CN100494801C - Central air-conditioning room temperature intelligent control system and control method thereof - Google Patents

Central air-conditioning room temperature intelligent control system and control method thereof Download PDF

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CN100494801C
CN100494801C CN 200610010434 CN200610010434A CN100494801C CN 100494801 C CN100494801 C CN 100494801C CN 200610010434 CN200610010434 CN 200610010434 CN 200610010434 A CN200610010434 A CN 200610010434A CN 100494801 C CN100494801 C CN 100494801C
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temperature
unit
cooling
heating
set
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CN101131251A (en
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周 纪
睿 纪
纪义盛
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周 纪
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Abstract

本发明公开了一种中央空调室温智能控制系统及室温节能智能控制方法,旨在提供一种大幅度节约能源,提高舒适度,智能化的控制装置及控制方法,包括:单片计算机单元、室温检测单元、无线接收单元、风速调节单元、流量调节单元、输出单元、万年历、户用遥控器和锁定温度专用遥控器;控制方法包括下列步骤:用遥控器可将自动、制冷、制热三种模式互相转换,打开、关闭、上班三种状态互相转换;上下班时间、工作日、休息日和设定的室内温度均由户用遥控器输入单片计算机单元;工作日的上班时间单片计算机单元将室温自动控制于设定温度,下班后、休息日和节假日自动关冷/热;在制热或制冷模式,可分别锁定室内可设定的最高温度或最低温度。 The present invention discloses a central air-conditioning and room temperature control system for saving intelligent intelligent control method, intended to provide a substantial energy savings, improved comfort, intelligent control device and control method, comprising: a monolithic computer unit, room temperature detecting means, the wireless receiving unit, speed adjustment unit, the flow regulating unit, an output unit, calendar, household remote control and dedicated remote locking temperature; controlling method comprising the steps of: using the remote control can be automatically, cooling, heating three kinds mutual conversion mode, open, close, mutual conversion work three states; room temperature working hours, days, holidays, and set by user input single-chip computer with a remote control unit; single-chip computer working hours on weekdays the temperature control unit automatically to the set temperature, after work, holidays and days off automatic cold / hot; in the heating or cooling mode, respectively lock chamber maximum temperature or minimum temperature can be set.

Description

中央空调室温智能控制系统及室温节能智能控制方法 Central air-conditioning and room temperature control system for saving intelligent intelligent control method

技术领域 FIELD

本发明涉及一种中央空调室温控制系统,特别涉及一种单片计算机室温智能控制系统及室温节能智能控制方法。 The present invention relates to a central air-conditioning temperature control system, particularly to a single chip computer and Intelligent Control System rt room temperature for saving method of intelligent control. 背景技术 Background technique

目前,公知的中央空调室内温度控制器大体分为两类: 一类为机械式,温度传感器采用双金属片或温包,通过"给定温度盘"调整预紧力来设定温度,风机三速开关和季节转换开关为拨档式机械开关; 另一类为电子式温控器,温度传感器采用热敏电阻,温度设定或通过"给定温度盘"或通过按键,风速开关和季节转换也均通过转换开关或按键完成。 Currently, well-known central air conditioning indoor temperature controller can be divided into two types: one is mechanical, bimetal temperature sensor or bulb, set temperature to the "disk given temperature" preload adjustment, three fan seasonal speed switch and the switch is a mechanical gear toggle switch; another electronic thermostat, thermistor temperature sensors, or temperature setting by "a given plate temperature" or through the key, and seasonal transition speed switch It was also completed through the switch or button. 以上温控器的不足之处:各功能的调整及设定均为手动式,这就会使得公共建筑用户的节能意识不高的人不去调整或每天下班时来不及或忘记调整,使在房间无人时照常供热或供冷,从而造成能源的极大浪费。 The inadequacies of more than thermostat: adjustment and setting each function are manual, which will make public buildings energy-conscious users who do not adjust not high or too late or forget to adjust every day after work, so the room as usual when no heating or cooling, causing great waste of energy. 另一方面,由于手动设定室温有可能室温过调节甚至有的在冬季采暖将温控器的旋钮调到最高位置,使室内供热温度过高以至于开窗放热来调节室温,或夏季室内制冷温度调得过低,因此浪费大量能源。 On the other hand, since it is possible to manually set the room temperature by adjusting the heating and even some of the thermostat knob to the highest position in the winter, indoor heating temperature is so high that exothermic window to adjust the room temperature, or summer indoor cooling temperature is set too low, thus wasting a lot of energy. 发明内容 SUMMARY

为了克服上述不足,本发明提供了一种计算机室温智能控制系统及室温节能智能控制方法,做到用热/冷时自动供热/冷,非用热/ 冷时自动关闭,达到节能的目的;同时该系统还有供热时的最高温度限制和供冷时的最低温度限制功能达到进一步节约能源的目的。 To overcome these shortcomings, the present invention provides a computer room temperature and energy intelligent control system intelligent control method, so that the automatic heating / hot and cold / cold, non-closed automatically with hot / cold, to save energy; Meanwhile, the system also limit the maximum temperature and minimum temperature limit heating function when cooling achieve further energy savings.

本发明提供的中央空调室温智能控制系统,包括: 一个单片计算机单元、室温检测单元、无线接收单元、风速调节单元、流量调节单元、户用遥控器和输出单元;所述输出单元输出为视频时是含有显示屏的电路单元,输出单元输出为音频时是语音电路;室温检测单元的输出端、无线接收单元的输出端、风速调节单元的输入端、流量调节单元的输入端和输出单元的输入端分别与单片计算机单元的I / 0 口相连接;所述的中央空调室温智能控制系统还包括一个万年历和一个锁定最高或最低温度遥控器,万年历的I/O 口与单片计算机单元的I/O 口相连接;所述锁定最高或最低温度遥控器在中央空调工作在加热工况时锁定室内制热的最高温度,在中央空调工作在冷却工况时,锁定室内制冷的最低温度。 Central air-conditioning temperature control system of the present invention to provide intelligent, comprising: a single-chip computer element, temperature detecting means, the wireless receiving unit, speed adjustment unit, the flow regulating unit, the user using the remote control unit and an output; the output unit outputs a video when the circuit unit containing the display screen, an audio output unit when voice circuit; an output terminal an output terminal of the temperature detecting means, the wireless receiving unit, the speed regulation input means, the input and output flow rate adjusting unit cell input terminals of the single-chip computer unit I / 0 port is connected; the temperature intelligent central air-conditioning control system further includes a perpetual calendar and a maximum or minimum temperature locking remote control, calendar of I / O port and the single-chip computer unit the I / O port is connected; the locking minimum temperature or the maximum temperature of the maximum remote lock chamber and heating conditions during heating in the central air-conditioning operation, in the central air-conditioning operation in the cooling operation, the lowest temperature of the cooling chamber lock .

本发明的另一方案是提供一种中央空调室温节能智能控制方法, 该方法包括下列步骤: Another embodiment of the present invention is to provide a central air-conditioning energy intelligent control room, the method comprising the steps of:

1) 开机系统默认自动模式,自动模式是系统根据开机后瞬间的室内温度判断需要制热就工作在制热工况,需要制冷就工作在制冷工况; 1) Power default automatic mode, automatic mode, the system is working in the room temperature is determined according to the instantaneous power required heating condition heating, refrigeration is required to work in a refrigeration condition;

2) 通过户用遥控器上的按键将上班时间、下班时间、每周的工作日和休息日分别存入单片计算机单元内的各自的存储单元内;用户用遥控器上的按键组合将万年历的时间校准; 2) by the user using the remote control buttons on the working time, working hours, holidays and week days are stored in their respective memory cells in the single-chip computer unit; the user with the key combination on the remote control the calendar calibration time;

3) 由户用遥控器输入设定温度,存入单片计算机单元的存储器, 将室温检测单元检测到的室内温度与设定温度比较,根据比较结果, 单片计算机单元发出升温或降温指令至流量调节单元,调节供热/冷量,将室温控制在设定温度; 3) entered by the user set temperature with a remote control, single-chip computer stored in the memory unit, the temperature detecting means detects the indoor temperature and the set temperature according to the comparison result, single-chip computer unit sends instructions to heating or cooling flow rate adjusting means to adjust the heating / cooling capacity, the temperature control set at room temperature;

4) 按户用遥控器上的"关闭"键,单片计算机单元输出指令至流量调节单元,调节供热/冷量,在制热模式时将室温一直控制在防冻温度,在制冷模式时停止供冷; 4) Press the household "Close" key on the remote control, single-chip computer unit outputs an instruction to the flow rate adjusting unit to adjust the heating / cooling capacity, during heating mode at room temperature has been controlled freezing temperature during the cooling mode is stopped Cooling;

5) 按户用遥控器上的"打开"键,单片计算机单元输出指令至流量调节单元,调节供热/冷量,将室温一直控制在设定温度; 5) Press the household "open" button on the remote control, single-chip computer unit outputs an instruction to the flow rate adjusting unit to adjust the heating / cooling capacity, the temperature has been controlled to a set temperature;

6) 当万年历的日期和时钟运行到设定的工作日的上班时间时, 单片计算机单元向流量调节单元发出"开热/冷"指令,将室温控制在设定温度; 6) When the operation of the clock and calendar date is set to the weekday work hours, the flow rate adjusting unit chip computer unit issues "on hot / cold" instruction, a control room at a set temperature;

7) 当万年历的日期和时钟运行到设定的工作日的下班时间时, 单片计算机单元向流量调节单元发出"关热/冷"指令,在制热模式时将室温一直控制在防冻温度,在制冷模式时停止供冷; 7) When the calendar date and time to run the set of working hours on weekdays, single-chip computer unit sends the flow rate adjustment means "off hot / cold" instruction, when the heating mode at the temperature has been controlled freezing temperature, cooling is stopped when the cooling mode;

8) 当万年历运行到休息日及节假日时,单片计算机单元向流量调节单元发出"关闭"指令,在制热模式时全天将室温一直控制在防冻温度,在制冷模式时全天停止供冷; 8) When the calendar is running to the rest days and holidays, single-chip computer unit to the flow rate adjusting unit issue a "close" instruction, when the heating mode has been controlled at room temperature for a day the antifreeze temperature, cooling is stopped when the cooling mode day ;

9) 在常"关闭"状态或在常"打开"状态,当按下遥控器的"上班"键时,单片计算机单元通过无线接收单元接收到遥控器输入的"上班"指令时,系统即转为工作日的工作时间"开热/冷"、非工作时间"关闭"热/冷的工作状态,即转为工作日的工作时间将室温控制在设定温度,非工作时间在加热工况时将室温控制在防冻温度,在制冷工况将冷气关闭; 9) in a normally "off" state or in the normally "on" state, when the remote controller is pressed, "work" key, single-chip computer unit receives the "work" remote control instruction input through the radio receiving unit, the system into the working time "open hot / cold" hours "off" hot / cold working state, i.e. into working hours on weekdays control room at a set temperature, non-working time in the heating conditions when the temperature control in the antifreeze temperature, the cool air in the cooling off condition;

10) 在制热模式下按锁定最高或最低温度专用遥控器的锁定温度 10) the maximum or minimum temperature by locking a dedicated remote controller mode-locking in the heating temperature

键输入可控室温的最高温度即锁定制热的上限温度,并存入单片计算机单元的存储器内,可设定的室内温度只能在防冻温度与锁定的上限温度之间选取,在制冷模式下按锁定最高或最低温度专用遥控器的锁定温度键输入可控室温的最低温度即锁定最低温度,并存入单片计算 Key input controlled room temperature i.e. maximum locking heating upper limit temperature, single-chip computer and stored in the memory unit, the indoor temperature can be set only select between the lock and the upper limit temperature of the freezing temperature, the cooling mode by locking the maximum or minimum temperature of the dedicated remote control lock key input temperature of the lowest temperature controlled room temperature i.e. the locking minimum, calculated and stored in a single piece

机单元的存储器内,可设定的室内温度只能在锁定的最低温度与35 。 A memory cell unit, the indoor temperature can be set at a minimum temperature of 35 and locked. C之间选取,锁定温度可由锁定最高或最低温度专用遥控器调节; Select between C, locked by locking the maximum temperature or minimum temperature adjustment dedicated remote control;

11) 按户用遥控器上的模式转换键,工作模式可顺次在"自动"、 "制冷"、"制热"之间转换; 11) Press the household mode conversion key on the remote control, the operating mode can be sequentially "Auto", "cooling", switching between "heating";

12) 按户用遥控器上的风速调节键,风速可顺次在"弱风"、"中风"、"强风"、"关闭"之间转换。 12) The household wind speed on the remote control keys, in the wind speed can be sequentially "weak wind", "stroke", "high", "off" switch between.

本发明的有益效果是:1、本发明为计算机智能控制装置及节能智能控制方法,在制热模式时可将室温自动精确地控制在:用热时为设定温度非用热时为防冻温度;在制冷模式时用冷时供冷,不用冷气的时间自动将冷气关掉,达到大幅度节约能源的目的。 Advantageous effect of the invention is: 1, the present invention is a computer device and a smart energy intelligent control method, during heating mode, room temperature can be precisely controlled automatically: when the heat set temperature when the heat is non-freezing temperature ; while cooling with cold in the cooling mode, cool air time not automatically turn off the cold air, to achieve significant energy savings. 中国建筑科学研究院空调所徐伟、邹瑜编著的《供暖系统温控与热计量技术》 一书中介绍:"按标准年数据频谱分析法计算,以北京冬季采暖为例,上班时将室温调到18°C,下班后办公室无人时将室温调到防冻温度°C,其能耗比全天采暖18°。方式节能45%。" China Academy of Building Research conditioned by Xu Wei, Zou Yu compiled the "heating system thermostat and heat metering technology," a book description: "In accordance with the standard spectral data analysis calculations to Beijing winter heating, for example, the temperature at work adjusted to 18 ° C, when transferred to the office after work no room antifreeze temperature ° C, the heating power than day 18 °. 45% saving mode. "

2、 本发明有供热时室内最高温度锁定功能,可避免室内温度调节的过高以至于开窗放热和制冷时室温最低温度锁定功能,避免室温调的过低,造成能源浪费。 Minimum room temperature lock 2, the present invention has a heating chamber when the maximum temperature lock function, the indoor temperature can be adjusted to avoid too high to heat and cooling windowing function to avoid the low temperature transfer, resulting in energy waste. 根据《公共建筑节能设计标准》介绍:"在加热工况下,室内计算温度每降低rC,能耗可减少5% — 10%;在 The "common design standard" Introduction: "in the heating conditions, indoor temperature decrease per rC, energy consumption can be reduced 5% - 10%; in

冷却工况下,室内计算温度每升高rc,能耗可减少8%—10%。 Cooling conditions, RC indoor temperature is increased, the energy consumption can be reduced by 8% -10%. "并 "and

可以充分利用太阳能等自由热。 You can take advantage of free solar heat.

3、 与现有技术的中央空调温控器相比,利用本发明能使用户舒适度更佳,操作更方便。 3, as compared with the central air-conditioning thermostat prior art, with the present invention enables a user better comfort, more convenient operation.

本发明适用于机关办公楼、写字楼、餐饮、影剧院、候车室、银行、体育场馆、商场、旅馆和图书馆等应用中央空调的场所。 The present invention is suitable for use central air conditioning office buildings, office buildings, restaurants, theaters, waiting rooms, banks, stadiums, shopping malls, hotels and libraries and other places.

附图说明 BRIEF DESCRIPTION

图l是程序总体流程图; Figure l is a general flowchart of a program;

图2是设定温度加rc子程序流程图; 图3是设定温度减rc子程序流程图; FIG 2 is a subroutine flowchart setting temperature of the heating rc; FIG. 3 is a subroutine flowchart rc Save set temperature;

图4是"关闭"动作子程序流程图; 图5是"打开"动作子程序流程图; 图6是上班子程序流程图; 图7是节假日子程序流程图;图8是"上班"键子程序流程图; FIG 4 is a "closing" motion subroutine flowchart; FIG. 5 is an "open" operation subroutine flowchart; FIG. 6 is a flowchart of a subroutine work; FIG. 7 is a subroutine flowchart holiday; FIG. 8 is a "work" key sub program flowchart;

图9是锁定室内最高或最低温度子程序流程图; FIG 9 is the highest or lowest temperature within a subroutine flowchart of the lock;

图10是出差子程序流程图; FIG 10 is a subroutine flowchart of travel;

图11是设定风速子程序流程图; FIG 11 is a subroutine flowchart setting wind speed;

图12是模式转换子程序流程图; FIG 12 is a subroutine flowchart of mode conversion;

图13是中央空调室温智能控制系统的硬件结构总方框图; 图14是中央空调室温智能控制系统实施例结构方框图。 FIG 13 is an overall block diagram a hardware configuration of the central air-conditioning room intelligent control system; FIG. 14 is a configuration block diagram of the central air-conditioning temperature intelligent control system embodiment. 图中标号: FIG numeral:

单片计算机单元l 无线接收单元2 万年历3 风速调节单元4 流量调节单元5 室温检测单元6 输出单元7 户用遥控器8 锁定最高或最低温度专用遥控器9 红外线接收电路21 语音电路71 供热/冷执行机构电动阀51 户用红外遥控器81 锁定最高温度或最低温度专用红外遥控器91 Chip computer unit wireless reception unit 2 l calendar speed adjustment unit 3 4 5 flow regulator unit temperature detection unit 6 outputs a remote control unit 7 with the highest or lowest temperature of 8 to lock the remote controller 9 dedicated infrared receiver circuit 21 voice circuits 71 heating / cooling motor-operated valve actuator 51 to lock the maximum temperature or minimum temperature dedicated infrared remote controller 91 infrared remote controller 81

具体实施方式 Detailed ways

下面结合附图与具体实施方式对本发明作进一步详细描述: The present invention will be described in further detail in conjunction with the accompanying drawings DETAILED DESCRIPTION:

请参见图13,图中在实施例里,输出单元7选用的是语音电路, 无线接收单元2选的是红外线接收电路、流量调节单元5选的是供热/冷执行机构电动阀、户用遥控器8和锁定最高或最低温度专用遥控器9均选的是红外遥控器。 Referring to FIG 13, in the embodiment in FIG., The output unit 7 is selected voice circuits, radio receiving section 2 is selected from the infrared receiver circuit, the flow regulating unit 5 is selected from the heating / cooling motor-operated valve actuator, household remote controller 8 and the locking minimum or maximum temperature 9 are selected from the special remote control is an infrared remote control.

请参见图14,图14是本发明的实施例结构方框图,本发明实施 Referring to FIG 14, FIG 14 is a configuration block diagram of embodiments of the present invention, the embodiment of the present invention

例是一个中央空调室温单片计算机控制系统,包括:单片计算机单元 Embodiment is a single-chip computer room air conditioner central control system, comprising: a single-chip computer unit

1,室温检测单元6,红外线接收电路21,语音电路71,供热/冷执行机构电动阀51,万年历3,风速调节单元4,户用红外遥控器81 以及锁定最高或最低温度专用红外遥控器91;室温检测电路、红外接收电路、语音电路、供热/冷执行机构电动阀、风速调节单元,万年历单元分别与单片计算机的I/O 口连接;计算机程序控制软件安装 1, temperature detection unit 6, the infrared receiver circuit 21, a speech circuit 71, the heating / cooling motor-operated valve actuator 51, calendar 3, the wind speed setting unit 4, household infrared remote control 81 and a locking maximum or minimum temperature dedicated infrared remote control 91; temperature detection circuit, an infrared receiving circuit, voice circuit, heating / cooling valve actuator motor, speed regulation means, respectively, with the monolithic unit calendar computer I / O port is connected; computer program installed control software

在单片计算机内,计算机程序控制方法为: In the single-chip computer, the computer program controlling method:

1) 、请参见图l,系统加电后首先进行系统初始化,程序开机默 1), see Figure L, the system is first powered on after system initialization, the boot program Mo

认自动模式,其工作过程是:开机后系统先判断检测到的室内温度是 Automatic recognition mode in which the working process is: boot the system first determines whether the detected indoor temperature is

否大于24-C (步骤103),若是:则将制热标准位置为O (步骤104), No greater than 24-C (step 103), if: then the heating of the standard position O (step 104),

此时自动模式为制冷工作状态,若否:则将制热标志位置为l (歩骤105),此时自动模式为制热工作状态; At this time, the cooling operation state of the automatic mode, if no: then the heating flag or l (a ho step 105), then the automatic mode is the heating operation state;

2) 、通过户用红外遥控器81上的按键将上班时间,下班时间, 2), by household infrared remote control on the key 81 working hours, working hours,

每周的工作日、休息日,出差的出行日期、时间,出差返回日期、时 Weekly working days, holidays, travel travel date, time, travel return date, time

间分别存入单片计算机单元内的各自的存储单元内;用户用红外遥控器81上的按键组合将万年历的时间校准; Inter are stored in their respective memory cells in the single-chip computer unit; key combination on the user with the infrared remote controller 81 of the calendar time alignment;

设置上班时间的步骤为:首先按户用红外遥控器81上的"设置上班时间"键,随即语音电路有语音输出:"设置上班时间",然后再按下"数字增"键或"数字减"键,同时有语音报告:"设置时",再按"数字增"键或"数字减"键直到出现欲设定的小时数为止,此时,每按一下数字键均有相应的数字用语音报告;小时设置完毕后再按"切换"键,语音报告:"设置分",然后再按"数字增"键或"数字减"键设置分钟,同时,每按一次数字键均有语音报告分钟数,最后再按"切换"键,语音报告:"设置完毕",此时单片计算机系统便将所设置的上班时间按时、分存入单片计算机的存储器内。 Working hours provided the steps of: first by household "work time setting" key on the infrared remote control 81, then the speech circuit has voice output: "Set Time work", then press the "digital gain" key or "Save numbers "key, a voice report:" setting ", then" which a number "key or the" number Save "button until the occurrence of the number of hours to be set, in which case each press of the corresponding number with the numeric keys are voice report; h is set up and then press the "switch" button, a voice report: "sub-set", then "increase number" key or the "Save number" to set the minutes, while, each time the number keys are voice report minutes, and finally press "toggle" key, a voice report: "set up", then the single board computer systems put working hours set time, stored in the memory sub-chip computer.

用同样的方法按户用遥控器81上的"设置下班时间"键与"数字增"键、"数字减"键和"切换"键配合将下班时间存入单片计算机的存储器内,每项操作均有语音提示。 The same way by users' working hours set "with the remote control key 81 and the" number by "key, the" reduced by "key and the" handover "to fit into the memory of the office hours of the single-chip computer, each operating voice prompt.

设置每周内的工作日和休息日:按户用遥控器81上的"设置工作日"键,语音报告:"设置工作日",再按"数字增"或"数字减" 键,语音报告:"星期一",如星期一是工作日,按"数字减"键,语音报告:"上班",如星期一是休息日,则按"数字增"键,语音报告: "休息";星期一设置完毕后,按"切换"键,语音报告:"星期二", 如是工作日,则按"数字减"键,报告:"上班",如是休息日,则按"数字增"键,语音报告:"休息",再按"切换"键,语音报告:"星期三",如此一直设置到星期日,设置完毕后,最后按"切换"键, 语音报告:"设置完毕"。 Set in the days and rest days per week: according to consumer "set weekday" button on the remote control 81, Voice Report: "Setting the working day", then "add digital" or "digital subtraction" key, voice report : "Monday", as Monday is working day, according to the "digital subtraction" key, voice reports: "work", as Monday is a rest day, press the "digital by" key, voice reports: "rest"; week the latter is set up, press the "switch" button, voice reports: "Tuesday", in the case weekday, press the "digital subtraction" key, reports: "work", and if so rest day, press the "digital by" key, voice report : "rest", then "switch" button, voice reports: "Wednesday", and so has been set up to Sunday, is set up later, press the "switch" button, voice reports: "set up." 此时系统便将所设置的每周的工作日和休息日存入单片机的存储器内。 Within a week of days and rest days into single-chip system memory at this time put the set.

同样,按动户用遥控器81上的"设置出差出行日期、时间"键和"设置出差返回日期、时间"键,与"切换"键、"数字增"键和"数字减"键组合将欲出差的出行的日期、时间和返回的日期、时间按年、月、日、时分别存入单片机的相应存储器内,当万年历运行到出差的出行日期和时间房间无人时将供热的房间恒温控制在防冻温度,将制冷的房间的冷气关闭;万年历运行到主人返回的日期、时间自动恢复到出行前的工作状态。 Similarly, the user presses "trip travel set date and time" on the remote control with key 81 and "return trip set date, time" key, and "switch" key "which a number" key and "Save number" key combination For travel within the corresponding memory of the travel date, the time and date of return, time, year, month, day, hour, respectively, into single-chip, and when the calendar runs to the date of travel and time travel no room to heat the room antifreeze thermostatically controlled at a temperature of the cool air of the room cooling off; date calendar owner to return operation, the time automatically returns to the state before the trip.

校准时间:用户用遥控器81上的"校准时间"键,"数字增"键、 "数字减"键和"切换"键配合起来将当前时间按年、月、日、星期、 时、分、秒将万年历的日期、时间校准。 Calibration time: the user using the "calibration period" button on the remote controller 81, "which a number" key, "is reduced by" key and the "handover" to fit up to the current time by year, month, day, week, hour, minute, the second calendar date, time alignment.

3)、用户用红外遥控器81输入设定温度,存入存储器,将室温检测电路6检测到的室内温度与设定温度比较,根据比较结果,单片计算机1发出升温或降温指令至供热/冷执行机构电动阀51,调节热/冷水流量,将室温控制在设定温度。 3), with the infrared remote user 81 inputs a set temperature, stored in the memory, compare the temperature detecting circuit 6 detects the indoor temperature and the set temperature, based on the comparison, a single-chip computer to issue commands heating or cooling heat / cooling motor-operated valve actuator 51, regulator hot / cold water flow rate, the temperature at the set temperature. 为了达到上述目的:设定室内温度可直接按动户用遥控器81上的"室温设定(增)"键和"室温 To achieve the above object: setting the indoor temperature can be directly pressed by the user on the remote control 81 'is set at room temperature (increase) "key and" rt

设定(减)"键,请参见图2和图3,图2是设定温度加rc子程序流 Setting (minus) "key, see Figure 2 and 3, FIG. 2 is a subroutine flow set temperature plus rc

程图,计算机首先在步骤201判断是否按下温度加rC键:否,在步骤215返回;是,则在步骤202再判断"制热标志位"是否为1:是, 说明当前是在制热工作模式,这时在步骤203读取上次设定的温度值,在步骤204将其加1,接下来在步骤205判断该值是否大于限制的最高温度即锁定的最高温度:否,在步骤208将此设定温度值保存; 是,则在步骤206将设定温度值设为5,这是因为锁定温度是可设定室温的最高温度如再向上加即返到最低温度5°C,在步骤207将5°C 保存为设定温度。 Chart, the computer first determines in step 201 whether the temperature of the heating rC key is pressed: NO, returns at step 215; YES, then at step 202 then determines whether "heating flag" is 1: that description is a heating current mode of operation, then in step 203 reads the temperature value previously set at step 204 to add a next step 205 determines whether the value is greater than the maximum temperature limit of the maximum temperature that is locked: NO, at step this temperature setting value storage 208; YES, then at step 206 the set temperature value is set to 5, because the temperature lock is set to the maximum temperature, such as room temperature and then added back up to a minimum temperature i.e. 5 ° C, in step 207 the save set temperature 5 ° C.

步骤202判断若为否,说明当前工作在制冷模式,这时在步骤209读取上次设定的温度值,在步骤210将该值加1,在步骤211判断该值是否大于35,否,在步骤214将此设定温度值保存;是,则在步骤212将设定温度值设为限制的最低温度值即锁定的最低温度值,在步骤213保存该值。 If the determination at step 202 is NO, indicating that the current in a cooling mode, then at step 209 the read temperature value previously set, in step 210 plus the value of 1, step 211 determines whether the value is greater than 35, no, set temperature value stored at this step 214; YES, then at step 212 the set temperature value is set to the minimum temperature limit value, i.e. the locking minimum temperature value in step 213 to save the value.

图3是利用"室温设定(减)"键设定室内温度的子程序,原理 FIG 3 is the use of subroutine "set temperature (minus)" button to set the room temperature, the principles

与图2加rc键子程序相同。 Rc plus button subroutine identical to FIG.

恒温控制的工作原理:在制热模式时,当检测到室内的当前温度高于设定的温度rC时,向供热/冷执行机构电动阀51发关命令; Thermostatically controlled operating principle: during the heating mode, when the detected current indoor temperature is higher than the set temperature rC, which send a command to the valve 51 an electric heating / cooling actuator;

当检测到室内的当前温度低于设定温度rc时,向供热/冷执行机构电动阀5i发开命令;在制冷模式时,当前温度高于设定的温度rc When the detected indoor temperature with the set temperature of the current rc, send a command to open the heating / cooling 5i electric valve actuator; In the cooling mode, the current temperature is higher than the set temperature rc

时,向供热/冷执行机构电动阀51发开命令;当前温度低于设定温 When, on command sent to the heating / cooling motor-operated valve actuator 51; current temperature is below the set temperature

度rc时,向供热/冷执行机构电动阀51发关命令。 When the degree of rc, the heating / cooling motor-operated valve actuator 51 which send command. 请参阅图5,在步骤501读取当前室温和设定温度值,在步骤502判断当前温度是否大于等于设定的温度加rC:是,在步骤503判断是制热模式还是制 Refer to FIG. 5, 501 reads the current temperature and the set temperature value at step at step 502 is determined whether the current temperature is higher than the set temperature plus rC: is determined in step 503 is manufactured or heating mode

冷模式:是,(标志位为l是制热模式),则在步骤504关阀;否,(标 Cold mode: is, (l is a flag to a heating mode), then in step 504 close the valve; no, (superscript

志位为O是制冷模式),则在步骤505开阀;在步骤502的判断为否时,转到步骤506判断当前温度是否小于等于设定温度减rC:是, 在步骤507再判断制热标位是否为1:是,则是制热模式,在步骤508 发出开阀命令,否,则是制冷模式,在歩骤509发出关阓命令,在步骤506的判断为否时在步骤510返回。 Flag bit is a O is cooling mode), then in step 505 the valve opening; the determination in step 502 is NO, go to Step 506 determines whether the current temperature is less than equal to the set temperature minus rC: is determined at step 507 and then heating subscript if the bit is a 1: is, it is a heating mode, issuing the valve-opening command in step 508, otherwise, it is the cooling mode, ho step 509 issue off malls command, it is determined in step 506 is negative 510 returns step.

4)、按户用红外遥控器81上的"关闭"键,单片计算机单元1 输出指令至供热/冷执行机构电动阀51,调节热/冷水流量,在制热模式,系统将室温一直控制在防冻温度;在制冷模式,系统将供冷执行机构电动阀51关闭;请参见图4,图4是关闭(关热或关冷) 动作子程序流程图,首先在步骤401读取当前室温和防冻温度值,然后在步骤402判断制热标志位是否为1:否,说明是制冷模式则在步骤408向供冷执行机构电动阀51发关命令,停止供冷;是,为工作 4), by household "close" key, single-chip computer unit 1 outputs the instruction on the infrared remote control 81 to the heating / cooling motor-operated valve actuator 51, regulator hot / cold water flow rate in the heating mode, the system will have room temperature antifreeze temperature control; in cooling mode, the cooling system 51 is closed electric valve actuator; see Fig. 4, FIG. 4 is a (hot or shut off cold) closed operation subroutine flowchart, first in step 401 reads the current temperature and antifreeze temperature value, then the heating is determined at step 402 whether the flag 1: No, that is the cooling mode in step 408 to the cooling motor-operated valve actuator 51 which send command to stop cooling; is, work

在制热模式,则在步骤403判断当前温度值是否小于防冻温度减rc: In the heating mode, at step 403 determines whether the current temperature value is less than the freezing temperature minus rc:

是,则在步骤404向供热执行机构电动阀51发"开"命令;否,则在步骤405判断当前温度值是否大于防冻温度加rC:是,则在步骤406向供热执行机构电动阀51发"关"命令,否,则在步骤407返回;这就是说在制热模式下"关闭"供热是将室温恒温控制在防冻温度。 , Then at step 404 the "on" command to the electric valve actuator 51 heating hair; NO, then in step 405 determines whether the current temperature value is greater than plus antifreeze temperature rC: yes, then at step 406 the valve actuator to the electric heating issued 51 "off" command, NO is returned at step 407; that is in heating mode "off" heating temperature is thermostatically controlled at a temperature of antifreeze.

5)、按户用红外遥控器81上的"打开"键(开热或开冷),单片计算机单元1输出指令至供热/冷执行机构电动阀51,调节热/冷水流量,将室温一直控制在设定温度;请参阅图5,图5是"打开" 动作子程序流程图,首先在步骤501读取当前室温与设定的温度值, 5), by household "open" on the IR remote control key 81 (or open cold start and hot), single-chip computer unit 1 outputs instructions to a heating / cooling motor-operated valve actuator 51, regulator hot / cold water flow rate, the temperature has been controlled to a set temperature; see FIG. 5, FIG. 5 is an "open" operation subroutine flow chart, first reads the current temperature and the set temperature at step 501,

然后在步骤502判断当前温度值是否大于等于设定的温度加rc:是, Then at step 502 determines whether the current temperature is greater than equal to the set temperature plus rc: that,

则在步骤503判断制热标志位是否为1:是,为工作在制热模式则在步骤504向供热执行机构电动阀51发关命令;否,为工作在制冷模式则在步骤505向供冷执行机构电动阀51发开命令;当步骤502的判断为否时,则在步骤506判断当前温度值是否小于等于设定的温度减1。 It is determined at step 503 whether the heating flag is 1: Yes, to operate in a heating mode at step 504 which send commands to the electric heating the actuator valve 51; N, to operate in a cooling mode in step 505 to supply cold motorized valve actuator open command issued 51; when the determination in step 502 is NO, then in step 506 determines whether the current value is less than a temperature equal to the set temperature minus 1. C:否,则在步骤510返回;是,则在步骤507判断制热标志位是否为l:是,为工作在制热模式,在步骤508向供热执行机构电动阀51发"开"命令;否,为制冷工作模式,则在步骤509向供冷执行机构电动阀51发关命令。 C: No, then in step 510 return; YES, then in step 507 determines whether the heating flag of l: is to operate in a heating mode, at step 508 the "on" to heat the actuator commanding electric valve 51 ; No, for the cooling operation mode, the valve 51 at step 509 which send commands to execute motor cooling mechanism.

6) 、当万年历3的日期和时钟运行到设定的工作日的上班时间时,单片计算机单元1向供热/冷执行机构电动阀51发出"开热(冷)" 指令,开始供热水或冷水,将室温控制在设定温度。 6), the date and time when the work calendar clock running set to 3 days, the single-chip computer unit 1 issues a "start and hot (cold)" command to the heating / cooling motor-operated valve actuator 51, heating start or cold water, the temperature at the set temperature. 请参阅图6,图6是上班子程序流程图,根据设定的上班时间控制"开热(冷)",下班时间控制"关热(冷)"。 Refer to FIG. 6, FIG. 6 is a flowchart showing a subroutine work, working time control is set to "On hot (cold)" according to the time control work "off hot (cold)." 系统读取节假日标志位,在步骤601判断节假日标志位是否为l:是,则在步骤602执行关热(冷)动作子程序;否,则系统在步骤603读取万年历日期时间,在步骤604判断是否为所设置的休息日:是,则执行步骤602关热(冷)动作子程序; 否,则在步骤605读取所设定上下班时间,在歩骤606判断当前时间是否早于上班时间:是,则在步骤607执行关热(冷)动作子程序; 否,则在步骤608判断当前时间是否己过下班时间:是,则在歩骤609执行关热(冷)动作子程序;否,则在步骤610执行开热(冷) 动作子程序 The system reads holiday flag at step 601 is determined whether holiday flag of l: is performed at step 602 off heat (cooling) operation subroutine; NO, then at step 603 the system reads the calendar date and time, at step 604 determines whether the set rest day: so, step 602 off heat (cooling) operation subroutine; NO, then in step 605 reads from work on the set time, the ho step 606 whether the current time is earlier than work time: yes, turn off heat (cooling) operation of the subroutine at step 607; NO, then in step 608 determines whether the current time has had time to work: it is, in step 609 performs ho off heat (cooling) operation subroutine; NO, then at step 610 performs on the heat (cold) operation subroutine

7) 、当万年历3的日期和时钟运行到设定的工作日的下班时间时,单片计算机单元l向供热/冷执行机构电动阀51发出"关热(冷)" 指令,在制热模式下将室温控制在防冻温度;在制冷模式下将冷气关闭;请参阅图6,在步骤608判断当前时间是否已过下班时间:是, 则在步骤609执行关热/冷动作子程序,即在制热模式时将室温控制在防冻温度,在制冷模式时将冷气关闭。 7), when the calendar date and clock running 3 to set the working hours on weekdays, single-chip computer unit emits l "off hot (cold)" command to the heating / cooling motor-operated valve actuator 51, the heating the temperature control mode in the antifreeze temperature; cold air in cooling mode off; see FIG. 6, at step 608 whether the current time has elapsed working hours: yes, turn off heat / cool operation subroutine in step 609, i.e., when the heating temperature control mode in antifreeze temperature, during the cooling mode, the cool air off. 8) 、当万年历3运行到设定的休息日或节假日时,单片计算机单元l向供热/冷执行机构电动阀51发出"关热(冷)"指令,全天"关热(冷)",即在制热模式下将室温全天24小时控制在防冻温度;在制冷模式下全天24小时将冷气关闭;请参阅图6,在步骤604判断是否为设置的休息日,是,则在步骤602执行关闭动作子程序;节假日请参阅图7,图7是节假日子程序流程图,判断当前万年历的日期是否是"元旦"、"春节"、"五• 一"、"十• 一"这四个法定节假日之一,如果是则将节假日标志位置l,用于标识节假日"关热(冷)"。 8), when the calendar is set to the run 3 days of rest or holidays, single-chip computer element emits l "off hot (cold)" command to the heating / cooling motor-operated valve actuator 51, all day "off hot (cold) ", i.e., in the heating mode at room temperature for 24 hours to control the temperature of the antifreeze; 24 hours a day off cold air in the cooling mode; see FIG. 6, step 604 determines whether the setting of rest days, so, in step 602 a shutdown action routine; holidays see Figure 7, Figure 7 is a flow chart holiday subroutine to determine whether the current calendar date was "New Year's Day", "Spring Festival", "five • a", "ten • a" this is one of four national holidays, the holidays if it will flag l, used to identify the holidays "off hot (cold)."

首先,系统在步骤701读取当前时间的年、月、日,然后在步骤702根据日期查询预先编制存储在计算机中的农历、公历日期对照表,在步骤703判断该天是否是春节放假日:是,则在步骤704将节假日标志位置l;否,则在步骤705再判断当前时间是否为元旦:是, 则在步骤706将节假日标志位置1;否,则在步骤707继续判断当前时间是否为"五"一":是,则在步骤708将节假日标志位置1;否, 则在步骤709的判断当前时间是否为"十• 一":是,则在步骤710 将节假日标志位置l;否,则在步骤711将节假日标志位置0。 First, the system in step 701 to read in the current time, month, day, and then in step 702 according to the lunar calendar pre-programmed date query stored in the computer, the calendar date table, in step 703 determines whether the day is the Spring Festival holiday days: , then in step 704 the holiday flag L; NO, then at step 705 then determines whether the current time is New Year's Day: Yes, then in step 706 the holiday flag bit; no, at step 707 continues to determine whether the current time is "five," a ": yes, at step 708 the holidays flag 1; no, the determination in step 709 whether the current time is" ten • one ": yes, at step 710 the holidays flag l; no, the holiday flag is 0 at step 711.

9) 、在常"关闭"状态或在常"打开"状态,当单片计算机单元1接收到户用红外遥控器81输入的"上班"指令时,转为工作日的工作时间"开热(冷)"、非工作时间"关热(冷)"的工作状态,即转为工作日的工作时间将室温控制在设定温度,非工作时间在制热模式时将室温控制在防冻温度;在制冷模式时将冷气关闭。 9), in a normally "off" state or in the normally "on" state, when the single-chip computer unit 1 receives home "work" with an infrared remote control command input 81, into working hours on weekdays "open hot ( cold), "hours" off hot (cold) "operating state, i.e., into the working temperature of the working time at the set temperature, non-working time in the heating mode of the control room in the freezing temperature; in when closing the cool air cooling mode. 请参阅图8,图8是"上班"键子程序流程图,首先在步骤801判断是否按下"上班"键:否,则在步骤804返回;是,则在步骤802将上班键标志位置l,在步骤803将打开标志位置0,然后在步骤804返回。 Refer to FIG. 8, FIG. 8 is a "work" key subroutine flow chart, first, in step 801 determines whether or not pressing the "work" button: No, then in step 804 return; yes, the key flag 802 to work at step l in step 803 the open position 0 flag, then at step 804 returns. 再请参阅图l,在步骤106判断上班标志位是否为0:否,(即标志位为l) 在步骤110判断出差标志位是否为0:是,则执行节假日和上班子程序。 Referring again to FIG. L, is determined at step 106 whether the flag is 0 to work: NO, (i.e., the flag bit is l) in step 110 determines whether the trip flag 0: yes, holidays and work routines.

10)、在制热模式下按锁定最高或最低温度专用红外遥控器91 的锁定温度键输入可控室温的最高温度即锁定上限温度,并存入单片计算机1的存储器内,可设定的室内温度只能在防冻温度与锁定的上限温度之间选取,在制冷模式下按锁定最高或最低温度专用红外遥控器91的锁定温度键输入可控室温的最低温度即锁定最低温度,并存入单片计算机的存储器内,可设定的室内温度只能在锁定的最低温度与35'C之间选取;锁定的最高或最低温度可由锁定最高或最低温度专用红外遥控器调节。 10), in heating mode according to the lowest temperatures on the locking infrared remote control 91 or highest locking key input temperature controlled room temperature i.e. the maximum locking limit temperature, and stored into the memory of a single-chip computer, can be set only between the room temperature and the freezing temperature of the maximum temperature of the selected lock, in the cooling mode by locking the key input minimum temperature controlled room maximum or minimum temperatures on infrared remote control 91, i.e. the locking minimum temperature and stored the memory of the single-chip computer, the indoor temperature can be set only select between the locked and the lowest temperature 35'C; lock maximum or minimum temperature can be high or low temperatures on the locking infrared remote control adjustment. 请参阅图9,图9是锁定室内最高或最低温度子程序流程图,在步骤901判断是否按下温度锁定键:是,则再于步骤902判断制热标志位是否为1:是,(也就是系统工作在制热模式) 则在步骤903读取限温变量值,在步骤904将该值加1,然后在步骤905判断该值是否大于35:否,则在步骤908保存该值,是,则在步骤906将该值设为5,然后在步骤907保存该值;当步骤902的判断为否时(此时是制冷模式)在步骤909读取限温变量值,在步骤910 将该值加1,然后在步骤911判断该值是否大于35:否,则在步骤914保存该值;是,则在步骤912将该值设为15(因为制冷模式总的温度范围是15-C—35'C),然后在步骤913保存该值。 Please refer to FIG. 9, FIG. 9 is a top or bottom locking subroutine flowchart room temperature, the temperature at step 901 whether the pressed key is determined lock: yes, then at step 902 determines whether the heating flag is 1: Yes, (also that the system operates in a heating mode) then in step 903 reads the value of variable temperature limit, in step 904 plus the value 1, then step 905 determines whether the value is greater than 35: NO, then in step 908 the stored value, is , then at step 906 the value to 5, and the value stored at step 907; step 902 when the determination is NO (in this case, cooling mode) is read at step 909 a variable temperature limit value, at step 910 the value plus 1, then step 911 determines whether the value is greater than 35: NO, then the value stored at step 914; YES, then at step 912 the value to 15 (cooling mode since overall temperature range is from 15-C- 35'C), then at step 913 to save the value.

11) 按户用红外遥控器81上的模式转换键,工作模式可顺次在"自动"、"制冷"、"制热"之间转换;请参阅图12,图12是模式转 11) Press the household infrared remote control mode changeover key 81, the operation mode can be sequentially among "Auto", "cooling", "heating" conversion; see FIG. 12, FIG. 12 is a schematic rpm

换子程序流程图,用来完成用户用红外遥控器81将模式在"自动"、 "制冷"、"制热"三种模式互相转换的功能。 In other subroutine flowchart for the user to complete the infrared remote control 81 in the mode "automatic", "cooling", "heating" three models mutual conversion function.

首先在步骤1201判断是否按下模式键:否,则在在步骤1210 返回;是,则在步骤1202判断模式标志位是否为1 (模式标志位为1 是自动模式):是,则在步骤1203判断当前温度值是否大于24:是, 则在步骤1204将制热标志位设置为0 (此时为制冷工作状态),然后在步骤1210返回;否,则在步骤1205将制热标志位设置为1 (此时为制热工作状态),然后在步骤1210返回;当在步骤1202的判断为否时,则在步骤1206判断模式标志位是否为2 (模式标志位为2是制冷模式):是,则在步骤1207将制热标志位设置为0,然后在步骤1210返回;否,则在步骤1208判断模式标志位是否为3 (模式标志位为3是制热模式):是,则在步骤1209将制热标志位设置为1,然后在步骤1210返回;否,则在步骤1210返回。 First, at step 1201 determines whether the mode key is pressed: NO, then in step 1210 returns; YES, then in step 1202 determines whether the mode flag 1 (mode flag 1 is in automatic mode): is, then in step 1203 determining whether the current temperature is greater than 24: YES, then at step 1204 the heating flag is set to 0 (in this case, the cooling operation state), and then returns at step 1210; NO, then at step 1205 the flag is set to the heating 1 (in this case working as heating state), then return to step 1210; if it is determined in step 1202 is NO, then in step 1206 determines whether the mode flag is 2 (mode 2 flag is the cooling mode): is , at step 1207 the heating flag is set to 0, then 1210 returns at step; NO, then whether step 1208 determination mode flag is set to 3 (mode flag is set to 3 is heating mode): so, at step 1209 the heating flag is set to 1, and then returns at step 1210; NO, then at step 1210 to return.

12) 按户用红外遥控器81上的风速调节键,风速可顺次在"弱风"、"中风"、"强风"、"关闭"之间转换。 12) according to the wind speed household infrared remote control button 81, the wind speed can be sequentially "weak wind", "stroke", "high", "off" switch between. 请参阅图11,图11是设定风速子程序流程图,用来完成用户用红外遥控器81将风速在"弱风"、"中风"、"强风"和"关闭"四种状态中调整的功能。 Please refer to FIG. 11, FIG. 11 is a subroutine flowchart setting wind speed for the user to complete the infrared remote controller 81 in the wind speed "weak wind", "stroke", "high" and "off" adjustment of four states Features.

首先在步骤1101判断是否按下设定风速键:否,则在在步骤1109 返回;是,则在步骤1102判断风速标志位是否为1:是,则在步骤1103将风速设为弱风,然后在步骤1109返回;否,则在步骤1104 判断风速标志位是否为2:是,则在步骤1105将风速设为中风,然 First, at step 1101 determines whether the wind speed setting key is pressed: NO, then in step 1109 returns; is the wind speed is determined at step 1102 whether the flag 1: is the wind velocity at the weak wind 1103 in step, and in step 1109 returns; NO, then in step 1104 determines whether the flag 2 wind speed: is the wind velocity at the stroke 1105 in step, then

后在步骤1109返回;否,则在步骤1106判断风速标志位是否为3: 是,则在步骤1107将风速设为强风,然后在步骤1109返回;否,则在步骤1108将风速关闭,在步骤1109返回。 After return to step 1109; NO, then in step 1106 determines the wind speed flag is 3 or not: that, at step 1107 the wind velocity at a strong wind, and 1109 returns at step; NO, then the wind speed closed at step 1108, at step 1109 returns.

13)利用户用红外遥控器81上的"设定出差出行日期、时间" 键、"设定出差返回日期、时间"键、"数字增"键、"数字减"键和"切换"键,将出差/旅游出行的日期及时间和返回的日期及时间, 存入单片计算机单元的存储器内。 13) Lee user with the infrared remote control 81 'is set trip travel date and time "button," set the return travel date and time "button," which a number "key," is reduced by "key and the" handover "key, the trip / tour date and time of travel and the return date and time, stored in the memory cells of single-chip computer.

当万年历的日期和时钟运行到出差出行的日期和时间时,单片计算机单元发出"关闭"指令,在制热模式将室内温度控制在防冻温度, 在制冷模式将冷气关闭;当万年历的日期和时钟运行到出差返回的曰期和时间时,单片计算机单元发出指令,将系统恢复到出行前的工作状态。 When the date and time to the operation of the calendar date and time of travel of travel, single-chip computer unit emits a "close" instruction, in the heating mode, the indoor temperature is controlled at a temperature of freezing, cold air in cooling mode off; when the calendar date and when the clock is running and the time of said return travel, the single-chip computer unit issues a command to restore the system to working condition before the trip. 请参阅图IO,在步骤1001读取万年历日期和时间,然后在步骤1002判断"当前时间是否早于出差日期时间":是,则在步骤1003 继续执行原来的"节假日和上班子程序";否,则在步骤1004判断"当前时间是否已过返回日期时间":否,则在步骤1007执行"关热(冷) 动作子程序";是,则在步骤1005执行"节假日和上班子程序"即恢复出行前的工作状态,进一步在步骤1006将出差标志位置0。 See Figure IO, read in step 1001 calendar date and time, then in step 1002 to determine "whether the current time is earlier than the date and time travel": yes, in step 1003 to continue the implementation of the original "holidays and work routine"; No , then at step 1004 it is determined "whether the current time has elapsed datetime": no, "off heat (cooling) operation routine" at step 1007; YES, step 1005 is performed "holidays and work routine" i.e. travel previous state is restored, at step 1006 a further travel flag 0.

Claims (3)

1. 一种中央空调室温智能控制系统,该中央空调室温智能控制系统包括一个单片计算机单元(1)、室温检测单元(6)、无线接收单元(2)、风速调节单元(4)、流量调节单元(5)、户用遥控器(8)和输出单元(7),所述输出单元(7)输出为视频时是含有显示屏的电路单元,输出单元(7)输出为音频时是语音电路;室温检测单元(6)的输出端、无线接收单元(2)的输出端、风速调节单元(4)的输入端、流量调节单元(5)的输入端和输出单元(7)的输入端分别与单片计算机单元(1)的I/O口相连接,其特征在于:所述的中央空调室温智能控制系统还包括一个万年历(3)和一个锁定最高或最低温度专用遥控器(9),万年历(3)的I/O口与单片计算机单元(1)的I/O口相连接,所述锁定最高或最低温度专用遥控器(9)在中央空调工作在加热工况时锁定室内制热的最高温度,在中央空调工作在制冷工况时,锁 A central air-conditioning temperature intelligent control system, the central air-conditioning temperature control system comprises a one-chip intelligent computer unit (1), temperature detecting means (6), a wireless reception unit (2), speed regulation unit (4), flow rate when the control unit (5), household remote control (8) and an output unit (7), the output unit (7) outputs to the circuit unit containing the video screen, the output unit (7) is a voice audio output circuit; room temperature detector unit (6) output terminal, radio receiving section (2) of the output speed adjustment input unit (4), the flow regulating means (5) input and output unit (7) input terminal are monolithic computer unit (1) of the I / O port is connected, wherein: the central air-conditioning temperature control system further comprises a smart calendar (3) and a locking maximum or minimum temperature dedicated remote control (9) , the I calendar (3) an I / O port and the single-chip computer unit (1) / O port is connected to the locking maximum or minimum temperature dedicated remote control (9) upon heating chamber locked condition in central air-conditioning operation the maximum temperature of heating, in the central air-conditioning operation in the cooling operating mode, the lock 室内制冷的最低温度。 Minimum indoor temperature cooling.
2. —种中央空调室温节能智能控制方法,该方法包括下列步骤: 1)开机系统默认自动模式,自动模式是系统根据开机后瞬间的室内温度判断需要制热就工作在制热工况,需要制冷就工作在制冷工况;2) 通过户用遥控器上的按键将上班时间、下班时间、每周的工作曰和休息日、分别存入单片计算机单元(1)内的各自的存储单元内;用遥控器上的按键组合将万年历的日期和时间校准;3) 由户用遥控器(8)输入设定温度,存入单片计算机单元(1) 的存储器,将室温检测单元(6)检测到的室内温度与设定温度比较, 根据比较结果,单片计算机单元(1)发出升温或降温指令至流量调节单元(5),制热时调节供热量,制冷时调节供冷量,将室温控制在设定温度;4) 按户用遥控器(8)上的"关闭"键,单片计算机单元(1) 输出指令至流量调节单元(5),在制热模式时将 2. - kind of central air-conditioning energy intelligent control room, the method comprising the steps of: 1) default boot the system automatic mode, automatic mode, the system is working in the heating condition is determined according to the room temperature after power instantaneous heating needs, requires on cooling in a cooling condition; 2) by using the keys on the remote user will work time, work time, said work week and days, respectively, into single-chip computer unit (memory cells of each) in 1 inside; with key combination on the remote control the calendar date and time alignment; 3) by a user with a remote controller (8) enter the set temperature stored in the single-chip computer unit (1) in the memory, the temperature detection means (6 ) detected by the indoor temperature and the set temperature according to the comparison result, single-chip computer unit (1) heating or cooling commands sent to the flow adjusting unit (5), for adjusting the heating amount of heat, the refrigerant cooling capacity adjustment the temperature at the set temperature; 4) by the user with the remote control "close" key, single-chip computer unit (1) outputs an instruction to the flow rate adjusting unit (5) to (8), when the heating mode 温一直控制在防冻温度,在制冷模式时停止供冷;5) 按户用遥控器(8)上的"打开"键,单片计算机单元(1) 输出指令至流量调节单元(5),调节供热/冷量,将室温一直控制在设定温度;6) 当万年历(3)的日期和时钟运行到设定的工作日的上班时间时,单片计算机单元(1)向流量调节单元(5)发出"开热/冷"指令,将室温控制在设定温度;7) 当万年历(3)的日期和时钟运行到设定的工作日的下班时间时,单片计算机单元(1)向流量调节单元(5)发出"关闭"热/冷指令,在制热模式时将室温控制在防冻温度,在制冷模式时停止供冷;8) 当万年历(3)运行到设定的休息日及节假日时,单片计算机单元(1)向流量调节单元(5)发出"关闭"指令,在制热模式时全天将室温一直控制在防冻温度,在制冷模式时全天停止供冷;9) 在常"关闭"状态或在常"打开"状态,当单片计算 Temperature has been controlled at freezing temperature, the cooling is stopped during the cooling mode; 5) by the user with the remote control ( "Open" button, single-chip computer unit (1) outputs an instruction to the flow rate adjusting unit (5) on the 8), adjusting heating / cooling capacity, the temperature has been controlled to the set temperature; 6) when a calendar (3) the date and time to the setup of the working time of the working day, single-chip computer unit (1) the flow rate adjusting unit ( 5) issued "on hot / cold" instruction, the control temperature set at room temperature; 7) when the calendar (3) the date and time to the setup of the working time of work, single-chip computer unit (1) to flow regulator unit (5) issued a "Close" hot / cold command, during heating mode of the control room in the freezing temperature, the cooling is stopped during the cooling mode; 8) rest when the calendar days and set (3) to run when holidays, single-chip computer unit (1) the flow rate adjusting unit (5) issued a "close" instruction, when the heating mode has been controlled at room temperature for a day the antifreeze temperature, cooling is stopped when the cooling mode day; 9) the normally "off" state or in the normally "on" state, when the monolithic calculated 单元(1)通过无线接收单元(2)接收到户用遥控器(8)输入的"上班"指令时,转为工作日的工作时间"打开"热/冷,非工作时间"关闭"热/冷的工作状态,即转为工作日的工作时间将室温控制在设定温度,非工作时间在加热工况时将室温控制在防冻温度在制冷工况时将冷气关闭;10) 在制热模式下按锁定最高或最低温度专用遥控器(9)的锁定温度键输入可控室温的最高温度即锁定上限温度,并存入单片计算机单元(1)的存储器内,用户可设定的室内温度只能在防冻温度与锁定的上限温度之间选取,在制冷模式下按锁定最高或最低温度专用遥控器(9)的锁定温度键输入可控室温的最低温度即锁定最低温度, 并存入单片计算机单元(1)的存储器内,用户可设定的室内温度只能在锁定的最低温度与35"C之间选取,锁定的温度值可由锁定最高或最低温度专用遥控器(9) When the unit (1) receives the home, "work" with the remote control instruction (8) input through the radio receiving unit (2), into the working hours on weekdays "open" hot / cold, non-working time "off" heat / cold working state, i.e. into working hours on weekdays control room at a set temperature, non-working time in the heating control condition at room temperature during the cooling freezing cold air off condition; 10) in the heating mode by locking the lower the maximum or minimum temperature dedicated remote control (9) of the locking key input maximum temperature controlled room temperature i.e. the locking limit, single-chip computer and stored in the unit (1) memory, the user can set the room temperature only the locking between the freezing temperature and the maximum temperature selected, in the cooling mode by locking the maximum or minimum temperature of the dedicated remote control (9) of the temperature lock key input controlled room temperature i.e., the lowest temperature minimum locking and payee computer unit within a memory chip (1), the user can set the room temperature only between the locked and the lowest temperature 35 "C selected, the lock can be locked maximum temperature or minimum temperature dedicated remote control (9) 节;11) 按户用遥控器(8)上的模式转换键,工作模式可顺次在"自动"、"制冷"、"制热"之间转换;12) 按户用遥控器(8)上的风速调节键,风速可顺次在"弱风"、"中风"、"强风"、"关闭"之间转换。 Section; 11) by using household conversion key on the remote control mode (8), sequentially in the working mode "automatic", "cooling", switching between "heating"; 12) by the user with the remote control (8) Winds on the control button, wind speed sequentially in the "weak wind", "stroke", "high", "off" switch between.
3.根据权利要求2所述的中央空调室温节能智能控制方法,其特征是,它还包括这样一个步骤,即利用户用遥控器(8)上的"设定出差出行日期、时间"键、"设定出差返回日期、时间"键、"数字增"键、"数字减"键和"切换"键的组合,将出差/旅游出行的日期及时间和返回的日期及时间,存入单片计算机单元(1)的存储器内,当万年历的日期和时钟运行到出差出行的日期和时间时,单片计算机单元(1)发出"关闭"指令,在制热模式将室内温度控制在防冻温度,在制冷模式将冷气关闭;当万年历的日期和时钟运行到出差返回的日期和时间时,单片计算机单元(1)发出指令,将系统恢复到出行前的工作状态。 The central air temperature controlling method according to Energy Smart claimed in claim 2, characterized in that it also includes a step of advantage with the remote user "set trip travel date and time" on the key (8), "travel set return date and time" button, "which a number" key, "digital Save" and key combination "switching" key, the trip / tour date and time and the date and time of travel of the return, into a monolithic the memory of a computer unit (1), when the calendar date and the date and time clock running on business travel, single-chip computer unit (1) issue a "close" instruction, in the heating mode, the indoor temperature is controlled at freezing temperature, in cooling mode the cold air off; when the calendar date and the date and time clock running return travel, the single-chip computer unit (1) issues a command to restore the system to the operating state before the trip.
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