WO2020192002A1 - 空调风机控制的方法、装置及计算机存储介质 - Google Patents

空调风机控制的方法、装置及计算机存储介质 Download PDF

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Publication number
WO2020192002A1
WO2020192002A1 PCT/CN2019/101602 CN2019101602W WO2020192002A1 WO 2020192002 A1 WO2020192002 A1 WO 2020192002A1 CN 2019101602 W CN2019101602 W CN 2019101602W WO 2020192002 A1 WO2020192002 A1 WO 2020192002A1
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WIPO (PCT)
Prior art keywords
wind speed
air conditioner
fan
touch screen
adjustment
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PCT/CN2019/101602
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English (en)
French (fr)
Inventor
张桂芳
程永甫
董金盛
胡尊波
赵萌
苗建
Original Assignee
青岛海尔空调器有限总公司
海尔智家股份有限公司
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Publication of WO2020192002A1 publication Critical patent/WO2020192002A1/zh

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/50Control or safety arrangements characterised by user interfaces or communication
    • F24F11/52Indication arrangements, e.g. displays
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/72Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
    • F24F11/74Control 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
    • F24F11/77Control 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
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/24Means for preventing or suppressing noise
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/24Means for preventing or suppressing noise
    • F24F2013/247Active noise-suppression
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/70Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating

Definitions

  • the present disclosure relates to the technical field of smart home appliances, and in particular to a method, device and computer storage medium for controlling air-conditioning fans.
  • the air conditioner not only has basic core functions such as cooling and heating, but also has functions such as self-cleaning and sleeping. Among them, the wind speed adjustment of the air conditioner is generally carried out according to the gear position, and users cannot adjust according to their own needs, and the flexibility is very low.
  • the present disclosure provides a method, a device and a computer storage medium for controlling an air conditioner fan.
  • a method for controlling an air conditioner fan including:
  • the initial adjustment state of the air conditioner is determined according to the operating state of the air conditioner, and the current wind speed value and adjustment direction of the air conditioner fan in the initial adjustment state are controlled to The fan runs at a set acceleration, wherein the wind speed touch screen adjustment includes the target wind speed indication information on the air conditioner fan control screen changing according to the touch screen time;
  • a device for controlling an air conditioner fan including:
  • the first wind speed touch screen control unit is used to determine the initial adjustment state of the air conditioner according to the operating state of the air conditioner when the touch screen adjustment of the wind speed of the air conditioner starts, and according to the fan of the air conditioner in the initial adjustment state
  • the current wind speed value and adjustment direction of the fan are controlled to run at a set acceleration, wherein the wind speed touch screen adjustment includes the target wind speed indication information on the air conditioner fan control screen changing according to the touch screen time;
  • the second wind speed touch screen control unit is used to determine the target wind speed corresponding to the maximum target wind speed indication information at the end when the wind speed touch screen adjustment ends, and according to the target wind speed, the first wind speed corresponding to the wind turbine at the end A wind speed value and a set response time are used to control the operation of the fan of the air conditioner.
  • a device for controlling an air conditioner fan the device being used in an air conditioner, and the device including:
  • a memory for storing processor executable instructions
  • the processor is configured to:
  • the initial adjustment state of the air conditioner is determined according to the operating state of the air conditioner, and the current wind speed value and adjustment direction of the air conditioner fan in the initial adjustment state are controlled to The fan runs at a set acceleration, wherein the wind speed touch screen adjustment includes the target wind speed indication information on the air conditioner fan control screen changing according to the touch screen time;
  • a computer-readable storage medium having computer instructions stored thereon, which implement the steps of the foregoing method when executed by a processor.
  • the air conditioner can be adjusted with touch screen wind speed, that is, the corresponding target wind speed is determined according to the target wind speed indication information on the air conditioner fan control screen, and the operation of the air conditioner fan is controlled according to the target wind speed and the set response time.
  • the target value directly adjusts the wind speed of the fan, realizes the stepless speed regulation of the air-conditioning fan, improves the flexibility of fan adjustment, and improves the user experience.
  • the wind speed of the air conditioner can correspond to noise, application scenarios, etc., which is further closer to the needs of users.
  • Fig. 1 is a flow chart showing a method for controlling an air conditioner fan according to an exemplary embodiment
  • Fig. 2 is a schematic diagram showing a touch screen adjustment interface for wind speed according to an exemplary embodiment
  • Fig. 3 is a flow chart showing a method for controlling an air conditioner fan according to an exemplary embodiment
  • Fig. 4 is a flow chart showing a method for controlling an air conditioner fan according to an exemplary embodiment
  • Fig. 5 is a block diagram showing an air conditioner fan control device according to an exemplary embodiment
  • Fig. 6 is a block diagram showing an air conditioner fan control device according to an exemplary embodiment.
  • the wind speed adjustment of the air conditioner is adjusted according to the gear position.
  • the target wind speed indication information can be directly set, and then the air conditioning fan can be controlled according to the target wind speed indication information. Therefore, the air conditioning fan can be controlled steplessly, which improves the flexibility of air conditioning fan control and improves the user experience .
  • the wind speed of the air conditioner can correspond to noise and application scenarios, which further expands the function of the air conditioner and further meets the needs of users.
  • Fig. 1 is a flow chart showing a method for controlling an air conditioner fan according to an exemplary embodiment.
  • the process of air conditioning fan control can include:
  • Step 101 When the touch screen adjustment of the air conditioner's wind speed starts, determine the initial adjustment state of the air conditioner according to the operating state of the air conditioner, and according to the current wind speed value and adjustment direction of the air conditioner fan in the initial adjustment state, control the fan to set Acceleration operation.
  • the numerical information on the air conditioner fan control screen will be based on The touch screen time changes.
  • the numerical information may specifically be target wind speed indication information, that is, the target wind speed indication information on the air conditioning fan control screen changes according to the time of touching the screen.
  • the target wind speed indication information includes: a wind speed percentage value, or a noise percentage value.
  • the air conditioner fan control screen can be configured on the air conditioner, or can be configured on the air conditioner controller, so that the air conditioner and the air conditioner fan controller can communicate to obtain corresponding information on the air conditioner fan controller.
  • the wind speed touch screen adjustment function needs to be configured, and then, according to the wind speed touch screen adjustment, the operation of the air conditioner is controlled.
  • the initial adjustment state of the air conditioner is determined according to the operating state of the air conditioner, and the current wind speed value and the adjustment direction of the air conditioner fan in the initial adjustment state are controlled to set the acceleration run.
  • the operating status of the air conditioner includes: stopped operating status and running status. In this way, it may be that the air conditioner in the stopped operation state starts to adjust the wind speed on the touch screen, or it may be that the air conditioner in the running state starts to adjust the wind speed on the touch screen.
  • determining the initial adjustment state of the air conditioner includes: determining the first initial adjustment state of the air conditioner when the air conditioner in the stopped operation state receives the first trigger instruction for wind speed touch-screen adjustment, where the first initial adjustment state includes: The current wind speed value is zero, and the first adjustment direction is acceleration; when the air conditioner in the running state receives the first trigger instruction for wind speed touch-screen adjustment, the first target wind speed indication information corresponding to the first trigger instruction is determined, and determined
  • the second target wind speed indication information corresponding to the sampled second trigger command determines the second adjustment direction according to the first target wind speed indication letter and the second target wind speed indication information, and obtains the current wind speed value corresponding to the fan and the first trigger command, According to the current wind speed value and the second adjustment direction, the second initial adjustment state of the air conditioner is determined.
  • the adjustment direction includes: acceleration or deceleration.
  • the first adjustment direction corresponding to the stopped air conditioner is acceleration; while the air conditioner in the running state needs to collect at least two trigger instructions corresponding to the target wind speed indication information, and then determine the corresponding value according to the sign of the difference.
  • the adjustment direction, that is, the second condition direction includes acceleration or deceleration.
  • the fan can be controlled to run at the set acceleration according to the current wind speed value and adjustment direction of the air conditioner fan in the initial adjustment state.
  • the current wind speed value of the fan in the first initial adjustment state is zero, and the first adjustment direction is acceleration.
  • Step 102 When the wind speed touch screen adjustment ends, determine the target wind speed corresponding to the maximum target wind speed indication information at the end, and according to the target wind speed, the first wind speed value corresponding to the fan at the end, and set the response time to control the air conditioner The fan is running.
  • the air conditioner fan is changing according to the set acceleration, but once the wind speed touch screen adjustment is over, at this time, the maximum target wind speed indication information is displayed on the air conditioner fan control screen. Control the fan of the air conditioner according to the maximum target wind speed indication information.
  • the maximum target wind speed indication information is a wind speed percentage value
  • the corresponding target wind speed can be directly obtained.
  • the maximum target wind speed indication information is a noise percentage value
  • the corresponding wind speed percentage value can be determined according to the corresponding relationship between the divided wind speed and noise saved during configuration, and then the corresponding target wind speed can be obtained.
  • the touch time t is determined, so when it ends The first wind speed value V corresponding to the fan is also determined.
  • a set response time can be preset, so that according to the target wind speed, The first wind speed value, and the set response time, automatically adjust the acceleration of the wind speed change of the fan, thereby controlling the operation of the air conditioning fan according to the automatically adjusted acceleration, and responding to the wind speed state set by the user at a better speed, realizing the infinite air conditioning Speed regulation.
  • the air conditioner can be adjusted by touch screen wind speed, that is, according to the target wind speed indication information on the air conditioner fan control screen, the corresponding target wind speed is determined to control the operation of the air conditioner fan, so as to realize the stepless control of the air conditioner fan and improve
  • the flexibility of air conditioning fan control also improves user experience.
  • the wind speed of the air conditioner can correspond to noise and application scenarios, which further expands the function of the air conditioner and further meets the needs of users.
  • the function of wind speed touch screen adjustment needs to be configured, it may preferably include: determining the maximum wind speed of the air conditioner fan according to the maximum noise of the air conditioner required by the national standard; determining the minimum air conditioner fan according to the performance index of the air conditioner Wind speed, and determine the minimum noise that matches the minimum wind speed; divide the first difference between the maximum wind speed and the minimum wind speed of the air conditioner, and divide it into equal parts; divide the second difference between the maximum noise and the minimum noise of the air conditioner equally , And perform 100 differentiation; save the corresponding relationship between the wind speed and noise after the 100 differentiation; present the 100 differentiated control bar information corresponding to the wind speed or noise on the air conditioning fan control screen, among which the percentage value in the control bar information
  • the information is the target wind speed indication information, and it changes according to the touch screen time.
  • the noise can be correlated with the wind speed of the air conditioner fan, so that the operation of the air conditioner is guaranteed and the noise pollution to the environment is also reduced. Since the maximum wind speed and the minimum wind speed of the air conditioning fan are determined according to the noise and air conditioning performance, the first difference between the maximum wind speed and the minimum wind speed can be equally divided and differentiated. In this way, it can be displayed on the air conditioning fan control panel.
  • the percentage information is the percentage value of wind speed.
  • the percentage value information can also be the noise percentage value in the 100 differentiation control bar information displayed on the air conditioning fan control screen.
  • Fig. 2 is a schematic diagram showing a wind speed touch screen adjustment interface according to an exemplary embodiment.
  • the various control bar information corresponding to the wind speed displayed on the air conditioning fan control screen includes: a circular control energy bar and a drag control energy bar.
  • the percentage value will change with the touch time.
  • the percentage value on the trigger-dragging control energy bar will also change correspondingly, and with the touch screen contact, the maximum percentage value at the end will appear on the interface.
  • the value information can be the target wind speed indication information, including the wind speed percentage value, or the noise percentage value. In this way, the target wind speed can be directly determined, or the interface of Figure 2 can be determined according to the saved correspondence between the divided wind speed and the noise.
  • the percentage information on the above is the target wind speed corresponding to the target wind speed indication information; and when the wind speed touch-screen adjustment is over, the percentage information on the interface in Figure 2 is the maximum target wind speed indication information, so that the maximum target wind speed indication information can be determined corresponding The target wind speed.
  • the percentage information in the circular control energy bar in Fig. 2 is the percentage value of wind speed, and the drag-type control energy bar can also correspond to the percentage value of wind speed.
  • the user can touch the air conditioner fan control screen to start the air speed touch screen adjustment of the air conditioner.
  • the air conditioner fans in different operating states are changing according to the set acceleration, and then the wind speed touch screen is obtained.
  • the maximum target wind speed indication information at the end of the screen adjustment it is a specific value.
  • the acceleration of the wind speed change of the fan is automatically adjusted according to the target wind speed and the set response time.
  • the adjusted acceleration controls the operation of the air-conditioning fan, and responds to the wind speed state set by the user at a better speed, realizing stepless adjustment of the air-conditioning wind speed.
  • the corresponding relationship between the differentiated noise and the life scene information can also be saved, so that the corresponding life scene can be matched by the noise percentage.
  • the noise percentage corresponding to the sleep scene is between 0% and 5%
  • the reading scene corresponds to the noise percentage between 10%-20%
  • the leisure scene corresponds to the noise percentage between 40% and 60%.
  • the noise percentage corresponding to entertainment scenes is between 70% and 85%
  • the noise percentage corresponding to dinner scenes is between 90% and 100%.
  • the corresponding life scene is also presented, where the wind speed percentage value is 28%, and the corresponding noise percentage value can be determined according to the corresponding relationship between the saved wind speed and the noise. For example: 12%, it can be determined that the life scene information is a reading scene, that is, it is suitable for reading.
  • the wind speed of the air conditioner can correspond to the noise and application scenarios, which further expands the function of the air conditioner and further meets the needs of users.
  • the wind speed touch screen adjustment function may be pre-configured, which may include: determining the maximum wind speed of the air conditioner fan according to the maximum noise of the air conditioner required by national standards; determining the minimum wind speed of the air conditioner fan according to the performance index of the air conditioner, and Determine the minimum noise that matches the minimum wind speed; divide the first difference between the maximum wind speed and the minimum wind speed of the air conditioner, and divide it into equal parts; divide the second difference between the maximum noise and the minimum noise of the air conditioner into equal parts, and divide it into equal parts.
  • Baidi save the correspondence between the wind speed and noise after Baidi, and present Baidi control bar information corresponding to the wind speed on the air conditioning fan control screen.
  • the target wind speed indication information includes a wind speed percentage value.
  • Fig. 3 is a flow chart showing a method for controlling an air conditioner fan according to an exemplary embodiment. As shown in Figure 3, the process of air conditioning fan control includes:
  • Step 301 The air conditioner in the stopped operating state receives a first trigger instruction for wind speed touch screen adjustment.
  • Step 302 Determine the first initial adjustment state of the air conditioner.
  • the air conditioner is in a stopped operation state, therefore, the current wind speed value of the fan is zero, and the first adjustment direction is acceleration.
  • Step 303 Control the fan of the air conditioner to run at a set acceleration.
  • Step 304 Determine whether the wind speed touch screen adjustment is over? If yes, go to step 305; otherwise, go to step 303.
  • Step 305 Obtain the maximum target wind speed indication information at the end and the first wind speed value corresponding to the wind turbine.
  • the first wind speed value V as*t, as is the set acceleration, and when the wind speed touch screen adjustment ends, the touch time t is determined, and the first wind speed value is obtained.
  • the interface shown in Figure 2 will show the percentage value at the end of the wind speed touch-screen adjustment. Since the first difference between the maximum wind speed and the minimum wind speed of the air conditioner has been divided equally, and the difference has been performed, in Figure 2, The percentage value of is the maximum target wind speed indication information.
  • Step 306 Determine the target wind speed corresponding to the maximum target wind speed indication information at the end.
  • Step 307 According to the target wind speed, the first wind speed value corresponding to the fan at the end, and the response time is set, the acceleration is automatically adjusted, and the operation of the fan of the air conditioner is controlled.
  • the target wind speed indication information can be directly set, and then the air conditioning fan can be controlled according to the target wind speed indication information. Therefore, the air conditioning fan can be controlled steplessly, which improves the flexibility of air conditioning fan control and also improves the user’s Experience.
  • the wind speed touch screen adjustment function may be pre-configured, which may include: determining the maximum wind speed of the air conditioner fan according to the maximum noise of the air conditioner required by national standards; and determining the minimum air conditioner fan according to the performance index of the air conditioner Wind speed, and determine the minimum noise that matches the minimum wind speed; divide the first difference between the maximum wind speed and the minimum wind speed of the air conditioner, and divide it into equal parts; divide the second difference between the maximum noise and the minimum noise of the air conditioner equally , And perform the differentiation, save the correspondence between the wind speed and the noise after the differentiation, and present the information of the control strip corresponding to the wind speed on the air conditioning fan control screen. The correspondence between the divided noise and the life scene information can also be saved. In this way, the wind speed indication information and the application scenario indication information can be displayed on the air conditioning fan control screen.
  • the control bar information that is divided is the noise percentage value.
  • Fig. 4 is a flow chart showing a method for controlling an air conditioner fan according to an exemplary embodiment. As shown in Figure 4, the process of air conditioning fan control includes:
  • Step 401 The air conditioner in the running state receives a first trigger instruction for wind speed touch screen adjustment.
  • Step 402 Obtain the first target wind speed indication information corresponding to the first trigger instruction and the current wind speed value of the wind turbine.
  • Step 403 Determine the second target wind speed indication information corresponding to the sampled second trigger instruction.
  • the sampling time between the second trigger instruction and the first trigger instruction is relatively short, such as 0.1 second, 0.3 second, and so on.
  • Step 404 Determine the second adjustment direction according to the first target wind speed indication letter and the second target wind speed indication information.
  • Step 405 Control the operation of the fan of the air conditioner according to the current wind speed value of the fan, the second adjustment direction and the set acceleration.
  • the wind speed value of the fan of the air conditioner V V1 ⁇ as*t, and V1 is the current wind speed value of the fan corresponding to the first trigger command.
  • Step 406 Determine whether the wind speed touch screen adjustment is over? If yes, go to step 407, otherwise, go to step 405.
  • Step 407 Obtain the maximum target wind speed indication information at the end and the first wind speed value corresponding to the wind turbine, and display the corresponding life scene information synchronously.
  • the first wind speed value V V1 ⁇ as*t, when the wind speed touch screen adjustment ends, the touch time t is determined, and the first wind speed value is obtained.
  • the percentage value at the end of the wind speed touch screen adjustment appears on the air conditioning fan control screen. Since the first difference between the maximum wind speed and the minimum wind speed of the air conditioner has been divided equally, and the maximum noise and the minimum noise of the air conditioner have been divided The second difference is divided equally, and the difference is performed, and the correspondence between the wind speed and the noise after the difference is saved. Therefore, although the percentage value is the noise percentage value, it is also the maximum target wind speed indication information. In addition, in this embodiment, the stored corresponding relationship between the divided noise and the life scene information and the life scene information corresponding to the divided wind speed during the adjustment of the touch screen may be determined and displayed.
  • Step 408 Determine the target wind speed corresponding to the maximum target wind speed indication information at the end.
  • the corresponding target wind speed can be determined.
  • Step 409 According to the target wind speed, the first wind speed value corresponding to the fan at the end, and the response time is set, the acceleration is automatically adjusted, and the operation of the fan of the air conditioner is controlled.
  • the target wind speed indication information can be directly set, and then the air conditioning fan can be controlled according to the target wind speed indication information. Therefore, the air conditioning fan can be controlled steplessly, which improves the flexibility of air conditioning fan control and also improves the user’s Experience.
  • the wind speed of the air conditioner can correspond to the noise and application scenarios, which not only guarantees the function of the air conditioner, but also reduces noise pollution to the environment, and is further closer to the needs of users.
  • a device for controlling the air conditioner fan can be constructed.
  • Fig. 5 is a block diagram showing an air conditioner fan control device according to an exemplary embodiment. As shown in FIG. 5, the device may include: a first wind speed touch control unit 100 and a second wind speed touch control unit 200.
  • the first wind speed touch screen control unit 100 is used to determine the initial adjustment state of the air conditioner according to the operating state of the air conditioner when the touch screen adjustment of the wind speed of the air conditioner starts, and according to the current wind speed value of the fan of the air conditioner in the initial adjustment state and Adjust the direction and control the fan to run at a set acceleration, where the wind speed touch screen adjustment includes the target wind speed indication information on the air conditioning fan control screen to change according to the touch screen time.
  • the second wind speed touch screen control unit 200 is used to determine the target wind speed corresponding to the maximum target wind speed indication information at the end when the wind speed touch screen adjustment ends, and according to the target wind speed, the first wind speed value corresponding to the wind turbine at the end, and Set the response time and control the operation of the air-conditioning fan.
  • the first wind speed touch screen control unit 100 includes:
  • the first control subunit is used to determine the first initial adjustment state of the air conditioner when the air conditioner in the stopped operation state receives the first trigger instruction for wind speed touch-screen adjustment, where the first initial adjustment state includes: the current wind speed of the fan The value is zero, and the first adjustment direction is acceleration.
  • the second control subunit is used for determining the first target wind speed indication information and the current wind speed value corresponding to the first triggering instruction when the air conditioner in the running state receives the first triggering instruction for wind speed touch screen adjustment, and determining and The second target wind speed indication information corresponding to the sampled second trigger instruction determines the second adjustment direction according to the first target wind speed indication letter and the second target wind speed indication information, and the second adjustment direction is determined according to the current wind speed value and the second adjustment direction.
  • the device further includes:
  • the storage unit is configured to determine the maximum wind speed of the air conditioner fan according to the maximum noise of the air conditioner required by national standards; determine the minimum wind speed of the air conditioner fan according to the performance index of the air conditioner, and determine the minimum noise that matches the minimum wind speed; The first difference between the wind speed and the minimum wind speed is divided equally, and the second difference between the maximum noise and the minimum noise of the air conditioner is equally divided, and the difference is divided;
  • the presentation unit is used for presenting on the air-conditioning fan control screen a hundred different control bar information corresponding to wind speed or noise, wherein the percentage information in the control bar information is target wind speed indication information and changes according to the touch screen time.
  • the configuration saving unit is also used to save the correspondence between the separated noise and life scene information
  • the presentation unit is also used to determine the life scene information corresponding to the percentage information in the control bar information according to the stored correspondence between the divided noise and the life scene information, and present it on the air conditioner fan control screen.
  • Fig. 6 is a block diagram showing an air conditioner fan control device according to an exemplary embodiment.
  • the device may include: a first wind speed touch screen control unit 100 and a second wind speed touch screen control unit 200. It also includes: a configuration saving unit 300 and a presentation unit.
  • the first wind speed touch screen control unit 100 includes a first control sub-unit 110 and a second control sub-unit 120.
  • the configuration storage unit 300 determines the maximum wind speed of the air conditioner fan according to the maximum noise of the air conditioner required by the national standard; determines the minimum wind speed of the air conditioner fan according to the performance index of the air conditioner, and determines the minimum noise that matches the minimum wind speed; The first difference between the wind speed and the minimum wind speed is equally divided, and the second difference between the maximum noise and the minimum noise of the air conditioner is equally divided, and the second difference is performed.
  • the configuration saving unit 300 also saves the correspondence between the separated noise and the life scene information.
  • the first wind speed touch screen control unit 100 can determine the initial adjustment state of the air conditioner according to the operating state of the air conditioner, and according to the current wind speed value of the fan of the air conditioner in the initial adjustment state and Adjust the direction and control the fan to run at the set acceleration.
  • the first control sub-unit 110 in the first wind speed touch screen control unit 100 can determine the first initial adjustment state of the air conditioner when it receives the first trigger instruction for wind speed touch screen adjustment, where:
  • the first initial adjustment state includes: the current wind speed value of the fan is zero, and the first adjustment direction is acceleration.
  • the second control sub-unit 120 in the first wind speed touch screen control unit 100 can receive the first trigger instruction for wind speed touch screen adjustment, it determines the first target corresponding to the first trigger instruction Wind speed indication information, and determine the second target wind speed indication information corresponding to the sampled second trigger command, determine the second adjustment direction according to the first target wind speed indication letter and the second target wind speed indication information, and obtain the fan and the first trigger command
  • the corresponding current wind speed value determines the second initial adjustment state of the air conditioner according to the current wind speed value and the second adjustment direction.
  • the second wind speed touch screen control unit 200 can determine the target wind speed corresponding to the maximum target wind speed indication information at the end when the wind speed touch screen adjustment ends, directly or according to the corresponding relationship saved in the configuration saving unit 300, and according to The target wind speed, the first wind speed value corresponding to the fan at the end, and the set response time to control the operation of the fan of the air conditioner.
  • the presentation unit 400 may present a hundred different control bar information corresponding to the wind speed on the air conditioning fan control screen, where the percentage information in the control bar information is the target wind speed indication information, And it changes according to the time of touching the screen, preferably including: a percentage value of wind speed or a percentage value of noise.
  • the life scene information corresponding to the percentage information in the control bar information can be determined and presented in the air conditioning fan control On the screen.
  • the air conditioning fan control device can directly set the target wind speed indication information, and then control the air conditioning fan according to the target wind speed indication information. Therefore, the air conditioning fan can be controlled infinitely, which improves the flexibility of air conditioning fan control. Improve the user experience.
  • the wind speed of the air conditioner can correspond to the noise and the application scenario, which not only ensures the function of the air conditioner, but also reduces the noise pollution to the environment, and is further closer to the needs of users.
  • a device for controlling an air conditioner fan is provided.
  • the device is used in an air conditioner, and the device includes:
  • a memory for storing processor executable instructions
  • the processor is configured as:
  • the initial adjustment state of the air conditioner is determined according to the operating state of the air conditioner, and the current wind speed value and adjustment direction of the air conditioner fan in the initial adjustment state are controlled to The fan runs at a set acceleration, wherein the wind speed touch screen adjustment includes the target wind speed indication information on the air conditioner fan control screen changing according to the touch screen time;
  • the embodiment of the present invention provides a computer-readable storage medium on which computer instructions are stored, and when the instructions are executed by a processor, the steps of the foregoing method are implemented.

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Abstract

空调风机控制的方法、装置及计算机存储介质,属于智能家电技术领域。该方法包括:当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的除湿调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。实现了空调风机的无机调速,提高了风机调整的灵活性,也提高了用户的体验。

Description

空调风机控制的方法、装置及计算机存储介质
本申请基于申请号为201910235320.8、申请日为2019年03月27日的中国专利申请提出,并要求该中国专利申请的优先权,该中国专利申请的全部内容在此引入本申请作为参考。
技术领域
本公开涉及智能家电技术领域,特别涉及空调风机控制的方法、装置及计算机存储介质。
背景技术
随着生活水平的提高,空调已经是人们日常生活的必备品。空调不仅具有制冷、制热等基本核心功能,还可以具有自清洁、睡眠等功能。其中,空调的风速调节一般都是根据档位来进行的,用户无法根据自身需要进行调节,灵活性很低。
发明内容
为解决相关技术中的问题,本公开提供了空调风机控制的方法、装置及计算机存储介质。
根据本公开实施例的第一方面,提供一种空调风机控制的方法,所述方法包括:
当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的初始调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括所述空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;
当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。
根据本公开实施例的第二方面,提供一种空调风机控制的装置,所述装置包括:
第一风速触屏控制单元,用于当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的初始调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括所述空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;
第二风速触屏控制单元,用于当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。
根据本公开实施例的第三方面,提供一种空调风机控制的装置,所述装置用于空调, 所述装置包括:
处理器;
用于存储处理器可执行指令的存储器;
其中,所述处理器被配置为:
当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的初始调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括所述空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;
当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。
根据本公开实施例的第四方面,提供一种计算机可读存储介质,其上存储有计算机指令,该指令被处理器执行时实现上述方法的步骤。
本公开的实施例提供的技术方案可以包括以下有益效果:
可对空调进行风速触屏调节,即根据空调风机控制屏上的目标风速指示信息确定对应的目标风速,并根据所述目标风速以及设定响应时间控制空调的风机运行,这样,根据用户设置的目标值直接调整风机的风速,实现了空调风机的无极调速,提高了风机调整的灵活性,也提高了用户的体验。并且,空调的风速可与噪音、应用场景等相对应,进一步贴近了用户的需求。
应当理解的是,以上的一般描述和后文的细节描述仅是示例性的,并不能限制本公开。
附图说明
此处的附图被并入说明书中并构成本公开说明书的一部分,示出了符合本公开的实施例,并与说明书一起用于解释本公开的原理。
图1是根据一示例性实施例示出的一种空调风机控制方法的流程图;
图2是根据一示例性实施例示出的一种风速触屏调节界面的示意图;
图3是根据一示例性实施例示出的一种空调风机控制方法的流程图;
图4是根据一示例性实施例示出的一种空调风机控制方法的流程图;
图5是根据一示例性实施例示出的一种空调风机控制装置的框图;
图6是根据一示例性实施例示出的一种空调风机控制装置的框图图。
具体实施方式
这里将详细地对示例性实施例进行说明,其示例表示在附图中。下面的描述涉及附图时,除非另有表示,不同附图中的相同数字表示相同或相似的要素。以下示例性实施例中所描述的实施方式并不代表与本公开相一致的所有实施方式。相反,它们仅是与如所附权 利要求书中所详述的、本公开的一些方面相一致的装置和方法的例子。
一般,在空调的运行过程中,空调的风速调节都是按照档位来进行调节的。本发明实施例中,可直接设置目标风速指示信息,然后,根据目标风速指示信息控制空调风机,因此,可对空调风机进行无极控制,提高了空调风机控制的灵活性,也提高了用户的体验。并且,空调的风速可与噪音、以及应用场景相对应,进一步扩展了空调的功能,也进一步贴近了用户的需求。
图1是根据一示例性实施例示出的一种空调风机控制方法的流程图。如图1所示,空调风机控制的过程可包括:
步骤101:当空调的风速触屏调节起始时,根据空调的运行状态,确定空调的初始调节状态,并根据初始调节状态中的空调的风机的当前风速值以及调节方向,控制风机以设定加速度运行。
本发明实施例中,风速触屏调节中,用户触摸或指压空调风机控制屏上的设定区域,或者,拖拉空调风机控制屏上的控制条时,空调风机控制屏上的数值信息会根据触屏时间进行变化。这里,数值信息具体可为目标风速指示信息,即空调风机控制屏上的目标风速指示信息根据触屏时间进行变化。较佳地,目标风速指示信息包括:风速百分数值,或噪音百分数值。
其中,空调风机控制屏可以配置在空调上,或者,可配置在空调的控制器上,这样,空调与空调风机控制器可进行通讯,获得空调风机控制器上的对应信息。
可见,需配置风速触屏调节的功能,然后,根据风速触屏调节,来控制空调的运行。其中,当空调的风速触屏调节起始时,根据空调的运行状态,确定空调的初始调节状态,并根据初始调节状态中的空调的风机的当前风速值以及调节方向,控制风机以设定加速度运行。
空调的运行状态包括:停止运行状态和正在运行状态。这样,可能是处于停止运行状态的空调开始进行风速触屏调节,也可能是处于正在运行状态的空调开始进行风速触屏调节。因此,确定空调的初始调节状态包括:当处于停止运行状态的空调接收到风速触屏调节的第一触发指令时,确定空调的第一初始调节状态,其中,第一初始调节状态包括:风机的当前风速值为零,第一调节方向为加速;当处于正在运行状态的空调接收到风速触屏调节的第一触发指令时,确定与第一触发指令对应的第一目标风速指示信息,并确定与采样的第二触发指令对应的第二目标风速指示信息,根据第一目标风速指示信和第二目标风速指示信息,确定第二调节方向,并获取风机与第一触发指令对应的当前风速值,根据当前风速值和第二调节方向,确定空调的第二初始调节状态。
调节方向包括:加速或减速。其中,停止运行状态的空调对应的第一调节方向为加速;而处于正在运行状态的空调,需要采集至少两次触发指令对应目标风速指示信息,然后根据其差值的正负,来确定对应的调节方向,即第二条件方向包括加速或减速。
确定了初始调节状态后,即可根据初始调节状态中的空调的风机的当前风速值以及调 节方向,控制风机以设定加速度运行了。其中,第一初始调节状态中风机的当前风速值为零,第一调节方向为加速。这样,风机的风速值可用V=0+as*t,其中,V为风机的风速值,as为设定加速度,t为从接收到风速触屏调节的第一触发指令开始,直至当前的触摸时间。同样,第二初始调节状态中包括了空调接收到风速触屏调节的第一触发指令时对应的当前风速值V1,以及第二调节方向,例如减速,因此,风机的风速值可用V=V1-as*t确定。即根据触屏时间,空调的风机风速在变化。
步骤102:当风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据目标风速,结束时风机对应的第一风速值,以及设定响应时间,控制空调的风机运行。
在风速触屏调节起始时间段内,空调的风机根据设定加速度在进行变化,但是,一旦风速触屏调节结束了,此时,空调风机控制屏上显示了最大目标风速指示信息,则需根据最大目标风速指示信息对空调的风机进行控制。较佳地,若最大目标风速指示信息为风速百分数值,则可直接得到对应的目标风速。若最大目标风速指示信息为噪音百分数值,则可根据配置时,保存的百分化后的风速与噪音之间的对应关系,确定对的风速百分数值,进而得到对应的目标风速。
在风速触屏调节起始时间段内,空调的风机根据设定加速度在进行变化,即V=V1±as*t,当风速触屏调节结束时,触摸时间t是确定的,从而,结束时风机对应的第一风速值V也是确定的,为使得风机能以最快的速度响应到与最大目标风速指示信息对应的目标风速,可预设一个设定响应时间,从而,可根据目标风速,第一风速值,以及设定响应时间,自动调整风机风速变化的加速度,从而,根据自动调节的加速度控制空调风机的运行,以较佳地的速度响应到用户设置的风速状态,实现空调的无极调速。
可见,本发明实施例中,可对空调进行风速触屏调节,即根据空调风机控制屏上的目标风速指示信息确定对应的目标风速控制空调的风机运行,实现对空调风机的无极控制,提高了空调风机控制的灵活性,也提高了用户的体验。并且,空调的风速可与噪音、以及应用场景相对应,进一步扩展了空调的功能,也进一步贴近了用户的需求。
由于本发明实施例中,需配置风速触屏调节的功能,较佳地可包括:根据国家标准要求的空调的最大噪音,确定空调风机的最大风速;根据空调的性能指标,确定空调风机的最小风速,并确定与最小风速匹配的最小噪音;将空调的最大风速与最小风速的第一差值进行等分,并进行百分化;将空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化;保存百分化后的风速与噪音之间的对应关系;在空调风机控制屏上呈现与风速或噪音对应的百分化的控制条信息,其中,控制条信息中的百分值信息为目标风速指示信息,且根据触屏时间进行变化。
可见,本发明实施例中,可将噪音与空调风机的风速对应起来,这样,即保障了空调的运行,也减少了对环境的噪音污染。由于根据噪音以及空调性能,确定了空调风机的最大风速以及最小风速,这样,可对最大风速与最小风速的第一差值进行等分并百分化,这 样,可在空调风机控制屏上呈现的百分化的控制条信息中,百分值信息为风速百分数值。或者,由于保存了百分化后的风速与噪音之间的对应关系,也可在空调风机控制屏上呈现的百分化的控制条信息中,百分值信息为噪音百分数值。
图2是根据一示例性实施例示出的一种风速触屏调节界面的示意图。如图2所示,在空调风机控制屏上呈现与风速对应的百分化的控制条信息包括:圆形控制能量条,以及拖拉式控制能量条。这样,用户触摸圆形区域对应界面,百分化数值会随着触摸的时间进行变化。触发拖动拖拉式控制能量条上的百分数值也会发生对应的变化,并随着触屏接触,会在界面上出现结束时的最大百分数值。因为已预先根据噪音要求以及空调性能,确定空调的最大风速与最小风速,并将空调的最大风速与最小风速的第一差值进行等分和百分化了,因此,图2界面上的百分值信息可为目标风速指示信息,包括风速百分数值,或噪音百分数值,这样,可直接确定出目标风速,或者,根据保存的百分化后的风速与噪音之间的对应关系,确定图2界面上的百分值信息即目标风速指示信息对应的目标风速;而风速触屏调节结束时,图2界面上的百分值信息即为最大目标风速指示信息,从而可确定最大目标风速指示信息对应的目标风速。这里,图2圆形控制能量条中的百分值信息为风速百分数值,而拖拉式控制能量条也可对应为风速百分数值。
对风速触屏调节的功能进行了配置后,用户可触摸空调风机控制屏启动空调的风速触屏调节,首先,不同运行状态的空调的风机根据设定加速度在进行变化,然后,获取到风速触屏调节结束时的最大目标风速指示信息后,具体为百分化的数值,这样,确定对应的目标风速,进而根据目标风速,以及设定响应时间,自动调整风机风速变化的加速度,从而,根据自动调节的加速度控制空调风机的运行,以较佳地的速度响应到用户设置的风速状态,实现了无极调空调风速。
在本发明另一实施例中,还可保存了百分化后的噪音与生活场景信息之间的对应关系,这样,通过噪音百分值即可匹配出对应的生活场景。例如:睡眠场景对应噪音百分值在0%-5%之间;读书场景对应噪音百分值在10%-20%之间,休闲场景对应噪音百分值为40%-60%之间,娱乐场景对应噪音百分值为70%-85%之间,聚餐场景对应噪音百分值在90%-100%。例如:在图2中,还呈现了对应的生活场景,其中,风速百分数值为28%,根据保存的百分化后的风速与噪音之间的对应关系,可确定出对应的噪音百分值,例如:12%,则可确定生活场景信息为读书场景,即适合读书。
当然,有场景变化或增加时,可重新配置百分化后的噪音与生活场景信息之间的对应关系并保存。这样,空调的风速可与噪音、以及应用场景相对应,进一步扩展了空调的功能,也进一步贴近了用户的需求。
下面将操作流程集合到具体实施例中,举例说明本发明实施例提供的控制方法。
本实施例中,可预先配置了风速触屏调节的功能,可包括:根据国家标准要求的空调的最大噪音,确定空调风机的最大风速;根据空调的性能指标,确定空调风机的最小风速,并确定与最小风速匹配的最小噪音;将空调的最大风速与最小风速的第一差值进行等分, 并进行百分化;将空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化,保存百分化后的风速与噪音之间的对应关系,以及在空调风机控制屏上呈现与风速对应的百分化的控制条信息。这里,目标风速指示信息包括风速百分数值。当空调的风速触屏调节起始时,空调处于停止运行状态。
图3是根据一示例性实施例示出的一种空调风机控制方法的流程图。如图3所示,空调风机控制的过程包括:
步骤301:处于停止运行状态的空调接收到风速触屏调节的第一触发指令。
步骤302:确定空调的第一初始调节状态。
这里,空调处于停止运行状态,因此,风机的当前风速值为零,第一调节方向为加速。
步骤303:控制空调的风机以设定加速度加速运行。
步骤304:判断风速触屏调节是否结束?若是,执行步骤305,否则,执行步骤303。
步骤305:获取结束时的最大目标风速指示信息,以及风机对应的第一风速值。
第一风速值V=as*t,as为设定加速度,而当风速触屏调节结束时,触摸时间t是确定的,从而得到第一风速值。而图2所示的界面上会出现风速触屏调节结束时的百分比数值,由于已将空调的最大风速与最小风速的第一差值进行等分,并进行百分化了,因此,图2中的百分比数值即为最大目标风速指示信息。
步骤306:确定与结束时的最大目标风速指示信息对应的目标风速。
步骤307:根据目标风速,结束时风机对应的第一风速值,以及设定响应时间,自动调节加速度,并控制空调的风机运行。
这样,可以较快速度响应到用户设置状态,即与用户设置的最大目标风速指示信息匹配。
可见,本实施例中,可直接设置目标风速指示信息,然后,根据目标风速指示信息控制空调风机,因此,可对空调风机进行无极控制,提高了空调风机控制的灵活性,也提高了用户的体验。
本发明另一实施例中,可预先配置了风速触屏调节的功能,可包括:根据国家标准要求的空调的最大噪音,确定空调风机的最大风速;根据空调的性能指标,确定空调风机的最小风速,并确定与最小风速匹配的最小噪音;将空调的最大风速与最小风速的第一差值进行等分,并进行百分化;将空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化,保存百分化后的风速与噪音之间的对应关系,以及在空调风机控制屏上呈现与风速对应的百分化的控制条信息。还可保存的百分化后的噪音与生活场景信息之间的对应关系。这样,在空调风机控制屏上可显示风速指示信息,以及应用场景指示信息。这里,百分化的控制条信息为噪音百分数值。当空调的风速触屏调节起始时,空调处于正在运行状态。
图4是根据一示例性实施例示出的一种空调风机控制方法的流程图。如图4所示,空调风机控制的过程包括:
步骤401:处于正在运行状态的空调接收到风速触屏调节的第一触发指令。
步骤402:获取与第一触发指令对应的第一目标风速指示信息,以及风机的当前风速值。
步骤403:确定与采样的第二触发指令对应的第二目标风速指示信息。
第二触发指令与第一触发指令间隔采样时间比较短,例如0.1秒,0.3秒等等。
步骤404:根据第一目标风速指示信和第二目标风速指示信息,确定第二调节方向。
步骤405:根据风机的当前风速值,第二调节方向以及设定加速度,控制空调的风机运行。
空调的风机的风速值V=V1±as*t,V1为与第一触发指令对应的风机的当前风速值。
步骤406:判断风速触屏调节是否结束?若是,执行步骤407,否则,执行步骤405。
步骤407:获取结束时的最大目标风速指示信息,以及风机对应的第一风速值,并同步显示对应的生活场景信息。
第一风速值V=V1±as*t,当风速触屏调节结束时,触摸时间t是确定的,从而得到第一风速值。空调风机控制屏上出现风速触屏调节结束时的百分比数值,由于已将空调的最大风速与最小风速的第一差值进行等分,并进行百分化了,以及将空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化,并保存了百分化后的风速与噪音之间的对应关系。因此,百分比数值虽然为噪音百分值,但也为最大目标风速指示信息。并且,本实施例中,可根据保存的百分化后的噪音与生活场景信息之间的对应关系,以及,确定触屏调节过程中百分化后的风速对应的生活场景信息,并进行显示。
步骤408:确定与结束时的最大目标风速指示信息对应的目标风速。
根据保存的百分化后的风速与噪音之间的对应关系,即可确定出对应的目标风速。
步骤409:根据目标风速,结束时风机对应的第一风速值,以及设定响应时间,自动调节加速度,并控制空调的风机运行。
可见,本实施例中,可直接设置目标风速指示信息,然后,根据目标风速指示信息控制空调风机,因此,可对空调风机进行无极控制,提高了空调风机控制的灵活性,也提高了用户的体验。并且,空调的风速可与噪音、以及应用场景相对应,既保证了空调的功能,又可减少对环境的噪音污染,也进一步贴近了用户的需求。
根据上述空调风机控制的过程,可构建一种空调风机控制的装置。
图5是根据一示例性实施例示出的一种空调风机控制装置的框图。如图5所示,该装置可包括:第一风速触摸控制单元100和第二风速触摸控制单元200。
第一风速触屏控制单元100,用于当空调的风速触屏调节起始时,根据空调的运行状态,确定空调的初始调节状态,并根据初始调节状态中的空调的风机的当前风速值以及调节方向,控制风机以设定加速度运行,其中,风速触屏调节包括空调风机控制屏上的目标风速指示信息根据触屏时间进行变化。
第二风速触屏控制单元200,用于当风速触屏调节结束时,确定与结束时的最大目标 风速指示信息对应的目标风速,并根据目标风速,结束时风机对应的第一风速值,以及设定响应时间,控制空调的风机运行。
本发明一实施例中,第一风速触屏控制单元100包括:
第一控制子单元,用于当处于停止运行状态的空调接收到风速触屏调节的第一触发指令时,确定空调的第一初始调节状态,其中,第一初始调节状态包括:风机的当前风速值为零,第一调节方向为加速。
第二控制子单元,用于当处于正在运行状态的空调接收到风速触屏调节的第一触发指令时,确定与第一触发指令对应的第一目标风速指示信息以及当前风速值,并确定与采样的第二触发指令对应的第二目标风速指示信息,根据第一目标风速指示信和第二目标风速指示信息,确定第二调节方向,根据当前风速值和第二调节方向,确定空调的第二初始调节状态。
本发明一实施例中,装置还包括:
配置保存单元,用于根据国家标准要求的空调的最大噪音,确定空调风机的最大风速;根据空调的性能指标,确定空调风机的最小风速,并确定与最小风速匹配的最小噪音;将空调的最大风速与最小风速的第一差值进行等分,并进行百分化;将空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化;
呈现单元,用于在空调风机控制屏上呈现与风速或噪音对应的百分化的控制条信息,其中,控制条信息中的百分值信息为目标风速指示信息,且根据触屏时间进行变化。
本发明一实施例中,配置保存单元,还用于保存百分化后的噪音与生活场景信息之间的对应关系;
呈现单元,还用于根据保存的百分化后的噪音与生活场景信息之间的对应关系,确定与控制条信息中的百分值信息对应的生活场景信息,并呈现在空调风机控制屏上。
下面对空调风机控制的装置进行具体的描述。
图6是根据一示例性实施例示出的一种空调风机控制装置的框图。如图6所示,该装置可包括:第一风速触屏控制单元100和第二风速触屏控制单元200。还包括:配置保存单元300和呈现单元。而第一风速触屏控制单元100包括第一控制子单元110和第二控制子单元120。
其中,配置保存单元300根据国家标准要求的空调的最大噪音,确定空调风机的最大风速;根据空调的性能指标,确定空调风机的最小风速,并确定与最小风速匹配的最小噪音;将空调的最大风速与最小风速的第一差值进行等分,并进行百分化;将空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化。并且,配置保存单元300还保存百分化后的噪音与生活场景信息之间的对应关系。
这样,当空调的风速触屏调节起始时,第一风速触屏控制单元100可根据空调的运行状态,确定空调的初始调节状态,并根据初始调节状态中的空调的风机的当前风速值以及调节方向,控制风机以设定加速度运行。
其中,空调处于停止运行状态时,第一风速触屏控制单元100中的第一控制子单元110可接收到风速触屏调节的第一触发指令时,确定空调的第一初始调节状态,其中,第一初始调节状态包括:风机的当前风速值为零,第一调节方向为加速。而若空调处于正在运行状态时,第一风速触屏控制单元100中的第二控制子单元120可接收到风速触屏调节的第一触发指令时,确定与第一触发指令对应的第一目标风速指示信息,并确定与采样的第二触发指令对应的第二目标风速指示信息,根据第一目标风速指示信和第二目标风速指示信息,确定第二调节方向,并获取风机与第一触发指令对应的当前风速值,根据当前风速值和第二调节方向,确定空调的第二初始调节状态。
从而,第二风速触屏控制单元200可在风速触屏调节结束时,可直接或根据配置保存单元300中保存的对应关系,确定与结束时的最大目标风速指示信息对应的目标风速,并根据目标风速,结束时风机对应的第一风速值,以及设定响应时间,控制空调的风机运行。
当然,在风速触屏调节的过程中,呈现单元400可在空调风机控制屏上呈现与风速对应的百分化的控制条信息,其中,控制条信息中的百分值信息为目标风速指示信息,且根据触屏时间进行变化,较佳地包括:风速百分数值,或噪音百分数值。并且,还可根据配置保存单元300中保存的百分化后的噪音与生活场景信息之间的对应关系,确定与控制条信息中的百分值信息对应的生活场景信息,并呈现在空调风机控制屏上。
可见,本实施例中,空调风机控制装置可直接设置目标风速指示信息,然后,根据目标风速指示信息控制空调风机,因此,可对空调风机进行无极控制,提高了空调风机控制的灵活性,也提高了用户的体验。并且,空调的风速可与噪音、以及应用场景相对应,既保证了空调的功能,又可减少对环境的噪音污染,也进一步贴近了用户的需求。
本发明一实施例中,提供了一种空调风机控制的装置,装置用于空调,装置包括:
处理器;
用于存储处理器可执行指令的存储器;
其中,处理器被配置为:
当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的初始调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括所述空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;
当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。
本发明实施例提供一种计算机可读存储介质,其上存储有计算机指令,该指令被处理器执行时实现上述方法的步骤。
本领域技术人员在考虑说明书及实践这里的公开后,将容易想到本公开的其它实施方案。本申请旨在涵盖本公开的任何变型、用途或者适应性变化,这些变型、用途或者适应 性变化遵循本公开的一般性原理并包括本公开未公开的本技术领域中的公知常识或惯用技术手段。说明书和实施例仅被视为示例性的,本公开的真正范围和精神由下面的权利要求指出。
应当理解的是,本公开并不局限于上面已经描述并在附图中示出的精确结构,并且可以在不脱离其范围进行各种修改和改变。本公开的范围仅由所附的权利要求来限制。

Claims (10)

  1. 一种空调风机控制的方法,其特征在于,所述方法包括:
    当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的初始调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括所述空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;
    当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。
  2. 根据权利要求1所述的方法,其特征在于,所述确定所述空调的初始调节状态包括:
    当处于停止运行状态的空调接收到风速触屏调节的第一触发指令时,确定所述空调的第一初始调节状态,其中,所述第一初始调节状态包括:风机的当前风速值为零,第一调节方向为加速;
    当处于正在运行状态的空调接收到风速触屏调节的第一触发指令时,确定与所述第一触发指令对应的第一目标风速指示信息以及当前风速值,并确定与采样的第二触发指令对应的第二目标风速指示信息,根据所述第一目标风速指示信和所述第二目标风速指示信息,确定第二调节方向,根据所述当前风速值和所述第二调节方向,确定所述空调的第二初始调节状态。
  3. 根据权利要求1或2所述的方法,其特征在于,所述所述空调的初始调节状态之前,还包括:
    根据国家标准要求的所述空调的最大噪音,确定所述空调风机的最大风速;
    根据所述空调的性能指标,确定所述空调风机的最小风速,并确定与所述最小风速匹配的最小噪音;
    将所述空调的最大风速与最小风速的第一差值进行等分,并进行百分化;
    将所述空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化;
    保存百分化后的风速与噪音之间的对应关系;
    在所述空调风机控制屏上呈现与风速或噪音对应的百分化的控制条信息,其中,所述控制条信息中的百分值信息为所述目标风速指示信息,且根据触屏时间进行变化。
  4. 根据权利要求3所述的方法,其特征在于,所述方法还包括:
    根据保存的百分化后的噪音与生活场景信息之间的对应关系,确定与所述控制条信息中的百分值信息对应的生活场景信息,并呈现在所述空调风机控制屏上。
  5. 一种空调风机控制的装置,其特征在于,所述装置包括:
    第一风速触屏控制单元,用于当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的初始调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括所述空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;
    第二风速触屏控制单元,用于当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。
  6. 根据权利要求5所述的装置,其特征在于,所述第一风速触屏控制单元包括:
    第一控制子单元,用于当处于停止运行状态的空调接收到风速触屏调节的第一触发指令时,确定所述空调的第一初始调节状态,其中,所述第一初始调节状态包括:风机的当前风速值为零,第一调节方向为加速;
    第二控制子单元,用于当处于正在运行状态的空调接收到风速触屏调节的第一触发指令时,确定与所述第一触发指令对应的第一目标风速指示信息以及当前风速值,并确定与采样的第二触发指令对应的第二目标风速指示信息,根据所述第一目标风速指示信和所述第二目标风速指示信息,确定第二调节方向,根据所述当前风速值和所述第二调节方向,确定所述空调的第二初始调节状态。
  7. 根据权利要求5或6所述的装置,其特征在于,所述装置还包括:
    配置保存单元,用于根据国家标准要求的所述空调的最大噪音,确定所述空调风机的最大风速;根据所述空调的性能指标,确定所述空调风机的最小风速,并确定与所述最小风速匹配的最小噪音;将所述空调的最大风速与最小风速的第一差值进行等分,并进行百分化;将所述空调的最大噪音与最小噪音的第二差值进行等分,并进行百分化;保存百分化后的风速与噪音之间的对应关系;
    呈现单元,用于在所述空调风机控制屏上呈现与风速或噪音对应的百分化的控制条信息,其中,所述控制条信息中的百分值信息为所述目标风速指示信息,且根据触屏时间进行变化。
  8. 根据权利要求7所述的装置,其特征在于,
    所述配置保存单元,还用于保存百分化后的噪音与生活场景信息之间的对应关系;
    所述呈现单元,还用于根据保存的百分化后的噪音与生活场景信息之间的对应关系,确定与所述控制条信息中的百分值信息对应的生活场景信息,并呈现在所述空调风机控制屏上。
  9. 一种空调风机控制的装置,所述装置用于空调,其特征在于,所述装置包括:
    处理器;
    用于存储处理器可执行指令的存储器;
    其中,所述处理器被配置为:
    当空调的风速触屏调节起始时,根据空调的运行状态,确定所述空调的初始调节状态,并根据所述初始调节状态中的所述空调的风机的当前风速值以及调节方向,控制所述风机以设定加速度运行,其中,所述风速触屏调节包括所述空调风机控制屏上的目标风速指示信息根据触屏时间进行变化;
    当所述风速触屏调节结束时,确定与结束时的最大目标风速指示信息对应的目标风速,并根据所述目标风速,所述结束时风机对应的第一风速值,以及设定响应时间,控制所述空调的风机运行。
  10. 一种计算机可读存储介质,其特征在于,其上存储有计算机指令,其特征在于,该指令被处理器执行时实现权利要求1-4所述方法的步骤。
PCT/CN2019/101602 2019-03-27 2019-08-20 空调风机控制的方法、装置及计算机存储介质 WO2020192002A1 (zh)

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