WO2023005218A1

WO2023005218A1 - Air conditioner control method and control apparatus, and air conditioner

Info

Publication number: WO2023005218A1
Application number: PCT/CN2022/080407
Authority: WO
Inventors: 傅琳霞; 戴屡牛; 吕福俊; 王月亮
Original assignee: 青岛海尔空调器有限总公司; 青岛海尔空调电子有限公司; 海尔智家股份有限公司
Priority date: 2021-07-27
Filing date: 2022-03-11
Publication date: 2023-02-02
Also published as: CN113587371A

Abstract

Provided in the present application are an air conditioner control method and control apparatus, and an air conditioner. The air conditioner control method comprises: acquiring an outdoor environment temperature; measuring the real-time current of an air conditioner; and receiving an energy-saving mode start signal, and adjusting the real-time current of the air conditioner according to the outdoor environment temperature and preset environment temperature information. In the present application, an outdoor environment temperature is acquired and the real-time current of an air conditioner is measured; after the energy-saving mode of the air conditioner is started, the outdoor environment temperature is compared with preset environment temperature information; and the real-time current of the air conditioner is adjusted according to a comparison result, such that the air conditioner operates at the adjusted current. By means of the control method, the real-time current of an air conditioner is adjusted according to the current actual operation condition of the air conditioner, such that energy saving is realized, the intelligence is high, and the influence on the comfort of a user when using an energy-saving mode is effectively reduced.

Description

空调器控制方法、控制装置及空调器Air conditioner control method, control device and air conditioner

相关申请的交叉引用Cross References to Related Applications

本申请要求于2021年07月27日提交的申请号为202110853006.3，名称为“一种空调器控制方法、控制装置及空调器”的中国专利申请的优先权，其通过引用方式全部并入本文。This application claims the priority of the Chinese patent application with application number 202110853006.3 and titled "A Control Method, Control Device, and Air Conditioner for Air Conditioner" filed on July 27, 2021, which is fully incorporated herein by reference.

技术领域technical field

本申请涉及空调技术领域，尤其涉及一种空调器控制方法、控制装置及空调器。The present application relates to the technical field of air conditioners, in particular to an air conditioner control method, a control device and an air conditioner.

背景技术Background technique

空调是对空气的温度，湿度，纯净度，气流速度进行处理，满足人们生产、生活需要的设备，它的功能是对房间(或封闭空间、区域)内空气的温度、湿度、洁净度和空气流速等参数进行调节，以满足人体舒适或工艺过程的要求。空调的主要工作原理是通过风机进行吹风，但是在吹风的同时还要对空气进行加温或降温，这样就增加了电能的消耗，特别是在北方城市除了冬天存在暖气供热空调应用较少，在其他时候均需要空调提供大量的冷气来降温，这样就较大的消耗电能。Air conditioning is a device that processes the temperature, humidity, purity, and airflow speed of the air to meet people's production and living needs. Parameters such as flow rate are adjusted to meet the requirements of human comfort or process. The main working principle of the air conditioner is to blow the air through the fan, but it also needs to heat or cool the air while blowing the air, which increases the consumption of electric energy, especially in the northern cities, except for the heating and heating in winter, the application of air conditioning is seldom. At other times, the air conditioner is required to provide a large amount of cold air to cool down, which consumes a lot of power.

现有技术中，目前空调器行业使用的节能模式功能，通常的做法是将空调设定为固定开启模式，如将空调的设定温度控制在26-28℃，通过限制空调的运行来达到节能的目的。但是空调器这种控制方法存在对用户舒适度影响较大，智能性较差的问题。In the prior art, for the energy-saving mode function currently used in the air conditioner industry, the usual practice is to set the air conditioner to a fixed open mode, such as controlling the set temperature of the air conditioner at 26-28°C, and to achieve energy saving by limiting the operation of the air conditioner the goal of. However, the control method of the air conditioner has the problems of great influence on user comfort and poor intelligence.

发明内容Contents of the invention

本申请提供一种空调器控制方法、控制装置及空调器，用以解决现有技术中空调器的节能方法对用户舒适度影响较大，智能性差的问题。The present application provides an air conditioner control method, a control device and an air conditioner, which are used to solve the problems in the prior art that the energy saving method of the air conditioner has a great impact on user comfort and poor intelligence.

本申请提供一种空调器控制方法，包括：获取室外环境温度；检测空调器的实时电流；接收节能模式开启信号，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流。The present application provides an air conditioner control method, including: obtaining the outdoor ambient temperature; detecting the real-time current of the air conditioner; receiving the energy-saving mode start signal, and adjusting the real-time current.

根据本申请提供的一种空调器控制方法，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流包括：获取空调器按照当前设定条件运行的理论电流；在所述室外环境温度小于第一预设环境温度时，调节空调器的所述实时电流，使得所述实时电流小于所述理论电流。According to an air conditioner control method provided in the present application, adjusting the real-time current of the air conditioner according to the outdoor ambient temperature and preset ambient temperature information includes: obtaining a theoretical current for the air conditioner to operate according to the current setting conditions; When the outdoor ambient temperature is lower than the first preset ambient temperature, the real-time current of the air conditioner is adjusted so that the real-time current is smaller than the theoretical current.

根据本申请提供的一种空调器控制方法，在所述室外环境温度小于第一预设环境温度时，调节空调器的所述实时电流，使得所述实时电流小于所述理论电流包括：According to an air conditioner control method provided in the present application, when the outdoor ambient temperature is lower than a first preset ambient temperature, adjusting the real-time current of the air conditioner so that the real-time current is smaller than the theoretical current includes:

在所述室外环境温度小于第一预设环境温度，且大于等于第二预设环境温度时，限制空调器的所述实时电流为所述理论电流的75％-85％；When the outdoor ambient temperature is less than the first preset ambient temperature and greater than or equal to the second preset ambient temperature, limit the real-time current of the air conditioner to 75%-85% of the theoretical current;

在所述室外环境温度小于第二预设环境温度，且大于等于第三预设环境温度时，限制空调器的所述实时电流为所述理论电流的65％-75％；When the outdoor ambient temperature is less than the second preset ambient temperature and greater than or equal to the third preset ambient temperature, limit the real-time current of the air conditioner to 65%-75% of the theoretical current;

在所述室外环境温度小于第三预设环境温度，且大于等于第四预设环境温度时，限制空调器的所述实时电流为所述理论电流的45％-55％。When the outdoor ambient temperature is less than the third preset ambient temperature and greater than or equal to the fourth preset ambient temperature, the real-time current of the air conditioner is limited to 45%-55% of the theoretical current.

根据本申请提供的一种空调器控制方法，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流还包括：在所述室外环境温度大于等于所述第一预设环境温度时，或在所述室外环境温度小于第五预设环境温度时，控制空调器的所述实时电流为所述理论电流；其中所述第五预设环境温度小于所述第四预设环境温度。According to an air conditioner control method provided in the present application, adjusting the real-time current of the air conditioner according to the outdoor ambient temperature and preset ambient temperature information further includes: when the outdoor ambient temperature is greater than or equal to the first preset When the ambient temperature is set, or when the outdoor ambient temperature is lower than a fifth preset ambient temperature, the real-time current of the air conditioner is controlled to be the theoretical current; wherein the fifth preset ambient temperature is lower than the fourth preset ambient temperature Set the ambient temperature.

根据本申请提供的一种空调器控制方法，在所述室外环境温度小于第一预设环境温度时，调节空调器的所述实时电流，使得所述实时电流小于所述理论电流还包括：获取空调器设定的目标温度；所述目标温度越高，调节空调器的所述实时电流使得所述实时电流越低。According to an air conditioner control method provided in the present application, when the outdoor ambient temperature is lower than a first preset ambient temperature, adjusting the real-time current of the air conditioner so that the real-time current is smaller than the theoretical current further includes: obtaining The target temperature set by the air conditioner; the higher the target temperature is, the lower the real-time current is adjusted by adjusting the real-time current of the air conditioner.

根据本申请提供的一种空调器控制方法，接收节能模式开启信号具体包括：获取室内实时温度；在所述室内实时温度与所述空调器设定的目标温度之间的温度差小于等于预设温度范围时，开启节能模式。According to an air conditioner control method provided in the present application, receiving the energy-saving mode start signal specifically includes: obtaining the real-time indoor temperature; the temperature difference between the real-time indoor temperature and the target temperature set by the air conditioner is less than or equal to a preset When the temperature range is low, the energy saving mode is turned on.

根据本申请提供的一种空调器控制方法，还包括：接收用户发送的实时电流调节指令；根据所述实时电流调节指令，控制空调器的所述实时电流。An air conditioner control method according to the present application further includes: receiving a real-time current adjustment instruction sent by a user; and controlling the real-time current of the air conditioner according to the real-time current adjustment instruction.

本申请还提供一种空调器控制装置，包括：获取模块：获取室外环境温度；检测模块：检测空调器的实时电流；控制模块：接收节能模式开启信号，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流。The present application also provides an air conditioner control device, including: an acquisition module: to obtain the outdoor ambient temperature; a detection module: to detect the real-time current of the air conditioner; The ambient temperature information is used to adjust the real-time current of the air conditioner.

本申请还提供一种空调器，包括上述所述的空调器控制装置，还包括温度传感器，所述温度传感器用于检测所述室外环境温度和室内环境温度。The present application also provides an air conditioner, which includes the above-mentioned air conditioner control device, and further includes a temperature sensor for detecting the outdoor ambient temperature and the indoor ambient temperature.

本申请还提供一种电子设备，包括存储器、处理器及存储在存储器上并可在处理器上运行的计算机程序，所述处理器执行所述程序时实现如上述任一种所述空调器控制方法的步骤。The present application also provides an electronic device, including a memory, a processor, and a computer program stored on the memory and operable on the processor. When the processor executes the program, it realizes the control of the air conditioner as described above. method steps.

本申请提供的一种空调器控制方法、控制装置及空调器，通过获取室外环境温度并检测空调器的实时电流，在开启空调器的节能模式后，对比室外环境温度以及预设的环境温度信息，根据对比结果调节空调器的实时电流，使空调器以调节后的电流运行；这种控制方法根据空调器当前的实际运行情况，调节空调器的实时电流实现节能，智能性好，且有效降低了用户在使用节能模式时对舒适度的影响。The present application provides an air conditioner control method, control device and air conditioner, by acquiring the outdoor ambient temperature and detecting the real-time current of the air conditioner, after turning on the energy-saving mode of the air conditioner, comparing the outdoor ambient temperature with the preset ambient temperature information , adjust the real-time current of the air conditioner according to the comparison results, so that the air conditioner operates with the adjusted current; this control method adjusts the real-time current of the air conditioner according to the current actual operation of the air conditioner to save energy, has good intelligence, and effectively reduces The user's impact on comfort when using the energy-saving mode.

附图说明Description of drawings

为了更清楚地说明本申请或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图是本申请的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the present application or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are the For some embodiments of the present invention, those of ordinary skill in the art can also obtain other drawings based on these drawings on the premise of not paying creative efforts.

图1是本申请提供的空调器控制方法的流程示意图；Fig. 1 is a schematic flow chart of an air conditioner control method provided by the present application;

图2是本申请提供的空调器调节实时电流的流程示意图；Fig. 2 is the schematic flow chart of the real-time current adjustment of the air conditioner provided by the application;

图3是本申请提供的电子设备的结构示意图。FIG. 3 is a schematic structural diagram of an electronic device provided by the present application.

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，下面将结合本申请中的附图，对本申请中的技术方案进行清楚、完整地描述，显然，所描述的实施例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作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 this application clearer, the technical solutions in this application will be clearly and completely described below in conjunction with the accompanying drawings in this application. Obviously, the described embodiments are part of the embodiments of this application , but not all examples. Based on the embodiments in this application, all other embodiments obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of this application.

下面结合图1至图3描述本申请的一种空调器控制方法、控制装置及空调器。An air conditioner control method, control device and air conditioner of the present application will be described below with reference to FIG. 1 to FIG. 3 .

参考图1，本实施例提供一种空调器控制方法，包括获取室外环境温度；检测空调器的实时电流；接收节能模式开启信号，根据室外环境温度以及预设的环境温度信息，调节空调器的实时电流。Referring to FIG. 1 , the present embodiment provides a method for controlling an air conditioner, including obtaining the outdoor ambient temperature; detecting the real-time current of the air conditioner; receiving an energy-saving mode start signal, and adjusting the temperature of the air conditioner according to the outdoor ambient temperature and preset ambient temperature information. real-time current.

本实施例根据空调器的电流不同空调器的用电量不同提供了一种空调器控制方法，具体包括：获取室外环境温度，检测空调器的实时电流。空调器可按照一定的控制逻辑自动开启节能模式，也可接收用户的指令，根据用户指令开启节能模式，具体的，用户可通过语音、手机APP或者遥控器等方法开启空调器的节能模式。This embodiment provides an air conditioner control method according to different currents of the air conditioner and different power consumption of the air conditioner, which specifically includes: acquiring the outdoor ambient temperature and detecting the real-time current of the air conditioner. The air conditioner can automatically turn on the energy-saving mode according to a certain control logic, and can also receive the user's instruction to turn on the energy-saving mode according to the user's instruction. Specifically, the user can turn on the energy-saving mode of the air conditioner through voice, mobile APP or remote control.

节能模式开启后，根据室外环境温度以及预设的环境温度信息，调节空调器的实时电流，使空调器按照调节后的实时电流运行。本实施例考虑到在不同的室外环境温度下，对空调器的制冷量或制热量的需求程度是不同的；进一步提出对室外环境温度进行区分，可在对空调器的制冷量或制热量需求程度不是太大的温度下，通过调控空调器的实时电流，实现节能。After the energy-saving mode is turned on, the real-time current of the air conditioner is adjusted according to the outdoor ambient temperature and the preset ambient temperature information, so that the air conditioner operates according to the adjusted real-time current. This embodiment considers that under different outdoor ambient temperatures, the demand for cooling capacity or heating capacity of the air conditioner is different; When the temperature is not too high, energy can be saved by adjusting the real-time current of the air conditioner.

具体的，获取室外环境和预设的环境温度并进行对比，根据预设的环境温度和实际的室外环境温度的对比结果，相应调节空调器的实时电流，使空调器按照调节后的电流运行，进而实现节能。Specifically, the outdoor environment is obtained and compared with the preset ambient temperature, and the real-time current of the air conditioner is adjusted accordingly according to the comparison result between the preset ambient temperature and the actual outdoor environment temperature, so that the air conditioner operates according to the adjusted current, Thereby realizing energy saving.

本实施例提供的空调器控制方法，通过获取室外环境温度并检测空调器的实时电流，在开启空调器的节能模式后，对比室外环境温度以及预设的环境温度信息，根据对比结果调节空调器的实时电流使空调器以调节后的电流运行；这种控制方法根据空调器当前的实际运行情况以及实际室外环境温度，调节空调器的实时电流实现节能，智能性好，且有效降低了用户在使用节能模式时对舒适度的影响。The air conditioner control method provided in this embodiment obtains the outdoor ambient temperature and detects the real-time current of the air conditioner, after turning on the energy-saving mode of the air conditioner, compares the outdoor ambient temperature with the preset ambient temperature information, and adjusts the air conditioner according to the comparison result The real-time current of the air conditioner makes the air conditioner run at the adjusted current; this control method adjusts the real-time current of the air conditioner according to the current actual operation of the air conditioner and the actual outdoor ambient temperature to achieve energy saving, is intelligent, and effectively reduces the user’s operating time. Impact on comfort when using Eco mode.

进一步地，调节空调器的实时电流具体为：调节空调器的总电源线处的实时电流。空调器的总电源线用于插拔连接于外部插座，即本实施例提出对空调器的总输入电流进行调控。由于空调器的控制电路包括送电控制电路，因此，可直接通过空调器自身的控制器通过控制送电控制电路实现对输入电流的调控，简便易操作。Further, adjusting the real-time current of the air conditioner specifically includes: adjusting the real-time current at the main power line of the air conditioner. The main power cord of the air conditioner is used to be plugged and connected to an external socket, that is, this embodiment proposes to regulate the total input current of the air conditioner. Since the control circuit of the air conditioner includes a power transmission control circuit, the input current can be regulated directly through the controller of the air conditioner itself by controlling the power transmission control circuit, which is simple and easy to operate.

进一步地，本实施例提供的空调器控制方法，根据室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流包括：获取空调器按照当前设定条件运行的理论电流；在室外环境温度小于第一预设环境温度时，调节空调器的实时电流，使得实时电流小于理论电流。具体的，在室外环境温度小于第一预设环境温度且空调器处于制冷工况时，调节空调器的实时电流，使得实时电流小于理论电流。Further, in the air conditioner control method provided in this embodiment, adjusting the real-time current of the air conditioner according to the outdoor ambient temperature and preset ambient temperature information includes: obtaining the theoretical current of the air conditioner operating according to the current setting conditions; When the ambient temperature is lower than the first preset ambient temperature, the real-time current of the air conditioner is adjusted so that the real-time current is smaller than the theoretical current. Specifically, when the outdoor ambient temperature is lower than the first preset ambient temperature and the air conditioner is in cooling mode, the real-time current of the air conditioner is adjusted so that the real-time current is smaller than the theoretical current.

空调器的设定条件不同，运行状态也会不同，空调器对应的理论电流也是不同的。获取空调器按照当前设定条件下运行的理论电流，即开启空调器后，用户会根据室外的环境温度或者用户需求对空调器的运行模式进行设定，本实施例是针对不同情况下的空调器制冷模式时空调的运行情况。The setting conditions of the air conditioner are different, the operating status will be different, and the corresponding theoretical current of the air conditioner is also different. Obtain the theoretical current of the air conditioner operating under the current setting conditions, that is, after turning on the air conditioner, the user will set the operating mode of the air conditioner according to the outdoor ambient temperature or user needs. This embodiment is for the air conditioner in different situations. The operation status of the air conditioner in cooling mode.

空调器的设定条件具体包括空调器的设定目标温度、设定风速等用户在开启空调器时设定的运行条件。空调器常规运行时，是按照设定条件下对应的理论电流进行运行。本实施例中降低空调器的实时电流是在理论电流的基础上再进行降低，使得空调器的实际输入电流小于理论电流。The setting conditions of the air conditioner specifically include operating conditions set by a user when turning on the air conditioner, such as a set target temperature and a set wind speed of the air conditioner. When the air conditioner is in normal operation, it operates according to the corresponding theoretical current under the set conditions. In this embodiment, the real-time current of the air conditioner is reduced on the basis of the theoretical current, so that the actual input current of the air conditioner is smaller than the theoretical current.

进一步地，在室外环境温度小于第一预设环境温度时，调节空调器的实时电流，使得实时电流小于理论电流。具体的，用户根据室外环境温度以及用户需求设定了空调器的运行状态，设定第一预设环境温度信息，并检测了此状态下空调器的理论电流，开启空调器的节能模式后，将室外环境温度与第一预设环境温度进行对比，在室外的环境温度小于第一预设环境温度时，降低空调器的实时电流，使空调器的实时电流小于此时空调器运行状态下的理论电流，空调器按照降低后的理论电流运行，进而实现了空调器在一定程度下的节能。Further, when the outdoor ambient temperature is lower than the first preset ambient temperature, the real-time current of the air conditioner is adjusted so that the real-time current is smaller than the theoretical current. Specifically, the user sets the operating state of the air conditioner according to the outdoor ambient temperature and user needs, sets the first preset ambient temperature information, and detects the theoretical current of the air conditioner in this state. After turning on the energy-saving mode of the air conditioner, Comparing the outdoor ambient temperature with the first preset ambient temperature, and reducing the real-time current of the air conditioner when the outdoor ambient temperature is lower than the first preset ambient temperature, so that the real-time current of the air conditioner is lower than that under the operating state of the air conditioner at this time Theoretical current, the air conditioner operates according to the reduced theoretical current, thereby realizing the energy saving of the air conditioner to a certain extent.

在上述实施例的基础上，参考图2，在室外环境温度小于第一预设环境温度时，调节空调器的实时电流，使得实时电流小于理论电流包括：在室外环境温度小于第一预设环境温度，且大于等于第二预设环境温度时，限制空调器的实时电流为理论电流的75％-85％；具体的，根据室外环境温度，设定空调器的运行状态，即设定空调器为制冷模式下并获取此时空调器运行状态下的理论电流；开启空调器的节能模式后，根据设定第一预设环境温度、第二预设环境温度以及室外环境温度，在室外环境温度大于等于第二预设环境温度，且小于第一预设环境温度时，限制空调器的实时电流，使得空调器的实时电流为理论电流的75％-80％，即此时空调器将按照理论电流的75％-80％继续运行；即空调器可以按照此时空调器理论电流的75％继续运行；空调器也可以按照理论电流的85％继续运行；或者空调器按照理论电流的80％继续运行等，关于空调器的实时电流的限制量不做具体限制，使空调器的实时电流小于理论电流即可。On the basis of the foregoing embodiments, with reference to FIG. 2 , when the outdoor ambient temperature is lower than the first preset ambient temperature, adjusting the real-time current of the air conditioner so that the real-time current is less than the theoretical current includes: when the outdoor ambient temperature is lower than the first preset ambient temperature temperature, and is greater than or equal to the second preset ambient temperature, limit the real-time current of the air conditioner to 75%-85% of the theoretical current; specifically, set the operating state of the air conditioner according to the outdoor ambient temperature, that is, set the air conditioner In the cooling mode and obtain the theoretical current of the air conditioner in the running state at this time; after the energy-saving mode of the air conditioner is turned on, according to the setting of the first preset ambient temperature, the second preset ambient temperature and the outdoor ambient temperature, the outdoor ambient temperature When it is greater than or equal to the second preset ambient temperature and lower than the first preset ambient temperature, limit the real-time current of the air conditioner so that the real-time current of the air conditioner is 75%-80% of the theoretical current, that is, the air conditioner will operate according to the theoretical current. 75%-80% of the current continues to run; that is, the air conditioner can continue to operate at 75% of the theoretical current of the air conditioner at this time; the air conditioner can also continue to operate at 85% of the theoretical current; or the air conditioner can continue to operate at 80% of the theoretical current There is no specific limitation on the real-time current limit of the air conditioner, such as operation, etc., as long as the real-time current of the air conditioner is smaller than the theoretical current.

在一个优选实施例中，设定第一预设环境温度为40℃，第二预设环境温度为35℃，当室外环境温度大于等于35℃，且小于40℃时，设定空调器为制冷模式，获取此时空调器运行状态下的理论电流；开启节能模式，限制空调器的实时电流为理论电流的80％，即此时的实时电流为理论电流的80％，空调器将按照理论电流的80％继续运行，降低了空调器的用电量，进而实现了节能。In a preferred embodiment, the first preset ambient temperature is set to 40°C, and the second preset ambient temperature is set to 35°C. When the outdoor ambient temperature is greater than or equal to 35°C and less than 40°C, the air conditioner is set to cooling Mode, to obtain the theoretical current of the air conditioner in the running state at this time; turn on the energy-saving mode, limit the real-time current of the air conditioner to 80% of the theoretical current, that is, the real-time current at this time is 80% of the theoretical current, and the air conditioner will operate according to the theoretical current 80% of the air conditioner continues to run, which reduces the power consumption of the air conditioner, thereby realizing energy saving.

在室外环境温度小于第二预设环境温度，且大于等于第三预设环境温度时，限制空调器的实时电流为所述理论电流的65％-75％；具体的，根据室外环境温度，设定空调器的运行状态，即设定制冷模式并获取此时空调器状态下的理论电流；开启空调器的节能模式后，根据设定的第二预设环境温度、第三预设环境温度以及室外环境温度，在室外环境温度大于等于第三预设环境温度，且小于第二预设环境温度时，限制空调器的实时电流，使得空调器的实时电流为理论电流的65％-75％，即此时空调器将按照理论电流的65％-75％继续运行；即空调器可以按照理论电流的65％继续运行；空调器也可以按照理论电流的70％继续运行；或者空调器按照理论电流的75％继续运行等，关于空调器的实时电流的限制量不做具体限定，使空调器的实时电流小于理论电流即可。When the outdoor ambient temperature is less than the second preset ambient temperature and greater than or equal to the third preset ambient temperature, limit the real-time current of the air conditioner to 65%-75% of the theoretical current; specifically, according to the outdoor ambient temperature, set Determine the operating state of the air conditioner, that is, set the cooling mode and obtain the theoretical current of the air conditioner at this time; after turning on the energy-saving mode of the air conditioner, according to the set second preset ambient temperature, third preset ambient temperature and Outdoor ambient temperature, when the outdoor ambient temperature is greater than or equal to the third preset ambient temperature and lower than the second preset ambient temperature, limit the real-time current of the air conditioner so that the real-time current of the air conditioner is 65%-75% of the theoretical current, That is to say, the air conditioner will continue to run at 65%-75% of the theoretical current; that is, the air conditioner can continue to run at 65% of the theoretical current; the air conditioner can also continue to run at 70% of the theoretical current; or the air conditioner can continue to run at the theoretical current 75% of the air conditioner continues to run, etc. There is no specific limit on the limit of the real-time current of the air conditioner, and it only needs to make the real-time current of the air conditioner smaller than the theoretical current.

在一个优选实施例中，设定第三预设环境温度为30℃，当室外环境温度大于等于30℃，且小于35℃时，设定空调器为制冷模式并获取此时空调器运行状态下的理论电流；开启节能模式，限制空调器的实时电流为理论电流的70％，即此时空调器的实时电流为理论电流的70％，空调器将上按照理论电流的70％继续运行，降低了空调器的用电量，进而实现了节能。In a preferred embodiment, the third preset ambient temperature is set to 30°C, and when the outdoor ambient temperature is greater than or equal to 30°C and less than 35°C, the air conditioner is set to the cooling mode and the current condition of the air conditioner is obtained. The theoretical current; turn on the energy-saving mode, limit the real-time current of the air conditioner to 70% of the theoretical current, that is, the real-time current of the air conditioner is 70% of the theoretical current at this time, and the air conditioner will continue to run at 70% of the theoretical current. The power consumption of the air conditioner is reduced, thereby realizing energy saving.

在室外环境温度小于第三预设环境温度，且大于等于第四预设环境温度时，限制空调器的实时电流为理论电流的45％-55％；具体的，根据室外环境温度，设定空调器的运行状态，即设置空调器为制冷模式并获取此时空调器状态下的理论电流；开启空调器的节能模式后，根据设定的第三预设环境温度、第四预设环境温度以及室外环境温度，在室外环境温度大于等于第四预设环境温度，且小于第三预设环境温度时，限制空调器的实时电流，使得空调器的实时电流为理论电流的45％-55％，即此时空调器将按照理论电流的45％-55％继续运行；即空调器可以按照此时空调器理论电流的45％继续运行；空调器也可以按照此时理论电流的50％继续运行；或者空调器按照此时理论电流的55％继续运行等，关于空调器的实时电流的限制量不做具体限定，使空调器的实时电流小于理论电流即可。When the outdoor ambient temperature is less than the third preset ambient temperature and greater than or equal to the fourth preset ambient temperature, limit the real-time current of the air conditioner to 45%-55% of the theoretical current; specifically, set the air conditioner according to the outdoor ambient temperature The operating state of the air conditioner, that is, set the air conditioner to cooling mode and obtain the theoretical current of the air conditioner at this time; after turning on the energy-saving mode of the air conditioner, according to the set third preset ambient temperature, fourth preset ambient temperature and Outdoor ambient temperature, when the outdoor ambient temperature is greater than or equal to the fourth preset ambient temperature and lower than the third preset ambient temperature, limit the real-time current of the air conditioner so that the real-time current of the air conditioner is 45%-55% of the theoretical current, That is, the air conditioner will continue to run at 45%-55% of the theoretical current at this time; that is, the air conditioner can continue to run at 45% of the theoretical current of the air conditioner at this time; the air conditioner can also continue to run at 50% of the theoretical current at this time; Or the air conditioner continues to operate according to 55% of the theoretical current at this time, etc. There is no specific limitation on the limit amount of the real-time current of the air conditioner, and the real-time current of the air conditioner can be lower than the theoretical current.

在一个优选实施例中，设定第四预设环境温度为20℃，在室外环境温度大于等于20℃，且小于30℃时，设定空调器为制冷模式并获取此时空调器运行状态下的理论电流；开启节能模式，限制空调器的实时电流为理论电流的50％，即此时空调器的实时电流为理论电流的50％，空调器将按照理论电流的50％继续运行，降低了空调器的用电量，进而是实现了节能。In a preferred embodiment, the fourth preset ambient temperature is set to 20°C. When the outdoor ambient temperature is greater than or equal to 20°C and less than 30°C, the air conditioner is set to the cooling mode and the air conditioner is in the operating state at this time. The theoretical current; turn on the energy-saving mode, limit the real-time current of the air conditioner to 50% of the theoretical current, that is, the real-time current of the air conditioner is 50% of the theoretical current, and the air conditioner will continue to run according to 50% of the theoretical current, reducing the The power consumption of the air conditioner, and then realize the energy saving.

本实施针对不同的室外环境温度，设置不同的节能方式，即通过限制实时电流的大小，使空调器在不同温度下按照不同的电流运行，相对于现有技术中空调器固定的开启方式，更加智能，提升了用户的体验。In this implementation, different energy-saving methods are set for different outdoor ambient temperatures, that is, by limiting the size of the real-time current, the air conditioner can be operated at different temperatures at different currents. Compared with the fixed opening method of the air conditioner in the prior art, it is more efficient Intelligence improves user experience.

本实施例中，关于第一预设环境温度、第二预设环境温度、第三预设环境温度以及第四预设环境温度不做具体限定，第一预设环境温度可以是37℃，第二预设环境温度可以是32℃，第三预设环境温度可以是27℃，第四预设环境温度可以是20℃。In this embodiment, there are no specific limitations on the first preset ambient temperature, the second preset ambient temperature, the third preset ambient temperature, and the fourth preset ambient temperature. The first preset ambient temperature may be 37° C. The second preset ambient temperature may be 32°C, the third preset ambient temperature may be 27°C, and the fourth preset ambient temperature may be 20°C.

其中，第一预设环境温度大于第二预设环境温度，第二预设环境温度大于第三预设环境温度；第三预设环境温度大于第四预设环境温度。Wherein, the first preset ambient temperature is higher than the second preset ambient temperature, the second preset ambient temperature is higher than the third preset ambient temperature; the third preset ambient temperature is higher than the fourth preset ambient temperature.

进一步地，获取空调器按照当前设定条件运行的理论电流具体包括：可先控制空调器按照设定条件正常运行，空调器正常运行预设时间(可为1秒或3秒等)后，监测获取空调器按照设定条件运行时的理论电流；然后再控制降低空调器的输入电流，使得输入电流小于理论电流。或者，可通过理论计算获取空调器按照设定条件运行时的理论电流，然后基于理论电流降低空调器的输入电流。Further, obtaining the theoretical current of the air conditioner operating according to the current setting conditions specifically includes: first controlling the air conditioner to operate normally according to the setting conditions, and then monitoring Obtain the theoretical current when the air conditioner operates according to the set conditions; then control and reduce the input current of the air conditioner so that the input current is less than the theoretical current. Alternatively, the theoretical current when the air conditioner operates according to the set conditions can be obtained through theoretical calculation, and then the input current of the air conditioner can be reduced based on the theoretical current.

在上述实施例的基础上，根据室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流还包括：在室外环境温度大于等于第一预设环境温度时，或在室外环境温度小于第五预设环境温度时，空调器的理论电流为实时电流；其中第五预设环境温度小于第四预设环境温度。On the basis of the above embodiments, adjusting the real-time current of the air conditioner according to the outdoor ambient temperature and preset ambient temperature information further includes: when the outdoor ambient temperature is greater than or equal to the first preset ambient temperature, or when the outdoor ambient temperature When it is lower than the fifth preset ambient temperature, the theoretical current of the air conditioner is a real-time current; wherein the fifth preset ambient temperature is lower than the fourth preset ambient temperature.

在一个实施例中，开启空调器，根据室外环境温度设置空调器为制冷模式并获取空调器在此运行状态下的理论电流；在室外环境温度大于等于第一预设环境温度时，即室外环境温度大于等于40℃时，关闭空调的节能模式，此时空调器将按照空调器的理论电流运行。在室外环境温度小于第五预设环境温度时，且第五预设环境温度小于第四预设环境温度，此时室外环境温度较低，无需开启空调器的制冷模式和节能模式，即此时空调器将按照空调器的理论电流继续运行。In one embodiment, turn on the air conditioner, set the air conditioner to cooling mode according to the outdoor ambient temperature and obtain the theoretical current of the air conditioner in this operating state; when the outdoor ambient temperature is greater than or equal to the first preset ambient temperature, that is, the outdoor environment When the temperature is greater than or equal to 40°C, the energy-saving mode of the air conditioner is turned off, and the air conditioner will run according to the theoretical current of the air conditioner. When the outdoor ambient temperature is lower than the fifth preset ambient temperature, and the fifth preset ambient temperature is lower than the fourth preset ambient temperature, the outdoor ambient temperature is relatively low at this time, and there is no need to turn on the cooling mode and energy-saving mode of the air conditioner, that is, at this time The air conditioner will continue to operate according to the theoretical current of the air conditioner.

在一个优选实施例中，第五预设环境温度为15℃，且第五预设环境温度小于第四预设环境温度。In a preferred embodiment, the fifth preset ambient temperature is 15° C., and the fifth preset ambient temperature is lower than the fourth preset ambient temperature.

进一步地，在室外环境温度小于第一预设环境温度时，调节空调器的实时电流，使得实时电流小于理论电流还包括：获取空调器设定的目标温度；目标温度越高，调节空调器的实时电流使得实时电流越低。Further, when the outdoor ambient temperature is lower than the first preset ambient temperature, adjusting the real-time current of the air conditioner so that the real-time current is smaller than the theoretical current also includes: obtaining the target temperature set by the air conditioner; the higher the target temperature, adjusting the The real current makes the real current lower.

在一个实施例中，检测室外环境温度，室外环境温度小于第一预设环境温度，且开启空调的制冷模式时，根据室外环境温度以及用户需求设定空调器的目标温度，获取空调器此时的理论电流，限制空调器的实时电流，具体的，室外环境温度一定时，空调器的设定目标温度越高，即说明用户对空调器制冷量的需求越小，可控制空调器的理论电流被限制的越多，即空调器的实时电流越小。In one embodiment, when the outdoor ambient temperature is detected and the outdoor ambient temperature is lower than the first preset ambient temperature, and the cooling mode of the air conditioner is turned on, the target temperature of the air conditioner is set according to the outdoor ambient temperature and user requirements, and the air conditioner at this time is obtained. The theoretical current of the air conditioner limits the real-time current of the air conditioner. Specifically, when the outdoor ambient temperature is constant, the higher the target temperature of the air conditioner is, it means that the user's demand for the cooling capacity of the air conditioner is smaller, and the theoretical current of the air conditioner can be controlled. The more it is limited, the smaller the real-time current of the air conditioner.

本实施例中具体考虑到用户的需求来进行降低实时电流节能，可适用于不同的应用情景，进一步提高该节能控制的智能性，提升用户体验。例如，在夏季白天或者室内人员人数较多时，用户相应会降低设定的目标温度(例如设为22℃)，即说明用户对空调器制冷量的需求较大，此时，可相应减小实时电流的降低程度，以满足制冷量需求；而在夏季夜晚或者室内人员较少时，用户相应会提高设定的目标温度(例如设为26℃)，即说明用户对空调器制冷量的需求较小，此时，可相应增大实时电流的降低程度，可更好的满足用户需求。In this embodiment, the real-time current energy saving is performed by specifically considering the needs of users, which is applicable to different application scenarios, further improves the intelligence of the energy saving control, and improves user experience. For example, during the daytime in summer or when there are many people in the room, the user will lower the set target temperature (for example, set it to 22°C), which means that the user has a greater demand for the cooling capacity of the air conditioner. At this time, the real-time temperature can be reduced accordingly. The degree of reduction of the current is to meet the demand for cooling capacity; and in summer nights or when there are fewer people in the room, the user will increase the set target temperature (for example, set it to 26°C), which means that the user has a higher demand for the cooling capacity of the air conditioner. At this time, the reduction degree of the real-time current can be increased correspondingly, which can better meet the needs of users.

本实施例中，关于空调的设定温度也不作具体限定，可以根据室外环境温度以及用户的需求进行设定。In this embodiment, there is no specific limitation on the set temperature of the air conditioner, which may be set according to the outdoor ambient temperature and the user's requirements.

进一步地，接收节能模式开启信号具体包括：获取室内实时温度；在室内实时温度与空调器设定温度之间的温度差小于等于预设温度范围时，开启节能模式。Further, receiving the energy-saving mode activation signal specifically includes: obtaining the real-time indoor temperature; when the temperature difference between the real-time indoor temperature and the set temperature of the air conditioner is less than or equal to the preset temperature range, enabling the energy-saving mode.

在一个优选实施例中，用户根据室外环境温度以及用户需求设置空调器为制冷模式，以及制冷模式下空调的目标温度，并实时检测室内的环境温度，在室内环境温度与设定的空调器的目标温度之间的温度差小于等于预设温度范围时，开启节能模式，不仅可以实现节能，也可以降低空调器因节能对用户舒适度的影响。具体的，开启空调，用户根据室外环境温度以及用户的需求设置空调器处于制冷模式，设置的目标温度为25℃，设置室内环境温度与目标温度之间的温度差为3℃，实时检测室内的环境温度，在室内环境温度接近25℃时，可以是26℃，或27℃，或28℃时，开启空调器的节能模式，既可以满足用户的制冷效果，又可以在一定程度上节约能量，提高了用户的体验。In a preferred embodiment, the user sets the air conditioner to cooling mode according to the outdoor ambient temperature and user needs, and the target temperature of the air conditioner in the cooling mode, and detects the indoor ambient temperature in real time. When the temperature difference between the target temperatures is less than or equal to the preset temperature range, the energy-saving mode is turned on, which can not only achieve energy saving, but also reduce the impact of the air conditioner on user comfort due to energy saving. Specifically, when the air conditioner is turned on, the user sets the air conditioner in cooling mode according to the outdoor ambient temperature and the user's needs, sets the target temperature to 25°C, sets the temperature difference between the indoor ambient temperature and the target temperature to 3°C, and detects the indoor temperature in real time. Ambient temperature, when the indoor ambient temperature is close to 25°C, it can be 26°C, or 27°C, or 28°C, turn on the energy-saving mode of the air conditioner, which can not only meet the cooling effect of the user, but also save energy to a certain extent. Improved user experience.

本实施例中，关于空调器的预设温度范围可以根据用户的实际需求进行设定，可以是1-3℃也可以是2-5℃，不做具体限定。In this embodiment, the preset temperature range of the air conditioner may be set according to the actual needs of the user, and may be 1-3°C or 2-5°C, which is not specifically limited.

进一步地，本实施例提供的空调器控制方法，还包括：接收用户发送的实时电流调节指令；根据实时电流调节指令，控制空调器的实时电流。也就是说，用户可以根据实际需求控制空调器的实时电流，具体的，空调器在制冷模式运行和/或节能模式下运行时，用户可以采用语音、遥控或者APP控制空调器的实时电流，根据当前空调器的运行以及用户的需求调节空调器的实时电流，更加智能，用户体验感更好。即在上述各实施例提供的实时电流控制逻辑执行过程中，用户如果对当前空调器控制效果不满意，均可对实时电流进行人工调节，向空调器发送调节指令，空调器会根据用户发送的调节指令进行实时电流的调节，以保证用户体验。Further, the air conditioner control method provided in this embodiment further includes: receiving a real-time current adjustment instruction sent by a user; and controlling the real-time current of the air conditioner according to the real-time current adjustment instruction. That is to say, the user can control the real-time current of the air conditioner according to actual needs. Specifically, when the air conditioner is running in cooling mode and/or energy-saving mode, the user can use voice, remote control or APP to control the real-time current of the air conditioner. The current operation of the air conditioner and the needs of users adjust the real-time current of the air conditioner, which is more intelligent and the user experience is better. That is, during the execution of the real-time current control logic provided by the above-mentioned embodiments, if the user is not satisfied with the current control effect of the air conditioner, he can manually adjust the real-time current and send adjustment instructions to the air conditioner, and the air conditioner will adjust The adjustment command performs real-time current adjustment to ensure user experience.

在一个实施例中，空调正在运行过程中，用户根据室内环境温度以及需求，增大或减小实时电流，空调器此时的实时电流可以是理论电流的0～1倍，即可直接关闭空调器，或者空调器运行时的实时电流为理论电流，也可以是理论电流的0.5倍等，这种控制方法不仅可以实现用户的智能调节，也可以在用户的需求下实现节能。In one embodiment, when the air conditioner is running, the user increases or decreases the real-time current according to the indoor ambient temperature and demand. The real-time current of the air conditioner at this time can be 0 to 1 times the theoretical current, and the air conditioner can be turned off directly. Air conditioner, or the real-time current when the air conditioner is running is the theoretical current, or it can be 0.5 times the theoretical current, etc. This control method can not only realize the intelligent adjustment of the user, but also realize energy saving under the user's demand.

下面对本申请提供的空调器控制装置进行描述，下文描述的空调器控制装置与上文描述的空调器控制方法可相互对应参照。The air conditioner control device provided in the present application is described below, and the air conditioner control device described below and the air conditioner control method described above can be referred to in correspondence.

本实施例提供一种空调器控制装置，该空调器控制装置用于执行上述空调器控制方法，该空调器控制装置包括：获取模块：获取室外环境温度；检测模块：检测空调器的实时电流；控制模块：接收节能模式开启信号，根据室外环境温度以及预设的环境温度信息，调节空调器的实时电流。This embodiment provides an air conditioner control device, the air conditioner control device is used to execute the above air conditioner control method, the air conditioner control device includes: acquisition module: acquire outdoor ambient temperature; detection module: detect real-time current of the air conditioner; Control module: receive the energy-saving mode start signal, and adjust the real-time current of the air conditioner according to the outdoor ambient temperature and the preset ambient temperature information.

在一个实施例中，空调器通过获取模块获取室外环境温度；通过检测模块获取空调器的实时电流；控制模块在接收到节能模式的开启信号时，在室外环境温度小于第一预设环境温度时，进一步地，根据第二预设环境温度、第三预设环境温度、第四预设环境温度相应的调节空调器的实时电流，使空调器按照调节后的空调器的实时电流运行，可有效降低空调器的用电，实现节能。In one embodiment, the air conditioner obtains the outdoor ambient temperature through the acquisition module; obtains the real-time current of the air conditioner through the detection module; Further, according to the second preset ambient temperature, the third preset ambient temperature, and the fourth preset ambient temperature, the real-time current of the air conditioner is adjusted accordingly, so that the air conditioner operates according to the adjusted real-time current of the air conditioner, which can effectively Reduce the power consumption of the air conditioner and realize energy saving.

本实施例还提供一种空调器，包括上述的空调器控制装置，还包括温度传感器，温度传感器用于检测室内环境温度和室外环境温度。具体的，根据温度传感器实时获取室外环境温度，根据室外的环境温度以及预设的环境温度信息，调节空调器的实时电流；也可以根据温度传感器获取室内环境温度，在室内环境温度接近空调器设定的目标温度时，开启空调器的节能模式，限制空调器的实时电流，实现节能。This embodiment also provides an air conditioner, which includes the above-mentioned air conditioner control device, and further includes a temperature sensor for detecting indoor ambient temperature and outdoor ambient temperature. Specifically, the outdoor ambient temperature is obtained in real time according to the temperature sensor, and the real-time current of the air conditioner is adjusted according to the outdoor ambient temperature and preset ambient temperature information; the indoor ambient temperature can also be obtained according to the temperature sensor, and the indoor ambient temperature is close to the air conditioner setting. When the target temperature is set, the energy-saving mode of the air conditioner is turned on, and the real-time current of the air conditioner is limited to realize energy saving.

图3示例了一种电子设备的实体结构示意图，如图2所示，该电子设备可以包括：处理器(processor)31、通信接口(Communications Interface)33、存储器(memory)32和通信总线34，其中，处理器31，通信接口33，存储器32通过通信总线34完成相互间的通信。处理器31可以调用存储器32中的逻辑指令，以执行空调器控制方法，该方法包括：获取室外环境温度；检测空调器的实时电流；接收节能模式开启信号，根据室外环境温度以及预设的环境温度信息，调节空调器的实时电流。Fig. 3 illustrates the schematic diagram of the entity structure of a kind of electronic equipment, as shown in Fig. 2, this electronic equipment can comprise: processor (processor) 31, communication interface (Communications Interface) 33, memory (memory) 32 and communication bus 34, Wherein, the processor 31 , the communication interface 33 , and the memory 32 communicate with each other through the communication bus 34 . The processor 31 can call the logic instructions in the memory 32 to execute the air conditioner control method, the method includes: obtaining the outdoor ambient temperature; detecting the real-time current of the air conditioner; receiving the energy-saving mode start signal, according to the outdoor ambient temperature and the preset environment Temperature information, adjust the real-time current of the air conditioner.

此外，上述的存储器32中的逻辑指令可以通过软件功能单元的形式实现并作为独立的产品销售或使用时，可以存储在一个计算机可读取存储介质中。基于这样的理解，本申请的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的部分可以以软件产品的形式体现出来，该计算机软件产品存储在一个存储介质中，包括若干指令用以使得一台计算机设备(可以是个人计算机，服务器，或者网络设备等)执行本申请各个实施例所述方法的全部或部分步骤。而前述的存储介质包括：U盘、移动硬盘、只读存储器(ROM，Read-Only Memory)、随机存取存储器(RAM，Random Access Memory)、磁碟或者光盘等各种可以存储程序代码的介质。In addition, the above-mentioned logic instructions in the memory 32 can be implemented in the form of software function units and can be stored in a computer-readable storage medium when sold or used as an independent product. Based on this understanding, the technical solution of the present application is essentially or the part that contributes to the prior art or the part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium, including Several instructions are used to make a computer device (which may be a personal computer, a server, or a network device, etc.) execute all or part of the steps of the methods described in the various embodiments of the present application. The aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or optical disc, etc., which can store program codes. .

另一方面，本申请还提供一种计算机程序产品，所述计算机程序产品包括存储在非暂态计算机可读存储介质上的计算机程序，所述计算机程序包括程序指令，当所述程序指令被计算机执行时，计算机能够执行上述各方法所提供的空调器控制方法，该方法包括：获取室外环境温度；检测空调器的实时电流；接收节能模式开启信号，根据室外环境温度以及预设的环境温度信息，调节空调器的实时电流。On the other hand, the present application also provides a computer program product, the computer program product includes a computer program stored on a non-transitory computer-readable storage medium, the computer program includes program instructions, and when the program instructions are executed by a computer During execution, the computer can execute the air conditioner control method provided by the above methods, the method includes: obtaining the outdoor ambient temperature; detecting the real-time current of the air conditioner; , to adjust the real-time current of the air conditioner.

又一方面，本申请还提供一种非暂态计算机可读存储介质，其上存储有计算机程序，该计算机程序被处理器执行时实现以执行上述各提供的空调器控制方法，该方法包括：获取室外环境温度；检测空调器的实时电流；接收节能模式开启信号，根据室外环境温度以及预设的环境温度信息，调节空调器的实时电流。In yet another aspect, the present application also provides a non-transitory computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, it is implemented to perform the air conditioner control methods provided above, and the method includes: Obtain the outdoor ambient temperature; detect the real-time current of the air conditioner; receive the energy-saving mode start signal, and adjust the real-time current of the air conditioner according to the outdoor ambient temperature and the preset ambient temperature information.

以上所描述的装置实施例仅仅是示意性的，其中所述作为分离部件说明的单元可以是或者也可以不是物理上分开的，作为单元显示的部件可以是或者也可以不是物理单元，即可以位于一个地方，或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部模块来实现本实施例方案的目的。本领域普通技术人员在不付出创造性的劳动的情况下，即可以理解并实施。The device embodiments described above are only illustrative, and the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in One place, or it can be distributed to multiple network elements. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this embodiment. It can be understood and implemented by those skilled in the art without any creative efforts.

通过以上的实施方式的描述，本领域的技术人员可以清楚地了解到各实施方式可借助软件加必需的通用硬件平台的方式来实现，当然也可以通过硬件。基于这样的理解，上述技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来，该计算机软件产品可以存储在计算机可读存储介质中，如ROM/RAM、磁碟、光盘等，包括若干指令用以使得一台计算机设备(可以是个人计算机，服务器，或者网络设备等)执行各个实施例或者实施例的某些部分所述的方法。Through the above description of the implementations, those skilled in the art can clearly understand that each implementation can be implemented by means of software plus a necessary general hardware platform, and of course also by hardware. Based on this understanding, the essence of the above technical solution or the part that contributes to the prior art can be embodied in the form of software products, and the computer software products can be stored in computer-readable storage media, such as ROM/RAM, magnetic discs, optical discs, etc., including several instructions to make a computer device (which may be a personal computer, server, or network device, etc.) execute the methods described in various embodiments or some parts of the embodiments.

最后应说明的是：以上实施例仅用以说明本申请的技术方案，而非对其限制；尽管参照前述实施例对本申请进行了详细的说明，本领域的普通技术人员应当理解：其依然可以对前述各实施例所记载的技术方案进行修改，或者对其中部分技术特征进行等同替换；而这些修改或者替换，并不使相应技术方案的本质脱离本申请各实施例技术方案的精神和范围。Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, rather than limiting them; although the present application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: it can still Modifications are made to the technical solutions described in the foregoing embodiments, or equivalent replacements are made to some of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the various embodiments of the present application.

Claims

一种空调器控制方法，包括：A control method for an air conditioner, comprising:

获取室外环境温度；Obtain the outdoor ambient temperature;

检测空调器的实时电流；Detect the real-time current of the air conditioner;

接收节能模式开启信号，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流。The energy-saving mode start signal is received, and the real-time current of the air conditioner is adjusted according to the outdoor ambient temperature and preset ambient temperature information.
根据权利要求1所述的空调器控制方法，其中，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流包括：The air conditioner control method according to claim 1, wherein, according to the outdoor ambient temperature and preset ambient temperature information, adjusting the real-time current of the air conditioner comprises:

获取空调器按照当前设定条件运行的理论电流；Obtain the theoretical current of the air conditioner running according to the current setting conditions;

在所述室外环境温度小于第一预设环境温度时，调节空调器的所述实时电流，使得所述实时电流小于所述理论电流。When the outdoor ambient temperature is lower than a first preset ambient temperature, the real-time current of the air conditioner is adjusted so that the real-time current is smaller than the theoretical current.
根据权利要求2所述的空调器控制方法，其中，在所述室外环境温度小于第一预设环境温度时，调节空调器的所述实时电流，使得所述实时电流小于所述理论电流包括：The air conditioner control method according to claim 2, wherein when the outdoor ambient temperature is lower than a first preset ambient temperature, adjusting the real-time current of the air conditioner so that the real-time current is smaller than the theoretical current comprises:

在所述室外环境温度小于第一预设环境温度，且大于等于第二预设环境温度时，限制空调器的所述实时电流为所述理论电流的75％-85％；When the outdoor ambient temperature is less than the first preset ambient temperature and greater than or equal to the second preset ambient temperature, limit the real-time current of the air conditioner to 75%-85% of the theoretical current;

在所述室外环境温度小于第二预设环境温度，且大于等于第三预设环境温度时，限制空调器的所述实时电流为所述理论电流的65％-75％；When the outdoor ambient temperature is less than the second preset ambient temperature and greater than or equal to the third preset ambient temperature, limit the real-time current of the air conditioner to 65%-75% of the theoretical current;

在所述室外环境温度小于第三预设环境温度，且大于等于第四预设环境温度时，限制空调器的所述实时电流为所述理论电流的45％-55％。When the outdoor ambient temperature is less than the third preset ambient temperature and greater than or equal to the fourth preset ambient temperature, the real-time current of the air conditioner is limited to 45%-55% of the theoretical current.
根据权利要求3所述的空调器控制方法，其中，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流还包括：The air conditioner control method according to claim 3, wherein, according to the outdoor ambient temperature and preset ambient temperature information, adjusting the real-time current of the air conditioner further comprises:

在所述室外环境温度大于等于所述第一预设环境温度时，或在所述室外环境温度小于第五预设环境温度时，控制空调器的所述实时电流为所述理论电流；When the outdoor ambient temperature is greater than or equal to the first preset ambient temperature, or when the outdoor ambient temperature is lower than a fifth preset ambient temperature, the real-time current of the air conditioner is controlled to be the theoretical current;

其中所述第五预设环境温度小于所述第四预设环境温度。Wherein the fifth preset ambient temperature is lower than the fourth preset ambient temperature.
根据权利要求2所述的空调器控制方法，其中，在所述室外环境温度小于第一预设环境温度时，调节空调器的所述实时电流，使得所述实时电流小于所述理论电流还包括：The air conditioner control method according to claim 2, wherein when the outdoor ambient temperature is lower than a first preset ambient temperature, adjusting the real-time current of the air conditioner so that the real-time current is smaller than the theoretical current further includes :

获取空调器设定的目标温度；Obtain the target temperature set by the air conditioner;

所述目标温度越高，调节空调器的所述实时电流使得所述实时电流越低。The higher the target temperature is, the lower the real-time current is adjusted by adjusting the real-time current of the air conditioner.
根据权利要求1至5任一所述的空调器控制方法，其中，接收节能模式开启信号具体包括：The air conditioner control method according to any one of claims 1 to 5, wherein receiving the energy-saving mode start signal specifically includes:

获取室内实时温度；Obtain real-time indoor temperature;

在所述室内实时温度与所述空调器设定的目标温度之间的温度差小于等于预设温度范围时，开启节能模式。When the temperature difference between the real-time indoor temperature and the target temperature set by the air conditioner is less than or equal to a preset temperature range, the energy-saving mode is turned on.
根据权利要求1至5任一所述的空调器控制方法，其中，还包括：The air conditioner control method according to any one of claims 1 to 5, further comprising:

接收用户发送的实时电流调节指令；Receive real-time current adjustment instructions sent by users;

根据所述实时电流调节指令，控制空调器的所述实时电流。The real-time current of the air conditioner is controlled according to the real-time current regulation instruction.
一种空调器控制装置，包括：An air conditioner control device, comprising:

获取模块：获取室外环境温度；Obtaining module: obtaining the outdoor ambient temperature;

检测模块：检测空调器的实时电流；Detection module: detect the real-time current of the air conditioner;

控制模块：接收节能模式开启信号，根据所述室外环境温度以及预设的环境温度信息，调节空调器的所述实时电流。Control module: receiving an energy-saving mode start signal, and adjusting the real-time current of the air conditioner according to the outdoor ambient temperature and preset ambient temperature information.
一种空调器，其中，包括上述权利要求8所述的空调器控制装置，还包括温度传感器，所述温度传感器用于检测所述室外环境温度和室内环境温度。An air conditioner, comprising the air conditioner control device according to claim 8 above, and further comprising a temperature sensor for detecting the outdoor ambient temperature and the indoor ambient temperature.
一种电子设备，包括存储器、处理器及存储在所述存储器上并可在所述处理器上运行的计算机程序，其中，所述处理器执行所述程序时实现如权利要求1至7任一项所述空调器控制方法的步骤。An electronic device, comprising a memory, a processor, and a computer program stored on the memory and operable on the processor, wherein, when the processor executes the program, the computer program according to any one of claims 1 to 7 is realized. The steps of the air conditioner control method described in the item.