200803627 • 九、發明說明: 【發明所屬之技術領域】 本發明係有關於一種用於進行例如照明控制的放電燈 點燈裝置、照明控制系統以及控制管理系統。 【先前技術】 在專利文獻1中揭示具有通知已達壽命時間之功能的放 電燈點燈裝置。 [專利文獻1]特開2004-259533號公報 【發明内容】 [發明欲解決之問題] 在專利文獻1中雖然設備本身具有通知裝置,但為了認 知放電燈點燈裝置已達壽命’使用者不得不行進至設備並加 以確認。 ▲本發明之目的在於可建構一便宜的監視控制系統,舉例 而言’其上位控制器使放電燈點燈裝置進行節能控制,且判 斷放電燈資訊係表示錯誤資訊時,對放電燈點燈裝置實行安 全停止指令及通報指令。 [用以解決問題的手段] 本發明之放電燈點燈裝置之特徵為包括:要求接收部, 接收要求有關於放電燈的放電燈f訊之資訊要求資料放電 燈資訊取得部,在前述要求接收部接收f訊要求資料時從記 憶設備取得放電燈資訊;及放電燈資訊傳送部,將前述放電 燈資訊取得部取得的放電燈資訊傳送至要求資訊者。 2112-87〇〇-PF;Ahddub 5 200803627 [發明效果] 根據本發明,放電燈點燈裝置經由對於資訊要求傳送放 電燈資訊,例如,上位控制器要求放電燈資訊並基於從放電 燈點燈裝置接收的放電燈資訊,對於放電燈點燈裝置可實行 節能控制、安全停止指令及通報指令等的監視控制。 【實施方式】 實施例1 圖1係實施例1中之照明控制系統i 0丨的系統構成圖。 各知明没備2 0 0係從各自的電源4 0 〇接收電力的供給, 將被安裝於照明設備2 0 0的放電燈21 0 (參閱圖2 )點燈。又, 控制器3 0 0從各照明設備2 0 0包括的放電燈點燈裝置1 〇 〇 (參 閱圖2 )接收有關放電燈的放電燈資訊,基於放電燈資訊及從 遙控态500被傳送的使用者的命令,產生控制放電燈21〇之 點燈的放電燈控制資訊。然後,控制器3 〇 〇將放電燈控制資 訊傳送至放電燈點燈裝置1 〇 〇,以控制各放電燈21 〇的點燈。 圖2係實施例1中之照明設備200的功能構成圖。 照明設備200包括放電燈點燈裝置1〇〇、放電燈210、 放電燈測定器280及照明設備内測定器281。又,照明設備 200在外部具有照明設備外測定器282、照度感測器283及 人身感知感測器(occupat ion sensor)284。 放電燈點燈裝置1 00包括反相電路11 〇、微電腦120、 點燈裝置界面電路130及點燈裝置内測定器180,且記憶有 關放電燈21 0的放電燈資訊及放電燈控制資訊,以控制放電 燈的點燈。 反相電路11 0將從電源400得到的交流電壓整流成漣波 2112-8700-PF;Ahddub 6 200803627 電壓’將漣波電壓升壓並平滑化,再將平滑化的漣波電壓交 m 流化,以將放電燈21 〇點燈。 點燈裝置内測定器18 〇係測定施加於放電燈點燈裝置 1 00的電壓、電流及消耗電力的電路計與測定放電燈點燈裝 置100内的溫度及濕度的溫濕度計。 放電燈測定器2 8 0係測定施加於放電燈210的電壓、電 流及電力的電路計與測定放電燈點燈裝置1 〇〇内的溫度及濕 度的溫濕度計。 照明設備内測定器281係測定照明設備200内的溫度及 濕度的溫濕度計,照明設備外測定器282係測定照明設備 2 0 0外的溫度及濕度的溫濕度計。 點燈裝置内測定器180、放電燈測定器280及照明設備 内測定器281係定期地或在接收來自微電腦1 20的命令時進 行測定,並將測定值輸出至微電腦1 20。 點燈裝置内測定器180、放電燈測定器280及照明設備 内測疋裔2 81係測定有關放電燈21 〇的物理量之測定器的一 例,但也可測定電壓、電流、消耗電力、溫度、濕度以外的 物理量。 微電腦12 0將包含從點燈裝置内測定器18 〇、放電燈測 定器280及照明設備内測定器281得到的各測定值之放電燈 資訊傳送至控制器300,基於從控制器300接收的放電燈控 制資訊’控制反相電路11 〇,以將放電燈2 1 〇點燈。控制器 300也可設置在照明設備200内。 點燈裝置界面電路13 0係在微電腦1 2 〇與控制器3 0 0之 間進行資訊的傳送接收。 照度感測裔2 8 3係測定照明設備2 0 0被設置的場所之實 2112-8700-PF;Ahddub 7 200803627 • 際照度。照度感測器283係例如光感測器,光感測器包括光 二極體、電流電壓轉換裝置、放大裝置,以測定實際的照度。 人身感知感測器284係檢出在照明設備2〇〇被設置的場 所是否有人存在。人身感知感測器284係例如焦電感測器(熱 感測器)及光通過感測器’測定紅外線量及光量,以根據紅 外線及光的變化判定人的有無。人身感知感測器284係將人 的有無做為人身感知感測器的狀態加以輸出。以下,將人身 感知感測器的狀態做為人身感知感測器2 8 4的檢出結果。 照度感測器2 8 3及人身感知感測器2 8 4本身定期地或在 接收來自微電腦12 0的命令時進行測定,將測定值及檢出結 果輸出至微電腦120。 又,彳政電細12 0包括點燈裝置傳送接收部121、點燈裝 置資訊操作部122、點燈控制部123及點燈裝置記憶部129。 由要求接收部、放電燈資訊傳送部、控制資訊接收部構 成的點燈裝置傳送接收部121經由點燈裝置界面電路13〇從 控制器300接收要求放電燈資訊的資訊要求資料。又,點燈 波置傳送接收部121經由點燈裝置界面電路13 〇將放電燈資 几傳送至做為資訊要求者的控制器3 〇 〇。又,點燈裝置傳送 接收部121經由點燈裝置界面電路13〇從控制器3〇〇接收放 電燈控制資訊。 點燈裝置資訊操作部122(放電燈資訊取得部)在點燈裝 置傳送接收部121接收資訊要求資料時從點燈裝置記憶部 j29取得放電燈資訊。又,點燈裝置資訊操作部122將點燈 政置傳送接收部1 21接收的放電燈控制資訊記憶於點燈裝置 記憶部129。又,點燈裝置資訊操作部122係定期地或在接 收來自控制II 300的命令(或來自遙控器5⑽之使用者的命 2112-87〇〇-PF;Ahddub 8 200803627 令)時,啟動點燈裝置内測定器180、放電燈測定器28〇、照 明設備内測定器281、照明設備外測定器282、照度感測器 283及人身感知感測器284,將測定值及檢出結果,與年月 曰、纣刻’ 一起做為放電燈資訊,記憶於點燈裝置記憶部 I 29 °又’點燈裴置資訊操作部122係基於點燈裝置内測定 器180、放電燈測定器280、照明設備内測定器281、照明設 備外測疋态2 8 2、照度感測器2 8 3及人身感知感測器2 8 4的 測定值及檢出結果,將表示放電燈21〇的異常之有無的異常 狀態、表示放電燈點燈裝置1〇()的故障之有無的故障狀態、 表示放電燈210的異常及放電燈點燈裝置100的故障之内容 的錯誤資訊做為放電燈資訊,並記憶於點燈裝置記憶部 129。舉例而言,點燈裝置資訊操作部丨22係掛在放電燈點 燈裝置100内部的電晶體或FET等的功率元件上的電壓,在 點燈裝置内測定器180測定的電壓為臨界值以上時,對故障 狀態設定為”故障”,並對錯誤資訊設定為,,過電壓”。 點燈控制部123係基於被記憶在做為記憶設備的點燈裝 置記憶部129之放電燈控制資訊,產生並輸出控制反相電路 II 〇的點燈控制信號,以使反相電路110控制放電燈的點 燈。又’點燈控制部123以由反相電路11〇控制的放電燈21〇 之貫際调光率做為放電燈資訊,並記憶於點燈裝置記憶部 129。 一 點燈裝置記憶部129將識別放電燈21〇的放電燈識別資 訊、經由點燈裝置内測定器丨8〇、放電燈測定器28〇、照明 设備内測定器281及照明設備外測定器282被測定的測定值 (放電燈測定資訊)、表示放電燈21 〇的狀態之放電燈狀態資 汛等做為放電燈資訊並加以記憶。又,點燈裝置記憶部j 29 9 2112-8700~PF;Ahddub 200803627 記憶放電燈控制資訊。 圖3係實施例!中之控制器3〇〇的功能構成圖。 控制器300包括控制器界面電路31〇、控制器資訊操作 部320及控制器記憶部39〇。 、由要求傳送部、放電燈資訊接收部、控制資訊傳送部構 成之控制器界面電路31 0係將要求放電燈資訊的資訊要求資 料傳送至放電燈點燈裝置1〇〇。又,控制器界面電路31〇從 放電燈點燈裝置100接收放電燈資訊。χ,控制器界面電路 31 0將放電燈控制資訊傳送至放電燈點燈裝置1⑽。 具有控制資訊產生部的控制器資訊操作部32〇將控制器 界面電路31G接收的放電燈資訊記憶於控制器記憶部39〇。 又,控制器資訊操作部32G基於被記憶在控制器記憶部39〇 的=電燈資訊,產生放電燈控制資訊,並將產生的放電燈控 制> Λ。己丨思於控制器記憶部3 9 〇。又,控制器資訊操作部3別 經由控制器界面電路31 〇將產生的放電燈控制資訊傳送至放 電燈點燈裝置1〇〇。 控制器記憶部390記憶放電燈資訊及放電燈控制資訊 # ° 、口 圖4係繪示實施例i中之微電腦12〇及控制器3〇〇的硬 體資源之一例的圖式。 在圖4中’微電腦1 2 〇及控制器3 0 0包括實行程式的cpu 911。CPU 911係經由匯流排912被與做為非揮發性記憶體的 R〇M 913、做為揮發性記憶體的RAM 914、時鐘931接續,以 控制廷些硬體元件。時鐘931係用於取得年月日及時刻、定 期地檢出資訊取得時刻、累積放電燈210的點燈時間等。 圖5係緣示實施例1中之照明控制系統101的控制方法 2112-87〇〇-PF;Ahddub 10 200803627 之流程圖。 以下基於圖5說明實施例1中之照明控制系統1 〇丨的控 制方法。 微電腦120的點燈裝置傳送接收部121、點燈裝置資訊 操作部1 22及點燈控制部123,以及控制器300的控制器資 訊操作部321係經由CPU 911實行以下的處理。 <S101 :要求產生處理〉 首先’控制器資訊操作部3 2 0係在控制器界面電路31 〇 k遙控為5 0 0接收使用者的命令時或在每隔一定的時間,產 生要求放電燈資訊的資訊要求資料。 <S102 :要求傳送處理〉 其次’控制器界面電路310將控制器資訊操作部3 2 〇產 生的資訊要求資料傳送至特定的照明設備2〇〇。 <S103 :要求接收處理〉 其次,該照明設備2 0 0包括的放電燈點燈裝置1 〇 〇之點 燈裝置傳送接收部1 21係經由點燈裝置界面電路i3〇從控制 器3 0 0接收資訊要求資料。 <S104 :放電燈資訊取得處理〉 在點燈裝置傳送接收部121接收資訊要求資料時,點燈 裝置資訊操作部122從點燈裝置記憶部129取得放電燈資 訊。 放電燈資訊包含放電燈識別資訊、放電燈測定資訊、放 電燈狀態資訊等。 放電燈識別資訊係逐個地識別放電燈21〇的MAC(Media Access Control)位址及對於各任意的群組識別的群組號碼 等。 " 2112-8700-PF;Ahddub 11 200803627 放電燈測定資訊係經由測定器被測定之有關於放電燈 210的物理量,點燈裝置内測定器ι8〇測定的放電燈點燈裝 置1 00之電壓、電流、消耗電力、溫度及濕度,放電燈測定 器280測定的放電燈210之電壓、電流、消耗電力、溫度及 濕度’照明設備内測定器281測定的照明設備200内之溫度 及濕度’及照明設備外測定器282測定的照明設備200外之 溫度及濕度等。 放電燈狀態資訊係表示放電燈21 〇的異常之有無的異常 狀態、表示放電燈點燈裝置1〇0的故障之有無的故障狀態、 表示放電燈210的異常及放電燈點燈裝置ι〇〇的故障之内容 的錯誤資訊、表示放電燈21 〇點燈的累積時間之燈積分時 間、表示反相電路11 〇操作的累積時間之反相器積分時間等。 <S105 :放電燈資訊傳送處理〉 其次’點燈裝置傳送接收部121經由點燈裝置界面電路 1 3 0將放電燈資訊傳送至控制器3 〇 〇。 <S 1 0 6 :放電燈資訊接收處理> 其次,控制器界面電路31 〇從放電燈點燈裝置丨〇 〇接收 放電燈資訊。 <S 1 07 :控制資訊產生處理〉 在控制器界面電路31 〇接收放電燈資訊時,控制器資訊 操作部320將放電燈資訊記憶於控制器記憶部39〇,又,控 制器資訊操作部320基於放電燈資訊產生放電燈控制資訊: 々例如,在控制器記憶部390上係與MAC位址及群組號碼 等的放電燈識別資訊關聯而記憶放電燈控制資訊,控制器資 訊操作部320係從控制器記憶部39〇取得對應於被包含在放 電燈負§fi的放電燈識別資訊之放電燈控制資訊。 2112-8700-PF;Ahddub 12 200803627 又,例如,放電燈210因為具有當周圍溫度低時照度降 低的特性,關於被包含於放電燈控制資訊的放電燈點燈裝置 1〇〇内、照明設備200内外、及放電燈210之溫度,若溫度 為低於臨界值的程度,則控制器資訊操作部32〇將特定值以 上的調光率設定為放電燈控制資訊。 又,例如,在控制器記憶部390上係與放電燈21 〇之異 常狀態及放電燈點燈裝置100的故障狀態及放電燈點燈裝置 100的錯誤資訊等之放電燈狀態資訊關聯而記憶放電燈控制 資汛,控制器資訊操作部3 2 〇係從控制器記憶部3 9 〇取得對 應於被包含在放電燈資訊的放電燈狀態資訊之放電燈控制 資訊。 關於詳細的放電燈控制資訊則根據圖6、圖7、圖8及 圖9另外加以說明。 <S 108 :控制資訊傳送處理> 其-人,控制器界面電路310將控制器資訊操作部3 2 〇產 生的放電燈控制資訊傳送至放電燈點燈裝置1 〇 〇。 <S 10 9 :控制資訊接收處理〉 其-人’點燈裝置傳送接收部121經由點燈裝置界面電路 130從控制器300接收放電燈控制資訊。 <S 110 ··點燈控制處理> 在點燈裝置傳送接收部121接收放電燈控制資訊時,點 燈裝置資訊操作部12 2將放電燈控制資訊記憶於點燈裝置記 憶部129。點燈控制部123從點燈裝置記憶部ία取得放電 燈控制資訊,並基於放電燈控制資訊產生控制反相電路i i 〇 的點燈控制信號。然後,點燈控制部123將點燈控制信號輸 出至反相電路11〇,反相電路11〇根據點燈控制信號將交流 2112-8700-PF;Ahddub 13 200803627 一 電壓供給放電燈21 0,以將放電燈21 0點燈。 舉例而言,點燈控制部123係基於被包含在放電燈控制 寅Λ的。周光率產生點燈控制信號,並輸出至反相電路11 〇。 此時,點燈控制部】23將具有對應於調光率之大小的頻率的 交流電壓從反相電路110供給放電燈21〇,以控制放電燈21〇 的點燈。 其次,說明有關放電燈控制資訊。 、在放電燈控制資訊中有設定調光率、上限調光率、下限 調光率或不在時調光率之調光率資訊,設定照度、初期照 度、初期照度校正或調光曲線之照度資訊,漸變(fade)時間 或人身感知漸變時間之亮度的變化資訊,保持時間或人身感 知延遲時間之亮度的保持資訊,照度感測器的感光度、照度 ,報變化量或照度通報間隔時間之照度感測器的資訊,反: 器操作杈式、警報器〇N/〇FF狀態或優先控制狀態之異常時 的資訊,此外還有時間表資料、色溫度值等。 又,各放電燈控制資訊係做為對於個別的放電燈設定的 煜參數及對每一個群組設定的群組調光資料且被記憶於控 制器記憶部390。 如此,根據個別的放電燈資訊,控制器3〇〇產生放電燈 抆制貝汛,由於可進行一致的管理,可簡化照明設備2⑽ 構成。 例如,照明系統的升級可僅以控制器3〇〇即可處理,又, 系統全體的備用也可僅以控制器3〇〇滿足。 _ 圖7圖8及圖9係%示實施例1中之放電燈控 制資訊的概念圖。 根據圖6說明有關於漸變時間、設定調光率及設定照度。 2112-87〇〇-pF;Ahddub 200803627 在圖6中,橫軸表示時間,縱軸表示放電燈210的調光 率或照度。 設定調光率係在照明設備200的電源變成ON時點燈的 放電燈21 0之調光率。 設定照度係在照明設備200的電源變成0N時點燈的放 電燈210之照度。 漸變時間係表示在照明設備200的電源變成0N時將放 電燈210之調光率(或照度)從〇上升至設定調光率1(或設定 照度1)的時間及在照明設備200的電源變成〇FF時將放電燈 210之調光率(或照度)從設定調光率丨(或設定照度丨)下降 至〇的時間。不過,漸變時間也可表示在照明設備2〇〇的電 源變成OFF時將放電燈210的調光率(設定調光率丨)或照度 (。又疋…、度1)上升至设疋调光率2或設定照度2的時間或是 下降至設定調光率3或設定照度3的時間。例如,漸變時間 也可表示將放電燈210的調光率70%(設定調光率丨)上升至 100%(設定調光率2)的時間或是下降至3〇%(設定調光率3) =時間’也可表示將放電燈210的照度700勒克斯[lx](設 定照度1)上升至1 000勒克斯(設定照度2)的時間或是下降 至300勒克斯(設定照度3)的時間。又,漸變時間也可表干 變化率。換言之,漸變時間也可以在每"少上 : 率[%/秒]或照度[IX/秒],將調光率變化1%所花 ° /%],將照度變化i勒克斯所花費的秒數[秒/1χ]、表J ^ 中之^、/5、r係表示漸變時間的變化率。 ° 可為複數’例如’圖6中的漸變時間丨及漸變時門:::間 同的時間(或變化率)。又,漸變時間的始 :為不 ΟΝ/OFF,例如,可以時列# +如^ 於電源的 Τ以時刻表不。例如,點燈控制部⑵在u 2112-8700-PF;Ahddub 15 200803627 』知時放電燈210的調光率可在預定的漸變時間之間從25% 變化至70%。 ° 根據圖7說明保持時間、人身感知漸變 延遲時間及不在時調光率。 身以" 率 S 7中仏軸表示時間,縱軸表示放電燈21 〇 的調光 人身感知漸變時間係在人身感知感測器284檢知人且檢 2有的狀態時將放電燈21G的調光率從G上升至設定調光 ^時間及在人身感知感測器284未檢知人且 狀態起在保捭眸„ + & μ 攸ί欢知為無的 、、Β ^ ;放電燈210的調光率從設定調光率 下:至不在時調光率的時間。可將前 知漸變時間並將後者做A h… 、杜子的人身感 以區 …不在呀的人身感知漸變時間加 間相同,可以變化率表i 中說明的漸變時 人身感知感測器284因為係檢 線等以判定人之有益 ㈣作產生的熱 檢知到人而變成在該人靜止時,有無法 成檢知為無的狀態之特性。 保持時間係考慮人身咸 係表示在人身…、,感心284之特性的時間,且 在人身感知感測器284變成檢 放電燈210的調光率保持在設定調光率的時之後仍將 人身感知延遲時間盥 測器284的特性之時門呆持時間相同係考慮人身感知感 之後仍將放電燈21二係表示在經濟人身感知漸變時間 輯圖心::::::持在不在時調光率的時間。 度」在圖8中,係表示「照度位準」,縱抽係表示「亮 2112-8700~PF;Ahddub 200803627 、,在希望對人發出「目標亮度」的光時,具有人(眼)感受 的光,亮度與放電燈210發出的光之亮度不同的特性。 调光曲線係顯示人(眼)感受的亮度之特性。 ^ 在凋光曲線具有圖8所示之特性時,為了實現「目 仏儿度」’放電燈21G並非用以發出「目標亮度」的光必須 的度位準「5」,而是以調光曲線顯示「目標亮度」之亮 度的照度「7」將放電燈21 0點燈。 根據圖9說明有關初期照度校正。 在圖9中’橫軸係表示放電燈21〇的累積點燈時間,縱 軸係表示放電燈210的調光率。 放電燈21G具有即使是同―調光率,照度也與「累積點 k時間」一起下降的特性。所以,為了從放電燈21〇的開始 使用(累積點燈時間:〇小時)至壽命結束(例如,累積點燈時 間·· 12000小時)保持一定的照度,將開始使用的「調光率」 設定為較低(例如,70%),並將壽命結束的「調光率」設定 為較高(例如,100%)。然後,點燈控制部123基於圖9之「顯 示初期照度校正的特性之曲線」,隨著「累積點燈時間」的 紅過,k化放電燈21 〇的「調光率」。結果,點燈控制部i 23 係以一定的照度將放電燈21〇點燈,同時可節約放電燈2i〇 的消耗電力。可節約的電力量係相當於圖9的網點部分(顯 不初期照度校正,,的特性之曲線與調光率100%的線構成 的部分)之電力量。 又所明初期照度係放電燈21 〇未進行初期照度校正而 以調光率1 00%將新的燈點燈時的照度。 點:k控制部12 3係根據初期照度使反相電路11 〇控制放 電燈21 0的調光率,以放電燈21 〇的調光率做為初期照度校 2112-8700-PF;Ahddub 17 200803627 正狀態並記憶於點燈裝置記憶部129。 下面說明其他的放電燈控制資訊。 上限调光率及下限調光率係表示設定調光率、不在時調 光率等的放電燈210之調光率的上限值及下限值。 照度感測器感光度係表示照度感測器283的感光度。 照度通報變化量係表示從放電燈點燈裝置1 〇 〇將照明設 備200的照度傳送至控制器3〇〇的條件,照度感測器283檢 知的照度在固定時間中或是對於初期照度或對於設定照度 變化在照度通報變化量以上時放電燈點燈裝置1 〇〇將照明設 備2 0 0的照度傳送至控制器3 〇 〇。 照度通報間隔時間係表示從放電燈點燈裝置1 〇 〇將照明 没備2 0 0的知度傳送至控制器3 〇 〇的條件,放電燈點燈裝置 1 00以固定的間隔將照明設備2〇〇的照度傳送至控制器3〇〇 的條件。 反相器操作模式係表示在將放電燈點燈裝置1 〇 〇重置後 將放電燈210再點燈的方法。舉例而言,反相器操作模式係 表示在將放電燈點燈裝置100重置後,基於與重置前相同的 放電燈控制資訊或在工廠裝運時被設定的放電燈點燈裝置 1 0 0的放電燈控制資訊,將放電燈21 〇點燈。 警報器ΟΝ/OFF狀態係表示在放電燈點燈裝置丨〇〇檢出 放電燈210的異常狀態或放電燈點燈裝置1〇〇的故障狀態時 使通報警報器發聲(ON狀態)或不發聲(off狀態)。 優先控制狀態係表示在放電燈點燈裝置1 00檢出放電燈 210的異常狀態或放電燈點燈裝置1〇〇的故障狀態時的控制 方法。舉例而言,優先控制狀態係表示在檢出放電燈21〇的 異常狀態或放電燈點燈裝置100的故障狀態時使放電燈21〇 2112-8700-PF;Ahddub 18 200803627 關燈或閃燈。 守間表資料係與年月日及時刻相關聯而表示對於放電 燈210的調光率及漸變時間等的控制資訊。點燈控制部 係配合時間表資訊表示的時間表控制反相電路ιι〇並將放電 燈210點燈。 色λ度值係表示放電燈21 〇發出的光之色溫度。色溫度 表示藍紫光及紅色光之相對的強度,色溫度高時靠近藍色, 色溫度低時則靠近紅色。色溫度的單位係使用K(Keivin)。 上述實施例1之放電燈點燈裝置100在控制器300之外 也可將放電燈資吼傳送至使用者終端。放電燈點燈裝置i 〇 〇 利用將放電燈資訊傳送至使用I終端,可使在冑處的使用者 認知到例如放電燈點燈装置丨〇〇已達壽命。 又,因為放電燈點燈裝置100傳送至控制器300等的外 部之放電燈資訊係包含如上述說明的有關放電燈之各種資 Λ,例如,上位控制器300基於放電燈資訊對放電燈點燈裝 置100進行節能控制,顯示調光趨勢圖,並可監視節能狀態。 所謂調光趨勢圖係描繪燈的點燈狀態(或消耗電力),調光趨 勢圖係如圖1〇所示顯示於外部監視器等,且用於根據描繪 的履歷算出以日為單位或以月為單位之消耗電力等。例如, 依據上述實施例1,在判斷放電燈資訊係表示放電燈的壽命 或放電燈點燈裝置的故障等的錯誤資訊時,可對放電燈點燈 裝置1 0 0實行安全停止指令及通報指令。 實施例2 圖11係實施例2中之照明控制系'統1〇1 #系、统構成圖。 如圖11所示’控制器300可不以有線而以無線與各照 明设備200間傳遞放電燈資訊及放電燈控制資訊。 2112-87〇〇-PF;Ahddub 19 200803627 透過使用無線的界面,由於照明設備200的配線僅須進 打以往進行的電源線的配線,結構較為簡單。換言之,以無 線的方式’不需要控制器300及照明設備2〇〇的配線接續, 可減低配線費用。在更新建物設備,導入照明控制系統時, 也可便宜地導入與最新系統同等的節能系統。 其他的構成、處理等與實施例1的照明控制系統1 〇丨相 同。 實施例3 圖12係實施例3中之照明控制系統j 〇丨的系統構成圖。 如圖12所示,照明設備2〇〇可以有線(例如,在與控制 时3 0 0的通^中使用)及無線(例如,在與遙控器$ 〇 〇的通信 中使用)兩者進行通信。 有線係用於電波無法到達的場所。若在遙控器5〇〇(遙控 器設定器)等中使用無線,則可不個別地以通信線接續而進 行操作與設定。又,經由使用有線及無線兩者進行通信,提 升知、明控制系統1 01的可用性。 其他的構成、處理等與實施例丨的照明控制系統101相 同。 實施例4 在實施例4中,詳細地說明在各實施例中說明的「控制 器300及照明設備200與遙控器5〇〇或使用者終端51〇通作 的形態」。 "" 圖13係實施例4中之控制管理系統1〇2的構成圖。 如圖U所示,實施例4的控制管理系統⑽包括血控 制器30◦或照明設備2〇〇接續的使用者終端51〇、與複數: 含使用者終端510的照明控制系鲚1叫垃錶^ 匕 于、死101接績的控制管理裝置 2112-8700-PF;Ahddub 20 200803627 520。 照明控制系統101係在各實施例中說明者,接續至電源 4 0 0的電力線則省略圖示。 控制管理裝置520控制各照明控制系統1〇1。例如,控 制管理裝置520從各照明控制系統1〇1的控制器3〇〇取得各 控制器300從各照明設備200接收的放電燈資訊或各控制器 300傳送至各照明設備200且在各照明設備2〇〇上設定的放 電燈控制資訊。又,例如,控制管理裝置52〇與控制器3〇〇 同樣地從各照明設備200取得放電燈資訊。又,例如,控制 官理裝置520從各照明設備2〇〇取得被設定的放電燈控制資 訊。又,例如,控制管理裝置52〇,跟控制器3〇〇相同地, 與各放電燈資訊表示之在放電燈的測定值或放電燈的狀態 關聯,而記憶表示如何控制放電燈的放電燈控制資訊,且傳 送對應於從控制器300或照明設備2〇〇取得的放電燈資訊之 放電燈控制資訊,以控制照明設備2〇0。又,例如,控制管 理I置5 2 0係傳送從鍵盤或滑鼠等的輸入設備輸入的操作者 指定的放電燈控制資訊,並將操作者指定的放電燈控制資訊 設定於控制器300及照明設備200。 使用者終端510或遙控器500,在分別接續的照明控制 系統101中,與控制管理裝置52〇相同地,從控制器3〇〇及 照明设備2 0 0取得放電燈資訊及放電燈控制資訊,且對於控 制器300及照明設備200設定放電燈控制資訊。 圖14係繪示實施例4中之控制管理裝置520、使用者終 端510及遙控器500的硬體資源的一例之圖式。 在圖14中,控制管理裝置520、使用者終端510及遙控 器 500 係包括 CPU 911、ROM 913、RAM 914、顯示裝置 90j、 2112-8700-PF;Ahddub 21 200803627 輸入設備902、通信裝置915及磁碟裝置92〇。在遙控器5〇〇 上使用RAM及快閃§己彳思體專的半導體記憶體取代磁碟裝置 920。又,CPU 911實行被記憶於〇s 921及程式群組923的 程式,控制經由匯流排被接續至CPU 911的R〇M 91 3、RAM 914、顯示裝置901、輸入設備902、通信裝置915及磁碟裝 置9 2 0。在槽案群組9 2 4上係記憶在控制管理裝置$ 2 〇、使 用者終端510或遙控器5 0 0中使用的各種資訊。例如,算出 結果、判定結果、傳送接收的資料被記憶於檔案群組924。 又,放電燈資訊及放電燈控制資訊係被記憶於檔案群組9 2 4 的資訊之一例。 ROM 913、RAM 914及磁碟裝置920、以及其他的半導體 δ己憶體等係記憶設備、記憶裝置之一例。 圖15係實施例4中之控制管理裝置52〇、使用者終端 510及遙控器500的功能構成圖。 控制管理裝置520、使用者終端51〇及遙控器5〇〇係分 別包括使用通#裝置91 5以有線或無線的方式與控制器則 及照明設備200傳送接收放電燈資訊及放電燈控制資訊的通 信部(控制管理通信部52卜使用者終端通信部5ιι、遙控哭 通信部5〇1)。通信部也具有相當於控制器3〇〇的控制器界面 電路31 0的功能。 乂 投刺官理装置52〇、使用者終端510及遙控器5〇〇 係刀別包括輸出人部(控制f理輸出人部挪、使用者終端輸 出入部513、遙控器輸出入部503),從鍵盤、滑鼠、數字鍵、 十字鍵、按叙等的輸入設備咖,輸入有關對於控制器· ^U備2GG之放電燈資訊的取得與放電燈控制資訊的設 定的操作者指定。又,於φ 輸出入邛將通信部接收的放電燈資訊 2112-8700-PF/Ahddub 22 200803627 及放電k控制貧訊與從輸入設備9〇2輸入的操作者指定的輸 入資訊顯示於顯示裝置9 〇 j。 ^又,控制管理裝置520、使用者終端510及遙控器5〇〇 係分別包括控制部(控制管理控制部522、使用者終端控制部 512、遙控器控制部5〇2),基於通信部接收的放電燈資訊及 輸出入部輸入的操作者指定的輸入資訊,使用cpu產生放電 燈控制貧訊。控制部也具有相當於控制器3〇〇的控制器資訊 操作部320的功能。 ' 又’控制管理裝置520、使用者終端510及遙控器500 係分別包括記憶部(控制管理記憶部529、使用者終端記憶部 519、遙控器記憶部5〇9),將通信部接收的放電燈資訊及放 電燈控制資訊與控制部產生的放電燈控制資訊與輸出入部 輸入的操作者指定的輸入資訊等記憶於記憶設備。記憶部相 當於控制器300的控制器記憶部390。 圖1 6係繪示實施例4中之控制器300具有的放電燈控 制資訊之一例的圖式。 例如’控制器3 0 0將圖1 6所示之放電燈控制資訊記憶 於控制器記憶部390,並將對應於從各照明設備2〇〇接收的 放電燈資訊之放電燈控制資訊設定於各照明設備2 〇 〇。 在圖16中’放電燈控制資訊係表示與包含於放電燈資 訊的放電燈識別資訊及包含於放電燈資訊的放電燈狀態資 訊關聯的控制内容。放電燈控制資訊可與包含於放電燈資訊 的放電燈測定資訊關聯而表示控制内容。 從照明設備2 0 0取得蒂放電燈資訊包含識別放電燈的放 電燈識別資訊、表示在照明設備2 0 0内測定的有關放電燈之 各種測定值的放電燈測定資訊、表示基於放電燈測定資訊被 2112-8700-PF;Ahddub 23 200803627 算出·判定的放電燈狀態之放電燈狀態資訊等。 例如,在控制器300中,控制器資訊操作部320,在對 於從照明設備200接收的放電燈資訊,放電燈識別資訊表示 該放電燈係使用”燈A”種類的燈,且包含於放電燈狀態資 訊的燈積算時間為” 6000小時(燈的壽命時間)以上,,時,產 生表示”放電燈”為,,閃燈,,之放電燈控制資訊,且經由控 制器界面電路31 0傳送至該照明設備200。在接收此放電燈 控制資訊的照明設備200中,點燈控制部123使放電燈210 閃燈。 . 又’例如,控制器資訊操作部320在放電燈識別資訊表 示該放電燈係使用”燈C”種類的燈,且包含於放電燈狀態 資訊的燈積算時間為,,1 2000小時以上,,時,產生表示,,放 電燈”為”關燈”之放電燈控制資訊,且經由控制器界面電 路31 0傳送至該照明設備2 〇 〇。在接收此放電燈控制資訊的 照明設備200中,點燈控制部1 23使放電燈21 0關燈。當然, 不限於6000、8500、1 2000小時,也可設定配合燈壽命的時 間。 又,例如,控制器資訊操作部32〇在包含於放電燈狀態 資訊的反相器積分時間為,,40000小時以上,,時,產生表 示LED為點燈的放電燈控制資訊,並經由控制器界 面電路310傳送至該照明設備2〇〇。在接收此放電燈控制資 訊的照明設備200中,點燈控制部123將LED(省略其圖示) 點燈。知明設備2 0 〇的特徵除了放電燈21 〇之外包括led等 的燈·光源以用於狀態顯示。照明設備2〇〇的LED將照明設 備200的狀態透過點燈、關燈、閃燈等通知使用者。 由於在關燈時是不方便的,在管理者認知到壽命之後, 2112-8700-PF;Ahddub 24 200803627 最好可解除閃燈或關燈。 又,例如,控制器資訊操作部320在包含於放電燈狀態 資訊的錯誤資訊表示”沒有燈,,、”點不亮,,時,分別產生 表示從”揚聲器,,輸出,,警告音A” 、從,,揚聲器,,輸出” 警告音B”的放電燈控制資訊,並經由控制器界面電路31〇 傳达至該照明設備200。在接收此放電燈控制資訊的照明設 備200中,微電腦120從揚聲器(省略其圖示)輸出”擎告音 A”或”警告音B”。照明設備2〇〇之特徵為包括揚聲器等的 音聲單元以用於狀態警告。揚聲器將在照明設備2〇〇上產生 的故障透過警告音或聲音訊息通知使用者。警告音或聲音訊 息可預先記憶於點燈裝置記憶部,也可包含於從控制器3〇〇 被傳送的放電燈控制資訊。 又,控制器3 0 0的控制器界面電路3丨〇將從各照明設備 200接收的放電燈資訊及控制器資訊操作部32〇產生的放電 燈控制資訊傳送至控制管理裝£ 52〇]吏用者終端51〇及遙 控器500。 在控制管理裝置520、使用者終端51〇及遙控器5〇〇中, 通k。卩攸控制器300接收放電燈資訊及放電燈控制資訊,將 被接收的放電燈資訊及放電燈控制資訊記憶於記憶部。又, 輸出入部將接收的放電燈資訊及放電燈控制資訊顯示於顯 示裝置901。 吕理者及使用者(以下為操作者)可從控制管理裝置5別 或使用者終端510或遙控器5〇〇控制控制器3〇〇或照明設備 200 〇 例如,操作者基於在控制管理裝置52〇或使用者終端 或L抆抑5 0 0的顯示裝置9 〇丨上被顯示的放電燈資訊及 2112-870〇-PF;Ahddub 25 200803627 放電燈控制資訊,從輸入設備902輸入設定於控制器300或 照明設備2 0 0的放電燈控制資訊及識別設定放電燈控制資訊 的控制器300或照明設備200的識別資訊。 控制管理裝置520或使用者終端510或遙控器500的輸 出入部從輸入設備9 0 2輸入操作者指定的識別資訊及放電燈 控制資訊,並將輸入的操作者指定的識別資訊及放電燈控制 資訊記憶於記憶部。又,通信部將操作者指定的放電燈控制 資訊傳送至以操作者指定的識別資訊被識別的控制器3〇〇或 照明設備200。 在該控制器300中,控制器界面電路310接收操作者指 定的放電燈控制資訊,將接收的操作者指定的放電燈控制資 訊記憶於控制器記憶部390。此後,控制器300的控制器資 訊操作部320基於操作者指定的放電燈控制資訊,產生對於 各照明設備2 0 0的放電燈控制資訊。 又’在該照明設備2 0 0中,點燈裝置傳送接收部1 21接 收操作者指定的放電燈控制資訊,將接收的放電燈控制資訊 記憶於點燈裝置記憶部12 9。然後,點燈控制部1 2 3基於操 作者指定的放電燈控制資訊,控制放電燈21 〇的點燈。又, 微電腦120基於操作者指定的放電燈控制資訊,控制LED及 揚聲器。 又’控制管理裝置520、使用者終端510及遙控器50 0 也可不經由控制器300而直接從照明設備200取得放電燈資 訊。 此時,控制管理裝置52〇、使用者終端510及遙控器5〇〇 的通#部’與控制器3 0 0的控制器界面電路310相同,從照 明設備2 0 0取得放電燈資訊。 2112-8700-PF;Ahddub 26 200803627 在實施例4中說明對應於放電燈狀態資訊的控制。 一特別況明對應於燈積分時間及反相器積分時間(壽 p )放甩k的知耗及點不亮(異常、故障狀態)以進行控制。 例如,在控制官理系統1〇2中,達到以下的條件(a"及 條件U2)的時間時,或變成條件(a3)的狀態時,進行如以下 的控制(bl)〜控制(b4)的控制。 條件(a 1):燈的壽命時間 條件(a2) ·反相器的壽命時間 條件U3):以反相電路檢出燈的有無或點不亮 燈的壽命時間係以例如6000小時、8500小時、12〇〇〇 小時做為設計值而被設定。 反相器的壽命時間係以例如40000小時做為設計值 設定。 狐 燈的有無係判別2個燈絲是否被接續。 燈的點不亮係檢出2個燈絲沒有發光材料或燈的封入氣 體洩漏等導致的燈異常、故障狀態。 控制(bl):使放電燈關燈、閃燈。 控制(b2):使LED點燈、關燈、閃燈。 控制(b 3) ··從音聲單元輸出聲音 ^控制(b4):進行有關滿足外部終端或PC(個人電腦)等的 監視器之條件(al)〜條件(a3)的顯示。 換言之,控制管理系統1〇2進行的控制,不僅是關燈及 閃燈等的燈的控制(放電燈點燈控制),也包含透過經由=電 燈以外的通知操作者用的光源之點燈、關燈、閃燈等的動作 (通知用光源點燈控制)或音源的動作(聲音輸出控制)或對 於監視器等的顯示裝置之資訊輸出(顯示控制)等之對使用 2112-8700-pF;Ahddub 27 200803627 者的通知。 又,在實施例4中,關於放電燈狀態資訊,不僅說明使 用者在放電燈使用時注意壽命的警告、異常或故障的態樣, 也況明系統的管理者等可在預定的位置監視放電燈的故障 或來自放電燈的警告等的態樣。 例如,在建物的壁上開關上具有接續外部通信線的端子 時,使用者·管理者可經由將外部通信線接續至壁上開關的 使用者終端,確認各照明設備2〇〇的狀態。 二又,例如,在進行建物集中管理控制時,透過將外部通 信線接續至集中管理室的控制管理裝置,使用者管理者可 在集中官理室中確認照明設備200的狀態。 又,例如,使用者·管理者可使用雙向通信的遙控器, 確認在通信範圍内的各照明設備2〇〇的狀態。 【圖式簡單說明】 圖1係實施例1中之照明控制系統101的系統構成圖。 圖2係實施例1中之照明設備2〇〇的功能構成圖。 圖3係實施例1中之控制器3〇〇的功能構成圖。 圖4係繪示實施例!中之微電腦12〇及控制器3⑽的硬 體資源之一例的圖式。 圖5係繪示實施例1中之照明控制系統丨〇1的控制方法 之流程圖。 圖6係繪示實施例1中之放電燈控制資訊的概念圖。 圖7係繪示實施例1中之放電燈控制資訊的概念圖。 圖8係繪示實施例1中之放電燈控制資訊的概念圖。 圖9係繪示實施例1中之放電燈控制資訊的概念圖。 2112-8700-PF;Ahddub 28 200803627 圖10係實施例1中之調光趨勢圖。 圖11係實施例2中之照明控制系統1〇1的系統構成圖。 圖12係實施例3中之照明控制系統1〇1的系統構成圖。 圖13係實施例4中之控制管理系統〗〇2的構成圖。 圖14係繪示實施例4中之控制管理裝置52〇、使用者終 端510及遙控器5 〇 0的硬體資源的一例之圖式。 圖15係實施例4中之控制管理裝置520、使用者終端 510及遙控器5〇〇的功能構成圖。 圖16係綠示實施例4中之控制器3 0 0具有的放電燈控 制資訊之一例的圖式。 【主要元件符號說明】 10 0〜放電燈點燈裝置; 102〜控制管理系統; 120〜微電腦; 12 3〜點燈控制部; 129〜點燈裝置記憶部; 200〜照明設備; 21 0〜放電燈; 2 8 3〜照度感測器; 284〜人身感知感測器; 300〜控制器; 390〜控制器記憶部; 400〜電源; 50卜遙控器通信部; 503〜遙控器輸出入部; I 〇 1〜照明控制系統; II 〇〜反相電路; 121〜點燈裝置傳送接收部; 122〜點燈裝置資訊操作部; 130〜點燈裝置界面電路; 180〜點燈裝置内測定器; 280〜放電燈測定器; 281〜照明設備内測定器; 282〜照明設備外測定器; 310〜控制器界面電路; 3 2 0〜控制裔貧訊操作部; 5 0 0〜遙控器; 502〜遙控器控制部; 509〜遙控器記憶部; 2112-8700-PF;Ahddub 29 200803627 5 1 0〜使用者終端; 5 2 0〜控制管理裝置· 5 21〜控制管理記憶部; 5 2 2〜控制管理控制部; 529〜控制管理記憶部; 911〜CPU ; 913〜ROM ; 915〜通信裝置; 921〜0S ; 924〜檔案群組; 511〜使用者終端通信部; 512〜使用者終端控制部; 513〜使用者終端輸出入部· 519〜使用者終端記憶部; 523〜控制管理輪出入部. 912〜匯流排; 914〜RAM ; 9 2 0〜磁碟襄置; 9 2 3〜程式群組; 931〜時鐘。 2112-8700-PF;Ahddub200803627 • NEXT DESCRIPTION OF THE INVENTION: TECHNICAL FIELD The present invention relates to a discharge lamp lighting device, a lighting control system, and a control management system for performing, for example, lighting control. [Prior Art] Patent Document 1 discloses a discharge lamp lighting device having a function of notifying the life time. [Problem to be Solved by the Invention] In Patent Document 1, although the device itself has a notification device, in order to recognize that the discharge lamp lighting device has reached the end of life, the user may not Do not travel to the device and confirm it. ▲ The purpose of the present invention is to construct an inexpensive monitoring control system, for example, when the upper controller causes the discharge lamp lighting device to perform energy saving control, and judges that the discharge lamp information indicates an error message, the discharge lamp lighting device Implement safety stop instructions and notification instructions. [Means for Solving the Problem] The discharge lamp lighting device of the present invention is characterized in that it includes a request receiving unit that receives an information request information discharge lamp information acquisition unit that requires a discharge lamp of the discharge lamp, and receives the request in the foregoing request. The department receives the discharge lamp information from the memory device when receiving the request information, and the discharge lamp information transmission unit transmits the discharge lamp information obtained by the discharge lamp information acquisition unit to the request information. 2112-87〇〇-PF; Ahddub 5 200803627 [Effect of the Invention] According to the present invention, the discharge lamp lighting device transmits discharge lamp information via information request, for example, the upper controller requests discharge lamp information and is based on the discharge lamp lighting device. The received discharge lamp information can be monitored and controlled by the discharge lamp lighting device such as the energy saving control, the safety stop command, and the notification command. [Embodiment] Embodiment 1 FIG. 1 is a system configuration diagram of a lighting control system i 0 in Embodiment 1. Each of the known devices is supplied with power from the respective power sources 40 ,, and is turned on by the discharge lamp 21 0 (see FIG. 2 ) attached to the illuminating device 2000. Moreover, the controller 300 receives the discharge lamp information about the discharge lamp from the discharge lamp lighting device 1 (including FIG. 2) included in each of the illumination devices 2000, based on the discharge lamp information and transmitted from the remote control state 500. The user's command generates discharge lamp control information that controls the lighting of the discharge lamp 21〇. Then, the controller 3 传送 传送 transmits the discharge lamp control information to the discharge lamp lighting device 1 〇 〇 to control the lighting of each of the discharge lamps 21 。. 2 is a functional configuration diagram of the lighting device 200 in the first embodiment. The illuminating device 200 includes a discharge lamp lighting device 1A, a discharge lamp 210, a discharge lamp measuring device 280, and an in-light measuring device 281. Further, the illuminating device 200 has an external illuminator measuring device 282, an illuminance sensor 283, and an occupant ion sensor 284. The discharge lamp lighting device 100 includes an inverter circuit 11 〇, a microcomputer 120, a lighting device interface circuit 130, and a lighting device internal measuring device 180, and memorizes the discharge lamp information and the discharge lamp control information about the discharge lamp 21 0, Control the lighting of the discharge lamp. The inverter circuit 110 rectifies the AC voltage obtained from the power source 400 into a chopper 2112-8700-PF; Ahddub 6 200803627 Voltage 'boosts and smoothes the chopping voltage, and then smoothes the smoothed chopping voltage to m To turn on the discharge lamp 21 。. The lighting device internal measuring device 18 measures the voltage, current, and power consumption of the discharge lamp lighting device 100, and the temperature and humidity meter for measuring the temperature and humidity in the discharge lamp lighting device 100. The discharge lamp measuring device 208 is a circuit meter for measuring the voltage, current, and electric power applied to the discharge lamp 210, and a thermometer and hygrometer for measuring the temperature and humidity in the discharge lamp lighting device 1. The in-lighting device measuring device 281 is a temperature and humidity meter for measuring the temperature and humidity in the lighting device 200, and the outside device for measuring the outside of the lighting device is a temperature and humidity meter for measuring the temperature and humidity outside the lighting device 200. The lighting device internal measuring device 180, the discharge lamp measuring device 280, and the illumination device internal measuring device 281 perform measurement periodically or upon receiving a command from the microcomputer 110, and output the measured value to the microcomputer 110. In the lighting device measurement device 180, the discharge lamp measuring device 280, and the illumination device, an example of a measuring device for measuring the physical quantity of the discharge lamp 21 , is used, but voltage, current, power consumption, temperature, and Physical quantity other than humidity. The microcomputer 120 transmits the discharge lamp information including the measured values obtained from the lighting device inner measuring device 18 〇, the discharge lamp measuring device 280, and the illuminating device internal measuring device 281 to the controller 300 based on the discharge received from the controller 300. The lamp control information 'controls the inverter circuit 11 〇 to turn the discharge lamp 2 1 〇. Controller 300 can also be disposed within lighting device 200. The lighting device interface circuit 13 0 transmits and receives information between the microcomputer 1 2 〇 and the controller 300. Illumination Sensing 2 8 3 System Lighting Equipment 2 0 0 Locations Set 2112-8700-PF; Ahddub 7 200803627 • Inter-illumination. The illuminance sensor 283 is, for example, a photo sensor including a photodiode, a current-voltage conversion device, and an amplifying device to measure the actual illuminance. The human perception sensor 284 detects whether or not a person is present at the venue where the illumination device 2 is set. The human perception sensor 284 is, for example, a pyroelectric sensor (thermal sensor) and a light passing sensor' to measure the amount of infrared light and the amount of light to determine the presence or absence of a person based on changes in the infrared line and light. The personal perception sensor 284 outputs the presence or absence of a person as a state of the human sensor. Hereinafter, the state of the human perception sensor is taken as the detection result of the human perception sensor 284. The illuminance sensor 283 and the personal sensor 284 are measured periodically or upon receiving a command from the microcomputer 120, and the measured value and the detected result are output to the microcomputer 120. Further, the squadron 12 0 includes a lighting device transmission/reception unit 121, a lighting device information operation unit 122, a lighting control unit 123, and a lighting device storage unit 129. The lighting device transmission/reception unit 121 including the request receiving unit, the discharge lamp information transmitting unit, and the control information receiving unit receives the information request data requesting the discharge lamp information from the controller 300 via the lighting device interface circuit 13〇. Further, the lighting station transmitting/receiving unit 121 transmits the discharge lamp element to the controller 3 做 做 as the information requester via the lighting device interface circuit 13 。. Further, the lighting device transmission receiving unit 121 receives the discharge lamp control information from the controller 3A via the lighting device interface circuit 13A. The lighting device information operation unit 122 (discharge lamp information acquisition unit) acquires the discharge lamp information from the lighting device storage unit j29 when the lighting device transmission/reception unit 121 receives the information request data. Further, the lighting device information operation unit 122 stores the discharge lamp control information received by the lighting administration transmitting and receiving unit 121 in the lighting device storage unit 129. Further, the lighting device information operation unit 122 activates the lighting periodically or upon receiving a command from the control II 300 (or the user's life 2112-87〇〇-PF; Ahddub 8 200803627) from the remote controller 5 (10). The in-device measuring device 180, the discharge lamp measuring device 28, the in-lighting device measuring device 281, the illumination device external measuring device 282, the illuminance sensor 283, and the human body sensing sensor 284, the measured value and the detection result, and the year The moonlight and the engraving are together as the discharge lamp information, and are stored in the lighting device memory unit I 29 ° and the 'lighting device information operation unit 122 is based on the lighting device inside the measuring device 180, the discharge lamp measuring device 280, and the illumination. The measured value of the in-device measuring device 281, the external measuring device of the lighting device 2 2, the illuminance sensor 2 8 3 and the human sensor 24 8 4 and the detection result will indicate whether the abnormality of the discharge lamp 21 有 is present. The abnormal state, the fault state indicating the presence or absence of the failure of the discharge lamp lighting device 1 (), the error information indicating the abnormality of the discharge lamp 210, and the failure of the discharge lamp lighting device 100 are used as the discharge lamp information, and are memorized. In the lighting device memory unit 129For example, the lighting device information operation unit 22 is a voltage that is hung on a power element such as a transistor or an FET inside the discharge lamp lighting device 100, and the voltage measured by the measuring device 180 in the lighting device is a critical value or more. When the failure state is set to "fault" and the error information is set to "overvoltage". The lighting control unit 123 is based on the discharge lamp control information stored in the lighting device storage unit 129 as the memory device. A lighting control signal for controlling the inverter circuit II 产生 is generated and outputted so that the inverter circuit 110 controls the lighting of the discharge lamp. Further, the lighting control unit 123 performs the discharge lamp 21 controlled by the inverter circuit 11A. The dimming rate is used as the discharge lamp information, and is stored in the lighting device storage unit 129. The one-light device storage unit 129 identifies the discharge lamp identification information of the discharge lamp 21A, and discharges through the measuring device in the lighting device. The lamp measuring device 28, the measuring device 281 in the illumination device, and the measurement value (discharge lamp measurement information) measured by the measuring device 282 outside the illumination device, and the state of the discharge lamp indicating the state of the discharge lamp 21 做 are discharged. Information and memory. In addition, the lighting device memory unit j 29 9 2112-8700~PF; Ahddub 200803627 memory discharge lamp control information. Fig. 3 is a functional configuration diagram of the controller 3 in the embodiment! The controller interface circuit 31A, the controller information operation unit 320, and the controller memory unit 39 are included. The controller interface circuit 31, which is composed of the request transmission unit, the discharge lamp information receiving unit, and the control information transmission unit, is required to discharge. The information request information of the lamp information is transmitted to the discharge lamp lighting device 1. Further, the controller interface circuit 31 receives the discharge lamp information from the discharge lamp lighting device 100. That is, the controller interface circuit 31 0 will discharge the lamp control information. The device is transmitted to the discharge lamp lighting device 1 (10). The controller information operation unit 32 having the control information generating unit stores the discharge lamp information received by the controller interface circuit 31G in the controller memory unit 39. Further, the controller information operation unit 32G Based on the = lamp information stored in the controller memory unit 39, the discharge lamp control information is generated, and the generated discharge lamp control is controlled. The controller information operation unit 3 transmits the generated discharge lamp control information to the discharge lamp lighting device 1 via the controller interface circuit 31. The controller memory unit 390 stores the discharge lamp information and Discharge lamp control information # °, port diagram 4 is a diagram showing an example of the hardware resources of the microcomputer 12〇 and the controller 3〇〇 in the embodiment i. In Fig. 4, the 'microcomputer 1 2 〇 and the controller 3 0 0 includes a cpu 911 that executes a program. The CPU 911 is connected to the R 〇 M 913 as a non-volatile memory, the RAM 914 as a volatile memory, and the clock 931 via the bus 912 to control the hard Body component. The clock 931 is used to acquire the date, time, and time, and to periodically check the information acquisition time, the lighting time of the cumulative discharge lamp 210, and the like. Fig. 5 is a flow chart showing the control method 2112-87〇〇-PF; Ahddub 10 200803627 of the illumination control system 101 in the first embodiment. The control method of the illumination control system 1 in the embodiment 1 will be described below based on Fig. 5 . The lighting device transmission/reception unit 121, the lighting device information operation unit 1 22, and the lighting control unit 123 of the microcomputer 120, and the controller information operation unit 321 of the controller 300 execute the following processing via the CPU 911. <S101: Request generation processing> First, the controller information operation unit 308 generates a required discharge lamp when the controller interface circuit 31 〇k remotely receives a user's command for 500 or at regular intervals. Information request information for information. <S102: Request Transfer Processing> Next, the controller interface circuit 310 transmits the information request data generated by the controller information operation unit 3 2 to the specific lighting device 2〇〇. <S103: Request reception processing> Next, the lighting device lighting device 1 of the discharge device 200 includes a lighting device transmission/reception unit 1 21 via the lighting device interface circuit i3〇 from the controller 3 0 0 Receive information request information. <S104: Discharge lamp information acquisition processing> When the lighting device transmission/reception unit 121 receives the information request data, the lighting device information operation unit 122 acquires the discharge lamp information from the lighting device storage unit 129. The discharge lamp information includes discharge lamp identification information, discharge lamp measurement information, and discharge lamp status information. The discharge lamp identification information identifies the MAC (Media Access Control) address of the discharge lamp 21A one by one, the group number recognized for each arbitrary group, and the like. "2112-8700-PF; Ahddub 11 200803627 The discharge lamp measurement information is measured by the measuring device with respect to the physical quantity of the discharge lamp 210, and the voltage of the discharge lamp lighting device 100 measured by the measuring device ι8〇 in the lighting device, Current, power consumption, temperature and humidity, voltage, current, power consumption, temperature and humidity of the discharge lamp 210 measured by the discharge lamp measuring device 280 'temperature and humidity in the lighting device 200 measured by the measuring device 281 in the lighting device' and illumination The temperature and humidity outside the lighting device 200 measured by the external measuring device 282. The discharge lamp state information indicates an abnormal state of the abnormality of the discharge lamp 21 〇, a failure state indicating the presence or absence of a failure of the discharge lamp lighting device 1〇0, an abnormality indicating the discharge lamp 210, and a discharge lamp lighting device 〇〇 The error information of the content of the fault, the lamp integration time indicating the cumulative time of the discharge lamp 21 〇lighting, the inverter integration time indicating the accumulation time of the inverter circuit 11 〇 operation, and the like. <S105: Discharge lamp information transmission processing> Next, the lighting device transmission/reception unit 121 transmits the discharge lamp information to the controller 3 via the lighting device interface circuit 130. <S 1 0 6 : Discharge lamp information reception processing> Next, the controller interface circuit 31 receives the discharge lamp information from the discharge lamp lighting device 丨〇 . <S 1 07 : Control information generation processing > When the controller interface circuit 31 receives the discharge lamp information, the controller information operation unit 320 memorizes the discharge lamp information in the controller memory unit 39, and the controller information operation unit The discharge lamp control information is generated based on the discharge lamp information: for example, the discharge memory control information is stored in the controller memory unit 390 in association with the discharge lamp identification information such as the MAC address and the group number, and the controller information operation unit 320 is stored. The discharge lamp control information corresponding to the discharge lamp identification information included in the discharge lamp minus § fi is obtained from the controller memory unit 39. 2112-8700-PF; Ahddub 12 200803627 Further, for example, the discharge lamp 210 has a characteristic that the illuminance is lowered when the ambient temperature is low, and the illumination device 200 is included in the discharge lamp lighting device 1 included in the discharge lamp control information. When the temperature of the inside and outside and the discharge lamp 210 is lower than the critical value, the controller information operation unit 32 sets the dimming rate of a specific value or more as the discharge lamp control information. Further, for example, the controller memory unit 390 is associated with the discharge state information of the discharge lamp 21 异常, the failure state of the discharge lamp lighting device 100, and the error information of the discharge lamp lighting device 100, and the memory discharge. The lamp control information, the controller information operation unit 3 2 receives the discharge lamp control information corresponding to the state information of the discharge lamp included in the discharge lamp information from the controller memory unit 3 9 . Detailed discharge lamp control information will be additionally described with reference to Figs. 6, 7, 8, and 9. <S 108: Control information transmission processing> The controller interface circuit 310 transmits the discharge lamp control information generated by the controller information operation unit 3 2 to the discharge lamp lighting device 1 〇. <S 10 9 : Control information receiving process > The person-lighting device transmission receiving unit 121 receives the discharge lamp control information from the controller 300 via the lighting device interface circuit 130. <S110··Lighting Control Process> When the lighting device transmission/reception unit 121 receives the discharge lamp control information, the lighting device information operation unit 12 2 stores the discharge lamp control information in the lighting device memory unit 129. The lighting control unit 123 obtains the discharge lamp control information from the lighting device storage unit ία, and generates a lighting control signal for controlling the inverter circuit i i 基于 based on the discharge lamp control information. Then, the lighting control unit 123 outputs a lighting control signal to the inverter circuit 11A, and the inverter circuit 11〇 supplies the alternating current 2112-8700-PF and the Ahddub 13 200803627 to the discharge lamp 21 0 according to the lighting control signal. The discharge lamp 21 0 is turned on. For example, the lighting control unit 123 is based on the control of the discharge lamp. The ambient light rate generates a lighting control signal and outputs it to the inverter circuit 11 〇. At this time, the lighting control unit 23 supplies an alternating current voltage having a frequency corresponding to the magnitude of the dimming rate from the inverter circuit 110 to the discharge lamp 21A to control the lighting of the discharge lamp 21A. Second, explain the information about the discharge lamp control. In the discharge lamp control information, the dimming rate information, the upper dimming rate, the lower dimming rate or the dimming rate dimming rate information is set, and the illumination information of the illuminance, the initial illuminance, the initial illuminance correction or the dimming curve is set. , fade time or the change of the brightness of the person's perceived gradual change time, the hold information of the brightness of the hold time or the perceived delay time of the person, the sensitivity of the illuminance sensor, the illuminance, the change amount of the illuminance or the illuminance of the illuminance notification interval Sensor information, reverse: information when the device is operating, the alarm is 〇N/〇FF state or the priority control state is abnormal, and there are schedule data, color temperature values, and so on. Further, each of the discharge lamp control information is used as the 煜 parameter set for the individual discharge lamps and the group dimming data set for each group, and is stored in the controller memory unit 390. In this way, according to the individual discharge lamp information, the controller 3 generates a discharge lamp, which can simplify the configuration of the illumination device 2 (10) because of consistent management. For example, the upgrade of the lighting system can be handled only by the controller 3, and the standby of the entire system can also be satisfied only by the controller 3. Fig. 7 Fig. 8 and Fig. 9 are conceptual diagrams showing the control information of the discharge lamp in the first embodiment. The gradation time, the set dimming rate, and the set illuminance will be described with reference to FIG. 2112-87〇〇-pF; Ahddub 200803627 In Fig. 6, the horizontal axis represents time and the vertical axis represents dimming rate or illuminance of the discharge lamp 210. The dimming rate is set as the dimming rate of the discharge lamp 21 that is lit when the power of the illumination device 200 is turned ON. The illuminance is set as the illuminance of the discharge lamp 210 that is turned on when the power of the lighting device 200 becomes 0N. The gradation time indicates that the dimming rate (or illuminance) of the discharge lamp 210 is raised from 〇 to the set dimming rate 1 (or the illuminance 1 is set) when the power source of the illuminating device 200 becomes 0N, and the power source of the illuminating device 200 becomes When 〇FF, the dimming rate (or illuminance) of the discharge lamp 210 is lowered from the set dimming rate 或 (or the set illuminance 丨) to the time of 〇. However, the gradation time may also indicate that the dimming rate (set dimming rate 丨) or illuminance (...., degree 1) of the discharge lamp 210 is raised to the setting dimming when the power source of the lighting device 2 turns OFF. The rate 2 or the time when the illuminance 2 is set is either down to the time when the dimming rate is set to 3 or the illuminance is set to 3. For example, the gradation time may also indicate a time when the dimming rate of the discharge lamp 210 is 70% (set dimming rate 丨) is increased to 100% (set dimming rate 2) or is decreased to 3〇% (setting the dimming rate 3) ) = time ' can also indicate the time when the illuminance of the discharge lamp 210 is increased by 700 lux [lx] (set illuminance 1) to 1 000 lux (set illuminance 2) or to 300 lux (set illuminance 3). Also, the gradation time can also be used to express the rate of change. In other words, the gradation time can also be used in every "less: rate [% / sec] or illuminance [IX / sec], the dimming rate changes by 1% ° ° /%], the illuminance changes i lux spent the second The number [sec/1χ], the ^, /5, and r in the table J ^ indicate the rate of change of the gradation time. ° can be a complex ', for example, the gradation time 图 in Fig. 6 and the gradual change gate::: the same time (or rate of change). Also, the beginning of the gradation time: is not ΟΝ / OFF, for example, can be time column # + such as ^ power supply Τ time table does not. For example, the lighting control unit (2) at u 2112-8700-PF; Ahddub 15 200803627 "the dimming rate of the discharge lamp 210 can be changed from 25% to 70% between predetermined gradation times. ° According to Figure 7, the hold time, the person-aware gradual delay time, and the dimming rate when not in use are explained. In the case of "S7", the axis represents the time, and the vertical axis represents the dimming of the discharge lamp 21 〇. The sensation of the gradation time is the adjustment of the discharge lamp 21G when the person perception sensor 284 detects the person and checks the state of the lamp 21G. The light rate rises from G to the set dimming time and the unrecognized person in the human perception sensor 284 and the state is in the 捭眸 + + + & μ 攸 欢 欢 欢 ; ; ; ; ; ; ; ; ; ; ; The dimming rate is from the set dimming rate: the time to the dimming rate in the absence. The gradual change time can be known and the latter can be done as A h... The body feeling of Du Zi is in the area... The body is not aware of the gradual change time. Similarly, the sensation sensor 284 in the gradual change rate table described in the change rate table i can be detected when the person is stationary because the person detecting the line or the like detects the person's beneficial heat (4). The retention time is based on the fact that the human salt is expressed at the time of the characteristics of the person..., the heart 284, and the dimming rate of the body-sensing sensor 284 becomes the discharge lamp 210 is maintained at the set dimming rate. After the time, the personal perception delay time will still be guessed. The characteristics of the 284 are the same as the time of staying in the door. After considering the perception of the human body, the discharge lamp 21 is still expressed in the economical personal perception of the gradual change of the time: ::::: The time of dimming in the absence of the degree. In Fig. 8, the "illumination level" is indicated, and the vertical drawing system indicates "bright 2112-8700~PF; Ahddub 200803627", which has a human (eye) feeling when it is desired to emit a "target brightness" to a person. The light, the brightness is different from the brightness of the light emitted by the discharge lamp 210. The dimming curve shows the characteristics of the brightness perceived by the person (eye). ^ When the fading curve has the characteristics shown in Fig. 8, in order to achieve the "visual degree", the discharge lamp 21G is not required to emit the "target brightness" level of "5", but is dimmed. The illuminance "7" indicating the brightness of the "target brightness" turns on the discharge lamp 21 0. The initial illuminance correction will be described based on Fig. 9 . In Fig. 9, the horizontal axis represents the cumulative lighting time of the discharge lamp 21A, and the vertical axis represents the dimming rate of the discharge lamp 210. The discharge lamp 21G has a characteristic that the illuminance decreases together with the "accumulation point k time" even with the same dimming rate. Therefore, in order to maintain a certain illuminance from the start of use of the discharge lamp 21 (the cumulative lighting time: 〇 hour) to the end of the life (for example, the cumulative lighting time · 12,000 hours), the "dimming rate" setting to be used will be set. It is lower (for example, 70%), and the "dimming rate" at the end of life is set to be higher (for example, 100%). Then, the lighting control unit 123 changes the "dimming rate" of the discharge lamp 21 随着 based on the "characteristic of the characteristic of the initial illuminance correction" shown in Fig. 9 as the "accumulated lighting time" is red. As a result, the lighting control unit i 23 lights the discharge lamp 21 with a certain illuminance, and at the same time saves the power consumption of the discharge lamp 2i. The amount of electric power that can be saved is equivalent to the amount of electric power corresponding to the halftone portion of Fig. 9 (the portion where the characteristic curve of the initial illuminance correction and the line of the dimming rate is 100%). It is also indicated that the initial illuminance is the illuminance when the discharge lamp 21 is not subjected to the initial illuminance correction and the new lamp is turned on at a dimming rate of 100%. Point: k control unit 12 3 controls the dimming rate of the discharge lamp 21 0 according to the initial illuminance, and uses the dimming rate of the discharge lamp 21 做 as the initial illumination 2112-8700-PF; Ahddub 17 200803627 The positive state is stored in the lighting device storage unit 129. The other discharge lamp control information will be described below. The upper limit dimming rate and the lower limit dimming rate are the upper limit value and the lower limit value of the dimming rate of the discharge lamp 210 such as the dimming rate and the dimming rate when not in use. The illuminance sensor sensitivity is the sensitivity of the illuminance sensor 283. The illuminance notification change amount indicates a condition for transmitting the illuminance of the illumination device 200 from the discharge lamp lighting device 1 to the controller 3, and the illuminance detected by the illuminance sensor 283 is in a fixed time or for the initial illumination or The discharge lamp lighting device 1 传送 transmits the illuminance of the illumination device 200 to the controller 3 对于 when the set illuminance change is greater than the illuminance notification change amount. The illuminance notification interval is a condition for transmitting the sensation of the illumination unaware 200 to the controller 3 放电 from the discharge lamp lighting device 1 ,, and the discharge lamp lighting device 100 illuminates the illuminating device 2 at regular intervals. The illuminance of 〇〇 is transmitted to the condition of controller 3. The inverter operation mode indicates a method of lighting the discharge lamp 210 again after resetting the discharge lamp lighting device 1 〇. For example, the inverter operation mode is a discharge lamp lighting device that is set based on the same discharge lamp control information as before resetting or resetting at the factory after resetting the discharge lamp lighting device 100. The discharge lamp controls the information and turns the discharge lamp 21 on. The alarm ΟΝ/OFF state indicates that the notification alarm sounds (ON state) or does not sound when the discharge lamp lighting device detects the abnormal state of the discharge lamp 210 or the failure state of the discharge lamp lighting device 1〇〇. (off state). The priority control state is a control method when the discharge lamp lighting device 100 detects the abnormal state of the discharge lamp 210 or the failure state of the discharge lamp lighting device 1〇〇. For example, the priority control state indicates that the discharge lamp 21 〇 2112-8700-PF is turned on when the abnormal state of the discharge lamp 21 或 or the failure state of the discharge lamp lighting device 100 is detected; Ahddub 18 200803627 turns off or flashes. The custodial table data is associated with the year, month, day, and time to indicate control information such as the dimming rate and the gradation time of the discharge lamp 210. The lighting control unit controls the inverting circuit ιι〇 with the schedule indicated by the schedule information and turns on the discharge lamp 210. The color λ degree value indicates the color temperature of the light emitted by the discharge lamp 21. The color temperature indicates the relative intensity of blue-violet light and red light. When the color temperature is high, it is close to blue. When the color temperature is low, it is close to red. The unit of color temperature is K (Keivin). The discharge lamp lighting device 100 of the above-described first embodiment can also transmit the discharge lamp asset to the user terminal in addition to the controller 300. Discharge lamp lighting device i 〇 〇 By transmitting the information of the discharge lamp to the I terminal, the user at the cymbal can recognize that the discharge lamp lighting device has reached the end of its life. Further, since the discharge lamp information transmitted to the outside of the controller 300 or the like by the discharge lamp lighting device 100 includes various assets relating to the discharge lamp as described above, for example, the upper controller 300 lights the discharge lamp based on the discharge lamp information. The device 100 performs energy saving control, displays a dimming trend graph, and can monitor the energy saving state. The dimming trend graph depicts the lighting state (or power consumption) of the lamp, and the dimming trend graph is displayed on an external monitor or the like as shown in FIG. 1A, and is used to calculate the day or unit based on the drawn history. The monthly power consumption of the unit. For example, according to the first embodiment, when it is determined that the discharge lamp information indicates an error message such as the life of the discharge lamp or the failure of the discharge lamp lighting device, the safety stop command and the notification command can be executed on the discharge lamp lighting device 100. . Embodiment 2 FIG. 11 is a configuration diagram of a lighting control system of the second embodiment. As shown in Fig. 11, the controller 300 can transmit the discharge lamp information and the discharge lamp control information between the respective illumination devices 200 without being wired. 2112-87〇〇-PF; Ahddub 19 200803627 By using the wireless interface, since the wiring of the lighting device 200 only needs to be wired to the conventional power line, the structure is relatively simple. In other words, the wiring of the controller 300 and the lighting device 2 is not required in a wireless manner, and the wiring cost can be reduced. When the building equipment is updated and the lighting control system is introduced, it is also possible to introduce an energy-saving system equivalent to the latest system at a low cost. Other configurations, processes, and the like are the same as those of the illumination control system 1 of the first embodiment. Embodiment 3 FIG. 12 is a system configuration diagram of a lighting control system j 实施 in Embodiment 3. As shown in FIG. 12, the lighting device 2 can communicate both (e.g., in use with control 300) and wirelessly (e.g., used in communication with the remote control). . Wired is used in places where radio waves cannot reach. If wireless is used in the remote controller 5 (remote controller) or the like, the operation and setting can be performed without connecting the communication lines individually. Further, by using both wired and wireless communication, the availability of the control system 101 is improved. Other configurations, processes, and the like are the same as those of the illumination control system 101 of the embodiment. (Embodiment 4) In Embodiment 4, "the form in which the controller 300 and the lighting device 200 are connected to the remote controller 5" or the user terminal 51" described in the respective embodiments will be described in detail. "" Fig. 13 is a configuration diagram of the control management system 1〇2 in the fourth embodiment. As shown in FIG. U, the control management system (10) of Embodiment 4 includes a blood controller 30 or a lighting device 2 connected to the user terminal 51, and a plurality of: the lighting control system including the user terminal 510 is called Table 2 Control management device 2112-8700-PF; Ahddub 20 200803627 520. The lighting control system 101 is described in the respective embodiments, and the power lines connected to the power supply 400 are omitted. The control management device 520 controls each of the lighting control systems 101. For example, the control management device 520 acquires the discharge lamp information received by each controller 300 from each illumination device 200 or the respective controllers 300 from each of the illumination devices 200 from each of the illumination devices 200 from each illumination device 200 Discharge lamp control information set on device 2〇〇. Further, for example, the control management device 52A acquires the discharge lamp information from each of the illumination devices 200 in the same manner as the controller 3A. Further, for example, the control panel device 520 acquires the set discharge lamp control information from each of the illumination devices 2A. Further, for example, the control management device 52A associates with the measurement value of the discharge lamp or the state of the discharge lamp indicated by the discharge lamp information, and memorizes the discharge lamp control indicating how to control the discharge lamp, similarly to the controller 3A. Information, and discharge lamp control information corresponding to the discharge lamp information obtained from the controller 300 or the illumination device 2 to transmit the illumination device 2〇0. Further, for example, the control management I is set to transfer the discharge lamp control information designated by the operator input from an input device such as a keyboard or a mouse, and set the discharge lamp control information designated by the operator to the controller 300 and the illumination. Device 200. The user terminal 510 or the remote controller 500 obtains the discharge lamp information and the discharge lamp control information from the controller 3〇〇 and the illumination device 200 in the respectively connected illumination control system 101, similarly to the control management device 52A. And discharge lamp control information is set for the controller 300 and the lighting device 200. Fig. 14 is a diagram showing an example of hardware resources of the control management device 520, the user terminal 510, and the remote controller 500 in the fourth embodiment. In FIG. 14, the control management device 520, the user terminal 510, and the remote controller 500 include a CPU 911, a ROM 913, a RAM 914, a display device 90j, 2112-8700-PF, an Ahddub 21 200803627 input device 902, a communication device 915, and The disk device 92 is closed. The disk device 920 is replaced with a RAM and a flash memory semiconductor memory on the remote controller 5''. Further, the CPU 911 executes a program stored in the UI 921 and the program group 923, and controls the R〇M 91 3, the RAM 914, the display device 901, the input device 902, and the communication device 915 that are connected to the CPU 911 via the bus bar. Disk device 902. Various information used in the control management device $ 2 〇, the user terminal 510, or the remote controller 500 is memorized on the slot group 9 2 4 . For example, the calculation result, the determination result, and the transmitted and received data are memorized in the file group 924. Further, the discharge lamp information and the discharge lamp control information are stored in an example of the information of the file group 9 2 4 . An example of a memory device or a memory device such as a ROM 913, a RAM 914, a disk device 920, and other semiconductor δ memories. Fig. 15 is a view showing the functional configuration of the control management device 52A, the user terminal 510, and the remote controller 500 in the fourth embodiment. The control management device 520, the user terminal 51, and the remote controller 5 respectively include the use of the communication device 515 to transmit and receive the discharge lamp information and the discharge lamp control information in a wired or wireless manner with the controller and the illumination device 200. The communication unit (the control management communication unit 52, the user terminal communication unit 5, and the remote control communication unit 5〇1). The communication unit also has a function equivalent to the controller interface circuit 31 0 of the controller 3A. The sputum spurt device 52, the user terminal 510, and the remote controller 5 include an output person (control f output person, user terminal input/output 513, remote control input/output 503), The keyboard, the mouse, the numeric keys, the cross key, the input device, etc. input the operator's designation regarding the acquisition of the discharge lamp information and the setting of the discharge lamp control information for the controller. Further, the discharge lamp information 2112-8700-PF/Ahddub 22 200803627 received by the communication unit and the discharge k control lean and the input information designated by the operator input from the input device 9〇2 are displayed on the display device 9 at the φ output. 〇j. Further, the control management device 520, the user terminal 510, and the remote controller 5 each include a control unit (the control management control unit 522, the user terminal control unit 512, and the remote controller control unit 5〇2), and receives the information based on the communication unit. The discharge lamp information and the input information specified by the operator input and output are used to generate a discharge lamp to control the poor news. The control unit also has a function equivalent to the controller information operation unit 320 of the controller 3A. The 'control' device 520, the user terminal 510, and the remote controller 500 respectively include a storage unit (the control management storage unit 529, the user terminal storage unit 519, and the remote controller storage unit 5〇9), and discharges received by the communication unit. The lamp information and the discharge lamp control information and the discharge lamp control information generated by the control unit and the input information specified by the operator input and output are memorized in the memory device. The memory portion corresponds to the controller memory portion 390 of the controller 300. Fig. 16 is a diagram showing an example of discharge lamp control information which the controller 300 of the fourth embodiment has. For example, the controller 300 stores the discharge lamp control information shown in FIG. 16 in the controller memory unit 390, and sets the discharge lamp control information corresponding to the discharge lamp information received from each illumination device 2 to each. Lighting equipment 2 〇〇. In Fig. 16, the "discharge lamp control information" indicates control contents associated with the discharge lamp identification information included in the discharge lamp information and the discharge lamp status information included in the discharge lamp information. The discharge lamp control information can be associated with the discharge lamp measurement information contained in the discharge lamp information to indicate the control content. The discharge lamp information obtained from the illumination device 200 includes the discharge lamp identification information for identifying the discharge lamp, the discharge lamp measurement information indicating various measured values of the discharge lamp measured in the illumination device 2000, and the measurement information based on the discharge lamp. The discharge lamp state information of the discharge lamp state calculated and determined by 2112-8700-PF; Ahddub 23 200803627. For example, in the controller 300, the controller information operation unit 320, in response to the discharge lamp information received from the illumination device 200, the discharge lamp identification information indicates that the discharge lamp system uses the lamp of the "light A" type and is included in the discharge lamp. The lamp integration time of the status information is "6000 hours (light life time) or more), and when the "discharge lamp" is activated, the discharge lamp control information is generated, and is transmitted to the controller interface circuit 31 0 to The lighting device 200. In the lighting device 200 that receives the discharge lamp control information, the lighting control unit 123 causes the discharge lamp 210 to flash. Further, for example, the controller information operation unit 320 indicates the discharge lamp in the discharge lamp identification information. The lamp of the "light C" type is used, and the lamp integration time included in the state information of the discharge lamp is 1, 2000 hours or more, and the discharge lamp control information indicating that the discharge lamp is "off" is generated. And transmitted to the lighting device 2 via the controller interface circuit 31 0 . In the illumination device 200 that receives the discharge lamp control information, the lighting control unit 1 23 turns off the discharge lamp 21 0. Of course, it is not limited to 6000, 8500, and 1 2000 hours, and the time for matching the lamp life can also be set. Further, for example, when the inverter integration time included in the discharge lamp state information is 40,000 hours or more, the controller information operation unit 32 generates discharge lamp control information indicating that the LED is lighting, and is controlled by the controller. The interface circuit 310 is transmitted to the lighting device 2〇〇. In the illumination device 200 that receives the discharge lamp control information, the lighting control unit 123 turns on the LED (not shown). The feature of the device 2 0 知 includes a lamp/light source such as led for display of status in addition to the discharge lamp 21 。. The LED of the lighting device 2 informs the user of the state of the lighting device 200 by lighting, turning off the lights, flashing lights, and the like. Since it is inconvenient to turn off the lights, after the administrator recognizes the life, 2112-8700-PF; Ahddub 24 200803627 is best to cancel the flash or turn off the lights. Further, for example, when the error information included in the discharge lamp state information indicates that there is no light, and the light is not lit, the controller information operation unit 320 generates a display of "speaker, output, and warning sound A", respectively. The discharge lamp control information of the "warning tone B" is output to the lighting device 200 via the controller interface circuit 31. In the illumination device 200 that receives the discharge lamp control information, the microcomputer 120 outputs "Acknowledgment Sound A" or "Warning Sound B" from a speaker (not shown). The lighting device 2 is characterized by a sound unit including a speaker or the like for a state warning. The speaker will notify the user of the fault generated on the lighting device 2 via a warning tone or an audible message. The warning sound or sound information may be pre-recorded in the lighting device memory section or may be included in the discharge lamp control information transmitted from the controller 3〇〇. Further, the controller interface circuit 3 of the controller 300 transmits the discharge lamp information received from each of the illumination devices 200 and the discharge lamp control information generated by the controller information operation unit 32 to the control management device. The user terminal 51 is connected to the remote controller 500. In the control management device 520, the user terminal 51, and the remote controller 5, k is passed. The controller 300 receives the discharge lamp information and the discharge lamp control information, and memorizes the received discharge lamp information and the discharge lamp control information in the memory unit. Further, the input/output unit displays the received discharge lamp information and discharge lamp control information on the display device 901. The controller and the user (hereinafter referred to as the operator) can control the controller 3 or the lighting device 200 from the control management device 5 or the user terminal 510 or the remote controller 5, for example, the operator is based on the control management device 52〇 or user terminal or L抆500 display device 9 〇丨 display of discharge lamp information and 2112-870〇-PF; Ahddub 25 200803627 discharge lamp control information, input from input device 902 set to control The discharge lamp control information of the device 300 or the illumination device 200 and the identification information of the controller 300 or the illumination device 200 that set the discharge lamp control information. The control management device 520 or the user terminal 510 or the input/output portion of the remote controller 500 inputs the identification information and the discharge lamp control information designated by the operator from the input device 902, and inputs the operator-specified identification information and the discharge lamp control information. Remember in the memory department. Further, the communication unit transmits the discharge lamp control information designated by the operator to the controller 3A or the illumination device 200 identified by the identification information designated by the operator. In the controller 300, the controller interface circuit 310 receives the discharge lamp control information designated by the operator, and memorizes the received discharge lamp control information designated by the operator in the controller memory unit 390. Thereafter, the controller information operation unit 320 of the controller 300 generates discharge lamp control information for each of the illumination devices 2000 based on the discharge lamp control information designated by the operator. Further, in the illumination device 200, the lighting device transmission/reception unit 21 receives the discharge lamp control information designated by the operator, and stores the received discharge lamp control information in the lighting device storage unit 129. Then, the lighting control unit 1 2 3 controls the lighting of the discharge lamp 21 基于 based on the discharge lamp control information designated by the operator. Further, the microcomputer 120 controls the LEDs and the speakers based on the discharge lamp control information designated by the operator. Further, the control management device 520, the user terminal 510, and the remote controller 50 0 may directly acquire the discharge lamp information from the illumination device 200 without via the controller 300. At this time, the control unit 52A, the user terminal 510, and the interface # of the remote controller 5 are the same as the controller interface circuit 310 of the controller 300, and the discharge lamp information is acquired from the illumination device 2000. 2112-8700-PF; Ahddub 26 200803627 The control corresponding to the state information of the discharge lamp is explained in Embodiment 4. A special case corresponds to the lamp integration time and the inverter integration time (life p). The sense of consumption and the point is not bright (abnormal, fault state) for control. For example, in the control system 1〇2, when the following conditions (a" and condition U2) are reached, or when the condition (a3) is reached, the following control (bl) to control (b4) are performed. control. Condition (a 1): Life time condition of the lamp (a2) • Life time condition of the inverter U3): The life time of detecting the presence or absence of the lamp or the non-lighting of the lamp by the inverter circuit is, for example, 6000 hours, 8500 hours 12 hours is set as the design value. The life time of the inverter is set to a design value of, for example, 40,000 hours. The presence or absence of the fox light determines whether the two filaments are connected. When the point of the lamp is not bright, it is detected that the two filaments are not illuminated by the luminescent material or the sealed gas of the lamp, and the lamp is abnormal or faulty. Control (bl): Turn off the discharge lamp and flash the lamp. Control (b2): Turns the LED on, off, and flashes. Control (b 3) • Outputting sound from the sound unit ^Control (b4): Displaying the conditions (al) to (a3) for the monitor that satisfies the external terminal or PC (personal computer). In other words, the control by the control management system 1〇2 is not only the control of the lamp such as the turn-off lamp and the flash lamp (discharge lamp lighting control), but also the lighting of the light source for notifying the operator via the = electric light, Use of 2112-8700-pF for the operation of turning off the lights, flashing lights, etc. (notifying the light source lighting control) or the operation of the sound source (sound output control) or the information output (display control) of the display device such as a monitor; Ahddub 27 200803627 Notice of the person. Further, in the fourth embodiment, the discharge lamp state information not only describes the warning, abnormality, or malfunction of the user's attention to the life of the discharge lamp, but also the manager of the system can monitor the discharge at a predetermined position. The failure of the lamp or the warning from the discharge lamp. For example, when a terminal connected to the external communication line is provided on the wall switch of the building, the user/manager can confirm the state of each lighting device 2 via the user terminal that connects the external communication line to the wall switch. Further, for example, when the construction centralized management control is performed, the user manager can confirm the state of the lighting device 200 in the centralized office by connecting the external communication line to the control management device of the centralized management room. Further, for example, the user/manager can confirm the state of each lighting device 2 within the communication range by using the remote controller of the two-way communication. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a system configuration diagram of a lighting control system 101 in the first embodiment. Fig. 2 is a functional configuration diagram of the lighting device 2A in the first embodiment. Fig. 3 is a view showing the functional configuration of the controller 3A in the first embodiment. Figure 4 shows an embodiment! A diagram of an example of the hardware resources of the microcomputer 12〇 and the controller 3(10). Fig. 5 is a flow chart showing the control method of the illumination control system 丨〇1 in the first embodiment. Fig. 6 is a conceptual diagram showing discharge lamp control information in the first embodiment. Fig. 7 is a conceptual diagram showing discharge lamp control information in the first embodiment. FIG. 8 is a conceptual diagram showing discharge lamp control information in Embodiment 1. Fig. 9 is a conceptual diagram showing discharge lamp control information in the first embodiment. 2112-8700-PF; Ahddub 28 200803627 FIG. 10 is a dimming trend diagram in Embodiment 1. Fig. 11 is a system configuration diagram of the illumination control system 101 in the second embodiment. Fig. 12 is a system configuration diagram of the illumination control system 101 in the third embodiment. Fig. 13 is a view showing the configuration of the control management system 〇2 in the fourth embodiment. Fig. 14 is a diagram showing an example of hardware resources of the control management device 52A, the user terminal 510, and the remote controller 5 〇 0 in the fourth embodiment. Fig. 15 is a view showing the functional configuration of the control management device 520, the user terminal 510, and the remote controller 5A in the fourth embodiment. Fig. 16 is a view showing an example of discharge lamp control information which the controller 300 in the fourth embodiment has. [Main component symbol description] 10 0~discharge lamp lighting device; 102~ control management system; 120~microcomputer; 12 3~lighting control unit; 129~lighting device memory; 200~lighting device; 21 0~discharge Light; 2 8 3 ~ illuminance sensor; 284 ~ human body sensor; 300 ~ controller; 390 ~ controller memory; 400 ~ power; 50 remote control communication; 503 ~ remote control input; 〇1~lighting control system; II 〇~inverting circuit; 121~lighting device transmitting and receiving unit; 122~lighting device information operation unit; 130~lighting device interface circuit; 180~lighting device inside measuring device; 280 ~ discharge lamp measuring device; 281 ~ lighting device inside the measuring device; 282 ~ lighting device outside measuring device; 310 ~ controller interface circuit; 3 2 0 ~ control of the poor operating department; 5 0 0 ~ remote control; 502 ~ remote control Device control unit; 509~remote memory unit; 2112-8700-PF; Ahddub 29 200803627 5 1 0~user terminal; 5 2 0~ control management device · 5 21~ control management memory; 5 2 2~ control management Control department; 529~ control management 911~CPU; 913~ROM; 915~communication device; 921~0S; 924~ file group; 511~user terminal communication unit; 512~user terminal control unit; 513~user terminal output input unit 519 ~ user terminal memory; 523 ~ control management wheel access. 912 ~ bus; 914 ~ RAM; 9 2 0 ~ disk device; 9 2 3 ~ program group; 931 ~ clock. 2112-8700-PF; Ahddub