WO2017084449A1 - Remote smart control system, air-conditioning system having same, and control method - Google Patents

Abstract

A remote smart control system comprises a remote controller and a controller in signal connection to the remote controller, and further comprises an execution mechanism electrically connected to the controller and capable of executing a control operation. An operation interface of the remote controller comprises a main interface, the main interface comprises a smart key, and the control system can automatically judge a running mode of a controlled device so as to execute and operate, through the smart key, a plurality of functions on the controlled device. The remote smart control system replaces all original key modes, needing to be manually converted, with an automatic key by automatically judging a running mode, so the operation is simple and convenient, and the degree of intelligence is high. The present invention also relates to an air-conditioning system having the control system and a control method for control using the control system.

Description

遥控智能控制***、具有该***的空调***及控制方法Remote control intelligent control system, air conditioning system with the same and control method 技术领域Technical field

本发明属于控制技术领域，具体涉及一种遥控智能控制***、具有该***的空调***及控制方法。The invention belongs to the technical field of control, and in particular relates to a remote control intelligent control system, an air conditioning system with the same and a control method.

背景技术Background technique

现有的空调遥控器模式按键下有自动、制冷、除湿、送风、制热5种状态，一个遥控器界面上，包括手机APP界面有模式、风速、设定温度、扫风、开关等众多按键，缺陷在于用户操作复杂，智能化程度低。The existing air conditioner remote control mode buttons have five states: automatic, cooling, dehumidification, air supply, and heating. On one remote control interface, including the mobile APP interface, there are modes, wind speed, set temperature, sweeping, switch, and the like. The drawback of the button is that the user operation is complicated and the degree of intelligence is low.

由于现有技术中的空调遥控器存在着操作复杂、智能化程度较低的技术问题，因此本发明研究设计出一种遥控智能控制***、具有该***的空调***及控制方法，研究应用遥控器一键自动运行，配合空调自动判断运行模式，实现便捷应用，智能运行。Since the air conditioner remote controller of the prior art has technical problems of complicated operation and low degree of intelligence, the present invention studies and designs a remote control intelligent control system, an air conditioner system and a control method therewith, and a research application remote controller. One-button automatic operation, with the air conditioner automatically judges the operation mode, realizes convenient application and intelligent operation.

发明内容Summary of the invention

因此，本发明要解决的技术问题在于克服现有技术中的空调遥控器存在着操作复杂、智能化程度较低的缺陷，从而提供一种遥控智能控制***、具有该***的空调***及控制方法。Therefore, the technical problem to be solved by the present invention is to overcome the defects in the prior art air conditioner remote control that are complicated in operation and low in intelligence, thereby providing a remote control intelligent control system, an air conditioning system having the same, and a control method thereof .

本发明提供了一种遥控智能控制***，其包括遥控器和信号连接到所述遥控器的控制器，还包括电连接到所述控制器且能执行控制操作的执行机构，且所述遥控器的操作界面包括主界面，所述主界面上包括一个智能按键，所述控制***能够自动判断被控制设备的运行模式进而通过该智能按键对被控制设备实现多种功能的执行和操作。The present invention provides a remote control intelligent control system including a remote controller and a controller that is signally connected to the remote controller, and an actuator that is electrically connected to the controller and capable of performing a control operation, and the remote controller The operation interface includes a main interface, and the main interface includes a smart button, and the control system can automatically determine an operation mode of the controlled device, and then perform various functions and operations on the controlled device through the smart button.

优选地，所述遥控器的操作界面还包括能实现辅助控制操作的辅助界面，所述辅助界面上包括有多个操作按键。Preferably, the operation interface of the remote controller further includes an auxiliary interface capable of implementing an auxiliary control operation, and the auxiliary interface includes a plurality of operation buttons.

优选地，所述遥控器包括实际遥控器(即，被控制设备的遥控器)和/或手机APP(即，具有遥控功能的手机应用)。Preferably, the remote controller includes an actual remote controller (ie, a remote controller of the controlled device) and/or a mobile phone APP (ie, a mobile phone application having a remote control function).

优选地，所述实际遥控器为翻盖结构或滑盖结构。Preferably, the actual remote controller is a flip structure or a slide structure.

优选地，当所述遥控器的操作界面包括辅助界面时，手机APP界面包括上述的主界面和辅助界面，能通过点击或滑动的方式在上述主界面和辅助界面之间进行切换。 Preferably, when the operation interface of the remote controller includes an auxiliary interface, the mobile phone APP interface includes the above-mentioned main interface and auxiliary interface, and can be switched between the main interface and the auxiliary interface by clicking or sliding.

本发明还提供一种空调***，利用前述的遥控智能控制***对所述空调***进行控制，且所述执行机构包括内风机、外风机、电子膨胀阀和压缩机。The present invention also provides an air conditioning system that controls the air conditioning system using the aforementioned remote intelligent control system, and the actuator includes an inner fan, an outer fan, an electronic expansion valve, and a compressor.

优选地，当所述操作界面还包括辅助界面时，所述辅助界面上的多个操作按键包括制冷、制热、除湿、风速、扫风、停机、停机、温度加和温度减的操作按键。Preferably, when the operation interface further includes an auxiliary interface, the plurality of operation buttons on the auxiliary interface include operation buttons for cooling, heating, dehumidification, wind speed, sweeping, stopping, stopping, temperature addition and temperature reduction.

本发明还提供一种智能控制方法，其利用前述的遥控智能控制***对被控制设备进行控制。The present invention also provides an intelligent control method for controlling a controlled device by using the aforementioned remote intelligent control system.

优选地，所述主界面的默认状态为关机，按键所述智能按键1次，则控制所述被控制设备开机，且进入自动智能模式，被控制设备按自动智能模式运行，再按键所述智能按键1次，则控制所述被控制设备关机。Preferably, the default state of the main interface is shutdown, and when the smart button is pressed once, the controlled device is controlled to be powered on, and enters an automatic intelligent mode, and the controlled device operates in an automatic intelligent mode, and then presses the smart Pressing the button once will control the controlled device to shut down.

优选地，所述被控制设备为空调***时，根据获取的内环境温度T_内环、外环境温度T_外环、环境湿度RH、用户设定温度T_设定自动判断运行模式，实现自动智能模式运行。Preferably, the controlled air-conditioning equipment systems, according to the ambient temperature T acquired in the _{inner ring, the outer ring} outside the ambient temperature T, RH humidity environment, the user set temperature T _{is set to} automatically determine the mode of operation, the intelligent automatic mode run.

优选地，在所述自动智能模式运行过程中，通过对辅助界面中的制冷按键执行不同的按键次数实现多档制冷模式的运行，通过对辅助界面中的制热按键执行不同的按键次数实现多档制热模式的运行，通过对辅助界面中的除湿按键执行不同的按键次数实现多档除湿模式的运行。Preferably, during the operation of the automatic intelligent mode, the operation of the multi-speed cooling mode is implemented by executing different number of key times on the cooling button in the auxiliary interface, and implementing multiple key times by heating the heating button in the auxiliary interface The operation of the file heating mode realizes the operation of the multi-speed dehumidification mode by performing different number of key presses on the dehumidification button in the auxiliary interface.

优选地，通过控制内风机、外风机、电子膨胀阀和压缩机中的至少一个以控制实现多档模式的运行，多档模式包括多档制冷模式、多档制热模式、多档除湿模式。Preferably, the operation of the multi-speed mode is controlled by controlling at least one of the inner fan, the outer fan, the electronic expansion valve, and the compressor, and the multi-speed mode includes a multi-speed cooling mode, a multi-speed heating mode, and a multi-speed dehumidification mode.

优选地，通过操作辅助界面中的温度加、温度减的操作按键来加、减设定温度，实现自动提升温度和降低温度的结果；且根据设定的温度自动调节内风机的风速。Preferably, the set temperature is increased or decreased by operating the operation button of the temperature increase and the temperature decrease in the auxiliary interface to achieve the result of automatically raising the temperature and lowering the temperature; and automatically adjusting the wind speed of the inner fan according to the set temperature.

优选地，所述智能控制方法的自动开机模式为：根据T_外环选择模式温度控制曲线，根据所述模式温度控制曲线、T_内环、T_设定、RH确定空调***的工作模式，根据T_内环和T_设定的差值ΔT在所述工作模式下选择压缩机运行曲线。Preferably, the control method of automatic intelligent power mode: The temperature T _{of the outer ring} mode selection control curve, according to the control temperature profile mode, _{the inner ring} T, T _set, the operation mode determining RH air-conditioning system, according to T The difference ΔT _set by the _{inner ring} and T selects the compressor operating curve in the operating mode.

优选地，确定空调***的工作模式包括：基于所述模式温度控制曲线确定T₁T₂RH₁RH₂，其中，T₁表示内环境温度补偿系数1，T₂表示内环境温度补偿系数2，RH₁表示制热湿度常数，RH₂表示制冷湿度常数；当T_内环≤T_设定-T₁+RH₁时，开机制热运行；当T_{设 定}+T₁+RH₂≥T_内环≥T_设定时，达到制冷状态，但未达到开机制冷运行的要求；当T_内环≥T_设定+T₂+RH₂时，开机制冷运行。Preferably, determining the operating mode of the air conditioning system comprises: determining T ₁ T ₂ RH ₁ RH ₂ based on the mode temperature control curve, wherein T ₁ represents an internal ambient temperature compensation coefficient 1 and T ₂ represents an internal ambient temperature compensation coefficient 2, RH ₁ denotes a heating constant humidity, RH ₂ represents a constant humidity refrigerant; when T ≤T _inner -T ₁ + RH _{1 is set,} the operation mechanism of heat; when the _set T + T ₁ + RH ₂ ≥T _inner ≥ When T is _set , the cooling state is reached, but the requirements for the startup cooling operation are not reached; when the T _{inner ring} ≥ T is _set + T ₂ + RH ₂ , the cooling operation is started.

优选地，所述压缩机运行曲线包括制冷压缩机运行曲线：ΔT＝RPM1+ΔRPM。其中，RPM1表示最小压缩机频率，ΔRPM表示压缩机调节常数。 Preferably, the compressor operating curve comprises a refrigeration compressor operating curve: ΔT = RPM1 + ΔRPM. Among them, RPM1 represents the minimum compressor frequency, and ΔRPM represents the compressor adjustment constant.

优选地，所述压缩机运行曲线包括制热压缩机运行曲线：ΔT＝RPM1-ΔRPM。其中，RPM1表示最小压缩机频率，ΔRPM表示压缩机调节常数。Preferably, the compressor operating curve comprises a heating compressor operating curve: ΔT = RPM1 - ΔRPM. Among them, RPM1 represents the minimum compressor frequency, and ΔRPM represents the compressor adjustment constant.

本发明提供的遥控智能控制***、具有该***的空调***及控制方法具有如下有益效果：The remote control intelligent control system provided by the invention, the air conditioning system and the control method therewith have the following beneficial effects:

1.通过自动判断运行模式而采用一个自动按键替代了原有所有的需要人为转换的按键模式，操作简单方便，智能化程度高；1. By automatically judging the operation mode and using an automatic button to replace all the original button modes that require manual conversion, the operation is simple and convenient, and the degree of intelligence is high;

2.当被控制设备为空调***时，其制冷、制热模式可选择多档运行状态，用户无需按键多次才能设定温度调节，操作简单方便，满足了大范围的功能需求，并且省电节能。2. When the controlled device is an air conditioning system, its cooling and heating modes can be selected in multiple operating states. The user can set the temperature adjustment without pressing the button multiple times. The operation is simple and convenient, meets a wide range of functional requirements, and saves electricity. Energy saving.

附图说明DRAWINGS

图1是本发明的遥控智能控制***的主界面的结构示意图；1 is a schematic structural view of a main interface of a remote control intelligent control system of the present invention;

图2是本发明的遥控智能控制***的辅助界面的结构示意图；2 is a schematic structural diagram of an auxiliary interface of the remote control intelligent control system of the present invention;

图3是本发明的遥控智能控制***的自动判断开机、停机、制热或制冷的曲线附表图。Fig. 3 is a chart showing the curve of the automatic remote control intelligent control system of the present invention for automatically determining the start, stop, heating or cooling.

具体实施方式detailed description

下面结合附图和实施例，对本发明的具体实施方式作进一步详细描述。以下实施例用于说明本发明，但不用来限制本发明的保护范围。The specific embodiments of the present invention are further described in detail below with reference to the drawings and embodiments. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

如图1所示，本发明提供一种遥控智能控制***，其包括遥控器(例如手机APP(即，具有遥控功能的手机应用)和/或实际遥控器(即，被控制设备的遥控器))和信号连接到所述遥控器的控制器，还包括电连接到所述控制器且能执行控制操作的执行机构，且所述遥控器的操作界面包括主界面，所述主界面包括一个智能按键，所述控制***能够自动判断被控制设备的运行模式进而通过该智能按键能够对被控制设备实现多功能的执行和操作(例如对空调进行开机、制冷、制热或停机等的操作)。例如，所述控制***可以通过控制器自动判断被控制设备的运行模式，通过该智能按键对执行机构进行操作，从而对被控制设备实现多功能的执行和操作。As shown in FIG. 1, the present invention provides a remote control intelligent control system including a remote controller (for example, a mobile phone APP (ie, a mobile phone application having a remote control function) and/or an actual remote controller (ie, a remote controller of the controlled device). And a controller connected to the remote controller, further comprising an actuator electrically connected to the controller and capable of performing a control operation, and the operation interface of the remote controller includes a main interface, the main interface including an intelligent By pressing a button, the control system can automatically determine an operation mode of the controlled device, and thereby can perform multi-function execution and operation on the controlled device through the smart button (for example, operation of turning on, cooling, heating, or stopping the air conditioner). For example, the control system can automatically determine the operation mode of the controlled device through the controller, and operate the actuator through the smart button, thereby implementing multi-function execution and operation on the controlled device.

通过控制***自动判断得出被控制设备的运行模式进而采用一个自动按键(智能按键)替代了原有所有的需要人为转换的按键模式，操作简单方便，智能化程度高；当被控制设备为空调***时，其制冷、制热模式可选择多档运行状态，用户无需按键多次才 能设定温度调节，操作简单方便，满足了大范围的功能需求，并且省电节能。The control system automatically judges the operating mode of the controlled device and replaces all the original button modes that require manual conversion with an automatic button (smart button). The operation is simple and convenient, and the degree of intelligence is high; when the controlled device is air conditioner In the system, the cooling and heating modes can be selected in multiple operating states, and the user does not need to press the button multiple times. It can set the temperature adjustment, the operation is simple and convenient, meets a wide range of functional requirements, and saves energy and energy.

优选地，所述遥控器的操作界面还包括能实现辅助控制操作的辅助界面，所述辅助界面上包括有多个操作按键。通过该辅助界面上的多个操作按键能够实现对被控制设备的人为控制和/或多种详细控制(例如对空调***进行开机、制冷、制热、停机、温度加、温度减、增大或减小风速等的操作)，以更广泛地满足用户的多方面的需求。Preferably, the operation interface of the remote controller further includes an auxiliary interface capable of implementing an auxiliary control operation, and the auxiliary interface includes a plurality of operation buttons. Man-made control and/or various detailed control of the controlled device can be realized by a plurality of operation buttons on the auxiliary interface (for example, starting, cooling, heating, stopping, temperature addition, temperature reduction, increase, or The operation of reducing the wind speed and the like) to more broadly satisfy the various needs of the user.

优选地，所述遥控器包括实际遥控器和/或手机APP(应用软件的简称)，通过所述实际遥控器和/或手机APP可分别实现对空调的操作控制。Preferably, the remote controller includes an actual remote controller and/or a mobile phone APP (abbreviation of application software), and the operation control of the air conditioner can be separately implemented by the actual remote controller and/or the mobile phone APP.

优选地，所述实际遥控器为翻盖结构或滑盖结构，通过翻盖结构或滑盖结构能够有效地实现在两个不同的结构界面之间进行切换。Preferably, the actual remote controller is a flip structure or a slide structure, and switching between two different structural interfaces can be effectively realized by the flip structure or the slide structure.

优选地，当所述遥控器包括辅助界面时，手机APP界面包括上述的主界面和辅助界面，能通过点击或滑动的方式在上述主界面和辅助界面之间进行切换。Preferably, when the remote controller includes an auxiliary interface, the mobile phone APP interface includes the above-mentioned main interface and auxiliary interface, and can switch between the main interface and the auxiliary interface by clicking or sliding.

本发明还提供了一种空调***，利用前述的遥控智能控制***对所述空调***进行控制，且所述执行机构包括内风机、外风机、电子膨胀阀和压缩机等。利用该遥控智能控制***对空调***的运行情况和/或模式进行控制，通过该主界面的一个智能按键能够实现对空调开机、制冷、制热、除湿或停机等多种功能的执行和操作。并且通过自动判断空调***的运行模式进而采用一个自动按键(智能按键)替代了原有所有的需要人为转换的按键模式，操作简单方便，智能化程度高；其制冷、制热模式可选择多档运行状态，用户无需按键多次才能设定温度调节，操作简单方便，满足了大范围的功能需求，并且省电节能。通过对内风机、外风机、电子膨胀阀和压缩机等进行操作从而实现空调开机、制冷、制热、除湿或停机等多种功能的执行和操作。The present invention also provides an air conditioning system that controls the air conditioning system using the aforementioned remote intelligent control system, and the actuator includes an inner fan, an outer fan, an electronic expansion valve, a compressor, and the like. The remote control intelligent control system is used to control the operation and/or mode of the air conditioning system, and a smart button of the main interface can realize the execution and operation of various functions such as starting, cooling, heating, dehumidifying or stopping the air conditioner. And by automatically judging the operation mode of the air conditioning system and then using an automatic button (smart button) to replace all the original button modes that require manual conversion, the operation is simple and convenient, and the degree of intelligence is high; the cooling and heating modes can be selected in multiple files. In the running state, the user can set the temperature adjustment without pressing the button multiple times, the operation is simple and convenient, meets a wide range of functional requirements, and saves energy and energy. Through the operation of the internal fan, the external fan, the electronic expansion valve and the compressor, the execution and operation of various functions such as air conditioning startup, cooling, heating, dehumidification or shutdown are realized.

优选地，当所述操作界面还包括辅助界面时，所述辅助界面上的多个操作按键包括制冷、制热、除湿、风速、扫风、停机、停机、温度加和温度减的操作按键。辅助界面是对主界面进行辅助的作用和/或对主界面上无法执行的功能进行补充的作用，这样既能够通过主界面执行智能控制和操作，又能通过辅助界面执行手动控制和操作，以更广泛地满足用户的多方面的需求。Preferably, when the operation interface further includes an auxiliary interface, the plurality of operation buttons on the auxiliary interface include operation buttons for cooling, heating, dehumidification, wind speed, sweeping, stopping, stopping, temperature addition and temperature reduction. The auxiliary interface is to assist the main interface and/or to supplement the functions that cannot be performed on the main interface, so that the intelligent control and operation can be performed through the main interface, and the manual control and operation can be performed through the auxiliary interface. More broadly meet the needs of users.

本发明还提供了一种智能控制方法，其利用前述的遥控智能控制***对被控制设备进行控制。这样能够通过自动判断被控制设备的运行模式进而采用一个自动按键(智能按键)替代了原有所有的需要人为转换的按键模式，操作简单方便，智能化程度高；当被控制设备为空调***时，其制冷、制热模式可选择多档运行状态，用户无需按键多次 才能设定温度调节，操作简单方便，满足了大范围的功能需求，并且省电节能。The present invention also provides an intelligent control method for controlling a controlled device by using the aforementioned remote intelligent control system. In this way, by automatically determining the operating mode of the controlled device and then using an automatic button (smart button) to replace all the original button modes that require manual conversion, the operation is simple and convenient, and the degree of intelligence is high; when the controlled device is an air conditioning system The cooling and heating modes can be selected in multiple operating states, and the user does not need to press the button multiple times. In order to set the temperature adjustment, the operation is simple and convenient, meets a wide range of functional requirements, and saves energy and energy.

优选地，所述主界面的默认状态为关机，按键所述智能按键1次，则控制被控制设备开机，且进入自动智能模式，被控制设备按自动智能模式运行，再按键所述智能按键1次，则控制被控制设备关机。这样便能实现一键开机自动智能模式运行，一键关机的便捷操作。Preferably, the default state of the main interface is shutdown, and the smart button is pressed once, then the controlled device is powered on, and enters the automatic intelligent mode, and the controlled device operates in the automatic intelligent mode, and then presses the smart button 1 Second, it controls the controlled device to shut down. In this way, one-button boot automatic intelligent mode operation can be realized, and one-button shutdown is convenient operation.

优选地，所述被控制设备为空调***时，根据T_内环(内环境温度)、T_外环(外环境温度)、RH(相对环境湿度)、用户T_设定(设定温度)自动判断运行模式，实现空调***的自动智能模式运行。其中，T_内环、T_外环可以通过温度采样获得，RH可以通过湿度采样获得，T_设定可以通过读取用户设置信息来获得。Preferably, when the controlled device is an air conditioning system, it is automatically determined according to T _{inner ring} (internal ambient temperature), T _{outer ring} (outer ambient temperature), RH (relative environmental humidity), and user T _setting (set temperature). The operation mode realizes the automatic intelligent mode operation of the air conditioning system. Among them, T _{inner ring} and T _{outer ring} can be obtained by temperature sampling, RH can be obtained by humidity sampling, and T _setting can be obtained by reading user setting information.

优选地，所述自动智能模式运行通过对智能按键执行不同的按键次数实现多档制冷、制热或除湿模式的运行。Preferably, the automatic smart mode operation enables operation of a multi-speed cooling, heating or dehumidification mode by performing different key press times on the smart keys.

优选地，通过控制内风机、外风机、电子膨胀阀和压缩机中的至少一个(优选控制压缩机的不同频率)以控制实现所述的多档模式的运行。Preferably, the operation of the multi-speed mode is achieved by controlling at least one of an inner fan, an outer fan, an electronic expansion valve, and a compressor, preferably controlling different frequencies of the compressor.

在自动智能模式运行过程中，通过对辅助界面中的制冷按键执行不同的按键次数实现多档制冷模式的运行，通过对辅助界面中的制热按键执行不同的按键次数实现多档制热模式的运行，通过对辅助界面中的除湿按键执行不同的按键次数实现多档除湿模式的运行。During the operation of the automatic intelligent mode, the operation of the multi-speed cooling mode is realized by executing different number of key times on the cooling button in the auxiliary interface, and the multi-speed heating mode is realized by performing different key times on the heating button in the auxiliary interface. In operation, the multi-speed dehumidification mode is operated by performing different number of key presses on the dehumidification button in the auxiliary interface.

进一步优选地，在需要制冷的情况下，针对辅助界面中的制冷按键，按一次实现快速制冷、按2次常规制冷和按3次凉风制冷，控制不同内风机、外风机电子膨胀阀和压缩机频率实现3档需求运行；在需要制热的情况下，针对辅助界面中的制热按键，按1次实现快速制热、按2次常规制热和按3次保温制热，控制不同内风机、外风机、电子膨胀阀、压缩机频率实现3档需求运行；在需要除湿的情况下，针对辅助界面中的除湿按键，按1次实现自动除湿、按2次恒温除湿和按3次干衣除湿，控制不同内风机、外风机、电子膨胀阀、压缩机频率实现3档需求运行。Further preferably, in the case where cooling is required, for the cooling button in the auxiliary interface, fast cooling is performed once, 2 times of conventional cooling and 3 times of cool air cooling are performed, and different internal fans, external fan electronic expansion valves and compression are controlled. The machine frequency realizes the 3rd gear demand operation; in the case of heating required, for the heating button in the auxiliary interface, the rapid heating is performed once, the conventional heating is performed twice, and the heating is controlled by 3 times, and the control is different. Fan, external fan, electronic expansion valve, compressor frequency to achieve 3 gear demand operation; in the case of dehumidification, for the dehumidification button in the auxiliary interface, to achieve automatic dehumidification once, 2 times constant temperature dehumidification and 3 times dry Dehumidification of clothes, control of different internal fans, external fans, electronic expansion valves, compressor frequency to achieve the three-speed demand operation.

优选地，通过加、减设定温度实现自动提升温度和降低温度的结果，其中，加、减设定温度可以通过操作操作辅助界面中的温度加、温度减的操作按键来实现；且根据设定的上述温度或湿度而自动调节内风机的风速。可以进一步实现增加、降低温度和/或湿度的目的。Preferably, the result of automatically raising and lowering the temperature is achieved by adding or subtracting the set temperature, wherein the setting and decreasing of the set temperature can be realized by operating the operation button of the temperature plus temperature minus in the operation auxiliary interface; The wind speed of the inner fan is automatically adjusted according to the above temperature or humidity. The purpose of increasing, lowering the temperature and/or humidity can be further achieved.

优选地，所述智能控制方法的自动开机模式为：先判断T_外环(外环境温度)，选择 模式温度控制曲线，再判断T_内环(内环境温度)和T_设定(设定温度)的差值ΔT，最后判断RH环境湿度，选择压缩机运行曲线。即，根据T_外环选择模式温度控制曲线，根据所述模式温度控制曲线、T_内环、T_设定、RH确定空调***的工作模式，根据T_内环和T_设定的差值ΔT在所述工作模式下选择压缩机运行曲线。从而实现对空调***的自动开机调节和控制。Preferably, the automatic startup mode of the intelligent control method is: first determining a T _{outer ring} (outer ambient temperature), selecting a mode temperature control curve, and then determining a T _{inner ring} (internal ambient temperature) and a T _setting (set temperature) The difference ΔT, finally determine the RH ambient humidity, select the compressor operating curve. That is, according to the T _{outer loop} selection mode temperature control curve, the operating mode of the air conditioning system is determined according to the mode temperature control curve, the T _{inner loop} , the T _setting , and the RH, and the difference ΔT _set according to the T _{inner loop} and the T is Select the compressor operating curve in the working mode. Thereby achieving automatic power-on adjustment and control of the air conditioning system.

空调***的工作模式例如可以采用以下方法确定：The working mode of the air conditioning system can be determined, for example, by the following method:

首先，基于模式温度控制曲线可以确定T₁T₂RH₁RH₂，其中，T₁表示内环境温度补偿系数1，T₂表示内环境温度补偿系数2，RH₁表示制热湿度常数，RH₂表示制冷湿度常数。First, T ₁ T ₂ RH ₁ RH ₂ can be determined based on the mode temperature control curve, where T ₁ represents the internal ambient temperature compensation coefficient 1, T ₂ represents the internal ambient temperature compensation coefficient 2, and RH ₁ represents the heating humidity constant, RH ₂ Indicates the cooling humidity constant.

然后，根据T_内环、T_设定、RH确定空调***的工作模式如下：Then, according to the T _{inner loop} , the T _setting , and the RH, the working mode of the air conditioning system is determined as follows:

优选地，当所述T_外环达到指定温度时，(如检测T外环境温度22℃)，且T_内环≤T_设定-T₁(内环温度补偿系数1)+RH₁(制热湿度常数)时开机制热。实现开机自动制热的操作。Preferably, when the _{outer ring} of T reaches a specified temperature (for example, detecting an external temperature of 22 ° C), and T _{inner ring} ≤ T _{set -} T ₁ (internal temperature compensation coefficient 1) + RH ₁ (heating) Humidity constant) when the mechanism is hot. Realize the operation of automatic heating when starting up.

优选地，当T_设定+T₁(内环温度补偿系数1)+RH₂(制冷湿度常数)≥T_内环≥T_设定时达到制冷状态，但未达到开机制冷运行的要求(即开机制冷停机状态)。实现开机自动制冷和停机的操作。其中，开机制冷停机状态例如可以将内风机打开，但压缩机和外风机不工作。Preferably, when T is _{set to} +T ₁ (internal temperature compensation coefficient 1)+RH ₂ (cooling humidity constant) ≥T _{inner ring} ≥T _setting , the cooling state is reached, but the requirement of the startup cooling operation is not reached (ie, the power is turned on) Cooling shutdown state). Enables automatic cooling and shutdown operations. Among them, the startup cooling shutdown state can open the internal fan, for example, but the compressor and the external fan do not work.

优选地，当T_内环≥T_设定+T₂(内环温度补偿系数2)+RH₂(制冷湿度常数)时开机制冷运行。实现空调***的开机自动制冷的操作。Preferably, the cooling operation is started when the T _{inner ring} ≥ T is _set + T ₂ (the inner ring temperature compensation coefficient 2) + RH ₂ (the cooling humidity constant). Realize the operation of the automatic cooling of the air conditioning system.

如图3所示，其为自动智能模式下自动判断空调***开机、停机、制热或制冷的曲线附表图：表中H表示自动制热；C表示自动制冷；N表示压缩机开；F表示压缩机关。As shown in Figure 3, it is a curve attached to the curve of automatic start-up, shutdown, heating or cooling of the air-conditioning system in automatic intelligent mode: H in the table indicates automatic heating; C indicates automatic cooling; N indicates compressor opening; Indicates that the compressor is off.

优选地，所述压缩机运行曲线包括制冷压缩机运行曲线：ΔT(为T_内环-T_设定)＝RPM1(最小压缩机频率)+ΔRPM(压缩机调节常数)。选择该曲线运行压缩机以完成制冷的目的和效果。此处压缩机调节常数为自动模式根据以上曲线附表判断模式后，如制冷模式：2(为ΔT)＝18℃(为T_内环)-16℃(为T_设定)；2(为RPM)＝1HZ(为最小压缩机频率)+1HZ(为ΔRPM)；ΔT＝RPM＝2，按以上规则常数进行调节。Preferably, said refrigerant compressor comprises a compressor operating curve operation curve: ΔT (T _{set inner} -T) = RPM1 (minimum compressor frequency) + ΔRPM (compressor regulation constant). Select this curve to run the compressor to accomplish the purpose and effect of the cooling. Here, the compressor adjustment constant is the automatic mode according to the above curve appendix judgment mode, such as the cooling mode: 2 (for ΔT) = 18 ° C (for T _{inner ring} ) - 16 ° C ( _set for T); 2 (for RPM) ) = 1HZ (for the minimum compressor frequency) + 1HZ (for ΔRPM); ΔT = RPM = 2, adjusted according to the above regular constant.

优选地，所述压缩机运行曲线包括制热压缩机运行曲线：ΔT(T_内环-T_设定)＝RPM1(最小压缩机频率)-ΔRPM(压缩机调节常数)。选择该曲线运行压缩机以完成制热的目的和效果。 Preferably, the compressor operating curve includes a heating compressor operating curve: ΔT (T _{inner loop-} T _setting ) = RPM1 (minimum compressor frequency) - ΔRPM (compressor adjustment constant). Select this curve to run the compressor to accomplish the purpose and effect of heating.

本领域的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。It will be readily understood by those skilled in the art that the above advantageous modes can be freely combined and superimposed without conflict.

以上所述仅为本发明的较佳实施例而已，并不用以限制本发明，凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等，均应包含在本发明的保护范围之内。以上所述仅是本发明的优选实施方式，应当指出，对于本技术领域的普通技术人员来说，在不脱离本发明技术原理的前提下，还可以做出若干改进和变型，这些改进和变型也应视为本发明的保护范围。 The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. Within the scope. The above is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make several improvements and modifications without departing from the technical principles of the present invention. It should also be considered as the scope of protection of the present invention.

Claims (16)

1. 一种遥控智能控制***，其特征在于：包括遥控器和信号连接到所述遥控器的控制器，还包括电连接到所述控制器且能执行控制操作的执行机构，且所述遥控器的操作界面包括主界面，所述主界面上包括一个智能按键，所述控制***能够自动判断被控制设备的运行模式进而通过所述智能按键对被控制设备实现多种功能的执行和操作。A remote control intelligent control system, comprising: a remote controller and a controller connected to the remote controller, further comprising an actuator electrically connected to the controller and capable of performing a control operation, and the remote controller The operation interface includes a main interface, and the main interface includes a smart button, and the control system can automatically determine an operation mode of the controlled device, and then implement and perform various functions on the controlled device through the smart button.
2. 根据权利要求1所述的遥控智能控制***，其特征在于：所述遥控器的操作界面还包括能实现辅助控制操作的辅助界面，所述辅助界面上包括有多个操作按键。The remote control intelligent control system according to claim 1, wherein the operation interface of the remote controller further comprises an auxiliary interface capable of implementing an auxiliary control operation, and the auxiliary interface comprises a plurality of operation buttons.
3. 根据权利要求1-2之一所述的遥控智能控制***，其特征在于：所述遥控器包括所述被控制设备的遥控器和/或具有遥控功能的手机应用。The remote control intelligent control system according to any one of claims 1 to 2, characterized in that the remote controller comprises a remote controller of the controlled device and/or a mobile phone application having a remote control function.
4. 根据权利要求3所述的遥控智能控制***，其特征在于：所述被控制设备的遥控器为翻盖结构或滑盖结构。The remote control intelligent control system according to claim 3, wherein the remote controller of the controlled device is a flip structure or a slide structure.
5. 根据权利要求3所述的遥控智能控制***，其特征在于：当所述遥控器的操作界面包括辅助界面时，手机应用界面包括主界面和辅助界面，能通过点击或滑动的方式在主界面和辅助界面之间进行切换。The remote control intelligent control system according to claim 3, wherein when the operation interface of the remote controller includes an auxiliary interface, the mobile application interface includes a main interface and an auxiliary interface, which can be clicked or swiped on the main interface and Switch between auxiliary interfaces.
6. 一种空调***，其特征在于：利用权利要求1-5之一所述的遥控智能控制***对所述空调***进行控制，且所述执行机构包括内风机、外风机、电子膨胀阀和压缩机。An air conditioning system, characterized in that the air conditioning system is controlled by a remote control intelligent control system according to any one of claims 1 to 5, and the actuator comprises an inner fan, an outer fan, an electronic expansion valve and a compressor .
7. 根据权利要求6所述的空调***，其特征在于：当所述操作界面还包括辅助界面时，所述辅助界面上的多个操作按键包括制冷、制热、除湿、风速、扫风、停机、停机、温度加和温度减的操作按键。The air conditioning system according to claim 6, wherein when the operation interface further comprises an auxiliary interface, the plurality of operation buttons on the auxiliary interface include cooling, heating, dehumidification, wind speed, sweeping, shutdown, Operation buttons for shutdown, temperature addition and temperature reduction.
8. 一种智能控制方法，其特征在于：利用权利要求1-5之一所述的遥控智能控制***对被控制设备进行控制。An intelligent control method is characterized in that the controlled device is controlled by the remote intelligent control system according to any one of claims 1-5.
9. 根据权利要求8所述的智能控制方法，其特征在于：所述主界面的默认状态为关机，按键所述智能按键1次，则控制所述被控制设备开机，且进入自动智能模式，被控制设备按自动智能模式运行，再按键所述智能按键1次，则控制所述被控制设备关机。The intelligent control method according to claim 8, wherein the default state of the main interface is shutdown, and when the smart button is pressed once, the controlled device is controlled to be powered on, and enters an automatic intelligent mode, and is controlled. The device operates in the automatic smart mode, and then presses the smart button once to control the controlled device to shut down.
10. 根据权利要求9所述的智能控制方法，其特征在于：所述被控制设备为空调***时，根据获取的内环境温度T_内环、外环境温度T_外环、环境湿度RH、用户设定温度T_{设 定}自动判断运行模式，实现自动智能模式运行。The intelligent control method according to claim 9, wherein when the controlled device is an air conditioning system, according to the obtained internal environment temperature T _{inner ring} , outer environment temperature T _{outer ring} , ambient humidity RH, user set temperature T determination operation mode is automatically _set, the intelligent automatic mode.
11. 根据权利要求10所述的智能控制方法，其特征在于：在所述自动智能模式运行 过程中，通过对辅助界面中的制冷按键执行不同的按键次数实现多档制冷模式的运行,通过对辅助界面中的制热按键执行不同的按键次数实现多档制热模式的运行,通过对辅助界面中的除湿按键执行不同的按键次数实现多档除湿模式的运行。The intelligent control method according to claim 10, characterized in that the automatic intelligent mode is operated In the process, the operation of the multi-speed cooling mode is realized by executing different number of key times on the cooling button in the auxiliary interface, and the operation of the multi-speed heating mode is realized by performing different key times on the heating button in the auxiliary interface, and assisting The dehumidification button in the interface performs different levels of keystrokes to achieve multi-speed dehumidification mode operation.
12. 根据权利要求11所述的智能控制方法，其特征在于：通过控制内风机、外风机、电子膨胀阀和压缩机中的至少一个以控制实现多档模式的运行，所述多档模式包括多档制冷模式、多档制热模式、多档除湿模式。The intelligent control method according to claim 11, wherein the operation of the multi-speed mode is controlled by controlling at least one of an inner fan, an outer fan, an electronic expansion valve, and a compressor, the multi-speed mode including multiple gears Cooling mode, multi-speed heating mode, multi-speed dehumidification mode.
13. 根据权利要求10-12之一所述的智能控制方法，其特征在于：通过操作辅助界面中的温度加、温度减的操作按键来加、减设定温度，实现自动提升温度和降低温度的结果；且根据设定的温度自动调节内风机的风速。The intelligent control method according to any one of claims 10 to 12, characterized in that: by operating the temperature plus and minus temperature operation buttons in the auxiliary interface, the set temperature is increased and decreased, and the result of automatically raising the temperature and lowering the temperature is realized. And automatically adjust the wind speed of the inner fan according to the set temperature.
14. 根据权利要求10-13之一所述的智能控制方法，其特征在于：所述智能控制方法的自动开机模式为：The intelligent control method according to any one of claims 10-13, characterized in that: the automatic boot mode of the intelligent control method is:

    根据T_外环选择模式温度控制曲线，According to the T _{outer ring} selection mode temperature control curve,

    根据所述模式温度控制曲线、T_内环、T_设定、RH确定空调***的工作模式，Determining the operating mode of the air conditioning system according to the mode temperature control curve, T _{inner loop} , T _setting , and RH,

    根据T_内环和T_设定的差值ΔT在所述工作模式下选择压缩机运行曲线。The compressor operating curve is selected in the operating mode based on the difference ΔT _set by the T _{inner ring} and T.
15. 根据权利要求14所述的智能控制方法，其特征在于：所述确定空调***的工作模式包括：The intelligent control method according to claim 14, wherein the determining the working mode of the air conditioning system comprises:

    基于所述模式温度控制曲线确定T₁ T₂ RH₁ RH₂，其中，T₁表示内环境温度补偿系数1，T₂表示内环境温度补偿系数2，RH₁表示制热湿度常数，RH₂表示制冷湿度常数；Determining T ₁ T ₂ RH ₁ RH ₂ based on the mode temperature control curve, wherein T ₁ represents an internal ambient temperature compensation coefficient 1, T ₂ represents an internal ambient temperature compensation coefficient 2, RH ₁ represents a heating humidity constant, and RH ₂ represents Refrigeration humidity constant;

    当T_内环≤T_设定-T₁+RH₁时，开机制热运行；When the _{inner ring of} T is ≤ T _{set -} T ₁ + RH ₁ , the open mechanism is hot;

    当T_设定+T₁+RH₂≥T_内环≥T_设定时，达到制冷状态，但未达到开机制冷运行的要求；When T is _{set to} +T ₁ +RH ₂ ≥T _{inner ring} ≥T _setting , the cooling state is reached, but the requirements for the startup cooling operation are not reached;

    当T_内环≥T_设定+T₂+RH₂时，开机制冷运行。When T _{inner ring} ≥ T is _set + T ₂ + RH ₂ , the cooling operation is started.
16. 根据权利要求14所述的智能控制方法，其特征在于：所述压缩机运行曲线包括制冷压缩机运行曲线或者制热压缩机运行曲线，The intelligent control method according to claim 14, wherein the compressor running curve comprises a cooling compressor running curve or a heating compressor running curve.

    制冷压缩机运行曲线为：ΔT＝RPM1+ΔRPM，The operating curve of the refrigeration compressor is: ΔT=RPM1+ΔRPM,

    制热压缩机运行曲线为：ΔT＝RPM1-ΔRPM，The heating compressor running curve is: ΔT=RPM1-ΔRPM,

    其中，RPM1表示最小压缩机频率，ΔRPM表示压缩机调节常数。 Among them, RPM1 represents the minimum compressor frequency, and ΔRPM represents the compressor adjustment constant.

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