CN105066328B - Air-conditioning swing flap control method and system - Google Patents
Air-conditioning swing flap control method and system Download PDFInfo
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- CN105066328B CN105066328B CN201510420681.1A CN201510420681A CN105066328B CN 105066328 B CN105066328 B CN 105066328B CN 201510420681 A CN201510420681 A CN 201510420681A CN 105066328 B CN105066328 B CN 105066328B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/72—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
- F24F11/74—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
- F24F11/77—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity by controlling the speed of ventilators
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- Physics & Mathematics (AREA)
- Atmospheric Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Fuzzy Systems (AREA)
- Mathematical Physics (AREA)
- Signal Processing (AREA)
- Fluid Mechanics (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention discloses a kind of air-conditioning swing flap control method, this method includes:Detect the current location of the air ducting of air-conditioning;The current swing flap region of air-conditioning is determined according to the current location;The air ducting rotating speed of air-conditioning is adjusted according to the current swing flap region.The invention also discloses a kind of air-conditioning swing flap control systems.Technical solution using the present invention can adjust air ducting rotating speed so that the air output of air-conditioning carries out respective change, so that indoor temperature is uniform according to the swing flap region of the current location of air ducting.
Description
Technical field
The present invention relates to air-conditioning technical field more particularly to a kind of air-conditioning swing flap control methods and system.
Background technology
With the continuous improvement of people's living standards, air-conditioning has spread to huge numbers of families.The refrigerated medium thermal effect of air-conditioning
Fruit and comfort are user's focus of attention, and usual air conditioning exhausting amount is big, air output is stablized, then the comfort of air-conditioning is just high, makes
Cold heating effect is all right.When using air-conditioning, user can pass through the refrigerating/heating mould on Manual press remote controler or control panel
The control to wind speed and direction can be realized in formula, wind speed, swing flap direction key.But in this way, there is following defect:System
Under chill formula, since indoor fan rotating speed is fixed, air ducting rotating speed is also fixed, the place close from air-conditioning will be made cold in this way,
The place heat remote from air-conditioning, indoor temperature is uneven, and comfort level is poor.It is in the prior art, usually empty by increasing for the defect
Adjust the mode of quantity so that indoor temperature is uniform, improves users'comfort, but is easy to cause the wasting of resources in this way, not environmentally,
It is runed counter to the present theory for advocating energy-saving and emission-reduction.
The above is only used to facilitate the understanding of the technical scheme, and is not represented and is recognized that the above is existing skill
Art.
Invention content
The main purpose of the present invention is to provide a kind of air-conditioning swing flap control method and systems, it is intended to the prior art of solution
Middle air-conditioning is during cooling and warming, the non-uniform technical problem of indoor temperature.
To achieve the above object, the present invention provides a kind of air-conditioning swing flap control method, and this method includes:
Detect the current location of the air ducting of air-conditioning;
The current swing flap region of air-conditioning is determined according to the current location;
The air ducting rotating speed of air-conditioning is adjusted according to the current swing flap region.
Preferably, while the air ducting rotating speed that air-conditioning is adjusted according to the current swing flap region, this method
Further include:
The indoor fan rotating speed of air-conditioning is adjusted according to the current swing flap region.
Preferably, described the step of determining air-conditioning current swing flap region according to the current location, includes:According to default
Air ducting current location and swing flap region mapping relations, obtain the corresponding swing flap region in the current location.
Preferably, described the step of adjusting the air ducting rotating speed of air-conditioning according to the current swing flap region, includes:Root
According to the mapping relations in preset swing flap region and air ducting rotating speed, obtains the corresponding air ducting in current swing flap region and turn
Speed, as the first rotating speed;The air ducting is controlled to run with the first rotating speed;In the preset swing flap region and air ducting
In the mapping relations of rotating speed, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, the air ducting turns
It is fast slow;
The step of indoor fan rotating speed that air-conditioning is adjusted according to the current swing flap region includes:According to preset
The mapping relations in swing flap region and indoor fan rotating speed obtain the corresponding indoor fan rotating speed in current swing flap region, as
Two rotating speeds;The indoor fan is controlled to run with the second rotating speed;In reflecting for the preset swing flap region and indoor fan rotating speed
It penetrates in relationship, the indoor fan rotating speed is from gentle breeze to superpower wind, from the swing flap region close apart from air-conditioning to remote apart from air-conditioning
Swing flap region, the indoor fan rotating speed become larger.
Preferably, before the step of current location of the air ducting of the detection air-conditioning, this method further includes:
It detects whether the air-conditioning opens intelligent swing flap pattern, if the air-conditioning opens intelligent swing flap pattern, executes
Step detects the current location of the air ducting of air-conditioning.
In addition, to achieve the above object, the present invention also provides a kind of air-conditioning swing flap control system, which includes:
First detection module, the current location of the air ducting for detecting air-conditioning;
Determining module, for determining the current swing flap region of air-conditioning according to the current location;
Control module, the air ducting rotating speed for adjusting air-conditioning according to the current swing flap region.
Preferably, the control module is additionally operable in the air ducting for adjusting air-conditioning according to the current swing flap region
While rotating speed, the indoor fan rotating speed of air-conditioning is adjusted according to the current swing flap region.
Preferably, the determining module is additionally operable to the mapping of the current location and swing flap region according to preset air ducting
Relationship obtains the corresponding swing flap region in the current location.
Preferably, the control module includes:
Acquiring unit obtains current sweep for the mapping relations according to preset swing flap region and air ducting rotating speed
The corresponding air ducting rotating speed in wind region, as the first rotating speed;And for according to preset swing flap region and indoor fan rotating speed
Mapping relations, the corresponding indoor fan rotating speed in current swing flap region is obtained, as the second rotating speed;In the preset swing flap
In the mapping relations of region and air ducting rotating speed, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning,
The air ducting rotating speed is slow;In the mapping relations of the preset swing flap region and indoor fan rotating speed, the interior wind
Machine rotating speed is from gentle breeze to superpower wind, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, the interior wind
Machine rotating speed becomes larger.
Control unit is run for controlling air ducting with the first rotating speed, and for controlling indoor fan with the second rotating speed
Operation.
Preferably, the system also includes:Second detection module, for detecting whether the air-conditioning opens intelligent swing flap mould
Formula;
If the air-conditioning opens intelligent swing flap pattern, the first detection module is additionally operable to open intelligence in the air-conditioning
After energy swing flap pattern, the current location of the air ducting of air-conditioning is detected.
Air-conditioning swing flap control method and system using the present invention, the current location of the air ducting by detecting air-conditioning;
The current swing flap region of air-conditioning is determined according to the current location;The wind-guiding dress of air-conditioning is adjusted according to the current swing flap region
Set rotating speed;Can according to the swing flap region of the current location of air ducting adjust air ducting rotating speed so that the air output of air-conditioning into
Row respective change, so that indoor temperature is uniform.
Description of the drawings
Fig. 1 is the first embodiment flow diagram of air-conditioning swing flap control method of the present invention;
Fig. 2 is the detail flowchart schematic diagram of step S30 in Fig. 1;
Fig. 3 is the second embodiment flow diagram of air-conditioning swing flap control method of the present invention;
Fig. 4 is the detailed process schematic diagram of step S40 in Fig. 3;
Fig. 5 is the 3rd embodiment flow diagram of air-conditioning swing flap control method of the present invention;
Fig. 6 is the first embodiment structural schematic diagram of air-conditioning swing flap control system of the present invention;
Fig. 7 is the second embodiment structural schematic diagram of air-conditioning swing flap control system of the present invention.
The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.
Specific implementation mode
It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.
The present invention provides a kind of air-conditioning swing flap control method.
Referring to Fig.1, Fig. 1 is the first embodiment flow diagram of air-conditioning swing flap control method of the present invention, and this method includes:
S10, detect air-conditioning air ducting current location.
The air ducting is wind deflector.The air ducting includes longitudinal air ducting and/or longitudinal air ducting.
After air-conditioning is opened, first to give tacit consent to rotational speed, the indoor fan of air-conditioning is also turned with acquiescence the air ducting of the air-conditioning
Speed rotation.
In this step, the current location for detecting air ducting is:Detect the wind-guiding angle of air ducting, lateral wind-guiding dress
The wind-guiding angle set is the angle of the wind deflector of lateral air ducting and the axis of vertical direction, the wind-guiding angle of longitudinal air ducting
Degree is the angle of the wind deflector and the axis in direction anyhow of longitudinal air ducting.In this step, air ducting is detected in real time
Wind-guiding angle a.When the longitudinal direction air ducting is when carrying out vertical swing flap, and when the longitudinal direction air ducting moves to bottom,
The wind-guiding angle of the longitudinal direction air ducting is minimum (as being 30 °), and when the longitudinal direction, air ducting moves to the top, which leads
The wind-guiding angle of wind apparatus is maximum (as being 150 °).When the transverse direction air ducting is when carrying out left and right swing flap, and when the transverse direction is led
When wind apparatus moves to left end, the wind-guiding angle of the transverse direction air ducting is minimum (as being 30 °), when the transverse direction air ducting is transported
When moving right end, the wind-guiding angle of the transverse direction air ducting is maximum (as being 150 °).
S20, the current swing flap region of air-conditioning is determined according to the current location.
User can install size, the air-conditioning installation site in room according to air-conditioning, and the swing flap region of the air ducting is divided into
Predetermined number.It such as, usually can be by the air ducting when air ducting only includes longitudinal air ducting or longitudinal air ducting
Swing flap region is divided into 4.
For the air ducting of air-conditioning at different positions, corresponding swing flap region is different, such as when only longitudinal wind-guiding
When device, if longitudinal air ducting moves to bottom, its swing flap region is nearest from air-conditioning, at this point, air ducting after
It is continuous when up moving, the swing flap region of air ducting it is just slightly remote from air-conditioning some (wind of air-conditioner air outlet can be blown to more
Far), need the air quantity for blowing out bigger that could make close in the temperature in the region and the temperature in the swing flap region closer from air-conditioning
Or it is identical.
In one embodiment, the step of this determines air-conditioning current swing flap region according to the current location be:According to default
Air ducting current location and swing flap region mapping relations, obtain the corresponding swing flap region in the current location.
The current location of the preset air ducting and the mapping relations in swing flap region can install the big of room according to air-conditioning
Small, air-conditioning installation site setting.When the air ducting only includes longitudinal air ducting or lateral air ducting, this is preset to lead
The current location of wind apparatus and the mapping relations in swing flap region are as shown in Table 1.
Table one:
The current location of air ducting | Swing flap region |
[30 °, 60 °) | Region 1 |
[60 °, 90 °) | Region 2 |
[90 °, 120 °) | Region 3 |
[120 °, 150 °] | Region 4 |
When in step slo, when the current location of the air ducting of the air-conditioning of detection is 50 ° of wind-guiding angle, then from the table
In one, the corresponding swing flap region in current location that can get the air ducting is region 1.
When the air ducting includes longitudinal air ducting and lateral air ducting, the present bit of the preset air ducting
It sets as shown in Table 2 with the mapping relations in swing flap region.
Table two:
In table two, A indicates that the current location of longitudinal air ducting, B indicate that swing flap region, C indicate lateral air ducting
Current location.
I.e. when the air ducting includes longitudinal air ducting and lateral air ducting, the wind-guiding angle of longitudinal air ducting
4 grades are divided, the wind-guiding angle of lateral air ducting also divides 4 grades, then can be 16 by the swing flap region division of air-conditioning
It is a.
When the wind-guiding angle of longitudinal air ducting of the air-conditioning detected in step slo is 50 °, lateral air ducting is led
When wind angle is 40 °, then from the table two, the corresponding swing flap region in current location that can get the air ducting is region 1.
S30, the air ducting rotating speed that air-conditioning is adjusted according to the current swing flap region.
In this step, the air ducting rotating speed that air-conditioning is adjusted according to current swing flap region, in current swing flap region
When close from air-conditioning, the air ducting rotating speed for adjusting air-conditioning becomes faster, and residence time of the air ducting in the swing flap region is short, reduces out
Air quantity;When current swing flap region is remote from air-conditioning, the air ducting rotating speed for adjusting air-conditioning is slack-off, the stop in the swing flap region
Time is long, increases air output;So that air-conditioning is close with the temperature in the swing flap region remote from air-conditioning in the swing flap region close from air-conditioning
Or it is identical.
Further, as shown in Fig. 2, step S30 includes:
S31, according to the mapping relations in preset swing flap region and air ducting rotating speed, obtain current swing flap region and correspond to
Air ducting rotating speed, as the first rotating speed.
In the mapping relations of the preset swing flap region and air ducting rotating speed, from the swing flap region close apart from air-conditioning to
The swing flap region remote apart from air-conditioning, the air ducting rotating speed is slow, i.e., in the swing flap region close from air-conditioning, the air ducting rotating speed
Soon, in the swing flap region remote from air-conditioning, the air ducting rotating speed is slow.
When air ducting only includes longitudinal air ducting or lateral air ducting, the swing flap region of division is as shown in Table 1
When, the preset swing flap region and the mapping relations of air ducting rotating speed are as shown in Table 3.
Table three:
Swing flap region | Air ducting rotating speed |
Region 1 | V1 |
Region 2 | V2 |
Region 3 | V3 |
Region 4 | V4 |
The wherein V4<V3<V2<V1, i.e., when swing flap region distance air-conditioning is remote, air ducting rotation is slow, when stop
Between it is long, increase air output.V1 to V4 can manufacture when default setting, user is in use, can be according to live experience to it
It is adjusted, to reach maximal comfort.
When the air ducting includes longitudinal air ducting and lateral air ducting, the swing flap region of division is as shown in Table 2
When, the preset swing flap region and the mapping relations of air ducting rotating speed are as shown in Table 4.
Table four:
Swing flap region | Air ducting rotating speed |
Region 1 | V1 |
Region 2 | V2 |
Region 3 | V3 |
Region 4 | V4 |
Region 5 | V2 |
Region 6 | V3 |
Region 7 | V4 |
Region 8 | V5 |
Region 9 | V3 |
Region 10 | V4 |
Region 11 | V5 |
Region 12 | V6 |
Region 13 | V4 |
Region 14 | V5 |
Region 15 | V6 |
Region 16 | V6 |
The wherein V6<V5<V4<V3<V2<V1, i.e., when swing flap region distance air-conditioning is remote, the rotation of air ducting
Slowly, the residence time is long, increases air output.V1 to V6 can manufacture when default setting, user is in use, can be according to On-site Experience
Effect is adjusted it, to reach maximal comfort.
S32, it controls the air ducting and is run with the first rotating speed.
In this step, control air ducting is run with the first rotating speed so that air ducting can work as according to the air ducting
Preceding swing flap region is run with corresponding rotating speed, and then may make air-conditioning according to the difference in swing flap region, and air output is also accordingly sent out
Changing slows down the running speed of air ducting when swing flap region is remote from air-conditioning, increases air output so that indoor temperature
Uniformly.
It is the second embodiment flow diagram of air-conditioning swing flap control method of the present invention with reference to Fig. 3, Fig. 3.
Based on the second embodiment of above-mentioned air-conditioning swing flap control method, while step S30, this method further includes:
S40, the indoor fan rotating speed that air-conditioning is adjusted according to the current swing flap region.
In this step, the indoor fan rotating speed that air-conditioning is adjusted according to current swing flap region, in current swing flap region
When close from air-conditioning, the indoor fan rotating speed for adjusting air-conditioning is slack-off, and air output is reduced in the swing flap region;In current swing flap region
When remote from air-conditioning, the indoor fan rotating speed for adjusting air-conditioning becomes faster, and increases air output in the swing flap region;So that air-conditioning is from air-conditioning
Close swing flap region is close or identical with the temperature in the swing flap region remote from air-conditioning.
Further, as shown in figure 4, step S40 includes:
S41, according to the mapping relations in preset swing flap region and indoor fan rotating speed, obtain current swing flap region and correspond to
Air-conditioning indoor fan rotating speed, as the second rotating speed.
In the mapping relations of the preset swing flap region and indoor fan rotating speed, the indoor fan rotating speed is from gentle breeze to super
High wind, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, which becomes larger, such as exists
The swing flap region nearest apart from air-conditioning, which is gentle breeze, such as in the swing flap region farthest apart from air-conditioning, the interior
Rotation speed of fan is superpower wind.
When air ducting only includes longitudinal air ducting or lateral air ducting, the swing flap region of division is as shown in Table 1
When, the preset swing flap region and the mapping relations of indoor fan rotating speed are as shown in Table 5.
Table five:
Swing flap region | Indoor fan rotating speed |
Region 1 | Gentle breeze |
Region 2 | Low wind |
Region 3 | Apoplexy |
Region 4 | Gao Feng |
For the air-conditioning kept off without gentle breeze, gentle breeze gear is equal to low windscreen, and user is in use, can be according to live experience pair
Minimum windscreen is adjusted.When swing flap region distance air-conditioning is remote, the rotation of indoor fan is fast, increases air output;It is sweeping
When wind region distance air-conditioning is close, indoor fan rotating speed is slow, reduces air output.
When the air ducting includes longitudinal air ducting and lateral air ducting, the swing flap region of division is as shown in Table 2
When, the preset swing flap region and the mapping relations of air ducting rotating speed are as shown in Table 6.
Table six:
Swing flap region | Air ducting rotating speed |
Region 1 | Gentle breeze |
Region 2 | Low wind |
Region 3 | Apoplexy |
Region 4 | Gao Feng |
Region 5 | Low wind |
Region 6 | Apoplexy |
Region 7 | Gao Feng |
Region 8 | Gao Feng |
Region 9 | Apoplexy |
Region 10 | Gao Feng |
Region 11 | Gao Feng |
Region 12 | Superpower wind |
Region 13 | Gao Feng |
Region 14 | Superpower wind |
Region 15 | Superpower wind |
Region 16 | Superpower wind |
Without the air-conditioning of superpower windscreen, superpower windscreen is equal to high windscreen.It is indoor when swing flap region distance air-conditioning is remote
The rotation of wind turbine is fast, increases air output;When swing flap region distance air-conditioning is close, indoor fan rotating speed is slow, reduces air output.
S42, it controls the indoor fan and is run with the second rotating speed.
In this step, control indoor fan is run with the second rotating speed so that indoor fan can work as according to the air ducting
Preceding swing flap region is run with corresponding rotating speed, and then may make air-conditioning according to the difference in swing flap region, and air output is also accordingly sent out
Changing accelerates indoor fan wind speed when swing flap region is remote from air-conditioning, increases air output so that indoor temperature is uniform.
It is the 3rd embodiment flow diagram of air-conditioning swing flap control method of the present invention with reference to Fig. 5, Fig. 5.
Based on the first embodiment or the second embodiment of above-mentioned air-conditioning swing flap control method, before step S10, this method
Further include:
S50, it detects whether the air-conditioning opens intelligent swing flap pattern, if the air-conditioning opens intelligent swing flap pattern, executes
Step S10.
It is additionally arranged whether an intelligent swing flap pattern detects the air-conditioning in this step in the operational mode of the air-conditioning
Open intelligent swing flap pattern, if do not opened, control air-conditioning air ducting and indoor fan routinely mode operation is (i.e.
Air ducting rotating speed is fixed, and indoor fan rotating speed is also fixed), if opened, S10 and subsequent step are thened follow the steps, to sky
The air ducting rotating speed of tune carries out intelligent control.
With reference to Fig. 6, Fig. 6 is the first embodiment structural schematic diagram of air-conditioning swing flap control system of the present invention, which includes:
First detection module 10, the current location of the air ducting for detecting air-conditioning;
Determining module 20, for determining the current swing flap region of air-conditioning according to the current location;
Control module 30, the air ducting rotating speed for adjusting air-conditioning according to the current swing flap region.
The air ducting is wind deflector.The air ducting includes longitudinal air ducting and/or longitudinal air ducting.
After air-conditioning is opened, first to give tacit consent to rotational speed, the indoor fan of air-conditioning is also turned with acquiescence the air ducting of the air-conditioning
Speed rotation.
The current location of the first detection module 10 detection air ducting is:Detect the wind-guiding angle of air ducting.Laterally
The wind-guiding angle of air ducting is the angle of the wind deflector of lateral air ducting and the axis of vertical direction, longitudinal air ducting
Wind-guiding angle is the angle of the wind deflector and the axis in direction anyhow of longitudinal air ducting.The first detection module 10 detects in real time
The wind-guiding angle a of air ducting.When the longitudinal direction air ducting is when carrying out vertical swing flap, and when the longitudinal direction air ducting moves to
When bottom, the wind-guiding angle of the longitudinal direction air ducting is minimum (as being 30 °), and when the longitudinal direction, air ducting moves to topmost
When, the wind-guiding angle of the longitudinal direction air ducting is maximum (as being 150 °).When the transverse direction air ducting is when carrying out left and right swing flap, and
When the transverse direction air ducting moves to left end, the wind-guiding angle of the transverse direction air ducting is minimum (as being 30 °), when the transverse direction
When air ducting moves to right end, the wind-guiding angle of the transverse direction air ducting is maximum (as being 150 °).
User can install size, the air-conditioning installation site in room according to air-conditioning, and the swing flap region of the air ducting is divided into
Predetermined number.It such as, usually can be by the air ducting when air ducting only includes longitudinal air ducting or longitudinal air ducting
Swing flap region is divided into 4.
For the air ducting of air-conditioning at different positions, corresponding swing flap region is different, such as when only longitudinal wind-guiding
When device, if longitudinal air ducting moves to bottom, its swing flap region is nearest from air-conditioning, at this point, air ducting after
It is continuous when up moving, the swing flap region of air ducting it is just slightly remote from air-conditioning some (wind of air-conditioner air outlet can be blown to more
Far), need the air quantity for blowing out bigger that could make close in the temperature in the region and the temperature in the swing flap region closer from air-conditioning
Or it is identical.
In one embodiment, which is additionally operable to the current location according to preset air ducting and swing flap region
Mapping relations, obtain the corresponding swing flap region in the current location.
The current location of the preset air ducting and the mapping relations in swing flap region can install the big of room according to air-conditioning
Small, air-conditioning installation site setting.When the air ducting only includes longitudinal air ducting or lateral air ducting, this is preset to lead
The current location of wind apparatus and the mapping relations in swing flap region are as shown in Table 1.
When the wind-guiding angle of the current location of the air ducting for the air-conditioning that first detection module 10 detects is 50 °, then should
For determining module 20 from the table one, the corresponding swing flap region of wind-guiding angle that can get the current location of the air ducting is region
1。
When the air ducting includes longitudinal air ducting and lateral air ducting, the present bit of the preset air ducting
It sets as shown in Table 2 with the mapping relations in swing flap region.I.e. when the air ducting includes longitudinal air ducting and lateral air ducting
When, 4 grades of wind-guiding angular divisions of longitudinal air ducting, the wind-guiding angle of lateral air ducting also divides 4 grades, then may be used
It it is 16 by the swing flap region division of air-conditioning.
When first detection module 10 detect air-conditioning longitudinal air ducting wind-guiding angle be 50 °, lateral air ducting
Wind-guiding angle be 40 ° when, then from above-mentioned table two, the current location which can get the air ducting is corresponding
Swing flap region is region 1.
The control module 30 adjusts the air ducting rotating speed of air-conditioning according to current swing flap region, in current swing flap region
When close from air-conditioning, the air ducting rotating speed for adjusting air-conditioning becomes faster, and residence time of the air ducting in the swing flap region is short, reduces out
Air quantity;When current swing flap region is remote from air-conditioning, the air ducting rotating speed for adjusting air-conditioning is slack-off, the stop in the swing flap region
Time is long, increases air output;So that air-conditioning is close with the temperature in the swing flap region remote from air-conditioning in the swing flap region close from air-conditioning
Or it is identical.
Further, in one embodiment, which includes:
Acquiring unit 31 obtains current for the mapping relations according to preset swing flap region and air ducting rotating speed
The corresponding air ducting rotating speed in swing flap region, as the first rotating speed;
Control unit 32 is run for controlling air ducting with the first rotating speed.
In the mapping relations of the preset swing flap region and air ducting rotating speed, from the swing flap region close apart from air-conditioning to
The swing flap region remote apart from air-conditioning, the air ducting rotating speed is slow, i.e., in the swing flap region close from air-conditioning, the air ducting rotating speed
Soon, in the swing flap region remote from air-conditioning, the air ducting rotating speed is slow.
When air ducting only includes longitudinal air ducting or lateral air ducting, the swing flap region of division is as shown in Table 1
When, the preset swing flap region and the mapping relations of air ducting rotating speed are as shown in Table 3.
When the air ducting includes longitudinal air ducting and lateral air ducting, the swing flap region of division is as shown in Table 2
When, the preset swing flap region and the mapping relations of air ducting rotating speed are as shown in Table 4.
The control unit 32 control air ducting is run with the first rotating speed so that air ducting can work as according to the air ducting
Preceding swing flap region is run with corresponding rotating speed, and then may make air-conditioning according to the difference in swing flap region, and air output is also accordingly sent out
Changing slows down the running speed of air ducting when swing flap region is remote from air-conditioning, increases air output so that indoor temperature
Uniformly.
Further, the control module 30 is additionally operable in the air ducting for adjusting air-conditioning according to the current swing flap region
While rotating speed, the indoor fan rotating speed of air-conditioning is adjusted according to the current swing flap region.
The control module 30 adjusts the indoor fan rotating speed of air-conditioning according to current swing flap region, in current swing flap region
When close from air-conditioning, the indoor fan rotating speed for adjusting air-conditioning is slack-off, and air output is reduced in the swing flap region;In current swing flap region
When remote from air-conditioning, the indoor fan rotating speed for adjusting air-conditioning becomes faster, and increases air output in the swing flap region;So that air-conditioning is from air-conditioning
Close swing flap region is close or identical with the temperature in the swing flap region remote from air-conditioning.
Further, in one embodiment, the acquiring unit 31 is additionally operable to according to preset swing flap region and indoor fan
The mapping relations of rotating speed obtain the corresponding indoor fan rotating speed in current swing flap region, as the second rotating speed;
Control unit 32 is additionally operable to control indoor fan and is run with the second rotating speed.
In the mapping relations of the preset swing flap region and indoor fan rotating speed, the indoor fan rotating speed is from gentle breeze to super
High wind, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, which becomes larger, such as exists
The swing flap region nearest apart from air-conditioning, which is gentle breeze, such as in the swing flap region farthest apart from air-conditioning, the interior
Rotation speed of fan is superpower wind.
When air ducting only includes longitudinal air ducting or lateral air ducting, the swing flap region of division is as shown in Table 1
When, the preset swing flap region and the mapping relations of indoor fan rotating speed are as shown in Table 5.
When the air ducting includes longitudinal air ducting and lateral air ducting, the swing flap region of division is as shown in Table 2
When, the preset swing flap region and the mapping relations of air ducting rotating speed are as shown in Table 6.
The control unit 32 control indoor fan is run with the second rotating speed so that indoor fan can be according to the air ducting
Current swing flap region is run with corresponding rotating speed, and then may make air-conditioning according to the difference in swing flap region, and air output is also corresponding
It changes, when swing flap region is remote from air-conditioning, accelerates indoor fan wind speed, increase air output so that indoor temperature is uniform.
It is the second embodiment structural schematic diagram of air-conditioning swing flap control system of the present invention with reference to Fig. 7, Fig. 7.
Based on the first embodiment of above-mentioned air-conditioning swing flap control system, which further includes connecting with the first detection module 10
The second detection module 40 connect, for detecting whether the air-conditioning opens intelligent swing flap pattern;The first detection module 10 is additionally operable to
When the air-conditioning opens intelligent swing flap pattern, the current location of the air ducting of air-conditioning is detected.
An intelligent swing flap pattern is additionally arranged in the operational mode of the air-conditioning, which detects the air-conditioning
Whether intelligent swing flap pattern is opened, if do not opened, routinely mode operation is (i.e. for the air ducting and indoor fan of air-conditioning
Air ducting rotating speed is fixed, and indoor fan rotating speed is also fixed), if opened, pass through first detection module 10, determining module
20 and control module 30 intelligent control is carried out to the air ducting rotating speed of air-conditioning.
It these are only the preferred embodiment of the present invention, be not intended to limit the scope of the invention, it is every to utilize this hair
Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills
Art field, is included within the scope of the present invention.
Claims (10)
1. a kind of air-conditioning swing flap control method, which is characterized in that this method includes:
Detect the current location of the air ducting of air-conditioning;
The current swing flap region of air-conditioning is determined according to the current location, wherein the swing flap region of the air ducting of the air-conditioning
It is divided into predetermined number, the air ducting corresponds to different swing flap regions in different location range;
The air ducting rotating speed of air-conditioning is adjusted according to the current swing flap region;
Wherein, described the step of adjusting the air ducting rotating speed of air-conditioning according to the current swing flap region, includes:According to default
Swing flap region and air ducting rotating speed mapping relations, obtain the corresponding air ducting rotating speed in current swing flap region, as
First rotating speed;The air ducting is controlled to run with the first rotating speed;In the preset swing flap region and air ducting rotating speed
In mapping relations, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, the air ducting rotating speed is slack-off.
2. air-conditioning swing flap control method as described in claim 1, which is characterized in that described according to the current swing flap region
While adjusting the air ducting rotating speed of air-conditioning, this method further includes:
The indoor fan rotating speed of air-conditioning is adjusted according to the current swing flap region.
3. air-conditioning swing flap control method as claimed in claim 1 or 2, which is characterized in that described true according to the current location
The step of determining air-conditioning current swing flap region include:It is closed according to the mapping in the current location of preset air ducting and swing flap region
System, obtains the corresponding swing flap region in the current location.
4. air-conditioning swing flap control method as claimed in claim 2, which is characterized in that described according to the current swing flap region
Adjust air-conditioning indoor fan rotating speed the step of include:According to the mapping relations in preset swing flap region and indoor fan rotating speed,
The corresponding indoor fan rotating speed in current swing flap region is obtained, as the second rotating speed;The indoor fan is controlled with the second rotating speed
Operation;In the mapping relations of the preset swing flap region and indoor fan rotating speed, the indoor fan rotating speed from gentle breeze to
Superpower wind, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, the indoor fan rotating speed becomes larger.
5. air-conditioning swing flap control method as claimed in claim 1 or 2, which is characterized in that the air ducting of the detection air-conditioning
Current location the step of before, this method further includes:
It detects whether the air-conditioning opens intelligent swing flap pattern, if the air-conditioning opens intelligent swing flap pattern, thens follow the steps
Detect the current location of the air ducting of air-conditioning.
6. a kind of air-conditioning swing flap control system, which is characterized in that the system includes:
First detection module, the current location of the air ducting for detecting air-conditioning;
Determining module, for determining the current swing flap region of air-conditioning according to the current location, wherein the wind-guiding of the air-conditioning fills
The swing flap region set is divided into predetermined number, and the air ducting corresponds to different swing flap regions in different location range;
Control module, the air ducting rotating speed for adjusting air-conditioning according to the current swing flap region;
Wherein, the control module includes:
Acquiring unit obtains current swing flap area for the mapping relations according to preset swing flap region and air ducting rotating speed
The corresponding air ducting rotating speed in domain, as the first rotating speed;It is closed in the mapping of the preset swing flap region and air ducting rotating speed
In system, from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, the air ducting rotating speed is slack-off;
Control unit is run for controlling air ducting with the first rotating speed.
7. air-conditioning swing flap control system as claimed in claim 6, which is characterized in that the control module is additionally operable in basis
While the air ducting rotating speed of the current swing flap region adjustment air-conditioning, air-conditioning is adjusted according to the current swing flap region
Indoor fan rotating speed.
8. air-conditioning swing flap control system as claimed in claims 6 or 7, which is characterized in that the determining module is additionally operable to basis
The mapping relations of the current location and swing flap region of preset air ducting obtain the corresponding swing flap region in the current location.
9. air-conditioning swing flap control system as claimed in claim 7, which is characterized in that the acquiring unit is additionally operable to according to default
Swing flap region and indoor fan rotating speed mapping relations, obtain the corresponding indoor fan rotating speed in current swing flap region, as
Second rotating speed;In the mapping relations of the preset swing flap region and indoor fan rotating speed, the indoor fan rotating speed is from micro-
Wind is to superpower wind, and from the swing flap region close apart from air-conditioning to the swing flap region remote apart from air-conditioning, the indoor fan rotating speed is gradual
Become larger;
Described control unit is additionally operable to control indoor fan and is run with the second rotating speed.
10. air-conditioning swing flap control system as claimed in claims 6 or 7, which is characterized in that the system also includes:Second inspection
Module is surveyed, for detecting whether the air-conditioning opens intelligent swing flap pattern;
The first detection module is additionally operable to after the air-conditioning opens intelligent swing flap pattern, detects the air ducting of air-conditioning
Current location.
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CN105509232B (en) * | 2015-12-18 | 2018-07-06 | 奥克斯空调股份有限公司 | A kind of air-conditioning omnidirectional air outlet control method |
CN109114739B (en) * | 2018-06-05 | 2020-09-25 | 青岛海尔空调器有限总公司 | Control method and system for indoor unit of air conditioner |
CN108800478A (en) * | 2018-06-29 | 2018-11-13 | 广东美的制冷设备有限公司 | Wind guide strip control method, device and the apparatus of air conditioning of the apparatus of air conditioning |
CN109539459B (en) * | 2018-11-01 | 2021-04-30 | 海信(山东)空调有限公司 | Air supply method of air conditioner and air conditioner |
CN109855267B (en) * | 2019-02-02 | 2021-04-20 | 青岛海尔空调器有限总公司 | Automatic air sweeping control method of air conditioner and air conditioner |
CN110779181B (en) * | 2019-11-12 | 2022-04-01 | 广州华凌制冷设备有限公司 | Operation control method and device, air conditioner and storage medium |
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