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WO2023185031A1 - Procédé de commande pour dispositif de réglage de température, et dispositif de traitement et système de réglage de température - Google Patents

Procédé de commande pour dispositif de réglage de température, et dispositif de traitement et système de réglage de température Download PDF

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Publication number
WO2023185031A1
WO2023185031A1 PCT/CN2022/134418 CN2022134418W WO2023185031A1 WO 2023185031 A1 WO2023185031 A1 WO 2023185031A1 CN 2022134418 W CN2022134418 W CN 2022134418W WO 2023185031 A1 WO2023185031 A1 WO 2023185031A1
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WIPO (PCT)
Prior art keywords
target
temperature
portable
portable temperature
temperature adjustment
Prior art date
Application number
PCT/CN2022/134418
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English (en)
Chinese (zh)
Inventor
陈熙
幸云辉
王雷
Original Assignee
深圳市正浩创新科技股份有限公司
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Publication of WO2023185031A1 publication Critical patent/WO2023185031A1/fr

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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
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/64Electronic processing using pre-stored data
    • 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
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • F24F11/46Improving electric energy efficiency or saving
    • F24F11/47Responding to energy costs
    • 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
    • F24F11/50Control or safety arrangements characterised by user interfaces or communication
    • F24F11/61Control or safety arrangements characterised by user interfaces or communication using timers
    • 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
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/65Electronic processing for selecting an operating mode
    • F24F11/67Switching between heating and cooling modes
    • 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
    • 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 application relates to the technical field of temperature regulation, and in particular to a control method, processing equipment and temperature regulation system for portable temperature regulation equipment.
  • outdoor air conditioners are used outdoors, such as camping, tents, etc., there is no fixed power supply to power the outdoor air conditioners. Therefore, outdoor air conditioners usually need to use mobile power supplies or internal power modules to provide power to support the operation of the outdoor air conditioners.
  • the related outdoor air conditioner control mode is simple and cannot adjust the working mode according to the actual situation. It is prone to the problem that the power of the mobile power supply or the internal power module cannot match the operation needs of the outdoor air conditioner, resulting in the inability to meet the needs of users.
  • a control method, a processing device and a temperature adjustment system for a portable temperature adjustment device are provided.
  • This application provides a control method for portable temperature adjustment equipment, including:
  • the target parameters include target operating time and target temperature
  • the environmental parameters include the ambient temperature and ambient wind force of the working area;
  • target parameters and environmental parameters of the work area determine the total power consumption of the portable temperature adjustment equipment when operating according to the target parameters
  • the portable temperature regulating device is controlled to operate in the target operating mode.
  • the power consumed during the target operating time is lower than or equal to the remaining power.
  • the present application provides a processing device.
  • the device includes a memory, a processor, and a computer program stored on the memory and executable on the processor.
  • the processor executes the computer program, the above-mentioned steps are implemented. Control method of portable temperature regulating equipment.
  • the present application provides a temperature adjustment system, including: a portable temperature adjustment device, and a control device for wired or wireless communication with the portable temperature adjustment device, wherein the control device is used to perform the various possible implementations mentioned above. described method.
  • Figure 1 is a schematic structural diagram of a portable temperature adjustment device provided by an embodiment of the present application.
  • Figure 2 is a flow chart of a method for controlling a portable temperature adjustment device provided by an embodiment of the present application.
  • Figure 3 is an input display interface of a portable temperature adjustment device provided by an embodiment of the present application.
  • Figure 4 is a message prompt interface diagram of a portable temperature adjustment device provided by an embodiment of the present application.
  • Figure 5 is a message prompt selection interface diagram of a portable temperature adjustment device provided by an embodiment of the present application.
  • Figure 6 is a schematic structural diagram of a portable temperature adjustment device provided by an embodiment of the present application.
  • Figure 7 is a schematic structural diagram of a processing device provided by an embodiment of the present application.
  • the portable temperature adjustment equipment (such as outdoor air conditioner, also called camping air conditioner, tent air conditioner) provided by this application includes an air conditioner body and a power module.
  • the air conditioner body also includes a temperature control module, a fan module, a control module, etc.
  • the power module is used for To provide working power for the air conditioner body.
  • outdoor air conditioners can only operate according to the temperature, time and mode set by the user during operation. When the power cannot meet the operation requirements, they will be shut down directly. When users use tents for outdoor activities and sleep at night, if the outdoor air conditioner shuts down during sleep, it will cause the tent to be unable to ventilate or cool, affecting the user's experience.
  • the portable temperature adjustment device involved in the embodiments of this application refers to a device that has a power supply module and can adjust the temperature without AC power, or a portable temperature adjustment device refers to a device that has a power supply module or does not have a power supply module.
  • FIG. 1 is a schematic structural diagram of a portable temperature adjustment device provided by an embodiment of the present application.
  • the portable temperature adjustment device has: a temperature control module 101, a control module 102, and a power supply module 104.
  • the portable temperature regulating device may further include a fan module 103 .
  • the control module 102 is connected to the temperature control module 101, the fan module 103 and the power supply module 104 respectively.
  • the power supply module 104 is also connected to the temperature control module 101 and the fan module 103 .
  • the power supply module 104 is used to provide power to each module in the portable temperature regulating device.
  • the power supply module 104 may be a module fixed inside the portable temperature regulating device.
  • the power supply module 104 can be detachably connected to the portable temperature regulating device.
  • the power supply module 104 may also be a storage battery, a solar cell, a rechargeable battery, etc. Of course, the power supply module 104 can also be charged through an external power supply. After the power supply module 104 stores electricity, it can provide power to each module of the portable temperature regulating device anytime and anywhere. Or the power supply module 104 may not belong to the portable temperature regulating device.
  • the temperature control module 101 is used to implement a cooling function and/or a heating function, that is, the portable temperature adjustment device in the embodiment of the present application can not only heat but also cool.
  • the specific temperature control module 101 may include a cooling module and/or a heating module.
  • the portable temperature adjustment device may also have a temperature detection module 105 connected to the control module 102.
  • the temperature detection module 105 is used to detect the working state of the portable temperature adjustment device.
  • the ambient temperature of the area can be implemented by a temperature sensor.
  • the portable temperature adjustment device may also have a communication module 106 connected to the control module 102 .
  • the communication module 106 is used to enable the portable temperature adjustment device to obtain the temperature change trend of the working area where the portable temperature adjustment device is located from other devices (such as a server or the user's mobile phone or wearable device), or to obtain the temperature change trend from the user's mobile phone or wearable device.
  • the user's work and rest parameters are used to determine the user's work and rest time, such as the time to fall asleep, the time to sleep deeply, the time to wake up, etc.
  • the communication module 106 may be a Bluetooth module or a near field communication (Near Field Communication, NFC) module, etc.
  • the portable temperature adjustment device may also have an interaction module 107 connected to the control module 102.
  • the user can send commands to the portable temperature adjustment device through the interaction module 107.
  • Adjust the device input target parameters, and/or modify the target parameters, or specify the operating mode or display relevant prompt information, etc.
  • the interaction module 107 can be a display screen.
  • the interaction module 107 can also be a voice interaction device.
  • the user can input target parameters to the portable temperature adjustment device through the voice interaction device.
  • the portable temperature adjustment device can also feed back relevant prompt information to the user through the voice interaction device.
  • Figure 2 is a control method for a portable temperature regulating device provided by an embodiment of the present application.
  • the method can be executed by a first device.
  • the first device can be a portable temperature regulating device or can be applied to a portable temperature regulating device. device, such as the control module 102, or chip.
  • the first device may also be a device used to manage the portable temperature adjustment device, such as a server or a user's mobile phone. For example, after the user's mobile phone is connected to a portable temperature regulating device, the operating mode of the portable temperature regulating device can be controlled.
  • This first device can also be called a control device.
  • this application provides a method for controlling a portable temperature adjustment device, which method includes the following steps:
  • Step 201 The first device obtains target parameters set for the portable temperature adjustment device.
  • the target parameters include target running time and target temperature.
  • step 201 can be implemented in the following manner: detecting the operation instruction input by the user on the display screen, and the operation instruction carries Target run time (such as 6 hours) and target temperature (such as 25 degrees Celsius).
  • Target run time such as 6 hours
  • target temperature such as 25 degrees Celsius
  • the target operating time indicates how long the user expects the outdoor air conditioner to work.
  • the setting of the running time can be a time period. For example, the user sets the outdoor air conditioner to start running at 12 o'clock in the evening and end at 8 o'clock in the morning the next day.
  • the setting of the running time can also be a length of time. For example, if the user sets the running time of the outdoor air conditioner to 12 o'clock at night, and sets the operation time to 8 hours, the outdoor air conditioner needs to run until 8 o'clock in the morning the next day.
  • the target temperature indicates the temperature that the outdoor air conditioner needs to bring the ambient temperature in the working area to. For example, if the target temperature is 25°C, then the outdoor air conditioner needs to adjust the ambient temperature to 25°C.
  • the portable temperature regulating device can set the target running time and target temperature with the help of a mobile phone connected to the portable temperature regulating device.
  • the portable temperature adjustment device can establish a communication connection with the mobile phone through the communication interface.
  • step 201 can be implemented in the following manner: the first device can obtain the target running time and target temperature set by the user in the application software running on the mobile phone.
  • Step 202 The first device obtains the remaining power of the power supply module 104 that powers the portable temperature adjustment device.
  • step 202 may be implemented in the following manner: the first device obtains the remaining power of the power supply module 104 that provides power for the portable temperature regulating device from the portable temperature regulating device. Or the user can input the observed remaining power of the portable temperature adjustment device to the first device, which is not limited in the embodiments of the present application. It is worth noting that for a portable temperature regulating device, the portable temperature regulating device can monitor the remaining power of its power supply module 104. This process is related technology and will not be described again here.
  • Step 203 The first device obtains environmental parameters of the working area of the portable temperature adjustment device.
  • the environmental parameters include the ambient temperature and ambient wind in the working area.
  • the environmental parameters of the working area may refer to the ambient temperature of the tent or indoors, rather than the ambient temperature outside the closed space.
  • the work area can also refer to the interior space of the tent or the indoor space.
  • the environmental parameters also include ambient wind.
  • the portable temperature adjustment device works in a tent. The lower end of the tent is provided with a vent. The air outside the tent can enter the tent through the vent to achieve the air in the tent. convection.
  • the environmental parameters of the working area of the portable temperature regulating device are obtained, and the opening or closing of the temperature control module 101 or the fan module 103 of the portable temperature regulating device can be determined based on the ambient temperature and ambient wind force in the environmental parameters.
  • the portable temperature regulating device can use its own temperature detection module 105 to detect the ambient temperature of the working area of the portable temperature regulating device, or when the portable temperature regulating device does not have In the case of the temperature detection module 105, the user can input the ambient temperature of the working area of the portable temperature adjusting device to the portable temperature adjusting device, or the first device can obtain the ambient temperature of the working area of the portable temperature adjusting device from the user's mobile phone.
  • the user can also provide the first device with the ambient temperature of the working area of the portable temperature adjustment device. The embodiments of the present application do not limit this.
  • the portable temperature adjustment device can use its own anemometer or sensor to detect the ambient wind force in the working area of the portable temperature adjustment device.
  • the first device can also obtain the environmental parameters of the working area of the portable temperature regulating device through the following methods.
  • the first device can obtain the environmental parameters of the working area of the portable temperature regulating device from a weather server or other devices.
  • a portable temperature adjustment device can send a query request message to a weather server or other device (user's mobile phone).
  • the query request message includes the current location information of the portable temperature adjustment device, so that the weather server or other device can query the request message based on the query request message.
  • Environmental parameters of the working area of the portable temperature regulating device are fed back to the first device.
  • Step 204 The first device determines the total required power consumption of the portable temperature adjustment device when operating according to the target parameters based on the space size of the working area, target parameters and ambient temperature.
  • the total required power consumption specifically refers to the power consumed by the portable temperature regulating device when operating in the normal operating mode in order to meet the target parameters.
  • the normal operating mode refers to the operating mode with the lowest power consumption to ensure that the portable temperature regulating device reaches the target temperature within the target time.
  • the normal operation mode includes cooling for a period of target operating time, stopping cooling after the temperature in the working area drops to the target temperature, and continuing cooling after the temperature in the working area exceeds the target temperature.
  • the fan module 103 of the portable temperature regulating device can be turned off.
  • the regular operation mode includes running refrigeration for a period of time. After the temperature in the working area is reduced to the target temperature, cooling is stopped. Ventilation is performed during the time period when cooling is stopped. After the temperature in the working area exceeds the target temperature, it continues to be turned on. Cooling, stop ventilation during the cooling period.
  • the normal operation mode includes heating only for a period of time. After the temperature in the working area is adjusted to the target temperature (for example, 25°C), heating is stopped. After the temperature in the working area drops to 15°C, Continue heating.
  • the target temperature for example, 25°C
  • the normal operating mode refers to the operating mode that consumes the highest power in order to ensure that the portable temperature regulating device reaches the target temperature within the target time period.
  • normal operating mode includes the portable thermostat being in cooling/heating mode for the target operating time.
  • the temperature control module 101 of the portable temperature regulating device is in a closed state.
  • the normal operating mode may be built-in within the portable temperature adjustment device, or may be set by the user, which is not limited in the embodiments of the present application.
  • the portable temperature regulating device has a regular operating mode set by default, the user can also modify the regular operating mode.
  • the normal operating mode is calculated to meet the target parameters and the power consumed by the portable temperature regulating device when operating.
  • the total demand power consumption is determined by the maximum and minimum power consumption that ensures that the portable temperature regulating device reaches the target temperature within the target time period.
  • the total demand power consumption is the average of the highest power consumption and the lowest power consumption.
  • Step 205 The first device controls the portable temperature adjustment device to operate in the target operating mode based on the relationship between the remaining power and the total required power consumption.
  • the remaining power meets the power required by the portable temperature regulating device to operate in the target operating mode.
  • the power consumed during the target operating time is lower than or equal to the remaining power.
  • the portable temperature regulating device has multiple operating modes. Different operating modes require different amounts of power to operate the portable temperature regulating device. Based on the relationship between the remaining power of the portable temperature regulating device and the total required power consumption, the target operating mode is determined from multiple operating modes. In order to ensure that the remaining power can support the portable temperature regulating device to operate at the target temperature for the target duration when the remaining power does not meet the total demand; the power consumed by the portable temperature regulating device in the target operating mode will be consumed when the remaining power meets the total demand. In the case of power consumption, it is greater than the power consumption in the case where the remaining power does not meet the total demand. When the remaining power meets the total demand for power consumption, the target operating mode may be the normal operating mode. Of course, when the remaining power meets the total demand for power consumption, the target operating mode may also be other operating modes, which are not limited in the embodiments of this application.
  • controlling the portable temperature regulating device to operate in the target operating mode is specifically: the first device sends a control instruction to the portable temperature regulating device, and the control instruction includes the target operating mode, correspondingly, After receiving the control instruction, the portable temperature adjustment device controls the operation of each internal module (such as the temperature control module 101 and/or the fan module 103 and/or the power supply module 104) according to the target operating mode carried by the control instruction.
  • the first device sends a control instruction to the portable temperature regulating device, and the control instruction includes the target operating mode, correspondingly,
  • the portable temperature adjustment device controls the operation of each internal module (such as the temperature control module 101 and/or the fan module 103 and/or the power supply module 104) according to the target operating mode carried by the control instruction.
  • the portable temperature regulating device is controlled to operate in a target operating mode, specifically: the control module 102 of the portable temperature regulating device sends work instructions to each internal module according to the target operating mode, so that each Modules are turned on or off according to work instructions. For example, if the target operating mode is cooling during the target operating time, the control module 102 of the portable temperature regulating device sends an instruction to start cooling to the temperature control module 101. The temperature control module 101 turns on and starts cooling after receiving the instruction to start. When the target running time ends, the control module 102 sends a shutdown instruction to the temperature control module 101 to trigger the temperature control module 101 to shut down.
  • the target operating mode is cooling during the target operating time
  • the control module 102 of the portable temperature regulating device sends an instruction to start cooling to the temperature control module 101.
  • the temperature control module 101 turns on and starts cooling after receiving the instruction to start.
  • the control module 102 sends a shutdown instruction to the temperature control module 101 to trigger the temperature control module 101 to shut down.
  • the target operating mode refers to cooling within a certain time period of the target operating time, which means that the temperature control module 101 needs to be controlled to be turned on within a certain time period of the target operating time for cooling.
  • the temperature control module 101 is controlled to be turned on during a certain time period of the target operating time to provide heating.
  • Embodiments of the present application provide a control method for a portable temperature regulating device.
  • the method obtains the target parameters of the portable temperature regulating device, the remaining power of the power supply module 104, and the environmental parameters, and then determines the size of the working area of the portable temperature regulating device according to the space size. , target parameters and ambient temperature, determine the total demand power consumption of the portable temperature adjustment equipment when operating according to the target parameters, and then control the portable temperature adjustment equipment to operate in the target operation mode based on the relationship between the remaining power and the total demand power consumption.
  • the target operation mode is When the target parameters are met, the remaining power meets the power required for the portable temperature regulating device to operate in the target operating mode.
  • this solution consumes power when the remaining power meets and does not meet the total demand, it controls the operating mode of the portable temperature regulating device. Different operating modes require different amounts of power, so that when the remaining power cannot meet the total power consumption demand, the remaining power can be ensured to support the target working time of the portable temperature adjustment device. Not only can the remaining power be fully utilized, but also the user experience can be improved.
  • step 205 in the embodiment of this application can be implemented in the following manner:
  • the first device controls the temperature control module 101 of the portable temperature adjustment device to be turned on within the starting time period of the target operating time according to the target operating mode, and controls the temperature control module 101 to operate during the target operation.
  • Other time periods of the duration are closed.
  • the target operation mode at this time can be cooling/heating during the start time period of the target operation duration, and stopping cooling/heating during other time periods except the start time period of the target operation duration.
  • the starting time period refers to a period of time starting from the starting time of the target running time.
  • Other time periods are the time periods excluding the start period from the target run duration.
  • the target operating mode determined by the first device refers to cooling or heating within the starting time period of the target operating duration.
  • the first device controls the temperature control module 101 of the portable temperature adjustment device to be turned on within the starting time period of the target operating time according to the target operating mode, and controls the temperature control module 101 to be turned on during the target operating time. Closed at other times including:
  • the first device controls the temperature control module 101 of the portable temperature adjustment device to be in an on state during the start time period, and controls at least the temperature control module 101 to close during other time periods except the start time period within the target running time.
  • the temperature control module 101 Used to implement cooling and/or heating functions.
  • the portable temperature regulating device can control the portable temperature regulating device within 1 hour starting from 12 noon.
  • the temperature control module 101 starts working for cooling or heating, and the temperature control module 101 of the portable temperature regulating device is closed for the remaining 3 hours, that is, cooling or heating is stopped.
  • step 205 in the embodiment of this application can be implemented in the following manner:
  • Step 1 The first device obtains the temperature change trend in the environmental parameters.
  • the temperature change trend specifically refers to the temperature change outside the working area within the target operating time. Determining the target operating mode through the temperature change trend can more accurately specify a more reasonable operating mode for portable temperature regulation equipment that meets user expectations.
  • the first device can obtain the temperature change trend through weather forecast information in the weather server.
  • the first device obtains the temperature change trend in the environmental parameters.
  • Step 2 The first device determines the target operating mode according to the temperature change trend and the target temperature.
  • the operating time period of the temperature control module 101 of the portable temperature regulating device is within the target operating time.
  • Step 3 The first device controls the temperature control module 101 to turn on during the operating time period according to the determined target operating mode, and controls the temperature control module 101 to turn off during the time period outside the operating time period.
  • the operation period of the temperature control module 101 at least includes the start period of the target operation period.
  • the target operating mode may be continuous cooling or continuous heating during the target operating time. For example, in the cooling scenario, if the user sets the target operating time to 3 hours, and the starting time of the target operating time is 12 noon, then the temperature from 12:00 to 3:00 pm will be between 35°C and 37°C. If the temperature changes are small, the target operating mode can be continuous cooling.
  • the target operation mode may be continuous cooling or continuous heating for a period of time, and then no cooling or no heating for the rest of the time. For example, in a cooling scenario, if the target operating time set by the user is 5 hours, the starting time of the target operating time is 10 p.m., and if the temperature change trend indicates that from 10 p.m. to 1 a.m.
  • the target operation mode can be cooling from 10 o'clock to 1 o'clock the next morning, and from 1 o'clock the next morning to Cooling will stop during the period when the target operating time ends.
  • the method provided by the embodiment of the present application further includes: first The device controls the fan module 103 of the portable temperature regulating device to be turned on. Specifically, the first device controls the fan module 103 of the portable temperature regulating device to turn on during the time period except the start time period and/or the start time period within the target running time period to perform ventilation.
  • the target operating mode determined by the first device includes cooling/heating and ventilation in the starting time period, and ventilation in the remaining time periods.
  • the portable temperature regulating device can control the cooling, heating and ventilation of the portable temperature regulating device within 1 hour from the target operating time, then For the remaining 3 hours, the portable temperature regulating device is controlled to stop cooling or heating and start ventilation through the portable temperature regulating device.
  • the control module 102 controls the temperature control module 101 to turn on for cooling or heating within one hour from the target operating time.
  • the control module 102 controls the temperature control module 101 to turn off and the fan module 103 to turn on during the remaining 3 hours.
  • the fan module 103 is used to implement the air supply function and ventilation function.
  • the portable temperature regulating device has an air duct, which is arranged between the working area and the external area. When the fan module 103 is turned on, the ventilation function can be realized through the air duct.
  • the working area is the area inside the tent
  • the external area is the area outside the tent.
  • the start time period includes a first sub-time period and a second sub-time period
  • the target operating mode determined by the first device specifically includes cooling/heating + ventilation in the first sub-time period
  • the second sub-time period is cooling/heating + ventilation
  • the target operation mode also includes cooling/heating at the end of the operation period, or turning off the portable temperature adjustment device.
  • shutdown refers to shutdown rather than hibernation or standby.
  • the portable temperature adjustment device When the portable temperature adjustment device is turned off, it refers to turning off the modules in the portable temperature adjustment device except the temperature detection module 105 while keeping the temperature detection module 105 open. After the ambient temperature detected by the temperature detection module 105 exceeds the target temperature, the temperature detection module 105 sends an activation signal to the control module 102, and the control module 102 activates the corresponding module according to the corresponding operating mode. In other embodiments, shutting down may also refer to hibernation or standby.
  • the control method provided by the embodiment of the present application also includes: when controlling the temperature control module 101 to close, the first device controls the fan module 103 of the portable temperature adjustment device to turn on according to a preset time interval.
  • the portable temperature regulating device controls the temperature control module 101 to turn off at 12 noon, and sets the preset time interval to 15 minutes, then the portable temperature regulating device controls the fan module 103 It opens at 12:15 for ventilation.
  • control method also includes:
  • the first device controls the fan module 103 of the portable temperature regulating device to turn on.
  • the first device obtains oxygen demand information, and when the oxygen demand information is higher than the first demand information, controls the fan module 103 to run at the first power. Wherein, the first power is higher than the second power.
  • the oxygen demand information can be obtained from the oxygen sensor built into the portable temperature adjustment device, or through wearable smart devices worn by the user, such as smart bracelets.
  • the smart bracelet can monitor the user's pulse, heartbeat and other physiological parameter information to obtain Oxygen requirement information.
  • the first demand information is the threshold value of the user's oxygen demand set by the user when the user is not asleep.
  • the portable temperature adjustment device controls the fan module 103 to operate at the first power to satisfy the user. oxygen demand.
  • the fan module 103 When the oxygen demand information is lower than or equal to the first demand information and higher than the second demand information, the fan module 103 is controlled to run at the second power. When the oxygen demand information is lower than the second demand information, the fan module 103 is controlled to turn off. Wherein, the first power is higher than the second power.
  • the second demand information is the oxygen content threshold set by the user at the beginning of falling asleep.
  • the portable temperature regulating device controls the fan module 103 to use the second demand information. Power operation to meet the user's oxygen demand in the early stages of sleep.
  • the portable temperature regulating device turns off the fan module 103 .
  • the first device can control the operating power of the fan module 103 when it is turned on according to the user's demand for oxygen in different time periods.
  • the fan module 103 can be controlled to be turned on according to a preset time interval, and run at the lowest power during the turn-on period, so as to achieve a silent effect while satisfying the user's needs. Oxygen requirements.
  • the method provided by the embodiment of the present application may also include: the first device obtains the oxygen content in the working area, and accordingly, the first device controls the fan module 103 to turn on, including: If it is lower than the preset threshold, the fan module 103 is controlled to be turned on during the time period except the first time period within the target running time.
  • the preset threshold can be determined by the total number of users in the work area and the average oxygen consumption of each user.
  • the above-mentioned starting time period can be determined by the user's falling asleep stage and waking stage.
  • the temperature control module 101 can be controlled to be turned on for cooling during the time periods corresponding to the user's falling asleep stage and waking stage. Or heating, and the temperature control module 101 is controlled to be turned off during the time period corresponding to the deep sleep stage between the falling asleep stage and the waking stage. Therefore, the process of how to determine the first time period will be described below.
  • the first time period can be set by the user.
  • the user can set the user's work and rest time on a portable temperature adjustment device or a mobile phone connected to the portable temperature adjustment device, such as what time to start sleeping. and planned wake-up time.
  • the first time period may be determined by the first device based on physiological parameter information obtained from a wearable device worn by the user.
  • a wearable device is a smart watch, which can monitor the user's pulse, heartbeat and other physiological parameter information.
  • the physiological parameter information is used to determine the time period when the user is in the deep sleep stage.
  • the physiological parameter information may include the time period of the early stage of falling asleep, the time period of the deep sleep stage, and the time period of the awakening stage.
  • the specific process is as follows: the first device obtains the user's physiological parameter information through the wearable device worn by the user. The first device determines the first time period based on the physiological parameter information.
  • the first time period does not include the time period when the user is in a deep sleep stage.
  • Run The time periods within the duration other than the first time period include the time period when the user is in a deep sleep stage. For example, if the running time is 8 hours and the start time is 11 pm, then the time period when the user is in the deep sleep stage is from 2 to 5 am, and the first time period is the time period from 11 pm to 2 am. , and the time period from 5 to 7 o'clock.
  • the target operating mode determined by the first device is the normal operating mode.
  • the first device controls the portable temperature regulating device to operate in the normal operating mode, including: when the ambient temperature meets the target temperature, the first device The device controls the temperature control module 101 of the portable temperature adjustment device to turn off, and when the ambient temperature does not meet the target temperature, controls the temperature control module 101 to turn on.
  • the normal operating mode when the remaining power meets the total required power consumption, includes repeatedly executing the following process within the target operating time: when the ambient temperature reaches the target temperature, the portable temperature regulating device stops Cooling or heating, when the ambient temperature is different from the target temperature, the cooling or heating function is performed; accordingly, the above step 205 can be implemented in the following manner: controlling the temperature control module 101 to open within a period of time, and when the ambient temperature When the target temperature is reached, the temperature control module 101 is controlled to turn off, and when the ambient temperature exceeds or falls below the target temperature, the temperature control module 101 is controlled to turn on again.
  • the ambient temperature reaching the target temperature can mean that the ambient temperature is lower than or equal to the target temperature.
  • the ambient temperature exceeds the target temperature means that the ambient temperature is higher than the target temperature.
  • the temperature control module 101 is turned on for cooling.
  • the working area is a tent
  • the current temperature in the tent is 30°C
  • the remaining power of the outdoor air conditioner is 80%
  • the target temperature set by the user is 25°C
  • the running time is 8 hours.
  • the outdoor air conditioner determines that the remaining power meets the set demand
  • the outdoor air conditioner will run: first, the outdoor air conditioner runs the refrigeration module. When the temperature in the tent is reduced to 25°C, the refrigeration module stops. When working, the fan module 103 is turned on for ventilation. After a period of time, when the temperature in the tent exceeds 25°C again, the outdoor air conditioner turns on the refrigeration module again, turns off the fan module 103, and stops ventilation. This cycle runs for the set time of 8 hours.
  • the ambient temperature reaching the target temperature may mean that the ambient temperature is equal to or higher than the target temperature.
  • the ambient temperature is lower than the target temperature means the ambient temperature is lower than the target temperature.
  • the temperature control module 101 is turned on for heating.
  • the running time is 8 hours
  • the start time is 11 o'clock in the evening
  • the target temperature is 25°C.
  • the control module 102 of the portable temperature regulating device starts at night.
  • the temperature control module 101 starts to trigger cooling at 11 o'clock.
  • the temperature detection module 105 determines that the ambient temperature is lower than or equal to 25°C, and then reports the temperature reaching the standard instruction to the control module 102.
  • the control module 102 is in the environment. After the temperature is lower than or equal to 25°C for a while (for example, 5 minutes or 10 minutes), the control module 102 controls the temperature control module 101 to close.
  • the temperature detection module 105 continues to detect the ambient temperature and reports the detected ambient temperature to the control module 102. After the control module 102 determines that the ambient temperature is higher than 25°C or higher than 25°C + the preset When the temperature difference reaches the threshold value (such as 5°), the control module 102 controls the temperature control module 101 to turn on again.
  • the threshold value such as 5°
  • the target operating mode determined by the first device refers to cooling or heating within the operating time.
  • step 205 can be implemented in the following manner: the first device controls the temperature control module within the operating time. 101 is turned on for cooling or heating.
  • the first device controls the temperature control module 101 to turn on during the running time. Cooling or heating can be achieved in the following manner: the control module 102 sends a start signal to the temperature control module 101.
  • the start work instruction instructs the temperature control module 101 to start cooling or heating.
  • the first device controls the temperature control module 101 to turn on during the running time, so that cooling or heating can be achieved in the following manner: the first device transmits the temperature to the portable temperature regulating device.
  • the communication module 106 of the portable temperature regulating device receives the target operating mode, and then the control module 102 sends a start work instruction to the temperature control module 101 according to the target operating mode.
  • the first device controls the portable temperature regulating device to turn off.
  • the fan module 103 of the portable temperature adjustment device in order to save power, is controlled to be turned on during the time period when the temperature control module 101 is turned off; and/or the portable temperature control device is controlled to turn on during the time period when the temperature control module 101 is turned on.
  • the fan module 103 of the temperature control device is switched off.
  • the fan module 103 in a cooling scenario, if the temperature control module 101 is turned on for cooling, the fan module 103 can be turned off to save power.
  • the fan module 103 can be turned on, so that the fan module 103 can be used to reduce the ambient temperature.
  • step 204 specifically includes: the first device obtains the power consumed by the portable temperature adjustment device operating in the working area for a preset time.
  • the first device calculates the total required power consumption based on the power, the temperature difference of the working area within the preset time, and the power consumed by the portable temperature adjustment device within the preset time.
  • step 204 can be implemented through the following method 1 or method 2:
  • method 1 includes step A and step B. Mode 1 can also be called manual mode.
  • method 2 includes step C and step D. Mode 2 can also be called automatic mode.
  • Step A The first device obtains the cooling/heating space of the work area.
  • the user can input the size parameters of the working area, such as length, width, and height, in the interactive module 107 or on a mobile phone connected to the portable temperature regulating device, so that the portable temperature regulating device can
  • the cooling/heating space of the work area can be determined based on the size parameters of the work area.
  • Cooling/heating space V length of working area * width of working area * height of working area.
  • the user can input the value of the cooling/heating space measured by himself to the portable temperature regulating device through the interactive module 107 or a mobile phone connected to the portable temperature regulating device.
  • the user inputs the length, width, and height of the tent through the operation panel of the outdoor air conditioner, and the outdoor air conditioner calculates the temperature adjustment space of the tent based on the length, width, and height of the tent, that is, the temperature adjustment space is Length*width*height.
  • the outdoor air conditioner estimates the power consumption based on the temperature adjustment space, the ambient temperature in the tent, the target temperature set by the user, and the target operating time to determine whether the current remaining power can meet the user's set temperature and time requirements. It is worth mentioning that the temperature adjustment space is an estimate, because in actual applications, the tent is cone-shaped, and its actual space is smaller than the calculated space.
  • Step B The first device calculates the total required power consumption based on the cooling/heating space, environmental parameters and target temperature.
  • the precise power consumption can be determined based on the length, width, and height input by the user.
  • the portable temperature regulating device can also obtain the total required power consumption in the following manner. For example, a portable temperature adjustment device reports the cooling/heating space of the work area to the mobile phone or server, and the mobile phone or server calculates the total power consumption based on the cooling/heating space of the work area. Then the mobile phone or server feeds back the total power consumption demand to the portable temperature adjustment device.
  • step 204 can be implemented in the following manner:
  • Step C The first device obtains the power consumed by the portable temperature adjustment device when it runs in the working area for a preset time.
  • Step D The first device calculates the total required power consumption based on the power, the temperature difference of the working area within the preset time, and the power consumed by the portable temperature adjustment device within the preset time.
  • the portable temperature regulating device further has a first control and a second control.
  • the portable temperature regulating device prompts the user to input parameters for determining the working area. Parameters for cooling/heating spaces. For example, length, width, height or specific area value.
  • the portable temperature regulating device determines to use the automatic mode to determine the total required power consumption.
  • the outdoor air conditioner is set to a preset time of 5 minutes, and the outdoor air conditioner is run for 5 minutes. Then, based on the power consumed by the outdoor air conditioner within 5 minutes, the temperature difference in the tent and the power consumption, the estimated The total power consumption of running the user-set duration.
  • the method provided by the embodiment of the present application further includes: when the remaining power is lower than the preset power threshold or cannot match the target operating mode, the first device sends a first prompt message.
  • the first prompt message is used to prompt that the remaining power cannot meet the total demand for power consumption and whether to modify the target parameters.
  • the control module 102 of the portable temperature adjustment device sends a first prompt message through the interaction module 107 .
  • the first prompt information may be displayed on the display screen, or may be prompted to the user in the interactive module 107 through voice.
  • the portable temperature adjustment device when the remaining power cannot meet the total demand for power consumption, and the operating mode that enables the remaining power to meet the total demand for power consumption has not been determined, the portable temperature adjustment device sends a first prompt message.
  • the prompt message is also used to prompt whether to modify the target parameters.
  • the portable temperature regulating device when the user modifies the target parameters, such as changing the target duration from 8 hours to 6 hours, and/or changing the target temperature from 25°C to 28°C, the portable temperature regulating device will use the modified target Parameters determine the total demand for power consumption.
  • the prompt message sent is also used to prompt the user whether to modify the target parameters of the outdoor air conditioner.
  • the display interface of the outdoor air conditioner or the terminal application software above in the form of a dialog box, as shown in Figures 4 and 5. There are two options in the dialog box, "Yes” and “No”. If “Yes” is selected, the target parameter setting interface will be re-displayed on the display interface of the outdoor air conditioner or the terminal application software, allowing the user to reset the target parameters; if Select "No", and the outdoor air conditioner will operate according to the originally set candidate operation mode.
  • the outdoor air conditioner will select "No" by default, and the total demand will be calculated based on the originally set target parameters. Consumes power.
  • the method provided by the embodiment of the present application further includes: after the portable temperature regulating device determines a candidate operating mode of the portable temperature regulating device, the portable temperature regulating device prompts the user for the candidate through a second prompt message. operating mode.
  • the portable temperature regulating device detects a user-triggered modification of the candidate operating mode, if the remaining power can meet the power required to operate in the modified candidate operating mode, the target operating mode is the modified operating mode.
  • the target operating mode is the candidate operating mode.
  • the candidate operating mode may include one or more operating modes, which facilitates the user to select an operating mode as the target operating mode from the one or more operating modes.
  • FIG. 6 is a control device 30 of a portable temperature adjustment device provided by the present application, including:
  • the receiving module 301 is used to obtain target parameters set for the portable temperature adjustment device, where the target parameters include target operating time and target temperature.
  • the acquisition module 302 is used to acquire the remaining power of the power supply module that powers the portable temperature adjustment device; and acquire the environmental parameters of the working area of the portable temperature adjustment equipment, where the environmental parameters include the ambient temperature of the working area.
  • the calculation module 303 is used to determine the total required power consumption of the portable temperature adjustment device when operating according to the target parameters based on the space size of the work area, target parameters and ambient temperature.
  • the operation module 304 controls the portable temperature regulating device to operate in the target operating mode according to the relationship between the remaining power and the total required power consumption, where the power consumed by the portable temperature regulating device for the target operating time in the target operating mode is lower than or equal to the remaining power. .
  • the device for controlling the portable temperature regulating equipment provided in the above embodiments is only explained by taking the division of the above functional modules as an example. In practical applications, the above function allocation can be completed by different functional modules according to needs, that is, The internal structure of the device is divided into different functional modules to complete all or part of the functions described above.
  • Figure 7 is a processing device 40 provided by the present application, including a memory 401, a processor 402, and a computer program 403 stored in the memory 401 and executable on the processor 402.
  • the processor 402 executes the computer program 403, the above is achieved.
  • the processor 402 can be a central processing unit (Central Processing Unit, CPU).
  • the processor 402 can also be other general-purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), Ready-made programmable gate array (Field-Programmable GateArray, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc.
  • a general purpose processor may be a microprocessor or any conventional processor.
  • the processing device 402 may be a mobile terminal, a server, or a certain processing module in the portable temperature adjustment device.
  • the mobile terminal includes smart terminals such as mobile phones, tablets, pads, etc.
  • the processing device 402 When the processing device 402 is a mobile terminal or a server, the processing device 402 is connected to the portable temperature regulating device in a wired or wireless manner.
  • the methods and devices/systems disclosed in this application can be implemented in other ways.
  • the device embodiments described above are only illustrative.
  • the division of modules or units is only a logical function division. In actual implementation, there may be other division methods, for example, multiple units or components may be combined or can be integrated into another device, or some features can be ignored, or not implemented.
  • the coupling or direct coupling or communication connection between each other shown or discussed may be through some interfaces, and the indirect coupling or communication connection of the devices or units may be in electrical, mechanical or other forms.
  • Units described as separate components may or may not be physically separate, that is, they may be located in one place, or they may be distributed over multiple network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of this embodiment.
  • each functional unit in each embodiment of the present application can be integrated into one processing unit, each unit can exist physically alone, or two or more units can be integrated into one unit.
  • the above integrated units can be implemented in the form of hardware or software functional units.
  • Integrated units may be stored in a computer-readable storage medium if they are implemented in the form of software functional units and sold or used as independent products. Based on this understanding, the essence of the technical solution of the present application, or the part that contributes to the existing technology, or the part of the technical solution, can be embodied in the form of a computer software product, and the computer software product is stored in a storage In the medium, the computer software product includes a number of instructions, which are used to cause a computer device (which can be a personal computer, a server, or a network device, etc.) to execute all or part of the steps of the methods described in various embodiments of this application.
  • the aforementioned storage media may include but are not limited to: U disk, mobile hard disk, ROM, RAM, magnetic disk or optical disk and other media that can store program codes.

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Abstract

Procédé de commande pour dispositif de réglage de température portatif. Le procédé consiste : à acquérir un paramètre cible d'un dispositif de réglage de température portatif, la puissance restante d'un module d'alimentation électrique et un paramètre environnemental ; en fonction de la taille de l'espace dans une zone de fonctionnement du dispositif, du paramètre cible et du paramètre environnemental, à déterminer la demande de consommation d'énergie totale du dispositif lorsque celui-ci fonctionne en fonction du paramètre cible ; puis, sur la base de la relation entre la puissance restante et la demande de consommation d'énergie totale, à commander le dispositif pour qu'il fonctionne dans un mode de fonctionnement cible.
PCT/CN2022/134418 2022-03-30 2022-11-25 Procédé de commande pour dispositif de réglage de température, et dispositif de traitement et système de réglage de température WO2023185031A1 (fr)

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