CN107421057A - Office energy-saving control system and method - Google Patents

Office energy-saving control system and method Download PDF

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Publication number
CN107421057A
CN107421057A CN201710311824.4A CN201710311824A CN107421057A CN 107421057 A CN107421057 A CN 107421057A CN 201710311824 A CN201710311824 A CN 201710311824A CN 107421057 A CN107421057 A CN 107421057A
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temperature
office
processing module
air conditioner
signal
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CN201710311824.4A
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Chinese (zh)
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倪成胜
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上海纳普信息科技有限公司
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Priority to CN201710311824.4A priority Critical patent/CN107421057A/en
Publication of CN107421057A publication Critical patent/CN107421057A/en

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Abstract

The invention provides an office energy-saving control system and method. Owing to the fact that the environment temperatures of different areas of an office are collected by temperature sensing units, a temperature heap map is drawn through a processing unit, the temperatures of all the office areas are intuitively shown, the situation that the office structure is manually detected and adjusted is facilitated, indoor temperature adjusting is accelerated, and energy consumption of an air conditioner is reduced; the air conditioner is automatically turned on and off through the processing unit according to the set working date, on-duty and off-duty time and overtime of the office energy-saving control system, and therefore the unnecessary working time of the air conditioner is reduced; and thus, according to the office energy-saving control system, energy waste can be effectively reduced, and the more energy-saving and comfortable office environment is created.

Description

一种办公室节能控制系统及方法 One kind of energy-saving control system and method office

技术领域 FIELD

[0001]本发明属于节能环保领域,具体涉及一种办公室节能控制系统及方法。 [0001] The present invention belongs to the field of energy saving, particularly, to a system and method for power saving control office.

背景技术 Background technique

[0002]随着人们生活水平的提高,办公室内通常都安装有空调,而空调自带温度传感器用于自动化控制室内温度,但空调的温度传感器一般安装在空调机机身上,这就导致了所检测到的温度与办公室各个区域的体感温度存在很大差异,影响人体舒适度,也增加了空调机非必要工作时间,造成浪费。 [0002] With the improvement of people's living standards, the office usually are equipped with air conditioning, and air conditioning comes with a temperature sensor for automatic temperature control room, but the air conditioning temperature sensor air conditioner is usually installed in the body, which leads to the presence of the detected temperature and the temperature of each region of the somatosensory offices vary widely, affect human comfort, but also increases the air conditioner non-essential work time, resulting in waste.

发明内容 SUMMARY

[0003] 本发明是为了解决上述问题而进行的,目的在于提供一种有效节约能源、温度可视化管理的办公室节能控制系统及方法。 [0003] The present invention is made to solve the above problems, and aims to provide an efficient office energy saving, energy-saving temperature visual management control systems and methods.

[0004] 本发明提供了一种办公室节能控制系统,其特征在于,包括: [0004] The present invention provides a control system for saving office, characterized by comprising:

[0005] 温度传感单元,包含多个温度传感器,分别设置在办公室的不同区域,用于采集环境温度; [0005] The temperature sensing unit comprises a plurality of temperature sensors are provided at different areas of the office, for collecting ambient temperature;

[0006] 中继器,接收温度传感单元所采集的温度信号,并对温度信号进行再生放大; [0006] The repeater receives the temperature signal of the temperature sensing means collected, amplified temperature signal and reproduction;

[0007] 处理单元,包括报警模块、设定模块及处理模块,设定模块用于设置工作日期、上班下班时间、制热阈值、制冷阈值,处理模块用于控制空调机的打开或关闭、控制空调机的工作模式、以及用于绘制温度热点图;以及 [0007] The processing unit includes an alarm module, a setting module and a processing module, setting means for setting operation date, time from work, the threshold heating, cooling the threshold value, the processing module for controlling the opening or closing of the air conditioner, the control the operating mode of the air conditioner, and used to draw the hot spot temperature map; and

[0008] 显示单元,与处理模块连接,用于显示当前时间、温度传感器采集的温度值以及温度热点图, [0008] The display unit is connected with the processing module configured to display the current time, the temperature sensor and the temperature value acquired FIG hot spot temperature,

[0009] 其中,处理模块判断当前时间是否处于设定模块设定的工作日期并且是否在上班下班时间之间,从而控制空调机的打开或关闭, [0009] wherein the processing module determines whether the current time is set in work date setting module and whether the time between to and from work, so as to control opening or closing of the air conditioner,

[0010] 处理模块接收中继器发送的温度信号,分别判断每个温度信号分别与制热阈值和制冷阈值的大小关系得到判断结果,然后对判断结果进行分类,并统计每一类的数量得到每一类判断结果的比重,然后根据比重调整空调机的工作模式,或者控制报警单元进行报警, [0010] The processing module receives a temperature signal transmitted from the repeater, determined separately for each temperature were obtained determination result signal magnitude relation between heating and cooling threshold value and the threshold value, then the judgment result classification, and counts the number of each type of obtained the proportion of each type determination result, and then adjust the specific gravity of the air conditioner according to the operation mode, the control alarm unit or alarm,

[0011] 处理模块根据接收到的温度信号,绘制出温度热点图。 [0011] The processing module according to the received temperature signal, the hot spot temperature plotted in FIG.

[0012] 进一步,在本发明提供的办公室节能控制系统中,还可以具有这样的特征:其中, 温度传感器为基于ZigBee无线技术的温度传感器。 [0012] Further, the present invention provides the office energy-saving control system, may also have such features: wherein the temperature sensor is a temperature sensor based on ZigBee wireless technology.

[0013] 进一步,在本发明提供的办公室节能控制系统中,还可以具有这样的特征:其中, 温度传感器与中继器之间,中继器与处理模块之间以及处理模块与空调机之间采用无线连接。 Wherein between the temperature sensor and a repeater, between repeaters and processing module and a processing module of the air conditioner: [0013] Further, in the office saving control system of the present invention provided herein, may also have such characteristics wireless connection.

[0014] 进一步,在本发明提供的办公室节能控制系统中,还可以具有这样的特征:其中, 判断结果包含:温度信号大于制热阈值的过热状态、温度信号小于制冷阈值的过冷状态、温度信号小于等于制热阈值且大于等于制冷阈值的适宜状态, [0014] Further, in the office saving control system of the present invention is provided, may also have such features: wherein the determination result comprises: a temperature signal is greater than the overheated state the heating threshold temperature signal is less than the supercooled state of the refrigeration threshold temperature signal is less than the threshold value is equal to the thermal system and the state of the refrigeration suitably greater than or equal to the threshold value,

[0015] 当超过半数的温度传感器的温度处于适宜状态时,处理模块控制空调机调整为恒温模式, [0015] When the temperature of more than half of the temperature sensor in the appropriate position, the processing module controls the air conditioner to adjust the temperature mode,

[0016] 当超过半数的温度传感器的温度处于过热状态时,处理模块控制报警单元报警, 并控制空调机调整为制冷模式, [0016] When the temperature of more than half of the temperature sensor in a superheated state, the alarm processing module controls the alarm unit, and controls the air conditioner is adjusted to a cooling mode,

[0017] 当超过半数的温度传感器的温度处于过冷状态时,处理模块控制报警单元报警, 并控制空调机调整为制热模式。 [0017] When the temperature exceeds half of the temperature sensor in the supercooled state, the alarm processing module controls the alarm unit, and controls the air conditioner to adjust the heating mode.

[0018] 进一步,在本发明提供的办公室节能控制系统中,还可以具有这样的特征:其中, 判断结果包含:温度信号大于制热阈值的过热状态、温度信号小于制冷阈值的过冷状态、温度信号小于等于制热阈值且大于等于制冷阈值的适宜状态, [0018] Further, in the office saving control system of the present invention is provided, may also have such features: wherein the determination result comprises: a temperature signal is greater than the overheated state the heating threshold temperature signal is less than the supercooled state of the refrigeration threshold temperature signal is less than the threshold value is equal to the thermal system and the state of the refrigeration suitably greater than or equal to the threshold value,

[0019] 当所有的温度传感器的温度处于适宜状态时,处理模块控制空调机调整为恒温模式 [0019] When the temperatures of all temperature sensors in the appropriate position, the processing module controls the air conditioner to adjust the temperature mode

[0020] 当任一温度传感器的温度处于过热状态时,处理模块控制报警单元报警,并控制空调机调整为制冷模式, [0020] When the temperature of a temperature sensor according to any of the superheated state, the alarm processing module controls the alarm unit, and controls the air conditioner is adjusted to a cooling mode,

[0021] 当任一温度传感器的温度处于过冷状态时,处理模块控制报警单元报警,并控制空调机调整为制热模式。 [0021] When the temperature of a temperature sensor according to any of the supercooled state, the alarm processing module controls the alarm unit, and controls the air conditioner to adjust the heating mode.

[0022] 本发明还提供了一种办公室节能控制方法,其特征在于,采用上述办公室节能控制系统进行控制,具体控制方法如下: [0022] The present invention further provides a method of controlling energy office, characterized in that the above-described energy-saving control system controls the office, a specific control method is as follows:

[0023] S1:温度传感单元采集办公室不同区域的环境温度,并发送温度信号至中继器,中继器对温度信号进行再生放大,再发送至处理模块; [0023] S1: collecting ambient temperature sensor unit regions of different offices, and transmits a temperature signal to the repeater, a repeater for amplifying the temperature signal is reproduced, and then sent to the processing module;

[0024] S2:处理模块判断当前时间是否处于设定模块设定的工作日期并且是否在上班下班时间之间,从而控制空调机的打开或关闭, [0024] S2: the processing module determines whether the current time is set in work date setting module and whether the time between to and from work, so as to control opening or closing of the air conditioner,

[0025] 处理模块接收中继器发送的温度信号,分别判断每个温度信号分别与制热阈值和制冷阈值的大小关系得到判断结果,然后对判断结果进行分类,并统计每一类的数量得到每一类判断结果的比重,然后根据比重调整空调机的工作模式,或者控制报警单元进行报警, [0025] The processing module receives a temperature signal transmitted from the repeater, determined separately for each temperature were obtained determination result signal magnitude relation between heating and cooling threshold value and the threshold value, then the judgment result classification, and counts the number of each type of obtained the proportion of each type determination result, and then adjust the specific gravity of the air conditioner according to the operation mode, the control alarm unit or alarm,

[0026]处理模块根据接收到的温度信号,运用编程语言,绘制出温度热点图; [0026] The processing module based on the received temperature signal, using the programming language, the hot spot temperature plotted in FIG;

[0027] S3:显示单元显示温度热点图,当持续报警时,查看热点图,判定出温度异常区域, 人工检查该区域,并对该区域进行包括关窗户、拉窗帘、添加风扇、添加取暖器在内的格局调整。 [0027] S3: FIG display unit to display the hot spot temperature, when the alarm duration, see FIG hot, determined abnormal temperature region, the manual inspection region, and the region comprises a closed window, pull the curtains, supplemental fans, heaters added including the pattern of adjustment.

[0028]进一步,在本发明提供的办公室节能控制方法中,还可以具有这样的特征:其中, 绘制温度热点图的具体方法:在编程语言环境下,设置各个温度传感器的位置,以透明度方式画出每个温度传感器的圆形图标,根据温度信号调整圆形图标的颜色。 [0028] Further, the energy saving control method of the office of the present invention provided herein, may also have such features: wherein, the specific method of drawing the hot spot temperature diagram: In the programming language environment, the installation position of each temperature sensor by transparency mode Videos a circular icon for each temperature sensor, the temperature of the color signal adjustment in accordance with a circular icon.

[0029]进一步,在本发明提供的办公室节能控制方法中,还可以具有这样的特征:其中, 设定模块设置有加班模式,加班模式中设置加班的日期以及加班时的上下班时间。 [0029] Further, the energy saving control method of the present invention provides the office, may also have such features: wherein the module is provided with a set mode overtime, overtime overtime mode setting date and time to work overtime.

[0030]本发明的优点如下: [0030] The advantages of the present invention are as follows:

[0031]根据本发明所涉及的办公室节能控制系统,因为温度传感单元采集到办公室不同区域的环境温度,经处理单元绘制成温度热点图,直观地展现出各个办公区域的温度,方便人工检查调整办公室格局,加速室内温度调节,减少空调机能耗;处理单元根据其设定的工作日期、上班下班时间以及加班时间自动开关空调机,减少了空调机的非必要工作时间。 [0031] The office saving control system according to the present invention, since the temperature of the ambient temperature sensing means to collect different areas of offices, the hot spot temperature plotted by the processing unit of FIG visually show the temperature of each of the office area, to facilitate manual inspection adjustment office pattern acceleration room temperature regulation, to reduce the energy consumption of the air conditioner; a processing unit for setting the work in accordance with the date, time from work time, and non-essential overtime automatic switch of the air conditioner, the air conditioner is reduced. 因此,本发明的办公室节能控制系统能有效减少能源浪费,创造一个更加节能舒适的办公环境。 Therefore, office energy saving control system of the present invention can effectively reduce energy waste, to create a more energy-efficient and comfortable office environment.

附图说明 BRIEF DESCRIPTION

[0032]图1是本发明实施例中办公室节能控制系统的结构示意图。 [0032] FIG. 1 is a schematic structural diagram of a control system, saving office embodiment of the present invention.

具体实施方式 Detailed ways

[0033]为了使本发明实现的技术手段、创作特征、达成目的与功效易于明白了解,以下实施例结合附图对本发明的办公室节能控制系统及方法作具体阐述。 [0033] In order to achieve the technical means of the present invention, the creation of features, to achieve the purpose and effect readily apparent appreciated that the specific embodiments described in conjunction with the accompanying drawings of the present invention, the power saving control office systems and methods for the following embodiments.

[0034]如图1所;^:,在本实施例中,办公室节能控制系统100包括:温度传感单元1、中继器2、处理单元3、显示单元4,其中温度传感单元1由多个温度传感器11组成,处理单元3由报警模块31、设定模块32、处理模块33组成。 [0034] FIG 1; ^ :, In the present embodiment, the power saving control office system 100 comprising: a temperature sensor unit 1, the repeater 2, the processing unit 3, the display unit 4, wherein the temperature sensing unit 1 by the composed of a plurality of temperature sensors 11, the processing unit 3 by the alarm module 31, setting module 32, the processing module 33 components.

[0035] 本实施例中,温度传感器11为基于ZigBee无线技术的温度传感器。 [0035] In the present embodiment, the temperature sensor 11 is a temperature sensor based on ZigBee wireless technology. 多个温度传感器11分别设置在办公室的不同区域,用于采集环境温度。 A plurality of temperature sensors 11 are provided in different areas of the office, for collecting ambient temperature. 优选温度传感器设置在空调机覆盖范围内,但是也可以选择其它地方,只要温度传感器采集的温度跟体感温度一致即可。 Preferably the temperature sensor is disposed within the coverage of the air conditioner, but may also be selected elsewhere, as long as the temperature of the temperature sensor with the collected sensible temperature can be consistent. [0036]中继器2接收温度传感单元1所采集的温度信号,并对温度信号进行再生放大。 [0036] The temperature signal repeater unit 2 receives a temperature sensor collected, and amplifies the temperature signal is reproduced. [0037] 处理单元3中的设定模块32用于设置工作日期、上班下班时间、制热阈值、制冷阈值,处理模块33用于控制空调机的打开或关闭、控制空调机的工作模式、以及用于绘制温度热点图。 [0037] The processing unit module 332 is set for setting the operation date, time from work, the threshold heating, cooling the threshold value, the processing module 33 for controlling the operating mode of the air conditioner on or off, controlling the air conditioner, and for drawing the hot spot temperature in FIG.

[0038]显示单元4与处理模块33连接,用于显示当前时间、温度传感器11采集的温度值以及温度热点图。 [0038] The display unit 4 connected to the processing module 33 for displaying the current time, the temperature sensor 11 and the temperature of the hot spot temperature value acquired FIG.

[0039] 本实施例中,温度传感器11与中继器2之间,中继器2与处理模块33之间以及处理模块33与空调机之间优选采用无线连接,但也可以采用有线连接。 [0039] In this embodiment, the temperature sensor 11 between the repeater 2, the repeater 2 and between the processing modules 33 and a processing module 33 is preferably connected between the air conditioner using wireless, but the wired connection may be employed.

[0040] 在本实施例中,其中,处理模块33判断当前时间是否处于设定模块32设定的工作曰期并且是否在上班下班时间之间,从而控制空调机的打开或关闭。 [0040] In the present embodiment, wherein the processing module 33 determines whether the current time in the set of said work module 32 is between the set and the time from work, thereby controlling the air conditioner on or off.

[0041] 处理模块33接收中继器2发送的温度信号,分别判断每个温度信号分别与制热阈值和制冷阈值的大小关系得到判断结果,然后对判断结果进行分类,并统计每一类的数量得到每一类判断结果的比重,然后根据比重调整空调机的工作模式,或者控制报警单元31 进行报警。 [0041] The processing module 33 receives the temperature signal transmitted repeater 2, respectively, is determined for each temperature were obtained determination result signal magnitude relation heating and cooling threshold value and the threshold value, then the judgment result classification, and statistics for each class number determination result obtained proportion for each class, and then adjust the proportion according to the operation mode of the air conditioner, or the control unit 31 warning alarm.

[0042]处理模块33根据接收到的温度信号,绘制出温度热点图。 [0042] The processing module 33 receives the temperature signal, the hot spot temperature plotted in FIG.

[0043] 在本实施例中,优选判断结果包含:温度信号大于制热阈值的过热状态、温度信号小于制冷阈值的过冷状态、温度信号小于等于制热阈值且大于等于制冷阈值的适宜状态。 [0043] In the present embodiment, preferably the determination result comprises: a temperature signal is greater than the overheated state the heating threshold temperature signal is less than the refrigeration threshold supercooled state, the temperature signal is less than or equal the heating threshold value and greater than or equal suitable state of the refrigeration threshold. 当超过半数的温度传感器的温度处于适宜状态时,处理模块控制空调机调整为恒温模式; 当超过半数的温度传感器的温度处于过热状态时,处理模块控制报警单元报警,并控制空调机调整为制冷模式;当超过半数的温度传感器的温度处于过冷状态时,处理模块控制报警单元报警,并控制空调机调整为制热模式。 When the temperature is more than half of the temperature sensor in the appropriate position, the processing module controls the air conditioner is adjusted to a constant temperature mode; when the temperature is more than half of the temperature sensor is in an overheated state, the processing module controls the alarm unit alarms, and controls the air conditioner to adjust refrigeration mode; when the temperature exceeds half of the temperature sensor in the supercooled state, the alarm processing module controls the alarm unit, and controls the air conditioner to adjust the heating mode.

[0044] 在第二实施例中,判断结果包含:温度信号大于制热阈值的过热状态、温度信号小于制冷阈值的过冷状态、温度信号小于等于制热阈值且大于等于制冷阈值的适宜状态。 [0044] In the second embodiment, the determination result comprises: a temperature signal is greater than the overheated state the heating threshold temperature signal is less than the supercooled state of the refrigeration threshold value, the temperature signal is less than equal to the heating threshold value and greater than or equal suitable state of the refrigeration threshold. 当所有的温度传感器的温度处于适宜状态时,处理模块控制空调机调整为恒温模式;当任一温度传感器的温度处于过热状态时,处理模块控制报警单元报警,并控制空调机调整为制冷模式;当任一温度传感器的温度处于过冷状态时,处理模块控制报警单元报警,并控制空调机调整为制热模式。 When the temperatures of all temperature sensors in the appropriate position, the processing module controls the air conditioner is adjusted to a constant temperature mode; when the temperature is any temperature sensor is in a superheated state, the processing module controls the alarm unit alarms, and controls the air conditioner to adjust the cooling mode; when the temperature is any temperature sensor in the supercooled state, the alarm processing module controls the alarm unit, and controls the air conditioner to adjust the heating mode. A A

[0045] 本实施例中办公室节能控制方法,包含如下步骤: [0045] Example office saving control method of the present embodiment, comprising the steps of:

[0046] S1:温度传感单元1采集办公室不同区域的环境温度,并发送温度信号至中继器2, 中继器2X寸温度信号进行再生放大,再发送至处理模块33。 [0046] S1: temperature sensor unit 1 collect ambient temperatures on the office, and transmits a temperature signal to the repeater 2, the repeater 2X inch regeneration temperature signal amplification, and then sent to the processing module 33.

[0047] S2:处理模块33判断当前时间是否处于设定模块32设定的工作日期并且是否在上班下班时间之间,从而控制空调机的打开或关闭。 [0047] S2: the processing module 33 determines whether the current time is set by setting module 32 is in work date and time from work between, thereby controlling the air conditioner on or off.

[0048]处理模块33接收中继器2发送的温度信号,分别判断每个温度信号分别与制热阈值和制冷阈值的大小关系得到判断结果,然后对判断结果进行分类,并统计每一类的数量得到每一类判断结果的比重,然后根据比重调整空调机的工作模式,或者控制报警单元31 进行报警。 [0048] The processing module 33 receives the temperature signal transmitted repeater 2, respectively, is determined for each temperature were obtained determination result signal magnitude relation heating and cooling threshold value and the threshold value, then the judgment result classification, and statistics for each class number determination result obtained proportion for each class, and then adjust the proportion according to the operation mode of the air conditioner, or the control unit 31 warning alarm.

[0049]处理模块33根据接收到的温度信号,运用编程语言,绘制出温度热点图。 [0049] The processing module 33 receives the temperature signal, using the programming language, the hot spot temperature plotted in FIG.

[0050] 本实施例中绘制温度热点图的具体方法: [0050] Specific embodiments of the present method embodiment of FIG hot drawing temperature:

[0051]在编程语言环境下,设置各个温度传感器的位置,以透明度方式画出每个温度传感器的圆形图标,根据温度信号调整圆形图标的颜色。 [0051] In the programming language environment, the installation position of each temperature sensor to draw a circular manner transparency icon for each temperature sensor, in accordance with the temperature signal to adjust the color of the circular icon.

[0052] 本实施例中,优选当温度信号处于过热状态时,圆形图标的颜色呈红色,当温度信号处于过冷状态时,圆形图标的颜色呈灰色,当温度信号处于适宜状态时,圆形图标的颜色呈绿色,但是也可以选择其它颜色来表示,只要能将温度信号所处的不同状态区分开即可。 When [0052] In this embodiment, preferably when the temperature signal is in an overheated state, the red color of the circle icon, when the temperature signal is in the supercooled state, the color of the icon is grayed circular, when the temperature signal is in the appropriate position, circular icon color is green, but other colors may be selected to represent so long as a temperature signal in which the different states can be distinguished. [0053] S3:显示单元4显示温度热点图,当持续报警时,查看热点图,判定出温度异常区域,人工检查该区域,并对该区域进行包括关窗户、拉窗帘、添加风扇、添加取暖器在内的格局调整。 [0053] S3: display unit 4 displays the hot spot temperature in FIG, when the alarm duration, see FIG hot, determined abnormal temperature region, the manual inspection region, and the region comprises a closed window, pull the curtains, the fan added, heating was added device including structure adjustment.

[0054]在本实施例中,设定模块设置有加班模式,加班模式中设置加班的日期以及加班时的上下班时间。 [0054] In the present embodiment, the module is provided with a set mode overtime, date supplementary work mode settings, and time to work overtime.

[0055]以上所述的实施例仅用于说明本发明的技术思想及特点,其目的在于使本领域内的技术人员能够了解本发明的内容并据以实施,不能仅以本实施例来限定本发明的专利范围,即凡依本发明所揭示的精神所作的同等变化或修饰,仍落在本发明的专利范围内。 Example [0055] The above-described technical idea is for illustration only and features of the invention, its object is to enable one skilled in the art to understand the present invention and accordingly embodiment, not only the present embodiment is defined the patentable scope of the present invention, i.e., where equivalent variations or modifications of the disclosed under this invention made by the spirit, still fall within the scope of the present invention.

Claims (8)

1. 一种办公室节能控制系统,其特征在于,包括: 温度传感单元,包含多个温度传感器,分别设置在办公室的不同区域,用于采集环境温度; 中继器,接收所述温度传感单元所采集的温度信号,并对所述温度信号进行再生放大; 处理单元,包括报警模块、设定模块及处理模块,所述设定模块用于设置工作日期、上班下班时间、制热阈值、制冷阈值,所述处理模块用于控制空调机的打开或关闭、控制空调机的工作模式、以及用于绘制温度热点图;以及显示单元,与所述处理模块连接,用于显示当前时间、所述温度传感器采集的温度值以及温度热点图, 其中,所述处理模块判断当前时间是否处于所述设定模块设定的工作日期并且是否在上班下班时间之间,从而控制空调机的打开或关闭, 所述处理模块接收所述中继器发送的温度信号,分别判断每个 An office saving control system comprising: temperature sensing means comprises a plurality of temperature sensors are provided at different areas of the office, for collecting ambient temperature; repeater, receiving the temperature sensing unit acquired temperature signal and said temperature signal reproduction amplify; processing unit comprises an alarm module, a processing module and a setting module, a setting module to set the operating date, time from work, the heating threshold, cooling the threshold, the processing module for controlling the opening or closing of the air conditioner, the air conditioner control operation mode, and means for drawing the hot spot temperature map; and a display unit connected with the processing module is configured to display the current time, the said temperature sensor and the temperature value acquired FIG hot spot temperature, wherein the processing module determines whether the current time is in the setting module sets the operation date and time is in between from work, thereby controlling the opening or closing of the air conditioner the processing temperature of the repeater transmitting signal receiver module, respectively, each determined 述温度信号分别与所述制热阈值和所述制冷阈值的大小关系得到判断结果,然后对判断结果进行分类,并统计每一类的数量得到每一类判断结果的比重,然后根据所述比重调整空调机的工作模式,或者控制所述报警单元进行报警, 所述处理模块根据接收到的所述温度信号,绘制出温度热点图。 Said temperature signal respectively determines the magnitude relation between heating result threshold and the threshold and cooling, then the result of the determination to classify and count the number of each type of the specific gravity determination result obtained for each class, and according to the proportion adjust the operating mode of the air conditioner, or the control unit performs the warning alarm, the processing module of the received signal in accordance with a temperature, the hot spot temperature plotted in FIG.
2. 根据权利要求1所述的办公室节能控制系统,其特征在于,所述温度传感器为基于ZigBee无线技术的温度传感器。 Office according to claim 1, said energy-saving system, characterized in that the temperature sensor is a temperature sensor based on ZigBee wireless technology.
3. 根据权利要求1所述的办公室节能控制系统,其特征在于,所述温度传感器与所述中继器之间,所述中继器与所述处理模块之间以及所述处理模块与空调机之间采用无线连接。 The office saving control system according to claim 1, characterized in that, between the temperature sensor and the relay, between the relay and the processing module and the processing module and the air-conditioning wireless connection between the machine.
4. 根据权利要求1所述的办公室节能控制系统,其特征在于, 所述判断结果包含:所述温度信号大于所述制热阈值的过热状态、所述温度信号小于所述制冷阈值的过冷状态、所述温度信号小于等于所述制热阈值且大于等于所述制冷阈值的适宜状态, 当超过半数的所述温度传感器的温度处于适宜状态时,所述处理模块控制空调机调整为恒温模式, 当超过半数的所述温度传感器的温度处于过热状态时,所述处理模块控制所述报警单元报警,并控制空调机调整为制冷模式, 当超过半数的所述温度传感器的温度处于过冷状态时,所述处理模块控制所述报警单元报警,并控制空调机调整为制热模式。 The office saving control system according to claim 1, wherein said determination result comprises: said temperature signal is greater than the braking state thermal threshold of superheat, the temperature signal is less than the threshold value of the refrigerant subcooling state, the temperature signal is less than or equal to the heating threshold value and greater than or equal to the threshold appropriate cooling state, when the temperature is more than half of the temperature sensor in the appropriate position, the processing module controls the air conditioner to adjust the temperature mode when the temperature is more than half of the temperature sensor is in an overheated state, the processing module controls the alarm unit alarms, and controls the air conditioner to adjust the cooling mode, when the temperature of more than half of the temperature sensor in the supercooled state when the processing module controls the alarm unit alarms, and controls the air conditioner to adjust the heating mode.
5. 根据权利要求1所述的办公室节能控制系统,其特征在于, 所述判断结果包含:所述温度信号大于所述制热阈值的过热状态、所述温度信号小于所述制冷阈值的过冷状态、所述温度信号小于等于所述制热阈值且大于等于所述制冷阈值的适宜状态, 当所有的所述温度传感器的温度处于适宜状态时,所述处理模块控制空调机调整为恒温模式, 当任一所述温度传感器的温度处于过热状态时,所述处理模块控制所述报警单元报警,并控制空调机调整为制冷模式, 当任一所述温度传感器的温度处于过冷状态时,所述处理模块控制所述报警单元报警,并控制空调机调整为制热模式。 The office saving control system according to claim 1, wherein said determination result comprises: said temperature signal is greater than the braking state thermal threshold of superheat, the temperature signal is less than the threshold value of the refrigerant subcooling state, the temperature signal is less than or equal to the heating threshold value and greater than or equal to the threshold appropriate cooling state, when the temperature of all of the temperature sensor in the appropriate position, the processing module controls the air conditioner to adjust the temperature mode, when the temperature of a temperature sensor according to any of the superheated state, the alarm processing module controls the alarm unit, and controls the air conditioner to adjust the cooling mode, when the temperature of any of said temperature sensor in the supercooled state, the said alarm processing module controls the alarm unit, and controls the air conditioner to adjust the heating mode.
6.—种办公室节能控制方法,其特征在于,采用权利要求1所述的控制系统进行控制, 具体控制方法如下: S1:所述温度传感单元采集办公室不同区域的环境温度,并发送温度信号至所述中继器,所述中继器对所述温度信号进行再生放大,再发送至所述处理模块; S2:所述处理模块判断当前时间是否处于所述设定模块设定的工作日期并且是否在上班下班时间之间,从而控制空调机的打开或关闭, 所述处理模块接收所述中继器发送的温度信号,分别判断每个所述温度信号分别与所述制热阈值和所述制冷阈值的大小关系得到判断结果,然后对判断结果进行分类,并统计每一类的数量得到每一类判断结果的比重,然后根据所述比重调整空调机的工作模式,或者控制所述报警单元进行报警, 所述处理模块根据接收到的所述温度信号,运用编程语言,绘制出温 6.- kinds of office saving control method characterized in that a control system according to claim 1 for controlling the specific control method is as follows: S1: the different regions of the temperature sensor unit office collect ambient temperature, and transmits a temperature signal to the repeater, the repeater for amplifying the temperature signal is reproduced, and then sent to the processing module; S2: the processing module determines whether the current time is in the setting module sets the operation date and whether the time between to and from work, thereby controlling the opening or closing of the air conditioner, the temperature signal processing module receives the relay transmission, respectively, each of said temperature signals is determined and the threshold value and the heating cooling said threshold magnitude relation determination result is obtained, then the result of the determination to classify and count the number of each type of the specific gravity determination result obtained for each class, and then the warning according to the operating mode of the air conditioner to adjust the specific gravity, or control alarm means, the processing module according to the received temperature signal, using the programming language, draw temperature 热点图; S3:所述显示单元显示温度热点图,当持续报警时,查看热点图,判定出温度异常区域, 人工检查该区域,并对该区域进行包括关窗户、拉窗帘、添加风扇、添加取暖器在内的格局调整。 FIG hotspot; S3: the display unit displays the temperature of the hot FIG, when the alarm duration, see FIG hot, determined abnormal temperature region, the manual inspection region, and the region comprises a closed window, pull the curtains, the fan added, adding heaters, including the pattern of adjustment.
7.根据权利要求6所述的办公室节能控制方法,其特征在于, 绘制温度热点图的具体方法:在编程语言环境下,设置各个所述温度传感器的位置,以透明度方式画出每个温度传感器的圆形图标,根据所述温度信号调整所述圆形图标的颜色。 7. The method according to the power saving control office according to claim 6, characterized in that, the specific method of drawing the hot spot temperature diagram: In the programming language environment, each installation position of the temperature sensor, shown in a transparent manner under each temperature sensor circular icons, the temperature signal to adjust the color of the circular icon.
8.根据权利要求6所述的办公室节能控制方法,其特征在于,所述设定模块设置有加班模式,所述加班模式中设置加班的日期以及加班时的上下班时间。 Office according to claim 6, wherein said energy saving control method, wherein the setting module is provided with overtime mode, the mode setting overtime overtime work, the date and time when the overtime.
CN201710311824.4A 2017-05-05 2017-05-05 Office energy-saving control system and method CN107421057A (en)

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