200815714 九、發明說明·· 【發明所屬之技術領域】 尤指一種適 本發明係關於一種空調控制之技術領域 用於空調節能之空調管理節能控制系統。 【先前技術】 近幾年來’在氣候不斷變遷,且夏季的氣溫逐年攀升 下’空調系統已成為日常生活必需品。尤其是,人們生活 =物貝條件提兩,空調系統成長的速度更是驚人。然而, Ik之產生的問胃’即是空調系統耗能,其佔建築總耗能的 比例也正逐年攀升。因此,如何提升空㈣統的節能效果, 而降低耗能,應當是目前最重要的課題。 15 20 圖1為夏季某日的逐時溫度變化圖,圖中表示室内 ,氣溫度,OA表示室外空氣溫度。由圖中可發現,約在清 辰的四點五十分左右以後,〇A的溫度值都㈣的溫度值還 =或幾乎相等。然而’習知的空調系統往往只有一昧的 追求如何以更低的室内溫度,使得室内人員感到涼爽,但 部忽略了相對於OA的温度值變化’調整室内人員的最佳舒 適溫度,而常使人員有冷颼颼的感覺。故,習知的空碉系 統在對於控制使室内人員獲得最佳舒適溫度方面,並料 分理想。故習知的空調節能技術仍有諸多缺失,而有予以 改進之必要。 【發明内容】 5 200815714 本鲞明之目的係在提一 以在不影響空調室内人員的、^調管理節能控制系統’ 的節能策略調整適當的舒適溫度情況下’以不同 佳舒適溫度又可減少空==’既可獲得室内人員的最 的最終目標。 …先耗電量’進而達到空調節能 本务明在提供一種空胡;^ τ田μ 二°周s理郎能控制系統,其是透過 一網際網路傳輸至少一筆 社、士/ 韋&制條件,進行節能控制以達最 佳適溫。本系統包括有 、+、$ /1、 ^ ^ 被控制端、及一控制端。前 述至少一被控制端包括有至处 10 15 20 ^ ^ ^ ^ Λ π王夕一空调I置、及一後台控制 裝置,其中,後台控制裝置呈有一 —, a紅古 夏/、有,a己憶早凡。雨述控制端 ^ 工丨衣置、及一控制條件資料庫,苴中,护:制條 件資料庫儲存有至少一筆 八T彳工制“ 聿控制條件,而至少一筆控制#件 是對應於至少一被控制端而設定。 聿"顧 根據上述,控制端之控制裝置是自控制條件資料庫取 付至)-筆控制條件’並透過網際網路傳送至至少—被# 制端之後台控制裝置’並館存在後台控制裝置之_ %’促使後台控制裝置依據記憶單元之至少—筆控制條件 對至少二空調裝置進行控制。因此,本發明係在提供一種 空調管理節能控制系統,俾能以優越的節能策略,達到空 調室内之最佳適溫。 1 如上所述,本案之空調管理節能控制系統中,後台控 制裝置更包括有一輸入單元,俾能使儲存在記憶單元中之 至少一筆控制條件經由輸入單元輸入修正資料進行修正。 如上所述,本案之空調管理節能控制系統中,至少一 6 200815714 筆控制條件較佳地係對應於至少—被控制端之空調負荷 大小而設定。 ' 如上所述,本案之空調管理節能控制系統中,空, 荷較佳地係包括人員負荷及外氣負荷,或等效之空調荷、。 如上所述,本案之空調管理節能控制系統中,至 筆控制條件較佳地係對應於至少—被控制端之二 大小所分別發生的時段岐定至少二組溫度控制條件 如上所述,本案之空調管理節能控制系統中,每 溫度控制條件較佳地係包括至少三個溫度控制區間,复θ 依空調負荷計算而得。 一疋 如上所述,本案之空調管理節能控制系統中,後 制裝置根據記憶單元之至少一箏 口工 ^ 牽控制條件,以控制至少一 空調裝置進行至少一句乜、踩ώ产η 括^自停機、冷房運轉、及送風運 轉之群組所組成之運轉方式。 15 20 如上所述,本案之空哨其 > 置較佳地係為分離式冷氣;:“控制系統中,空調裝 或等效之空調裝置。錢’亦可為中央式風機盤管系統 如上所述,本幸^ μ Φ! ^ % 足°°官理節能控制系統中,後台控 制衣置較仏地係為電腦,或等效之控㈣置。 如上所述,本幸之处# ^ φ /、二调官理節能控制系統中,控制裝 車父仏地係為電腦’或等致之控制裝置。 【實施方式】 具體實施例說明本發明之實施方 以下係藉由特定的 7 200815714 :内技術領域具通常知識者可由本說明書所揭示 之内^易地了解本發明之其他優點與功效。 5 10 20 季统力=ί圖2 ’圖2係為本發明空調管理節能控制系統之 im由圖中可發現,本發明是包括有—被控㈣ 制條伴〗nV、2 ’兩者之間是以一網際網路100傳輸-筆控 制條件⑻,以進行節能控制並達到最佳適溫。 被:制端!包括有二空調裝置u,i2、及一後台控制裝 泛呈古1 4台控制裝置13内具有—記憶單元(目未示), 離單元14。在本實施例中,空調裝置u,i2是分 雖式冷軋機,而後台抑制駐罢 H 俊口&制裝置13是一部電腦,而記憶單元 疋一硬碟,而輸入單元14是一鍵盤。 控制端2包括有一控制裝置21、及一控制條件資料庫 22,其中,控制條件資料庫22内儲存有一筆控制條件⑻, 而匕制iT'件101疋對應於被控制端k空調負荷而設定的。 在本實施例中,控制裝置21是—部電腦,而控制條件101是 2於被控制端1之空調負荷的大小,亦即人員負荷及外氣 、仃的大小而设定二組溫度控制條件。其中,每—组溫度 控制條件包括三個溫度控制區間,其是依空調負荷計管而 得。例如’被控制端以調室内之最佳適溫是机,而空調 負荷之最大值係發生在中午十二點至下午一點,同時亦是 進入到空調室内人數最多的尖峰時段,則控制條件101設定 匕。、、且酿度ϋ條件,其中,—組溫度控制條件是參酌在 人員負荷及外氣負荷之空調負荷最大值的央峰時段,另一 組溫度控制條件是參酌在人員負荷及外氣負荷之空調負荷 8 200815714 最大值以外的離峰時段;直 々 处喟g荇舛嘗φ - 〃 ’、,母一組溫度控制條件可依 工屑負何#异出二個溫度_㈣, 千J依 的2代以下、24t至耽之間、及机以:在大峰日守段下 制區間之-組溫度控制條件 之二個溫度控 下、抓至坑之間、及^以上之料時段下的城以 另一組溫度控制條件。另外,還可以針對其他的尖♦時二 依當時:的空調負荷而增加其他的溫度控制條件。例如早 ^^至九點、及晚上五點至七點亦是進人到空調室内 t;农人多?尖學時段,則控制條件⑻亦可參酌前述的兩: 日“又之”及外氣負荷’再設定另二組溫度控制條件。 15 20 本貝把例中’控制端2之控制裝置21是從控制條件資料 ^ 22取得控制條件1()1,並透過網際網路_專送至被控制 端1之後台控制裝置13’並儲存在後台控制裝置13之記憶單 凡使後口控制裝置13根據記憶單元之控制條件⑻,對被 控制端i之二空調裝置„,12進行節能控制。另夕卜,使用者亦 可以針對當時被控制端㈣空調負荷大小,由後台控制装置 13之輸入單元14輸入修正資料’以對記憶單元之控制條件 101進行修正;或者,將修正資料傳回至控制端2之控制條 件貝料庫22儲存’以提供下次控制裝置21同時取得控制條 件ιοί及修正資料,並在傳送控制條件1〇1之前作分析,以-使得被控制端1獲得較適當的節能控制。200815714 IX. INSTRUCTIONS··· TECHNICAL FIELD OF THE INVENTION The present invention relates to a technical field of air conditioning control, an air conditioning management energy-saving control system for air conditioning energy saving. [Prior Art] In recent years, the air-conditioning system has become a necessity in daily life, as the climate continues to change and the temperature in summer rises year by year. In particular, people's lives = two conditions, the speed of the air-conditioning system is even more amazing. However, the problem of the stomach caused by Ik is the energy consumption of the air-conditioning system, and its proportion of the total energy consumption of the building is also increasing year by year. Therefore, how to improve the energy saving effect of the air (four) system and reduce energy consumption should be the most important issue at present. 15 20 Figure 1 shows the hourly temperature change on a certain day in summer. The figure shows the indoor and air temperature, and the OA indicates the outdoor air temperature. It can be seen from the figure that after about 4:50 of the Qing Dynasty, the temperature value of 〇A is (or) the temperature value is still = or almost equal. However, the conventional air conditioning system often only has a glimpse of how to make the indoors feel cool with lower indoor temperature, but the department ignores the change of the temperature value relative to the OA' to adjust the optimal comfort temperature of the indoor staff, and often Make people feel cold. Therefore, the conventional open system is ideal for controlling the optimal comfort temperature for indoor personnel. Therefore, there are still many shortcomings in the well-known air-conditioning energy-saving technology, and there is a need to improve it. [Summary of the Invention] 5 200815714 The purpose of this book is to reduce the air at different comfort temperatures by adjusting the appropriate comfort temperature without affecting the energy-saving control system of the air-conditioned indoors. == 'The ultimate goal of the indoor staff is available. ...first power consumption' and then to achieve air conditioning energy conservation, the law is clearly providing an air Hu; ^ τ Tian μ two ° week s Lang can control system, which is transmitted through an Internet at least one social, Shi / Wei & Conditions, energy-saving control to achieve the best temperature. The system includes a +, $ / 1, ^ ^ controlled terminal, and a control terminal. The at least one controlled terminal includes a 10 15 20 ^ ^ ^ ^ ^ π π Wang Xiyi air conditioner I, and a background control device, wherein the background control device has a -, a red ancient summer /, there, a I have remembered it. The rain control terminal ^ work clothes, and a control condition database, the middle, the protection: the condition database stores at least one eight-T system "聿 control condition, and at least one control # piece corresponds to at least It is set by the control terminal. 聿" According to the above, the control device of the control terminal is taken from the control condition database to the - pen control condition 'and transmitted to the at least through the Internet to the terminal control device The '_%' of the back-end control device in the library causes the background control device to control at least two air-conditioning devices according to at least the pen control condition of the memory unit. Therefore, the present invention provides an air-conditioning management energy-saving control system that can be superior The energy-saving strategy achieves the best temperature in the air-conditioned room. 1 As described above, in the air-conditioning management energy-saving control system of the present case, the background control device further includes an input unit, so that at least one control condition stored in the memory unit can be The input unit inputs the correction data for correction. As mentioned above, in the air conditioning management energy-saving control system of the present case, at least one 6 200815 The 714 pen control condition is preferably set corresponding to at least the air conditioning load of the controlled end. As mentioned above, in the air conditioning management energy saving control system of the present case, the air load and the load preferably include the personnel load and the external air load. , or equivalent air-conditioning load. As described above, in the air-conditioning management energy-saving control system of the present case, the pen-control condition preferably corresponds to at least two groups of the time period at which the two ends of the controlled end respectively occur. Temperature control conditions As described above, in the air conditioning management energy-saving control system of the present case, each temperature control condition preferably includes at least three temperature control intervals, and the complex θ is calculated according to the air-conditioning load. As described above, the air conditioning management of the present case In the energy-saving control system, the post-production device controls at least one air-conditioning device to control at least one squatting, squatting, squatting, self-stopping, cold room operation, and air supply operation according to at least one singapore control condition of the memory unit. The mode of operation of the group. 15 20 As described above, the air whistle of the present case is preferably a separate type of cold air; Loading or transfer equivalent of an air conditioning apparatus. Money' can also be a central fan coil system as described above, this is fortunately ^ μ Φ! ^ % foot ° ° government energy-saving control system, the background control clothing is more computer-based, or equivalent control (four) Set. As mentioned above, the fortunate part of the #^ φ /, two-tone government energy-saving control system, the control of the car father is the computer or the control device. [Embodiment] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Other embodiments of the present invention will be readily understood by those of ordinary skill in the art. 5 10 20 季统力=ί图2' Fig. 2 is the air conditioning management energy-saving control system of the present invention. It can be found from the figure that the present invention includes the -controlled (four) system with the accompanying nV, 2 'between The Internet 100 transmission-pen control condition (8) is used for energy saving control and optimal temperature. The system is equipped with two air conditioners u, i2, and a background control device. The general control unit 13 has a memory unit (not shown) and an off unit 14. In the present embodiment, the air conditioning unit u, i2 is a split type cold rolling mill, and the background suppression station H Junkou & 13 device is a computer, and the memory unit is a hard disk, and the input unit 14 is a keyboard. The control terminal 2 includes a control device 21 and a control condition database 22, wherein the control condition database 22 stores a control condition (8), and the control iT' member 101 is set corresponding to the air load of the control terminal k. of. In the present embodiment, the control device 21 is a computer, and the control condition 101 is 2 sets the temperature control conditions of the air-conditioning load of the controlled terminal 1, that is, the personnel load and the size of the external air and helium, and sets two sets of temperature control conditions. . Among them, each group temperature control condition includes three temperature control intervals, which are obtained according to the air conditioning load meter. For example, 'the optimal temperature for the controlled terminal to adjust the indoors is the machine, and the maximum value of the air conditioning load occurs from 12 noon to 1 pm, and it is also the peak period when the number of people entering the air-conditioned room is the highest, then the control condition 101 Set 匕. And the conditions of the brewing temperature, wherein the temperature control condition is the central peak period of the maximum air conditioning load of the personnel load and the external air load, and the other set of temperature control conditions is the personnel load and the external air load. Air conditioning load 8 200815714 The peak period other than the maximum value; straight 々 荇舛 荇舛 荇舛 φ φ 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 2 generations below, 24t to 耽, and machine: in the lower peak section of the Dafeng day shoud section - group temperature control conditions under the two temperature control, grab the pit, and above the time of the material Control the condition with another set of temperatures. In addition, other temperature control conditions can be added for other air conditioner loads at the time of the other. For example, from early ^^ to nine o'clock, and from five o'clock to seven o'clock in the evening, it is also into the air-conditioned room. In the peak period, the control condition (8) may also be determined by the above two: the day "and" and the external air load 'reset another two sets of temperature control conditions. 15 20 In the example, the control device 21 of the control terminal 2 obtains the control condition 1()1 from the control condition data 22, and transmits it to the controlled device 1 after the control unit 1 through the Internet_ The memory unit stored in the background control device 13 causes the rear port control device 13 to perform energy saving control on the air conditioners „, 12 of the controlled terminal i according to the control condition (8) of the memory unit. In addition, the user can also The controlled terminal (4) air conditioner load size is input by the input unit 14 of the background control device 13 to correct the control condition 101 of the memory unit; or the correction data is transmitted back to the control terminal 2 of the control terminal 2 The storage is provided to provide the next control device 21 to simultaneously obtain the control condition ιοί and the correction data, and analyzes before the transmission control condition 〇1, so that the controlled terminal 1 obtains a more appropriate energy saving control.
最後’以圖3及圖4分別說明在尖峰時段及離峰時段 下,空調裝置11,12的運轉情形。其中,圖3係在尖峰時段下 之二個溫度控制區間,其分別為A ( 24°C以下)、B ( 24°C 9 200815714 至28r之間)、及c (28T:以上);另外,圖4係在離峰時 段下之三個溫度控制區間,其分別為a(26t以下)、上(26它 至29C之間)、c (29°C以上)。在本實施例中,當控制端 2之控制裝置21透過網際網路100傳送控制條件1〇1至被控 5制端1之後台控制裝置13,並儲存在綠台控·制裝置13之記憶 單元後,後台控制裝置13將根據記憶單元之控制條件1 〇工, 依當時的時段,先判斷是尖峰時段或離峰時段。 如果後台控制裝置13判斷是在尖峰時段下,則依據控 制條件101中之-組溫度控制條件之三個溫度控制區間,抑 制二空調裝置1U2進行冷房運轉或送風運轉。例如:錄 ^制端^空調室内之室溫為24t以下,後台控制裝如判斷 $尖峰時段時,則控制二空調裝置11>12同時進行送風運 =,另外’在被控制端i空調室内之室溫為2代〜2代期間, 15 ^ 口匕制1置13判斷是尖峰時段時’則控制空調裝置^進 運轉’心調裝置12進行送風運轉,·又,在被控制 内之室溫為饥以上’後台控龍置13判斷是尖 峰日—則控制二空調裝置時進行冷房運轉。 制台控㈣置13判斷是在離峰時段τ,則依據控 門木牛中之另一組溫度控制條件之三個溫度栌制區 在、“工5周衣置u,12進行冷房運轉或送風運轉。例如: ,'二:::1,广内之室溫為26t以下,後台控制裝置13 疋時,則控制二空調裝置u,i2同時進行送風 轉,另外,在被控制端丨空調室内之 間,後台控制裝置13判斷是離峰時” 426C〜29C期 離峰守焱0守,則控制空調裝置 10 200815714 U進灯冷房運轉,而空調裝置12進行送風運轉;又 控制端1空調室内之室溫為29t以上, 制 广 I籬廢π D士· 1夂σ &制表置13判斷 再則控制二空調裝置u,12同時進行冷房運轉。 :二相2’以說明本發明另-較佳實施例。本另-前述較佳實施例之系統結構大致相同,惟不 包括有:'Γ實施例之系統之:空調裝置iu2中分別 Γ12122 :測裝置11U21、及-電流監測裝置 ,2’其係可定時監測空調室内之溫度值及裝 10 =座並定時由後台控制装置13回傳至控制端2之控制條 儲存,:提供曰後檢修時可由溫度值及電流值 刀斤’以使得被控制端1獲得較適當的節能控制。 上述實施例僅係為了方便說明而舉例而已。本發明所 主張之權利範圍自應以巾請專利範圍所述為準,而非僅限 於上述實施例。 15Finally, the operation of the air conditioners 11, 12 in the peak period and the off-peak period will be described with reference to Figs. 3 and 4, respectively. 3 is the temperature control interval under the peak period, which is A (below 24 ° C), B (between 24 ° C 9 200815714 and 28 r), and c (28T: above); Figure 4 shows three temperature control intervals in the off-peak period, which are a (26 t or less), upper (26 to 29 C), and c (29 ° C or higher). In this embodiment, when the control device 21 of the control terminal 2 transmits the control condition 1〇1 to the controlled 5 terminal 1 through the Internet 100, the station control device 13 stores the memory in the green control device 13 After the unit, the background control device 13 will complete the control condition 1 according to the memory unit, and determine whether it is a peak period or a peak period according to the current time period. If the background control means 13 judges that it is in the peak period, the two air conditioners 1U2 are caused to perform the cold room operation or the air supply operation in accordance with the three temperature control intervals of the group temperature control conditions in the control condition 101. For example, if the room temperature of the air conditioning room is 24t or less, and the background control device judges the peak time, the second air conditioner 11>12 is simultaneously sent to the air supply, and the other is in the air conditioner room of the controlled terminal i. The room temperature is 2 generations to 2 generations, 15 ^ mouth system 1 set 13 is judged to be the peak period, 'the air conditioner is controlled to enter the operation', the heart rate device 12 performs the air supply operation, and again, at the room temperature under control For the hunger above, the background control dragon set 13 judges to be the peak day—the cold room operation is performed when the second air conditioner is controlled. The system control (four) set 13 judges that it is in the off-peak period τ, then according to the other temperature control conditions of the other group of temperature control conditions of the control gate, the three temperature control zones are in operation, "work 5 weeks, u, 12 for cold room operation or Air supply operation. For example: , 'Two:::1, the room temperature in the area is 26t or less, and when the background control device is 13 疋, the two air conditioners u and i2 are controlled to perform the air supply at the same time. Between the background control device 13 determines that it is off-peak, "426C~29C period is off the peak guard 焱 0, then the air conditioner 10200815714 U is controlled to enter the cold room operation, and the air conditioner 12 performs the air supply operation; The room temperature is 29t or more, the system is wide and the fence is π D士·1夂σ & the watch is set to determine 13 and then the second air conditioners u, 12 are simultaneously operated in the cold room. : Two phases 2' to illustrate another preferred embodiment of the invention. The system structure of the other preferred embodiment is substantially the same, but does not include: 'the system of the embodiment: the air conditioner iu2 respectively Γ12122: the measuring device 11U21, and the current monitoring device, 2' can be timed Monitoring the temperature value of the air-conditioned room and loading the 10=seat and timing back to the control strip of the control terminal 2 by the background control device 13 for storage: the temperature value and the current value can be used to provide the controlled end 1 Get more appropriate energy-saving control. The above embodiments are merely examples for convenience of explanation. The scope of the claims of the present invention is defined by the scope of the claims, and is not limited to the embodiments described above. 15
【圖式簡單說明】 圖1係夏季某日的逐時溫度變化圖。 圖2係本發明空調管理節能控制系統之系統架構圖。 圖3係本發明-較佳實施例之尖峰時間之系、统運轉示意圖 圖4係本發明-較佳實施例之離峰時間之系統運轉示意圖 11 200815714 【主要元件符號說明】 被控制端 1 控制端 2 網際網路 100 控制條件 101 空調裝置 11,12 後台控制裝置 13 區間 輸入單元 14 A,B,C,a,b,c 控制裝置 21 控制條件資料庫 22 溫度監測裝置 111.,121 電流監測裝置 112,122 空調管理節能控制系統10[Simple description of the diagram] Figure 1 is a graph of hourly temperature changes on a certain day in summer. 2 is a system architecture diagram of an air conditioning management energy saving control system of the present invention. 3 is a schematic diagram of the operation of the peak time of the present invention - FIG. 4 is a schematic diagram of the operation of the system according to the present invention - the peak time of the preferred embodiment 11 200815714 [Description of the main components] Controlled by the control terminal 1 End 2 Internet 100 Control condition 101 Air conditioning unit 11, 12 Background control unit 13 Interval input unit 14 A, B, C, a, b, c Control unit 21 Control condition database 22 Temperature monitoring unit 111., 121 Current monitoring Apparatus 112, 122 air conditioning management energy saving control system 10
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