WO2020181831A1 - 空调器的控制方法 - Google Patents
空调器的控制方法 Download PDFInfo
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- WO2020181831A1 WO2020181831A1 PCT/CN2019/120535 CN2019120535W WO2020181831A1 WO 2020181831 A1 WO2020181831 A1 WO 2020181831A1 CN 2019120535 W CN2019120535 W CN 2019120535W WO 2020181831 A1 WO2020181831 A1 WO 2020181831A1
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- WIPO (PCT)
- Prior art keywords
- mode
- fan
- air
- air conditioner
- area
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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
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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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
- F24F11/63—Electronic processing
- F24F11/65—Electronic processing for selecting an operating mode
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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
- F24F11/70—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
Definitions
- This application relates to the technical field of air conditioning, and specifically to a control method of an air conditioner.
- Air conditioners in related technologies have fewer functional modes and single control methods, which cannot meet the diverse needs of users, affect the cooling effect of the air conditioner on the indoor environment, affect the user's wind experience, and affect the user's comfort Sex.
- This application aims to solve at least one of the technical problems existing in the prior art. For this reason, this application proposes a control method of an air conditioner, which has the advantages of convenient use and good user experience.
- This application also proposes another control method of the air conditioner.
- a method for controlling an air conditioner is proposed.
- the air conditioner has an air outlet, the room in which the air conditioner is located has a set distance zone, and the air conditioner
- the functional modes include at least two of a full-house cooling sensation mode, an ultra-distant air supply mode, and a local cooling sensation mode; in the local cooling sensation mode, the air supply area of the air conditioner is Cool sensation zone, the set distance zone is no cool sensation zone; in the whole house cool sensation mode, the average air flow velocity in the air supply zone of the air conditioner is higher than 0.3m/s and the air is blowing Sensitivity index DR value> 5%; In the super far air supply mode, the air outlet is controlled to supply air toward the set distance area; the control method includes: selecting one of the functional modes and determining whether it is in the cooling mode, If yes, switch to the corresponding function mode, if otherwise keep the current mode.
- the air conditioner has the advantages of convenient use and good user experience.
- control method of the air conditioner according to the foregoing embodiment of the present application may also have the following additional technical features:
- the functional mode includes a partial cool sensation mode
- the partial cool sensation mode includes a no wind sensation mode
- the cool sensation area along the air flow direction includes In the wind-sensitive area and the wind-free area, in the wind-free area, the average air flow velocity is not higher than 0.3m/s and the wind-sensing index DR value is ⁇ 5%.
- the distance between the boundary between the wind-sensitive area and the wind-free area and the air conditioner is a wind-free distance
- the wind-free mode includes a plurality of wind-free levels
- the windlessness distances corresponding to the plurality of windlessness levels are different, and one of the windlessness levels can be selected when switching to the windlessness mode.
- control method further includes: when the air conditioner is in the windless mode, detecting whether there is a target object in the front area of the cabinet; if so, obtaining the The closest distance between the target object and the cabinet, the closest distance is compared with a plurality of windless distances; according to the comparison result, the air conditioner is switched to the corresponding windless level The target object is located in the corresponding windless area.
- control method further includes: when the air conditioner switches to the super-distance air supply mode, determining whether there is a target object at the set distance, and if not, switching to the whole-house cool feeling mode , If yes, keep the super far air supply mode.
- control method further includes: when the air conditioner is switched to the full-house cooling sensation mode, determining whether there is a target object within the set range, and if not, switching to the super-distance air supply Mode, if there is, keep the whole house cool feeling mode.
- the second aspect of the present application proposes another control method of an air conditioner.
- the air conditioner includes a casing, an upper fan assembly, and a lower fan assembly.
- the casing is provided with a first air outlet and is located at the first outlet.
- the second air outlet below the air outlet the upper fan assembly includes a first fan and a second fan arranged along the air flow direction, the upper fan assembly sends air toward the first air outlet, and the lower fan assembly faces
- the second air outlet delivers air
- the first air outlet is provided with a rotatable horizontal air guide assembly
- the room where the air conditioner is located has a set distance area
- the air conditioner has multiple functional modes
- the functional modes include at least two of the full-house cooling mode, the super-distant air supply mode and the local cooling mode;
- the control method includes: selecting one of the functional modes, determining whether it is in the cooling mode, and if so, switching to Corresponding function mode, if otherwise keep the current mode, in which in the whole house cool feeling mode, control the first
- the control method of the air conditioner according to the embodiment of the present application has the advantages of convenient use and good user experience.
- control method of the air conditioner according to the foregoing embodiment of the present application may also have the following additional technical features:
- the functional mode includes a full-house cooling sensation mode
- the control method further includes: when the air conditioner is switched to the full-house cooling sensation mode, detecting the first air outlet of the first air outlet The air outlet temperature T1 and the second air outlet temperature T2 of the second air outlet; when T1 ⁇ T2-the control method of the air conditioner, control the horizontal air guide assembly to rotate to supply air downward, and control the first The rotation speed of the fan is less than the rotation speed of the third fan, and the rotation speed of the second fan is less than the rotation speed of the third fan, where A is a set value.
- the horizontal air guide assembly is controlled to rotate upward to supply air, and the rotation speed of the first fan is controlled to be greater than the rotation speed of the third fan, The rotation speed of the second fan is greater than the rotation speed of the third fan.
- the horizontal air guide assembly is controlled to reciprocate, and the operating frequency of the compressor is reduced to the second setting Frequency, controlling the rotation speed of the first fan to be less than the rotation speed of the third fan, and the rotation speed of the second fan to be less than the rotation speed of the third fan.
- the operating speed of the third fan is controlled not to exceed 60% of the maximum speed of the third fan.
- the functional mode includes a partial cool sensation mode
- the partial cool sensation mode includes a no wind sensation mode
- the cool sensation area along the air flow direction includes In the wind-sensitive area and the wind-free area, in the wind-free area, the average air flow velocity is not higher than 0.3m/s and the wind-sensing index DR value is ⁇ 5%.
- the distance between the boundary between the wind-sensitive area and the wind-free area and the air conditioner is a wind-free distance
- the wind-free mode includes a plurality of wind-free levels
- the windlessness distances corresponding to the plurality of windlessness levels are different, and one of the windlessness levels can be selected when switching to the windlessness mode.
- control method further includes: when the air conditioner is in the windless mode, detecting whether there is a target object in the front area of the cabinet; if so, obtaining the The closest distance between the target object and the cabinet, the closest distance is compared with a plurality of windless distances; according to the comparison result, the air conditioner is switched to the corresponding windless level The target object is located in the corresponding windless area.
- the plurality of windlessness levels include a first gear to an Nth gear, and from the first gear to the Nth gear, the windlessness distance gradually increases.
- the rotation speed of the third fan remains unchanged in the N gears.
- the second fan in the air flow direction, is located downstream of the first fan, and the first fan is controlled at each level of windlessness from the first gear to the M-th gear.
- the fan stops rotating.
- M gears from the first gear to the M-th gear the higher the gear, the higher the speed of the second fan, M ⁇ N.
- the rotation of the first fan is controlled.
- the rotation speed of the second fan is greater than the rotation speed of the first fan.
- the higher the gear the higher the rotation speed of the second fan.
- the functional modes include a whole-house cool feeling mode and an ultra-distant air supply mode
- the control method further includes: when the air conditioner is switched to the ultra-distant air supply mode, determining the set distance Whether there is a target object, if not, switch to the whole house cool feeling mode, if there is, keep the super-distance air supply mode.
- the functional modes include a full-house cooling sensation mode and an ultra-remote air supply mode
- the control method further includes: determining a setting range when the air conditioner switches to the full-house cooling sensation mode Whether there is a target object inside, if not, switch to the super-distance air supply mode, if there is, keep the whole house cool feeling mode.
- Fig. 1 is a schematic diagram of the overall structure of an air conditioner according to an embodiment of the present application.
- Fig. 2 is an exploded view of an air conditioner according to an embodiment of the present application.
- Fig. 3 is an exploded view of an air conditioner according to another embodiment of the present application.
- Fig. 4 is a partial exploded view of an air conditioner according to an embodiment of the present application.
- Fig. 5 is a schematic diagram of the matching structure of the upper fan assembly and the lower fan assembly according to an embodiment of the present application.
- Fig. 6 is a flowchart of a control method of an air conditioner according to an embodiment of the present application.
- Fig. 7 is a flowchart of a control method of an air conditioner according to an embodiment of the present application.
- Fig. 8 is a flowchart of a control method of an air conditioner according to an embodiment of the present application.
- Fig. 9 is a flowchart of a control method of an air conditioner according to an embodiment of the present application.
- air conditioner 100 cabinet 1, first air outlet 1a, second air outlet 1b, air inlet 1c, visible area 1d, panel part 11, back panel part 12, fan part 2, upper fan assembly 21 , First fan 211, second fan 212, lower fan assembly 22, third fan 221, air duct mounting plate 23, air outlet frame component 3, first air outlet frame 31, second air outlet frame 32, heat exchanger Component 4, first opening and closing door 5, second opening and closing door 6, first driving mechanism 7, transmission gear 71, rack 72.
- the air conditioner 100 has an air outlet, the room in which the air conditioner 100 is located has a set distance zone, and the air conditioner 100 has multiple functional modes, including a whole-house cooling mode, an ultra-distant air supply mode, and a partial cooling mode
- the air supply area of the air conditioner 100 is the cooling area
- the set distance area is the non-cooling area
- the air conditioner The average value of the air flow velocity in the air supply area of 100 is higher than 0.3m/s and the blowing sensation index DR value is greater than 5%
- the air outlet is controlled to face the set distance area Air supply;
- the control method includes: selecting one of the functional modes, determining whether it is in the cooling mode, if so, switching to the corresponding functional mode, if not maintaining the current mode.
- the DR value is used to quantitatively predict the percentage of dissatisfied people caused by the blowing sensation.
- the set distance can be set according to the user's choice. For example, when the user is in a kitchen far from the air conditioner, the set distance can be set to 10 meters, and when the user is in an area close to the air conditioner The set distance can be set to 8 meters.
- the function mode of the air conditioner 100 includes at least two of the whole house cool feeling mode, the super-distant air supply mode, and the local cool feeling mode.
- the sensation mode the average value of the air flow velocity in the air supply area of the air conditioner 100 is higher than 0.3 m/s and the blowing sensation index DR value is >5%. This facilitates rapid cooling of the indoor area, improves the cooling efficiency of the air conditioner 100, shortens the cooling time of the air conditioner 100, facilitates people in different areas of the room to quickly feel the cold wind, and improves the cooling effect of the air conditioner 100.
- the air outlet is controlled to supply air toward the set distance area. In this way, it is convenient to increase the delivery distance of cold air, realize the long-distance air supply of the air conditioner 100, and improve the cooling effect of the air conditioner 100 in the set distance area.
- the air supply area of the air conditioner 100 is the cooling sensation area, and the set distance area is the no cooling sensation area.
- the air conditioner 100 can supply air and cool down only a partial area of the room, that is, the cool sensation area, which is convenient for improving the accuracy of air supply of the air conditioner 100, avoiding the waste of cold air, and improving the cooling effect of the air conditioner 100 for the cool sensation area.
- the function mode of the air conditioner 100 can be increased, which is convenient for selecting the appropriate function mode according to the actual needs of the user, and improving the air conditioner
- the functionality and applicability of 100 is convenient for users to use, and further facilitates the improvement of user comfort.
- the air conditioner 100 has the advantages of convenient use and good user experience.
- the functional mode includes a local cooling sensation mode
- the local cooling sensation mode includes a windless sensation mode
- the cooling sensation area along the air flow direction includes a windy area and a non-wind sensation area.
- the average air flow velocity is not higher than 0.3m/s and the wind-sensing index DR value is ⁇ 5%.
- the windless mode in the above description can be understood as: a certain set distance from the wall where the air conditioner 100 is installed, for example, it can be 2.5m from the wall where the air conditioner 100 is installed, and
- the average value of the air flow velocity in the vertical plane parallel to the installation surface of the air conditioner 100 is 0.3m/s or less (including 0.3m/s), and the DR (draft rating index) value is less than or equal to 5% of the indoor comfort surroundings.
- the DR value is used to quantitatively predict the percentage of dissatisfied people caused by the feeling of blowing.
- a windless area may be formed on the front side of the air conditioner 100, where the closest distance between the windless area and the air conditioner 100 is the windless distance.
- the front of the air conditioner 100 may include a windy area, a windless area, and a windless area distributed in order from near to far.
- the windy area is closest to the air conditioner 100.
- the air in this area The flow rate is high, and the user feels a strong blowing sensation, which is prone to discomfort.
- the windless area is the farthest from the air conditioner 100, the air flow velocity in this area is close to zero, and the user does not feel the wind at all in this area.
- the wind-free area is located between the wind-sense area and the wind-free area. The air flow in this area is slow. The wind sensation felt by the user will not cause discomfort to the user, and the user can clearly feel the cooling or cooling of the air conditioner 100 Heating, with high comfort.
- the operating frequency of the compressor is different compared to the no-wind mode.
- the distance between the boundary between the wind-sensitive area and the wind-free area and the air conditioner 100 is the wind-free distance
- the wind-free mode includes a plurality of wind-free levels
- the windlessness distances corresponding to the windlessness levels are different, and one of the windlessness levels can be selected when switching to the windlessness mode.
- the windlessness level can be selected according to the distribution of indoor people.
- cold air can circulate slowly in the windless area, which not only has a cooling effect, but also improves the user's comfort.
- control method further includes: when the air conditioner 100 is in the windless mode, detecting whether there is a target object in the front area of the cabinet; if so, obtaining the target object and the air conditioner. Compare the shortest distance between the shells with a plurality of windless distances; according to the comparison result, switch the air conditioner 100 to the corresponding windless level so that the target object is located in the corresponding Within the windless area. Since different windlessness levels correspond to different windlessness distances, the windlessness level of the air conditioner 100 can be selected according to the position of the target object so that the target object is located in the windless area, which can greatly improve users The comfort of use.
- control method further includes: when the air conditioner 100 switches to the ultra-distance air supply mode, determining whether there is a target object at the set distance, and if there is no target object, switching to the whole house cool feeling mode, if there is The super-distance air supply mode is maintained.
- the function mode of the air conditioner 100 can be determined according to the specific location of the target object, which is convenient to improve the intelligence level of the air conditioner 100 and to improve the user experience.
- control method further includes: when the air conditioner 100 switches to the full-house cool feeling mode, determining whether there is a target object within the set range, and if there is no target object, switching to the super-distance air supply mode, if there is Then the whole house cool feeling mode is maintained.
- the function mode of the air conditioner 100 can be determined according to the specific position of the target object, which is convenient for improving the cooling efficiency and cooling effect of the air conditioner 100, and is convenient for improving the comfort of the user.
- the air conditioner 100 includes a casing 1, an upper fan assembly 21, and a lower fan assembly 22.
- the air conditioner 100 includes a cabinet 1, an upper fan assembly 21 and a lower fan assembly 22.
- the cabinet 1 is provided with a first air outlet 1a and a second air outlet 1b located below the first air outlet 1a.
- the upper fan assembly 21 includes a The first fan 211 and the second fan 212 arranged in the air flow direction, the upper fan assembly 21 sends air toward the first air outlet 1a, the lower fan assembly 22 sends air towards the second air outlet 1b, and the first air outlet 1a is provided with Rotatable horizontal air guide components, the room where the air conditioner 100 is located has a set distance zone, and the air conditioner 100 has multiple functional modes, including the whole house cooling mode, super far air supply mode and local cooling mode At least two of the modes;
- the control method includes: selecting one of the functional modes, determining whether it is in the cooling mode, if yes, then switching to the corresponding functional mode, if otherwise maintaining the current mode, wherein in the whole house cool feeling mode, controlling the first fan 211 and the second fan
- the fan 212 and the lower fan assembly 22 rotate at a set speed and control the first air outlet 1a and the second air outlet 1b to be fully opened, and the average air flow velocity in the air supply area of the air conditioner 100 is higher than 0.3m/s And the blowing sensation index DR value is greater than 5%;
- the fan assembly 22 stops running and the second air outlet 1b is closed under the control, the first fan 211 and the second fan 212 are running, and the horizontal air guide assembly is controlled Rotate upward to supply air to the set distance area; in the local cooling mode, control at least one of the first fan 211, the second fan 212, and the third fan 221 to operate, and the air conditioner 100
- the wind area is a cool feeling area
- the set distance area is
- the function mode of the air conditioner 100 includes at least two of the whole house cool feeling mode, the super-distant air supply mode, and the local cool feeling mode.
- the first fan 211, the second fan 212 and the lower fan assembly 22 are controlled to rotate according to the set speed and the first air outlet 1a and the second air outlet 1b are controlled to be fully opened. This facilitates rapid cooling of the indoor area, improves the cooling efficiency of the air conditioner 100, shortens the cooling time of the air conditioner 100, facilitates people in different areas of the room to quickly feel the cold wind, and improves the cooling effect of the air conditioner 100.
- the fan assembly 22 is controlled to stop running, the second air outlet 1b is closed, and the first fan 211 and the second fan 212 operate, and the horizontal air guide assembly is controlled to rotate to upwards. wind.
- the airflow of the cold air is blown along the upper and front through the first air outlet 1a, which facilitates the realization of a parabolic route, facilitates the improvement of the delivery distance of the cold air, realizes the remote air supply of the air conditioner 100, and improves the cooling effect of the air conditioner 100 to remote areas .
- the air conditioner 100 can supply air and cool down only a partial area of the room, that is, the cool sensation area, which is convenient for improving the accuracy of air supply of the air conditioner 100, avoiding the waste of cold air, and improving the cooling effect of the air conditioner 100 for the cool sensation area.
- the function mode of the air conditioner 100 can be increased, which is convenient for selecting the appropriate function mode according to the actual needs of the user, and improving the air conditioner
- the functionality and applicability of 100 is convenient for users to use, and further facilitates the improvement of user comfort.
- the air conditioner 100 has the advantages of convenient use and good user experience.
- the air conditioner 100 includes a casing 1, an upper fan assembly 21 and a lower fan assembly 22.
- the function mode includes a full-house cooling sensation mode
- the control method further includes: when the air conditioner 100 switches to the full-house cooling sensation mode, detecting the first air outlet temperature T1 and the first air outlet 1a The second air outlet temperature T2 of the second air outlet 1b; when T1 ⁇ T2-A, the horizontal air guide assembly is controlled to rotate downward to supply air, and the rotation speed of the first fan 211 is controlled to be less than that of the third fan 221, The rotation speed of the second fan 212 is less than the rotation speed of the third fan 221, where A is a set value.
- the horizontal air guide assembly is controlled to rotate upward to supply air, and the rotation speed of the first fan 211 is controlled to be greater than that of the third fan 221, and the rotation speed of the second fan 212 is greater than that of the 3. Rotation speed of fan 221.
- the cooling effect of the device 100 is controlled to rotate upward to supply air, and the rotation speed of the first fan 211 is controlled to be greater than that of the third fan 221, and the rotation speed of the second fan 212 is greater than that of the 3. Rotation speed of fan 221.
- control the horizontal air guide assembly to reciprocate, reduce the operating frequency of the compressor to the second set frequency, and control the rotation speed of the first fan 211 to be less than the first
- the rotation speed of the third fan 221 and the rotation speed of the second fan 212 are less than the rotation speed of the third fan 221.
- the operating speed of the third fan 221 is controlled not to exceed 60% of the maximum speed of the third fan 221. This not only facilitates the stabilization of the air outlet temperature of the air conditioner 100 within a certain range, but also facilitates the reduction of the working energy consumption of the air conditioner 100 and realizes energy conservation and environmental protection.
- the functional mode includes a local cooling sensation mode
- the local cooling sensation mode includes a windless sensation mode
- the cooling sensation area along the air flow direction includes a windy area and a non-wind sensation area
- the average air flow velocity is not higher than 0.3m/s and the wind-sensing index DR value is ⁇ 5%.
- the windless area in the above description can be understood as: a certain set distance from the wall where the air conditioner 100 is installed, for example, it can be 2.5 m from the wall where the air conditioner 100 is installed, and
- the average value of the air flow velocity in the vertical plane parallel to the installation surface of the air conditioner 100 is 0.3m/s or less (including 0.3m/s), and the DR (draft rating index) value is less than or equal to 5% of the indoor comfort surroundings.
- the front of the air conditioner 100 may include a windy area, a windless area, and a windless area distributed in order from near to far.
- the windy area is closest to the air conditioner 100.
- the air in this area The flow rate is high, and the user feels a strong blowing sensation, which is prone to discomfort.
- the windless area is the farthest from the air conditioner 100, the air flow velocity in this area is close to zero, and the user does not feel the wind at all in this area.
- the windless area is located between the windy area and the windless area. The air flow in this area is slow. The wind feeling felt by the user will not cause discomfort to the user, and the user can clearly feel the cooling of the air conditioner 100 Or heating, with high comfort.
- the operating frequency of the compressor is different in the whole house cool feeling mode or the super far air supply mode compared with the windless mode.
- the compressor of the air conditioner 100 can be reduced. Run frequency to the first set frequency.
- the distance between the boundary between the wind-sensitive area and the wind-free area and the air conditioner 100 is the wind-free distance
- the wind-free mode includes a plurality of wind-free levels
- the windlessness distances corresponding to the windlessness levels are different, and one of the windlessness levels can be selected when switching to the windlessness mode.
- the windlessness level can be selected according to the distribution of indoor people.
- cold air can circulate slowly in the windless area, which not only has a cooling effect, but also improves the user's comfort.
- the windlessness level can be selected according to actual usage requirements.
- the rotation speed of the first fan 211 and the third fan 221 can be adjusted to switch the air conditioner 100 to different windlessness levels, and the rotation speed of the second fan 212 and the third fan 221 can also be adjusted to make the air conditioner 100 Switching to a different windlessness level can also simultaneously adjust the speeds of the first fan 211, the second fan 212, and the third fan 221 to switch the air conditioner 100 to different windlessness levels.
- Different windlessness levels correspond to different windlessness distances.
- the user can change the windlessness level of the air conditioner 100 to change the windlessness distance. As a result, indoor people can be concentrated in a windless area, and the user's comfort can be improved.
- control method further includes: when the air conditioner 100 is in the windless mode, detecting whether there is a target object in the front area of the cabinet 1; if so, obtaining the target object and the cabinet 1 to compare the shortest distance with a plurality of windless distances; according to the comparison result, switch the air conditioner 100 to the corresponding windless level so that the target object is located in the corresponding Within the windless area. Since different windlessness levels correspond to different windlessness distances, the windlessness level of the air conditioner 100 can be selected according to the position of the target object so that the target object is located in the windless area, which can greatly improve users The comfort of use.
- the plurality of windlessness levels include a first gear to an Nth gear, and from the first gear to the Nth gear, the windlessness distance gradually increases.
- the control logic of the windlessness level can be made simpler and clearer, which can facilitate the actual use of the user.
- the setting of multiple levels of windlessness is not limited to this.
- the plurality of windlessness levels may include the first gear to the Nth gear, and the windlessness distance may gradually decrease from the first gear to the Nth gear.
- the rotation speed of the third fan 221 remains unchanged in the N gears. That is, in different levels of windlessness, the output speed of the lower fan assembly 22 remains unchanged, and the speed of the first fan 211 and/or the second fan 212 can be adjusted to switch the windlessness level.
- the operation method of the air conditioner 100 can be made simpler, and the control efficiency of the air conditioner 100 can be improved.
- the second fan 212 is located downstream of the first fan 211, and the first fan 211 is controlled to stop rotating at each level of windlessness from the first gear to the M-th gear.
- the higher the gear the higher the rotation speed of the second fan 212, and M ⁇ N.
- the first fan 211 does not output the rotation speed. If the windlessness level needs to be adjusted, the rotation speed of the second fan 212 and/or the lower fan assembly 211 can be adjusted to switch the windlessness level from the first gear to the Mth gear.
- the plurality of windlessness levels may include the first gear to the eighth gear. If the windlessness level of the air conditioner 100 is between the first gear and the fourth gear, the first fan 211 does not output the rotation speed. When the air conditioner 100 is adjusted between the first gear and the fourth gear, only the output speed of the second fan 212 may be adjusted. Among the four gears from the first gear to the fourth gear, the higher the gear without wind feeling, the higher the rotation speed of the second fan 212. Therefore, through the above arrangement, the control method of the air conditioner 100 can be simplified, and the control efficiency of the air conditioner 100 can be improved.
- the first fan 211 is controlled to rotate.
- the first fan 211 may be maintained at a fixed output speed, or the output speed of the first fan 211 may be gradually increased.
- the rotation speed of the second fan 212 is greater than the rotation speed of the first fan 211.
- the first fan 211 and the second fan 212 rotate at the same time and blow air toward the first air outlet 1a at the same time.
- the second fan 212 may be located on the front side of the first fan 211.
- the second fan 212 can apply driving force to the first fan 211. Therefore, the wind loss of the upper fan assembly 21 can be reduced, and the air blowing effect of the upper fan assembly 21 can be improved.
- the output speed of the first fan 211 and the second fan 212 may also be the same.
- the second fan 212 can cooperate with the first fan 211 by increasing the output speed to achieve a longer air supply distance.
- the upper fan assembly 21 is located above the lower fan assembly 22.
- the air supply distance of the upper fan assembly 21 may be greater than that of the lower fan
- the air flow located above can circulate slowly from top to bottom in the indoor space, thereby making the indoor temperature distribution more uniform.
- the air flow located below can circulate slowly from bottom to top and can be mixed with the air flow above, which can play a role of mixed flow, which can make the indoor temperature distribution more uniform, and can improve the cooling and heating of the air conditioner effect.
- the air conditioner 100 may include a cabinet 1, a fan part 2, an air outlet frame part 3 and a heat exchanger part 4.
- the fan component 2, the air outlet frame component 3 and the heat exchanger component 4 can all be arranged in the casing 1.
- the casing 1 may include a panel part 11 and a back plate part 12.
- the panel part 11 is arranged on the front side of the back plate part 12 and cooperates with the back plate part 12 to define a visible area 1d.
- the first air outlet 1a and the second air outlet 1b are spaced apart, and the backboard member 12 is provided with an air inlet 1c.
- the fan component 2 includes an upper fan assembly 21, a lower fan assembly 22, and an air duct mounting plate 23.
- the upper fan assembly 21 and the lower fan assembly 22 are both arranged on the air duct mounting plate 23 and spaced in the vertical direction.
- the upper fan assembly 21 can Air is blown toward the first air outlet 1a, and the lower fan assembly 22 can blow air toward the second air outlet 1b.
- the upper fan assembly 21 includes a first fan 211 and a second fan 212 arranged in the front-rear direction, and the second fan 212 is located on the front side of the first fan 211.
- the lower fan assembly 22 includes a third fan 221 located below the upper fan assembly 21.
- the air outlet frame part 3 is located downstream of the fan part 2, and the air outlet frame part 3 is provided with a first air outlet frame 31 that is arranged directly opposite to the upper fan assembly 21 and is directly opposite to the lower fan assembly 22.
- the first air outlet frame 31 is arranged directly opposite to the first air outlet 1a
- the second air outlet frame 32 is arranged directly opposite to the second air outlet 1b.
- at least a part of the air outlet frame member 3 can be seen through the visible area 1d, so that the air conditioner 100 can be decorated.
- the upper fan assembly 21 may be a counter-rotating fan, which not only makes the overall structure of the air duct component more compact, but also achieves a better air supply effect. Further, when the rotation speed of one of the first fan 211 and the second fan 212 is adjusted, the rotation speed of the other fan can be automatically adjusted. Of course, the speeds of the first fan 211, the second fan 212, and the third fan can be adjusted independently, and the adjustment is frequency hopping adjustment.
- the third fan 221 in the lower fan assembly 22 is an axial fan.
- the difference between the windless distances of two adjacent gears may not exceed 0.5 m, so that the position of the windless area can be accurately controlled, and the windless effect of the air conditioner 100 can be improved. It is understandable that if the windless distance between two adjacent gears is relatively large, the windless area cannot cover the entire indoor space, thereby affecting the comfort of the user. By setting the difference of the windless distance between the two gears to no more than 0.5m, and by selecting different gears so that the windless area covers every position in the indoor space, the user's needs can be met.
- the difference between the windless distances of two adjacent gears may be 0.3 m.
- multiple levels of windlessness may include the first to sixth gears, the windless distance of the first gear is 0.5m-1m, and the windless distance of the second gear is 1m-1.5m, the windless distance of the third gear is 1.5m-2m, the windless distance of the fourth gear is 2.5m-3m, the windless distance of the fifth gear is 3.5m-4m, and the sixth gear The windless distance is 4.5m-5m.
- the operating frequency of the compressor when the air conditioner 100 is controlled to switch to the windless mode, the operating frequency of the compressor can be reduced to the first set frequency. It can be understood that when the air conditioner 100 is in the full-house cool feeling mode or the super-distant air supply mode, the operating frequency of the compressor is different compared with the no wind feeling mode. Since the air supply speed of the windless mode is relatively slow, the required operating frequency of the compressor is relatively small. By reducing the operating frequency of the compressor, the energy consumption of the air conditioner 100 can be reduced, and the service life of the compressor can be prolonged. For example, when controlling the air conditioner 100 to switch to a windless mode, the operating frequency of the compressor can be reduced to 35W.
- the indoor ambient temperature can be detected, and the indoor ambient temperature and the set temperature can be compared to obtain the temperature difference.
- the temperature difference is greater than the first set Value
- the operating frequency of the compressor can be increased.
- the temperature difference is less than the first set value
- the operating frequency of the compressor can be reduced. This not only ensures the cooling and heating efficiency of the air conditioner 100, but also reduces the air conditioner 100’s operating frequency. energy consumption.
- the operating frequency of the compressor is increased To 40W. If the temperature difference between the indoor ambient temperature and the set temperature corresponding to the current gear is less than 8°C, reduce the operating frequency of the compressor to 25W.
- the cabinet 1 may be provided with a first switch door 5 that slides up and down to open or close the first air outlet 1a, so that the air conditioner 100 The operation is more convenient.
- the air conditioner 100 may further include a first driving mechanism 7 including a driving member, a transmission gear 71 and a rack 72.
- the driving member is connected with the transmission gear 71 to drive the transmission gear 71 to rotate, the rack 72 meshes with the transmission gear 71 and the rack 72 is connected with the first opening and closing door.
- the driving member can drive the rack 72 to move by driving the transmission gear 71, thereby driving the first opening and closing door 5 to move up and down to open or close the first air outlet 1a.
- the driving mode of the first opening and closing door 5 is not limited to this, and can be selected and set according to actual use requirements, and this application does not make specific restrictions on this.
- the cabinet 1 may be provided with a second switch door 6 that moves back and forth to open or close the second air outlet 1b, thereby not only enabling the operation of the air conditioner 100 It is simpler and can also enhance the product sense of science and technology of the air conditioner 100.
- the air conditioner 100 may further include a second driving mechanism, the second driving mechanism may be a hydraulic cylinder, the second driving mechanism may be provided in the cabinet 1, and the free end of the second driving mechanism may be connected to the second opening and closing door 6. The free end of the second driving mechanism can drive the second opening and closing door 6 to move back and forth to open or close the second air outlet 1b.
- the driving mode of the second opening and closing door 6 is not limited to this.
- the second driving mechanism may also be a rack and pinion mechanism.
- the control method of the air conditioner 100 may further include: after controlling the air conditioner 100 to switch to the windless mode, controlling the first The opening and closing door 5 opens the first air outlet 1a, and the second opening and closing door 6 is controlled to open the second air outlet 1b.
- the first opening and closing door 5 can be controlled to close the first air outlet 1a
- the second opening and closing door 6 can be controlled to close the second air outlet 1b.
- first opening and closing door 5 and the second opening and closing door 6 can be provided with air outlets.
- the first air outlet 1a and the second switch can be closed at the first opening and closing door 5.
- the door 6 closes the second air outlet 1b, air can be discharged.
- a control panel (not shown in the figure) may be provided on the casing 1, and the control panel may be provided with a whole house cool feeling control key, an ultra-distant air supply control key and a windless control key,
- the working mode of the air conditioner 100 can be selected by triggering the whole house cool feeling control key, the super remote air supply control key, or the no wind feeling control key.
- the corresponding windlessness level can be selected by triggering the windlessness control key, thereby making the operation of the air conditioner 100 more convenient.
- the control panel may include six control keys from the first gear to the sixth gear of the windless level. When you need to select the windless mode, you can first press the windless mode control key, and then you can press one of the first to sixth gears. For another example, there can also be one control key for the level of windlessness. When the first gear needs to be selected, the control key can be pressed once. When you need to select the second gear, you can press the control key twice, and so on. After use, you can press and hold the control for 5 seconds to reset.
- the air conditioner 100 includes a plurality of distance selection keys corresponding to different windless distances, and a windless control command is issued by triggering one of the distance selection keys.
- the air conditioner 100 may further include an air conditioner remote controller, and the working mode of the air conditioner 100 and the windlessness level of the air conditioner 100 in the windless mode can be selected through the air conditioner remote controller, thereby achieving The remote control of the air conditioner 100 can meet the specific use requirements of the user, thereby bringing great convenience to the actual use of the user.
- the air conditioner 100 may also automatically select the working mode of the air conditioner 100 and the windlessness level of the air conditioner 100 in the windless mode according to the judgment of the target object position.
- the plurality of windlessness levels may include the first gear to the sixth gear.
- the first fan 211 can be controlled to not output speed
- the output speed of the second fan 212 can be controlled to be between 250rpm and 350rpm
- the output speed of the fan assembly 22 can be controlled to be between 150rpm and 250rpm.
- the first fan 211 When the windless level is in the second gear, the first fan 211 can be controlled to not output speed, the second fan 212 can be controlled to output speed between 450rpm-550rpm, and the output speed of the fan assembly 22 can be controlled at 150rpm-250rpm; when the level of no wind feeling is in the third gear, the first fan 211 can be controlled to not output speed, the second fan 212 can be controlled to output speed between 550rpm-650rpm, and the lower fan assembly 22 can be controlled.
- the output speed is between 150rpm-250rpm; when the windless level is in the fourth gear, the output speed of the first fan 211 can be controlled between 120rpm-220rpm, and the output speed of the second fan 212 can be controlled between 250rpm-350rpm
- the output speed of the fan assembly 22 can be controlled to be between 150rpm-250rpm; when the windless level is in the fifth gear, the output speed of the first fan 211 can be controlled to be between 150rpm-250rpm, and the second fan can be controlled
- the output speed of the 212 is between 500rpm-600rpm, and the output speed of the fan assembly 22 can be controlled between 150rpm-250rpm; when the windless level is in the sixth gear, the output speed of the first fan 211 can be controlled to be 150rpm- Between 250 rpm, the output speed of the second fan 212 can be controlled to be between 650 rpm and 750 rpm, and the output speed of the fan assembly 22 can be controlled to be between 150 rpm and 250
- the functional modes include a full-house cool feeling mode and an ultra-long-distance air supply mode
- the control method further includes: when the air conditioner 100 switches to the ultra-long-distance air supply mode, determining whether the set distance has a target If there is no object, switch to the whole house cool feeling mode, if there is, keep the super-distance air supply mode.
- the function mode of the air conditioner 100 can be determined according to the specific location of the target object, which is convenient to improve the intelligence level of the air conditioner 100 and to improve the user experience.
- the functional modes include a full-house cooling sensation mode and an ultra-remote air supply mode
- the control method further includes: when the air conditioner 100 switches to the full-house cooling sensation mode, determining whether there is a target within the set range If there is no object, switch to the super-distance air supply mode, if there is, keep the whole house cool feeling mode.
- the function mode of the air conditioner 100 can also be determined according to the specific location of the target object, which is convenient to improve the intelligence level of the air conditioner 100 and to improve the comfort of the user.
- the air conditioner 100 includes a casing 1, a fan component 2, an air outlet frame component 3, a heat exchanger component 4, a first opening and closing door 5, and a second opening and closing door 6.
- the fan component 2, the air outlet frame component 3 and the heat exchanger component 4 can all be arranged in the casing 1.
- the casing 1 may include a panel part 11 and a back plate part 12.
- the panel part 11 is arranged on the front side of the back plate part 12 and cooperates with the back plate part 12 to define a visible area 1d.
- the first air outlet 1a and the second air outlet 1b are spaced apart, and the backboard member 12 is provided with an air inlet 1c.
- the fan component 2 includes an upper fan assembly 21, a lower fan assembly 22, and an air duct mounting plate 23.
- the upper fan assembly 21 and the lower fan assembly 22 are both arranged on the air duct mounting plate 23 and spaced in the vertical direction.
- the upper fan assembly 21 can Air is blown toward the first air outlet 1a, and the lower fan assembly 22 can blow air toward the second air outlet 1b.
- the upper fan assembly 21 includes a first fan 211 and a second fan 212 arranged in the front-to-rear direction.
- the second fan 212 is located on the front side of the first fan 211 and is arranged directly opposite to the first air outlet 1a.
- the lower fan assembly 22 includes a third fan 221 located below the upper fan assembly 21, and the third fan 221 is arranged directly opposite to the second air outlet 1b.
- the air outlet frame part 3 is located downstream of the fan part 2, and the air outlet frame part 3 is provided with a first air outlet frame 31 that is arranged directly opposite to the upper fan assembly 21 and is directly opposite to the lower fan assembly 22.
- the first air outlet frame 31 is arranged directly opposite to the first air outlet 1a
- the second air outlet frame 32 is arranged directly opposite to the second air outlet 1b.
- at least a part of the air outlet frame member 3 can be seen through the visible area 1d, which can play a decorative role on the air conditioner 100.
- the first opening and closing door 5 is slidably engaged with the panel member 11 and can slide up and down relative to the panel member 11 to open or close the first air outlet 1a, and the second opening and closing door 6 can move back and forth relative to the casing 1 to open or close the second air outlet 1b
- the air conditioner 100 also includes a control panel, which is arranged on the panel part 11 and is respectively connected to the fan part 2, the first open/close door 5 and the second open/close door 6 in communication.
- the control panel includes the whole house cool feeling control key, the super far air supply control key and the airless control key, and the six control keys of the first to sixth gears of the airless level.
- the control method of the air conditioner 100 may include: when the whole house cool feeling mode needs to be selected, first press the whole house cool feeling control key, and the control panel controls the first switch door 5 to open the first air outlet 1a. Control the second switch door 6 to open the second air outlet 1b, and control the first fan 211, the second fan 212 and the lower fan assembly 22 to rotate according to the set speed, such as the first fan 211, the second fan 212 and the lower fan assembly The speed of 22 is 500rpm.
- the first air outlet temperature T1 of the first air outlet 1a and the second air outlet temperature T2 of the second air outlet 1b are detected.
- the horizontal air guide assembly is controlled to rotate to blow downward, and the rotation speed of the first fan 211 is controlled to be less than the rotation speed of the third fan 221, and the rotation speed of the second fan 212 is less than the rotation speed of the third fan 221 ,
- A is the set value.
- the horizontal air guide assembly is controlled to rotate upward to supply air, and the rotation speed of the first fan 211 is controlled to be greater than the rotation speed of the third fan 221, and the rotation speed of the second fan 212 is greater than that of the third fan 221 .
- the ultra-distance air supply control key When you need to select the ultra-distance air supply mode, you can first press the ultra-distance air supply control key to control the fan assembly 22 to stop running and the second air outlet 1b to close, the first fan 211 and the second fan 212 to run, and control the The horizontal air guide assembly rotates to supply air upward, the speed of the first fan 211 is 500 rpm, and the speed of the second fan 212 is 700 rpm.
- the control panel can control the first fan 211 not to output speed, the second fan 212 can control the output speed of 300 rpm, and the third fan 221 can control the output speed of 200 rpm.
- the wind distance is 0.5m.
- the control panel can control the first fan 211 not to output speed, the second fan 212 can control the output speed of 500 rpm, and the third fan 221 can control the output speed of 200 rpm.
- the wind distance is 1.5m.
- the control panel can control the first fan 211 not to output speed, the second fan 212 to 600rpm, and the third fan 221 to 200rpm. At this time, the air conditioner 100 The wind distance is 2.5m.
- the control panel can control the output speed of the first fan 211 to 170 rpm, the second fan 212 to 300 rpm, and the third fan 221 to 200 rpm. At this time, the air conditioner 100 The windless distance is 3m.
- the control panel can control the output speed of the first fan 211 to 200rpm, the second fan 212 to 550rpm, and the third fan 221 to 200rpm. At this time, the air conditioner 100 The windless distance is 3.5m.
- the control panel can control the output speed of the first fan 211 to 200 rpm, can control the output speed of the second fan 212 to 700 rpm, and can control the output speed of the third fan 221 to 200 rpm.
- the air conditioner 100 The windless distance is 4.5m.
- the air conditioner 100 can monitor the temperature difference between the indoor ambient temperature and the set temperature corresponding to the current gear in real time. If the temperature difference is greater than or equal to 5°C, increase the operating frequency of the compressor to 40W. If the temperature difference is less than 5°C, keep the operating frequency of the compressor at 25W.
- the air conditioner 100 After the air conditioner 100 is used, press the power button on the control panel. At this time, the first opening and closing door 5 closes the first air outlet 1a, and the second opening and closing door 6 closes the second air outlet 1b, and the air conditioner 100 stops working.
- first and second may explicitly or implicitly include one or more of these features.
- plural means two or more.
- first feature of the second feature can include the first and second features in direct contact, or can include the first and second features not in direct contact but through them Another feature contact between.
- the "above”, “above” and “above” of the first feature on the second feature include the first feature directly above and diagonally above the second feature, or it simply means that the level of the first feature is higher than The second feature.
- connection should be interpreted broadly unless otherwise clearly specified and limited.
- it can be a fixed connection or a detachable connection. Connected or integrally connected; it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, and it can be the internal communication between two components.
- connection should be interpreted broadly unless otherwise clearly specified and limited.
- it can be a fixed connection or a detachable connection. Connected or integrally connected; it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, and it can be the internal communication between two components.
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Abstract
Description
Claims (22)
- 一种空调器的控制方法,其特征在于,所述空调器具有出风口,所述空调器所处的房间具有设定距离区域,所述空调器具有多个功能模式,所述功能模式包括全屋凉感模式、超远送风模式和局部凉感模式中的至少两种;在所述局部凉感模式,所述空调器的送风区域为凉感区域,所述设定距离区域为无凉感区域;在所述全屋凉感模式,在所述空调器的送风区域内所述空气流动速度平均值高于0.3m/s且吹风感指数DR值>5%;在所述超远送风模式,控制所述出风口朝向所述设定距离区域送风;所述控制方法包括:选择其中一个功能模式,判定是否处于制冷模式,若是,则切换至相应的功能模式,若否则保持当前模式。
- 根据权利要求1所述的空调器的控制方法,其特征在于,所述功能模式包括局部凉感模式,所述局部凉感模式包括无风感模式,在所述无风感模式,沿着空气流动方向所述凉感区域包括有风感区域和无风感区域,在所述无风感区域,空气流动速度平均值不高于0.3m/s且吹风感指数DR值≤5%。
- 根据权利要求2所述的空调器的控制方法,其特征在于,所述有风感区域与所述无风感区域的分界处与所述空调器的距离为无风感距离,所述无风感模式包括多个无风感等级,多个所述无风感等级对应的所述无风感距离不同,当切换至所述无风感模式时可选择其中一个所述无风感等级。
- 根据权利要求3所述的空调器的控制方法,其特征在于,所述控制方法还包括:当所述空调器处于所述无风感模式时,检测所述机壳的前侧区域内是否有目标对象;如果有,获取所述目标对象与所述机壳之间的最近距离,将所述最近距离与多个所述无风感距离进行比较;根据比较结果,将所述空调器切换至对应的所述无风感等级以使所述目标对象位于相应的无风感区域内。
- 根据权利要求1所述的空调器的控制方法,其特征在于,所述控制方法还包括:当空调器切换至所述超远送风模式时,判定设定距离是否有目标对象,若无则切换至所述全屋凉感模式,若有则保持所述超远送风模式。
- 根据权利要求1所述的空调器的控制方法,其特征在于,所述控制方法还包括:当空调器切换至所述全屋凉感模式时,判定设定范围内是否有目标对象,若无则切 换至所述超远送风模式,若有则保持所述全屋凉感模式。
- 一种空调器的控制方法,其特征在于,所述空调器包括机壳、上风机组件和下风机组件,所述机壳上设有第一出风口和位于所述第一出风口下方的第二出风口,所述上风机组件包括沿空气流动方向排布的第一风机和第二风机,所述下风机组件包括第三风机,所述上风机组件朝向所述第一出风口送风,所述下风机组件朝向所述第二出风口送风,所述第一出风口内设有可转动的水平导风组件,所述空调器所处的房间具有设定距离区域,所述空调器具有多个功能模式,所述功能模式包括全屋凉感模式、超远送风模式和局部凉感模式中的至少两种;所述控制方法包括:选择其中一个功能模式,判定是否处于制冷模式,若是,则切换至相应的功能模式,若否则保持当前模式,其中在全屋凉感模式,控制所述第一风机、所述第二风机和所述下风机组件按照设定转速转动且控制所述第一出风口和所述第二出风口完全打开,在所述空调器的送风区域内所述空气流动速度平均值高于0.3m/s且吹风感指数DR值>5%;在超远送风模式,控制所述下风机组件停止运行且所述第二出风口关闭、所述第一风机和所述第二风机运行,控制所述水平导风组件转动至朝上送风以朝向所述设定距离区域内送风;在局部凉感模式,控制所述第一风机、所述第二风机和所述第三风机中的至少一个运行,所述空调器的送风区域为凉感区域,所述设定距离区域为无凉感区域。
- 根据权利要求7所述的空调器的控制方法,其特征在于,所述功能模式包括全屋凉感模式,所述控制方法还包括:当空调器切换至所述全屋凉感模式时,检测所述第一出风口的第一出风温度T1和所述第二出风口的第二出风温度T2;当T1<T2-A时,控制所述水平导风组件转动至朝下送风,控制所述第一风机的转速小于所述第三风机的转速、所述第二风机的转速小于所述第三风机的转速,其中A为设定数值。
- 根据权利要求8所述的空调器的控制方法,其特征在于,当T1>T2+A时,控制所述水平导风组件转动至朝上送风,控制所述第一风机的转速大于所述第三风机的转速、所述第二风机的转速大于所述第三风机的转速。
- 根据权利要求8所述的空调器的控制方法,其特征在于,当T2-A≤T≤T2+A时,控制所述水平导风组件往复摆动,降低所述压缩机的运行频率至第二设定频率,控制所述第一风机的转速小于所述第三风机的转速、所述第二风机的转速小于所述第 三风机的转速。
- 根据权利要求10所述的空调器的控制方法,其特征在于,当T2-A≤T≤T2+A时,控制所述第三风机的运行转速不超过所述第三风机的最高转速的60%。
- 根据权利要求7所述的空调器的控制方法,其特征在于,所述功能模式包括局部凉感模式,所述局部凉感模式包括无风感模式,在所述无风感模式,沿着空气流动方向所述凉感区域包括有风感区域和无风感区域,在所述无风感区域,空气流动速度平均值不高于0.3m/s且吹风感指数DR值≤5%。
- 根据权利要求12所述的空调器的控制方法,其特征在于,所述有风感区域与所述无风感区域的分界处与所述空调器的距离为无风感距离,所述无风感模式包括多个无风感等级,多个所述无风感等级对应的所述无风感距离不同,当切换至所述无风感模式时可选择其中一个所述无风感等级。
- 根据权利要求13所述的空调器的控制方法,其特征在于,所述控制方法还包括:当所述空调器处于所述无风感模式时,检测所述机壳的前侧区域内是否有目标对象;如果有,获取所述目标对象与所述机壳之间的最近距离,将所述最近距离与多个所述无风感距离进行比较;根据比较结果,将所述空调器切换至对应的所述无风感等级以使所述目标对象位于相应的无风感区域内。
- 根据权利要求13或14所述的空调器的控制方法,其特征在于,多个所述无风感等级包括第一档至第N档,从所述第一档到所述第N档,所述无风感距离逐渐增大。
- 根据权利要求15所述的空调器的控制方法,其特征在于,在N个档位中所述第三风机的转速保持不变。
- 根据权利要求15所述的空调器的控制方法,其特征在于,在空气流动方向上,所述第二风机位于所述第一风机的下游,在从第一档至第M档的每个无风感等级中控制所述第一风机停止转动,其中从第一档至第M档的M个档位中,档位越高,所述第二风机的转速越高,M<N。
- 根据权利要求17所述的空调器的控制方法,其特征在于,在从第M+1档到第N档的每个档位中,控制所述第一风机转动。
- 根据权利要求18所述的空调器的控制方法,其特征在于,在从第M+1档到第N档的每个档位中,所述第二风机的转速均大于所述第一风机的转速。
- 根据权利要求17所述的空调器的控制方法,其特征在于,在从第M+1档到第 N档的多个档位中,档位越高,所述第二风机的转速越高。
- 根据权利要求7所述的空调器的控制方法,其特征在于,所述功能模式包括全屋凉感模式和超远送风模式,所述控制方法还包括:当空调器切换至所述超远送风模式时,判定设定距离是否有目标对象,若无则切换至所述全屋凉感模式,若有则保持所述超远送风模式。
- 根据权利要求7所述的空调器的控制方法,其特征在于,所述功能模式包括全屋凉感模式和超远送风模式,所述控制方法还包括:当空调器切换至所述全屋凉感模式时,判定设定范围内是否有目标对象,若无则切换至所述超远送风模式,若有则保持所述全屋凉感模式。
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