CN1991263A - Control method of air conditioner and air-conditioning unit - Google Patents

Control method of air conditioner and air-conditioning unit Download PDF

Info

Publication number
CN1991263A
CN1991263A CN 200510097510 CN200510097510A CN1991263A CN 1991263 A CN1991263 A CN 1991263A CN 200510097510 CN200510097510 CN 200510097510 CN 200510097510 A CN200510097510 A CN 200510097510A CN 1991263 A CN1991263 A CN 1991263A
Authority
CN
China
Prior art keywords
air
conditioner
controller
volume
traffic
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN 200510097510
Other languages
Chinese (zh)
Other versions
CN1991263B (en
Inventor
吴慧娟
陆建君
田晓凌
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Corp
Original Assignee
Panasonic Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Panasonic Corp filed Critical Panasonic Corp
Priority to CN200510097510A priority Critical patent/CN1991263B/en
Publication of CN1991263A publication Critical patent/CN1991263A/en
Application granted granted Critical
Publication of CN1991263B publication Critical patent/CN1991263B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The invention provides a control method for air conditioner. In the method force-feeling sensor and controller are used to control. When the air conditioner starts, the force-feeling sensor detects human action status signal in usage space of air conditioner and transfers the signal to the controller. The controller judges if human exists in the usage space according to the signal. When there is human in it, the air conditioner is controlled to run in a first operation amount in the regular time and when there is no human in it, the air conditioner is controlled to run in a second operation amount lower than the first operation amount. The invention also provides the air conditioner controlled by the control method.

Description

A kind of control method of air-conditioner and air-conditioner
Technical field
The present invention relates to a kind of control method and air-conditioner of air-conditioner, specifically, relate to the control method and the air-conditioner of the air-conditioner that utilizes sensor and the operation of controller control air-conditioner.
Background technology
The existing air-conditioning that is provided with sensor is when air-conditioning continuous running state, according to the detected people's in indoor of sensor existence signal, and the volume of traffic of control air-conditioning.Particularly, utilize infrared ray come indoor mobiles such as test example such as people have or not with and activity.Air-conditioning according to detected activity judge indoor people or not, infer its activity, and adjust difference between revisal design temperature, basis and the indoor temperature accordingly and control the volume of traffic of self.
But, even the aforesaid air-conditioning that is provided with sensor, volume of traffic when starting for air-conditioner is not done any special control, so, still exist as when air-conditioner starts, since gradient of temperature slowly, and can not in time reach the air-conditioning effect, cause the user to feel problem such as uncomfortable.
Summary of the invention
In order to solve above-mentioned problems of the prior art, an object of the present invention is to provide a kind of control method of air-conditioner, be air-conditioning when starting, can in time reach the air-conditioning effect.
Particularly, the invention provides a kind of control method of air-conditioner, it is characterized in that, this method utilizes force-feeling sensor and controller to control, when air-conditioner starts, the force-feeling sensor detects the operating state signal of the people in the usage space of air-conditioner, and sends this signal to controller; Controller is according to this signal, judge whether the someone exists in the usage space, when being judged as the someone when existing, the control air-conditioner turns round with first volume of traffic at the appointed time, unmanned when indoor when being judged as, then control air-conditioner at the appointed time to be lower than second volume of traffic running of first volume of traffic.
According to the control method of the invention described above, owing to when air-conditioner starts, turn round with powerful first volume of traffic, therefore, can reach the air-conditioning effect fast as man-hour, improve people's comfort.In addition, according to the control method of the invention described above, owing to when air-conditioner starts, when nobody exists,, therefore, can reach energy-conservation effect with lower powered second volume of traffic running.
In the control method of air-conditioner of the present invention, when air-conditioner starts and through afore mentioned rules after the time, the force-feeling sensor can continue to detect the operating state signal of the people in the air-conditioner usage space, and sends this signal to controller; Controller is according to this signal, judge whether the someone exists in the usage space, when being judged as the someone when existing, the control air-conditioner is with the 3rd volume of traffic running corresponding to the load of described air-conditioner, unmanned when indoor when being judged as, then control air-conditioner and turn round with second volume of traffic below the 3rd volume of traffic.
Control method according to the air-conditioner of the invention described above, because can be when operation of air conditioner according to having people or unmanned situation to change the size of the volume of traffic of air-conditioner running, can there be man-hour that air-conditioning is turned round with the 3rd volume of traffic, realize the air-conditioning effect, and nobody the time with second volume of traffic running energy that can practice every conceivable frugality.
The load of described air-conditioner can be based between actual temperature in the described air-conditioner usage space and the design temperature poor, described controller is regulated the size of described the 3rd volume of traffic in view of the above.
In addition, the activity of the people in the described air-conditioner usage space that the load of described air-conditioner can also be judged according to described signal based on described controller, described controller is regulated the size of described the 3rd volume of traffic in view of the above.
In addition, in the control method of air-conditioner of the present invention, when air-conditioner starts and through afore mentioned rules after the time, controller can according between actual temperature in the described air-conditioner usage space and the design temperature poor and/or people's activity in the described air-conditioner usage space judged according to described signal, regulate the size of the 3rd volume of traffic.
Like this, by according between actual temperature in the usage space and the design temperature poor and/or people's activity regulate the size of the 3rd volume of traffic, rational air-conditioning effect under the man-hour situation can quicker realization be arranged, in the comfort that improves the user, can reach the effect of the reasonable distribution energy again.
In addition, in the control method of air-conditioner of the present invention, when air-conditioner starts and through afore mentioned rules after the time, when controller according to this signal, judge in the usage space by the unmanned state to become when people's state is arranged, then control air-conditioner and turn round with first volume of traffic at the appointed time.
Control method according to the air-conditioner of the invention described above, when conditioned space becomes when people's state is arranged from the unmanned state,, can reach the air-conditioning effect faster by making first volume of traffic running of air-conditioner with the macro-energy running, more can improve user's comfort, more reasonably distribution energy.
In the control method of air-conditioner of the present invention, controller is judged the activity of the people in the usage space according to the signal that the force-feeling sensor detects, and regulates the length with the stipulated time of first volume of traffic running in view of the above.
By regulating the stipulated time of first volume of traffic running, promptly, can make conditioned space reach the air-conditioning effect quickly by regulating time with the macro-energy running, more can improve user's comfort, the while is Resources allocation more reasonably.The mode that this time is regulated will be described in further detail in the following specific embodiment.
In sum, control method according to air-conditioner provided by the invention, can overcome the defective of above-mentioned prior art, can in time adjust the volume of traffic of air-conditioner, particularly when air-conditioner starts, can reach good air-conditioning effect rapidly, thus, greatly improve people's comfort, and reached the reasonable distribution energy and energy-conservation effect.
Another object of the present invention provides a kind of air-conditioner, and this air-conditioner possesses force-feeling sensor and controller, it is characterized in that, the force-feeling sensor detects the operating state signal of the people in the usage space of air-conditioner, and sends this signal to controller; Controller is according to this signal, judge whether the someone exists in the usage space, when being judged as the someone when existing, the control air-conditioner turns round with first volume of traffic at the appointed time, unmanned when indoor when being judged as, then control air-conditioner at the appointed time to be lower than second volume of traffic running of first volume of traffic.
According to the air-conditioner of the invention described above, owing to when air-conditioner starts, turn round with powerful first volume of traffic, therefore, can reach the air-conditioning effect fast as man-hour, improve people's comfort.In addition, according to the air-conditioner of the invention described above, owing to when air-conditioner starts, when nobody exists,, therefore, can reach energy-conservation effect with lower powered second volume of traffic running.
When air-conditioner of the present invention starts and through afore mentioned rules after the time, the force-feeling sensor continues to detect the operating state signal of the people in the air-conditioner usage space, and sends this signal to controller; Controller is according to this signal, judge whether the someone exists in the usage space, when being judged as the someone when existing, the control air-conditioner is with the 3rd volume of traffic running corresponding to the load of described air-conditioner, unmanned when indoor when being judged as, then control air-conditioner and turn round with second volume of traffic below the 3rd volume of traffic.
Air-conditioner according to the invention described above, because can be when operation of air conditioner according to having people or unmanned situation to change the size of the volume of traffic of air-conditioner running, can there be man-hour that air-conditioning is turned round with the 3rd volume of traffic, realize the air-conditioning effect, and nobody the time can be with second volume of traffic running, the energy practices every conceivable frugality.
In addition, start and through afore mentioned rules after the time according to the air-conditioner of the invention described above, controller can also according between actual temperature in the described air-conditioner usage space and the design temperature poor and/or people's activity in the described air-conditioner usage space judged according to described signal, regulate the size of described the 3rd volume of traffic.
Like this, controller by according between actual temperature in the usage space and the design temperature poor and/or people's activity regulate the size of the 3rd volume of traffic, rational air-conditioning effect under the man-hour situation can quicker realization be arranged, in the comfort that improves the user, can reach the effect of the reasonable distribution energy again.
In addition, when the air-conditioner of the invention described above starts and through afore mentioned rules after the time, when controller according to the signal that the force-feeling sensor detects, be judged as in the usage space by the unmanned state and become when people's state is arranged, can also control air-conditioner it is turned round with first volume of traffic at the appointed time.
Air-conditioner according to the invention described above, when conditioned space becomes when people's state is arranged from the unmanned state,, can reach the air-conditioning effect faster by making first volume of traffic running of air-conditioner with the macro-energy running, more can improve user's comfort, more reasonably distribution energy.
Further, in air-conditioner of the present invention, controller can be judged the activity of the people in the usage space according to the signal that the force-feeling sensor detects, and regulates the length with the stipulated time of first volume of traffic running in view of the above.
Controller promptly by regulating the time with the macro-energy running, can make conditioned space reach the air-conditioning effect by the stipulated time of adjusting first volume of traffic running quickly, more can improve user's comfort, and the while is Resources allocation more reasonably.
In the present invention, above-mentioned air-conditioner is meant with " running of first volume of traffic ", comprise the so-called operation mode of forcing the macro-energy of operation mode, in this pattern, can pass through the air quantity of increase air-conditioner etc., temperature control rapidly, thus reach the demand of user fast for temperature in the usage space.
Above-mentioned air-conditioner is meant with " running of second volume of traffic " that is lower than first volume of traffic, the pattern that comprises so-called battery saving mode with little energy operation, with this mode operation the time, air quantity that can be by reducing air-conditioner etc., make the temperature control speed of air-conditioner slow, can effectively reach energy-conservation effect.
Above-mentioned air-conditioner is meant with " running of the 3rd volume of traffic ", air-conditioner started and after the running stipulated time, when controller is judged as the indoor operation mode that has man-hour to carry out according to signal, the size of the 3rd volume of traffic is also carried out and can be regulated, its regulative mode can by controller judge between actual temperature and the design temperature poor and/or the signal that transmits of force-feeling sensor, regulate.
In sum, air-conditioner provided by the invention can overcome the defective of prior art, can in time adjust the volume of traffic of air-conditioner, particularly when air-conditioner starts, can reach good air-conditioning effect rapidly, thus, greatly improve people's comfort, and reached the reasonable distribution energy and energy-conservation effect.
Description of drawings
Fig. 1 is the schematic diagram of control method of the air-conditioner of a routine embodiment of the present invention.
Fig. 2 is the schematic diagram of control method of the air-conditioner of another routine embodiment of the present invention.
Fig. 3 is the schematic diagram of control method of the air-conditioner of another routine embodiment of the present invention.
Fig. 4 is the schematic diagram of control method of the air-conditioner of another routine embodiment of the present invention.
Fig. 5 is the schematic diagram of the air-conditioner of a routine embodiment of the present invention.
The specific embodiment
The present invention will be described in more detail below in conjunction with drawings and Examples.
Fig. 1 is the schematic diagram of control method of the air-conditioner of a routine embodiment of the present invention.As shown in Figure 1, air-conditioner of the present invention is controlled with force-feeling sensor and controller.After air-conditioner started, the force-feeling sensor detected the operating state signal P of the people in the air-conditioner usage space, and sends this signal P to controller; Controller is judged whether the someone exists in the usage space, and is controlled the drive manner of air-conditioner with this according to signal P.
Specifically, as shown in Figure 1, sensor detects people's signal P and sends it to controller, afterwards, controller is made judgement to this signal P, as (the P 〉=pa) of signal P during more than or equal to the default signal pa of controller, controller is judged as the people in the usage space, the control air-conditioner is with compulsory mode running (that is, with the running of first volume of traffic), and be t1 the duration of runs.When air-conditioner turned round with compulsory mode, the air quantity by increasing air-conditioner etc. can be to the quick temperature control of conditioned space, thereby can satisfy the requirement of user for room temperature rapidly.(P<pa), it is unmanned that controller is judged as in the usage space, and the control air-conditioner is with battery saving mode running (that is, with the running of second volume of traffic), and be t2 the duration of runs during less than pa and as signal P.When air-conditioner turned round with battery saving mode, air quantity by reducing air-conditioner etc. made air-conditioner slow down the temperature control of conditioned space, thereby can save energy consumption effectively.
When air-conditioner starts, and with the compulsory mode continuous running t1 time or with battery saving mode running t2 after the time, sensor continues to detect the operating state signal P of people in the usage space, and send this signal P to controller, and controller continues to judge whether the someone exists in the usage space according to signal P, and whether controls the operation mode of air-conditioner according to people's existence.Specifically, when being judged as the someone when existing, the control air-conditioner is with general mode running (that is, with the running of the 3rd volume of traffic), and be t3 the duration of runs; When being judged as nobody when existing, the control air-conditioner turns round with battery saving mode, and be t2 the duration of runs.Thus, not only can realize the purpose of quick temperature control when air-conditioner starts, and, after starting, when having the people to exist, can turn round with general mode, reach the effect of air-conditioner temperature control, and nobody can turn round with battery saving mode when existing, and reaches the effect of effective saving energy consumption.
In addition, when the control air-conditioner turns round with general mode, can also judge actual temperature in the usage space and the difference between the design temperature, and regulate the size of the 3rd volume of traffic in view of the above.Thus, can realize carrying out well the purpose of temperature control better.To this, specify with reference to Fig. 2 below.
What Fig. 2 represented is that air-conditioner is people's situation air-conditioner to be arranged with after the compulsory mode running, with the situation of general mode or battery saving mode running when starting.
As shown in Figure 2, with the refrigeration is example, when the air-conditioner startup and after the running stipulated time (being with the compulsory mode running t1 time in the present embodiment), temperature sensor continues to detect the interior actual temperature of usage space and the difference Δ T of design temperature, and sends the difference Δ T of this temperature to controller.Specifically, according to the signal P in the unit interval a 0, obtain t 0Signal P in time, controller judge the signal that it calculates, and when P 〉=pa, controller is judged as the people in the usage space, then control air-conditioner and carry out general mode running (that is, the 3rd volume of traffic turns round).Specifically, when Δ T<T1, controller control air-conditioner is with low general mode running; As T1≤Δ T<T2, controller control air-conditioner turns round with middle general mode; As Δ T 〉=T2, controller control air-conditioner turn round with high general mode, and these three kinds of states can change mutually according to the size of Δ T, and be t3 the duration of runs of general mode.And when P<pa, it is unmanned that controller is judged as in the usage space, and the control air-conditioner turns round with battery saving mode, and be t2 the duration of runs.
Wherein, T1 represent the default Δ T of controller than low value, T2 represent the high value of the Δ T that controller presets.
Like this, when controller is judged as difference Δ T that usage space has actual temperature in people and the usage space and a design temperature hour, air-conditioner is with low general mode running, reach can temperature control effective purpose of energy saving again; When controller is judged as usage space when having the difference Δ T of actual temperature in people and the usage space and design temperature higher, air-conditioner turns round with high general mode, reaches the purpose of quick temperature control; And be judged as usage space when having the difference Δ T of actual temperature in people and the usage space and design temperature not too high also not too low when controller, air-conditioner turns round with middle general mode, reach can temperature control effective purpose of energy saving again.
In addition, when the control air-conditioner turns round with general mode, can also judge the activity of the people in the usage space, and regulate the size of the 3rd volume of traffic in view of the above.Thus, can realize carrying out well the purpose of temperature control better.To this, specify with reference to Fig. 3 below.
What Fig. 3 represented is that air-conditioner is people's situation air-conditioner to be arranged with after the compulsory mode running, with the situation of general mode or battery saving mode running when starting.
As shown in Figure 3, be example with the refrigeration, when the air-conditioner startup and after the running stipulated time (being with the compulsory mode running t1 time in the present embodiment), sensor continues to detect the interior people's of usage space operating state signal P, and sends this signal P to controller.Specifically, according to the signal P in the unit interval a 0, obtain t 0Signal P in time, controller is judged the signal that it calculates, and when P 〉=pa, controller is judged as the people in the usage space, then control air-conditioner and carry out general mode running (that is, the running of the 3rd volume of traffic), and controller is according to the size of signal P, judge the size of people's activity, thereby regulate the size of the automatic volume of traffic of air-conditioner.Specifically, when P<p1, controller control air-conditioner is with low general mode running; As p1≤P<p2, controller control air-conditioner turns round with middle general mode; As P 〉=p2, controller control air-conditioner turn round with high general mode, and these three kinds of states can change mutually according to the variation of people's activity, and be t3 the duration of runs of general mode.And when P<pa, it is unmanned that controller is judged as in the usage space, and the control air-conditioner turns round with battery saving mode, and be t2 the duration of runs.
Wherein, p1 represent the default people of controller activity than low value, p2 represent the high value of the people's that controller presets activity.
Like this, when controller was judged as usage space the activity of the people in people and the usage space is arranged is level such as low, air-conditioner was with low general mode running, reach can temperature control effective purpose of energy saving again; And be judged as usage space when having the activity of the people in people and the usage space to be medium level when controller, air-conditioner turns round with middle general mode, reach can temperature control effective purpose of energy saving again; When controller is judged as usage space when having the activity of the people in people and the usage space to be high level, air-conditioner turns round with high general mode, reaches the purpose of quick temperature control.
In addition, when air-conditioner turns round with general mode, can also be simultaneously regulate the size of the 3rd volume of traffic based on the size of the size of the poor Δ T between actual temperature and the design temperature and the people's in the air-conditioner usage space activity P.
On the other hand, it when air-conditioner starts unmanned situation, air-conditioner turns round t2 after the time with battery saving mode, sensor continues to detect the operating state signal P of the people in the usage space, and send this signal P to controller, and controller is judged as the someone when existing according to signal P, and the control air-conditioner also can turn round with compulsory mode, and be t1 the duration of runs.
Further, as shown in Figure 4, in the control method of air-conditioner of the present invention, when air-conditioner in operation process when unmanned existence transfers the state that the someone exists to, promptly, controller is according to sensor signal P, as (the P 〉=pa) of signal P during more than or equal to the default signal pa of controller, controller is judged as the people in the usage space, controller judges also whether usage space is to transfer the state that the someone exists to from unmanned existence, is when unmanned existence transfers the state that the someone exists to when being judged as, and the control air-conditioner with compulsory mode (promptly, first volume of traffic) running, be t1 the duration of runs.Like this, more can realize the purpose of air-conditioner temperature control apace.
On the other hand, the duration of runs, t1, t2, t3 can preestablish.In addition, wherein t1 also can set according to the activity of the people in the conditioned space.That is to say, in the present invention, when air-conditioning quilt starts or in operation process when unmanned existence transfers the state that the someone exists to, controller is regulated the length of air-conditioner with the stipulated time t1 of compulsory mode running in view of the above according to the activity that sensor signal P judges the people in the usage space.
Specifically, be example: start under people's the situation and people's activity when big when air-conditioner is having, increase the high-power cooling time after starting, just prolong stipulated time t1 with the running of first volume of traffic with the air-conditioner cooling operation; When air-conditioner having under people's situation start and people's activity hour, shorten the high-power cooling time after starting, just shorten stipulated time t1 with the running of first volume of traffic.Like this, people's activity more can improve the speed of air-conditioner temperature control when big, and people's activity is than reaching energy-saving effect outside hour speed of raising air-conditioner temperature control.
In addition, with the warm example that operates as of air-conditioner system: under air-conditioner is having people's situation, start and people's activity when big, shorten the warm time of high-power system after starting, just shorten stipulated time t1 with the running of first volume of traffic; When air-conditioner having under people's situation start and people's activity hour, prolong the warm time of high-power system after starting, just prolong stipulated time t1 with the running of first volume of traffic.Like this, people's activity can improve when big the air-conditioner temperature control speed, can also reach energy-saving effect, people's activity hour more can improve the speed of air-conditioner temperature control.
In addition, as shown in Figure 5, air-conditioner 1 of the present invention possesses pressure fan 2, force-feeling sensor 3, controller 4 etc. at least.Each parts by aforesaid control method control air-conditioner.That is, after air-conditioner 1 was by starting, force-feeling sensor 3 detected the operating state signal of the people in the usage space of air-conditioners 1, and sent this signal to controller 4.Controller 4 judges according to this signal whether the someone exists in the above-mentioned usage space, and when being judged as the someone when existing, controller 4 control air-conditioners 1 turn round with first volume of traffic (that is powerful compulsory mode) in the t1 at the appointed time; Unmanned when indoor when being judged as, controller 4 control air-conditioners 1 turn round with second volume of traffic (that is low power battery saving mode) that is lower than first volume of traffic in the t2 at the appointed time.
In addition, through behind afore mentioned rules time t1 or the t2, force-feeling sensor 3 also can continue to detect the operating state signal of the people in air-conditioner 1 usage space, and sends this signal to controller 4 after air-conditioner 1 started.Controller 4 judges according to this signal whether the someone exists in the usage space.When being judged as the someone when existing, controller 4 control air-conditioners 1 are with the 3rd volume of traffic running (that is general mode); Unmanned when indoor when being judged as, 4 control of controller air-conditioner 1 turns round with second volume of traffic below the 3rd volume of traffic (that is low power battery saving mode).
Wherein, controller 4 also can be judged the activity of the people in the usage space of air-conditioner 1 according to the signal that force-feeling sensor 3 transmits, and/or actual temperature in the usage space of air-conditioner 1 and the difference between the design temperature are judged, and regulate the size of above-mentioned the 3rd volume of traffic in view of the above.
In addition, in the operation process of air-conditioner 1, when controller 4 according to the signal that force-feeling sensor 3 detects, be judged as in the usage space by the unmanned state and become when people's state is arranged, then controller 4 control air-conditioners 1 turn round with first volume of traffic (that is powerful compulsory mode) at the appointed time.
When starting in order to improve air-conditioner 1 better, or in operation process, become air-conditioning effect when people's state is arranged by the unmanned state, controller 4 also can be judged the activity of the people in the usage space according to the signal that force-feeling sensor 3 detects, and regulates the stipulated time t1 of air-conditioner 1 with the running of first volume of traffic in view of the above.
Wherein, first volume of traffic (promptly, powerful compulsory mode) running, second volume of traffic are (promptly, low power battery saving mode) running or the 3rd volume of traffic general mode of power (that is, general) running can be regulated the air output of pressure fan 2 and air-supply heat by the signal that controller 4 transmits according to force-feeling sensor 3 and wait and realize.The magnitude relationship of the volume of traffic between compulsory mode, general mode and the battery saving mode is: the volume of traffic of the volume of traffic 〉=battery saving mode of the volume of traffic 〉=general mode of compulsory mode.
In addition, all be that the formula air-conditioner is an example to decide frequently in the above embodiment of the present invention, the adjusting of its volume of traffic realizes by adjusting air output and air-supply heat, but, the invention is not restricted to this, the present invention also can be a frequency conversion type air conditioner, and it can regulate volume of traffic by frequency adjustment.
In sum, air-conditioner of the present invention is by the control of force-feeling sensor and controller, can carry out the conversion between compulsory mode, general mode, the battery saving mode, and can determine the duration of runs of compulsory mode, the size of volume of traffic of decision general mode, with this reach under people's state is arranged (when particularly air-conditioner starts) regulate automatically apace the temperature in room, nobody in reduce the purpose of the power consumption of air-conditioner.Thereby can reach the user better to the comfort of conditioned space and to the consume energy requirement of source reasonable distribution of air-conditioner, can effectively realize energy-conservation and the reasonable distribution energy, and can greatly increase user's comfort.
Below in conjunction with the accompanying drawings embodiments of the invention are had been described in detail, but above-mentioned explanation cannot be understood that it is limitation of the present invention, and is apparent, the present invention can carry out suitable distortion and improvement as required, and these distortion and improvement all should be considered as belonging in the scope of the present invention.

Claims (12)

1. the control method of an air-conditioner is characterized in that,
Utilize force-feeling sensor and controller to control, when described air-conditioner started, described force-feeling sensor detected the operating state signal of the people in the usage space of described air-conditioner, and sent this signal to described controller;
Described controller is according to described signal, judge whether the someone exists in the described usage space, when being judged as the someone when existing, controlling described air-conditioner turns round with first volume of traffic at the appointed time, unmanned when indoor when being judged as, then control described air-conditioner at the appointed time to be lower than second volume of traffic running of described first volume of traffic.
2. the control method of air-conditioner according to claim 1 is characterized in that,
When described air-conditioner startup and through after the described stipulated time,
Described force-feeling sensor continues to detect the operating state signal of the people in the described air-conditioner usage space, and sends this signal to described controller;
Described controller is according to described signal, judge whether the someone exists in the described usage space, when being judged as the someone when existing, control described air-conditioner with the 3rd volume of traffic running corresponding to the load of described air-conditioner, unmanned when indoor when being judged as, then control described air-conditioner with described second volume of traffic running below described the 3rd volume of traffic.
3. the control method of air-conditioner according to claim 2 is characterized in that,
The load of described air-conditioner poor based between actual temperature in the described air-conditioner usage space and the design temperature, described controller is regulated the size of described the 3rd volume of traffic in view of the above.
4. according to the control method of claim 2 or 3 described air-conditioners, it is characterized in that,
The activity of people in the described air-conditioner usage space that the load of described air-conditioner is judged according to described signal based on described controller, described controller is regulated the size of described the 3rd volume of traffic in view of the above.
5. the control method of air-conditioner according to claim 2 is characterized in that,
When described controller according to described signal, be judged as in the described usage space by the unmanned state and become when people's state is arranged, then control described air-conditioner at the appointed time with described first volume of traffic running.
6. the control method of air-conditioner according to claim 1 or 5 is characterized in that,
Described controller is judged the activity of the people in the described usage space according to the signal that described force-feeling sensor detects, and regulates the described described stipulated time with the running of first volume of traffic in view of the above.
7. an air-conditioner is characterized in that,
This air-conditioner possesses force-feeling sensor and controller,
Described force-feeling sensor detects the operating state signal of the people in the usage space of described air-conditioner, and sends this signal to described controller;
Described controller is according to described signal, judge whether the someone exists in the described usage space, when being judged as the someone when existing, described controller is controlled described air-conditioner and is turned round with first volume of traffic at the appointed time, unmanned when indoor when being judged as, described controller is then controlled described air-conditioner at the appointed time to be lower than second volume of traffic running of described first volume of traffic.
8. air-conditioner according to claim 7 is characterized in that,
When described air-conditioner startup and through after the described stipulated time,
Described force-feeling sensor continues to detect the operating state signal of the people in the described air-conditioner usage space, and sends this signal to described controller;
Described controller is according to described signal, judge whether the someone exists in the described usage space, when being judged as the someone when existing, control described air-conditioner with the 3rd volume of traffic running corresponding to the load of described air-conditioner, unmanned when indoor when being judged as, described controller is then controlled described air-conditioner with described second volume of traffic running below described the 3rd volume of traffic.
9. air-conditioner according to claim 8 is characterized in that,
The load of described air-conditioner poor based between actual temperature in the described air-conditioner usage space and the design temperature, described controller is regulated the size of described the 3rd volume of traffic in view of the above.
10. according to Claim 8 or the control method of 9 described air-conditioners, it is characterized in that,
The activity of people in the described air-conditioner usage space that the load of described air-conditioner is judged according to described signal based on described controller, described controller is regulated the size of described the 3rd volume of traffic in view of the above.
11. air-conditioner according to claim 8 is characterized in that,
When described controller according to the signal that described force-feeling sensor detects, be judged as in the described usage space by the unmanned state and become when people's state is arranged, then described controller is controlled described air-conditioner at the appointed time with described first volume of traffic running.
12. according to claim 7 or 11 described air-conditioners, it is characterized in that,
Described controller is judged the activity of the people in the described usage space according to the signal that described force-feeling sensor detects, and regulates the described described stipulated time with the running of first volume of traffic in view of the above.
CN200510097510A 2005-12-28 2005-12-28 Control method of air conditioner and air-conditioning unit Expired - Fee Related CN1991263B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN200510097510A CN1991263B (en) 2005-12-28 2005-12-28 Control method of air conditioner and air-conditioning unit

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN200510097510A CN1991263B (en) 2005-12-28 2005-12-28 Control method of air conditioner and air-conditioning unit

Publications (2)

Publication Number Publication Date
CN1991263A true CN1991263A (en) 2007-07-04
CN1991263B CN1991263B (en) 2010-05-05

Family

ID=38213695

Family Applications (1)

Application Number Title Priority Date Filing Date
CN200510097510A Expired - Fee Related CN1991263B (en) 2005-12-28 2005-12-28 Control method of air conditioner and air-conditioning unit

Country Status (1)

Country Link
CN (1) CN1991263B (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104089372A (en) * 2014-07-04 2014-10-08 四川长虹电器股份有限公司 Method for controlling air conditioner and air conditioner
CN104296233A (en) * 2013-07-18 2015-01-21 松下电器产业株式会社 Electric heater
CN105841310A (en) * 2016-05-18 2016-08-10 广东美的暖通设备有限公司 Air conditioner and control method and device of air conditioner
CN106440380A (en) * 2015-08-06 2017-02-22 夏普株式会社 Electrical device
CN103968504B (en) * 2014-05-08 2017-05-10 施晓亚 Loading equipment control method and system

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100396849B1 (en) * 2001-03-26 2003-09-03 엘지전자 주식회사 Method to control air conditioner with multi-compressor
CN1329228A (en) * 2001-07-12 2002-01-02 姚宇 Intelligent body-tracking air outlet type air-conditioner

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104296233B (en) * 2013-07-18 2018-10-16 松下电器产业株式会社 Electric heater
CN104296233A (en) * 2013-07-18 2015-01-21 松下电器产业株式会社 Electric heater
CN103968504B (en) * 2014-05-08 2017-05-10 施晓亚 Loading equipment control method and system
CN104089372B (en) * 2014-07-04 2017-10-17 四川长虹电器股份有限公司 The method and air-conditioning of a kind of control air-conditioning
CN104089372A (en) * 2014-07-04 2014-10-08 四川长虹电器股份有限公司 Method for controlling air conditioner and air conditioner
CN106440380A (en) * 2015-08-06 2017-02-22 夏普株式会社 Electrical device
CN105841310A (en) * 2016-05-18 2016-08-10 广东美的暖通设备有限公司 Air conditioner and control method and device of air conditioner
CN105841310B (en) * 2016-05-18 2019-12-27 广东美的暖通设备有限公司 Air conditioner and control method and device of air conditioner

Also Published As

Publication number Publication date
CN1991263B (en) 2010-05-05

Similar Documents

Publication Publication Date Title
CN101334645B (en) Domestic air conditioner intelligent temperature control system based on human behavior trait
CN202328615U (en) Variable-air-volume (VAV) ventilation control system
CN1991263A (en) Control method of air conditioner and air-conditioning unit
CN104101044A (en) Operation control method and device for inverter room air-conditioner
CN1712839A (en) Energy-saving air conditioner and its control
CN101799200B (en) Air conditioner for directly using outdoor cold source
CN105928136B (en) Air conditioner energy saving control method, control device and air-conditioning
CN1321861A (en) Air conditioner and its controlling method
CN1821906A (en) Industive controller for human comfortableness and its use in air conditioner
CN102012076B (en) Control method for air conditioning system using storage battery as auxiliary energy
JP2006138621A (en) Air-conditioning system
CN1702402A (en) Air-conditioning and electrical energy generating system
CN2886142Y (en) Human body comfort induction controlled electric fan
CN104819541A (en) Energy-saving control method and device and air conditioner
CN1291192C (en) Air conditioner
CN112178889A (en) Temperature and humidity control method of air conditioner and air conditioner
CN1755269A (en) Indoor fan control method of air conditioner
CN106196440A (en) Air conditioner energy saving control method, control device and air-conditioning
CN104163086B (en) Integral new-energy passenger air conditioning control method
CN1888686A (en) Sleep operation controlling device for air conditioner and controlling method thereof
CN102563799A (en) Temperature protection device for controller of outdoor unit of viable-frequency air conditioner
CN1719138A (en) Air volume control method of ventilation system
CN103411289A (en) Variable power controlled truck air condition controller
JP2004309028A (en) Control device for air conditioner
CN1892123A (en) Air-conditioning system using terminal box to provide most suitable air quantity

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20100505

Termination date: 20131228