WO2020224280A1

WO2020224280A1 - Method and apparatus for determining indoor set temperature, storage medium and air conditioner

Info

Publication number: WO2020224280A1
Application number: PCT/CN2019/129761
Authority: WO
Inventors: 秦晓柯; 陈姣; 林金煌; 邹云辉; 何振健
Original assignee: 珠海格力电器股份有限公司
Priority date: 2019-05-08
Filing date: 2019-12-30
Publication date: 2020-11-12
Also published as: CN110107994B; CN110107994A; EP3919833A4; EP3919833A1

Abstract

A method and apparatus for determining an indoor set temperature, a storage medium and an air conditioner, the method comprising: determining whether fluctuations in indoor ambient temperature within a set duration reach a set fluctuation threshold; if the fluctuations reach the set fluctuation threshold, then determining an indoor set temperature according to a set self-adaptive mode, wherein the self-adaptive mode comprises: determining the indoor set temperature according to a principle of balancing the thermal load of a building with the amount of heat generated by an air conditioner. The problem in which users frequently adjust the set temperature of an air conditioner according to the outdoor temperature, which makes users feel hot and then cold and creates a poor comfort experience may be solved, and the effect of improving the comfort experience of users is achieved.

Description

一种室内设定温度的确定方法、装置、存储介质及空调Method, device, storage medium and air conditioner for determining indoor set temperature

相关申请Related application

本申请要求2019年05月08日申请的，申请号为201910381165.0，名称为“一种室内设定温度的确定方法、装置、存储介质及空调”的中国专利申请的优先权，在此将其全文引入作为参考。This application claims the priority of the Chinese patent application filed on May 8, 2019, with the application number 201910381165.0, entitled "A method, device, storage medium and air conditioner for determining indoor set temperature", the full text of which is hereby Introduced as a reference.

技术领域Technical field

本申请属于空调技术领域，具体涉及一种室内设定温度的确定方法、装置、存储介质及空调，尤其涉及一种设定温度自适应的空调器控制策略的实现方法、装置、存储介质及空调。This application belongs to the field of air conditioning technology, and specifically relates to a method, device, storage medium, and air conditioner for determining an indoor set temperature, and more particularly to a method, device, storage medium, and air conditioner for implementing a control strategy of an air conditioner with adaptive set temperature .

背景技术Background technique

以空调器制热时为例，随着室外温度的升高，建筑热负荷降低，但是空调器制热量却增加，用户会感觉较热。此时用户通常会通过降低设定温度来减少热感觉。但是用户并不确定设定温度的具体调低量，不确定自己所需的恒温空间，只是根据冷热感来调节温度，即感觉热时调低设定温度，感觉冷时调高设定温度。由于设定温度调低量过多，会感觉较冷，又将设定温度调高，反反复复会造成室内温度忽高忽低，用户感觉忽冷忽热，舒适性体验差。Take the heating of an air conditioner as an example. As the outdoor temperature rises, the heat load of the building decreases, but the heat generated by the air conditioner increases, and the user will feel hotter. At this time, the user usually reduces the thermal sensation by lowering the set temperature. However, the user is not sure about the specific amount of lowering the set temperature, or the constant temperature space he needs, but only adjusts the temperature according to the sense of cold and heat, that is, lower the set temperature when it feels hot, and increase the set temperature when it feels cold. . Because the set temperature is lowered too much, it will feel colder, and if the set temperature is adjusted higher, the indoor temperature will rise and fall repeatedly, and the user feels hot and cold, and the comfort experience is poor.

如图10为热泵在蒙古示范期间某一示范户全天24h监控数据。由图10可知，当天早上0点-6点期间，室外温度最低，低至-21℃，房间设定温度为28℃，由于此时室内温度较高且室外温度较低，建筑热负荷较大；早上6:00以后，一方面，随着室外温度的升高建筑热负荷将降低，另一方面，空调制热量增加，用户会感觉较热。因此，8:00以后，当室外温度继续升高时，此时建筑热负荷会继续降低，用户将设定温度由28℃调低至25℃，但是用户并不确定设定温度的具体调低量，只是根据冷热感来调节温度，由于设定温度调低量过多，中午12:00时用户感觉较冷，又将设定温度调高，尤其是在下午16:30以后，用户频繁调节设定温度，导致室内环境在21℃～30℃之间波动，用户感觉忽冷忽热，舒适性体验差。Figure 10 shows the 24h monitoring data of a model household during the heat pump demonstration in Mongolia. It can be seen from Figure 10 that the outdoor temperature was the lowest between 0:00 and 6:00 that morning, as low as -21°C, and the room setting temperature was 28°C. Because of the high indoor temperature and low outdoor temperature at this time, the building heat load was greater After 6:00 in the morning, on the one hand, as the outdoor temperature rises, the heat load of the building will decrease; on the other hand, the heating capacity of the air conditioner increases, and users will feel hotter. Therefore, after 8:00, when the outdoor temperature continues to rise, the heat load of the building will continue to decrease at this time. The user will lower the set temperature from 28°C to 25°C, but the user is not sure about how to lower the set temperature. It only adjusts the temperature according to the heat and cold sensation. Because the set temperature is lowered too much, the user feels colder at 12:00 noon, and the set temperature is adjusted higher, especially after 16:30 in the afternoon, the user frequently Adjusting the set temperature causes the indoor environment to fluctuate between 21°C and 30°C, and users feel hot and cold, and the comfort experience is poor.

上述内容仅用于辅助理解本申请的技术方案，并不代表承认上述内容是现有技术。The above content is only used to assist the understanding of the technical solution of this application, and does not mean that the above content is recognized as prior art.

发明内容Summary of the invention

本申请的目的在于，针对上述缺陷，提供一种室内设定温度的确定方法、装置、存储介质及空调，以解决用户根据室外温度频繁调节空调的设定温度使得用户感觉忽冷忽热而存在舒适性体验差的问题，达到提升用户的舒适性体验的效果。The purpose of this application is to provide a method, device, storage medium, and air conditioner for determining the indoor set temperature in response to the above-mentioned shortcomings, so as to solve the problem that the user frequently adjusts the set temperature of the air conditioner according to the outdoor temperature, so that the user feels cold and hot. The problem of poor comfort experience achieves the effect of enhancing the user's comfort experience.

本申请提供一种室内设定温度的确定方法，包括：确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值；若所述波动情况达到所述设定波动阈值，则按设定的自适应模式确定室内设定温度；其中，所述自适应模式，包括：根据建筑热负荷与空调器制热量相平衡原则确定室内设定温度。This application provides a method for determining an indoor set temperature, including: determining whether the fluctuation of the indoor ambient temperature within a set time period reaches a set fluctuation threshold; if the fluctuation situation reaches the set fluctuation threshold, press the set The predetermined adaptive mode determines the indoor set temperature; wherein, the adaptive mode includes: determining the indoor set temperature according to the principle of balance between the building heat load and the heating capacity of the air conditioner.

在一个实施例中，确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值，包括：在设定时长内按设定时间间隔获取两个以上室内环境温度；确定两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值是否大于或等于设定波动阈值；若两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值中，有设定数量个绝对值大于或等于设定波动阈值，则确定室内环境温度在设定时长内的波动情况达到设定波动阈值。In one embodiment, determining whether the fluctuation of the indoor ambient temperature within a set period of time has reached a set fluctuation threshold includes: obtaining two or more indoor ambient temperatures at a set time interval within the set period of time; determining whether there are more than two indoor ambient temperatures Whether the absolute value of the difference between every two adjacent indoor ambient temperatures in the ambient temperature is greater than or equal to the set fluctuation threshold; if the difference between every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures Among the absolute values of the values, if there are a set number of absolute values greater than or equal to the set fluctuation threshold, it is determined that the fluctuation of the indoor ambient temperature within the set time period reaches the set fluctuation threshold.

在一个实施例中，按设定的自适应模式确定室内设定温度，具体包括：确定第一空调制热量、以及空调所属环境的第一建筑热负荷；确定所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值是否小于或等于设定负荷阈值；若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值小于或等于设定负荷阈值，则确定与所述第一空调制热量和所述第一建筑热负荷均相关的用户所需恒温空间的第一恒温温度为室内设定温度；若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值大于设定负荷阈值，则重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，并根据重新确定的第二空调制热量、以及空调所属环境的第二建筑热负荷按迭代法重新确定室内设定温度。In one embodiment, determining the indoor set temperature according to the set adaptive mode specifically includes: determining the heating capacity of the first air conditioner and the first building heat load of the environment where the air conditioner belongs; Whether the absolute value of the difference between the heat load of the first building is less than or equal to the set load threshold; if the absolute value of the difference between the heating capacity of the first air conditioning and the heat load of the first building is less than or equal to If the load threshold is set, it is determined that the first constant temperature temperature of the constant temperature space required by the user related to both the heating capacity of the first air conditioner and the thermal load of the first building is the indoor set temperature; if the heating capacity of the first air conditioner is If the absolute value of the difference between the thermal load of the first building and the first building is greater than the set load threshold, the second air-conditioning heating capacity and the second building thermal load of the environment where the air-conditioning belongs are re-determined, and based on the re-determined second air-conditioning The heating capacity and the second building heat load of the environment where the air conditioner belongs are re-determined the indoor set temperature by iterative method.

在一个实施例中，确定第一空调制热量、以及空调所属环境的第一建筑热负荷，包括：获取用户所需恒温空间的温度为第一恒温温度，并获取室外环境温度和空调出风温度；根据所述第一恒温温度和所述室外环境温度计算建筑热负荷，并根据所述第一恒温温度和所述空调出风温度计算空调制热量。In one embodiment, determining the heating capacity of the first air conditioner and the heat load of the first building of the environment where the air conditioner belongs includes: obtaining the temperature of the constant temperature space required by the user as the first constant temperature temperature, and obtaining the outdoor ambient temperature and the air outlet temperature of the air conditioner Calculate the building heat load according to the first constant temperature temperature and the outdoor ambient temperature, and calculate the air conditioning heating capacity according to the first constant temperature temperature and the air conditioner outlet temperature.

在一个实施例中，重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，包括：获取假设的用户所需恒温空间的温度为第二恒温温度，并获取室外环境温度和空调出风温度；根据所述第二恒温温度和所述室外环境温度计算第二建筑热负荷，并根据所述第二恒温温度和所述空调出风温度计算第二空调制热量；其中，若所述第一空调制热量大于所述第一建筑热负荷，则所述第二恒温温度小于第一恒温温度；若所述第一空调制热量小于所述第一建筑热负荷，则所述第二恒温温度大于第一恒温温度。In one embodiment, re-determining the heating capacity of the second air conditioner and the second building heat load of the environment to which the air conditioner belongs includes: obtaining the assumed temperature of the constant temperature space required by the user as the second constant temperature temperature, and obtaining the outdoor ambient temperature and the air conditioner Outlet air temperature; calculate the second building heat load based on the second constant temperature temperature and the outdoor ambient temperature, and calculate the second air conditioning heating capacity based on the second constant temperature temperature and the air conditioner outlet temperature; where, if If the heating capacity of the first air conditioner is greater than the heat load of the first building, the second constant temperature temperature is less than the first constant temperature temperature; if the heating capacity of the first air conditioner is less than the heat load of the first building, then the second The constant temperature temperature is greater than the first constant temperature temperature.

在一个实施例中，还包括：确定在空调开机后是否已接收到用户选择的自适应模式；若确定在空调开机后已接收到用户选择的自适应模式，则直接按设定的自适应模式确定室内设定温度；若确定在空调开机后未接收到用户选择的自适应模式，则根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式；其中，所述记忆模式，包括：根据用户两次调节室内设定温度的时间差和室内温度差确定是否开启设定的自适应模式。In one embodiment, the method further includes: determining whether the adaptive mode selected by the user has been received after the air conditioner is turned on; if it is determined that the adaptive mode selected by the user has been received after the air conditioner is turned on, directly pressing the set adaptive mode Determine the indoor set temperature; if it is determined that the adaptive mode selected by the user is not received after the air conditioner is turned on, determine whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner; wherein, the memory mode includes : Determine whether to open the set adaptive mode according to the time difference between the user's two adjustments to the indoor set temperature and the indoor temperature difference.

在一个实施例中，根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式，包括：确定用户两次调节室内设定温度的时间差和室内温度差；确定所述时间差是否小于或等于设定时间阈值，并确定所述室内温度差是否小于或等于设定温度阈值；若所述时间差小于或等于所述设定时间阈值、且所述室内温度差小于或等于所述设定温度阈值，则发起提醒用户是否选择自适应模式的提醒消息，并在确定用户未选择自适应模式的情况下将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式；若所述时间差大于所述设定时间阈值、或所述室内温度差大于所述设定温度阈值，则将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。In one embodiment, determining whether to turn on the set adaptive mode according to the storage information in the memory mode of the air conditioner includes: determining the time difference between the user adjusting the indoor set temperature twice and the indoor temperature difference; determining whether the time difference is less than or Equal to the set time threshold, and determine whether the indoor temperature difference is less than or equal to the set temperature threshold; if the time difference is less than or equal to the set time threshold, and the indoor temperature difference is less than or equal to the set temperature Threshold, it initiates a reminder message to remind the user whether to select the adaptive mode, and when it is determined that the user has not selected the adaptive mode, the set time, each set temperature and each room temperature stored in the memory mode are cleared and entered New memory mode; if the time difference is greater than the set time threshold, or the room temperature difference is greater than the set temperature threshold, then the set time, each set temperature, and each room stored in the memory mode The temperature is cleared to enter a new memory mode.

在一个实施例中，确定用户两次调节室内设定温度的时间差和室内温度差，包括：获取用户第一次调节所述室内设定温度的第一设定时间、第一设定温度、以及空调基于所述第一设定温度运行稳定后的第一室内温度，并获取用户第二次调节所述室内设定温度的第二设定时间、第二设定温度、以及空调基于所述第二设定温度运行稳定后的第二室内温度；确定所述第二设定时间与所述第一设定时间之间的时间差、以及所述第二室内温度与所述第一设定温度之间的室内温度差。In one embodiment, determining the time difference and the indoor temperature difference between the user adjusting the indoor set temperature twice includes: acquiring the first set time, the first set temperature, and the first set temperature for the user to adjust the indoor set temperature for the first time; and The air conditioner operates based on the first indoor temperature after the first set temperature is stable, and acquires the second set time for the user to adjust the indoor set temperature for the second time, the second set temperature, and the air conditioner based on the first 2. The second indoor temperature after the set temperature operation is stable; determine the time difference between the second set time and the first set time, and the difference between the second indoor temperature and the first set temperature The room temperature difference between.

与上述方法相匹配，本申请另一方面提供一种室内设定温度的确定装置，包括：确定单元，用于确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值；控制单元，用于若所述波动情况达到所述设定波动阈值，则按设定的自适应模式确定室内设定温度；其中，所述自适应模式，包括：根据建筑热负荷与空调器制热量相平衡原则确定室内设定温度。In line with the above method, another aspect of the present application provides a device for determining an indoor set temperature, which includes: a determining unit for determining whether the fluctuation of the indoor ambient temperature within a set time period reaches a set fluctuation threshold; a control unit , Used to determine the indoor set temperature according to the set adaptive mode if the fluctuation situation reaches the set fluctuation threshold; wherein, the adaptive mode includes: according to the heat load of the building and the heating capacity of the air conditioner The principle of balance determines the indoor set temperature.

在一个实施例中，所述确定单元确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值，包括：在设定时长内按设定时间间隔获取两个以上室内环境温度；确定两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值是否大于或等于设定波动阈值；若两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值中，有设定数量个绝对值大于或等于设定波动阈值，则确定室内环境温度在设定时长内的波动情况达到设定波动阈值。In an embodiment, the determining unit determining whether the fluctuation of the indoor ambient temperature within a set time period reaches a set fluctuation threshold includes: acquiring two or more indoor ambient temperatures at a set time interval within the set time period; determining Whether the absolute value of the difference between every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures is greater than or equal to the set fluctuation threshold; if every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures Among the absolute values of the difference, if there are a set number of absolute values greater than or equal to the set fluctuation threshold, it is determined that the fluctuation of the indoor ambient temperature within the set time period reaches the set fluctuation threshold.

在一个实施例中，所述控制单元按设定的自适应模式确定室内设定温度，具体包括：确定第一空调制热量、以及空调所属环境的第一建筑热负荷；确定所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值是否小于或等于设定负荷阈值；若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值小于或等于设定负荷阈值，则确定与所述第一空调制热量和所述第一建筑热负荷均相关的用户所需恒温空间的第一恒温温度为室内设定温度；若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值大于设定负荷阈值，则重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，并根据重新确定的第二空调制热量、以及空调所属环境的第二建筑热负荷按迭代法重新确定室内设定温度。In one embodiment, the control unit determines the indoor set temperature according to the set adaptive mode, which specifically includes: determining the heating capacity of the first air conditioner and the first building heat load of the environment where the air conditioner belongs; determining the first air conditioner Whether the absolute value of the difference between the heating capacity and the first building's thermal load is less than or equal to the set load threshold; if the absolute value of the difference between the first air-conditioning heating capacity and the first building's thermal load is If the value is less than or equal to the set load threshold, it is determined that the first constant temperature temperature of the constant temperature space required by the user related to both the first air conditioning heating capacity and the first building thermal load is the indoor set temperature; The absolute value of the difference between the heating capacity of an air conditioner and the heat load of the first building is greater than the set load threshold, then the second air conditioning heating capacity and the second building heat load of the environment where the air conditioner belongs are re-determined, and the The heating capacity of the second air conditioner and the heat load of the second building of the environment where the air conditioner belongs are re-determined the indoor set temperature by iterative method.

在一个实施例中，所述控制单元确定第一空调制热量、以及空调所属环境的第一建筑热负荷，包括：获取用户所需恒温空间的温度为第一恒温温度，并获取室外环境温度和空调出风温度；根据所述第一恒温温度和所述室外环境温度计算建筑热负荷，并根据所述第一恒温温度和所述空调出风温度计算空调制热量。In one embodiment, the control unit determining the heating capacity of the first air conditioner and the first building heat load of the environment to which the air conditioner belongs includes: obtaining the temperature of the constant temperature space required by the user as the first constant temperature temperature, and obtaining the outdoor ambient temperature and Air conditioner outlet temperature; calculate the building heat load according to the first constant temperature temperature and the outdoor ambient temperature, and calculate the air conditioner heating capacity according to the first constant temperature temperature and the air conditioner outlet temperature.

在一个实施例中，所述控制单元重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，包括：获取假设的用户所需恒温空间的温度为第二恒温温度，并获取室外环境温度和空调出风温度；根据所述第二恒温温度和所述室外环境温度计算第二建筑热负荷，并根据所述第二恒温温度和所述空调出风温度计算第二空调制热量；其中，若所述第一空调制热量大于所述第一建筑热负荷，则所述第二恒温温度小于第一恒温温度；若所述第一空调制热量小于所述第一建筑热负荷，则所述第二恒温温度大于第一恒温温度。In an embodiment, the control unit re-determines the heating capacity of the second air conditioner and the second building heat load of the environment to which the air conditioner belongs, including: obtaining a hypothetical temperature of the constant temperature space required by the user as the second constant temperature temperature, and obtaining the outdoor Ambient temperature and air outlet temperature of the air conditioner; calculate the second building heat load according to the second constant temperature temperature and the outdoor ambient temperature, and calculate the second air conditioner heating capacity according to the second constant temperature temperature and the air outlet temperature of the air conditioner; Wherein, if the heating capacity of the first air conditioner is greater than the heat load of the first building, the second constant temperature temperature is lower than the first constant temperature temperature; if the heating capacity of the first air conditioner is less than the heat load of the first building, then The second constant temperature temperature is greater than the first constant temperature temperature.

在一个实施例中，还包括：所述确定单元，还用于确定在空调开机后是否已接收到用户选择的自适应模式；所述控制单元，还用于若确定在空调开机后已接收到用户选择的自适应模式，则直接按设定的自适应模式确定室内设定温度；所述控制单元，还用于若确定在空调开机后未接收到用户选择的自适应模式，则根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式；其中，所述记忆模式，包括：根据用户两次调节室内设定温度的时间差和室内温度差确定是否开启设定的自适应模式。In one embodiment, it further includes: the determining unit is further configured to determine whether the adaptive mode selected by the user has been received after the air conditioner is turned on; the control unit is further configured to determine whether the adaptive mode has been received after the air conditioner is turned on The adaptive mode selected by the user directly determines the indoor set temperature according to the set adaptive mode; the control unit is also used for determining that the adaptive mode selected by the user is not received after the air conditioner is turned on, then according to the air conditioner The stored information in the memory mode determines whether to turn on the set adaptive mode; wherein the memory mode includes: determining whether to turn on the set adaptive mode according to the time difference between the user adjusting the indoor set temperature twice and the indoor temperature difference.

在一个实施例中，所述控制单元根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式，包括：确定用户两次调节室内设定温度的时间差和室内温度差；确定所述时间差是否小于或等于设定时间阈值，并确定所述室内温度差是否小于或等于设定温度阈值；若所述时间差小于或等于所述设定时间阈值、且所述室内温度差小于或等于所述设定温度阈值，则发起提醒用户是否选择自适应模式的提醒消息，并在确定用户未选择自适应模式的情况下将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式；若所述时间差大于所述设定时间阈值、或所述室内温度差大于所述设定温度阈值，则将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。In an embodiment, the control unit determines whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner, including: determining the time difference and the indoor temperature difference between the user adjusting the indoor set temperature twice; determining the Whether the time difference is less than or equal to the set time threshold, and determine whether the indoor temperature difference is less than or equal to the set temperature threshold; if the time difference is less than or equal to the set time threshold, and the indoor temperature difference is less than or equal to If the set temperature threshold is stated, a reminder message is initiated to remind the user whether to select the adaptive mode, and when it is determined that the user has not selected the adaptive mode, each set time, each set temperature and each room temperature stored in the mode will be memorized Clear to enter a new memory mode; if the time difference is greater than the set time threshold, or the room temperature difference is greater than the set temperature threshold, the set times and settings stored in the memory mode The temperature and the temperature in each room are cleared to enter a new memory mode.

在一个实施例中，所述控制单元确定用户两次调节室内设定温度的时间差和室内温度差，包括：获取用户第一次调节所述室内设定温度的第一设定时间、第一设定温度、以及空调基于所述第一设定温度运行稳定后的第一室内温度，并获取用户第二次调节所述室内设定温度的第二设定时间、第二设定温度、以及空调基于所述第二设定温度运行稳定后的第二室内温度；确定所述第二设定时间与所述第一设定时间之间的时间差、以及所述第二室内温度与所述第一设定温度之间的室内温度差。In one embodiment, the control unit determining the time difference and the indoor temperature difference for the user to adjust the indoor set temperature twice includes: acquiring the first set time and the first set time for the user to adjust the indoor set temperature for the first time; The fixed temperature and the first indoor temperature after the air conditioner operates stably based on the first set temperature, and acquires the second set time, the second set temperature, and the air conditioner for the user to adjust the indoor set temperature for the second time The second indoor temperature after the operation is stabilized based on the second set temperature; the time difference between the second set time and the first set time, and the second indoor temperature and the first set time are determined The room temperature difference between the set temperatures.

与上述装置相匹配，本申请再一方面提供一种空调，包括：以上所述的室内设定温度的确定装置。In line with the above device, another aspect of the present application provides an air conditioner, which includes the above-mentioned device for determining the indoor set temperature.

与上述方法相匹配，本申请再一方面提供一种存储介质，包括：所述存储介质中存储有多条指令；所述多条指令，用于由处理器加载并执行以上所述的室内设定温度的确定方法。In line with the above method, another aspect of the present application provides a storage medium, including: a plurality of instructions are stored in the storage medium; and the plurality of instructions are used for loading and executing the aforementioned indoor equipment by a processor. The method of determining the temperature.

与上述方法相匹配，本申请再一方面提供一种空调，包括：处理器，用于执行多条指令；存储器，用于存储多条指令；其中，所述多条指令，用于由所述存储器存储，并由所述处理器加载并执行以上所述的室内设定温度的确定方法。In accordance with the above method, another aspect of the present application provides an air conditioner, which includes: a processor, configured to execute multiple instructions; a memory, configured to store multiple instructions; wherein, the multiple instructions are used by the The memory stores, and is loaded by the processor and executes the method for determining the indoor set temperature described above.

本申请的方案，通过在室内温度波动较大的情况下，根据建筑热负荷与空调器制热量相平衡原则确定空调的设定温度，可以减少用户频繁操作空调器的动作，提升空调的智能化程度。The solution of this application determines the set temperature of the air conditioner according to the principle of balancing the building heat load and the heating capacity of the air conditioner when the indoor temperature fluctuates greatly, which can reduce the user's frequent operation of the air conditioner and improve the intelligence of the air conditioner degree.

进一步，本申请的方案，通过在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度，可保证室内舒适性，提升用户体验。Furthermore, the solution of the present application allows the air conditioner to determine the set temperature through the "adaptive" function based on the principle of balancing the building heat load and the air conditioner's heating capacity on the user's volition, which can ensure indoor comfort and improve user experience.

进一步，本申请的方案，通过在室内温度波动较大的情况下，根据用户两次调节是呃逆温度的时间差和室内温度差确定空调的设定温度，可以提升用户使用的舒适性体验，并减少操作的繁琐性。Furthermore, the solution of the present application determines the set temperature of the air conditioner according to the time difference between the user's two adjustments to the hiccup temperature and the indoor temperature difference when the indoor temperature fluctuates greatly, which can improve the user's comfort experience and reduce The cumbersome operation.

进一步，本申请的方案，通过当空调器感应出用户频繁调节设定温度，导致室内温度波动较大时，在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度，减少用户频繁操作空调器的动作，实现空调器智能化。Furthermore, the solution of the present application, when the air conditioner senses that the user frequently adjusts the set temperature, which causes the indoor temperature to fluctuate greatly, and the user voluntarily, according to the principle of balancing the building heat load and the air conditioner heating capacity, the air conditioner The air conditioner determines the set temperature through the "adaptive" function, reduces the user's frequent operation of the air conditioner, and realizes the intelligentization of the air conditioner.

进一步，本申请的方案，通过在室内温度波动较大的情况下，根据建筑热负荷与空调器制热量相平衡原则确定空调的设定温度，或者根据用户两次调节是呃逆温度的时间差和室内温度差确定空调的设定温度，可以保证室内舒适性，并减少用户频繁操作空调器的动作，实现空调器智能化。Further, the solution of the present application determines the set temperature of the air conditioner according to the principle of balancing the building heat load and the heating capacity of the air conditioner when the indoor temperature fluctuates greatly, or according to the time difference between the user's two adjustments to the hiccup temperature and the indoor temperature The temperature difference determines the set temperature of the air conditioner, which can ensure indoor comfort, reduce the user's frequent operation of the air conditioner, and realize the intelligence of the air conditioner.

由此，本申请的方案，通过在室内温度波动较大的情况下，根据建筑热负荷与空调器制热量相平衡原则确定空调的设定温度，或者根据用户两次调节是呃逆温度的时间差和室内温度差确定空调的设定温度，解决解决用户根据室外温度频繁调节空调的设定温度使得用户感觉忽冷忽热而存在舒适性体验差的问题，从而，克服现有技术中操作过程繁琐、智能化程度低和用户体验差的缺陷，实现操作过程简单、智能化程度高和用户体验好的有益效果。Therefore, the solution of the present application determines the set temperature of the air conditioner according to the principle of balance between the building heat load and the heating capacity of the air conditioner when the indoor temperature fluctuates greatly, or according to the time difference between the user's two adjustments to the hiccup temperature and The indoor temperature difference determines the set temperature of the air conditioner, and solves the problem that users frequently adjust the set temperature of the air conditioner according to the outdoor temperature, so that the user feels hot and cold and there is a poor comfort experience, thereby overcoming the cumbersome operation process in the prior art. The defects of low intelligence and poor user experience achieve the beneficial effects of simple operation process, high intelligence and good user experience.

本申请的其它特征和优点将在随后的说明书中阐述，并且，部分地从说明书中变得显而易见，或者通过实施本申请而了解。Other features and advantages of the present application will be described in the following description, and partly become obvious from the description, or understood by implementing the present application.

下面通过附图和实施例，对本申请的技术方案做进一步的详细描述。The technical solutions of the present application will be further described in detail below through the drawings and embodiments.

附图说明Description of the drawings

图1为本申请的室内设定温度的确定方法的一实施例的流程示意图；FIG. 1 is a schematic flowchart of an embodiment of a method for determining an indoor set temperature according to this application;

图2为本申请的方法中确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值的一实施例的流程示意图；2 is a schematic flowchart of an embodiment of the method of the present application for determining whether the fluctuation of the indoor ambient temperature within a set time period reaches a set fluctuation threshold;

图3为本申请的方法中按设定的自适应模式确定室内设定温度的一实施例的流程示意图；FIG. 3 is a schematic flowchart of an embodiment of determining an indoor set temperature according to a set adaptive mode in the method of this application;

图4为本申请的方法中确定空调制热量、以及空调所属环境的建筑热负荷的一实施例的流程示意图；4 is a schematic flowchart of an embodiment of determining the heating capacity of the air conditioner and the building heat load of the environment to which the air conditioner belongs in the method of this application;

图5为本申请的方法中重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷的一实施例的流程示意图；FIG. 5 is a schematic flowchart of an embodiment of re-determining the heating capacity of the second air conditioner and the second building heat load of the environment to which the air conditioner belongs in the method of this application;

图6为本申请的方法中确定是否按设定的自适应模式确定室内设定温度的一实施例的流程示意图；6 is a schematic flowchart of an embodiment of determining whether to determine the indoor set temperature according to the set adaptive mode in the method of the present application;

图7为本申请的方法中根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式的一实施例的流程示意图；FIG. 7 is a schematic flowchart of an embodiment of determining whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner in the method of the present application;

图8为本申请的方法中确定用户两次调节室内设定温度的时间差和室内温度差的一实施例的流程示意图；FIG. 8 is a schematic flowchart of an embodiment of determining the time difference and the indoor temperature difference between the user adjusting the indoor set temperature twice in the method of this application;

图9为本申请的室内设定温度的确定装置的一实施例的结构示意图；FIG. 9 is a schematic structural diagram of an embodiment of a device for determining an indoor set temperature of the present application;

图10为全天24h房间设定温度、室内温度和室外温度随时间变化曲线示意图；Figure 10 is a schematic diagram of the change curve of the room set temperature, indoor temperature and outdoor temperature with time for 24 hours a day;

图11为本申请的空调的一实施例的设定温度自适应的空调器控制策略的实现流程示意图；FIG. 11 is a schematic diagram of an implementation flow chart of an air conditioner control strategy with adaptive set temperature according to an embodiment of the air conditioner of this application;

图12为本申请的空调的一实施例的自适应确定设定温度的方法流程示意图。FIG. 12 is a schematic flowchart of a method for adaptively determining a set temperature of an embodiment of the air conditioner of the application.

结合附图，本申请实施例中附图标记如下：With reference to the drawings, the reference signs in the embodiments of this application are as follows:

102-确定单元；104-控制单元。102-determining unit; 104-control unit.

具体实施方式Detailed ways

为使本申请的目的、技术方案和优点更加清楚，下面将结合本申请具体实施例及相应的附图对本申请技术方案进行清楚、完整地描述。显然，所描述的实施例仅是本申请一部分实施例，而不是全部的实施例。基于本申请中的实施例，本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例，都属于本申请保护的范围。In order to make the purpose, technical solutions, and advantages of the present application clearer, the technical solutions of the present application will be described clearly and completely in conjunction with specific embodiments of the present application and the corresponding drawings. Obviously, the described embodiments are only a part of the embodiments of the present application, rather than all the embodiments. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of this application.

根据本申请的实施例，提供了一种室内设定温度的确定方法，如图1所示本申请的方法的一实施例的流程示意图。该室内设定温度的确定方法可以包括：步骤S110和步骤S120。According to an embodiment of the present application, a method for determining an indoor set temperature is provided, as shown in FIG. 1 is a schematic flowchart of an embodiment of the method of the present application. The method for determining the indoor set temperature may include: step S110 and step S120.

在步骤S110处，确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值。At step S110, it is determined whether the fluctuation of the indoor ambient temperature within a set time period reaches a set fluctuation threshold.

在一个实施例中，可以结合图2所示本申请的方法中确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值的一实施例流程示意图，进一步说明步骤S110中确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值的具体过程，可以包括：步骤S210至步骤S230。In an embodiment, the method of the present application shown in FIG. 2 may be combined with a schematic flow chart of an embodiment of determining whether the fluctuation of the indoor environment temperature within a set period of time reaches the set fluctuation threshold, and further illustrate the determination of the indoor environment in step S110 The specific process of whether the fluctuation of the temperature within the set time period reaches the set fluctuation threshold may include: step S210 to step S230.

步骤S210，在设定时长内按设定时间间隔获取两个以上室内环境温度。Step S210: Obtain two or more indoor ambient temperatures at a set time interval within a set time period.

步骤S220，确定两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值是否大于或等于设定波动阈值。In step S220, it is determined whether the absolute value of the difference between every two adjacent indoor ambient temperatures in the two or more indoor ambient temperatures is greater than or equal to a set fluctuation threshold.

步骤S230，若两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值中，有设定数量个绝对值大于或等于设定波动阈值，则确定室内环境温度在设定时长内的波动情况达到设定波动阈值。In step S230, if there are a set number of absolute values of the difference between every two adjacent indoor ambient temperatures in the two or more indoor ambient temperatures, the absolute value is greater than or equal to the set fluctuation threshold, then the indoor ambient temperature is determined The fluctuation within the set time period reaches the set fluctuation threshold.

由此，通过在设定时长内按设定时间间隔获取的两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值中，有设定数量个绝对值大于或等于设定波动阈值，确定室内环境温度在设定时长内的波动情况达到设定波动阈值，使得对室内环境温度的波动情况的确定精准而可靠。Therefore, among the absolute values of the difference between every two adjacent indoor ambient temperatures in two or more indoor ambient temperatures acquired at a set time interval within a set time period, there are a set number of absolute values greater than Or equal to the set fluctuation threshold, it is determined that the fluctuation of the indoor ambient temperature within the set time reaches the set fluctuation threshold, so that the determination of the fluctuation of the indoor ambient temperature is accurate and reliable.

在步骤S120处，若所述波动情况达到所述设定波动阈值，则按设定的自适应模式确定室内设定温度。At step S120, if the fluctuation situation reaches the set fluctuation threshold, the indoor set temperature is determined according to the set adaptive mode.

其中，所述自适应模式，可以包括：根据建筑热负荷与空调器制热量相平衡原则确定室内设定温度。Wherein, the adaptive mode may include: determining the indoor set temperature according to the principle of balancing the building heat load and the heat generated by the air conditioner.

例如：当空调器感应出用户频繁调节设定温度，导致室内温度波动较大时，在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度。从而，一方面可保证室内舒适性，解决空调器舒适性差的问题；另一方面减少用户频繁操作空调器的动作，实现空调器智能化，解决用户需根据室外温度变化频繁调节设定温度而显得空调器不够智能的问题。For example: when the air conditioner senses that the user frequently adjusts the set temperature, which causes the indoor temperature to fluctuate greatly, the user will make the air conditioner "adaptive" according to the principle of balancing the building heat load and the air conditioner's heating capacity on the user's volition. Function to determine the set temperature. Therefore, on the one hand, it can ensure indoor comfort and solve the problem of poor comfort of the air conditioner; on the other hand, it can reduce the user's frequent operation of the air conditioner, realize the intelligence of the air conditioner, and solve the problem that users need to frequently adjust the set temperature according to outdoor temperature changes. The air conditioner is not smart enough.

由此，通过在室内环境温度在设定时长内的波动情况达到设定波动阈值的情况下，根据建筑热负荷与空调器制热量相平衡原则确定室内设定温度，实现对室内设定温度的自适应设置，减少了用户的频繁操作，也提升了室内舒适性。Therefore, when the fluctuation of the indoor ambient temperature within the set period of time reaches the set fluctuation threshold, the indoor set temperature is determined according to the principle of balance between the building heat load and the heating capacity of the air conditioner, and the indoor set temperature is achieved. The self-adaptive setting reduces the user's frequent operation and also improves the indoor comfort.

在一个实施例中，可以结合图3所示本申请的方法中按设定的自适应模式确定室内设定温度的一实施例流程示意图，进一步说明步骤S120中按设定的自适应模式确定室内设定温度的具体过程，可以包括：步骤S310至步骤S330。In an embodiment, the flow chart of an embodiment of determining the indoor set temperature according to the set adaptive mode in the method of the present application shown in FIG. 3 can be combined to further illustrate that the indoor set temperature is determined according to the set adaptive mode in step S120. The specific process of setting the temperature may include: step S310 to step S330.

步骤S310，确定第一空调制热量、以及空调所属环境的第一建筑热负荷。例如：确定第一空调制热量，并确定空调所属环境的第一建筑热负荷。Step S310: Determine the heating capacity of the first air conditioner and the heat load of the first building of the environment to which the air conditioner belongs. For example: determine the heating capacity of the first air conditioner, and determine the heat load of the first building of the environment where the air conditioner belongs.

在一个实施例中，可以结合图4所示本申请的方法中确定空调制热量、以及空调所属环境的建筑热负荷的一实施例流程示意图，进一步说明步骤S310中确定空调制热量、以及空调所属环境的建筑热负荷的具体过程，可以包括：步骤S410和步骤S420。In an embodiment, the method of the present application shown in FIG. 4 may be combined with a schematic flow chart of an embodiment of determining the air-conditioning heating capacity and the building heat load of the environment where the air-conditioning belongs to further illustrate the determination of the air-conditioning heating capacity and the air-conditioning in step S310. The specific process of the building heat load of the environment may include: step S410 and step S420.

步骤S410，获取用户所需恒温空间的温度为第一恒温温度(如获取假设的用户所需恒温空间的温度为第一恒温温度)，并获取室外环境温度和空调出风温度。Step S410: Obtain the temperature of the constant temperature space required by the user as the first constant temperature temperature (for example, obtain the hypothetical temperature of the constant temperature space required by the user as the first constant temperature temperature), and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner.

步骤S420，根据所述第一恒温温度和所述室外环境温度计算建筑热负荷，并根据所述第一恒温温度和所述空调出风温度计算空调制热量。Step S420: Calculate the building heat load according to the first constant temperature temperature and the outdoor ambient temperature, and calculate the air conditioning heating capacity according to the first constant temperature temperature and the air outlet temperature of the air conditioner.

例如：空调器首先假设用户所需恒温空间为T _恒温1，根据T _恒温1、T _室外计算建筑热负荷Q _热负荷1，根据T _恒温1、T _出风计算空调器制热量Q _制热量1，若|Q _制热量1-Q _热负荷1|≤ε，则T _恒温1为最终确定的设定温度T _设。 For example: the air conditioner is first assumed that a user desired temperature space _temperature T _1, the _temperature T _1, T building _outdoor heat load calculated _{thermal load} Q _1, Q _{heat capacity} heating capacity according to _a _temperature T _1, T _{an air} conditioner is calculated, If |Q _{heating capacity 1} -Q _{heating load 1} |≤ε, T _{constant temperature 1} is the final set temperature T _set .

由此，通过根据用户所需恒温空间的温度为第一恒温温度和室外环境温度计算建筑热负荷，并根据该第一恒温温度和空调出风温度计算空调制热量，使得对建筑热负荷和空调制热量的获取便捷且精准。Therefore, the heat load of the building is calculated according to the temperature of the constant temperature space required by the user as the first constant temperature temperature and the outdoor ambient temperature, and the heating capacity of the air conditioner is calculated according to the first constant temperature temperature and the air outlet temperature of the air conditioner, so that the heat load and the air conditioner The heating capacity is easy and accurate.

步骤S320，确定所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值是否小于或等于设定负荷阈值。Step S320: Determine whether the absolute value of the difference between the heating capacity of the first air conditioner and the heat load of the first building is less than or equal to a set load threshold.

步骤S330，若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值小于或等于设定负荷阈值，则确定与所述第一空调制热量和所述第一建筑热负荷均相关的用户所需恒温空间的第一恒温温度为室内设定温度。Step S330: If the absolute value of the difference between the first air-conditioning heating capacity and the first building's heat load is less than or equal to the set load threshold, determine the difference between the first air-conditioning heating capacity and the first building's heating load. The first constant temperature temperature of the constant-temperature space required by users with all related building heat loads is the indoor set temperature.

或者，步骤S340，若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值大于设定负荷阈值，则重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，并根据重新确定的第二空调制热量、以及空调所属环境的第二建筑热负荷按迭代法重新确定室内设定温度。Alternatively, in step S340, if the absolute value of the difference between the heating capacity of the first air conditioner and the heat load of the first building is greater than the set load threshold, the second air conditioner heating capacity and the second air conditioner's environment are determined again. 2. Building heat load, and re-determine the indoor set temperature according to the re-determined second air-conditioning heating capacity and the second building heat load of the environment where the air-conditioning belongs according to the iteration method.

例如：空调器首先假设用户所需恒温空间为T _恒温1，根据T _恒温1、T _室外计算建筑热负荷Q _热负荷1，根据T _恒温1、T _出风计算空调器制热量Q _制热量1，若|Q _制热量1-Q _热负荷1|＞ε，则按照迭代法最终确认用户所需恒温空间为T _恒温n，使得|Q _制热量n-Q _热负荷n|≤ε，则T _恒温n为最终确定的设定温度T _设。 For example: the air conditioner is first assumed that a user desired temperature space _temperature T _1, the _temperature T _1, T building _outdoor heat load calculated _{thermal load} Q _1, Q _{heat capacity} heating capacity according to _a _temperature T _1, T _{an air} conditioner is calculated, If |Q _{heating capacity 1-} Q _{heating load 1} |> ε, the constant temperature space required by the user is finally confirmed as T _{constant temperature n} according to the iterative method, so that |Q _{heating capacity n-} Q _{heating load n} |≤ε, then T _{constant temperature n} the set temperature T _set finally determined.

由此，通过确定空调制热量和建筑热负荷，并根据空调制热量和建筑热负荷确定室内设定温度，使得对室内设定温度的确定精准而可靠，有利于提升室内舒适性。Therefore, by determining the air conditioning heating capacity and building heat load, and determining the indoor setting temperature according to the air conditioning heating capacity and building heating load, the determination of the indoor setting temperature is accurate and reliable, which is conducive to improving indoor comfort.

在一个实施例中，可以结合图5所示本申请的方法中重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷的一实施例流程示意图，进一步说明步骤S340中重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷的具体过程，可以包括：步骤S510和步骤S520。In an embodiment, the flow chart of an embodiment of redefining the heating capacity of the second air conditioner and the second building heat load of the environment where the air conditioner belongs in the method of the present application shown in FIG. Second, the specific process of the heat generated by the air conditioner and the heat load of the second building of the environment to which the air conditioner belongs may include: step S510 and step S520.

步骤S510，获取假设的用户所需恒温空间的温度为第二恒温温度，并获取室外环境温度和空调出风温度。Step S510: Obtain the assumed temperature of the constant temperature space required by the user as the second constant temperature temperature, and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner.

步骤S520，根据所述第二恒温温度和所述室外环境温度计算第二建筑热负荷，并根据所述第二恒温温度和所述空调出风温度计算第二空调制热量。Step S520: Calculate the second building heat load according to the second constant temperature temperature and the outdoor ambient temperature, and calculate the second air conditioning heating capacity according to the second constant temperature temperature and the air outlet temperature of the air conditioner.

其中，若所述第一空调制热量大于所述第一建筑热负荷，则所述第二恒温温度小于第一恒温温度。若所述第一空调制热量小于所述第一建筑热负荷，则所述第二恒温温度大于第一恒温温度。Wherein, if the heating capacity of the first air conditioner is greater than the heat load of the first building, the second constant temperature temperature is less than the first constant temperature temperature. If the heating capacity of the first air conditioner is less than the heat load of the first building, the second constant temperature temperature is greater than the first constant temperature temperature.

例如：首先假设用户所需恒温空间为T _恒温1，根据T _恒温1、T _室外计算建筑热负荷Q _热负荷 ₁，根据T _恒温1、T _出风计算空调器制热量Q _制热量1，若Q _制热量1>Q _热负荷1，假设用户所需恒温空间为T _恒温2，T _恒温2<T _恒温1；若Q _制热量1<Q _热负荷1，T _恒温2>T _恒温1。 For example: First, assume the desired temperature space _temperature T ₁ of the user, according to _temperature T _1, T building _outdoor heat load Q calculated _{thermal load} _1, the _temperature T _1, T _wind _{heating capacity} Q ₁ calculated heating capacity of the air conditioner, if Q _{Heating capacity 1} > Q _{heating load 1} , assuming that the constant temperature space required by the user is T _{constant temperature 2} , T _{constant temperature 2} <T _{constant temperature 1} ; if Q _{heating capacity 1} <Q _{heating load 1} , T _{constant temperature 2} > T _{constant temperature 1} .

由此，通过根据第一空调制热量和第一建筑热负荷之间的大小关系，重新确定第二建筑热负荷和第二空调制热量，进而重新确定室内设定温度，以便找到更加精准的室内设定温度，更好地提升室内舒适性。Therefore, by re-determining the second building’s heat load and the second air-conditioning’s heating capacity based on the relationship between the first air-conditioning heating capacity and the first building’s heating load, and then re-determining the indoor set temperature in order to find a more accurate indoor Set the temperature to better improve indoor comfort.

在一个实施方式中，还可以包括：确定是否按设定的自适应模式确定室内设定温度的过程。In an embodiment, it may further include a process of determining whether to determine the indoor set temperature according to the set adaptive mode.

下面结合图6所示本申请的方法中确定是否按设定的自适应模式确定室内设定温度的一实施例流程示意图，进一步说明确定是否按设定的自适应模式确定室内设定温度的具体过程，可以包括：步骤S610至步骤S630。The following describes the specific process of determining whether to determine the indoor set temperature according to the set adaptive mode in the method of the present application shown in FIG. 6 The process may include: step S610 to step S630.

步骤S610，确定在空调开机后是否已接收到用户选择的自适应模式。In step S610, it is determined whether the adaptive mode selected by the user has been received after the air conditioner is turned on.

步骤S620，若确定在空调开机后已接收到用户选择的自适应模式，则直接按设定的自适应模式确定室内设定温度。In step S620, if it is determined that the adaptive mode selected by the user has been received after the air conditioner is turned on, the set indoor temperature is directly determined according to the set adaptive mode.

例如：空调器开机后，若用户选择“自适应”功能，则空调器直接按照“自适应”方法确定设定温度。For example: after the air conditioner is turned on, if the user selects the "adaptive" function, the air conditioner directly determines the set temperature according to the "adaptive" method.

例如：若用户选择“自适应”功能，则根据“自适应”功能确定设定温度，之后空调器记忆清零，重新记忆。For example: if the user selects the "adaptive" function, the set temperature is determined according to the "adaptive" function, and then the air conditioner memory is cleared and re-memorized.

或者，步骤S630，若确定在空调开机后未接收到用户选择的自适应模式，则根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式。其中，所述记忆模式，可以包括：根据用户两次调节室内设定温度的时间差和室内温度差确定是否开启设定的自适应模式。Alternatively, in step S630, if it is determined that the adaptive mode selected by the user is not received after the air conditioner is turned on, it is determined whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner. Wherein, the memory mode may include: an adaptive mode for determining whether to turn on the setting according to the time difference between the user adjusting the indoor set temperature twice and the indoor temperature difference.

例如：在空调开机后，或者在所述波动情况达到所述设定波动阈值的情况下，可以发出是否按设定的自适应模式对室内设定温度进行自适应设定的确定指令。若所述确定指令的反馈结果可以包括所述自适应模式(即对所述室内温度进行自适应设定的自适应模式)，则按设定的自适应模式确定室内设定温度。若所述确定指令的反馈结果未可以包括所述自适应模式，则根据用户两次调节室内设定温度的时间差和室内温度差确定是否开启设定的自适应模式。For example: after the air conditioner is turned on, or when the fluctuation situation reaches the set fluctuation threshold, a determination instruction may be issued whether to adaptively set the indoor set temperature according to the set adaptive mode. If the feedback result of the determination instruction may include the adaptive mode (that is, the adaptive mode for adaptively setting the indoor temperature), the indoor set temperature is determined according to the set adaptive mode. If the feedback result of the determination instruction cannot include the adaptive mode, it is determined whether to turn on the set adaptive mode according to the time difference between the user adjusting the indoor set temperature twice and the indoor temperature difference.

又如：发出对室内设定温度是否进行确定的确定指令。根据所述确定指令的反馈结果对所述室内设定温度进行确定。例如：根据用户基于所述确定指令的反馈结果，对所述室内设定温度进行确定。其中，所述反馈结果，可以包括：根据建筑热负荷与空调器制热量相平衡原则确定所述室内设定温度的自适应模式，或根据用户两次调节室内设定温度的时间差和室内温度差确定所述室内设定温度的记忆模式。Another example: issuing a confirming instruction to determine whether the indoor set temperature is determined. The indoor set temperature is determined according to the feedback result of the determination instruction. For example: according to the user's feedback result based on the determination instruction, the indoor set temperature is determined. Wherein, the feedback result may include: determining the adaptive mode of the indoor set temperature according to the principle of balancing the building heat load and the heating capacity of the air conditioner, or according to the time difference between the user's two adjustments to the indoor set temperature and the indoor temperature difference Determine the memory mode of the indoor set temperature.

由此，通过在空调开后用户是否选择自适应模式，而在需要启动自适应模式时根据用户需求选择性启动，可以满足用户对空调的控制需求，灵活且人性化好。Therefore, by whether the user selects the adaptive mode after the air conditioner is turned on, and selectively starts the adaptive mode according to the user's needs when the adaptive mode needs to be activated, the user's control requirements for the air conditioner can be met, which is flexible and user-friendly.

在一个实施例中，可以结合图7所示本申请的方法中根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式的一实施例流程示意图，进一步说明步骤S630中根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式的具体过程，可以包括：步骤S710至步骤S740。In an embodiment, the flow chart of an embodiment of determining whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner in the method of the present application shown in FIG. 7 can be further described in step S630. The specific process of determining whether to enable the set adaptive mode by storing information in the memory mode may include: step S710 to step S740.

步骤S710，确定用户两次调节室内设定温度的时间差和室内温度差。Step S710: Determine the time difference and the indoor temperature difference between the user adjusting the indoor set temperature twice.

在一个实施例中，可以结合图8所示本申请的方法中确定用户两次调节室内设定温度的时间差和室内温度差的一实施例流程示意图，进一步说明步骤S710中确定用户两次调节室内设定温度的时间差和室内温度差的具体过程，可以包括：步骤S810和步骤S820。In an embodiment, the method of the present application shown in FIG. 8 may be combined with a schematic flowchart of an embodiment of determining the time difference between the user's two adjustments to the indoor set temperature and the indoor temperature difference to further illustrate the step S710 that the user is determined to adjust the indoor temperature twice. The specific process of setting the time difference of the temperature and the indoor temperature difference may include: step S810 and step S820.

步骤S810，获取用户第一次调节所述室内设定温度的第一设定时间、第一设定温度、以及空调基于所述第一设定温度运行稳定后的第一室内温度，并获取用户第二次调节所述室内设定温度的第二设定时间、第二设定温度、以及空调基于所述第二设定温度运行稳定后的第二室内温度。Step S810: Obtain the first set time for the user to adjust the indoor set temperature for the first time, the first set temperature, and the first indoor temperature after the air conditioner operates stably based on the first set temperature, and obtain the user A second set time for adjusting the indoor set temperature for the second time, a second set temperature, and a second indoor temperature after the air conditioner operates stably based on the second set temperature.

步骤S820，确定所述第二设定时间与所述第一设定时间之间的时间差、以及所述第二室内温度与所述第一设定温度之间的室内温度差。Step S820: Determine the time difference between the second set time and the first set time, and the indoor temperature difference between the second indoor temperature and the first set temperature.

由此，通过获取用户两次调节室内设定温度的时间、设定温度以及空调运行稳定后的室内温度，进而确定用户两次调节室内设定温度的时间差和室内温度差，使得对用户两次调节室内设定温度的时间差和室内温度差的确定精准且可靠，有利于对是否启动自适应模式的判断精准而可靠。Thus, by obtaining the time for the user to adjust the indoor set temperature twice, the set temperature, and the indoor temperature after the air conditioner is stable, the time difference and the indoor temperature difference between the user's two adjustments to the indoor set temperature are determined, so that the user is twice The determination of the time difference between adjusting the indoor set temperature and the indoor temperature difference is accurate and reliable, which is conducive to accurate and reliable judgment of whether to activate the adaptive mode.

步骤S720，确定所述时间差是否小于或等于设定时间阈值，并确定所述室内温度差是否小于或等于设定温度阈值。Step S720: Determine whether the time difference is less than or equal to a set time threshold, and determine whether the indoor temperature difference is less than or equal to a set temperature threshold.

步骤S730，若所述时间差小于或等于所述设定时间阈值、且所述室内温度差小于或等于所述设定温度阈值，则发起提醒用户是否选择自适应模式的提醒消息，并在确定用户未选择自适应模式的情况下将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。Step S730, if the time difference is less than or equal to the set time threshold, and the room temperature difference is less than or equal to the set temperature threshold, initiate a reminder message to remind the user whether to select the adaptive mode, and confirm the user If the adaptive mode is not selected, the setting time, the setting temperature, and the room temperature stored in the memory mode are cleared to zero and the new memory mode is entered.

例如：空调器根据记忆功能记忆第一次用户调节设定温度的时间t ₁、设定温度T _设1、稳定后室内温度T _内1，之后记忆用户第二次调节设定温度的时间t ₂、设定温度T _设2、稳定后室内温度T _内2，计算两次调节室内温度的时间差△t _2-1＝t ₂-t ₁和室内温度差△T _内(2-1)＝T _内2-T _内1，并将△t _2-1和△T _内(2-1)分别与第一预设阈值△t和第二预设阈值△T _内相比较，若△t _2-1≤△t，且△T _内(2-1)≤△T _内，则通过使遥控器“自适应”功能键闪烁，提醒用户是否选择“自适应”功能，若用户并非选择“自适应”功能，则空调器记忆清零，重新记忆。 For example: according to the memory function, the air conditioner memorizes the first time the user adjusts the set temperature t ₁ , the set temperature T _{is set to 1} , and the stable indoor temperature T _{is 1} , and then the second time t _{2 for the} user to adjust the set temperature 、Set the set temperature T to ₂ and the stable indoor temperature T _{to 2} , calculate the time difference between two adjustments of the indoor temperature △t _2-1 ＝t ₂ -t ₁ and the indoor temperature difference △T_内(2-1) ＝T_内 _1, and △ t and _(2-1) are compared with _a first preset threshold value and a second predetermined threshold △ t △ T value _within _the ₂ -T _2-1 △ T, when △ t _2-1 ≤ △ t, _the _inner and △ T _(2-1) ≤ △ T, by making the remote control "adaptation" function key flashes to alert whether the user selects an "adaptive", if the user does not select the "adaptation" function, Then the air conditioner memory is cleared and re-memorized.

或者，步骤S740，若所述时间差大于所述设定时间阈值、或所述室内温度差大于所述设定温度阈值，则将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。Alternatively, in step S740, if the time difference is greater than the set time threshold, or the room temperature difference is greater than the set temperature threshold, then the set time, set temperature, and room temperature stored in the memory mode are stored The temperature is cleared to enter a new memory mode.

例如：若△t _2-1>△t，或者△T _内(2-1)>△T _内，则空调器记忆清零，重新记忆。 For example: if △ t _2-1> △ t, △ T or _{within (2-1)>} _the △ T, the air conditioner memory is cleared, the memory again.

由此，通过根据用户两次调节室内设定温度的时间差和室内温度差确定是否需要启动自适应模式，从而在用户允许的情况下根据自适应模式确定室内设定温度从而提升室内舒适性，既满足了用户的控制需求，也满足了用户的舒适性需求，可靠性高、且人性化好。Therefore, by determining whether the adaptive mode needs to be activated according to the time difference between the user's two adjustments of the indoor set temperature and the indoor temperature difference, the indoor set temperature is determined according to the adaptive mode with the user's permission, thereby improving indoor comfort, both It satisfies the user's control requirements and also meets the user's comfort requirements, with high reliability and good humanization.

经大量的试验验证，采用本实施例的技术方案，通过在室内温度波动较大的情况下，根据建筑热负荷与空调器制热量相平衡原则确定空调的设定温度，可以减少用户频繁操作空调器的动作，提升空调的智能化程度。After a large number of experiments, the technical solution of this embodiment is adopted to determine the set temperature of the air conditioner according to the principle of balancing the building heat load and the heating capacity of the air conditioner when the indoor temperature fluctuates greatly, which can reduce users' frequent operation of the air conditioner The action of the air conditioner improves the intelligence of the air conditioner.

根据本申请的实施例，还提供了对应于室内设定温度的确定方法的一种室内设定温度的确定装置。参见图9所示本申请的装置的一实施例的结构示意图。该室内设定温度的确定装置可以包括：确定单元102和控制单元104。According to an embodiment of the present application, a device for determining an indoor set temperature corresponding to a method for determining an indoor set temperature is also provided. See FIG. 9 for a schematic structural diagram of an embodiment of the device of the present application. The device for determining the indoor set temperature may include: a determining unit 102 and a control unit 104.

在一个实施例中，确定单元102，可以用于确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值。该确定单元102的具体功能及处理参见步骤S110。In one embodiment, the determining unit 102 may be used to determine whether the fluctuation of the indoor ambient temperature within a set period of time reaches a set fluctuation threshold. For specific functions and processing of the determining unit 102, refer to step S110.

在一个实施例中，所述确定单元102确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值，可以包括：In an embodiment, the determining unit 102 determines whether the fluctuation of the indoor ambient temperature within a set time period reaches a set fluctuation threshold, which may include:

所述确定单元102，具体还可以用于在设定时长内按设定时间间隔获取两个以上室内环境温度。该确定单元102的具体功能及处理还参见步骤S210。The determining unit 102 may also be specifically configured to obtain two or more indoor ambient temperatures at a set time interval within a set time period. See also step S210 for the specific function and processing of the determining unit 102.

所述确定单元102，具体还可以用于确定两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值是否大于或等于设定波动阈值。该确定单元102的具体功能及处理还参见步骤S220。The determining unit 102 may also be specifically configured to determine whether the absolute value of the difference between every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures is greater than or equal to a set fluctuation threshold. The specific function and processing of the determining unit 102 also refer to step S220.

所述确定单元102，具体还可以用于若两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值中，有设定数量个绝对值大于或等于设定波动阈值，则确定室内环境温度在设定时长内的波动情况达到设定波动阈值。该确定单元102的具体功能及处理还参见步骤S230。The determining unit 102 may also be specifically used if there are a set number of absolute values of the difference between every two adjacent indoor ambient temperatures in two or more indoor ambient temperatures, which is greater than or equal to the set absolute value. Fluctuation threshold, it is determined that the fluctuation of the indoor ambient temperature within the set time period reaches the set fluctuation threshold. For the specific function and processing of the determining unit 102, refer to step S230.

在一个实施例中，控制单元104，可以用于若所述波动情况达到所述设定波动阈值，则按设定的自适应模式确定室内设定温度。该控制单元104的具体功能及处理参见步骤S120。In an embodiment, the control unit 104 may be configured to determine the indoor set temperature according to the set adaptive mode if the fluctuation situation reaches the set fluctuation threshold. Refer to step S120 for specific functions and processing of the control unit 104.

其中，所述自适应模式，可以包括：根据建筑热负荷与空调器制热量相平衡原则确定室内设定温度。Wherein, the adaptive mode may include: determining the indoor set temperature according to the principle of balancing the building heat load and the air conditioner heating capacity.

在一个实施例中，所述控制单元104按设定的自适应模式确定室内设定温度，具体可以包括：In an embodiment, the control unit 104 determines the indoor set temperature according to the set adaptive mode, which may specifically include:

所述控制单元104，具体还可以用于确定第一空调制热量、以及空调所属环境的第一建筑热负荷。该控制单元104的具体功能及处理还参见步骤S310。The control unit 104 may also be specifically used to determine the heating capacity of the first air conditioner and the first building heat load of the environment to which the air conditioner belongs. For specific functions and processing of the control unit 104, refer to step S310.

在一个实施例中，所述控制单元104确定第一空调制热量、以及空调所属环境的第一建筑热负荷，可以包括：In an embodiment, the control unit 104 determining the heating capacity of the first air conditioner and the first building heat load of the environment to which the air conditioner belongs may include:

所述控制单元104，具体还可以用于获取用户所需恒温空间的温度为第一恒温温度，并获取室外环境温度和空调出风温度。该控制单元104的具体功能及处理还参见步骤S410。The control unit 104 may also be specifically used to obtain the temperature of the constant temperature space required by the user as the first constant temperature temperature, and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner. For specific functions and processing of the control unit 104, refer to step S410.

所述控制单元104，具体还可以用于根据所述第一恒温温度和所述室外环境温度计算建筑热负荷，并根据所述第一恒温温度和所述空调出风温度计算空调制热量。该控制单元104的具体功能及处理还参见步骤S420。The control unit 104 may also be specifically configured to calculate the building heat load based on the first constant temperature temperature and the outdoor ambient temperature, and calculate the air conditioning heating capacity based on the first constant temperature temperature and the air outlet temperature of the air conditioner. For specific functions and processing of the control unit 104, refer to step S420.

所述控制单元104，具体还可以用于确定所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值是否小于或等于设定负荷阈值。该控制单元104的具体功能及处理还参见步骤S320。The control unit 104 may also be specifically configured to determine whether the absolute value of the difference between the heating capacity of the first air conditioner and the thermal load of the first building is less than or equal to a set load threshold. For specific functions and processing of the control unit 104, refer to step S320.

所述控制单元104，具体还可以用于若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值小于或等于设定负荷阈值，则确定与所述第一空调制热量和所述第一建筑热负荷均相关的用户所需恒温空间的第一恒温温度为室内设定温度。该控制单元104的具体功能及处理还参见步骤S330。The control unit 104 may also be specifically configured to determine whether the absolute value of the difference between the heating capacity of the first air conditioner and the heat load of the first building is less than or equal to a set load threshold The first constant temperature temperature of the constant temperature space required by the user, which is related to the heating capacity of the air conditioner and the heat load of the first building, is the indoor set temperature. For specific functions and processing of the control unit 104, refer to step S330.

或者，所述控制单元104，具体还可以用于若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值大于设定负荷阈值，则重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，并根据重新确定的第二空调制热量、以及空调所属环境的第二建筑热负荷按迭代法重新确定室内设定温度。该控制单元104的具体功能及处理还参见步骤S340。Alternatively, the control unit 104 may be specifically configured to re-determine the second air-conditioning system if the absolute value of the difference between the heating capacity of the first air-conditioning system and the thermal load of the first building is greater than a set load threshold. The heat and the second building heat load of the environment where the air conditioner belongs, and the indoor set temperature is re-determined according to the iterative method according to the newly determined second air conditioning heating capacity and the second building heat load of the environment where the air conditioner belongs. For specific functions and processing of the control unit 104, refer to step S340.

更在一个实施例中，所述控制单元104重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，可以包括：In an embodiment, the control unit 104 re-determining the heating capacity of the second air conditioner and the second building heat load of the environment to which the air conditioner belongs may include:

所述控制单元104，具体还可以用于获取假设的用户所需恒温空间的温度为第二恒温温度，并获取室外环境温度和空调出风温度。该控制单元104的具体功能及处理还参见步骤S510。The control unit 104 may also be specifically used to obtain the hypothetical temperature of the constant temperature space required by the user as the second constant temperature temperature, and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner. For specific functions and processing of the control unit 104, refer to step S510.

所述控制单元104，具体还可以用于根据所述第二恒温温度和所述室外环境温度计算第二建筑热负荷，并根据所述第二恒温温度和所述空调出风温度计算第二空调制热量。该控制单元104的具体功能及处理还参见步骤S520。The control unit 104 may also be specifically configured to calculate a second building heat load based on the second constant temperature temperature and the outdoor ambient temperature, and calculate a second air conditioner based on the second constant temperature temperature and the air outlet temperature of the air conditioner Heating capacity. For the specific functions and processing of the control unit 104, refer to step S520.

在一个实施例中，还可以包括：确定是否按设定的自适应模式确定室内设定温度的过程，具体可以如下：In an embodiment, it may further include: determining whether to determine the indoor set temperature according to the set adaptive mode, which may be specifically as follows:

所述确定单元102，还可以用于确定在空调开机后是否已接收到用户选择的自适应模式。该确定单元102的具体功能及处理还参见步骤S610。The determining unit 102 may also be used to determine whether the adaptive mode selected by the user has been received after the air conditioner is turned on. For the specific function and processing of the determining unit 102, refer to step S610.

所述控制单元104，还可以用于若确定在空调开机后已接收到用户选择的自适应模式，则直接按设定的自适应模式确定室内设定温度。该控制单元104的具体功能及处理还参见步骤S620。The control unit 104 may also be used to directly determine the indoor set temperature according to the set adaptive mode if it is determined that the adaptive mode selected by the user has been received after the air conditioner is turned on. See also step S620 for specific functions and processing of the control unit 104.

或者，所述控制单元104，还可以用于若确定在空调开机后未接收到用户选择的自适应模式，则根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式。其中，所述记忆模式，可以包括：根据用户两次调节室内设定温度的时间差和室内温度差确定是否开启设定的自适应模式。该控制单元104的具体功能及处理还参见步骤S630。Alternatively, the control unit 104 may also be used to determine whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner if it is determined that the adaptive mode selected by the user is not received after the air conditioner is turned on. Wherein, the memory mode may include: an adaptive mode for determining whether to turn on the setting according to the time difference between the user adjusting the indoor set temperature twice and the indoor temperature difference. See also step S630 for the specific functions and processing of the control unit 104.

在一个实施例中，所述控制单元104根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式，可以包括：In an embodiment, the control unit 104 determines whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner, which may include:

所述控制单元104，具体还可以用于确定用户两次调节室内设定温度的时间差和室内温度差。该控制单元104的具体功能及处理还参见步骤S710。The control unit 104 may also be specifically used to determine the time difference and the indoor temperature difference between the user adjusting the indoor set temperature twice. For specific functions and processing of the control unit 104, refer to step S710.

在一个实施例中，所述控制单元104确定用户两次调节室内设定温度的时间差和室内温度差，可以包括：In an embodiment, the control unit 104 determining the time difference and the indoor temperature difference for the user to adjust the indoor set temperature twice may include:

所述控制单元104，具体还可以用于获取用户第一次调节所述室内设定温度的第一设定时间、第一设定温度、以及空调基于所述第一设定温度运行稳定后的第一室内温度，并获取用户第二次调节所述室内设定温度的第二设定时间、第二设定温度、以及空调基于所述第二设定温度运行稳定后的第二室内温度。该控制单元104的具体功能及处理还参见步骤S810。The control unit 104 may also be specifically configured to obtain the first set time for the user to adjust the indoor set temperature for the first time, the first set temperature, and the air conditioner after the air conditioner operates stably based on the first set temperature. The first indoor temperature is acquired, and the second set time for the user to adjust the indoor set temperature for the second time, the second set temperature, and the second indoor temperature after the air conditioner operates stably based on the second set temperature. For specific functions and processing of the control unit 104, refer to step S810.

所述控制单元104，具体还可以用于确定所述第二设定时间与所述第一设定时间之间的时间差、以及所述第二室内温度与所述第一设定温度之间的室内温度差。该控制单元104的具体功能及处理还参见步骤S820。The control unit 104 may also be specifically configured to determine the time difference between the second set time and the first set time, and the difference between the second indoor temperature and the first set temperature. Indoor temperature difference. For specific functions and processing of the control unit 104, refer to step S820.

所述控制单元104，具体还可以用于确定所述时间差是否小于或等于设定时间阈值，并确定所述室内温度差是否小于或等于设定温度阈值。该控制单元104的具体功能及处理还参见步骤S720。The control unit 104 may also be specifically used to determine whether the time difference is less than or equal to a set time threshold, and to determine whether the indoor temperature difference is less than or equal to a set temperature threshold. See also step S720 for the specific functions and processing of the control unit 104.

所述控制单元104，具体还可以用于若所述时间差小于或等于所述设定时间阈值、且所述室内温度差小于或等于所述设定温度阈值，则发起提醒用户是否选择自适应模式的提醒消息，并在确定用户未选择自适应模式的情况下将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。该控制单元104的具体功能及处理还参见步骤S730。The control unit 104 may also be specifically configured to initiate a reminder to the user whether to select the adaptive mode if the time difference is less than or equal to the set time threshold and the indoor temperature difference is less than or equal to the set temperature threshold When it is determined that the user has not selected the adaptive mode, each setting time, each setting temperature and each room temperature stored in the memory mode are cleared to enter a new memory mode. For specific functions and processing of the control unit 104, refer to step S730.

或者，所述控制单元104，具体还可以用于若所述时间差大于所述设定时间阈值、或所述室内温度差大于所述设定温度阈值，则将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。该控制单元104的具体功能及处理还参见步骤S740。Alternatively, the control unit 104 may also be specifically configured to, if the time difference is greater than the set time threshold, or the room temperature difference is greater than the set temperature threshold, then set each set time stored in the memory mode , Each set temperature and each room temperature are cleared to enter a new memory mode. See also step S740 for the specific functions and processing of the control unit 104.

由于本实施例的装置所实现的处理及功能基本相应于前述图1至图8所示的方法的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions implemented by the device in this embodiment basically correspond to the embodiments, principles, and examples of the methods shown in FIGS. 1 to 8, the description of this embodiment is not exhaustive, and you can refer to the foregoing embodiments. The relevant descriptions in, do not repeat them here.

经大量的试验验证，采用本申请的技术方案，通过在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度，可保证室内舒适性，提升用户体验。After a large number of tests and verifications, using the technical solution of this application, the air conditioner can determine the set temperature through the "adaptive" function according to the principle of balancing the building heat load and the heating capacity of the air conditioner on the user's will. Ensure indoor comfort and enhance user experience.

根据本申请的实施例，还提供了对应于室内设定温度的确定装置的一种空调。该空调可以包括：以上所述的室内设定温度的确定装置。According to an embodiment of the present application, there is also provided an air conditioner corresponding to a device for determining an indoor set temperature. The air conditioner may include the above-mentioned indoor set temperature determination device.

在一个实施例中，本申请的方案，提供一种设定温度自适应的空调器控制策略，在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度。从而，一方面可保证室内舒适性，解决空调器舒适性差的问题；另一方面减少用户频繁操作空调器的动作，实现空调器智能化，解决用户需根据室外温度变化频繁调节设定温度而显得空调器不够智能的问题。In one embodiment, the solution of the present application provides an air conditioner control strategy with self-adaptive setting of temperature. Under the condition of the user's willingness, the air conditioner can pass the " "Adaptive" function to determine the set temperature. Therefore, on the one hand, it can ensure indoor comfort and solve the problem of poor comfort of the air conditioner; on the other hand, it can reduce the user's frequent operation of the air conditioner, realize the intelligence of the air conditioner, and solve the problem that users need to frequently adjust the set temperature according to outdoor temperature changes. The air conditioner is not smart enough.

例如：当空调器感应出用户频繁调节设定温度，导致室内温度波动较大时，在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度；一方面可保证室内舒适性，另一方面减少用户频繁操作空调器的动作，实现空调器智能化。For example: when the air conditioner senses that the user frequently adjusts the set temperature, which causes the indoor temperature to fluctuate greatly, the user will make the air conditioner "adaptive" according to the principle of balancing the building heat load and the air conditioner's heating capacity on the user's volition. Function to determine the set temperature; on the one hand, it can ensure indoor comfort, on the other hand, it can reduce the user's frequent operation of the air conditioner and realize the intelligence of the air conditioner.

在一个实施例中，可以参见图11和图12所示的例子，对本申请的方案的具体实现过程进行示例性说明。In an embodiment, referring to the examples shown in FIG. 11 and FIG. 12, the specific implementation process of the solution of the present application can be exemplified.

图10可以显示全天24h房间设定温度、室内温度和室外温度随时间变化曲线，图10中由于数据点较多，均用黑色实线表示，用箭头备注曲线名称。Figure 10 can display the 24h room set temperature, indoor temperature and outdoor temperature variation curve over time. In Figure 10, due to the large number of data points, they are all represented by black solid lines, and the name of the curve is indicated by arrows.

在一个实施例中，本申请的方案，可以当空调器感应出用户频繁调节设定温度，导致室内温度波动较大时，在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度；一方面可保证室内舒适性，另一方面减少用户频繁操作空调器的动作，实现空调器智能化。In one embodiment, the solution of the present application can, when the air conditioner senses that the user frequently adjusts the set temperature, resulting in large fluctuations in the indoor temperature, the user can balance the heat load of the building with the heat output of the air conditioner if the user is willing The principle is to enable the air conditioner to determine the set temperature through the "adaptive" function; on the one hand, it can ensure indoor comfort, on the other hand, it can reduce the user's frequent operation of the air conditioner and realize the intelligentization of the air conditioner.

在一个实施例中，本申请的方案，还可以涉及一种带有“自适应”功能的遥控器。In an embodiment, the solution of the present application may also involve a remote control with "adaptive" function.

另外，本申请的方案与原有空调器的不同之处可以包括：本申请的方案，增加了红外线检测功能、湿度传感器和出风感温包。In addition, the difference between the solution of the present application and the original air conditioner may include: the solution of the present application adds an infrared detection function, a humidity sensor, and an air outlet temperature bulb.

例如：红外检测功能，用于检测围护结构传热系数和维护结构传热面积；湿度传感器，用于检测空气湿度。这些检测参数可以用于计算房间热负荷及空调器制热量。For example: infrared detection function, used to detect the heat transfer coefficient of the enclosure structure and the heat transfer area of the maintenance structure; humidity sensor, used to detect the air humidity. These detection parameters can be used to calculate room heat load and air conditioner heating capacity.

在一个实施例中，参见图11和图12所示的例子，本申请的方案的主要控制方式可以如下：In an embodiment, referring to the examples shown in FIG. 11 and FIG. 12, the main control mode of the solution of the present application may be as follows:

空调器开机后，若用户选择“自适应”功能，则空调器直接按照“自适应”方法确定设定温度；否则，空调器根据记忆功能记忆第一次用户调节设定温度的时间t ₁、设定温度T _设1、稳定后室内温度T _内1，之后记忆用户第二次调节设定温度的时间t ₂、设定温度T _设2、稳定后室内温度T _内2，计算两次调节室内温度的时间差△t _2-1＝t ₂-t ₁和室内温度差△T _内(2-1)＝T _内2-T _内1，并将△t _2-1和△T _内(2-1)分别与第一预设阈值△t和第二预设阈值△T _内相比较，若△t _2-1≤△t，且△T _内(2-1)≤△T _内，则通过使遥控器“自适应”功能键闪烁，提醒用户是否选择“自适应”功能，若用户并非选择“自适应”功能，则空调器记忆清零，重新记忆。 After the air conditioner is turned on, if the user selects the "adaptive" function, the air conditioner directly determines the set temperature according to the "adaptive"method; otherwise, the air conditioner will memorize the first time the user adjusts the set temperature t ₁ according to the memory function. Set the set temperature T to ₁ , the stable indoor temperature T is _{within 1} , and then memorize the time t _{2 for the} user to adjust the set temperature for the second time, set the set temperature T to ₂ , and stabilize the indoor temperature T _{within 2} , and calculate twice to adjust the room The time difference of temperature △t _2-1 = t ₂ -t ₁ and the indoor temperature difference △T_内(2-1) = T_内2 -T_内1 , and △t _2-1 and △T_{内(2-1 )} are compared with _a first preset threshold value △ t and the second predetermined threshold value △ T, when △ t _within _2-1 ≤ △ t, and _the △ T _(2-1) ≤ △ T, by making the remote control The “adaptive” function key of the air conditioner flashes to remind the user whether to select the “adaptive” function. If the user does not select the “adaptive” function, the air conditioner memory will be cleared and re-memorized.

其中，若用户选择“自适应”功能，则根据“自适应”功能确定设定温度，之后空调器记忆清零，重新记忆。Among them, if the user selects the "adaptive" function, the set temperature is determined according to the "adaptive" function, and then the air conditioner memory is cleared and re-memorized.

在一个实施例中，若△t _2-1>△t，或者△T _内(2-1)>△T _内，则空调器记忆清零，重新记忆。 In one embodiment, when △ t _2-1> △ t, or> _within △ T, the memory is cleared △ T _inside the air conditioner _(2-1), re-memorize.

在一个实施例中，自适应确定温度的方法如下：In one embodiment, the method for adaptively determining temperature is as follows:

空调器首先假设用户所需恒温空间为T _恒温1，根据T _恒温1、T _室外计算建筑热负荷Q _热负荷1，根据T _恒温1、T _出风计算空调器制热量Q _制热量1，若|Q _制热量1-Q _热负荷1|≤ε，则T _恒温1为最终确定的设定温度T _设；若Q _制热量1>Q _热负荷1，假设用户所需恒温空间为T _恒温2，T _恒温2<T _恒温1；若Q _制热量1<Q _热负荷1，T _恒 _温2>T _恒温1，按照迭代法最终确认用户所需恒温空间为T _恒温n，使得|Q _制热量n-Q _热负荷n|≤ε，则T _恒温n为最终确定的设定温度T _设。 The air conditioner first assumes that the constant temperature space required by the user is T _{constant temperature 1} , and calculates the building heat load Q _{heat load 1} according to T _{constant temperature 1} and T _outdoor , and calculates the air conditioner heating capacity Q _{heating capacity 1} according to T _{constant temperature 1} and T air _outlet . If | Q _{heating capacity 1-} Q _{heating load 1} |≤ε, then T _{constant temperature 1} is the final set temperature T _set ; if Q _{heating capacity 1} > Q _{heating load 1} , assuming that the constant temperature space required by the user is T _{constant temperature 2} , T _{thermostat 2} <T _{1 thermostat;} if _{the heating capacity} Q ₁ <Q _{thermal load 1,} _{the constant} _temperature T _2> T _{1 constant,} iterative method according to the desired final temperature T of the user space _{thermostat n,} such that | _n -Q _{heating capacity} Q _{Thermal load n} |≤ε, then T _{constant temperature n} is the final set temperature _Tset .

例如：用户所需恒温空间为T _恒温1，可以包括：若T _设1<T _设2，T _设1<T _恒温1<T _设2；若T _设1>T _设 ₂，T _设2<T _恒温1<T _设1。 For example: the constant temperature space required by the user is T _{constant temperature 1} , which can include: if T _{is set to 1} <T _{is set to 2} , T _{is set to} ₁ <T _{is set to} ₁ <T _{is set to 2} ; if T _{is set to 1} > T _{is set to} ₂ , and T _{is set to 2} <T _{Constant temperature 1} <T _{set 1} .

例如：按照迭代法最终确认用户所需恒温空间为T _恒温n，可以包括：此处应用到的为数值计算方法，例如利用计算机求解二元一次方程时，会先假定一个初始值x0作为解，然后根据得到的y ₀值与原Y值的差值，缩小解x的范围，然后逐次迭代，让y _n不断接近Y值，直到求出最终解。 For example: According to the iterative method, it is finally confirmed that the constant temperature space required by the user is T _{constant temperature n} , which can include: the numerical calculation method applied here, for example, when using a computer to solve a binary linear equation, an initial value x0 will be assumed as the solution. Then, according to the difference between the obtained y ₀ value and the original Y value, narrow the range of the solution x, and then iterate successively to keep y _n approaching the Y value until the final solution is obtained.

具体地，可以参见以下公式确定设定温度：Specifically, you can refer to the following formula to determine the set temperature:

Q _热负荷＝KF(T _室内-T _室外)； Q _{heat load} = KF (T _indoor- T _outdoor );

Q _制热量＝H _出-H _进＝q _m×(h _出风-h _进风)； Q _{heating capacity} =H _out- H _in =q _m ×(h _{out wind-} h _{in wind} );

h＝1.01T+d×(2500+1.84T)。h=1.01T+d×(2500+1.84T).

例如：计算热负荷时，T _室内的最终值即为T _恒温1的值。计算制热量时，h _进风是根据T _进 _风进行计算的 _，而T _进风的值与T _恒温1的值一致。 For example: when calculating the heat load, the final value in the T _{room is} the value of T _{constant temperature 1} . Calculating the heat capacity, h _{inlet air} is calculated according to the _intake _air _T, and the value T with _{the inlet} _temperature T ₁ of the same value.

其中，ε：用户可接受的热负荷与制热量偏差，由实验确定。第一预设阈值△t、第二预设阈值△T _内：由实验确定。Q _热负荷：建筑所需热负荷，单位可以为W，围护结构确定后，根据室外温度和室内温度计算。Q _制热量：空调器制热量，单位可以为W，可由进出风焓值的差值表示。T _恒温1：若T _设1<T _设2，T _设1<T _恒温1<T _设2；若T _设1>T _设2，T _设2<T _恒温1<T _设1。K：围护结构传热系数，单位可以为W/(m ²·K)，根据红外线检测功能或者用户输入得到。F：围护结构传热面积，单位可以为m ²，据红外线检测功能或者用户输入得到。T _室 _内：室内温度，单位可以为K，这里为恒温空间假设值T _恒温。T _室外：室外温度，单位可以为K，由室外环境感温包检测得到。H _进、H _出：室内机进出风的焓值，单位可以为J/s，由空气质量流量与比焓值得到。q _m：空气质量流量，单位可以为g/s，由体积风量q _v和密度ρ _s求得。q _v：体积风量，单位可以为m ³/h，根据风档通过查风档与风量表确认。ρ _s：密度，单位可以为kg/m ³，由出风温度、大气压和湿度计算得到。h _进风、h _出风：室内机进出风比焓值，单位可以为J/g，由进出风温度及含湿量计算得到，进风温度为室内环境温度，这里为恒温空间假设值T _恒温，出风温度由出风感温包测得，湿度由湿度传感器测到。T _出风：出风温度，单位可以为K，由出风感温包检测得到。P _a：大气压，单位可以为101325Pa。d：空气湿度，单位可以为g/g(干空气)，由湿度传感器测得。T：室内温度和出风温度，室内温度按照恒温空间假设值T _恒温，单位可以为K。 Among them, ε: the deviation between the user's acceptable thermal load and heating capacity, determined by experiments. _{Within the} first preset threshold Δt and the second preset threshold ΔT: determined by experiment. Q _{heat load} : the required heat load of the building, the unit can be W, after the enclosure structure is determined, it is calculated based on the outdoor temperature and the indoor temperature. Q _{heating capacity} : the heating _{capacity of the} air conditioner, the unit can be W, which can be expressed by the difference in the enthalpy of the air in and out. T _{thermostat 1:} ₁ when T _{is provided} _<disposed T _2, T _{1 set} _<thermostat T ₁ <T _{2 is provided;} _disposed if T _1> T _{set 2,} T _{2 is provided} _<thermostat T ₁ <T _{1 is provided.} K: Heat transfer coefficient of the enclosure structure, the unit can be W/(m ² ·K), which can be obtained according to the infrared detection function or user input. F: The heat transfer area of the enclosure structure, the unit can be m ² , which can be obtained according to the infrared detection function or user input. _Inner _chamber T: room temperature, the unit may be K, the value of T is assumed here that _{a constant temperature} thermostat space. T _outdoor : outdoor temperature, the unit can be K, which is detected by the outdoor environmental temperature sensor. H _in , H _out : The enthalpy value of the indoor unit's _inlet and _outlet air, the unit can be J/s, which is obtained from the air mass flow rate and the specific enthalpy value. q _m : Air mass flow, the unit can be g/s, which is obtained from the volumetric air volume q _v and density ρ _s . q _v : Volumetric air volume, the unit can be m ³ /h, according to the windshield check the windshield and the wind meter to confirm. ρ _s : Density, the unit can be kg/m ³ , calculated from the outlet air temperature, atmospheric pressure and humidity. h _{inlet air} , h _{outlet air} : the specific enthalpy value of the indoor unit _inlet and _{outlet air} , the unit can be J/g, calculated from the inlet and outlet air temperature and moisture content, the inlet air temperature is the indoor ambient temperature, here is the constant temperature space assumed value T _{constant temperature} , The outlet temperature is measured by the outlet temperature sensor, and the humidity is measured by the humidity sensor. T _{Outlet wind} : Outlet temperature, the unit can be K, which is detected by the outflow temperature sensor. P _a: atmospheric pressure, the unit may be 101325Pa. d: Air humidity, the unit can be g/g (dry air), measured by the humidity sensor. T: The indoor temperature and the air outlet temperature. The indoor temperature is constant according to the assumed value T of the _constant temperature space, and the unit can be K.

表1：风档、风量、转速表，根据实验测得，不同机型各不相同。Table 1: Windshield, air volume, tachometer, according to experimental measurements, different models are different.

表1：风档与风量表Table 1: Windshield and air volume meter

风档Windshield	风量(m ³/h) Air volume (m ³ /h)	风档Windshield	风量(m ³/h) Air volume (m ³ /h)
超强Super strong	11601160	中低mid Lo	732732
高high	10511051	低low	638638
中高Mid to high	912912	静音Mute	485485
中in	826826	To	To

由于本实施例的空调所实现的处理及功能基本相应于前述图9所示的装置的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions realized by the air conditioner in this embodiment basically correspond to the embodiment, principle, and example of the device shown in FIG. 9, the description of this embodiment is not exhaustive, and you can refer to the relevant information in the previous embodiment. Note, I won’t repeat it here.

经大量的试验验证，采用本申请的技术方案，通过在室内温度波动较大的情况下，根据用户两次调节是呃逆温度的时间差和室内温度差确定空调的设定温度，可以提升用户使用的舒适性体验，并减少操作的繁琐性。After a large number of experiments, the technical solution of this application is adopted to determine the set temperature of the air conditioner according to the time difference between the user's two adjustments to the hiccup temperature and the indoor temperature when the indoor temperature fluctuates greatly, which can improve the user's use Comfortable experience, and reduce the cumbersome operation.

根据本申请的实施例，还提供了对应于室内设定温度的确定方法的一种存储介质。该存储介质，可以包括：所述存储介质中存储有多条指令；所述多条指令，用于由处理器加载并执行以上所述的室内设定温度的确定方法。According to the embodiment of the present application, a storage medium corresponding to the method for determining the indoor set temperature is also provided. The storage medium may include: a plurality of instructions are stored in the storage medium; the plurality of instructions are used to be loaded by a processor and execute the method for determining the indoor set temperature described above.

由于本实施例的存储介质所实现的处理及功能基本相应于前述图1至图8所示的方法的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions implemented by the storage medium of this embodiment basically correspond to the embodiments, principles, and examples of the methods shown in FIGS. 1 to 8, the description of this embodiment is not exhaustive, and you can refer to the foregoing implementation. The relevant description in the example will not be repeated here.

经大量的试验验证，采用本申请的技术方案，通过当空调器感应出用户频繁调节设定温度，导致室内温度波动较大时，在用户自愿的情况下，根据建筑热负荷与空调器制热量相平衡原则，使空调器通过“自适应”功能，确定设定温度，减少用户频繁操作空调器的动作，实现空调器智能化。After a large number of tests and verifications, the technical solution of this application is adopted. When the air conditioner senses that the user frequently adjusts the set temperature, resulting in large fluctuations in the indoor temperature, if the user voluntarily, according to the building heat load and the air conditioner heating capacity The principle of phase balance enables the air conditioner to determine the set temperature through the "adaptive" function, reduce the user's frequent operation of the air conditioner, and realize the intelligentization of the air conditioner.

根据本申请的实施例，还提供了对应于室内设定温度的确定方法的一种空调。该空调，可以包括：处理器，用于执行多条指令；存储器，用于存储多条指令；其中，所述多条指令，用于由所述存储器存储，并由所述处理器加载并执行以上所述的室内设定温度的确定方法。According to the embodiment of the present application, an air conditioner corresponding to the method for determining the indoor set temperature is also provided. The air conditioner may include: a processor for executing multiple instructions; a memory for storing multiple instructions; wherein the multiple instructions are for being stored by the memory, and loaded and executed by the processor The method for determining the indoor set temperature described above.

由于本实施例的空调所实现的处理及功能基本相应于前述图1至图8所示的方法的实施例、原理和实例，故本实施例的描述中未详尽之处，可以参见前述实施例中的相关说明，在此不做赘述。Since the processing and functions realized by the air conditioner of this embodiment basically correspond to the embodiments, principles and examples of the methods shown in FIGS. 1 to 8, the description of this embodiment is not exhaustive, and you can refer to the foregoing embodiments. The relevant descriptions in, do not repeat them here.

经大量的试验验证，采用本申请的技术方案，通过在室内温度波动较大的情况下，根据建筑热负荷与空调器制热量相平衡原则确定空调的设定温度，或者根据用户两次调节是呃逆温度的时间差和室内温度差确定空调的设定温度，可以保证室内舒适性，并减少用户频繁操作空调器的动作，实现空调器智能化。After a large number of experiments, the technical solution of this application is adopted to determine the set temperature of the air conditioner according to the principle of balance between the building heat load and the heating capacity of the air conditioner when the indoor temperature fluctuates greatly, or according to the user's two adjustments. The time difference between the hiccup temperature and the indoor temperature difference determine the set temperature of the air conditioner, which can ensure indoor comfort, reduce the user's frequent operation of the air conditioner, and realize the intelligence of the air conditioner.

综上，本领域技术人员容易理解的是，在不冲突的前提下，上述各有利方式可以自由地组合、叠加。In summary, it is easy for those skilled in the art to understand that the above advantageous methods can be freely combined and superimposed on the premise of no conflict.

以上所述仅为本申请的实施例而已，并不用于限制本申请，对于本领域的技术人员来说，本申请可以有各种更改和变化。凡在本申请的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本申请的权利要求范围之内。The foregoing descriptions are only examples of the application, and are not intended to limit the application. For those skilled in the art, the application can have various modifications and changes. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of this application shall be included in the scope of the claims of this application.

Claims

一种室内设定温度的确定方法，其特征在于，包括：A method for determining indoor set temperature, characterized in that it comprises:

确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值；Determine whether the fluctuation of the indoor ambient temperature within the set time period reaches the set fluctuation threshold;

若所述波动情况达到所述设定波动阈值，则按设定的自适应模式确定室内设定温度；If the fluctuation situation reaches the set fluctuation threshold, determine the indoor set temperature according to the set adaptive mode;

其中，所述自适应模式，包括：根据建筑热负荷与空调器制热量相平衡原则确定室内设定温度。Wherein, the self-adaptive mode includes: determining the indoor set temperature according to the principle of balance between the building heat load and the heating capacity of the air conditioner.
根据权利要求1所述的方法，其特征在于，确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值，包括：The method according to claim 1, wherein determining whether the fluctuation of the indoor ambient temperature within a set period of time reaches a set fluctuation threshold, comprising:

在设定时长内按设定时间间隔获取两个以上室内环境温度；Obtain two or more indoor ambient temperatures at the set time interval within the set time;

确定两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值是否大于或等于设定波动阈值；Determine whether the absolute value of the difference between every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures is greater than or equal to the set fluctuation threshold;

若两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值中，有设定数量个绝对值大于或等于设定波动阈值，则确定室内环境温度在设定时长内的波动情况达到设定波动阈值。If there are a set number of absolute values of the difference between every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures, which are greater than or equal to the set fluctuation threshold, it is determined that the indoor ambient temperature is within the set The fluctuation within the time period reaches the set fluctuation threshold.
根据权利要求1或2所述的方法，其特征在于，按设定的自适应模式确定室内设定温度，具体包括：The method according to claim 1 or 2, wherein determining the indoor set temperature according to the set adaptive mode specifically includes:

确定第一空调制热量、以及空调所属环境的第一建筑热负荷；Determine the heating capacity of the first air conditioner and the heat load of the first building of the environment where the air conditioner belongs;

确定所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值是否小于或等于设定负荷阈值；Determining whether the absolute value of the difference between the heating capacity of the first air conditioner and the heat load of the first building is less than or equal to a set load threshold;

若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值小于或等于设定负荷阈值，则确定与所述第一空调制热量和所述第一建筑热负荷均相关的用户所需恒温空间的第一恒温温度为室内设定温度；If the absolute value of the difference between the first air-conditioning heating capacity and the first building heat load is less than or equal to the set load threshold, it is determined to be the same as the first air-conditioning heating capacity and the first building heating load The first constant temperature of the constant-temperature space required by the users is the indoor set temperature;

若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值大于设定负荷阈值，则重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，并根据重新确定的第二空调制热量、以及空调所属环境的第二建筑热负荷按迭代法重新确定室内设定温度。If the absolute value of the difference between the heating capacity of the first air conditioner and the heat load of the first building is greater than the set load threshold, the second air conditioning heating capacity and the second building heat load of the environment where the air conditioner belongs are re-determined, And according to the re-determined second air conditioner heating capacity and the second building heat load of the environment where the air conditioner belongs, the indoor set temperature is re-determined according to the iteration method.
根据权利要求3所述的方法，其特征在于，确定第一空调制热量、以及空调所属环境的第一建筑热负荷，包括：The method according to claim 3, wherein determining the heating capacity of the first air conditioner and the heat load of the first building of the environment to which the air conditioner belongs comprises:

获取用户所需恒温空间的温度为第一恒温温度，并获取室外环境温度和空调出风温度；Obtain the temperature of the constant temperature space required by the user as the first constant temperature temperature, and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner;

根据所述第一恒温温度和所述室外环境温度计算建筑热负荷，并根据所述第一恒温温度和所述空调出风温度计算空调制热量。The heat load of the building is calculated according to the first constant temperature temperature and the outdoor ambient temperature, and the air conditioning heating capacity is calculated according to the first constant temperature temperature and the air outlet temperature of the air conditioner.
根据权利要求3或4所述的方法，其特征在于，重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，包括：The method according to claim 3 or 4, wherein the re-determining the heating capacity of the second air conditioner and the second building heat load of the environment to which the air conditioner belongs includes:

获取假设的用户所需恒温空间的温度为第二恒温温度，并获取室外环境温度和空调出风温度；Obtain the hypothetical temperature of the constant temperature space required by the user as the second constant temperature temperature, and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner;

根据所述第二恒温温度和所述室外环境温度计算第二建筑热负荷，并根据所述第二恒温温度和所述空调出风温度计算第二空调制热量；Calculating the second building heat load according to the second constant temperature temperature and the outdoor ambient temperature, and calculating the second air conditioning heating capacity according to the second constant temperature temperature and the air outlet temperature of the air conditioner;

其中，若所述第一空调制热量大于所述第一建筑热负荷，则所述第二恒温温度小于第一恒温温度；若所述第一空调制热量小于所述第一建筑热负荷，则所述第二恒温温度大于第一恒温温度。Wherein, if the heating capacity of the first air conditioner is greater than the heat load of the first building, the second constant temperature temperature is lower than the first constant temperature temperature; if the heating capacity of the first air conditioner is less than the heat load of the first building, then The second constant temperature temperature is greater than the first constant temperature temperature.
根据权利要求1-5之一所述的方法，其特征在于，还包括：The method according to any one of claims 1-5, further comprising:

确定在空调开机后是否已接收到用户选择的自适应模式；Determine whether the adaptive mode selected by the user has been received after the air conditioner is turned on;

若确定在空调开机后已接收到用户选择的自适应模式，则直接按设定的自适应模式确定室内设定温度；If it is determined that the adaptive mode selected by the user has been received after the air conditioner is turned on, then directly press the set adaptive mode to determine the indoor set temperature;

若确定在空调开机后未接收到用户选择的自适应模式，则根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式；其中，所述记忆模式，包括：根据用户两次调节室内设定温度的时间差和室内温度差确定是否开启设定的自适应模式。If it is determined that the adaptive mode selected by the user is not received after the air conditioner is turned on, it is determined whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner; wherein the memory mode includes: two adjustments according to the user The time difference of the indoor set temperature and the indoor temperature difference determine whether to open the set adaptive mode.
根据权利要求6所述的方法，其特征在于，根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式，包括：The method according to claim 6, wherein determining whether to turn on the set adaptive mode according to the storage information in the memory mode of the air conditioner comprises:

确定用户两次调节室内设定温度的时间差和室内温度差；Determine the time difference between the user's two adjustments to the indoor set temperature and the indoor temperature difference;

确定所述时间差是否小于或等于设定时间阈值，并确定所述室内温度差是否小于或等于设定温度阈值；Determining whether the time difference is less than or equal to a set time threshold, and determining whether the indoor temperature difference is less than or equal to a set temperature threshold;

若所述时间差小于或等于所述设定时间阈值、且所述室内温度差小于或等于所述设定温度阈值，则发起提醒用户是否选择自适应模式的提醒消息，并在确定用户未选择自适应模式的情况下将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式；If the time difference is less than or equal to the set time threshold and the room temperature difference is less than or equal to the set temperature threshold, a reminder message to remind the user whether to select the adaptive mode is initiated, and when it is determined that the user has not selected self In the case of adaptation mode, reset each set time, each set temperature and each room temperature stored in the memory mode to zero and enter a new memory mode;

若所述时间差大于所述设定时间阈值、或所述室内温度差大于所述设定温度阈值，则将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。If the time difference is greater than the set time threshold, or the room temperature difference is greater than the set temperature threshold, then the set time, each set temperature, and each room temperature stored in the memory mode are cleared to enter New memory mode.
根据权利要求7所述的方法，其特征在于，确定用户两次调节室内设定温度的时间差和室内温度差，包括：The method according to claim 7, wherein determining the time difference and the indoor temperature difference between the user adjusting the indoor set temperature twice includes:

获取用户第一次调节所述室内设定温度的第一设定时间、第一设定温度、以及空调基于所述第一设定温度运行稳定后的第一室内温度，并获取用户第二次调节所述室内设定温度的第二设定时间、第二设定温度、以及空调基于所述第二设定温度运行稳定后的第二室内温度；Obtain the first set time for the user to adjust the indoor set temperature for the first time, the first set temperature, and the first indoor temperature after the air conditioner operates stably based on the first set temperature, and obtain the second time for the user Adjusting the second set time of the indoor set temperature, the second set temperature, and the second indoor temperature after the air conditioner operates stably based on the second set temperature;

确定所述第二设定时间与所述第一设定时间之间的时间差、以及所述第二室内温度与所述第一设定温度之间的室内温度差。Determine the time difference between the second set time and the first set time, and the indoor temperature difference between the second indoor temperature and the first set temperature.
一种室内设定温度的确定装置，其特征在于，包括：A device for determining indoor set temperature, characterized in that it comprises:

确定单元，用于确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值；The determining unit is used to determine whether the fluctuation of the indoor ambient temperature within the set time period reaches the set fluctuation threshold;

控制单元，用于若所述波动情况达到所述设定波动阈值，则按设定的自适应模式确定室内设定温度；The control unit is configured to determine the indoor set temperature according to the set adaptive mode if the fluctuation situation reaches the set fluctuation threshold;

其中，所述自适应模式，包括：根据建筑热负荷与空调器制热量相平衡原则确定室内设定温度。Wherein, the self-adaptive mode includes: determining the indoor set temperature according to the principle of balance between the building heat load and the heating capacity of the air conditioner.
根据权利要求9所述的装置，其特征在于，所述确定单元确定室内环境温度在设定时长内的波动情况是否达到设定波动阈值，包括：The device according to claim 9, wherein the determining unit determines whether the fluctuation of the indoor ambient temperature within a set period of time reaches a set fluctuation threshold, comprising:

在设定时长内按设定时间间隔获取两个以上室内环境温度；Obtain two or more indoor ambient temperatures at the set time interval within the set time;

确定两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值是否大于或等于设定波动阈值；Determine whether the absolute value of the difference between every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures is greater than or equal to the set fluctuation threshold;

若两个以上室内环境温度中每两个相邻的室内环境温度之间的差值的绝对值中，有设定数量个绝对值大于或等于设定波动阈值，则确定室内环境温度在设定时长内的波动情况达到设定波动阈值。If there are a set number of absolute values of the difference between every two adjacent indoor ambient temperatures in more than two indoor ambient temperatures, which are greater than or equal to the set fluctuation threshold, it is determined that the indoor ambient temperature is within the set The fluctuation within the time period reaches the set fluctuation threshold.
根据权利要求9或10所述的装置，其特征在于，所述控制单元按设定的自适应模式确定室内设定温度，具体包括：The device according to claim 9 or 10, wherein the control unit determines the indoor set temperature according to the set adaptive mode, which specifically includes:

确定第一空调制热量、以及空调所属环境的第一建筑热负荷；Determine the heating capacity of the first air conditioner and the heat load of the first building of the environment where the air conditioner belongs;

确定所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值是否小于或等于设定负荷阈值；Determining whether the absolute value of the difference between the heating capacity of the first air conditioner and the heat load of the first building is less than or equal to a set load threshold;

若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值小于或等于设定负荷阈值，则确定与所述第一空调制热量和所述第一建筑热负荷均相关的用户所需恒温空间的第一恒温温度为室内设定温度；If the absolute value of the difference between the first air-conditioning heating capacity and the first building heat load is less than or equal to the set load threshold, it is determined to be the same as the first air-conditioning heating capacity and the first building heating load The first constant temperature of the constant-temperature space required by the users is the indoor set temperature;

若所述第一空调制热量与所述第一建筑热负荷之间的差值的绝对值大于设定负荷阈值，则重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，并根据重新确定的第二空调制热量、以及空调所属环境的第二建筑热负荷按迭代法重新确定室内设定温度。If the absolute value of the difference between the heating capacity of the first air conditioner and the heat load of the first building is greater than the set load threshold, the second air conditioning heating capacity and the second building heat load of the environment where the air conditioner belongs are re-determined, And according to the re-determined second air conditioner heating capacity and the second building heat load of the environment where the air conditioner belongs, the indoor set temperature is re-determined according to the iteration method.
根据权利要求11所述的装置，其特征在于，所述控制单元确定第一空调制热量、以及空调所属环境的第一建筑热负荷，包括：The device according to claim 11, wherein the control unit determining the heating capacity of the first air conditioner and the heat load of the first building of the environment to which the air conditioner belongs includes:

获取用户所需恒温空间的温度为第一恒温温度，并获取室外环境温度和空调出风温度；Obtain the temperature of the constant temperature space required by the user as the first constant temperature temperature, and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner;

根据所述第一恒温温度和所述室外环境温度计算建筑热负荷，并根据所述第一恒温温度和所述空调出风温度计算空调制热量。The heat load of the building is calculated according to the first constant temperature temperature and the outdoor ambient temperature, and the air conditioning heating capacity is calculated according to the first constant temperature temperature and the air outlet temperature of the air conditioner.
根据权利要求11或12所述的装置，其特征在于，所述控制单元重新确定第二空调制热量、以及空调所属环境的第二建筑热负荷，包括：The device according to claim 11 or 12, wherein the control unit re-determines the heating capacity of the second air conditioner and the second building heat load of the environment to which the air conditioner belongs, comprising:

获取假设的用户所需恒温空间的温度为第二恒温温度，并获取室外环境温度和空调出风温度；Obtain the hypothetical temperature of the constant temperature space required by the user as the second constant temperature temperature, and obtain the outdoor ambient temperature and the air outlet temperature of the air conditioner;

根据所述第二恒温温度和所述室外环境温度计算第二建筑热负荷，并根据所述第二恒温温度和所述空调出风温度计算第二空调制热量；Calculating the second building heat load according to the second constant temperature temperature and the outdoor ambient temperature, and calculating the second air conditioning heating capacity according to the second constant temperature temperature and the air outlet temperature of the air conditioner;

其中，若所述第一空调制热量大于所述第一建筑热负荷，则所述第二恒温温度小于第一恒温温度；若所述第一空调制热量小于所述第一建筑热负荷，则所述第二恒温温度大于第一恒温温度。Wherein, if the heating capacity of the first air conditioner is greater than the heat load of the first building, the second constant temperature temperature is lower than the first constant temperature temperature; if the heating capacity of the first air conditioner is less than the heat load of the first building, then The second constant temperature temperature is greater than the first constant temperature temperature.
根据权利要求9-13之一所述的装置，其特征在于，还包括：The device according to any one of claims 9-13, further comprising:

所述确定单元，还用于确定在空调开机后是否已接收到用户选择的自适应模式；The determining unit is also used to determine whether the adaptive mode selected by the user has been received after the air conditioner is turned on;

所述控制单元，还用于若确定在空调开机后已接收到用户选择的自适应模式，则直接按设定的自适应模式确定室内设定温度；The control unit is further configured to directly determine the indoor set temperature according to the set adaptive mode if it is determined that the adaptive mode selected by the user has been received after the air conditioner is turned on;

所述控制单元，还用于若确定在空调开机后未接收到用户选择的自适应模式，则根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式；其中，所述记忆模式，包括：根据用户两次调节室内设定温度的时间差和室内温度差确定是否开启设定的自适应模式。The control unit is further configured to determine whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner if it is determined that the adaptive mode selected by the user is not received after the air conditioner is turned on; wherein, the memory mode , Including: determining whether to turn on the set adaptive mode according to the time difference between the user adjusting the indoor set temperature twice and the indoor temperature difference.
根据权利要求14所述的装置，其特征在于，所述控制单元根据空调的记忆模式下的存储信息确定是否开启设定的自适应模式，包括：The device according to claim 14, wherein the control unit determines whether to turn on the set adaptive mode according to the stored information in the memory mode of the air conditioner, comprising:

确定用户两次调节室内设定温度的时间差和室内温度差；Determine the time difference between the user's two adjustments to the indoor set temperature and the indoor temperature difference;

确定所述时间差是否小于或等于设定时间阈值，并确定所述室内温度差是否小于或等于设定温度阈值；Determining whether the time difference is less than or equal to a set time threshold, and determining whether the indoor temperature difference is less than or equal to a set temperature threshold;

若所述时间差小于或等于所述设定时间阈值、且所述室内温度差小于或等于所述设定温度阈值，则发起提醒用户是否选择自适应模式的提醒消息，并在确定用户未选择自适应模式的情况下将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式；If the time difference is less than or equal to the set time threshold and the room temperature difference is less than or equal to the set temperature threshold, a reminder message to remind the user whether to select the adaptive mode is initiated, and when it is determined that the user has not selected self In the case of adaptation mode, reset each set time, each set temperature and each room temperature stored in the memory mode to zero and enter a new memory mode;

若所述时间差大于所述设定时间阈值、或所述室内温度差大于所述设定温度阈值，则将记忆模式下存储的各设定时间、各设定温度以及各室内温度清零而进入新的记忆模式。If the time difference is greater than the set time threshold, or the room temperature difference is greater than the set temperature threshold, then the set time, each set temperature, and each room temperature stored in the memory mode are cleared to enter New memory mode.
根据权利要求15所述的装置，其特征在于，所述控制单元确定用户两次调节室内设定温度的时间差和室内温度差，包括：The device according to claim 15, wherein the control unit determining the time difference and the indoor temperature difference between the user adjusting the indoor set temperature twice comprises:

获取用户第一次调节所述室内设定温度的第一设定时间、第一设定温度、以及空调基于所述第一设定温度运行稳定后的第一室内温度，并获取用户第二次调节所述室内设定温度的第二设定时间、第二设定温度、以及空调基于所述第二设定温度运行稳定后的第二室内温度；Obtain the first set time for the user to adjust the indoor set temperature for the first time, the first set temperature, and the first indoor temperature after the air conditioner operates stably based on the first set temperature, and obtain the second time for the user Adjusting the second set time of the indoor set temperature, the second set temperature, and the second indoor temperature after the air conditioner operates stably based on the second set temperature;

确定所述第二设定时间与所述第一设定时间之间的时间差、以及所述第二室内温度与所述第一设定温度之间的室内温度差。Determine the time difference between the second set time and the first set time, and the indoor temperature difference between the second indoor temperature and the first set temperature.
一种空调，其特征在于，包括：如权利要求9-16任一所述的室内设定温度的确定装置。An air conditioner, characterized by comprising: a device for determining an indoor set temperature according to any one of claims 9-16.
一种存储介质，其特征在于，所述存储介质中存储有多条指令；所述多条指令，用于由处理器加载并执行如权利要求1-8任一所述的室内设定温度的确定方法。A storage medium, characterized in that a plurality of instructions are stored in the storage medium; the plurality of instructions are used to be loaded by a processor and executed as described in any of claims 1-8 Determine the method.
一种空调，其特征在于，包括：An air conditioner, characterized in that it comprises:

处理器，用于执行多条指令；Processor, used to execute multiple instructions;

存储器，用于存储多条指令；Memory, used to store multiple instructions;

其中，所述多条指令，用于由所述存储器存储，并由所述处理器加载并执行如权利要求1-8任一所述的室内设定温度的确定方法。Wherein, the multiple instructions are used to be stored by the memory and loaded by the processor to execute the method for determining the indoor set temperature according to any one of claims 1-8.