue degree of human body is judged according to activity situation, is joined with obtaining corresponding sports fatigue state Number.

Optionally, the sports fatigue degree of human body can be represented with P.

Wherein, sports fatigue state parameter includes the first sports fatigue state parameter, the second sports fatigue state parameter, with And third sports fatigue state parameter.

First sports fatigue state parameter can represent that P1 is used to represent that the sports fatigue degree of human body to be excessively tired with P1 Labor state.

Second sports fatigue state parameter can represent that P2 is used to represent that the sports fatigue degree of human body to be tired for appropriateness with P2 Labor state.

Third sports fatigue state parameter can represent that P3 is used to represent the sports fatigue degree of human body easily to relax with P3 Suitable state.

Optionally, the sports fatigue degree of human body is judged according to activity situation, to obtain corresponding sports fatigue state Parameter, including：If moving step number is more than the first step number threshold value, judge that sports fatigue degree is joined for the first sports fatigue state Number；If moving step number is less than the first step number threshold value and more than the second step number threshold value, judge sports fatigue degree for the second fortune Dynamic fatigue state parameter；If moving step number is less than the second step number threshold value, judge sports fatigue degree for third sports fatigue State parameter.

Wherein, the first step number threshold value and the second step number threshold value can be preset by intelligent wearable device plug-in.

First step number threshold value can be represented with M1.

In the present embodiment, M1 can be using value as more than or equal to 10000 steps.

Second step number threshold value can be represented with M2.

In the present embodiment, M2 can be using value as less than or equal to 6000 steps.

S13：According to the corresponding preset rules of sports fatigue state parameter and the current operating conditions parameter of air conditioner, control Air conditioner adjusts operating status or to remain operational state constant.

Wherein, referring to Fig. 6, Fig. 6 is the system structure diagram of air conditioner, wherein, it is automatically controlled that air conditioner 60 includes air conditioner System 601 and wireless communication module 602.Wherein, air conditioner electric-control system 601 is for controlling air conditioner to work, radio communication mold Block 602 is used to realize wireless communication connection with intelligent wearable device, and wireless communication connection mode is bluetooth or WIFI.

Optionally, current operating conditions parameter can include set temperature value, the wind speed setting of air conditioner.

Wherein, set temperature value can be represented with T1, and wind speed setting can be represented with S.

Set temperature value is, for example, 27 DEG C, and wind speed setting is, for example, high wind.

Optionally, which further includes：Intelligent wearable device detects the current operation of air conditioner State parameter.

By detecting the current operating conditions parameter of air conditioner, by the set temperature value in current operating conditions parameter and in advance If temperature threshold compares, to generate control instruction, and support intelligent wearable device that current operating conditions parameter is adjusted.

For example, intelligent wearable device detects that the current operating conditions parameter of air conditioner is 27 DEG C of set temperature value, set The high wind of wind speed.

Optionally, according to the corresponding preset rules of sports fatigue state parameter and the current operating conditions parameter of air conditioner, Control air conditioner adjustment operating status or to remain operational state constant, including：It is corresponding pre- according to sports fatigue state parameter If rule generation control instruction does not generate control instruction；When generating control instruction, control instruction is sent to air conditioner, with Air conditioner is made to adjust operating status according to control instruction, alternatively, when not generating control instruction so that air conditioner remains operational shape State is constant.

Preset rules can be：If sports fatigue state parameter is the first sports fatigue state parameter, judge to set Whether temperature value is more than preset temperature threshold, if greater than preset temperature threshold, then generates the first control instruction, the first control refers to It enables that air conditioner is controlled to reduce set temperature value, and the second control of generation after air conditioner reduces the preset time of set temperature value System instruction, the second control instruction are used to that air conditioner to be controlled to increase set temperature value；If sports fatigue state parameter is the second fortune Dynamic fatigue state parameter, then do not generate control instruction, so as to remain operational state constant for air conditioner；If sports fatigue state is joined Number is third sports fatigue state parameter, then generates third control instruction, and third control instruction sets for air conditioner to be controlled to reduce Determine wind speed.

In the present embodiment, by obtaining corresponding sports fatigue state parameter according to the human activity amount situation detected, And according to the corresponding preset rules of sports fatigue state parameter and the current operating conditions parameter of air conditioner, control air conditioner adjustment Operating status remains operational that state is constant, and the operation shape of air conditioner can be automatically adjusted according to the activity situation of human body State effectively promotes user experience.

Fig. 7 be another embodiment of the present invention propose the control method for air conditioner flow diagram, this method packet It includes：

S701：Detect the activity situation of human body and the current operating conditions parameter of air conditioner in preset time range.

The executive agent of the present embodiment is intelligent wearable device.

Intelligent wearable device such as watch, Intelligent bracelet and intelligent shoe.

Wherein, activity situation is the movement step number of human body in preset time range, and the movement step number of human body can use M It represents.

Optionally, preset time range can according to demand be preset by user.

Preset time range is, for example, section (t1, t2), wherein, t1<=07:00, t2>=19:00.

It is, for example, 5000 steps to move step number M.

For example, intelligent wearable device detection is in preset time range (07:00,19:00) the movement step number M of human body is in 7000 steps.

Optionally, current operating conditions parameter can include set temperature value, the wind speed setting of air conditioner.

Wherein, set temperature value can be represented with T1, and wind speed setting can be represented with S.

Set temperature value is, for example, 27 DEG C, and wind speed setting is, for example, high wind.

S702：Judge to move whether step number is more than the first step number threshold value, if so, performing step S703, otherwise perform step Rapid S704.

Optionally, the first step number threshold value can be represented with M1.

Specifically, M1 can be using value as more than or equal to 10000 steps.

For example, M1 values are 10000 steps, then when the movement step number M for judging human body is more than 10000 step, triggering performs step Rapid S703.

S703：It is the first sports fatigue state parameter to judge sports fatigue degree, and it is pre- to judge whether set temperature value is more than If temperature threshold, if greater than preset temperature threshold, then the first control instruction is generated, and set temperature value is reduced in air conditioner The second control instruction is generated after preset time.

Optionally, the first sports fatigue state parameter can be represented with P1, and P1 is used to represent the sports fatigue degree of human body For over fatigue state.

For example, M1 values are 10000 steps, then when the movement step number M for judging human body is more than 10000 step, judge to move tired Labor degree is over fatigue state.

Wherein, for air conditioner to be controlled to reduce set temperature value, the second control instruction is used to control sky the first control instruction Adjust device raising set temperature value.

Optionally, preset temperature threshold can be represented with Tm1.

Wherein, preset temperature threshold Tm1 is, for example, 26 DEG C.

Preset time can represent that preset time T d1 is, for example, 1 hour with Td1.

For example, if sports fatigue state parameter is the first sports fatigue state parameter P1, i.e. the sports fatigue journey of human body It spends for over fatigue state, and set temperature value T1 is 27 DEG C, more than 26 DEG C of preset temperature threshold, is then reduced set temperature value 2 DEG C, and after continuing 1 hour, the set temperature value after reduction is increased 1 DEG C.

S704：Judge to move whether step number is more than the second step number threshold value, if so, performing step S705, otherwise perform step Rapid S706.

Optionally, the second step number threshold value can be represented with M2.

Specifically, M2 can be using value as less than or equal to 6000 steps.

For example, M2 values are 6000 steps, then when the movement step number M for judging human body is more than 6000 steps, and less than 10000 steps When, triggering performs step S705.

S705：It is the second sports fatigue state parameter to judge sports fatigue degree, control instruction is not generated, so that air conditioner It is constant to remain operational state.

Optionally, the second sports fatigue state parameter can be represented with P2, and P2 is used to represent the sports fatigue degree of human body For appropriate fatigue state.

For example, M2 values are 6000 steps, then when the movement step number M for judging human body is more than 6000 steps, and less than 10000 steps When, judge sports fatigue degree for appropriate fatigue state.

For example, if sports fatigue state parameter is the second sports fatigue state parameter P2, i.e. the sports fatigue journey of human body It spends for appropriate fatigue state, does not then generate control instruction, so as to remain operational state constant for air conditioner.

S706：Judge that sports fatigue degree is third sports fatigue state parameter, generate third control instruction, third control It instructs that air conditioner is controlled to reduce wind speed setting.

Optionally, third sports fatigue state parameter can be represented with P3, and P3 is used to represent the sports fatigue degree of human body For light comfort conditions.

For example, M2 values are 6000 steps, then when the movement step number M for judging human body is less than 6000 step, sports fatigue is judged Degree is light comfort conditions.

For example, if sports fatigue state parameter is third sports fatigue state parameter P3, i.e. the sports fatigue journey of human body It spends for light comfort conditions, then wind speed setting S is adjusted to low wind, air conditioner is automatically into silent mode.

In the present embodiment, by the current operation for detecting the activity situation of human body and air conditioner in preset time range State parameter judges the sports fatigue state parameter of human body according to the human activity amount situation detected, and according to different fortune It moves the corresponding preset rules of fatigue state parameter and generates corresponding control instruction, the current fortune of air conditioner is adjusted according to control instruction Row state parameter, can be according to the activity of human body to control air conditioner adjustment operating status or remain operational that state is constant Situation automatically adjusts the operating status of air conditioner, effectively promotes user experience.

Fig. 8 be another embodiment of the present invention propose the control device for air conditioner structure diagram, the device 80 Including activity situation detection module 801, sports fatigue state parameter acquisition module 802 and operating status control module 803。

Activity situation detection module 801, for detecting the activity situation of human body in preset time range.

The executive agent of the present embodiment is intelligent wearable device.

Intelligent wearable device such as watch, Intelligent bracelet and intelligent shoe.

Wherein, activity situation is the movement step number of human body in preset time range, and the movement step number of human body can use M It represents.

Optionally, preset time range can according to demand be preset by user.

Preset time range is, for example, section (t1, t2), wherein, t1<=07:00, t2>=19:00.

It is, for example, 5000 steps to move step number M.

For example, intelligent wearable device detection is in preset time range (07:00,19:00) the movement step number M of human body is in 7000 steps.

In the present embodiment, the system structure of intelligent wearable device can be with as shown in Fig. 2, wherein, intelligent wearable device 20 be wrapped Include battery and charging module 201, wireless communication module 202, activity situation detection module 203 and other modules 204.Electricity Pond is used to provide electric energy to intelligent wearable device with charging module 201, and wireless communication module 202 is used to realize with air conditioner wireless Communication connection, further to realize the remote control to air conditioner, wherein, wireless communication connection mode is bluetooth or WIFI. Activity situation detection module 203 is used to detect the activity situation of human body, and other modules 204 are used for integrated intelligent wearable device Other function modules.

In the present embodiment, the system interaction block diagram of intelligent wearable device and air conditioner may refer to Fig. 3, wherein, human body Intelligent wearable device detects human activity amount situation, and according to the corresponding sports fatigue degree of the human activity amount situation detected Parameter automatically adjusts the current operating conditions parameter of air conditioner so that air conditioner is run with being suitable for the state of human body.

By taking intelligent wearable device is Intelligent bracelet as an example, the system interaction block diagram of Intelligent bracelet and air conditioner may refer to figure 4。

Specifically, the system structure of Intelligent bracelet can be with as shown in figure 5, wherein, Intelligent bracelet 50 includes battery and charging Module 501, bluetooth module 502, motor driving module 503, acceleration sensor module 504 and button and display module 505.Wherein, battery is used to provide electric energy to Intelligent bracelet with charging module 501, and bluetooth module 502 is used for the wireless of bluetooth Communication mode realizes wireless communication connection with air conditioner, further to realize the remote control to air conditioner, motor driving module 503 for driving Intelligent bracelet to work, and acceleration sensor module 504 is used to detect the acceleration of human body during the motion Degree, button are used to show the activity situation of human body with display module 505.

Sports fatigue state parameter acquisition module 802, for judging the sports fatigue degree of human body according to activity situation, To obtain corresponding sports fatigue state parameter.

Optionally, the sports fatigue degree of human body can be represented with P.

Wherein, sports fatigue state parameter includes the first sports fatigue state parameter, the second sports fatigue state parameter, with And third sports fatigue state parameter.

First sports fatigue state parameter can represent that P1 is used to represent that the sports fatigue degree of human body to be excessively tired with P1 Labor state.

Second sports fatigue state parameter can represent that P2 is used to represent that the sports fatigue degree of human body to be tired for appropriateness with P2 Labor state.

Third sports fatigue state parameter can represent that P3 is used to represent the sports fatigue degree of human body easily to relax with P3 Suitable state.

Optionally, sports fatigue state parameter acquisition module 802 is specifically used for：

If moving step number is more than the first step number threshold value, judge that sports fatigue degree is joined for the first sports fatigue state Number.

Optionally, the first step number threshold value can be represented with M1.

Specifically, M1 can be using value as more than or equal to 10000 steps.

For example, M1 values are 10000 steps, then when the movement step number M for judging human body is more than 10000 step, judgement movement is tired Labor degree is the first sports fatigue state parameter.

If movement step number is less than the first step number threshold value and more than the second step number threshold value, it is the to judge sports fatigue degree Two sports fatigue state parameters.

Optionally, the second step number threshold value can be represented with M2.

Specifically, M2 can be using value as less than or equal to 6000 steps.

For example, M2 values are 6000 steps, then when the movement step number M for judging human body is more than 6000 steps, and less than 10000 steps When, judgement sports fatigue degree is the second sports fatigue state parameter.

If moving step number is less than the second step number threshold value, judge that sports fatigue degree is joined for third sports fatigue state Number.

For example, M2 values are 6000 steps, then when the movement step number M for judging human body is less than 6000 step, sports fatigue is judged Degree is light comfort conditions.

Optionally, as shown in figure 9, the device 80 further includes current operating conditions parameter detection module 804, wherein,

Current operating conditions parameter detection module 804, for detecting the current operating conditions parameter of air conditioner.

By detecting the current operating conditions parameter of air conditioner, by the set temperature value in current operating conditions parameter and in advance If temperature threshold compares, to generate control instruction, and support intelligent wearable device that current operating conditions parameter is adjusted.

Wherein, referring to Fig. 6, Fig. 6 is the system structure diagram of air conditioner, wherein, it is automatically controlled that air conditioner 60 includes air conditioner System 601 and wireless communication module 602.Wherein, air conditioner electric-control system 601 is for controlling air conditioner to work, radio communication mold Block 602 is used to realize wireless communication connection with intelligent wearable device, and wireless communication connection mode is bluetooth or WIFI.

Optionally, current operating conditions parameter includes the set temperature value and wind speed setting of air conditioner.

Wherein, set temperature value can be represented with T1, and wind speed setting can be represented with S.

Set temperature value is, for example, 27 DEG C, and wind speed setting is, for example, high wind.

For example, intelligent wearable device detects that the current operating conditions parameter of air conditioner is 27 DEG C of set temperature value, set Wind speed is high wind.

Operating status control module 803, for according to the corresponding preset rules of sports fatigue state parameter and air conditioner Current operating conditions parameter, control air conditioner adjustment operating status or to remain operational state constant.

In another embodiment, as shown in Figure 10, operating status control module 803 specifically includes control instruction generation submodule Block 8031 and control instruction sending submodule 8032, wherein,

Control instruction generates submodule 8031, for according to the corresponding preset rules generation control of sports fatigue state parameter Instruction does not generate control instruction.

Optionally, control instruction generation submodule 8031 is additionally operable to：

If sports fatigue state parameter is the first sports fatigue state parameter, it is pre- to judge whether set temperature value is more than If temperature threshold, if greater than preset temperature threshold, then the first control instruction is generated, the first control instruction is used to control air conditioner Set temperature value is reduced, and the second control instruction, the second control are generated after air conditioner reduces the preset time of set temperature value It instructs that air conditioner is controlled to increase set temperature value.

Optionally, preset temperature threshold can be represented with Tm1.

Wherein, preset temperature threshold Tm1 is, for example, 26 DEG C.

Preset time can represent that preset time T d1 is, for example, 1 hour with Td1.

For example, if sports fatigue state parameter is the first sports fatigue state parameter P1, i.e. the sports fatigue journey of human body It spends for over fatigue state, and set temperature value T1 is 27 DEG C, more than 26 DEG C of preset temperature threshold, is then reduced set temperature value 2 DEG C, and after continuing 1 hour, the set temperature value after reduction is increased 1 DEG C.

If sports fatigue state parameter is the second sports fatigue state parameter, control instruction is not generated, so that air-conditioning It is constant that device remains operational state.

In another example if sports fatigue state parameter is the second sports fatigue state parameter P2, the i.e. sports fatigue of human body Degree is appropriate fatigue state, then does not generate control instruction, so as to remain operational state constant for air conditioner.

If sports fatigue state parameter is third sports fatigue state parameter, third control instruction, third control are generated System instructs that air conditioner is controlled to reduce wind speed setting.

For another example if sports fatigue state parameter is third sports fatigue state parameter P3, the i.e. sports fatigue of human body Degree is light comfort conditions, then wind speed setting S is adjusted to low wind, air conditioner is automatically into silent mode.

Control instruction sending submodule 8032, for when generating control instruction, control instruction to be sent to air conditioner, with Air conditioner is made to adjust operating status according to control instruction, alternatively, when not generating control instruction so that air conditioner remains operational shape State is constant.

In the present embodiment, by obtaining corresponding sports fatigue state parameter according to the human activity amount situation detected, And according to the corresponding preset rules of sports fatigue state parameter and the current operating conditions parameter of air conditioner, control air conditioner adjustment Operating status remains operational that state is constant, and the operation shape of air conditioner can be automatically adjusted according to the activity situation of human body State effectively promotes user experience.

It should be noted that in the description of the present invention, term " first ", " second " etc. are only used for description purpose, without It is understood that indicate or implying relative importance.In addition, in the description of the present invention, unless otherwise indicated, the meaning of " multiple " It is two or more.

Any process described otherwise above or method description are construed as in flow chart or herein, represent to include Module, segment or the portion of the code of the executable instruction of one or more the step of being used to implement specific logical function or process Point, and the range of the preferred embodiment of the present invention includes other realization, wherein can not press shown or discuss suitable Sequence, including according to involved function by it is basic simultaneously in the way of or in the opposite order, to perform function, this should be of the invention Embodiment person of ordinary skill in the field understood.

It should be appreciated that each section of the present invention can be realized with hardware, software, firmware or combination thereof.Above-mentioned In embodiment, software that multiple steps or method can in memory and by suitable instruction execution system be performed with storage Or firmware is realized.If for example, with hardware come realize in another embodiment, can be under well known in the art Any one of row technology or their combination are realized：With for the logic gates to data-signal realization logic function Discrete logic, have suitable combinational logic gate circuit application-specific integrated circuit, programmable gate array (PGA), scene Programmable gate array (FPGA) etc..

Those skilled in the art are appreciated that realize all or part of step that above-described embodiment method carries Suddenly it is that relevant hardware can be instructed to complete by program, the program can be stored in a kind of computer-readable storage medium In matter, the program when being executed, one or a combination set of the step of including embodiment of the method.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing module, it can also That each unit is individually physically present, can also two or more units be integrated in a module.Above-mentioned integrated mould The form that hardware had both may be used in block is realized, can also be realized in the form of software function module.The integrated module is such as Fruit is realized in the form of software function module and is independent product sale or in use, can also be stored in a computer In read/write memory medium.

Storage medium mentioned above can be read-only memory, disk or CD etc..

In the description of this specification, reference term " one embodiment ", " example ", " is specifically shown " some embodiments " The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description Point is contained at least one embodiment of the present invention or example.In the present specification, schematic expression of the above terms are not Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any One or more embodiments or example in combine in an appropriate manner.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is impossible to limitation of the present invention is interpreted as, those of ordinary skill in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changes, replacing and modification.

Claims (6)

1. a kind of control method for air conditioner, which is characterized in that include the following steps：

Detect the activity situation of human body in preset time range；

The sports fatigue degree of the human body is judged according to the activity situation, is joined with obtaining corresponding sports fatigue state Number；

According to the corresponding preset rules of the sports fatigue state parameter and the current operating conditions parameter of air conditioner, described in control Air conditioner adjusts operating status or keeps the operating status constant；

The method further includes：

Detect the current operating conditions parameter of the air conditioner；

The current operating conditions parameter includes set temperature value and wind speed setting, described according to the sports fatigue state parameter Corresponding preset rules generation control instruction does not generate the control instruction, including：

If the sports fatigue state parameter is the first sports fatigue state parameter, judge whether the set temperature value is big In preset temperature threshold, if greater than the preset temperature threshold, then the first control instruction is generated, first control instruction is used The set temperature value is reduced, and in the preset time of the air conditioner reduction set temperature value in controlling the air conditioner After generate the second control instruction, second control instruction is for controlling the air conditioner to increase the set temperature value；

If the sports fatigue state parameter is the second sports fatigue state parameter, the control instruction is not generated, so that The air conditioner keeps the operating status constant；

If the sports fatigue state parameter is third sports fatigue state parameter, third control instruction is generated, described the Three control instructions are used to that the air conditioner to be controlled to reduce the wind speed setting.

2. it to be used for the control method of air conditioner as described in claim 1, which is characterized in that the activity situation exists for human body Movement step number in the preset time range, the sports fatigue state parameter include the first sports fatigue state parameter, the Two sports fatigue state parameters and third sports fatigue state parameter, it is described that the people is judged according to the activity situation The sports fatigue degree of body, to obtain corresponding sports fatigue state parameter, including：

If the movement step number is more than the first step number threshold value, it is first sports fatigue to judge the sports fatigue degree State parameter；

If the movement step number is less than the first step number threshold value and more than the second step number threshold value, the sports fatigue degree is judged For the second sports fatigue state parameter；

If the movement step number is less than the second step number threshold value, it is the third sports fatigue to judge the sports fatigue degree State parameter.

3. it to be used for the control method of air conditioner as described in claim 1, which is characterized in that described according to the sports fatigue shape The current operating conditions parameter of the corresponding preset rules of state parameter and air conditioner, control air conditioner adjustment operating status or Keep the operating status constant, including：

The control instruction is not generated according to the corresponding preset rules generation control instruction of the sports fatigue state parameter or；

When generating the control instruction, the control instruction is sent to the air conditioner, so that the air conditioner is according to institute It states control instruction and adjusts the operating status, alternatively, when not generating the control instruction so that described in the air conditioner is kept Operating status is constant.

4. a kind of control device for air conditioner, which is characterized in that including：

Activity situation detection module, for detecting the activity situation of human body in preset time range；

Sports fatigue state parameter acquisition module, for judging the sports fatigue journey of the human body according to the activity situation Degree, to obtain corresponding sports fatigue state parameter；

Operating status control module, for according to the current of the corresponding preset rules of the sports fatigue state parameter and air conditioner Running state parameter controls the air conditioner adjustment operating status or keeps the operating status constant；

It further includes：

Current operating conditions parameter detection module, for detecting the current operating conditions parameter of the air conditioner；

The current operating conditions parameter includes set temperature value and wind speed setting, and the control instruction generation submodule is also used In：

If the sports fatigue state parameter is the first sports fatigue state parameter, judge whether the set temperature value is big In preset temperature threshold, if greater than the preset temperature threshold, then the first control instruction is generated, first control instruction is used The set temperature value is reduced, and in the preset time of the air conditioner reduction set temperature value in controlling the air conditioner After generate the second control instruction, second control instruction is for controlling the air conditioner to increase the set temperature value；

If the sports fatigue state parameter is the second sports fatigue state parameter, the control instruction is not generated, so that The air conditioner keeps the operating status constant；

If the sports fatigue state parameter is third sports fatigue state parameter, third control instruction is generated, described the Three control instructions are used to that the air conditioner to be controlled to reduce the wind speed setting.

5. it to be used for the control device of air conditioner as claimed in claim 4, which is characterized in that the activity situation exists for human body Movement step number in the preset time range, the sports fatigue state parameter include the first sports fatigue state parameter, the Two sports fatigue state parameters and third sports fatigue state parameter, the sports fatigue state parameter acquisition module are specific For：

If the movement step number is more than the first step number threshold value, it is the first sports fatigue state to judge the sports fatigue degree Parameter；

If the movement step number is less than the first step number threshold value and more than the second step number threshold value, the sports fatigue degree is judged For the second sports fatigue state parameter；

If the movement step number is less than the second step number threshold value, judge the sports fatigue degree for third sports fatigue state Parameter.

6. it to be used for the control device of air conditioner as claimed in claim 4, which is characterized in that the operating status control module packet It includes：

Control instruction generates submodule, for generating control instruction according to the corresponding preset rules of the sports fatigue state parameter Or do not generate the control instruction；

Control instruction sending submodule, for when generating the control instruction, the control instruction to be sent to the air-conditioning Device, so that the air conditioner adjusts the operating status according to the control instruction, alternatively, not generating the control instruction When so that the air conditioner keeps the operating status constant.