CN106545971B

CN106545971B - Air-conditioner control method, controller, air conditioner and air conditioner control system

Info

Publication number: CN106545971B
Application number: CN201611056823.1A
Authority: CN
Inventors: 陈俊吉
Original assignee: Midea Group Co Ltd; Guangdong Midea Refrigeration Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2016-11-25
Filing date: 2016-11-25
Publication date: 2019-04-19
Anticipated expiration: 2036-11-25
Also published as: CN106545971A

Abstract

The present invention provides a kind of air-conditioner control method, controller, air conditioner and air conditioner control system, the air-conditioner control method includes: to obtain Current Temperatures W in room；Obtain seat service condition in room；According to seat service condition in Current Temperatures W in room and room, controlled according to working condition and/or set temperature of the predetermined control strategy to air conditioner.The present invention can control the working condition and/or set temperature of air conditioner according to the temperature and seat service condition in room, to achieve the purpose that energy-saving and emission-reduction and meet user demand.

Description

Air-conditioner control method, controller, air conditioner and air conditioner control system

Technical field

The present embodiments relate to air conditioner technical fields, and in particular to a kind of air-conditioner control method, controller, air-conditioning Device and air conditioner control system.

Background technique

In currently, be mounted on central air-conditioning in large-scale room, central air-conditioning have air-flow, uniformity of temperature profile it is excellent Gesture, therefore greatly improve the usage comfort of user.

However for the control of the temperature of central air-conditioning, there are such problems: general number is numerous and different in room Period number also can constantly change, such as: work hours number is more, quitting time, mealtime and holiday time number It is less, therefore when control air-conditioning and open, close, and reasonably the adjusting of progress temperature all becomes to be less susceptible to, it is general at present All it is to be judged by experience, is unable to reach preferable control effect.

Summary of the invention

For the problems of the prior art, the present invention provides a kind of air-conditioner control method, controller, air conditioner and air-conditioning Device control system, the present invention can according to the temperature and seat service condition in room, working condition to air conditioner and/or Set temperature is controlled, to achieve the purpose that energy-saving and emission-reduction and meet user demand.

In order to solve the above technical problems, the present invention the following technical schemes are provided:

In a first aspect, the present invention provides a kind of air-conditioner control methods, comprising:

Obtain Current Temperatures W in room；

Obtain seat service condition in room；

According to seat service condition in Current Temperatures W in room and room, according to predetermined control strategy to air conditioner Working condition and/or set temperature are controlled.

Further, seat service condition in the acquisition room, specifically includes:

Obtain and currently sit number M on the seat in room, or, obtain currently sat in room number M on the seat with And obtain the current number N for sitting and on the seat and moving, wherein seat sum is G in room.

Further, described according to seat service condition in Current Temperatures W in room and room, according to default control plan Slightly the working condition of air conditioner and/or set temperature are controlled, specifically included:

According to seat sum G in number M and the room currently sat in Current Temperatures W in room, room on the seat, press It is controlled according to working condition and/or set temperature of the following predetermined control strategy to air conditioner:

If Current Temperatures W is greater than the first temperature threshold T in room₁, and be greater than first with reference to regulated quantity P and adjust threshold value Q₁, then It controls air conditioner and opens refrigeration mode, and control the set temperature X of air conditioner are as follows:

X=T₁+P；Wherein, with reference to regulated quantity P=((W-T₁)*(M/G))*K；

Wherein, K is adjustment factor, initial value 1；T₁Value range be 24~28 DEG C, Q₁Value range be 1.2~ 1.5℃。

Further, the method also includes:

If receiving temperature Y set by user, newest K value is calculated according to following formula one:

K=P '/((W-T₁) * (M/G)) wherein, P '=Y-T₁Formula one；

Correspondingly, warm to the working condition of air conditioner and/or setting according to the predetermined control strategy according to newest K value Degree is controlled.

According to the number M currently sat in Current Temperatures W in room, room on the seat, current sit on the seat and Seat sum G in mobile number N and room, according to following predetermined control strategy to the working condition of air conditioner and/or Set temperature is controlled:

If Current Temperatures W is greater than the first temperature threshold T in room₁, and be greater than third with reference to regulated quantity P and adjust threshold value Q₃, then It controls air conditioner and opens refrigeration mode, and control the set temperature X of air conditioner are as follows:

X=T₁+P；Wherein, P=((W-T₁)*(M+N)/G)*K；

Wherein, K is adjustment factor, initial value 1, T₁Value range be 24~28 DEG C, Q₃Value range be 1.5~ 2.5 DEG C, M+N≤G.

Further, the method also includes:

If receiving temperature Y set by user, newest K value is calculated according to following formula two:

K=P '/((W-T₁) * (M+N)/G) wherein, P '=Y-T₁Formula two；

Further, the method also includes:

If receiving temperature Y set by user, judge that temperature Y set by user and current automatic set temperature X's is big Small relationship calculates newest K value K when temperature Y set by user is greater than current automatic set temperature X_{It is newest}=K_Currently+0.1*(Y- X)；When temperature Y set by user is less than current automatic set temperature X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X- Y)；

If Current Temperatures W is less than second temperature threshold value T in room₂, and be greater than second with reference to regulated quantity P and adjust threshold value Q₂, then It controls air conditioner and opens heating mode, and control the set temperature X of air conditioner are as follows:

X=T₂-P；Wherein, P=((W-T₂)*(M/G))*K；

Wherein, K is adjustment factor, initial value 1, T₂Value range be 19~23 DEG C, Q₂Value range be 1.2~ 1.5℃。

Further, the method also includes:

If receiving temperature Y set by user, newest K value is calculated according to following formula three:

K=P '/((W-T₂) * (M/G)) wherein, P '=T₂- Y formula three；

If Current Temperatures W is less than second temperature threshold value T in room₂, and be greater than the 4th with reference to regulated quantity P and adjust threshold value Q₄, then It controls air conditioner and opens heating mode, and control the set temperature X of air conditioner are as follows:

X=T₂-P；Wherein, P=((W-T₂)*(M+N)/G)*K；

Wherein, K is adjustment factor, initial value 1, T₂Value range be 19~23 DEG C, Q₄Value range be 1.5~ 2.5 DEG C, M+N≤G.

Further, the method also includes:

If receiving temperature Y set by user, newest K value is calculated according to following formula four:

K=P '/((W-T₂) * (M+N)/G) wherein, P '=T₂- Y formula four；

Further, the method also includes:

If currently sitting number M=0 on the seat in room, closing air conditioner is controlled.

Second aspect, the present invention also provides a kind of controllers, comprising:

First acquisition unit, for obtaining Current Temperatures W in room；

Second acquisition unit, for obtaining seat service condition in room；

Control unit is used for according to seat service condition in Current Temperatures W in room and room, according to default control plan Slightly the working condition of air conditioner and/or set temperature are controlled.

Further, the second acquisition unit, is specifically used for:

Further, described control unit is specifically used for:

X=T₁+P；Wherein, P=((W-T₁)*(M/G))*K；

Further, the controller further include: the first judging unit and the first computing unit；

First judging unit receives temperature Y set by user for judging whether；

First computing unit, for first judging unit determine receive temperature Y set by user when, root Newest K value is calculated according to following formula one:

K=P '/((W-T₁) * (M/G)) wherein, P '=Y-T₁；Formula one

Correspondingly, described control unit, for according to newest K value according to the predetermined control strategy to the work of air conditioner Make state and/or set temperature is controlled.

Further, described control unit is specifically used for:

X=T₁+P；Wherein, P=((W-T₁)*(M+N)/G)*K；

Further, the controller further include: second judgment unit and the second computing unit；

The second judgment unit receives temperature Y set by user for judging whether；

Second computing unit, for the second judgment unit determine receive temperature Y set by user when, root Newest K value is calculated according to following formula two:

K=P '/((W-T₁) * (M+N)/G) wherein, P '=Y-T₁；Formula two

Further, the controller further include: third judging unit and third computing unit；

The third judging unit receives temperature Y set by user for judging whether；

The third computing unit, for the third judging unit determine receive temperature Y set by user when, root According to the size relation of temperature Y set by user and current automatic set temperature X, it is greater than in temperature Y set by user current automatic When set temperature X, newest K value K is calculated_{It is newest}=K_Currently+0.1*(Y-X)；Or it is less than in temperature Y set by user and currently sets automatically When determining temperature X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X-Y)；

Further, described control unit is specifically used for:

X=T₂-P；Wherein, P=((W-T₂)*(M/G))*K；

Further, the controller further include: the 4th judging unit and the 4th computing unit；

4th judging unit receives temperature Y set by user for judging whether；

4th computing unit, for the 4th judging unit determine receive temperature Y set by user when, root Newest K value is calculated according to following formula three:

K=P '/((W-T₂) * (M/G)) wherein, P '=T₂–Y；Formula three

Further, described control unit is specifically used for:

X=T₂-P；Wherein, P=((W-T₂)*(M+N)/G)*K；

Further, the controller further include: the 5th judging unit and the 5th computing unit；

5th judging unit receives temperature Y set by user for judging whether；

5th computing unit, for the 5th judging unit determine receive temperature Y set by user when, root Newest K value is calculated according to following formula four:

K=P '/((W-T₂) * (M+N)/G) wherein, P '=T₂–Y；Formula four

Further, the controller further include: the 6th judging unit and the 6th computing unit；

6th judging unit receives temperature Y set by user for judging whether；

6th computing unit, for the 6th judging unit determine receive temperature Y set by user when, root According to the size relation of temperature Y set by user and current automatic set temperature X, it is greater than in temperature Y set by user current automatic When set temperature X, newest K value K is calculated_{It is newest}=K_Currently+0.1*(Y-X)；Or it is less than in temperature Y set by user and currently sets automatically When determining temperature X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X-Y)；

Further, described control unit is also used to: in the room when the current number M=0 sat on the seat, control Close air conditioner.

The third aspect, it to further include controller as described above that the present invention also provides a kind of air conditioners.

Fourth aspect, the present invention also provides a kind of air conditioner control systems, comprising: air conditioner is arranged in the room Temperature sensing module, the detection device being mounted in room on seat and controller as described above；

The detection device will test result and be sent to the controller for detecting seat service condition in room；

Temperature in the room of perception is sent to the control for perceiving temperature in room by the temperature sensing module Device；

The controller is used for according to temperature in the testing result and room, according to predetermined control strategy to air conditioner Working condition and/or set temperature controlled.

Further, the air conditioner control system further include: gateway；

Testing result and the temperature sensing module of the gateway for receiving the detection device transmission perceive Temperature in room, and temperature in the testing result received and room is sent to the controller；

Correspondingly, temperature in the testing result and room that the controller is used to be sent according to the gateway, according to pre- If control strategy generates corresponding control instruction, and control instruction is sent to the gateway, by the gateway by the control Instruction be transmitted to air conditioner, with to air conditioner working condition and/or set temperature control.

Further, the detection device includes: communication module, further includes: pressure sensor and/or acceleration sensing Device；

The pressure sensor is for detecting whether take on the seat；

The acceleration transducer is for detecting whether someone moves on the seat；

The communication module for being communicated with the gateway or the controller, by the pressure sensor and/or The testing result of the acceleration transducer is sent to the gateway or the controller.

As shown from the above technical solution, air-conditioner control method provided by the invention, according to Current Temperatures W in room and Seat service condition in room is controlled according to working condition and/or set temperature of the predetermined control strategy to air conditioner, from And it can be realized energy-saving and emission-reduction and meet the purpose of user demand.And air-conditioner control method provided by the invention, due to only Temperature and seat service condition in room need to be relied on, thus it is significantly simpler to implement, and preferable control effect can be reached, Comfortable temperature control is brought to experience while saving electric energy for user.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is the present invention Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of flow chart of air-conditioner control method provided by one embodiment of the present invention；

Fig. 2~Figure 13 is other several implementation processes of air-conditioner control method provided by one embodiment of the present invention Figure；

Figure 14 be another embodiment of the present invention provides controller a kind of structural schematic diagram；

Figure 15~Figure 20 be another embodiment of the present invention provides controller other several realization structural schematic diagrams；

Figure 21 is a kind of structural schematic diagram for the air conditioner control system that further embodiment of this invention provides；

Figure 22 is another structural schematic diagram for the air conditioner control system that further embodiment of this invention provides.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, the technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art Every other embodiment obtained without creative efforts, shall fall within the protection scope of the present invention.

For the problems of the prior art, the present invention provides a kind of air-conditioner control method, controller, air conditioner and skies Adjust device control system, the present invention can according to the temperature and seat service condition in room, working condition to air conditioner and/ Or set temperature is controlled, to achieve the purpose that energy-saving and emission-reduction and meet user demand.It below will be real by first to fourth It applies example and explanation is explained in detail to the present invention.

Fig. 1 shows the flow chart of the air-conditioner control method of first embodiment of the invention offer, referring to Fig. 1, this hair The air-conditioner control method that bright one embodiment provides includes the following steps:

Step 101: obtaining Current Temperatures W in room.

In this step, the room can be understood as office or user life room.For example, when needing to office When the central air-conditioning of interior installation is controlled, the room can be understood as state-run room；When needing to pacify in user life room When the central air-conditioning of dress is controlled, the room can be understood as user life room.

It, can be by the way that temperature sensor acquisition room in the room be arranged when this step obtains Current Temperatures W in room Interior Current Temperatures W.Certainly, accurate temperature value in order to obtain, can be by being arranged the more of different location in the room Current Temperatures W in the temperature value calculated room that a sensor obtains.For example, position different at three in room is each provided with one Temperature sensor, then can be using the average value for the temperature value that these three temperature sensors obtain as Current Temperatures W in room.

Step 102: obtaining seat service condition in room.

In this step, seat service condition in room is obtained, following several situations can be included at least:

1. obtaining the current number M sat on the seat；Wherein, seat sum is G in room；

2. obtaining the current number N for sitting and on the seat and moving；Wherein, seat sum is G in room；

3. the number N for obtaining the current number M sat on the seat and current seat on the seat and moving；Wherein, Seat sum is G in room.

Step 103: according to seat service condition in Current Temperatures W in room and room, according to predetermined control strategy pair The working condition and/or set temperature of air conditioner are controlled.

In this step, according to seat service condition in Current Temperatures W in room and room, current system can be determined Cold or heating needs, and then can be controlled according to working condition and/or set temperature of the preset control strategy to air conditioner System.For example, when absolutely not being closed in use, can control air conditioner on seat in room, to save electric energy.For another example, when It, can be according to the working condition for combining Current Temperatures W control air conditioner in room when seat in room has 80% utilization rate And/or set temperature.For example, when the seat in room has 80% utilization rate, and in room at W=30 DEG C of Current Temperatures, control Air conditioner processed opens refrigeration mode, and the set temperature for automatically controlling air conditioner is suitable temperature (such as 27 DEG C), to meet use Family refrigeration demand.For another example, it when the seat in room only has 10% utilization rate, can reasonably be controlled in conjunction with current temperature W The set temperature of air conditioner processed, to save electric energy as far as possible while meeting users'comfort.For example, Current Temperatures in room At W=30 DEG C, if the seat in room only has 10% utilization rate (refrigeration demand is lower), the setting of air conditioner need to be only controlled Temperature is 29 DEG C.If but W=35 DEG C of Current Temperatures in room, even if the seat in room only has 10% utilization at this time Rate, but in order to guarantee users'comfort, the set temperature that should also control air conditioner is a relatively reasonable temperature (such as 29~30 DEG C), and electric energy cannot be only saved, and the set temperature for controlling air conditioner is higher (such as 31~32 DEG C).

Further, since seat service condition includes the utilization rate of seat incessantly in room, therefore can also be existed by user Situation of movement on seat come to air conditioner working condition and set temperature control.For example, when fewer in number in room When, can making the user being sitting on seat by way of swiveling seat, (such as a people is sitting in seat to increase control amount Upper and swiveling seat can be equivalent to two people and sit on the seat) so that air conditioner reaches the trip bar of refrigeration or heating Part.

Further, it is to be appreciated that this step provides since the acquisition of seat service condition in room is relatively simple Air-conditioner control method, it is significantly simpler to implement, and preferable control effect can be reached.For example, obtaining in room When seat service condition, it can be obtained and whether be taken on the seat by way of pressure sensor is installed on the seat；Again Such as, can obtain whether someone moves on the seat by way of acceleration transducer is installed on the seat.

As seen from the above description, air-conditioner control method provided in an embodiment of the present invention, according to Current Temperatures W in room with And seat service condition in room, it is controlled according to working condition and/or set temperature of the predetermined control strategy to air conditioner, So as to realize energy-saving and emission-reduction and meet the purpose of user demand.And air conditioner controlling party provided in an embodiment of the present invention Method, due to need to only rely on temperature and seat service condition in room, thus it is significantly simpler to implement, and can reach preferable Control effect brings comfortable temperature control to experience while saving electric energy for user.

In a kind of optional embodiment, referring to fig. 2, above-mentioned steps 102 are specifically included:

It when previous step 102 is introduced, had mentioned, and had obtained seat service condition in room, can include at least following Several situations:

In a kind of optional embodiment, a kind of specific implementation of above-mentioned steps 103 is given, it is above-mentioned referring to Fig. 3 Step 103 specifically includes:

Step 103a: according to number M and the room inner seat currently sat in Current Temperatures W in room, room on the seat Chair sum G is controlled according to working condition and/or set temperature of the following predetermined control strategy to air conditioner:

X=T₁+P；Wherein, P=((W-T₁)*(M/G))*K；

From the description above it is found that in the present embodiment, giving a kind of specific control strategy, if current temperature in room It spends W and is greater than the first temperature threshold T₁, and be greater than first with reference to regulated quantity P and adjust threshold value Q₁, then control air conditioner and open refrigeration mould Formula, and control the set temperature X of air conditioner are as follows: X=T₁+P；Wherein, P=((W-T₁)*(M/G))*K；Wherein, K is to adjust system Number, initial value 1；First temperature threshold T₁Value range be 24~28 DEG C, first adjust threshold value Q₁Value range be 1.2 ~1.5 DEG C.Here, the first temperature threshold T₁It can be understood as user and perceive more comfortable temperature in summer, therefore first Temperature threshold T₁Value range be preferably 24~28 DEG C, such as T₁=26 DEG C.

Above-mentioned control strategy is explained below by way of example.For example, Current Temperatures W=30 in room DEG C, the first temperature threshold T₁=26 DEG C, number M=5 on the seat is currently sat in room, seat sum G=10 in room is adjusted COEFFICIENT K=1 is saved, then according to above-mentioned formula P=((W-T₁) * (M/G)) * K can be calculated P=2 DEG C, and then according to X=T₁ + P, the set temperature that air conditioner can be calculated is X=28 DEG C.After X=28 DEG C of the set temperature for obtaining air conditioner, according to 28 DEG C of set temperature carry out refrigeration control to air conditioner.By above-mentioned example it is found that the service condition for passing through seat in detection room And the control to the working condition and/or set temperature of air conditioner may be implemented in Current Temperatures.

As it can be seen that in the present embodiment, by currently sitting number M and room on the seat in Current Temperatures W, room Interior seat sum G realizes the automatic control to air conditioner working condition and set temperature, and above-mentioned control process comparison operators Practical application request is closed, the automatic adjustment to air conditioner can be realized according to current actual conditions, is meeting user demand Meanwhile electric energy is saved as much as possible.

Based on the specific implementation of above-mentioned steps 103a, in a kind of optional embodiment, referring to fig. 4, the present invention is real The controller control method for applying example offer further includes following steps:

Step 104a: if receiving temperature Y set by user, newest K value is calculated according to following formula one:

K=P '/((W-T₁) * (M/G)) wherein, P '=Y-T₁；Formula one

In the control process according to the predetermined control strategy in above-mentioned steps 103a, K takes initial value 1, but in order to make It is more and more accurate to obtain control process, increasingly meets user's use habit, can constantly be adjusted according to the participation (feedback) of user The value of whole adjustment factor K.

Such as in a kind of scene, W=30 DEG C of Current Temperatures in room, the first temperature threshold T₁=26 DEG C, work as in room Preceding seat number M=8 on the seat, seat sum G=10 in room, adjustment factor K initial value is 1, then according to above-mentioned formula Sub- P=((W-T₁) * (M/G)) * K can be calculated P=3.2 DEG C, and then according to X=T₁Air conditioner can be calculated in+P Set temperature is X=29.2 DEG C.It is and above-mentioned but according to practical application scene it is found that be almost full state in current room The automatic set temperature being calculated is 29.2 DEG C, this is not obviously able to satisfy current refrigeration demand.In this case, user It can generally go to manually set temperature, for example, Y=27 DEG C of user's manual set temperature, then it at this time can be according to above-mentioned formula one: K =P '/((W-T₁) * (M/G)) wherein, P '=Y-T₁, it is 0.31 that newest K value, which is calculated, then according to newest K value 0.31 According to above-mentioned predetermined control strategy X=T₁+P；Wherein, P=((W-T₁) * (M/G)) * K controls air conditioner, obtain new Set temperature X is 26.99 DEG C.It is clear that in conjunction with the set temperature recalculated after user feedback 26.99 DEG C be more conform with reality Border application scenarios compare and can satisfy user's refrigeration demand.For another example, or for above-mentioned example, user is manually setting temperature Y When, it is not set as 27 DEG C directly, and be set to 28 DEG C, then it at this time can be according to above-mentioned formula one: K=P '/((W-T₁)* (M/G)) wherein, P '=Y-T₁, it is 0.625 that newest K value, which is calculated, then according to newest K value 0.625 according to above-mentioned pre- If control strategy X=T₁+P；Wherein, P=((W-T₁) * (M/G)) * K controls air conditioner, obtaining new set temperature X is 28℃.Assuming that user's feeling in room can be with then air conditioner is with 28 DEG C of current operations, it is assumed that the user in room feels also Be some heat, then can reset temperature, such as be reset to 27 DEG C, then the 27 DEG C of benefits of temperature reset according to user Newest K value is calculated with above-mentioned formula one, and air conditioner is controlled according to the predetermined control strategy according to newest K value System.It is understood that through adjustment after a period of time, the temperature that air conditioner is set automatically by the actual demand with user gradually Reach an agreement, and use demand of being increasingly close to the users.

In another embodiment, referring to Fig. 7, controller control method provided in an embodiment of the present invention further includes as follows Step 104ab, wherein step 104ab in the present embodiment and step 104a in above embodiment be two kinds completely not Same Adjusted Option.

Step 104ab: if receiving temperature Y set by user, judge temperature Y set by user and current automatic setting The size relation of temperature X calculates newest K value K when temperature Y set by user is greater than current automatic set temperature X_{It is newest}= K_Currently+0.1*(Y-X)；When temperature Y set by user is less than current automatic set temperature X, calculating newest K value is K_{It is newest}= K_Currently-0.1*(X-Y)；

In the control process of the predetermined control strategy according to above-mentioned steps 103a, K takes initial value 1, but in order to So that control process is more and more accurate, need constantly to adjust the adjustment factor K according to the feedback of user.

Such as in a kind of scene, W=30 DEG C of Current Temperatures in room, the first temperature threshold T₁=26 DEG C, work as in room Preceding seat number M=8 on the seat, seat sum G=10 in room, adjustment factor K initial value is 1, then according to above-mentioned formula Sub- P=((W-T₁) * (M/G)) * K can be calculated P=3.2 DEG C, and then according to X=T₁Air conditioner can be calculated in+P Set temperature is X=29.2 DEG C.It is and above-mentioned but according to practical application scene it is found that be almost full state in current room The automatic set temperature X being calculated is 29.2 DEG C, this is not obviously able to satisfy current refrigeration demand.In this case, it uses Family can generally be gone to manually set temperature, for example, Y=27 DEG C of user's manual set temperature, then according to step 104ab K_{It is newest}= K_Currently- 0.1* (X-Y)=1-0.1*2.2=0.78, then according to newest K value 0.78 according to above-mentioned predetermined control strategy X=T₁ +P；Wherein, P=((W-T₁) * (M/G)) * K controls air conditioner, obtaining new set temperature X is 28.49 DEG C.It is aobvious and easy See, is more conform with practical application scene for 28.49 DEG C in conjunction with the set temperature recalculated after user feedback, compares and can satisfy use Family refrigeration demand.When user think reset 28.49 DEG C of temperature be not able to satisfy user's refrigeration demand when, basis can be continued Temperature value that user manually sets simultaneously adjusts K value according to the step 104ab mode recorded, and according to newest K value according to described Predetermined control strategy controls air conditioner.

In a kind of optional embodiment, another specific implementation of above-mentioned steps 103 is given, referring to Fig. 5, on Step 103 is stated to specifically include:

Step 103b: according to the number M currently sat in Current Temperatures W in room, room on the seat, currently it is sitting in seat Seat sum G in upper and the number N and room that are moving, according to following predetermined control strategy to the work shape of air conditioner State and/or set temperature are controlled:

If W is greater than T₁, and P is greater than Q₃, then control air conditioner and open refrigeration mode, and control the set temperature X of air conditioner Are as follows:

X=T₁+P；Wherein, P=((W-T₁)*(M+N)/G)*K；

Unlike the step 103a in above embodiment, the step 103b in present embodiment is in addition to considering room Other than interior current seat number M on the seat, it is also contemplated that current seat on the seat and the number N that is moving, therefore this reality The mode of applying increases the flexibility that user carries out temperature regulation.For example, fewer in number in current room, but in room temperature compared with Gao Shi can increase adjustment amplitude P by way of moving on the seat.Since P is being greater than Q₃When just open refrigeration mode, Therefore it can increase P value by way of swiveling seat, to reach cooling activation condition.For example, when a people sits on the seat And when moving, can be equivalent in room there are two people sit on the seat.

The specific control process of present embodiment are as follows: when W is greater than T₁, and P is greater than Q₃When, control air conditioner opens refrigeration mould Formula and according to the set temperature X of following determining air conditioners:

X=T₁+P；Wherein, P=((W-T₁)*(M+N)/G)*K；

Wherein, K is adjustment factor, initial value 1；First temperature threshold T₁Value range be 24~28 DEG C, third tune Save threshold value Q₃Value range be 1.5~2.5 DEG C, M+N≤G.

Here, the first temperature threshold T₁It can be understood as user and perceive more comfortable temperature in summer, therefore first Temperature threshold T₁Value range be preferably 24~28 DEG C, such as T₁=26 DEG C.

Above-mentioned control strategy is explained below by way of example.For example, Current Temperatures W=30 in room DEG C, the first temperature threshold T₁=26 DEG C, number M=2 on the seat is currently sat in room, seat sum G=10 in room, if According to the calculation P=((W-T in embodiment above₁) * (M/G)) * K can be calculated P=0.8 DEG C, it is unsatisfactory for P > Q₁Condition, therefore fail to open refrigeration mode, but actually Current Temperatures are really relatively high, user feels hotter, therefore In order to increase the flexibility of user's control, present embodiment increases a variable, i.e., currently sits in room on the seat and just In mobile number N, it is assumed that N=2, adjustment factor K=1, then according to above-mentioned formula P=((W-T₁) * (M+N)/G) * K can be with It is calculated P=1.6 DEG C, meets P greater than Q₃(work as Q₃When taking 1.4) condition, and then according to X=T₁Air-conditioning can be calculated in+P The set temperature of device is X=27.6 DEG C.After X=27.6 DEG C of the set temperature for obtaining air conditioner, according to 27.6 DEG C of set temperature Refrigeration control is carried out to air conditioner.By above-mentioned example it is found that the service condition and Current Temperatures that pass through seat in detection room The control to the working condition and/or set temperature of air conditioner may be implemented.

As it can be seen that in the present embodiment, by currently sitting number M, current seat on the seat in Current Temperatures W, room Seat sum G on the seat and in the number N and room that are moving, realizes the automatic control to air conditioner, and due to Present embodiment increases variable N, so that entire control mode is more flexible.As it can be seen that present embodiment can be realized to sky Automatic, the flexible modulation for adjusting device save electric energy while meeting user demand as much as possible.

Based on the specific implementation of above-mentioned steps 103b, in a kind of optional embodiment, referring to Fig. 6, the present invention is real The controller control method for applying example offer further includes following steps:

Step 104b: if receiving temperature Y set by user, newest K value is calculated according to following formula two:

K=P '/((W-T₁) * (M+N)/G) wherein, P '=Y-T₁；Formula two

In the control process according to the predetermined control strategy in above-mentioned steps 103b, K takes initial value 1, but in order to make It is more and more accurate to obtain control process, increasingly meets user's use habit, can constantly be adjusted according to the participation (feedback) of user The value of whole adjustment factor K.

Such as in a kind of scene, W=30 DEG C of Current Temperatures in room, the first temperature threshold T₁=26 DEG C, work as in room Preceding seat number M=2 on the seat, the number N=2 for currently sitting on the seat and moving in room, seat is total in room Number G=10, adjustment factor K initial value is 1, then according to above-mentioned formula P=((W-T₁) * (M+N)/G) P can be calculated in * K =1.6 DEG C, and then according to X=T₁The set temperature that air conditioner can be calculated in+P is X=27.6 DEG C.But according to actually answering It is with scene it is found that in fact few in current room, according to above-mentioned set temperature=27.6 DEG C, require no long time, user It will feel colder, therefore this set temperature has obviously been more than user demand.In this case, through user one after a period of time As can go to manually set temperature (assuming that at this time W=28 DEG C), then at this time can be with for example, Y=29 DEG C of user's manual set temperature According to above-mentioned formula two: K=P '/((W-T₁) * (M+N)/G) wherein, P '=Y-T₁, it is 3.75 that newest K value, which is calculated, so Afterwards according to newest K value 3.75 according to above-mentioned predetermined control strategy X=T₁+P；Wherein, P=((W-T₁) * (M+N)/G) * K is to sky Device is adjusted to be controlled, obtaining new set temperature X is 29 DEG C.It is clear that in conjunction with the setting temperature recalculated after user feedback 29 DEG C of degree is more conform with practical application scene.

Based on the specific implementation of above-mentioned steps 103b, referring to Fig. 7, in a kind of optional embodiment, the present invention is real The controller control method for applying example offer further includes following steps:

In the control process of the predetermined control strategy according to above-mentioned steps 103b, K takes initial value 1, but in order to So that control process is more and more accurate, need constantly to adjust the adjustment factor K according to the feedback of user.

For example, when the automatic set temperature of system is not able to satisfy or when current more than user refrigeration demand, user generally can It goes to manually set temperature.For example, it is assumed that M=6, N=2, W=27 DEG C of Current Temperatures, X=26 DEG C of system automatic set temperature, this When assume that user feels colder, and manually set Y=30 DEG C of temperature, then according to step 104ab K_{It is newest}=K_Currently+0.1*(Y- X)=1+0.1*4=1.4, then according to newest K value 1.4 according to above-mentioned predetermined control strategy X=T₁+P；Wherein, P=((W- T₁) * (M+N)/G) * K controls air conditioner, obtaining new set temperature X is 27.12 DEG C.It is clear that anti-in conjunction with user 27.12 DEG C of the set temperature recalculated after feedback are more conform with reality for last automatic X=26 DEG C of set temperature Application scenarios.

In a kind of optional embodiment, another specific implementation of above-mentioned steps 103 is given, referring to Fig. 8, on Step 103 is stated to specifically include:

Step 103c: according to number M and the room inner seat currently sat in Current Temperatures W in room, room on the seat Chair sum G is controlled according to working condition and/or set temperature of the following predetermined control strategy to air conditioner:

If W is less than T₂, and P is greater than Q₂, then control air conditioner and open heating mode, and control the set temperature X of air conditioner Are as follows:

X=T₂-P；Wherein, P=((W-T₂)*(M/G))*K；

The treatment process of present embodiment and the treatment process class of above-mentioned steps 103a this, only the treatment process is system Heat pattern, concrete principle can be found in above embodiment.Wherein, the second temperature threshold value T₂User be can be understood as in the winter The more comfortable temperature of season perception, therefore second temperature threshold value T₂Value range be preferably 19~23 DEG C, such as T₂=21 DEG C.

Based on the specific implementation of above-mentioned steps 103c, in a kind of optional embodiment, referring to Fig. 9, the present invention is real The controller control method for applying example offer further includes following steps:

Step 104c: if receiving temperature Y set by user, newest K value is calculated according to following formula three:

K=P '/((W-T₂) * (M/G)) wherein, P '=T₂–Y；Formula three

The treatment process of present embodiment and the treatment process class of above-mentioned steps 104a this, only the treatment process is system Heat pattern, concrete principle can be found in above embodiment.

In a kind of optional embodiment, another specific implementation of above-mentioned steps 103 is given, referring to Figure 10, Above-mentioned steps 103 specifically include:

Step 103d: according to the number M currently sat in Current Temperatures W in room, room on the seat, currently it is sitting in seat Seat sum G in upper and the number N and room that are moving, according to following predetermined control strategy to the work shape of air conditioner State and/or set temperature are controlled:

If W is less than T₂, and P is greater than Q₄, then control air conditioner and open heating mode, and control the set temperature X of air conditioner Are as follows:

X=T₂-P；Wherein, P=((W-T₂)*(M+N)/G)*K；

The treatment process of present embodiment and the treatment process class of above-mentioned steps 103b this, only the treatment process is system Heat pattern, concrete principle can be found in above embodiment.Wherein, the second temperature threshold value T₂User be can be understood as in the winter The more comfortable temperature of season perception, therefore second temperature threshold value T₂Value range be preferably 19~23 DEG C, such as T₂=21 DEG C.

Another specific implementation based on above-mentioned steps 103, in a kind of optional embodiment, referring to Figure 11, originally The controller control method that inventive embodiments provide further includes following steps:

Step 104d: if receiving temperature Y set by user, newest K value is calculated according to following formula four:

K=P '/((W-T₂) * (M+N)/G) wherein, P '=T₂–Y；Formula four

The treatment process of present embodiment and the treatment process class of above-mentioned steps 104b this, only the treatment process is system Heat pattern, concrete principle can be found in above embodiment.

Based on above-mentioned steps 103c or step 103d, in a kind of optional embodiment, referring to Figure 12, the embodiment of the present invention The controller control method of offer further includes following steps:

Step 104cd: if receiving temperature Y set by user, judge temperature Y set by user and current automatic setting The size relation of temperature X calculates newest K value K when temperature Y set by user is greater than current automatic set temperature X_{It is newest}= K_Currently+0.1*(Y-X)；When temperature Y set by user is less than current automatic set temperature X, calculating newest K value is K_{It is newest}= K_Currently-0.1*(X-Y)；

In a kind of optional embodiment, referring to Figure 13, above-mentioned steps 103 further include:

Step 103e: according to the number M currently sat in room on the seat, according to following predetermined control strategy to air-conditioning The working condition and/or set temperature of device are controlled:

If M=0, show there is no air-conditioning use demand in room, therefore closing air conditioner should be controlled, saves electric energy.

It is understood that the scheme that the above-mentioned multiple optional embodiments of the embodiment of the present invention are recorded can be freely combined, This is not limited by the present invention.

Based on same inventive concept, second embodiment of the invention provides a kind of controller, comprising: referring to Figure 14, First acquisition unit 1401, second acquisition unit 1402 and control unit 1403；

First acquisition unit 1401, for obtaining Current Temperatures W in room；

Second acquisition unit 1402, for obtaining seat service condition in room；

Control unit 1403 is used for according to seat service condition in Current Temperatures W in room and room, according to default control System strategy controls the working condition and/or set temperature of air conditioner.

In a kind of optional embodiment, the second acquisition unit 1402 is specifically used for:

In a kind of optional embodiment, described control unit 1403 is specifically used for:

If W is greater than T₁, and P is greater than Q₁, then control air conditioner and open refrigeration mode, and control the set temperature X of air conditioner Are as follows:

X=T₁+P；Wherein, P=((W-T₁)*(M/G))*K；

In a kind of optional embodiment, referring to Figure 15, the controller further include: the first judging unit 1404 and second Computing unit 1405；

First judging unit 1404 receives temperature Y set by user for judging whether；

First computing unit 1405, for receiving temperature Y set by user in first judging unit determination When, newest K value is calculated according to following formula one:

K=P '/((W-T₁) * (M/G)) wherein, P '=Y-T₁；Formula one

Correspondingly, described control unit 1403 are used for according to newest K value according to the predetermined control strategy to air conditioner Working condition and/or set temperature controlled.

X=T₁+P；Wherein, P=((W-T₁)*(M+N)/G)*K；

In a kind of optional embodiment, referring to Figure 16, the controller further include: second judgment unit 1406 and second Computing unit 1407；

The second judgment unit 1406 receives temperature Y set by user for judging whether；

Second computing unit 1407, for receiving temperature Y set by user in second judgment unit determination When, newest K value is calculated according to following formula two:

K=P '/((W-T₁) * (M+N)/G) wherein, P '=Y-T₁；Formula two

In a kind of optional embodiment, referring to Figure 17, the controller further include: third judging unit 1408 and third Computing unit 1409；

The third judging unit 1408 receives temperature Y set by user for judging whether；

The third computing unit 1409, for receiving temperature Y set by user in third judging unit determination When, according to the size relation of temperature Y set by user and current automatic set temperature X, it is greater than in temperature Y set by user current When automatic set temperature X, newest K value K is calculated_{It is newest}=K_Currently+0.1*(Y-X)；Or it is less than currently certainly in temperature Y set by user When dynamic set temperature X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X-Y)；

X=T₂-P；Wherein, P=((W-T₂)*(M/G))*K；

In a kind of optional embodiment, referring to Figure 18, the controller further include: the 4th judging unit 1410 and the 4th Computing unit 1411；

4th judging unit 1410 receives temperature Y set by user for judging whether；

4th computing unit 1411, for receiving temperature Y set by user in the 4th judging unit determination When, newest K value is calculated according to following formula three:

K=P '/((W-T₂) * (M/G)) wherein, P '=T₂–Y；Formula three

X=T₂-P；Wherein, P=((W-T₂)*(M+N)/G)*K；

In a kind of optional embodiment, referring to Figure 19, the controller further include: the 5th judging unit 1412 and the 5th Computing unit 1413；

5th judging unit 1412 receives temperature Y set by user for judging whether；

5th computing unit 1413, for receiving temperature Y set by user in the 5th judging unit determination When, newest K value is calculated according to following formula four:

K=P '/((W-T₂) * (M+N)/G) wherein, P '=T₂–Y；Formula four

In a kind of optional embodiment, referring to fig. 20, the controller further include: the 6th judging unit 1414 and the 6th Computing unit 1415；

6th judging unit 1414 receives temperature Y set by user for judging whether；

6th computing unit 1415, for receiving temperature Y set by user in the 6th judging unit determination When, according to the size relation of temperature Y set by user and current automatic set temperature X, it is greater than in temperature Y set by user current When automatic set temperature X, newest K value K is calculated_{It is newest}=K_Currently+0.1*(Y-X)；Or it is less than currently certainly in temperature Y set by user When dynamic set temperature X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X-Y)；

In a kind of optional embodiment, described control unit 1403 is also used to:

Work according to the number M currently sat in room on the seat, according to following predetermined control strategy to air conditioner State and/or set temperature are controlled:

If M=0, closing air conditioner is controlled.

Controller provided in an embodiment of the present invention can be used for executing air-conditioner control method described in above-described embodiment, Its principle is similar with technical effect, and and will not be described here in detail.

Based on same inventive concept, third embodiment of the invention provides a kind of air conditioner, which includes Controller as described in above example.

Since the air conditioner contains controller described in above-described embodiment, same technical problem can solve, And obtain identical technical effect.

Air conditioner provided in this embodiment is preferably central air-conditioning, certainly as needed may be that common household is empty It adjusts.

Based on same inventive concept, four embodiment of the invention provides a kind of air conditioner control system, referring to figure 21, the air conditioner control system include: air conditioner 210, setting temperature sensing module 211 in the room, installation in the room Detection device 212 on seat, and the controller 213 as described in above example；

The detection device 212 will test result and be sent to the control for detecting seat service condition in room Device；

Temperature in the room of perception is sent to described by the temperature sensing module 211 for perceiving temperature in room Controller；

The controller 213 is used for according to temperature in the testing result and room, according to predetermined control strategy to sky The working condition and/or set temperature for adjusting device 210 are controlled.

Controller control system provided in an embodiment of the present invention can be used for executing air conditioner control described in above-described embodiment Method processed, principle is similar with technical effect, and and will not be described here in detail.

Further, since generally server at the far end is arranged in the controller 213, in order to avoid temperature biography Feel module 211 and detection device 212 and controller 213 carries out telecommunication, in a kind of optional embodiment, referring to figure 22, the air conditioner control system further include: gateway 214；

Specifically, the gateway 214 is used to receive testing result and the temperature that the detection device 212 is sent Temperature in the room that sensing module 211 perceives, and temperature in the testing result received and room is sent to the control Device 213；

Correspondingly, temperature in the testing result and room that the controller 213 is used to be sent according to the gateway 214, Corresponding control instruction is generated according to predetermined control strategy, and control instruction is sent to the gateway 214, it will by the gateway The control instruction is transmitted to air conditioner 210, with to air conditioner 210 working condition and/or set temperature control.

It is understood that can be realized by way of installing Zigbee, bluetooth, WIFI communication module on the seat The short haul connection of temperature sensing module 211 and detection device 212 and gateway 214.Since cost is relatively low and logical for short haul connection Believe it is high-quality, therefore present embodiment provide air conditioner control system can while effectively reducing cost, guarantee communication Quality.

As it can be seen that temperature sensing module 211 and detection can be made due to being provided with gateway 214 in the present embodiment Device 212 first carries out short haul connection with gateway 214, is then led at a distance by gateway 214 and the controller 213 of distal end again Letter, and by the control instruction of 214 transmitting controller of gateway transmission to air conditioner, to realize the control to air conditioner.

In a kind of optional embodiment, the detection device 212 includes: communication module, further includes: pressure sensor And/or acceleration transducer；

The pressure sensor is for detecting whether take on the seat；

The communication module for being communicated with the gateway or the controller, by the pressure sensor and/or The testing result of the acceleration transducer is sent to the gateway or the controller.The communication module can be The communication modules such as Zigbee, bluetooth, WIFI.

Since the present embodiment provides air conditioner control systems to contain controller described in above-described embodiment, can solve Certainly same technical problem, and obtain identical technical effect.

In the description of the present invention, it should be noted that the orientation or positional relationship of the instructions such as term " on ", "lower" is base In orientation or positional relationship shown in the drawings, it is merely for convenience of description of the present invention and simplification of the description, rather than indication or suggestion Signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this The limitation of invention.Unless otherwise clearly defined and limited, term " installation ", " connected ", " connection " shall be understood in a broad sense, example Such as, it may be fixed connection or may be dismantle connection, or integral connection；It can be mechanical connection, be also possible to be electrically connected It connects；It can be directly connected, the connection inside two elements can also be can be indirectly connected through an intermediary.For this For the those of ordinary skill in field, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

It should also be noted that, herein, relational terms such as first and second and the like are used merely to one Entity or operation are distinguished with another entity or operation, without necessarily requiring or implying between these entities or operation There are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to contain Lid non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

The above examples are only used to illustrate the technical scheme of the present invention, rather than its limitations；Although with reference to the foregoing embodiments Invention is explained in detail, those skilled in the art should understand that: it still can be to aforementioned each implementation Technical solution documented by example is modified or equivalent replacement of some of the technical features；And these are modified or replace It changes, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims

1. a kind of air-conditioner control method characterized by comprising

Obtain Current Temperatures W in room；

Obtain seat service condition in room；

Work according to seat service condition in Current Temperatures W in room and room, according to predetermined control strategy to air conditioner State and/or set temperature are controlled；

When seat service condition is to obtain currently to sit number M on the seat in room in the acquisition room, according to room Seat sum G in number M and room on the seat is currently sat in interior Current Temperatures W, room, according to following default control Strategy controls the working condition and/or set temperature of air conditioner:

If Current Temperatures W is greater than the first temperature threshold T in room₁, and be greater than first with reference to regulated quantity P and adjust threshold value Q₁, then control Air conditioner opens refrigeration mode, and controls the set temperature X of air conditioner are as follows:

Wherein, K is adjustment factor, initial value 1；T₁Value range be 24~28 DEG C, Q₁Value range be 1.2~1.5 ℃；

When seat service condition is to obtain the number M currently sat in room on the seat and obtain current in the acquisition room When sitting the number N on the seat and moved, according to the number currently sat in Current Temperatures W in room, room on the seat M, current to sit seat sum G on the seat and in the number N and room that are moving, according to following predetermined control strategy pair The working condition and/or set temperature of air conditioner are controlled:

If Current Temperatures W is greater than the first temperature threshold T in room₁, and be greater than third with reference to regulated quantity P and adjust threshold value Q₃, then control Air conditioner opens refrigeration mode, and controls the set temperature X of air conditioner are as follows:

X=T₁+P；Wherein, P=((W-T₁)*(M+N)/G)*K；

Wherein, K is adjustment factor, initial value 1, T₁Value range be 24~28 DEG C, Q₃Value range be 1.5~2.5 DEG C, M+N≤G.

2. the method according to claim 1, wherein the method also includes:

K=P '/((W-T₁) * (M/G)) wherein, P '=Y-T₁Formula one；

Correspondingly, according to newest K value according to the predetermined control strategy to the working condition of air conditioner and/or set temperature into Row control.

3. the method according to claim 1, wherein the method also includes:

K=P '/((W-T₁) * (M+N)/G) wherein, P '=Y-T₁Formula two；

4. the method according to claim 1, wherein the method also includes:

If receiving temperature Y set by user, judge that temperature Y set by user and the size of current automatic set temperature X are closed System calculates newest K value K when temperature Y set by user is greater than current automatic set temperature X_{It is newest}=K_Currently+0.1*(Y-X)； When temperature Y set by user is less than current automatic set temperature X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X-Y)；

5. the method according to claim 1, wherein working as seat service condition in the acquisition room is to obtain room It is described according to seat service condition in Current Temperatures W in room and room when the interior current number M sat on the seat, it presses It controls, specifically includes according to working condition and/or set temperature of the predetermined control strategy to air conditioner:

According to seat sum G in number M and the room currently sat in Current Temperatures W in room, room on the seat, according to such as Under predetermined control strategy the working condition and/or set temperature of air conditioner are controlled:

If Current Temperatures W is less than second temperature threshold value T in room₂, and be greater than second with reference to regulated quantity P and adjust threshold value Q₂, then control Air conditioner opens heating mode, and controls the set temperature X of air conditioner are as follows:

X=T₂-P；Wherein, P=((W-T₂)*(M/G))*K；

Wherein, K is adjustment factor, initial value 1, T₂Value range be 19~23 DEG C, Q₂Value range be 1.2~1.5 ℃。

6. according to the method described in claim 5, it is characterized in that, the method also includes:

K=P '/((W-T₂) * (M/G)) wherein, P '=T₂- Y formula three；

7. the method according to claim 1, wherein working as seat service condition in the acquisition room is to obtain room It is described according to room when the number N on the seat and moved is currently sat in the interior current number M sat on the seat and acquisition Seat service condition in interior Current Temperatures W and room, to the working condition of air conditioner and/or sets according to predetermined control strategy Determine temperature to be controlled, specifically include:

According to the number M currently sat in Current Temperatures W in room, room on the seat, current sit on the seat and moving Number N and room in seat sum G, according to following predetermined control strategy to the working condition and/or setting of air conditioner Temperature is controlled:

If Current Temperatures W is less than second temperature threshold value T in room₂, and be greater than the 4th with reference to regulated quantity P and adjust threshold value Q₄, then control Air conditioner opens heating mode, and controls the set temperature X of air conditioner are as follows:

X=T₂-P；Wherein, P=((W-T₂)*(M+N)/G)*K；

Wherein, K is adjustment factor, initial value 1, T₂Value range be 19~23 DEG C, Q₄Value range be 1.5~2.5 DEG C, M+N≤G.

8. the method according to the description of claim 7 is characterized in that the method also includes:

K=P '/((W-T₂) * (M+N)/G) wherein, P '=T₂- Y formula four；

9. the method according to claim 5 or 7, which is characterized in that the method also includes:

10. according to claim 1~3, method described in any one of 5~8, which is characterized in that described according to current in room Seat service condition in temperature W and room, according to predetermined control strategy to the working condition of air conditioner and/or set temperature into Row control, specifically includes:

11. a kind of controller characterized by comprising

First acquisition unit, for obtaining Current Temperatures W in room；

Second acquisition unit, for obtaining seat service condition in room；

Control unit is used for according to seat service condition in Current Temperatures W in room and room, according to predetermined control strategy pair The working condition and/or set temperature of air conditioner are controlled；

If it is to obtain the number currently sat in room on the seat that the second acquisition unit, which obtains seat service condition in room, M, then described control unit are specifically used for: according to the number M currently sat in Current Temperatures W in room, room on the seat and Seat sum G in room is controlled according to working condition and/or set temperature of the following predetermined control strategy to air conditioner System:

X=T₁+P；Wherein, P=((W-T₁)*(M/G))*K；

If it is to obtain the number M currently sat in room on the seat that the second acquisition unit, which obtains seat service condition in room, And obtaining the current number N for sitting and on the seat and moving, then described control unit is specifically used for: according to working as in room Number M on the seat is currently sat in preceding temperature W, room, current is sat on the seat and in the number N and room that are moving Seat sum G is controlled according to working condition and/or set temperature of the following predetermined control strategy to air conditioner:

X=T₁+P；Wherein, P=((W-T₁)*(M+N)/G)*K；

12. controller according to claim 11, which is characterized in that further include: the first judging unit and first calculates list Member；

First judging unit receives temperature Y set by user for judging whether；

First computing unit, for first judging unit determine receive temperature Y set by user when, under It states formula one and calculates newest K value:

K=P '/((W-T₁) * (M/G)) wherein, P '=Y-T₁；Formula one

Correspondingly, described control unit, for according to newest K value according to the predetermined control strategy to the work shape of air conditioner State and/or set temperature are controlled.

13. controller according to claim 11, which is characterized in that further include: second judgment unit and second calculates list Member；

Second computing unit, for the second judgment unit determine receive temperature Y set by user when, under It states formula two and calculates newest K value:

K=P '/((W-T₁) * (M+N)/G) wherein, P '=Y-T₁；Formula two

14. controller according to claim 11, which is characterized in that further include: third judging unit and third calculate list Member；

The third computing unit, for the third judging unit determine receive temperature Y set by user when, according to The size relation of the temperature Y of family setting and current automatic set temperature X are greater than current automatic setting in temperature Y set by user When temperature X, newest K value K is calculated_{It is newest}=K_Currently+0.1*(Y-X)；Or it is less than current automatic setting temperature in temperature Y set by user When spending X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X-Y)；

15. controller according to claim 11, which is characterized in that described control unit is specifically used for:

X=T₂-P；Wherein, P=((W-T₂)*(M/G))*K；

16. controller according to claim 15, which is characterized in that further include: the 4th judging unit and the 4th calculates list Member；

4th judging unit receives temperature Y set by user for judging whether；

4th computing unit, for the 4th judging unit determine receive temperature Y set by user when, under It states formula three and calculates newest K value:

K=P '/((W-T₂) * (M/G)) wherein, P '=T₂–Y；Formula three

17. controller according to claim 11, which is characterized in that described control unit is specifically used for:

X=T₂-P；Wherein, P=((W-T₂)*(M+N)/G)*K；

18. controller according to claim 17, which is characterized in that further include: the 5th judging unit and the 5th calculates list Member；

5th judging unit receives temperature Y set by user for judging whether；

5th computing unit, for the 5th judging unit determine receive temperature Y set by user when, under It states formula four and calculates newest K value:

K=P '/((W-T₂) * (M+N)/G) wherein, P '=T₂–Y；Formula four

19. controller described in 5 or 17 according to claim 1, which is characterized in that further include: the 6th judging unit and the 6th meter Calculate unit；

6th judging unit receives temperature Y set by user for judging whether；

6th computing unit, for the 6th judging unit determine receive temperature Y set by user when, according to The size relation of the temperature Y of family setting and current automatic set temperature X are greater than current automatic setting in temperature Y set by user When temperature X, newest K value K is calculated_{It is newest}=K_Currently+0.1*(Y-X)；Or it is less than current automatic setting temperature in temperature Y set by user When spending X, calculating newest K value is K_{It is newest}=K_Currently-0.1*(X-Y)；

20. controller described in any one of 1~13,15~18 according to claim 1, which is characterized in that described control unit, It is also used to:

In the room when the current number M=0 sat on the seat, air conditioner is closed in control.

21. a kind of air conditioner, which is characterized in that further include such as the described in any item controllers of claim 11~20.

22. a kind of air conditioner control system characterized by comprising air conditioner, setting temperature sensing module in the room, The detection device being mounted in room on seat, and such as the described in any item controllers of claim 11~20；

Temperature in the room of perception is sent to the controller for perceiving temperature in room by the temperature sensing module；

The controller is used for according to temperature in the testing result and room, according to predetermined control strategy to the work of air conditioner Make state and/or set temperature is controlled.

23. air conditioner control system according to claim 22, which is characterized in that further include: gateway；

The gateway is used to receive the room of the testing result that the detection device is sent and temperature sensing module perception Interior temperature, and temperature in the testing result received and room is sent to the controller；

Correspondingly, temperature in the testing result and room that the controller is used to be sent according to the gateway, according to default control The corresponding control instruction of strategy generating processed, and control instruction is sent to the gateway, by the gateway by the control instruction Be transmitted to air conditioner, with to air conditioner working condition and/or set temperature control.

24. air conditioner control system according to claim 23, which is characterized in that the detection device includes: communication mould Block, further includes: pressure sensor and/or acceleration transducer；

The pressure sensor is for detecting whether take on the seat；

The communication module with the gateway or the controller for being communicated, by the pressure sensor and/or described The testing result of acceleration transducer is sent to the gateway or the controller.