I 1351494 九、發明說明: 【發明所屬之技術領域】 本發明係有關於-種應用於空調設備之節能控制系 統及與該節能控制系統整合之節能警示處理單元,特別是 有關於-種擷取-預定時間内有關於空調場所之舒適^ 指數及依據空調場所的環境參數來調整空調設備之輸^ 效力的系統及與該節能控制系統整合之節』馨 不處理單元。 ° 【先前技術】 空調設備為各式之建築物内部,特別是大型之^ 如辦公匕大樓、廢房大樓、飯店、醫院、超商、超市麥 =占百貨公司、劇院、展覽場)或小型便利商店,所 .廣泛應用及安裝之播雷^n ^ 問店所 A㈣撼一 備。目刖之空調設備通常整合有 ;機〇>、Ί調機(AirHandlingUnit,細)、預冷式空 ϋηπ ;;Γ ^H)^^,(FanC〇u 馬遠、h /風機(ΕΧΗ_ Fan)、冷卻水塔設備、 〆d輪設備及/或幫浦設備等負载設施。 空調設= :動過程中減少能源的消耗,而將該 固速風量輪出,妙而=在一定運作範圍’亦即空調恆溫 適。 ·'、'而部會面臨以下問題而使人體未感舒 空間下,I:二大:,或窗戶經常開啟而構成-半開放 2 。二乳進入而改變場所的溫度或渴度。 Μ内部的空調空間大小不一’無法有效掌^調 111000 5 1351494 設備輸出效能。 3.人員頻繁進出場所或人員活動量改變,因而改變場 所内部的活動熱源。 為解決前述場所因環境因素改變而使空調設備輸出 效力造成人體未感舒適的問題,已有依據環境溫度控制空 調設備輸出效力的技術,然而,此類的空調設備因溫度變 化波段大幅震盪,得依據該溫度變化而驅使空調輸出效能 全速運作,故此技術並無法有效達到節能之效果。 綜上所述,如何提供一種能夠因應環境改變適時調整 空調設備之運作,以達到人體感覺舒適且節能之效果,實 為亟待解決之課題。 【發明内容】 為解決前述習知技術之缺點,本發明提供一種應用於 空調設備之節能控制系統及與該節能控制系統整合之節 能警示處理單元,以達到使人體感覺舒適同時節能之目 的。 為達前述目的及其他目的,本發明提供一種應用於空 調設備之節能控制系統及與該節能控制系統整合之節能 警示處理單元。該節能控制系統包含:熱資訊收集器,用 以收集環境熱資訊;環境溫度控制器,用以調整該空調設 備的輸出效力;歷史資料庫,用以儲存有關於影響環境溫 度的因子參數;以及空調效力調整單元,用以不斷收集該 熱資訊收集器於一第一預定時間内所收集到的環境熱資 訊以取得一比對參數,並將該比對參數與一預定的目標舒 6 111000 1351494 適度指數進行比較,依據比較結果以及該歷史資料庫所儲 存的因子參數使該環境溫度控制器對該空調設備的輸出 效力進行調整。 本發明之節能控制系統的另一實施例中,該空調效力 调整單元包括:舒適度指標計算模組,用以將該熱資訊收 集器於該第一預定時間内所收集到的環境熱資訊計算為 舒過度指數變化趨 舒適度指數(Comfort Index ; CI ) ,〜一… 勢分析模組,用以將該舒適度指標計算模組所計算出的各 舒適度指數形成一趨勢線,以該趨勢線與該預定的目標舒 適度指數間的偏差狀態取得該環境熱資訊的變化模式;效 力參數自我學習修正模組,依據形成該趨勢線之各舒適度 指數所對應之環境熱資訊的收集時間,自該歷史資料庫取 出與該收集時間相關的因子參數;以及調整模組,依據該 舒適度指數變化趨勢分析模組取得的變化模式以及該效 力參數自我學習修正额所取得的@子參數,使該環境温 度控制β對該空調設備的輸出效力進行調整。 。。再者’本發明之與該節能控制系統整合之節能警示處 理皁兀’其特徵在於用以㈣該空調效力調整單元於一第 2定時間内使該環境溫度控制㈣該空概備的輸出 =行調整的調整資訊,並將該調整資訊與一預定的監 控值進行比較’於比較結杲超過該監控糾,產生一盤土 該卽能警示處理單元的另 , ^ , Λ 乃頁死例中’該空調效力調 …包括:舒適度指標計算模組,用以將該熱資訊收集 111000 7 1351494 器於該第一預定時間内所收集到的環境熱資訊計算為舒 適度指數(Comfort Index ; CI );舒適度指數變化趨勢 '分析模組,用以將該舒適度指標計算模組所計算出的各舒 - 適度指數形成一趨勢線,以該趨勢線與該預定的目標舒適 度指數間的偏差狀態取得該環境熱資訊的變化模式;效力 參數自我學習修正模組,依據形成該趨勢線之各舒適度指 數所對應之環境熱資訊的收集時間,自該歷史資料庫取出 與該收集時間相關的因子參數;以及調整模組,依據該舒 φ適度指數變化趨勢分析模組取得的變化模式以及該效力 參數自我學習修正模組所取得的因子參數,使該環境溫度 控制器對該空調設備的輸出效力進行調整;其中該空調效 力調整單元將該環境温度控制器對該空調設備的輸出效 力進行調整的調整資訊予以儲存,且該節能警示處理單元 包括:監控值加權計算模組,收集該調整模組於該第二預 定時間内使該環境溫度控制器對該空調設備的輸出效力 進行調整的調整資訊,以該調整資訊計算舒適度及輸出效 籲能的變化量;整體趨勢變化分析模組,依據該所儲存的調 整資訊與該監控值加權計算模組所計算出的變化量分析 出該變化量是否超過該預定的監控值;以及告警通知模 組,於該整體趨勢變化分析模組判斷出該變化量超過該預 定的監控值,則產生該警告訊息。 因此,相較於習知技術,本發明之應用於空調設備之 節能控制系統,擷取一預定時間内有關於空調場所之舒適 度指數及依據空調場所的環境參數進行空調設備之輸出 8 111000 ⑴丄494 效力的調整,因此,斜 辦公室)等人胃頻繫谁ψ 式空間(例如便利商店或 内的環…卜二場所’藉由本發明可因應場所 空調設:二二度及濕度)或人員數量與活動改變而使 , 、雨出効力更有效率以及使人體感覺更為斜 適。再者,本發明之盘兮μ ^ :·、'舒 理單元提供一種智慧化*即此s不處 調1 1 針對接受連線控制的空I 1351494 IX. Description of the invention: [Technical field of the invention] The present invention relates to an energy-saving control system applied to an air-conditioning apparatus and an energy-saving warning processing unit integrated with the energy-saving control system, in particular, - During the scheduled time, there is a system for adjusting the comfort level of the air-conditioned place and adjusting the effectiveness of the air-conditioning equipment according to the environmental parameters of the air-conditioned place, and the section of the non-processing unit integrated with the energy-saving control system. ° [Prior Art] Air-conditioning equipment is a variety of interiors, especially large ones such as office buildings, waste buildings, restaurants, hospitals, supermarkets, supermarkets, department stores, theaters, exhibition halls, or small Convenience store, widely used and installed by the mines ^n ^ Ask the store A (four) 撼 one. The air conditioning equipment that is witnessed is usually integrated; machine>, AirHandling Unit (fine), pre-cooled space ϋπ;; Γ ^H)^^, (FanC〇u Ma Yuan, h / fan (ΕΧΗ_ Fan) Load facilities such as cooling tower equipment, 〆d wheel equipment and/or pump equipment. Air conditioning = = reduce energy consumption during the operation, and turn the solid-speed air volume out, in a certain scope of operation The air conditioning temperature is suitable. · ', ' and the department will face the following problems so that the human body does not feel comfortable under the space, I: two:, or the window often opens and constitutes - semi-open 2. The second milk enters and changes the temperature or thirst of the place 。The internal air-conditioning space is not the same size. It can't effectively adjust the output of 111000 5 1351494. 3. The frequent entry and exit of personnel or the change of personnel activity, thus changing the active heat source inside the site. The problem of changing the air conditioner output efficiency causes the human body to feel uncomfortable. There is a technology to control the output efficiency of the air conditioner according to the ambient temperature. However, such air conditioners are greatly oscillated due to the temperature variation band. The degree of change drives the air conditioning output performance to operate at full speed, so the technology can not effectively achieve the effect of energy saving. In summary, how to provide a timely adjustment of the operation of the air conditioning equipment in response to environmental changes, in order to achieve the human body feeling comfortable and energy-saving effect, SUMMARY OF THE INVENTION In order to solve the above-mentioned shortcomings of the prior art, the present invention provides an energy-saving control system applied to an air-conditioning apparatus and an energy-saving warning processing unit integrated with the energy-saving control system, so as to achieve a comfortable feeling for the human body. At the same time, the purpose of energy saving. To achieve the foregoing and other objects, the present invention provides an energy-saving control system for an air-conditioning device and an energy-saving warning processing unit integrated with the energy-saving control system. The energy-saving control system includes: a thermal information collector, To collect environmental heat information; an ambient temperature controller for adjusting the output efficiency of the air conditioner; a historical database for storing factor parameters affecting the ambient temperature; and an air conditioning effectiveness adjustment unit for continuously collecting the thermal information Collector at first The environmental thermal information collected in a given time is obtained to obtain a comparison parameter, and the comparison parameter is compared with a predetermined target Shu 6 111000 1351494 moderate index, according to the comparison result and the factor parameter stored in the historical database. The ambient temperature controller adjusts the output efficiency of the air conditioner. In another embodiment of the energy-saving control system of the present invention, the air conditioner effectiveness adjustment unit includes: a comfort indicator calculation module for collecting the hot information The environmental heat information collected by the device during the first predetermined time is calculated as a comfort index (CI), a... a potential analysis module for calculating the comfort index module. The calculated comfort index forms a trend line, and the change pattern of the environmental heat information is obtained by the deviation state between the trend line and the predetermined target comfort index; the effectiveness parameter self-learning correction module forms the trend according to the trend The collection time of the environmental thermal information corresponding to each comfort index of the line, when the historical database is taken out and collected The correlation factor parameter; and the adjustment module, according to the change mode obtained by the comfort index change trend analysis module and the @sub parameter obtained by the effectiveness parameter self-learning correction amount, so that the ambient temperature control β is applied to the air conditioner The output efficiency is adjusted. . . Furthermore, the energy-saving warning processing saponin integrated with the energy-saving control system of the present invention is characterized in that (4) the air-conditioning efficiency adjusting unit controls the ambient temperature in a second predetermined time (4) the output of the air-preparation= Adjusting the adjusted information and comparing the adjusted information with a predetermined monitoring value. 'Compared with the monitoring and correction, the other is generated by the warning unit. ^, Λ 死'The air conditioning efficiency adjustment includes: a comfort index calculation module for calculating the environmental heat information collected by the thermal information collection 111000 7 1351494 during the first predetermined time as a comfort index (Comfort Index; CI The comfort index change trend analysis module is configured to form a trend line for each comfort-fitness index calculated by the comfort index calculation module, and between the trend line and the predetermined target comfort index The deviation state obtains the change mode of the environmental heat information; the effectiveness parameter self-learning correction module, according to the collection time of the environmental heat information corresponding to each comfort index forming the trend line Extracting a factor parameter related to the collection time from the historical database; and adjusting the module, according to the variation mode obtained by the fitness index change trend analysis module and the factor parameter obtained by the effectiveness parameter self-learning correction module The ambient temperature controller adjusts the output efficiency of the air conditioner; wherein the air conditioner effectiveness adjustment unit stores the adjustment information of the ambient temperature controller to adjust the output efficiency of the air conditioner, and the energy saving warning processing unit The method includes: a monitoring value weighting calculation module, and collecting adjustment information for adjusting the output efficiency of the air temperature device by the environmental temperature controller in the second predetermined time, and calculating comfort and output efficiency by using the adjustment information The change amount of the appeal; the overall trend change analysis module analyzes whether the change amount exceeds the predetermined monitoring value according to the stored adjustment information and the change amount calculated by the monitoring value weighting calculation module; and the alarm notification The module determines the change amount in the overall trend change analysis module The predetermined monitoring value, the warning message is generated. Therefore, compared with the prior art, the energy-saving control system applied to the air-conditioning apparatus of the present invention takes the comfort index of the air-conditioned place and the output of the air-conditioning apparatus according to the environmental parameters of the air-conditioned place within a predetermined time period. 8 111000 (1)丄 494 adjustment of effectiveness, therefore, oblique office) and other people's stomach frequency who type space (such as convenience store or inner ring ... Bu two places 'by the present invention can be adapted to the location of air conditioning: 22 degrees and humidity) or personnel The quantity and activity change, the rain is more effective and the body feels more oblique. Furthermore, the disk 兮μ ^ :··, the 'study unit of the present invention provides an intelligent *that is, this s does not adjust 1 1 for the acceptance of the connection control
於整體趨勢中高低位置分佈,夢此瞭解…:析點數值 田 且刀即錯此瞭%目丽所處環境盥差 =以有效發現產生差異過大的問題,而即時解決該問 喊且可對該問題進一步觀察及分析。 【實施方式】 ^以下係藉▲由特定的具體實施例說明本發明之實施方 式,熱悉此技藝之人士可由本說明書所揭示之内容輕易地 瞭解本發明之其他優點與功效。本發明亦可藉由其他不同 的具體實施例加以施行或應用,本說明書中的各項細節亦 可基於不同觀點與應用,在不悖離本發明之精神下進行各 種修飾與變更。 以下即配合所附之圖式,詳細揭露說明本發明之應用 於空調設備之舒適度及節能控制系統之實施例。 第1圖即顯示本發明之節能控制系統的基本架構示 意圖。如圖所示,本發明之節能控制系統,應用於空調設 備,本實施例之節能控制系統i包括熱資訊收集器1〇、 環境溫度控制器11、歷史資料庫12及空調效力調整單元 13。 & 111000 9 1351494 該熱資訊故集器10用以收集環 的熱資訊包括環境的溫度及濕度;該二貝a該王衣境 用以調整該空調設備的輪出效力。H皿度控制器11 子灸數M麟有關彡響環境溫度的因 箄ur 節因子、區域因子及時段因子 荨,以季即因子而言,該季節因子包括夂 或秋天,一般而言,在久天及秋^士、''天、夏天、春天 秋天知溫度相對降低,且夂 3秋天的溫度更降,而在夏天及春天時溫度相議: 心=天:,更高;再者’以時段因子及區域因子 、.不δ說明時,該時段因子包括早上、 千 深夜,而區域因子例如是位在商 ^ 仪晚及 ^ ΛΑ ^ σ g)- . . R 巧菜區的便利商店或動物園 内的商.。販買部等’因此,舉例說明 午時段,位在商業區的便利商 周五的中 相斟的,於更扪商店内的裱境溫度相對較高, •、、周-至周五的中午時段,動物園内 相的環境溫度相對較低, :買 ,存,以供後續的4:二:因子並予以餘 异㈣之用。在此須提出說明的 ^因子麥數並不侷限於上述舉例。 一該空調效力調整單元13用以不斷或間隔 二訊:集器1〇於一第一預定時間内所收集境:資' :’由於已於該第-預定時間内取得多數個環境執資 =二參數,並將該比對參數與-預定的、二 t進订比較’依據比較結果以及該歷史資料庫所儲 子的因子參數使該環境溫度控制器11對該空調設備的輪 ιποοο 1351494 出效力進行調整。該第一預定時間内可設定為5分 10分鐘。 該預定的目標舒適度指數(Comfort Index; CI)是 指用以評估人體在不同溫度下配合其他環境因素的冷2 感覺或生理反應,現行有許多種的熱環境指數,例如^v (Predicted Mean Vote)指數,下表一即是pwv建立指 數之冷熱等級’基本上’該些指數都是將數個影響冷 眷洸I田C τ* ,丄A〜n , . …、Θ 指數 主觀感覺 +3 熱(hot) + 2 溫(warm) + 1 微溫(slightlv warm、 0 適中(neutral ) -1 微亦(slightly conn -2 涼(cool ) - 3 冷(cold ) 表一 由上可知,該預定的目標舒適度指數可設定為-〇.!。 β因此,藉由上述本發明之節能控制系統(1、丨,), 其是以-段時間將所收集到的目前環境溫度以及預存的 参數因子來取樣舒適度指㈣分布情形,從㈣該分布情 =調整該空調設備的輪出效力的依據,而達到使人體 感克舒適同時節能之效果。 接著,如第2圖所示係用以更詳細說 於空調設備之節能控制系統的架構示意圖。本實施例^ 111000 11 1351494 能控制系統1,之空調效力調整單元13,包括舒適度指標計 算模組130、舒適度指數變化趨勢分析模組131、效力參 數自我學習修正模組132以及調整模組133。 該舒適度指標計算模組130不斷地於一間隔時間(第 一預定時間,例如5分鐘或1〇分鐘)内將該熱資訊收集 器1〇’收集到的環境熱資訊計算為舒適度指數。、如圖= 示’該熱資訊收集器10,所收集到的環境熱資訊來源包括 黑球溫度感測器1〇〇、出風溫度計感測器1〇1、回風溫度 計感測H 1G2、濕度計感測g 1G3、紅外線❹彳器1〇4二 室外温度計感測器1()5以及室外濕度計感測器⑽,缺不 ㈣此。且為使該舒適度指標計算模组13G所計算的舒適 度指數更為精準,亦可收集其他環境參數107,該環境參 數1 〇 7例如空調場所進出大門的開關次數、位於商業:的 便利商店或設置該空調設備的經緯度地理資訊等。本:: 例之空調設備例如濕度控制器11G、風速控制 = 度控制器112。 >Ja 該舒適度指數變化趨勢分析模組131 “將 度指標計算模M 13Q ☆第—預定時間内所計算出^各= 適度指數形成-趨㈣,以該㈣線與預定的目 指數間的偏差狀態取得該環境熱資訊的變化模式。、又 該效力參數自我學習修正模組132依據^成 線之各舒適度指數所對應之環境㈣訊的收 /勢 歷史資料庫12,取出與該收集時間相_因子θ,’2 所述,已知該環境熱資訊的收集時間為西元咖則 干y月 311000 12 。上 494 29日上午]]on、 39 /刀,且該環境熱資訊的收集地點的經 •數^勺括貝訊時,則自該歷史資料庫12’所取出的因子參 •該些:子夏:數、::強時=位於商業區的便利商店,藉由 該舒適度指數變化趨勢分析模組 ㈣變化模式之參考價值,換言之,除了依據办 調現際環境溫度外,一併加入其他環境參請: 組適度指數變化趨勢分析模 組132所取得的因子表式數^ 參數自我學習修正模 空調設備的輸出效力進㈣度控制器n’對該 風量、出風及回風間=風速、出 算公式為: 差作為计异,故輸出效力的計 W, λ ^Χ.Δ ΤχωχΑχί 其中’ ΔΤ為出風口月 風口風速;Α為出二二風口之間的溫度差、為出 時間。 的出風量’· h為輪出該輸出效力的 且由於該舒適度指桿 訊收集器1G,於該第_ ^到30不斷收集該熱資 以取得該比對參數(即、^内所收集到的環境熱資訊 數),藉由該比料數j讀之目前環境下的舒適度指 較而作為調整輪出功力的旳目軚舒適度指數進行比 的等級,則人體感覺更為舒適康炒當舒適度指凄文越接近0 相對舒適度指數越高,故得力然,當環境溫度越熱,則 侍加強輸出效力以將過多熱源帶 111000 13 1351494 走,目對可使舒適度指數下降,即 牛即接近於0的等級,故某 些%間(即舒適度指數升高的時間) μ 1、町间)下需輸出多少的輸出 效力以達到降低舒適度之計算公式為.In the overall trend of high and low position distribution, dream to understand...: The value of the value of the field and the knife is wrong. The environment where the eye is in the wrong position = the problem of excessively large difference is effectively found, and the problem is solved immediately. This issue is further observed and analyzed. [Embodiment] The following embodiments of the present invention are described by way of specific embodiments, and those skilled in the art can readily appreciate other advantages and advantages of the present invention. The present invention may be embodied or applied in various other specific embodiments, and various modifications and changes may be made without departing from the spirit and scope of the invention. Hereinafter, an embodiment of the present invention for comfort and energy saving control system applied to an air conditioner will be described in detail in conjunction with the accompanying drawings. Fig. 1 is a view showing the basic structure of the energy saving control system of the present invention. As shown in the figure, the energy-saving control system of the present invention is applied to an air-conditioning apparatus. The energy-saving control system i of the present embodiment includes a thermal information collector 1, an environmental temperature controller 11, a historical database 12, and an air-conditioning efficiency adjusting unit 13. & 111000 9 1351494 The thermal information collector 10 is used to collect the thermal information of the ring including the temperature and humidity of the environment; the second environment is used to adjust the wheeling effectiveness of the air conditioning device. H-degree controller 11 The amount of moxibustion is related to the ambient temperature of the 箄 箄 节 、 factor, regional factor and time period factor 荨, in terms of the season factor, the seasonal factor includes 夂 or autumn, in general, in Long days and autumns, ''days, summers, springs and autumns, the temperature is relatively reduced, and the temperature in the fall of 夂3 is lower, while in the summer and spring, the temperature is negotiable: heart=day:, higher; When the time period factor and the regional factor, not δ, are described, the time period factor includes morning, thousand nights, and the regional factor is, for example, at the time of the quotient and the ^ ^ σ g)- . . R Convenience store in Qiaocao District Or a business in the zoo. The Department of Merchandise, etc. 'So, for example, during the lunch hour, the convenience of the convenience business in the commercial district on Friday, the temperature in the store is relatively high, •, week-to-friday noon During the period, the ambient temperature of the zoo's internal phase is relatively low, buy: save, for the subsequent 4: 2: factor and use the difference (four). The factor gamma that must be stated here is not limited to the above examples. The air conditioning effect adjustment unit 13 is configured to continuously or intermittently: the collector 1 collects the environment within a first predetermined time: ''' since the majority of the environmental commitments have been obtained within the first predetermined time = Two parameters, and the comparison parameter is compared with the -predetermined, two-t ordering. The ambient temperature controller 11 causes the air temperature controller 11 to rotate the air conditioner according to the comparison result and the factor parameter of the stored in the historical database. Adjust the effectiveness. The first predetermined time can be set to 5 minutes and 10 minutes. The predetermined target comfort index (CI) is a cold 2 sensory or physiological response used to assess the body's ability to cope with other environmental factors at different temperatures. There are many types of thermal environment indices, such as ^v (Predicted Mean). Vote) index, the following table is the pwv to establish the index of the hot and cold level 'basically' these indexes are a number of effects will be cold I Tian C τ *, 丄A ~ n, ... ..., 指数 index subjective feeling + 3 hot (hot) + 2 warm (warm) + 1 micro temperature (slightlv warm, 0 moderate (neutral) -1 micro (also lightly conn -2 cool (cool) - 3 cold (cold) Table 1 from the above, this The predetermined target comfort index can be set to -〇.!. β Therefore, by the above-described energy-saving control system (1, 丨,) of the present invention, it takes the current ambient temperature collected and pre-stored in a period of time. The parameter factor to sample comfort refers to the distribution of (4), from (4) the distribution = the basis for adjusting the effectiveness of the air-conditioning equipment, and to achieve the effect of making the human body comfortable and energy-saving. Next, as shown in Figure 2 In more detail in the section of air-conditioning equipment Schematic diagram of the control system. This embodiment ^ 111000 11 1351494 can control the system 1, the air conditioning effectiveness adjustment unit 13, including the comfort index calculation module 130, the comfort index change trend analysis module 131, the effectiveness parameter self-learning correction mode The group 132 and the adjustment module 133. The comfort indicator calculation module 130 continuously collects the information collected by the thermal information collector 1 at an interval (first predetermined time, for example, 5 minutes or 1 minute). The thermal information is calculated as the comfort index. As shown in the figure, the thermal information collector 10, the collected environmental thermal information sources include a black ball temperature sensor 1 〇〇, an air temperature sensor 1 〇 1, Return air thermometer sensing H 1G2, hygrometer sensing g 1G3, infrared detector 1〇4 2 outdoor thermometer sensor 1 () 5 and outdoor hygrometer sensor (10), lack of (four) this. The comfort index calculated by the comfort index calculation module 13G is more accurate, and other environmental parameters 107 can be collected. The environmental parameters 1 〇 7 such as the number of times the air conditioner enters and exits the gate, the convenience quotient located in the commercial: Shop or set the latitude and longitude geographic information of the air conditioner, etc. This:: Example of air conditioning equipment such as humidity controller 11G, wind speed control = degree controller 112. > Ja The comfort index change trend analysis module 131 "degree indicator The calculation mode M 13Q ☆ first—the predetermined time period is calculated = the appropriate index formation-trend (four), and the variation pattern of the environmental thermal information is obtained by the deviation state between the (four) line and the predetermined mesh index. The self-learning correction module 132 extracts and collects the time_factor θ, '2 according to the collection/time history database 12 of the environment corresponding to each comfort index of the line, and the ambient heat is known. The information collection time is for the Western dollar, which is yyyy 311000 12 . On the morning of 494, 29th]]], 39/knife, and the number of passes of the collection of environmental thermal information, including the number of spoons, the factors taken from the historical database 12' are: Summer: number, :: strong time = convenient store in the commercial area, with the reference value of the change mode of the comfort index change trend module (4), in other words, in addition to the current ambient temperature, Environmental Reference: Group Moderate Index Change Trend Analysis Module 132 The number of factors obtained by the module ^ Parameter self-learning correction mode Air conditioner output efficiency (four) degree controller n' between the air volume, the wind and the return air = wind speed, The formula is: The difference is the difference, so the output efficiency is calculated by W, λ ^ Χ Δ Τχ ω χΑχ 其中 where Δ Τ is the wind speed of the outlet leeway; Α is the temperature difference between the two vents and the time. The amount of air output '·h is effective for the output of the wheel, and due to the comfort of the bar code collector 1G, the heat is continuously collected at the first to third to obtain the comparison parameter (ie, collected in ^) The number of environmental thermal information to be obtained, the comfort ratio in the current environment read by the ratio j is compared to the level of the comfort index of the adjustment wheel, and the human body feels more comfortable. When the comfort level is close to 0, the higher the relative comfort index is, the better it is. When the ambient temperature is hotter, the effect of the output is increased to take too much heat source to 111000 13 1351494, which can reduce the comfort index. That is, the cow is close to the level of 0, so some % (that is, the time when the comfort index is increased) μ 1 , between the towns and the number of output output required to achieve a reduction in comfort is calculated.
Wi=W(i-,)(l±a X ( l/n(i-D ) xt+ ^ ^ 其中,⑺;而α及石為偏離 =與下,取樣時間所取樣之舒適度指數二 >間之間隔。 〃本二人取认輸出效力的時 因此’本發明之節能控制么 前次時間盥本次時:統中的調整模組133依據 輸出效力b1的輸出效力及舒適度指數作為 之目=周正的依據,而有效達到使人體感覺舒適及節能 近模:者正===包括!向趨近模式、負向趨 式及正負擺I趨離模式,如第趨:式圖正負擺盪趨近模 該環境熱資訊為正向趨 ⑴圖所不者用以顯示 圖所示者用以顯示該環;的:?形’如第3(B) 情形,如第3(〇 =”、、貝汛為負向趨近模式的變化 向趨離模式的變化//不者用以顯示該環境熱資訊為正 該環境熱資訊為負二:’如$ 3⑻圖所示者用以顯示 圖所示者用4===化㈣,如第3⑴ 變化情形,如第3 ( F兄…貝°孔為正負擺盪趨近模式的 為-負擺盡趨離模式的』^用以顯示該環境熱資訊 111000 14 .趨近模式的變化時」該環境熱資訊為正向 •低(即長時間緩慢趨近)時^兄熱育訊的趨勢線之斜率較 .度控制器U,對該冷氣::=莫=3:㈣環境溫 調場所内熱量交換能力,而該t力加強輸出,以強化空 間快速逼近)時,該 '"冑線之斜率較南(即短時 U,對該冷氣機的輪出效該環境溫度控制器 冷與耗能;該環境埶資'k輸出’以避免空調場所過 鲁該環境熱資訊的趨勢線之,极、向趨近模式的變化情形時, 使該環境溫度控制器,對^較,時’該調整模組133 出,而該趨勢線〜冷氣機的輸出效力減緩輸 溫度控制器^!較高時’該調整模㈣使該環境 熱資訊為正向趨離模式的=^力加強輸出;該環境 勢線之斜率較低( 二幻月㈣’該環境熱資訊的趨 m使該環境溫度控制趨離)時,該調整模組 地加強,以強化空調場;内執的輸出效力微幅 斜率較高(即短時間快、亲、5:父換月"力,而該趨勢線之 環境溫度控制器u,胃時,該調整模組⑶使該 以強化空調場所内熱量交;二機二輸:效力快速地加強, 離模式下的變化情形時,該環境熱資訊為負向趨 低(即長時間緩慢趨離展見熱資訊的趨勢線之斜率較 度控制器11,對該冷氣機::整模組133使該環境溫 出,而該趨勢線之斜率二輪出效力減緩輸出或關閉輪 調整模組133使該(即短時間快速逼離)時,該 、兄/皿度控制器u,對該冷氣機的輪出 111000 15 j:M494 .^力快速地減少或_,避免空調場所 ••感不適,·該環境熱資訊為正負擺盈超近模式下的度 時;二是指該趨勢線朝向目標舒適度指數 1且133使該環境溫度控制器U,對該冷氣機的過;;2 情形時,其是指該趨勢線遠離目標舒適 =133不斷地❹使該環境溫度控制器η,對 輪出效力進行修正,並依攄前 7沉機的 離模式方式進行修正述的正向趨離模式或負向越 資心該空調設備為暖氣機時,該環境熱 低:二=變化情形時,該趨勢線之斜率較 近)時’該調整模組133使該環境溫 二:氣機的輸出效力加強輸出,以強化空 熱,換能力,而該趨勢線之斜率較高(即短 11,曰對近肖’該調整模組133使該環境溫度控制器 對該暖氣機的輸出效力減緩輸出,以避免空調場所内 =冷與耗能;該環境熱資訊為負向趨離模式下的變化情形 敛1趨勢線之斜率較低(即長時間緩慢趨離)時,該調 j組133㈣環境溫度控制器u,對該暖氣機的輸出效 典微幅地加強’以強化空調場所内的熱量交換能力,而該 =勢線之斜率較南時’該調整模組工33使該環境溫度控制 。。Π對該B友氣機的輸出效力快速地強化效力輸出,以避 免場所内過冷。 此外’該變化模式尚包括預定範圍擺盪模式,如第3 Π1000 16 1351494 • 者用以顯示該環境熱資訊為預定範圍擺盪模 ^月形,該預定範圍擺盪模式,與該目標舒適度指 〇相較而形成偏差上限值⑸與偏差下限值152,於 • Γ5Γη圍擺1模式下的趨勢、線153位在該偏差上限值 =制152間時,該調整模組133㈣環境溫 U對該空調設傷的輸出效力維持不變。 此外如第3 (Η)圖所示者用以顯示該 模式的複合模式的變化情形,而該調二 之= %溫度控制器U,對該空調設備的輸出效力 之6周整:式則依上述變化模式進行。 制系^合示本發明之與該節能控 除節能警示處本架構示意圖,其中 之作用與第所一乂史貧料庫12,,外,其餘構件 該節能警示處:i:二系1V相同,不另贅述。 元13於一第二箱〜± 以收集該空調效力調整單 調設備的輪出效力二吏竟溫度控制器η對該空 加強風速或快速降低溫度二5正貧訊,該調整資訊例如 或1小時,並將該調整資二間例如半小時 *比較結果超過該監‘:時::的;!值進行比較, 該監控值包括輪出效力 生訊息。 變化平均值下限值等,兴"、·交化平均值上限值或 14依據該調整資訊的内:而;::二”警示處理單元 對該空調設備的”= =溫度控制器Π ,、’°果起出該輸出效力上 111000 17 1351494 限值、該環境溫度控制器11對該空調設備的輸出效力之 調整狀況變化量低於該變化平均值下限值或高於變化平 均值上限值荨之情況時,該節能警示處理單元14產生該 .警告訊息。而該調整狀況變化量低於該變化平均值下限值 的情況通常發生在舒適度過度設定,具體而言,季節為夏 天時’將該目標舒適度指數設為―丨或_2以下,季節為冬 天時,將該目標舒適度指數設為+2以上;而該調整狀況 變化量高於該變化平均值上限值的情況通常發生在出^ ♦大門或窗戶未關妥的情形,因此,藉由該警告tfL息的產生 可即早讓管理人員得知發生異常現象。Wi=W(i-,)(l±a X ( l/n(iD ) xt+ ^ ^ where, (7); and α and stone are deviation = and below, the sampling time is sampled by the comfort index II> The interval between the two people to recognize the output effectiveness, therefore, 'the energy saving control of the present invention, the previous time 盥 this time: the adjustment module 133 of the system according to the output efficiency b1 output efficiency and comfort index as the head = Zhou Zheng's basis, and effectively achieve the human body feels comfortable and energy-saving near mode: positive === including! approaching mode, negative trending and positive and negative pendulum I escaping mode, such as the trend: the pattern of positive and negative swings The near-mode environmental thermal information is the forward trend (1) map used to display the figure to display the ring; the: shape 'as in the third (B) case, such as the third (〇 = ", Bellow is a change from the change of the negative approach mode to the transition mode.//It is used to display the ambient heat information as positive. The ambient heat information is negative two: 'As shown in the $3 (8) chart, the map is used to display the map. The display uses 4=== (4), as in the case of the 3rd (1) change, such as the 3rd (F brother...the Bayhole is the positive-negative swing approaching mode, the negative-displacement mode is used) Environmental thermal information 111000 14. When the approaching mode changes, the environmental thermal information is positive/low (that is, slowly approaching for a long time). The slope of the trend line of the brothers is better than the degree controller U. Air-conditioning::=Mo=3: (4) The heat exchange capacity in the ambient temperature adjustment site, and the t-force enhances the output to enhance the space approaching), the slope of the '"胄 line is souther (ie, short-time U, right The air conditioner's wheel is effective in cooling and consuming energy of the ambient temperature controller; the environment is 'k output' to avoid the trend line of the ambient heat information in the air-conditioned place, and the change of the polar and the approaching mode , so that the ambient temperature controller, when ^, when the adjustment module 133 out, and the trend line ~ the output efficiency of the air conditioner slows down the temperature controller ^! Higher when the adjustment mode (four) makes the environment hot The information is the positive divergence mode of the ^^ force to strengthen the output; the slope of the environmental potential line is low (the second magic month (four) 'the environmental thermal information tends to make the ambient temperature control away), the adjustment module ground Strengthened to strengthen the air-conditioning field; the output of the internal control has a slightly higher slope (ie Time is fast, pro, 5: the father changes the month " force, and the trend line of the ambient temperature controller u, the stomach, the adjustment module (3) to make the heat in the air conditioning site to strengthen; two machine two lose: fast effect When the ground is strengthened, the environmental thermal information is negative in the negative mode (that is, the slope of the trend line that is slowly and steadily extended for a long time to see the thermal information is compared to the controller 11, the air conditioner:: the whole mold The group 133 warms the environment, and the slope of the trend line is two rounds of effectiveness slowing down the output or closing the wheel adjustment module 133 to make the (ie, a short time fast), the brother/seat controller u, The air-conditioner's wheel 111000 15 j: M494 .^ force is rapidly reduced or _, avoiding air-conditioning places •• feeling uncomfortable, · the environmental heat information is positive and negative pendulum in the super-close mode; the second refers to the trend line Facing the target comfort index 1 and 133 causes the ambient temperature controller U to pass over the air conditioner; in the case of 2, it means that the trend line is away from the target comfort = 133 continuously tempering the ambient temperature controller η, Correct the effectiveness of the rotation and rely on the departure mode of the first 7 sinks When the positive divergence mode or the negative direction of the correction is made, the environmental heat is low when the air conditioner is a heating machine: when the slope of the trend line is closer to the change situation, the adjustment module 133 makes The ambient temperature is two: the output efficiency of the air machine is enhanced to enhance the air heat, and the capacity is changed, and the slope of the trend line is high (ie, short 11 曰 近 近 ” ” ” ” ” ” ” ” The output efficiency of the heater is slowed down to avoid the cold and energy consumption in the air-conditioned place; the environmental thermal information is a change in the negative trending mode. The slope of the trend line is low (that is, the long-term slow departure) When the group 133 (four) ambient temperature controller u, the output of the heater is slightly enhanced to enhance the heat exchange capacity in the air-conditioned place, and the slope of the potential line is smaller than the south The molder 33 controls the ambient temperature. .快速 The effectiveness of the output of the B-friends is quickly enhanced to ensure that the floor is too cold. In addition, the change mode includes a predetermined range swing mode, such as the third Π 1000 16 1351494. The person is used to display the ambient heat information as a predetermined range swing mode, the predetermined range swing mode, and the target comfort level The deviation upper limit value (5) and the deviation lower limit value 152 are formed, and the trend is in the mode of the •5Γη 摆1 mode, and the line 153 is in the upper limit of the deviation = 152, the adjustment module 133 (four) ambient temperature U pair The output efficiency of the air conditioning injury remains unchanged. In addition, as shown in the third (Η) diagram, the change of the composite mode of the mode is displayed, and the adjustment of the temperature controller 6 U, the output efficiency of the air conditioner is 6 weeks. The above change mode is performed. The system is shown in the schematic diagram of the present invention and the energy-saving control and energy-saving warning department, wherein the function is the same as the first-order history of the library 12, and the other components of the energy-saving warning: i: the second system 1V is the same, Do not repeat them. Yuan 13 in a second box ~ ± to collect the effectiveness of the air conditioning effectiveness of the monotonous device, the temperature controller η to the air to enhance the wind speed or quickly reduce the temperature of 2, the adjustment information, for example, or 1 hour And compare the adjustment cost, for example, the half hour* comparison result exceeds the supervision::hour::;! value, and the monitoring value includes the round-out effect message. Change the average lower limit value, etc., Xing", · Intersection average upper limit value or 14 according to the adjustment information within: and;:: 2" warning processing unit for the air conditioner "= = temperature controllerΠ , '° fruit out of the output efficiency of 111000 17 1351494 limit, the ambient temperature controller 11 the output efficiency of the air conditioning device adjustment state change amount is lower than the change average lower limit value or higher than the change average When the upper limit value is ,, the energy saving warning processing unit 14 generates the warning message. The case where the amount of change in the adjustment state is lower than the lower limit value of the change average is usually caused by excessively setting the comfort level. Specifically, when the season is summer, the target comfort index is set to 丨 or _2 or less, and the season. In the winter, the target comfort index is set to +2 or more; and the adjustment condition change amount is higher than the upper limit value of the change average, usually occurs when the door or the window is not closed, therefore, With the warning tfL interest generated, the manager can be informed that an abnormal phenomenon has occurred.
本實施例之與該節能控制系統丨,,整合的節能警示處 ^單兀14之另一實施例中,該空調效力調整單元13將該 環境溫度控制器η對該空調設備的輸出效力進行調整的 ㈣資訊予以儲存,如圖所示’該調整資訊可儲存於該歷 史:料庫12”中(然並不以此為限),以供該節能警示處 理單元14依據所儲存的調整資訊進行統計,並统叶出* 調設備運作的整體㈣變化資訊,且該㈣趨勢變化資^ 亦可儲存於該歷史資料庫12,,中(然並不以此為限),' 以 供空調設備管理人員後續的分析及參考。 按者’如弟5圖所示係用 外 人汁細5兄明本發明之與該 :二制系統整合之節能警示處理單元的基本架構示意 。在此須提出說明的是,本實施例之節能控制系統广 調整模組133,與歷史資料庫12”外,其餘構件之作 〃第2圖所示的節能控制系統1,相同,故不另贅述。 111000 18 1351494 本實施例之節能警示處理單元14,包括監控值加權計 算模組140、整體趨勢變化分析模組141以及告警通知模 組 142 。 、 該監控值加權計算模組140收集該調整模組133,於 該第二預定時間内使該環境溫度控制器u,對該空調設備 的輸出效力進行調整的調整資訊,以該調整資訊計算出舒 適度指數及輸出效能的變化量,如第6圖所示者用以說明 ,監控值加權計算模組⑷所收集的調整資訊則及 ^出的變化量161,該監控值加權計算模組140以滑動視 =式(Shchng-Window)進行調整資訊16〇的收集,以 : = : = = 及輸出效能的變化量161,而本實施例 舒適度指數或數(然不以此為限)’該全距是指各 :::=舒適度指數或各輸出效能分別加總= 、二是指各舒適度指數或各輸出效 如成長率高於平约水準:季:气年同期成長或衰退比率, 差是指各舒適該時期需求增加較多;該標準 數或各輸出效能與平肖㈣μ ^ 組資料内之各筆數信可氧一葦數值間的離散程度,-指數或各輸出效*t二ά時間内所取得的各舒適度 各舒適度時間點針對同—大樓所取得的 標準差,代夺大,輪出效能(但不此為限),一個較大的 代表大部分的數值和其平均值之間差異較大,換 111000 19 1351494 •此數值j不穩又’相對的’ 一個較小的標準差,代表該 .· 近平均值’換言之,其較為穩定;該變異係數 .數,錄m適度拍數或各輸出效能之標準差除以平均 ’:糸較大則表示該組資料的差異較大相對的, 的!?㈣較不能反映集中趨勢。因此,該監 組140可計算出舒適度指數及輸出效能 〃句數王距、同期成長率、標準差及變異係數等。 _次訊==趨勢變化分析模、组141依據該所儲存的調整 …I控值加權計算模、組140所計算出的變化量分 量及調整資訊間的偏差值,如第7圖所示者用 2_整_勢變化分析模組141依據所儲存的調整 二進仃統计以分析出該變化量的分佈情形 出,變化量是否超過該預定的監控值,舉例而言,該= ^疋依據所儲存的調整資訊計算出最高或最低的移動平 t距值偏向、同期成長率偏高、標準差偏高或變異 糸偏鬲(然不以此為限)’該整體趨勢變化分析模組丨 值加權計算模組14。所計算出的舒適度指數 ^里而分析出該變化量(移動平均數、全距、同期成長 率、標準差及變異係數)超過該預定的監控值時,該主= :模組U2則產生警告訊息,其中,該告警通二二 乂電子郵件或簡訊方式將該警告訊息予以發送。 綜上所述,本發明之節能控制系統擷取一預定時間内 有關於空調場所之舒適度指數及依據空調場所的環境參 數以進行空调設備之輸出效力的調整,因此,針對半門放 ιποοο 丄351494 式工=(例如便利商店或辦公室)等人員頻繁進出的場 斤口藉=本發明可在場所内的環境變化(溫度及濕度)或 員數里與活動改變下更可解決無法節能以及使人體感 =適的問題。再者,本發明之與該節能控制系統整合i 即月匕警不處理單元提供_種智慧化空調管理,針對接受連 線控制的空調設備,可讀取相關數據進行後續分析,例如 t析點數值於整體趨勢中高低位置分佈,藉此瞭解目前所 處%境與差異,以有效發現產生差異過大的問題,而即時 解決該問題,A可對該問題進-步觀察及分析。 —以上所述僅為本發明之較佳實施例而已,並非用以限 之實質技術内容的範圍。本發明之實質技術内容 奋廣義地定該下述之申請專·圍卜若任何他人 =技術實體或方法與下述之f請專利範圍㈣義者為 或是為—種等效之變更,均將被視為涵蓋於本 發明之申請專利範圍之中。 【圖式簡單說明】 圖;第1圖係為本發明之節能控制系統的基本架構示意 示意ί;2圖係更詳細說明本發明之節能控制系統的架構 第3⑷圖係用以顯示環境熱 的變化情形; m边接式 第3 (B)圖係用以顯示環境熱資 的變化情形,· 勹貞向赵近杈式 111000 21 1351494 第3 ( C)圖係用以題欠 的變化情形; ’Ί境熱貝訊為正向趨離模式 ”肩示環境熱資訊為負向趨離模式 第3 ( D )圖係用以 的變化情形; 擺盪趨近 第3 (E)圖係用以顯示環境熱資訊 杈式的變化情形; 貝 擺盪趨離 第3 (F)圖係用以顯示環境熱資訊 私式的變化情形; 貝 範圍擺緣 槿(G)圖係用以顯示環境熱f訊為預定 核式的變化情形; 弟3 ( Η)圖係用以顯千次 化情形; …、衣兄…舅讯為複合模式的變 =4圖係為本發明之與該節能 警不處理單元的基本架構示意圖;. 之即此 人之ίΛ圖t更詳細說明本發明之與該節能控制系統整 。之即此誓示處理單元的架構示意圖; 第6圖用以說明本發明之節能警示處理單元中的監 :值:權計算模組所收集的調整資訊及所計算出的變化 里之處理程序示意圖;以及 圖用以說明本發明之節能警示處理單元中的整 —, 又化为析杈組進行統計而分析出變化量的分佈情 形。 【主要元件符號說明】 1 ’ 1,1,1 ” ’節能控制系統 111000 22 1351494 10, 10, 熱資訊收集器 100 黑球温度感測器 101 出風溫度計感測器 102 回風溫度計感測器 103 濕度計感測器 104 紅外線感測器 105 室外溫度計感測器 106 室外濕度計感測器 107 其他環境參數 11, 11’ 環境溫度控制器 110 濕度控制器 111 風速控制器 112 溫度控制器 12, 12,,12” 歷史資料庫 13, 13,,13” 空調效力調整單元 130 舒適度指標計算模組 131 舒適度指數變化趨勢分析模組 132 效力參數自我學習修正模組 133, 133, 調整模組 14, 14, 節能警示處理單元 140 監控值加權計算模組 141 整體趨勢變化分析模組 142 告警通知模組 150 目標舒適度指數 23 111000 1351494 151 偏差上限值 152 偏差下限值 153 趨勢線 160 調整資訊 161 變化量In another embodiment of the energy-saving warning system of the present embodiment and the energy-saving control system, the air-conditioning efficiency adjusting unit 13 adjusts the output efficiency of the air-conditioning device by the ambient temperature controller η (4) The information is stored, as shown in the figure, 'The adjustment information can be stored in the history: the library 12' (but not limited thereto), for the energy-saving warning processing unit 14 to perform the adjustment information according to the Statistics, and the overall (4) change information of the operation of the equipment, and the (4) trend change information can also be stored in the historical database 12, in (not limited to this), 'for air conditioning equipment The follow-up analysis and reference of the management personnel. According to the person's picture, as shown in the figure 5, the external juice is used. The invention is based on the basic structure of the energy-saving warning processing unit integrated with the two-system system. The energy-saving control system wide adjustment module 133 of the present embodiment is the same as the energy-saving control system 1 shown in FIG. 2 except for the history database 12", and therefore will not be further described. 111000 18 1351494 The energy-saving warning processing unit 14 of the embodiment includes a monitoring value weighting calculation module 140, an overall trend change analysis module 141, and an alarm notification module group 142. The monitoring value weighting calculation module 140 collects the adjustment module 133, and causes the environmental temperature controller u to adjust the output efficiency of the air conditioner in the second predetermined time, and calculates the adjustment information by using the adjustment information. The amount of change in the comfort index and the output performance, as shown in FIG. 6, is used to illustrate the adjustment information collected by the monitoring value weighting calculation module (4) and the amount of change 161. The monitoring value weighting calculation module 140 The adjustment information 16〇 is collected by Shchng-Window to: = : = = and the change amount 161 of the output performance, and the comfort index or the number of the embodiment is not limited thereto. The full distance means that each :::= comfort index or each output efficiency is added to the total =, and the second means that each comfort index or each output effect, such as the growth rate, is higher than the average level: season: the year-on-year growth or decline Ratio, difference refers to the increase in demand during each period of comfort; the degree of dispersion between the standard number or each output performance and the number of letters in the Ping (4) μ ^ group data, - index or output efficiency *t the comfort achieved during the second time The comfort time points are for the standard deviation obtained by the same building, and the performance is large (the limit is not limited). A large representative represents a large difference between the value and the average value. 111000 19 1351494 • This value j is unstable and 'relative' a smaller standard deviation, representing the near-average value. In other words, it is more stable; the coefficient of variation. The number of meters, the number of meters or the output efficiency The standard deviation divided by the average ': 糸 larger indicates that the difference in the data of the group is relatively large,! ? (4) It is less able to reflect the concentration trend. Therefore, the supervisory group 140 can calculate the comfort index and output efficiency, the number of sentences, the growth rate, the standard deviation, and the coefficient of variation. _次 == trend change analysis module, group 141 according to the stored adjustment ... I control value weight calculation module, group 140 calculated change component and adjustment information between the deviation values, as shown in Figure 7 The 2_the whole potential change analysis module 141 analyzes the distribution of the change amount according to the stored adjustment binary statistic, and whether the change amount exceeds the predetermined monitoring value, for example, the =^疋According to the stored adjustment information, calculate the highest or lowest mobile flat t value bias, high growth rate, high standard deviation or variability 鬲 bias (but not limited to this) 'the overall trend change analysis module丨Value weighting calculation module 14. When the calculated comfort index is analyzed and the amount of change (moving average, full distance, synchronous growth rate, standard deviation, and coefficient of variation) exceeds the predetermined monitoring value, the main = : module U2 is generated. A warning message in which the alert is sent by a second or second email or text message. In summary, the energy-saving control system of the present invention takes a predetermined period of time regarding the comfort index of the air-conditioned place and the environmental parameters according to the air-conditioned place to adjust the output efficiency of the air-conditioning device, and therefore, for the half door, ιποοο 丄351494 Workman = (for example, convenience store or office), etc. The personnel who frequently enter and leave the field can use the invention to solve the problem of environmental protection (temperature and humidity) or the number of employees in the place and the change of activities. Human sense = appropriate problem. Furthermore, the present invention integrates with the energy-saving control system, that is, the monthly alarm-free processing unit provides _ kinds of intelligent air-conditioning management, and the air-conditioning equipment that accepts the connection control can read relevant data for subsequent analysis, for example, t-pointing The values are distributed in the high and low positions of the overall trend, so as to understand the current situation and differences, in order to effectively find out the problems that are too different, and solve the problem immediately, A can further observe and analyze the problem. The above description is only the preferred embodiment of the present invention and is not intended to limit the scope of the technical content. The technical content of the present invention is broadly defined as the following application: if any other person = technical entity or method and the following patent scope (4) are either equivalent or equivalent changes, It will be considered to be included in the scope of the patent application of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing the basic structure of the energy-saving control system of the present invention; FIG. 2 is a more detailed description of the structure of the energy-saving control system of the present invention. FIG. 3(4) is for displaying environmental heat. Change situation; m-edge type 3 (B) is used to show the change of environmental thermal resources, · 勹贞向赵近杈式111000 21 1351494 The third (C) diagram is used to change the underlying condition; 'Ί境热贝讯 is the forward divergence mode'. The environmental thermal information is the change of the 3rd (D) system used in the negative divergence mode; the swing is approaching the 3rd (E) diagram to display The change of the environmental thermal information ; type; the swaying of the swaying away from the 3rd (F) is used to show the change of the environmental thermal information private; the Scope of the Scope (G) is used to display the environmental heat The change of the predetermined nuclear type; the brother 3 ( Η) map is used to show the situation of thousands of times; ..., the brothers... the change of the composite mode = 4 is the invention and the energy-saving police unit Schematic diagram of the basic structure; that is, the figure of the person t is more detailed to explain the present invention and the energy saving control This is the schematic diagram of the structure of the vouching processing unit; Figure 6 is used to illustrate the monitoring information collected by the energy-saving warning processing unit of the present invention: the adjustment information collected by the weight calculation module and the calculated changes A schematic diagram of the processing program; and a diagram for explaining the whole of the energy-saving warning processing unit of the present invention, and analyzing the distribution of the variation amount by the analysis of the analysis group. [Description of main component symbols] 1 ' 1,1, 1 ” 'Energy saving control system 111000 22 1351494 10, 10, thermal information collector 100 black ball temperature sensor 101 air temperature thermometer sensor 102 return air thermometer sensor 103 hygrometer sensor 104 infrared sensor 105 Outdoor thermometer sensor 106 Outdoor hygrometer sensor 107 Other environmental parameters 11, 11' Ambient temperature controller 110 Humidity controller 111 Wind speed controller 112 Temperature controller 12, 12,, 12" Historical database 13, 13, , 13" air conditioning effectiveness adjustment unit 130 comfort index calculation module 131 comfort index change trend analysis module 132 effectiveness parameter self-learning correction Module 133, 133, adjustment module 14, 14, energy-saving warning processing unit 140 monitoring value weighting calculation module 141 overall trend change analysis module 142 alarm notification module 150 target comfort index 23 111000 1351494 151 deviation upper limit value 152 Deviation lower limit 153 Trend line 160 Adjustment information 161 Change amount