200803621 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種通過無線網路、而由控制站 (control station )對多個子站(s〗ave stati〇n )的照明負載 進行遠端控制的照明控制裝置以及照明控制系統。 【先前技術】 先前,已知有一種有線方式的照明控制裝置,其是使 多個子機通過傳送線而以可通信的方式連接於一個母機, 並利用來自母機的控制以控制各子機(例如可參胛 獻1)〇 一、又 而且,例如,在辦公大樓及各種設施等中,採用 明控制裝置,其針對各樓層或各區域的每個照明區域= 置的照明器具的終端進行遠端控制。此照明控制裝置中叹 個控制站與多個子站是通過無線網路進行通信的,迷且以 自控制站的控制是用以控制各子站的照明器具。、’來 播線網路是使用包含通道(channel)及1〇等的無 路硪別號來構建的,通過使用該無線網路識別號,可: 屬於相同然線網路的控制站與子站進行通信。 —该然線網路的特徵在於,即便兩個無線網路使用 個無線頻率,只要無線網路識別號不同,雖然因载攻 互干k而產生通信速度降低的問題,但仍可以利用盔 網路進行通信。 無線 即田夕個無線網路彼此之間產生衝突時,例如卷a …頻率以及讀網路朗號相同時,可以通過變更無^ 200803621 路識別5虎而避免無線網路的衝突,所述無線網路識別號是 由控制站以及子站等無線控制裝置的無線網賴使用。無 線網路識職的設定,例如技過以下料來進行的,即, 在無線挂制I置内的基板等上設置用來變更無線網路識別 號的指撥關(dip switeh),並在相_無線網路内所使 用的無線控制裝置巾使該指撥開關為相同關關模式 (switch pattern)。在變更無線網路識別號時,首先對指撥 開關進行設定變更,以使要變更的減控職置的開關. 抵式王。卩相同°織,當所有無線控織置的設定變更完 成k將I個系統重置或再次接通電源,經過無線網路的 初始化;k而可以構建新的無線網路(例如可參照利文 獻2)。 而且’在這些照明控制裝置中,作為指定分別分配給 具有照明負載的終端的地址與照明負載的設置位置的方 法,有通過1個按钮依次選擇—個照明負載的方法,或者選 擇多個_貞載錢其範圍依次縮小的方 如可 參照專利文獻3)。 [專利文獻1]日本專娜開細―14鳩號公報 [專利文獻2]日本專利特表平11-5M829號公報 [專利文獻3]日本專利特開細—313183號公報 =在所細f之間細了有線方式的糾㈣ ^況下,只要可缝設傳送線,則可在 匕但是,由Ϊ必須配設將多個子機連接於二^ 線’因此在施工日才較費工去。 8 200803621 而且,當要改織 即,除了追加妒交照明控制裝置的結構時,有以下問題, 佈線工程。 的叹置工程以外,還必須進行大規模的 另一方面,卷t 制裝置的情況下田所有設備之間使用無線網路的照明控 場所的自由度护古無需進行佈線,而使得照明負載的設置 法到達的場戶^。但是,存在以下問題··例如在無線無 無線難以到達的,^障礙物等而導致照明負載無法設置在 而且,在你田 如所述先前技^無線網路的照明控制裝置的情況下,在 須在整個系絲術所示的無線網路識別號的變更方法中,必 内部基板^中對所有無線控制裝置一台一台地將配設在 後再i整個設定變更為相同的暖模式,最 ’、、、死重置或再次接通電源。因此存在以下問 題,即,變更益 n …、、、泉、、,罔路識別信息後直到構建出新的無線網 二較耗時間’且在此期間内無法控制照明負載。 【發明内容】 > θ本發明是針對上述課題而開發的, 因此本發明的第1 j題在於’削減控制站與照明負載的直接佈線,從而提高 =置的自由度。而且,本發明的第2課題在於,由控制站可 靠地對照明負載進行控制,此照明負載是設置在無線無法 至J達的場所或因障礙物等而導致無線難以到達的場所内。 並且’本發明的目的在於提供達成了所述多個課題的照明 控制裝置以及使用該照明控制裝置的照明控制系統。 本發明第1發明所述的照明控制裝置具備:控制站,通 9 200803621 過無線網路進行通信而用來控制昭 用了通信線的有線網路進行通信'、,、並利^終端,通過使 示來控制照明負載;以及子站,能夠利用控:站的控制指 網路使控制站與終端相互通信。"扪用热線網路及有線 1個或多個有線網路是利 的方式連接於無線網路。在有線網路上車個姑子站而以可通信 端,=上預先設定有設備固有的固有^有1個或多個終 具、偵測照明區域内的人㈣二:'、?、明負載的照明器 内的照度的照度傳感器、 照明負載,例如包含燈輕的牆壁開關等。 控制站,例如按照由對===, 期或時間段、由在窗邊有外光 ^日守間#又的生 所決定的時間表來控制照明負卜^線入射進來的照明環境等 控制數據轉換成符合線網路的控制指示或 終端相互通信。…、泉,,、罔路的形式’以此來使控制站與 以及母撼、置,、/、備·包含控制站的多個子機; 本發明^3= 用傳送線而進行連接的各子機。 W明所述:Γ斤述的照明控制裝置 的终端上預先^㈣制裂置,子站獲取連接於有線網路 預先杈疋的固有地址。並且’子站對獲取了固有 10 200803621 地址的終端分配無線網路側所使用的無線用地址。 所、十、ί發明第4發明所述的照明控制裝置如本發明第3發明 斤=照明控魏置,其通過利用能夠測定某區域的照度 1的知度傳感器,而對照明負載進行調光控制。 又 所、十、Ϊ發明第5發明所述的照明控制襄置如工本發明第3發明 =的照明控制裝置,其通過·能夠測㈣區域内人的 頁/热的人感傳感器,而對照明負載進行控制。 本發明第6發明所述的照明控制裝置具備:設定哭,μ 網路識別號;多個子站,通過使用特定的無“ ς 硪別旒的無線網路進行通信,且分別通過有線而以可通信 ,方式連接於至少-個終m控觀,在使用特定^ 热線網路識別號的無線網路中,利用屬於相同無線網路的 多個子站來控制照明負載,並且在接收到來自設定器的無 線網路識職的變更指示時,對屬於相同無線網路的財 子站發送要變更的無線網路識別號信息、而使無線網路識 ,號的設定變更之後,變更自身的無線網路識別號的& 定,並使用變更後的無線網路識別號來進行通信,以此, 來特,子站,並使所特定的子站加入變更後的無線網路。 热線網路識別號,包含用以指定無線網路的例如信道 或ID等。 ° 口又疋器’優選的是可進行搬運的類型。而且,設定哭 可以是能夠與控制站或子站進行無線通信的結構,也可以 是利用有線進行通信的結構。 200803621 • ^第7叙明所述的照明控制裝置的特徵在於具 ,:固有地址獲取部,從存儲有多個在終端上所設定的固 Η止的存儲没備中,獲取1個固有地址;設備通報部, 使利用所述ϋ有地址獲取部所獲取㈣有地址而識別的终 進行與其他終端不同的動作,從而將終端通報給操作 附加b息輸人部,從輸人設備向所述設備通報部所通 T終端’輸人操作員指定的附加信息、;以及附加信息設 ^ ’將所述附加信息輸人部所輪人的附加信息對鹿於固 有地址而存儲於存儲設備中,以此來料毅定附加信息。 ”本i明第8發0摘述的_控制裝置的特徵在於:具 =明器具作為終端,且設備通報部使安裝在照明器具^ 的妝明負載照明或熄滅。 ”本,明第9發明所述的照明控職置的特徵在於:旦 有^明②具作為終端,且設備通報部使安裝在照明哭且中 燈以與連接於其他照明器具的放電燈不同“度進 .本發明第10發_述的㈣控 備通報部使終端所具有的顯示用燈㈣或_ ^在於·。又 本發明第11發明所述的照明控制 加信息輸人較輸人雜信息料附加信息, 設定部將群組信息對應於固有地址而進行存儲。 心 本發明第12發_述的照明控制系制特徵在於.且 備H器’所述設定器具有:動作請求發送部,向多個ς 紅中η個終端發域其進行與其他終端不同的動作的動 12 200803621 作請求信號;附加信息存儲Α Λ 作員指定的附加信息、1:到 設定附加信息。 侑中的附加仏息、且對終端 本發明第13發明所述的照明控制系統的特徵在於.且 備設定器,所述設定器具有:群組信在於.具 備輸入將多個終端識別為i個群址: 對子站發送請求個別地識別終二= f求㈣;固有地址接收部,從子站接收多個 =地址並存儲到存儲設備中;固有地址選擇部,從存儲 在存儲設備中的多_有地址中—個—個地選擇固有地 ==請求發送部,—個—個地發送由所述固有地址選 擇稍選擇的固有地址,而使利用所發送的固有地址所識 別出的終端進行與其他終端不同的動作;設定請求輸入 部’從輸入設備輸入將進行與其他終端的動作不同的終端 作為群組來進行管理的操作員請求;群組信息存儲部,、在 所述群組#息輸入部輸入操作員請求後,將識別為與其他 終端進行不同動作的所述終端的固有地址對應於群組信息 而存儲到存儲設備中;以及設定請求發送部,將存儲在存 儲設備中的固有地址以及群組信息發送給子站,使子站對 所發送的固有地址以及群組信息進行管理。 本發明第14發明所述的照明控制系統的特徵在於具 備:開關’對應於個別地進行識別的固有地址,並在存儲 設備中存儲該固有地址;固有地址獲取部,在由操作員操 13 200803621 :該=:息=存!設備獲取爾 場景信息、調輸人稍對開關輸人群組信息、 魚言^定邮J 、°心中的至少一個附加信息;以及附加信 二固有±1 ::述附加信息輸入部所輸入的附加信息對應 於固t址而存財存舰射,以此來進行關的設定: 借:夕i _!第14發明所述的照明控制系統的特徵在於具 终n i^广夠利用無線網路及有線網路使控制站與 進^益後二及控制站’此控制站具有通過無線網路 線部、發送接收無線信號的天線、及生 :1所述夕個子站的控制命令並通過無線部發送給所述 子站的控制部。 根據本發明第1發明所述的照明控益 線網路由控制站來控制連接於有線網路的二叮二可: 削減控制站與終端間的直接佈線,從而可提高設置的自由 度’亚且,與利用有線網路連接所有設備的情況相比,還 可以減少佈線工程所占的比例。而且,可以由控制站可靠 地控制終端。 根據本發明第2發明所述的照明控制裝置,除了具有本 發明第1發明所述的照明控制裝置的效果以外,還可以提供 下述系統,即,通過將控制站作為子機而連接於母機的傳 运線’可以與其他子機㈣地通過母機來進行日3明控制或 監視等。 ,… 根據本發明第3發明所述的照明控制裝置,除了 |有本 發明第1發明或第2發明所述的照明控制裝置的效果;;外, 200803621 還可以通過子站轉取連私有 定的固有地址,並對該终端自#^的所預先设 址,從而可應對終端的增設動刀配無線網路側使用的地 根據本發明第4發明所述的朗 侧35明所述的照明崎置的效果 知使用,%度傳感為的區域進行照度固定控制。 根據本發明第5發明所述的照 發明第3發明或第4發明所述的^& f置除了 /、有本 、爭㈣㈣&明控制裂置的效果以外, 使用人感傳感器的區域内有人或沒有人,而 進仃照明負載的控制。 ,據本發明第6發明所述的照明控制裝置,在控制站接 收來自设定器的無線網路識職的變更指示後,即使是在 從控制站向屬於相同無線網路的所有子站發送要變更的無 線網路識㈣信息、而使無線網路識別號賴定變更之 後也可以艾更控制站的無線網路識別號的設定,且控制 站特疋使用Μ更後的無線網路識別號進行通信的子站,並 使所述子站加入變更後的無線網路,從而變更無線網路識 別號的設定而構建新的無線網路,因此,僅由設定器對系 統=佈設定變更指*即可進行整個系統的無線網路識別號 2又更,與先前的方法相比可在短時間内完成整個系統的 设定’且物理作業特別少,因此幾乎無設定失誤。 根據本發明第7發明所述的照明控制系統,可以由設備 通報部容易地選擇所指定的終端。 根據本發明第8發明所述的照明控制系統,操作員可以 15 200803621 =所指定的終端而無需在所指定的終端内另外設置通報 =本發明第9發明所述的照明控制系統,例如即使是 =使所有照明器具照明的狀態下,也可以特賴指定的終 ^用I因此當在終端上未絲 端。而且’顯示用燈可以減少電=作二實 ,由於可以使燈以及用於使燈照明的點燈 電路為間早的構造,因此可以使終端小型化。 發明所述的照明控制系統,由於將群 可::ΐΓ 於所指定的終端的固有地址,因此 叮以合易地貫現終端的群組(gr〇uping)化。 -定===發明所述的照明控制系統,可以通過 口又疋。。將附加k息對應於终端。 二 =筒明所述的照明控制系统,可以通過 :二====== 於由固有地址所朗的開關。 則5息對應 根據本發明帛15發明所述的照 以通過子站來統一管理各終端的信息,並:=可 管理的各終端的信息發送給設定器。並且,容易= 16 200803621 系統’從而可以對連接於多個子站的終端進行綜合性控制。 為讓本發明之上述和其他目的、特徵和優點能更明顯 易懂’下文特舉較佳實施例,並配合所附圖式,作詳細說 明如下。 【實施方式】 以下’參照圖式說明本發明的實施形態1。圖1是照明 控制裝置的結構圖。圖2是照明控制裝置的控制站的結構 圖。圖3是照明控制裝置的子站的結構圖。圖4是照明控制 裝置的照明負載的結構圖。 如圖1所示,照明控制裝置11包括:1個控制器 (controller)即控制站12、以及具有閘道(gateway)功能 的多個子站13。所述1個控制站12及多個子站13能夠通過使 用特定的無線網路識別號的無線網路14進行通信。 在使用多個控制站12時,構建對各控制站丨2使用不同 無線網路識別號的無線網路14。 在各子站13上,有線連接著使用了通信線15的有線網 路16。並且,在該有線網路16上有線連接著由控制站12控 制的多個終端17。該有線網路16例如採用下述通信方式, 即’通過2條通彳§線15發送使1與〇的組合具有意義的脈衝信 號而進行通信。 各終纟而17例如没置在照明區域中,此照明區域為將辦 公大樓或各種設施等的多個樓層或丨個樓層進行分割的多 個區域。此處,終端17包含:對白熾燈、熒光燈、發光二 極管等的照明負載進行點燈控制的照明器具17a、偵測照明 17 200803621 區域内的人體的人感傳感器17b ( human sensor )、债測照 明區域内的照度的照度傳感器17c、以及具有開關且通過該 開關的操作對照明負載進行手動切換指示的牆壁開關 等。另外,各終端17上預先設定有分別相對應的固有地址 (address ) 〇 各子站13可以將無線網路14的通信指示或通信數據、 與有線網路16的通信指示或通信數據進行相互轉換,且使 控制站12與各終端17進行通信。 在無線網路14上可以連接電腦18 (computer)。該電 月,可以進行照明控制狀態的監視或照明控制的各種設 定。而且,無線網路14可以通過無線、以可通信的方與 ^般運的設定器19相連接。例如,可以使無線網路14與設 定19的無線齡的頻率為2·4 GHz,並使用擴頻調變方式 (spread spectrum system )。 枰制:接於上位系統2°。該上位系統20除了照明 工!衣置1外,、统一控制防災設備、防犯設借、空調設 備等。亚且,上㈣統2Q具有作為母機的主 在 接於該主控㈣的傳送肋上,連财料多個子機= 端23及作為子機之—而發揮魏的控制㈣ 统 20的通信方式,例如杲接用丁、+、士』 /上位糸統 線22:=與Q的組合具有意義的脈衝信运 通信心線 肋與主控⑽進行有線通鋼=通信; 18 200803621 與照明控制相關的系統的控制部33。 如圖3所示,子站13具有:通過無線網路14進行無線通 信的無線部35 ;接收發送無線信號的天線36 ;通過有線網 路16而與終端π進行有線通信的有線通信部37 ;以及對控 制站12與各終端π進行通信控制的控制部%。控制站12與 各終端17的通信控制,例如是通過將無線網路14的控制指 示或控制數據、與有線網路16的控制指示或控制數據相^ 轉換來進行的。 控制部38向終端17發送預先註冊的控制指示(固有地 址請求指示),從終端丨7獲取作為響應而獲. 信息。而且,對於有響應的終端17則個固有地址= 配在無線網路14側使用的1個無線用地址。例如,在固有二 址的上位字節(byte)中插人子站13在無線網路中使用的 地址的最下位字節,在τ位字料插人子仙所設定好的 終端17的數量。作為其他方法’在控_12㈣料數哭, = 端Π的無線用地址就使計數器進行累加,並將 :累=:數器值用作下一個註冊的終端口的無線用地 有的非揮發=地址的對應’保存在控制部舰 有線诵以有相路16與子站I3進行 ==部1。;控制作為照明負載的燈娜 的产干而、甬、換為部42,以及,按照來自控制站12 通過轉換器部42來控制燈41的照明狀態的照明控 19 200803621 制部43。 接著,說明實施形態1的作用。 s=?:,如果為ι〇秒左右則在實用中。不會 田二t錢無線用地址的終端17接收到該第一 m17通過有線網路16向子站13發出塑廣。 ί 端17接收第—請^號 後也不會向子站13發出響應。子站 線用地址的終端17發出的響應時,通過有線網 端Π發送詢咖歧定_有地址的第二請求釣ft 4無線用地址的終端17接收到第二請求信 ^ =夂6?t站13發送固有地址。但是,當由於有線網ΐ 的規秸上的限制而無法一次性發送所有固有地址時,子 站13也可以從固有地址的上位字節開始依次進行詢問,而 獲取固有地址。所謂有線網路的規格上的限制是指,例如 能夠發送接收的數據長度最大為!字節,而时地 超過1字節的情況等。當子站13獲取了終端17的固有地址 後,對終端17自動分配在無線網路14侧使用的無線用地 址。並且,將固有地址與無線用地址相對應而保存到子站 13所具有的存儲器内部所準備的地址表中。這樣,即使在 有線網路16上追加連接尚未設定無線用地址的終端Η,也 20 200803621 可以對終端17上所設定的固有地址自動分配無線用地址。 而且,該設定是在一個有線網路16中由一個子站13來進行 的’因此不會重複設定無線用地址。 泛樣,通過對終端17的固有地址設定無線用地址,控 制站12可以對各終端17進行通信控制。 允控制站12例如按照預先設定的時間表(schedule)來 控制各終端17,可以㈣彳照明貞載41的照明狀態。而且, 可以利用監視器等來監視照明負載41的照明狀態。 而且,控制站12是通過無線網路14來控制連接於有線 ^路16的終端17,因此可以削減控制站12與終端π間的直 佈線’從而提高了控制站12及子站13的設置上的自由 :。,而’如果將子站13設置在可以與無線網路Μ進行通 :的場所,則可以由控制站12通過有線 靠 制各終端17。 个」菲以工 而且’通過將主控台21作為母機而連接於傳送線^, ^空制站12作為子機而連接於傳送線22,可以提供下述 Ί P可利用主控台21來進行照明控制,且可统一臣七 視控制站12以及其他子機。 』、充皿 識別Ϊ:變IS圖::及圖6 ’對使用了設定器的無線網路 圖,竹說明。圖5是照明控制裝置的結構 圖圖6是照明控制裝置的設定器的結構圖。 U而1:。:個=]卿^ 無線網料㈣⑥制站12以及子站13通過使用同一個 "^可進行通信。各子站13可以通過通信線 21 200803621 16而與多個照明器具17a或未圖示的人感傳感器、照度傳感 為及牆壁開關等進行通信。設定器19可以通過無線通信19 而與控制站12及子站π進行通信。對於該設定器19而言, 例如考慮到系統設定時的便利性,而由將乾電池作為電源 的可攜帶終端所構成。對於無線通信50而言,例如頻率為 2.4 GHz,且可以使用擴頻調變方式。 在無線網路識別號中,包含用以特定無線網路的例如 信道及ID等。在照明控制裝置^中,每個照明區域的目標 照度、目標調光率、漸變(fade)時間、人感保持時間等 各種设定、或是無線網路識別號的設定等,是使用設定器 19來進行的。 控制站12具有用以存儲無線網路識別號等的非揮發性 f儲杰。當控制站12從設定器19接收到無線網路識別號的 、交更指不時’向屬於同一個網路14的利用相同無線網路識 虎進行通信的所有子站丨3發送變更的無線網路識別號信 息:而使子站13的無線網路識別號的設定進行變更。並且, 在、交更所有子站13的無線網路識別號之後,控制站12變更 自身的無線網路識別號的設定。當自身的設定完成後,控 制站12特定相同無線網路識別號的子站13,使所述子站13 加入變更後的無線網路14。 ^如圖6所不,設定器19具有:與控制站12或子站13進行 :線通=的無線部51 ;發送接收無線信號的天線52 ;由設 1者進灯㈣的開關面板53 ;以及對應於開關面板54的操 4而向控制站12或子站13發出指示的控制部55。 22 200803621 ,著,说明當照明控制裝置丨丨的無線網路14與其他系 統的無線網路的無線頻率及無線網路識別號產生衝突時, 變更無線網路識別號的情況。 該變更處理,是按照下述第一階段至第三階段的順序 進行階段性處理。 & j200803621 IX. Description of the Invention: [Technical Field] The present invention relates to a remote control of a lighting load of a plurality of substations (s ave stati〇n) by a control station via a wireless network Controlled lighting control and lighting control system. [Prior Art] Previously, there has been known a wired type lighting control device in which a plurality of child machines are communicably connected to a parent machine through a transmission line, and control from the parent machine is used to control the respective child machines (for example, 1) In addition, for example, in office buildings and various facilities, etc., a clear control device is used, which is remotely located for each lighting area of each floor or each area = the terminal of the lighting fixture control. In the lighting control device, the control station and the plurality of substations communicate through the wireless network, and the control by the control station is used to control the lighting fixtures of the respective substations. 'The incoming network is constructed using a pathless number including a channel and a channel. By using the wireless network identification number, you can: Control stations and sub-groups belonging to the same network. The station communicates. - The characteristic of the wireless network is that even if the two wireless networks use a wireless frequency, as long as the wireless network identification number is different, although the communication speed is reduced due to the load and interference k, the helmet network can still be utilized. The road communicates. When the wireless instant network wireless network conflicts with each other, for example, when the volume a ... frequency and the read network lang number are the same, the collision of the wireless network can be avoided by changing the non-200803621 road identification, the wireless The network identification number is used by the wireless network of the wireless control device such as the control station and the substation. The setting of the wireless network job is performed, for example, by setting a dip switeh for changing the wireless network identification number on the substrate or the like in the wireless hanging system. The wireless control device used in the wireless network causes the dip switch to be in the same switch pattern. When changing the wireless network identification number, first change the setting of the dip switch to make the switch of the reduced-control position to be changed.卩The same woven, when all the wireless control woven settings change is completed k will reset or re-power the system, through the initialization of the wireless network; k can build a new wireless network (for example, refer to the literature 2). Further, in these lighting control devices, as a method of designating an address assigned to a terminal having a lighting load and a setting position of a lighting load, there is a method of sequentially selecting one lighting load by one button, or selecting a plurality of _贞. For the party whose money is reduced in size, refer to Patent Document 3). [Patent Document 1] Japanese Patent Application Laid-Open No. Hei No. Hei No. 11-5M829 [Patent Document 3] Japanese Patent Laid-Open No. 313183 Between the wiring method (4), if you can sew the transmission line, you can do it. However, it is necessary to connect multiple sub-machines to the second line. Therefore, it is more difficult to work on the construction day. 8 200803621 Moreover, when it is to be woven, in addition to the structure of the illuminating control device, there are the following problems, wiring work. In addition to the sigh project, it must also be carried out on a large scale. On the other hand, in the case of a volume t-device, the freedom of the lighting control place using the wireless network between all the devices in the field does not require wiring, and the lighting load is set. The land that the law arrived at ^. However, there are the following problems: For example, in the case where wireless is not difficult to reach by wireless, obstacles, etc., the lighting load cannot be set, and in the case of the lighting control device of the prior art wireless network, In the method of changing the wireless network identification number shown in the entire rayon technique, all the wireless control devices must be disposed one after another in the internal substrate, and then the entire setting is changed to the same warm mode. ',,, dead reset or power on again. Therefore, there is a problem that the change benefits n ..., , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , SUMMARY OF THE INVENTION The present invention has been developed in view of the above problems. Therefore, the first problem of the present invention is to reduce the direct wiring of the control station and the illumination load, thereby improving the degree of freedom of the set. Further, a second object of the present invention is to reliably control a lighting load by a control station that is installed in a place where wireless cannot reach J or is difficult to reach due to an obstacle or the like. Further, an object of the present invention is to provide a lighting control device that achieves the above-described plurality of problems and a lighting control system using the lighting control device. The lighting control device according to the first aspect of the present invention includes: a control station, which communicates with a wireless network to control communication using a wired network that uses a communication line, and communicates with the terminal. The display is used to control the lighting load; and the substation is capable of communicating with the control station and the terminal by means of a control station network. "Using a hotline network and wired one or more wired networks is a convenient way to connect to a wireless network. On the wired network, the car is connected to the communication station, and the device is inherently equipped with one or more final devices, and the person in the illumination area is detected. (4) Two: ', ?, and the load is fixed. The illuminance sensor and the lighting load of the illuminance in the illuminator, for example, a wall switch including a light lamp. The control station controls, for example, the illumination environment in which the illumination is incident, such as by ===, period or time period, and the schedule determined by the life of the external light ^日守间#. The data is converted into a compliance indication of the line network or the terminals communicate with each other. ..., the form of the spring, the road, the way of the road, and the plurality of slaves including the control station and the parent station, the device, and the control unit; the present invention ^3= each connected by a transmission line Child machine. W Ming said: The terminal of the lighting control device described above is pre-disclosed, and the sub-station obtains the inherent address connected to the wired network. And the 'substation' assigns the wireless address used by the wireless network side to the terminal that has acquired the unique 10 200803621 address. According to a fourth aspect of the present invention, in a lighting control device according to the fourth aspect of the present invention, the illumination load is dimmed by using a sensitivity sensor capable of measuring the illuminance 1 of a certain region. control. Further, the illumination control device according to the fifth invention of the present invention is the illumination control device according to the third invention of the present invention, which is capable of measuring the page of the person in the area (4) and the sensor sensor for the illumination. The load is controlled. A lighting control device according to a sixth aspect of the present invention includes: setting a crying, μ network identification number; and a plurality of substations communicating by using a specific wireless network having no "ς", and respectively Communication, mode is connected to at least one terminal, in a wireless network using a specific hotline network identification number, using multiple substations belonging to the same wireless network to control the lighting load, and receiving the settings from the When the wireless network job change instruction is changed, the wireless network identification number information to be changed is transmitted to the financial station belonging to the same wireless network, and the wireless network identification number is changed, and then the wireless is changed. The network identification number & and use the changed wireless network identification number to communicate, so as to add the sub-station to the changed wireless network. The road identification number includes, for example, a channel or an ID for specifying a wireless network. The port and the device are preferably of a type that can be carried. Moreover, the setting cry can be wireless with the control station or the substation. The structure of the letter may be a structure that communicates by wire. 200803621 • The illumination control device according to the seventh aspect of the invention is characterized in that: the unique address acquisition unit stores a plurality of solids set on the terminal The device notifying device acquires one unique address, and the device notifying unit causes the terminal that is identified by the address obtaining unit to obtain the (four) address and performs an operation different from the other terminal, thereby notifying the terminal to the operation addition. The information input unit, from the input device to the device, the T terminal of the device is connected with the additional information specified by the operator, and the additional information is set to 'add the additional information to the wheel of the person The information is stored in the storage device for the deer in the storage address, and the additional information is determined by the information. The control device of the present invention is characterized in that: the device is a terminal, and the device is notified. The part is mounted on the lighting fixture ^ to illuminate or extinguish the makeup load. The illumination control device according to the ninth invention is characterized in that: the device has a terminal as the terminal, and the device notification portion is installed in the illumination and the middle lamp is different from the discharge lamp connected to the other lighting device. According to the fourth aspect of the present invention, the (four) control preparation notification unit causes the display lamp (four) or _^ in the terminal. Further, in the illumination control plus information input according to the eleventh aspect of the present invention, the setting unit stores the group information in accordance with the unique address. According to a twelfth aspect of the present invention, in the lighting control system of the present invention, the setting device includes an operation request transmitting unit that transmits a domain different from the other terminals to the n terminals of the plurality of blushes. Action 12 200803621 Request signal; additional information storage Α 附加 Additional information specified by the creator, 1: to set additional information. The illuminating control system according to the thirteenth invention of the present invention is characterized in that the setting device has a grouping unit having an input for identifying a plurality of terminals as i. Group address: The sub-station sends a request to individually identify the final two = f request (four); the unique address receiving unit receives a plurality of = addresses from the sub-station and stores them in the storage device; the unique address selection unit is stored in the storage device Multiple_address-in-place selection inherently == request transmitting unit, one-to-one transmitting a unique address selected by the unique address selection, and using the transmitted unique address to identify The terminal performs an operation different from the other terminal; the setting request input unit ' inputs an operator request for managing a terminal different from the operation of the other terminal as a group from the input device; the group information storage unit, in the group When the group input unit inputs an operator request, the unique address of the terminal identified as being different from the other terminal is stored in the storage device corresponding to the group information; The setting request transmitting unit transmits the unique address and group information stored in the storage device to the child station, and causes the child station to manage the transmitted unique address and group information. A lighting control system according to a fourteenth aspect of the present invention is characterized in that the switch includes a unique address that is individually identified, and stores the unique address in a storage device; the unique address acquiring unit is operated by an operator 13 200803621 : The =: interest = save! The device obtains the scene information, the transfer person slightly switches the input group information, the fish words ^ the post J, the at least one additional information in the heart; and the additional letter 2 inherent ± 1 :: The additional information input by the additional information input unit is stored in the deposit corresponding to the fixed net address, thereby setting the off: l: i _! The illumination control system according to the 14th invention is characterized by ^ Wide enough to use the wireless network and wired network to make the control station and the second and the control station 'this control station has the antenna through the wireless network route, send and receive wireless signals, and students: 1 said the sub-station The control command is transmitted to the control unit of the substation via the wireless unit. According to the lighting control line network routing control station according to the first invention of the present invention, the second connection to the wired network can be controlled: the direct wiring between the control station and the terminal can be reduced, thereby improving the degree of freedom of setting. Compared with the case of connecting all devices with a wired network, the proportion of wiring engineering can also be reduced. Moreover, the terminal can be reliably controlled by the control station. In addition to the effects of the illumination control device according to the first aspect of the present invention, the illumination control device according to the second aspect of the present invention may provide a system in which the control station is connected to the parent machine as a child machine. The transportation line 'can be controlled or monitored by the parent machine with other sub-machines (4). According to the illumination control device according to the third aspect of the present invention, in addition to the effect of the illumination control device according to the first invention or the second invention of the present invention, in addition, 200803621 can also be transferred through the substation. The inherent address of the terminal, and the pre-addressing of the terminal from the #^, so that it can cope with the addition of the terminal to the wireless network side of the terminal, according to the fourth aspect of the present invention The effect of the setting is known to be used, and the area where the % degree sensing is used is illuminance fixed control. According to the fifth invention of the present invention, according to the third invention or the fourth invention, the method of using the human sensor is used in addition to the effect of the present, the fourth, the fourth, the fourth, and the fourth. Someone or no one, and enter the control of the lighting load. According to the lighting control device of the sixth aspect of the present invention, after the control station receives the change instruction of the wireless network job from the setter, even after transmitting from the control station to all the substations belonging to the same wireless network The wireless network identification (4) information to be changed, and the wireless network identification number can be changed after the wireless network identification number is changed, and the control station specifically uses the wireless network identification after the change. The sub-station that communicates with the sub-station, and adds the sub-station to the changed wireless network, thereby changing the setting of the wireless network identification number to construct a new wireless network. Therefore, only the setting device changes the system=cloth setting. It means that the wireless network identification number 2 of the whole system can be performed, and the setting of the entire system can be completed in a short time compared with the previous method', and the physical work is extremely small, so there is almost no setting error. According to the lighting control system of the seventh invention of the present invention, the designated terminal can be easily selected by the device notifying unit. According to the illumination control system of the eighth invention of the present invention, the operator can 15 200803621 = the designated terminal without additionally providing the notification = the illumination control system according to the ninth invention of the present invention, for example, even if = In the state where all lighting fixtures are illuminated, it is also possible to use the specified end I, so that it is not on the terminal. Further, the display lamp can be reduced in electric power, and since the lamp and the lighting circuit for illuminating the lamp can be made to have an early structure, the terminal can be miniaturized. In the lighting control system of the present invention, since the group can be: ΐΓ 固有 固有 所 所 所 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 - Set === The lighting control system described in the invention can be passed through the mouth. . The additional k interest is corresponding to the terminal. The lighting control system described in the second paragraph can pass: 2 ====== to the switch that is borne by the inherent address. Then, according to the invention of the invention, the information of each terminal is collectively managed by the substation, and: = information of each terminal that can be managed is transmitted to the setter. Moreover, it is easy to = 16 200803621 system' thus enables comprehensive control of terminals connected to a plurality of substations. The above and other objects, features, and advantages of the present invention will become more apparent <RTIgt; [Embodiment] Hereinafter, Embodiment 1 of the present invention will be described with reference to the drawings. Fig. 1 is a structural view of a lighting control device. Fig. 2 is a structural diagram of a control station of the lighting control device. Fig. 3 is a structural diagram of a substation of the lighting control device. Fig. 4 is a structural diagram of a lighting load of the lighting control device. As shown in Fig. 1, the lighting control device 11 includes a controller, that is, a control station 12, and a plurality of substations 13 having a gateway function. The one control station 12 and the plurality of sub-stations 13 are capable of communicating via a wireless network 14 that uses a specific wireless network identification number. When multiple control stations 12 are used, a wireless network 14 is constructed that uses different wireless network identification numbers for each control station 丨2. A wired network 16 using the communication line 15 is wired to each of the substations 13. Also, a plurality of terminals 17 controlled by the control station 12 are wired to the wired network 16. The wired network 16 communicates by, for example, a communication method in which a pulse signal having a meaning of a combination of 1 and 〇 is transmitted through two communication lines 15. Each of the finals 17 is, for example, not placed in an illumination area, which is a plurality of areas in which a plurality of floors or floors of the office building or various facilities are divided. Here, the terminal 17 includes a lighting fixture 17a that controls lighting of an incandescent lamp, a fluorescent lamp, a light-emitting diode, or the like, a human sensor 17b (human sensor) that detects illumination of the human body in the area of 200803621, and debt measurement illumination. The illuminance sensor 17c of the illuminance in the area, and a wall switch or the like having a switch and manually switching the illumination load by the operation of the switch. In addition, each terminal 17 is preset with a corresponding unique address (address). Each of the sub-station 13 can convert the communication indication or communication data of the wireless network 14 with the communication indication or communication data of the wired network 16. And the control station 12 is made to communicate with each terminal 17. A computer 18 can be connected to the wireless network 14. This electric month allows various settings for monitoring the lighting control state or lighting control. Moreover, the wireless network 14 can be connected to the setter 19, which is wirelessly communicable, in a communicable manner. For example, the frequency of the wireless network 14 and the wireless age of the setting 19 can be set to 2.4 GHz, and a spread spectrum system can be used. Tanning: 2° connected to the upper system. In addition to the lighting fixtures, the upper system 20 controls the disaster prevention equipment, the anti-counterfeiting facilities, and the air-conditioning equipment. Yahe, the upper (four) system 2Q has the main machine as the master machine connected to the transmission rib of the main control (four), and even the financial material multiple sub-machine = end 23 and as a sub-machine - and play Wei's control (four) system 20 communication method For example, the combination of D, +, 士 / / 糸 线 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22 Control unit 33 of the system. As shown in FIG. 3, the substation 13 has a wireless unit 35 that performs wireless communication via the wireless network 14, an antenna 36 that receives a wireless signal, and a wired communication unit 37 that performs wired communication with the terminal π through the wired network 16; And a control unit % that controls the communication between the control station 12 and each terminal π. The communication control of the control station 12 with each terminal 17 is performed, for example, by converting control indications or control data of the wireless network 14 with control indications or control data of the wired network 16. The control unit 38 transmits a control instruction (inherent address request instruction) registered in advance to the terminal 17, and acquires information obtained as a response from the terminal 丨7. Further, for the responding terminal 17, the unique address = one wireless address used on the side of the wireless network 14. For example, in the upper byte of the inherent two-address, the lowest byte of the address used by the substation 13 in the wireless network is inserted, and the number of terminals 17 set in the τ bit material is inserted. . As another method, 'in the control _12 (four) material number cry, = the wireless address of the end 使 causes the counter to accumulate, and: tired =: the value of the counter is used as the wireless port of the next registered terminal port, some non-volatile = The correspondence of the address is stored in the control unit ship cable 诵 with the phase path 16 and the sub-station I3 for the == part 1. Controlling the production of the lamp as a lighting load, switching to the unit 42, and controlling the illumination of the lamp 41 by the converter unit 42 from the control station 12; Next, the action of the first embodiment will be described. s=?:, if it is around ι〇 seconds, it is in practice. The terminal 17 that does not receive the wireless wireless address will receive the first m17 via the wired network 16 to the sub-station 13. ί End 17 will not respond to Substation 13 after receiving the first-please number. When the response of the terminal 17 with the address of the substation line is transmitted, the second request is sent through the wired network terminal. The terminal 17 having the address of the address 4 receives the second request message ==6? The t station 13 transmits the unique address. However, when all the unique addresses cannot be transmitted at one time due to restrictions on the wired network, the substation 13 can also inquire from the upper byte of the unique address to acquire the unique address. The limitation on the specification of the wired network means that, for example, the maximum length of data that can be transmitted and received is! Bytes, when the time exceeds 1 byte, etc. When the substation 13 acquires the unique address of the terminal 17, the terminal 17 automatically allocates the wireless address used on the side of the wireless network 14. Then, the unique address is stored in the address table prepared in the memory of the substation 13 in association with the wireless address. Thus, even if a terminal that has not set a wireless address is additionally connected to the wired network 16, 20 200803621 can automatically assign a wireless address to the unique address set on the terminal 17. Moreover, the setting is made by a substation 13 in a wired network 16 so that the wireless address is not repeatedly set. As a general example, by setting the wireless address to the unique address of the terminal 17, the control station 12 can perform communication control for each terminal 17. The control station 12 controls the respective terminals 17 in accordance with, for example, a predetermined schedule, and can illuminate the illumination state of the load 41. Moreover, the illumination state of the lighting load 41 can be monitored by a monitor or the like. Moreover, the control station 12 controls the terminal 17 connected to the cable 16 via the wireless network 14, so that the straight wiring between the control station 12 and the terminal π can be reduced, thereby improving the setting of the control station 12 and the substation 13. freedom of:. And if the substation 13 is placed in a place where it can communicate with the wireless network, the terminals 17 can be wired by the control station 12. The Philippine work is connected to the transmission line 22 by using the main control station 21 as a parent machine, and the air station 12 is connected to the transmission line 22 as a child machine, and the following can be provided. Lighting control is performed, and the control station 12 and other sub-machines can be unified. 』, 皿 Ϊ Ϊ 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变 变: Fig. 5 is a configuration of a lighting control device. Fig. 6 is a configuration diagram of a setting device of the lighting control device. U and 1: : == 卿 ^ Wireless network material (4) 6 system station 12 and sub-station 13 can communicate by using the same "^. Each of the substations 13 can communicate with a plurality of lighting fixtures 17a or human sensors, illuminance sensors, wall switches, and the like, which are not shown, via the communication line 21 200803621 16 . The setter 19 can communicate with the control station 12 and the substation π via the wireless communication 19. The setter 19 is constituted by, for example, a portable terminal using a dry battery as a power source in consideration of convenience in system setting. For wireless communication 50, for example, the frequency is 2.4 GHz, and a spread spectrum modulation method can be used. The wireless network identification number includes, for example, a channel and an ID for a specific wireless network. In the lighting control device ^, various settings such as target illuminance, target dimming rate, fade time, and human touch retention time for each illumination area, or setting of a wireless network identification number, etc., are used by the setter. 19 to carry out. The control station 12 has a non-volatile memory store for storing wireless network identification numbers and the like. When the control station 12 receives the wireless network identification number from the setter 19, it transmits the changed wireless to all the sub-stations 丨3 that belong to the same network 14 and communicate with the same wireless network. Network identification number information: The setting of the wireless network identification number of the substation 13 is changed. Further, after the wireless network identification number of all the substations 13 is transferred, the control station 12 changes the setting of its own wireless network identification number. When its own setting is completed, the control station 12 identifies the substation 13 of the same wireless network identification number, and causes the substation 13 to join the changed wireless network 14. As shown in FIG. 6, the setter 19 has: a wireless unit 51 that performs line-pass = with the control station 12 or the sub-station 13; an antenna 52 that transmits and receives a wireless signal; and a switch panel 53 that is provided with a light (4); And a control unit 55 that gives an instruction to the control station 12 or the substation 13 in response to the operation 4 of the switch panel 54. 22 200803621, for the purpose of changing the wireless network identification number when the wireless network 14 of the lighting control device conflicts with the wireless frequency and wireless network identification number of the wireless network of other systems. This change processing is performed in the order of the first to third stages described below. & j
在第-階段中,使用者使用設定器19,料變更的無 線網路識別號信息、及用以指示變更的信號發送給控制站 12。無線網路識別號在設定器19中預先保存了若干個,所 以,使用者可以在無線網路識別號的設定或變更時從設定 器19適當则。控制站12接收來自設定㈣的變更指^, 並將要變更的無線網路識別號存儲到存儲器中。從=制站 12向屬於相同無線網路14的所有子站13,發送進行^別織 更的恶線網路識別號信息、以及用以指示變更的作號。各 子站13從控_12減變更指示,並將要變更的^網路 識別號存儲到存儲器中。此時,控制站12等待接收來自 於相同無線網路14的所有子站13的設定完成響應。但是, 當因某些故障而無法獲得來自所有子站13的設定完成^應 時^可以使控制站12等待規定時間。該待機時間例如約曰為; 分鐘左右。並且,將經過規定時間仍無響應的子站13的固 有地址或無線用地址存儲到控制站12内的存儲器中。接 著,將無響應的子站13的地址信息發送給設定器19,且在 設定器19上顯示錯誤信息。 〃作為第二階段,控制站ί2在第一階段完成時,個別地 向獲得了設定完成響應的所有子站13發送重置指示。各子 23 200803621 站13接收重置指示,從而將通信時所使用的無線網路識別 號從變更前的無線網路識別號重置為變更後的無線網路識 別號。並且,使用變更後的無線網路識別號,發送請求加 入到使用變更後的無線網路識別號的無線網路14中的加入 請求。加入請求的發送,是以已決定的某間隔(例如丨分鐘 間隔)進行發送的,直到加入使用變更後的無線網路識別 號的無線網路14為止。 作為第三階段,控制站12在能夠向第二階段中所得到 的獲得設定完成響應的所有子站13發送重置指示時,將控 制站12的通信時使用的無線網路識別號從變更前的無線網 路識別號重置為變更後的無線網路識別號。控制站12在宣 佈新的無線網路14之後,接收來自各子站13的加入請求並 允許加入。以此,能夠在控制站12與接受了許可的子站13 之間進行通k。控制站12接收來自在第一階段中發送了重 才曰示的所有子站的加入凊求,並允許加入,從而完成無 =路14的構建。但是’ #由於某些故障而無法獲得第一 :段中發送了重置指㈣所有子站13所發出的加入請求 :’控制站12等待規定時間(例如1Q分鐘)。並^,在經 時間仍無加人請求時’將無加人請求的子站13的地 =儲到控制站12_存㈣中,且絲址信息發送給設 = 19’而在言找器19中顯示為錯誤信息。#巾,由於即 何===,到加入請求’因此優選的是無論 這樣,使用者僅利用設定器19進行操作即可變更整個 24 200803621 ^統的無線網路識別號。因此,可以縮短設定變更所需的 寸間而且,可以間單且可靠地進行設定變更的操作。 接著’說明對所述照明控制裝置11中的各終端17設定 附加信息的方法。 圖7是實施形態2中的照明控制系統1〇ι的系統結構 圖。 σ貫施形態2的照明控制系統ιοί具有:作為設備控制 器的子站100 ;作為遙控器的設定器200;作為終端的照明 器具300 ;人感傳感器4〇〇 ;照度傳感器41〇 ;以及牆壁開 關 420。 子站100對任意配置的照明器具3⑻、人感傳感器 400…、度傳感為410、牆壁開關420等終端(電氣設備) ,定群組號或群組信息等附加信息,並根據所設定的附加 k息對終端進行控制管理。 、$又疋為200根據操作員的操作,而向子站丨⑽請求針 對終端進行附加信息的設定或終端的控制管理。 、知、明态具300使用轉換器電路使放電燈照明,人感傳 感器400根據紅外線量的變化或溫度變化等來偵測有無 人,照度傳感器410根據光量來測定室内的照度。 而且,人感傳感器400、照度傳感器41〇具有對應於 起動期間、停止期間、故障發生等而照明的led 燈)。 a妝明器具300、人感傳感器400、照度傳感器410、及 牆壁開關420,在生產時設定有媒體訪問控制(MAC,Media 200803621 l:ess ΓΓο1)地址等—個一個地個別地進行識別的固有 配署領域技術人員不論财地址的大小等而任意地 即摔m祕Γ操作貞無法自由設定_有地址。 二it: 成配置的各終端,可以獲取固有地址, 了一:Jfi地址與終端的設置位置的對應關係。因此,為 ::群=單位來控制各終端,必須1手動作業進行確 w且一面進行群組化。 押制中的子站剛,具有能夠以群組為單位來 ί工制任忍配置的各終端的功能。 理方ΐΐΐ表示實施形態2的照明控制系統101的設備管 理方法的流程圖。 哭2〇Γ 2據圖8 ’說明實施形態2中的子Α⑽與設定 °所執行的設備管理處理。另外,以下的說明中,子 I⑽預先從各終端獲取时地址,並存儲到存儲設備_ <S101 :固有地址獲取處理·設備通報處理> =00控制!台照明器具300’而使該 進仃與其他照明器具300不同的動作。 ^例t ’子站1〇〇在設置有作為個別信息獲取處理的多 個.¾明态具300、且各昭明器呈3〇〇谁一 ' 存儲谷,、、、月〜、屬進仃照明的場所’從 ,備190獲取一個固有地址。並且,針對i 哭 ^ ’輸純示因放電燈的照明或的' ; :下,起亮度變更的信號。即,通過子二= 〜恥明為具3〇〇進行照明或熄滅、或者以與其他照明器 26 200803621 具300不同的亮度照明。 備通報處理,可以脸二月負載。,子站100是作為設 :s: ··附加信息通報給操作員。 二::二;操作員所指定的附加信息。In the first stage, the user uses the setter 19 to change the wireless network identification number information and the signal for indicating the change to the control station 12. The wireless network identification number is stored in advance in the setter 19, so that the user can appropriately use the setting device 19 when setting or changing the wireless network identification number. The control station 12 receives the change finger from the setting (4) and stores the wireless network identification number to be changed in the memory. From the = station 12 to all the substations 13 belonging to the same wireless network 14, the bad line network identification number information and the number indicating the change are transmitted. Each substation 13 subtracts the change instruction from the control_12 and stores the network identification number to be changed in the memory. At this time, the control station 12 waits to receive a setting completion response from all the sub-station 13 of the same wireless network 14. However, when the setting completion from all the substations 13 cannot be obtained due to some failures, the control station 12 can be made to wait for the prescribed time. The standby time is, for example, about ;; Further, the fixed address or the wireless address of the substation 13 that has not responded for a predetermined period of time is stored in the memory in the control station 12. Next, the address information of the unresponsive substation 13 is transmitted to the setter 19, and an error message is displayed on the setter 19. As the second stage, when the first stage is completed, the control station ί2 individually transmits a reset instruction to all the sub-station 13 that have obtained the setting completion response. Each child 23 200803621 The station 13 receives the reset instruction, thereby resetting the wireless network identification number used for communication from the wireless network identification number before the change to the changed wireless network identification number. Then, using the changed wireless network identification number, the transmission request is added to the join request in the wireless network 14 using the changed wireless network identification number. The transmission of the join request is sent at an determined interval (e.g., a minute interval) until the wireless network 14 using the changed wireless network identification number is added. As a third stage, when the control station 12 can transmit a reset instruction to all the substations 13 that have obtained the setting completion response obtained in the second stage, the wireless network identification number used for the communication of the control station 12 is changed from before. The wireless network ID is reset to the changed wireless network ID. After the new wireless network 14 is announced, the control station 12 receives the join request from each of the substations 13 and allows the join. Thereby, it is possible to perform a pass between the control station 12 and the substation 13 that has accepted the license. The control station 12 receives the join request from all the sub-stations that have been transmitted in the first stage and allows the join, thereby completing the construction of the no-road 14. However, the first cannot be obtained due to some faults: the reset finger (4) the join request sent by all the substations 13 is sent: 'The control station 12 waits for the specified time (for example, 1Q minutes). And ^, when there is still no request by the time, 'the land of the substation 13 without the request of the person is stored in the control station 12_存(4), and the wire address information is sent to the set = 19' 19 is displayed as an error message. #巾, because of the ===, to the join request' Therefore, it is preferable that the user can change the wireless network identification number of the entire system by using only the setter 19 to operate. Therefore, it is possible to shorten the interval required for the setting change and to perform the setting change operation in a single and reliable manner. Next, a method of setting additional information to each terminal 17 in the illumination control device 11 will be described. Fig. 7 is a system configuration diagram of the illumination control system 1〇 in the second embodiment. The lighting control system ιοί of the form 2 has: a substation 100 as a device controller; a setter 200 as a remote controller; a lighting fixture 300 as a terminal; a human sensor 4; an illuminance sensor 41; and a wall Switch 420. The substation 100 adds additional information such as a group number or a group information to a terminal (electrical device) such as a lighting fixture 3 (8), a human sensor 400, a degree sensor 410, a wall switch 420, etc., which are arbitrarily arranged, and according to the set Additional k interest is used to control and manage the terminal. And $ 疋 200 is requested by the sub-station 丨 (10) to perform additional information setting or terminal control management for the terminal according to the operation of the operator. The illuminating lamp is used to detect the presence or absence of the person according to the change in the amount of infrared ray or the temperature change, and the illuminance sensor 410 measures the illuminance in the room based on the amount of light. Further, the human sensor 400 and the illuminance sensor 41 have LED lamps that are illuminated corresponding to a start period, a stop period, a failure occurrence, and the like. The makeup device 300, the human sensor 400, the illuminance sensor 410, and the wall switch 420 are individually set to be individually identified by the media access control (MAC, Media 200803621 l: ess ΓΓο1) address at the time of production. The technical staff in the distribution department can arbitrarily set the privilege operation regardless of the size of the financial address, etc. 贞 There is no address _ there is an address. Two it: Each terminal configured to obtain the unique address, one: the correspondence between the Jfi address and the setting position of the terminal. Therefore, to control each terminal for the ::group=unit, it is necessary to perform the grouping by one manual operation. The sub-station in the escrow has the function of being able to configure each terminal in a group-based configuration. The flowchart of the device management method of the illumination control system 101 of the second embodiment is shown. Cry 2 〇Γ 2 According to Fig. 8 ′, the device management processing executed by the sub-enthalpy (10) and the setting ° in the second embodiment will be described. In the following description, the child I (10) acquires the time address from each terminal in advance and stores it in the storage device_<S101: unique address acquisition processing/device notification processing> =00 control! The luminaire 300' is different from the other luminaires 300. ^Example t 'Substation 1〇〇 is set to have multiple .3⁄4 明态具300s as individual information acquisition processing, and each of the illuminators is 3 〇〇 一 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The location of the lighting 'from the standby 190 to obtain an inherent address. In addition, for i, crying, the signal indicating the change in brightness is indicated by the illumination of the discharge lamp. That is, it is illuminated or extinguished by sub-two = ~ shame, or with a different brightness than 300 of other illuminators 26 200803621. For notification processing, you can load your face in February. The substation 100 is notified to the operator as a setting: s: • additional information. Two:: two; additional information specified by the operator.
區間作為縣進行日s *㈣離物(partiti°n)隔開的各 的明亮場所、與未而且’有時分成入射有陽光 管理。、古揭,/ 射有除光的昏暗場所,而對照明進行 制其插ί 7二以群組為單位來對照明器具300進行控 為:加“Γ操對各個照明器具300指定群組號作 5^1 ^木貝針對利用si〇i所識別出的1台照明 。。具300,從設“ 輸人要設㈣群組號。 <S103 :附加信息設定處理〉 子站1GG讀對與其他照明負載進行不_作的照明 負載,而奴操作貝所指定_加信息。 、—例如’田在S101中的子站100使1台照明器具300 ,仃與其他照明|§具3GG不同的照明,並在S1Q2中設定 器200輸入操作員指定的群組號後,設定器2〇〇將在麗 中所輸入的群組號發送給子站1〇〇,而子站1〇〇將在si〇i 中進行與其他照明器具300 $同的照明的照明器具3〇〇的 固有地址與群組號進行相對應、且進行存儲。 <S104 ·設備控制處理> 子站100根據附加信息來對各照明負載進行控制管 27 200803621 理。 此時,假定所述S101〜S103的處理是針對各照明負 載而進行的。 例如,操作員在要變更某群組的照明器具300的亮度 時’對設定器200或牆壁開關420進行操作,而將亮度的 變更量、及要變更亮度的群組的群組號信息發送給°^站 1 〇〇子站1 〇〇從設定态200或牆壁開關42〇獲取操作員指 定的亮度的變更量及群組號,且對應於所獲^的群组號而 獲取在S103中所存儲的各照明器具3〇〇的固有地址,並 對利用所獲取的各固有地址而識別出的所述 器具300 ’輸出指示亮度的變更量的信號。通過子站 輸出信號,可以僅變更屬於操作員所指定的群組中的各照 明器具300的亮度。 通過所述處理,操作員、子站100可以個別地或者以 群組為單位來控制各照明器具3〇〇。 圖9是表示實施形態2的子站1〇〇、及設定器2〇〇的 硬件的圖。 在圖9中,子站1〇〇、設定器具備執行程序的cpu 911 (CentralPr〇cessUnit,中央處理裝置)cCpu9u 通過 總線912而與顯示器90卜輸入按鈕9〇2、R〇M913(Read 〇nlyMem〇ry,唯讀存取器)、RAM 914 (Random Access Memory,_訪問存儲器)、通信設備915、及磁 920相連接,並控制這些硬件裝置。 乂 RAM 914疋揮智性存儲器、的—例。913、磁碟裝 200803621 置920這些存儲媒體是非揮發性存儲器的一例。這此是存 儲設備、存儲裝置或者存儲部的—例。以下,稱為存儲設 備。 通信設備915、輸入按紐9〇2及存儲設備,其是輸入 設備、輸入裝置或者輸入部的一例。 通信設備915、顯示器_及存儲設備,其是輸出設 備、輸出裝置或者輸出部的一例。 通化设備、915是在子站1QQ、設定器·、照明器具 300、人感傳感器400、照度傳感器41〇、赌壁開關42〇之 間利用有線或無線進行通信。 。在磁碟裝置92〇中,存儲有0S 92l(0peration System, 操作系統)、程序群923、文件群924。程序群923的程序 是由CPU 911、os 921來執行的。 ,10疋本貫施形態2的子站1〇〇的功能結構圖。 Λ施形怨2中的子站100,具備作為個別信息獲取部 的固有地址獲取部11G、設觸作部⑽、·信息設定部 130、以及子站存儲設備190。 口口子站存儲設備190中存儲有照明器具300、人感傳感 态=00、照度傳感器410及牆壁開關420的固有地址等識 別托息:群組號等附加信息,以及控制信息等。控制信息 例如表示:照明器具300的照明、熄滅、亮度的變更;或 者人,傳感器400、照度傳感器41〇的起動、停止;照度 傳感器410及人感傳感器400所具有的LED燈的照明、熄 滅等。 29 200803621 190中選擇並獲 固有地址獲取部110從子站存儲設備 取1個固有地址。 設備操作部’通過使固有地址獲取部11〇所獲取 的固有地址所識別出的1台照明器具進行與其他照明器且 不同的動作,而將1台照明器具通報給操作員。而且了ς 備刼作部120可以根據存儲在子站存儲設備19〇中的 號及控制信息,來控制照明器具勝人感傳感器彻、昭 度傳感器410以及牆壁開關420。 w 附加信息設定部130,從設定器2〇〇接收與設備 部120所通報的照明負載相應的操作員指定的群组號y而 且,將所倾的群_對應於地址而存綱子站存儲設備 190中,從而對各照明器具設定群組號。 ° ,11是實施形態2的設定器200的功能結構圖。 貫施形態2中的設定器200,具備附加信息輸入部 210、k息輸出部220、固有地址選擇部230、以及設定哭 儲設備290。 a °° 遙控器存儲設備290中,存儲有群組號、照明負載的 地址、操作員所按下的輸入按鈕9〇2等信息。 信息輸入部210 (群組信息輸入部、固有地址接收部、 設定請求輸入部)例如是,從輸入按鈕9〇2輸入操作員針 對終端所指定的群組號,並將其存儲到設定器存免 2%中。 角 信息輸出部220 (固有地址請求發送部、附加信息存 儲部、動作請求發送部、群組信息存儲部、設定請求發送 30 200803621The section is a bright place where each of the districts is s*(4) separated from the object (partiti°n), and is not always 'individually divided into incident sunlight management. , ancient reveals, / shots of dimly lit places, and the lighting is interpolated ί 7 2 in groups of units to control the lighting fixture 300: add "chastity to each lighting fixture 300 to specify the group number For 5^1 ^ Mubei for one of the lights identified by si〇i. With 300, from the set to "set the person to set (four) group number. <S103: Additional information setting processing> The substation 1GG reads the illumination load that is not used for other lighting loads, and the slave operation specifies the _plus information. For example, the substation 100 in the field S101 causes one lighting fixture 300 to be illuminated differently from other lighting fixtures, and the operator sets a group number specified by the operator in S1Q2. 2〇〇 Send the group number entered in Lizhong to the sub-station 1〇〇, and the sub-station 1〇〇 will perform lighting fixtures in the si〇i that are illuminated with other lighting fixtures 300$ The unique address corresponds to the group number and is stored. <S104. Device Control Processing> The substation 100 performs control of each lighting load based on the additional information. At this time, it is assumed that the processing of S101 to S103 is performed for each illumination load. For example, when the operator wants to change the brightness of the lighting fixture 300 of a certain group, the operator operates the setter 200 or the wall switch 420, and transmits the amount of change in the brightness and the group number information of the group whose brightness is to be changed. ° ^ Station 1 〇〇子站 1 〇 Obtain the amount of change in the brightness specified by the operator and the group number from the set state 200 or the wall switch 42 ,, and obtain the group number corresponding to the obtained ^ in S103 Each of the stored lighting fixtures has a unique address, and outputs a signal indicating the amount of change in brightness to the appliance 300' identified by the acquired unique addresses. By the substation output signal, it is possible to change only the brightness of each of the illumination devices 300 belonging to the group designated by the operator. Through the processing, the operator and the sub-station 100 can control the respective lighting fixtures 3 individually or in groups. Fig. 9 is a view showing the hardware of the substation 1 and the setter 2A of the second embodiment. In FIG. 9, the substation 1 and the setter are provided with a cpu 911 (Central Processing Unit) cCpu9u that executes a program, and a button 90 is input to the display 90 via the bus 912, and R〇M913 (Read 〇nlyMem) 〇ry, read only accessor, RAM 914 (Random Access Memory), communication device 915, and magnetic 920 are connected and control these hardware devices.乂 RAM 914 疋 intelligent memory, for example. 913. Disk Mounting 200803621 920 These storage media are examples of non-volatile memory. This is an example of a storage device, a storage device, or a storage unit. Hereinafter, it is called a storage device. The communication device 915, the input button 9〇2, and the storage device are examples of the input device, the input device, or the input unit. The communication device 915, the display device, and the storage device are examples of an output device, an output device, or an output unit. The generalizing device 915 communicates by wire or wireless between the substation 1QQ, the setter, the lighting fixture 300, the human sensor 400, the illuminance sensor 41, and the wall switch 42A. . In the disk device 92, an OS 921 (Operation System), a program group 923, and a file group 924 are stored. The program of the program group 923 is executed by the CPU 911 and the os 921. 10, the functional structure diagram of the substation 1 of the basic form 2. The sub-station 100 in the slogan 2 includes a unique address acquisition unit 11G as an individual information acquisition unit, a contact unit (10), an information setting unit 130, and a substation storage device 190. The mouth sub-station storage device 190 stores identification information such as the lighting device 300, the human sensory state = 00, the illuminance sensor 410, and the unique address of the wall switch 420, and the like: additional information such as a group number, control information, and the like. The control information indicates, for example, illumination, extinguishment, and brightness change of the lighting fixture 300; or activation, stop of the sensor 400 and the illuminance sensor 41A, and illumination and extinction of the LED lamp included in the illuminance sensor 410 and the human sensor 400; . 29 200803621 The selection and acquisition by the unique address acquisition unit 110 takes one unique address from the substation storage device. The device operation unit's one lighting fixture identified by the unique address acquired by the unique address acquiring unit 11 is operated differently from the other illuminators, and one lighting fixture is notified to the operator. Further, the preparation unit 120 can control the lighting device sensor sensor, the proximity sensor 410, and the wall switch 420 based on the number stored in the substation storage device 19A and the control information. w The additional information setting unit 130 receives the group number y designated by the operator corresponding to the lighting load notified by the device unit 120 from the setter 2, and stores the tilted group_ corresponding to the address and stores the substation storage device. In 190, a group number is set for each lighting fixture. ° and 11 are functional configuration diagrams of the setter 200 of the second embodiment. The setter 200 in the second embodiment includes an additional information input unit 210, a k-content output unit 220, a unique address selection unit 230, and a setting crying device 290. a ° ° The remote controller storage device 290 stores information such as the group number, the address of the lighting load, and the input button 9〇2 pressed by the operator. The information input unit 210 (the group information input unit, the unique address receiving unit, and the setting request input unit) inputs, for example, the group number designated by the operator for the terminal from the input button 9〇2, and stores it in the setter memory. Free of 2%. An angle information output unit 220 (a unique address request transmitting unit, an additional information storage unit, an operation request transmitting unit, a group information storage unit, and a setting request transmission 30 200803621)
部)例如是’使用通信設備91S而向子站1〇〇發送使! a 照明負載進行與其他照明_不_動作的動作請求。: 且例如、’,信息輸出部22〇各蒦取存儲在存儲設備29〇中的群 組號,亚使用通信設備915向子#⑽發送對照 定群組號的設定請求。 n X 固有地址選擇部23〇 ’從存館在存儲設備29G中的 個地址中選擇並獲取1個地址。 以下’表示實施形態2的照明控制系、统1〇1的設備 理處理(S1G1〜S1G4)中_有地址獲取處理設请通報 處理⑶οι)〜附加信息設定處il(si()3)# 3個實施例。 δ又備控制處理(S104)的實施例,是對屬於特定群組 的照明器具300變更亮度等。 、 <實施例1> 以下σ兒明貫施例1,其中,子站1 〇〇變更照明器具 300的党度而一台一台地通報照明器具3〇〇 (si〇i),設 定器200 —台一台地對各照明器具3〇〇輸入表示“設定 為”群組“G1”的操作員指定(S102),子站100對所述 各照明器具300設定群組號“gi” (S103)。 圖12疋表示本實施形態2的設備管理處理(“Μ〜 S103〔參照圖8〕)的詳細情況的流程圖。 子站1〇〇與設定器200,使用CPU 911來執行以下根 據圖12所說明的各處理(S201〜S215)。 「附加信息輸入處理1 (Sl〇2)」 <S201 :群組信息輸入處理> 31 200803621 操作員按下設定器2QQ的輸人私9()2而指 設定器200的信息輸入部210,將操作 二 組號存儲到存儲設備290中。、和疋的群 固有地址獲取處理·設備通報處理($1〇1) <S202 :固有地址請求發送處理> 」 叫設定器2〇0的信息輸出部22〇,生成用來請 态具300的地址的地址請求,並使用通信設備 二 JLbh 1 nn . J赞运給 <S203 ·固有地址發送處理> 子站100的固有地址獲取部110,在使用通信設 從設定器200接收地址請求信號後,從子站存^二備 中獲取各照明器具300的地址。並且,固有地址獲=部ιι〇 使用通信設備915向設定器200發送各照明器具3〇〇的地 址0 <S204:固有地址接收處理〉 設定器200的信息輸入部21〇,使用通信設備915從 子站1〇〇接收各照明器具300的地址,並存儲到存儲設備 290 中。 <S205 :固有地址有無判定處理> 設定器200的固有地址選擇部23〇,判定在S2〇6中是 否已遠擇所有照明器具300的地址。當未選擇的地址為 “有”時,處理移至S206,當已選擇所有地址而未選擇的 地址為“無”時,則處理移至S213。 <S206:固有地址選擇處理> 32 200803621 設定器200的固有地址選擇部23〇,從存儲在遙控器 存儲設備290的按照各照明器具細的順序排列的固有地 址中 個個地遥擇未選擇的地址與上次所選擇的固有 地址,並輸出給信息輪出部220。 <S207 :動作請求發送處理> 口又疋口口 200的息輸出部220,使用通信設備915向 子站100發送固有地址選擇部23〇所選擇的丨組地址。 <S208:固有地址獲取處理> 子站100的设備操作部120,使用通信設備915從設 定器200接收1組地址。 <S209 :設備通報處理> 子站100的設備操作部12〇,針對丨組地址而生成指 示亮度變更的信號,並使用通信設備915,將利用下述指 示内谷所生成的#號發送給利用所接收的地址而識別出的 知、明裔具300,所述指示内容是指··針對未選擇的地址進 行100%照明,而針對上次所選擇的地址進行最低限度照 明。 一 接收到信號的利用所述地址而識別出的照明器具300 會變更放電燈的亮度,操作員可以識別出以與其他照明器 具300不同的亮度照明的照明器具300。 「附加信息輸入處理2 (S102)」 <S21〇 :群組設定輸入處理> 33 200803621 操作員對於是否對所識別出的照明器具300設定S201 中所指定的群組號’按下設定器200的輸入按鈕902而指 定操作内容。 設定器200的信息輸入部210,從輸入按叙902輸入 操作員所指定的操作内容。 <S211 :設定要否判定處理> 设疋^§ 200的彳a息輸入部210 ’判定操作員指定的操 作内容。在操作内容為“選擇”時將處理移至S2〇5,在操 作内谷為確疋時將處理移至S212 ’在操作内容為“發 送”時將處理移至S213。 <S212 :群組設備對應處理> 當S211中的操作内容為“確定”時,設定器2〇〇的 k息輸入部210將在S201中所輸入的群組號與在S2〇6中 固有地址選擇部230所選擇的地址相對應、並存儲到遙控 器存儲設備290中。並且,設定器2〇〇將處理移至S21〇。 < S213 ·群組設定發送處理> 當S211中的刼作内容為“發送”時,設定器2⑻的 信息輸出部220從遙控器存儲設備29〇獲取S2〇1中信息 輸入部210所輸入的群組號、及對應於該群組號的地址, 並使用通信設備915將其發送給子站1〇〇。 <S214 :附加信息輸入處理〉 子站1〇〇的附加信息設定部130,使用通信設備915 而從設定H 2⑻接收群組號、及對應於該群組號的地址。 「附加信息設定處理(S103)」 34 200803621 =S215 ·附加信息設定處理> 子站10〇的附加作自訊定# , 與地址相對應、而在二二部130 ’使所接收的群組號 im θ本—」賴子站存儲設備19〇中。 疋表不貫施例1的照明哭且300的昭明盥抓定哭 200的輸人之__的流程圖具的照明與… 在圖13中,(η ( 哭且川η从知^〜U)分別表示設置了 2ϋ台照明 i照明狀態。°、場所,且表示不同時間下的照明器具300 “rit圖13所不,柄作員要將左側的10台設定為群組 定為群組將二上的二台設定為群組G2 ’將右下的6台設 ' 、、 。圖13中表示其中群組“G1”的設定。 ^且在圖13中’以長方形的框線所示的照明器具 3〇〇表示以未選擇時的亮度進行照明的情況,例如,以調 光f為25%的亮度進行㈣。長方形的填訪分所示的照 明裔具3GG ’表示以選擇時的亮度進行照明的情況,例如, 表示以調光率為100%的亮度進行照明的情況。 以下,根據圖13說明S206〜S21S的具體例。 (1)假定設定器200的固有地址選擇部23〇所選擇的 地址,是要設定為群組“G1”的照明器具3〇〇a的地址 (S206)。此時,子站100的設備操作部12〇使照明界美 300a以100%的調光率進行照明(S2〇9),設定器'2〇^按 下確定按鈕”(S21〇^)’k息輸入部21〇將照明器具3〇如 的地址對應於群組號 G1而進行存儲(S212)。 35 200803621 (2) s史定态200按下“選擇”按鈕(s21〇),假定 固有地址選擇部23〇所選擇的地址是不要設定為群组 “G1”的照明器具300b的地址(S2〇6)。此時,子站ι〇〇 的設備操作部12G使照明器具·b以刚。/。的調光率進行 照明(S209),設定器200按下“選擇按鈕” (S2i〇)。 (3) 假定設定器2〇〇的固有地址選擇部23〇所選擇的 地址,疋要没定為群組“G1,’的照明器具3〇〇c的地址 (S206)。此時,子站1〇〇的設備操作部12〇使照明器具 300c以1〇〇%的調光率進行照明(S2〇 以抓的調光率進行照明。設定器2〇〇^、、“^按= (S210),信息輸入部21〇將照明器具3〇〇c的地址對應於 群組號“G1”而進行存儲(S2i2)。 (4) 设定态200按下“選擇按鈕” (S21〇),假定 固有地址選擇部230所選擇的地址是要設定為群組“⑺” 的照明器具300d的地址(S206)。此時,子站1〇〇的設 備拓作部120使照明器具3〇〇(1以1〇〇%的調光率進行照明 (S209),設定器2〇〇按下“選擇按鈕,,,信息 輸入U卩210將知明态具3〇〇(j的地址對應於群組號“Gi,, 而進行存儲(S212)。 〜 (5) 設定器200按下“選擇按鈕,,(S21〇),假定 口‘有,也址選擇部23G所選擇的地址是不要設定為群組 01的照明器具3⑻e的地址(S206)。此時,子站1〇〇 =設備操作部120使照明器具300e以100%的調光率進行 …、月(S209),δ又疋态200按下“選擇按|丑” (S210)。 36 200803621 (6) 假定固有地址選擇部23〇所選擇的地址是不要設 定為群組“G1”的照明器具3〇〇f的地址(S2〇6)。此時, 子站100的設備操作部12〇使照明器具3〇〇f以1〇〇%的調 光率進行照明(S209),使照明器具3〇〇e以25%的調光 率進行照明。設定器200按下“選擇按鈕,,(S21〇)。 (7) 重複與(1)〜(6)同樣的處理,對於“要設定,, 為群組“G1”的所有照明器具3〇〇選擇地址(S2〇6),使 所述照明态具300以1〇〇%的調光率進行照明(S2〇9), 使不要設定的照明器具以25%的調光率進行照明。將地址 對應於群組號“G1,,而進行存儲(S212)。此時,設定器 2〇0“按下發送按鈕,信息輸出部22〇將群組 號“G1”及群組“G1”的所有照明器具的地址發送 給子站100 (S213),子站1〇〇的附加信息設定部13〇將 群組“G1,,的所有照明器具的地址對應於群組號 ‘G1”而進行存儲。 在所述具體例巾,也可以將選巾的部分設為着/〇(照 明),將未選中的部分設為熄滅(調光率〇%),調光率 的選定方法為任意。 <實施例2> 以下1明實施例2,其中,子站1〇〇是變更照明器 具上〇〇的壳度而一台一臺地通報照明器具3〇〇(sl〇1), 設定器200是一台一臺地對各照明器具3〇〇輸入表示“不 設定為’’群組“G1,,的操作員指定(S102),子站i⑻對 所述各照明器具300設定群組號“Gl” (sl03)。 37 200803621 圖14是表示實施例2的設備管理處理(slol〜si〇3) 的流程圖。 在圖14中,實施例2的S301〜S315,分別對應於實 細例 1 (圖 12)的 S201 〜S215,而且 S304、S311、S312 與貫施例1 ( S204、S211、S212)不同。其他的處理與實 施例1相同。 以下,對與實施例i不同的實施例2的處理(S3〇4、 S311、S312)進行說明。 <S304:固有地址接收處理> …設定器2〇〇的信息輸入部210,使用通信設備915而 k子站100接收各知、明态具3〇〇的地址,並對應於s2i〇 中所輸入的群組號而存儲到遙控器存儲設備29〇〜中'。 <S311 :設定要否判定處理> 作内紋的信息輸入部21G,判定操作員指定的揭 作内谷、。在插作内容為“選擇,,時將處理移至· 作内容為定刪除,,時將處理移至S312 為 “發送”時將處理移至S213。 在&作内合為 <S312 ·•群組設備對應處理> 當S311中的操作内容為“確定刪除 的k息輸入部210從§304中對庫於君以$、又口口 刪除S306中固有地址選擇部23。所 擇的止亚且’設定器將處理移至S31〇。 圖15是表示實施例2中的照 定器200的輸入之間的關係的流程圖Ϊ、白勺照明、與設 38 200803621 ^下’與實施例!(圖13)同樣,根據圖Μ,對幻〇6 〜15的具體例(實施例2)進行說明。 此處,在S304中,要設定為群組“⑴,,的各照明器 ^ 300的地址、要設^為群組“G2”的各照明器具· ^ ^址、及要設定為群組“G3”料照明器具的地址的 斤有照明器具,的地址,是對應於各群組號而存儲 在遙控器存儲設備290中。For example, the transmission is performed to the substation 1 using the communication device 91S. a Lighting load is performed with other lighting _ not _ action request. And, for example, ', the information output unit 22 蒦 fetches the group number stored in the storage device 29A, and the sub-communication device 915 transmits the setting request of the collation group number to the child #(10). The n X unique address selecting unit 23 〇 'selects and acquires one address from among the addresses in the storage device 29G. In the following, the device control processing (S1G1 to S1G4) of the illumination control system and the system 1 of the second embodiment is described as the address acquisition processing request notification processing (3) οι) to the additional information setting portion il(si()3)# 3 An embodiment. In the embodiment in which the δ is further controlled (S104), the brightness and the like are changed for the lighting fixture 300 belonging to a specific group. <Embodiment 1> The following is a description of the first embodiment, in which the substation 1 〇〇 changes the party degree of the lighting fixture 300 and individually reports the lighting fixture 3 (si〇i), the setter 200 The operator specifies the "set to" group "G1" to each of the lighting fixtures (S102), and the substation 100 sets the group number "gi" to each of the lighting fixtures 300 (S103). . Fig. 12A is a flowchart showing the details of the device management processing ("Μ103 to S103" (see Fig. 8)) according to the second embodiment. The substation 1 and the setter 200 execute the following with reference to Fig. 12 using the CPU 911. Each processing (S201 to S215) is described. "Additional information input processing 1 (S1〇2)" <S201: Group information input processing> 31 200803621 The operator presses the setting unit 2QQ's input private 9 () 2 On the other hand, the information input unit 210 of the setter 200 stores the operation two group numbers in the storage device 290. And group-specific address acquisition processing and device notification processing ($1〇1) <S202: unique address request transmission processing > ” The information output unit 22〇 of the setter 2〇0 is generated to request the state apparatus 300 The address request of the address is used, and the communication device 2 JLbh 1 nn. J is awarded to <S203. Unique address transmission processing> The unique address acquisition unit 110 of the child station 100 receives the address request from the setter 200 using the communication device. After the signal, the address of each lighting fixture 300 is obtained from the slave station. Further, the unique address is obtained by the communication device 915, and the address 0 of each of the lighting fixtures 3 is transmitted to the setter 200 using the communication device 915; S204: the unique address reception processing > the information input portion 21 of the setter 200, and the communication device 915 is used. The address of each lighting fixture 300 is received from the substation 1 and stored in the storage device 290. <S205: Unique address presence determination processing> The unique address selection unit 23 of the setter 200 determines whether or not the address of all the lighting fixtures 300 has been remotely selected in S2〇6. When the unselected address is "Yes", the processing moves to S206, and when all the addresses have been selected and the unselected address is "None", the processing moves to S213. <S206: Unique address selection processing> 32 200803621 The unique address selection unit 23A of the setter 200 remotely selects from the unique addresses stored in the remote controller storage device 290 in the order in which the respective lighting fixtures are arranged in a fine manner. The selected address and the unique address selected last time are output to the information wheeling unit 220. <S207: Operation request transmission processing> The information output unit 220 of the port 200 further transmits the group address selected by the unique address selection unit 23 to the child station 100 using the communication device 915. <S208: Unique address acquisition processing> The device operation unit 120 of the child station 100 receives one set of addresses from the setter 200 using the communication device 915. <S209: Device notification processing> The device operation unit 12 of the child station 100 generates a signal indicating the change in brightness with respect to the group address, and transmits the ## generated by the following indication using the communication device 915. The knowledge and the identification device 300 identified by the received address means that the address is not 100% illuminated for the unselected address, and the minimum selected illumination is performed for the last selected address. The lighting fixture 300 identified by the address upon receipt of the signal changes the brightness of the discharge lamp, and the operator can recognize the lighting fixture 300 that is illuminated at a different brightness than the other luminaires 300. "Additional information input processing 2 (S102)" <S21〇: group setting input processing> 33 200803621 The operator sets whether or not to set the group number specified in S201 to the recognized lighting fixture 300. The input button 902 of 200 specifies the operation content. The information input unit 210 of the setter 200 inputs the operation content designated by the operator from the input 902. <S211: Setting necessity determination processing> The information input unit 210' of the setting 200 determines the operation content designated by the operator. When the operation content is "Select", the process is moved to S2〇5, and when the operation is confirmed, the process is moved to S212'. When the operation content is "Send", the process is moved to S213. <S212: Group device corresponding processing> When the operation content in S211 is "OK", the k-interest input unit 210 of the setter 2 turns the group number input in S201 with S2〇6 The address selected by the unique address selection unit 230 corresponds to and stored in the remote controller storage device 290. And, the setter 2 moves the process to S21〇. <S213: Group setting transmission processing> When the content of the operation in S211 is "transmission", the information output unit 220 of the setter 2 (8) acquires the input from the information input unit 210 in S2〇1 from the remote controller storage device 29A. The group number, and the address corresponding to the group number, are sent to the substation 1 using the communication device 915. <S214: Additional information input processing> The additional information setting unit 130 of the child station 1 receives the group number and the address corresponding to the group number from the setting H 2 (8) using the communication device 915. "Additional information setting processing (S103)" 34 200803621 = S215 - Additional information setting processing > Substation 10 〇 Additional self-determination # , corresponding to the address, and in the second and second parts 130 'the received group No. im θ本—” Laizi station storage device 19〇.疋 不 施 施 施 的 的 照明 照明 照明 照明 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 300 ) indicates that 2 sets of illumination i illumination states are set. °, location, and indicates that the lighting fixture 300 at different times is not shown in Figure 13. The handlekeeper has to set the left 10 sets as a group as a group. The two sets on the second are set to the group G2 'Set the lower right 6 sets to ', '. The setting of the group "G1" is shown in Fig. 13 and is shown in Fig. 13 by the rectangular frame line. The lighting fixture 3A indicates that the illumination is performed when the brightness is not selected, for example, the dimming f is 25% of the brightness (4). The illumination of the rectangular display 3GG' indicates the brightness at the time of selection. In the case of illumination, for example, the case where the illumination is performed with the brightness of the dimming rate of 100% is shown. Hereinafter, a specific example of S206 to S21S will be described with reference to Fig. 13. (1) The unique address selection unit 23 of the setter 200 is assumed The selected address is the address of the lighting fixture 3〇〇a to be set to the group "G1" (S206). The device operation unit 12 of the station 100 causes the illumination interface 300a to illuminate at a dimming rate of 100% (S2〇9), and the setter '2' presses the OK button' (S21〇^)'k input unit 21存储 The address of the lighting fixture 3 is stored corresponding to the group number G1 (S212). 35 200803621 (2) s history setting 200 Press the "Select" button (s21〇), assuming the unique address selecting unit 23〇 The selected address is the address (S2〇6) of the lighting fixture 300b that is not set to the group "G1". At this time, the device operation unit 12G of the sub-station 使 makes the lighting fixture·b The light rate is illuminated (S209), and the setter 200 presses the "select button" (S2i). (3) It is assumed that the address selected by the unique address selection unit 23 of the setter 2 is not determined as a group. "G1," the address of the lighting fixture 3〇〇c (S206). At this time, the device operating unit 12 of the substation 1 〇 illuminates the lighting fixture 300c with a dimming rate of 1% (S2〇 The dimming rate of the grip is illuminated. The setter 2 〇〇 ^, "^ press = (S210), the information input unit 21 对应 corresponds the address of the lighting fixture 3 〇〇 c to the group The number "G1" is stored (S2i2). (4) The setting state 200 is pressed "select button" (S21A), and it is assumed that the address selected by the unique address selecting unit 230 is the lighting to be set as the group "(7)". The address of the appliance 300d (S206). At this time, the device extension unit 120 of the substation 1 turns on the lighting fixture 3 (1 is illuminated at a dimming rate of 1%) (S209), the setter 2〇〇 When the "select button" is pressed, the information input U 卩 210 will recognize the state (the address of j corresponds to the group number "Gi," and is stored (S212). ~ (5) When the setter 200 presses the "Select button, (S21〇), the assumed port is present, the address selected by the address selecting unit 23G is the address of the lighting fixture 3 (8) e which is not set to the group 01 (S206). At this time, the substation 1 〇〇 = the device operation unit 120 causes the lighting fixture 300e to perform the dimming rate of 100%, the month (S209), and the δ and 疋 200 presses "select slash" (S210). 200803621 (6) It is assumed that the address selected by the unique address selecting unit 23 is an address (S2〇6) of the lighting fixture 3〇〇f which is not set to the group “G1.” At this time, the device operating unit 12 of the substation 100照明 Illuminating the lighting fixture 3〇〇f with a dimming rate of 1〇〇% (S209), and illuminating the lighting fixture 3〇〇e with a dimming rate of 25%. The setter 200 presses the “select button, (S21〇). (7) The same processing as (1) to (6) is repeated, and for all the lighting fixtures 3 of the group "G1" to be set, the address (S2〇6) is selected, and the illumination state is set 300. Illumination is performed at a dimming rate of 1% by weight (S2〇9), and the lighting fixture that is not to be set is illuminated at a dimming rate of 25%. The address is stored corresponding to the group number "G1" (S212) . At this time, the setter 2〇0 "presses the send button, and the information output unit 22 transmits the addresses of all the lighting fixtures of the group number "G1" and the group "G1" to the substation 100 (S213), the substation 1 The additional information setting unit 13 stores the address of all the lighting fixtures of the group "G1," corresponding to the group number 'G1". In the specific example, the portion of the selected towel may be set to /〇(lighting), the unselected portion is set to be off (dimming rate 〇%), and the method of selecting the dimming rate is arbitrary. <Embodiment 2> The following is a description of Embodiment 2, in which the substation 1〇〇 is to change the shell of the lighting fixture and to notify the lighting fixtures one by one (sl〇1), and the setter 200 is to input the lighting fixtures one by one. The operator designation (S102) is not set to ''group' G1', and the sub-station i (8) sets the group number "G1" (s103) to each of the lighting fixtures 300. 37 200803621 FIG. 14 is a diagram showing the second embodiment. Flowchart of device management processing (slol~si〇3). In Fig. 14, S301 to S315 of the second embodiment correspond to the actual example 1 respectively. S201 to S215 (Fig. 12), and S304, S311, and S312 are different from the first embodiment (S204, S211, and S212). The other processing is the same as that of the first embodiment. Hereinafter, the second embodiment is different from the embodiment i. The processing (S3〇4, S311, S312) will be described. <S304: Unique address reception processing> The information input unit 210 of the setter 2〇〇 uses the communication device 915, and the k substation 100 receives each knowledge and explanation. The address of the state is stored in the remote control storage device 29〇~中' corresponding to the group number input in s2i〇. <S311: setting necessity determination processing> In the part 21G, it is determined that the operator specifies the inward valley. When the content of the insertion is "selection, the processing is moved to the content, and the content is deleted. When the processing is moved to S312 to "send", the processing is shifted. To S213. In & is merged into <S312 ·•group device corresponding processing> When the content of the operation in S311 is "determined deletion of the k-interest input unit 210 from § 304, the library is deleted by $, and the mouth is deleted again. In S306, the unique address selecting unit 23 selects the stop and the 'setter shifts the processing to S31. Fig. 15 is a flowchart showing the relationship between the inputs of the illuminator 200 in the second embodiment. In the same manner as in the embodiment (Fig. 13), a specific example (Example 2) of the illusion 6 to 15 will be described with reference to Fig. 3 200803621. Here, in S304, it is set to The address of each illuminator ^ 300 of the group "(1), , the lighting fixtures of the group "G2", and the address of the lighting fixture to be set as the group "G3" lighting fixture are The address of the lighting fixture is stored in the remote controller storage device 290 corresponding to each group number.
p)饭疋δ又疋态200的固有地址選擇部23〇所選擇的 地址疋要設定為群組“G1” ^照明器具3〇〇a的地址 S3〇6)。此時,子站100的設備操作部120使照明器具 3〇〇a以1〇〇〇/0的調光率進行照明(S3〇9),使上次 _心具(如果是第—次’則為存儲在最末尾的地址Ξ 妝明态具)以25%的調光率進行照明。設定器200按下“選 擇按鈕” (S310)。 、()叙疋固有地址選擇部230所選擇的地址是不要設 定為群組“G1”的照明器具3_的地址(S3〇6)。此時, 子站10G的*備操作部12()使照明器具3_以丨帆的調 光率進行照,(S3G9) ’設定器2GG按下“確定刪除按紐” (S310) ’信息輪入部21〇刪除對應於群組號“⑺,,而存 儲的A?、明态具3〇〇b的地址(幻I〕)。 (3)設定器200按下“選擇按鈕” (S310),假定 固有地址4擇部2 3 〇所選擇的地址是要設定為群組“ G j ” 的照明器具300C的地址(S3〇6)。此時,子站1〇〇的設備 39 200803621 操作部120使照明器具300c以1〇〇%的調光率進行照明 (S309),遙控器200按下“選擇按鈕,,(s31〇)。 (4)假定設定器200的固有地址選擇部23〇所選擇的 地址是要設定為群組“G1,,的照明器具3〇〇d的地址 (S306)。此時,子站1〇〇的設備操作部12〇使照明器具 300d以100%的調光率進行照明(S3〇9),使上次所選擇 的知明為具300c以25%的調光率進行照明。設定器2〇〇 按下“選擇按钮” (S3l〇)。 ^ 5)假疋設定器2〇〇的固有地址選擇部2邛所選擇的 地址是不要設定為群組“G1,,的照日m徽的地址 (S306)。此時,子站1〇〇的設備操作部使照明器具 300e以1〇〇〇/。的調光率進行照日月(S3〇9),使上次所選擇 白,明广具3QQd IX 25%的調光率進行照明。設定器2〇〇 按下、,確定刪除按鈕,,(S31〇),信息輸入部21〇 刪除對 應於群組I G1而存儲的照明H具3GGe的地址(S312 )。 (6)设定器200按下“選擇按鈕” (S31〇),假定 口‘有:也址遥擇部230所選擇的地址是不要設定為君,組 G1的照明器具300f的地址(S3〇6)。此時,子站1〇〇 白^又備#作部120使照明器具3〇沉以1〇〇%的調光率進行 …、月(S309)%又定态200按下“確定刪除按鈕,,(S31〇), 信息輸入部210刪除對應於群組號“⑴” 具300f的地址(S312)。 重^复與”⑴〜(6)同樣的處理,對於“不要設 疋;、、、群組“G1”的所有照明器具3〇〇選擇地址(S3〇6), 40 200803621 使所,照明器具300以i00%的調光率進行照明⑻, 使要k擇的所有照明$具3QQ以25%的調光率進行照 刪除對應於群喊“G1,,而存儲的地址(s3i2)。此時 設定器200按下“發送按紐,,(S31〇),信息輸出部咖 將群組#u G1,及群組“G1”的所有照明器具的地 址發送給子站_ (S213),子站議的附加信息設 130將群組“G1”的所錢明器具300的地址對應於群、; 號G1”而進行存儲。 通過所述(1)〜(7),子站1〇〇可以將圖15中左側 的10台照明器具300設定為群組“gi” 。 在所述具體例中,也可以將選中的部分設為1〇〇%(照 明),將未選中的部分設為媳滅(調光率〇%),調光率 的選定方法任意。 <實施例3> 以下,說明實施例3,其中,子站1〇〇變更照明器具 300的亮度而一台一臺地通報照明器具300 (S101),設 定器200 —台一臺地對各照明器具300輸入操作員指定的 “群組號” (S102),子站100對各照明器具300設定各 個群組號(S103)。 圖16是表示實施例3的設備管理處理(S101〜S103) 的流程圖。 子站100與設定器200,是使用CPU 911來執行以下 根據圖16所說明的各處理(S401〜S409)。 「固有地址獲取處理·設備通報處理(S101)」 41 200803621 <S401 ·動作請求發送處理ι> 入按鈕902,而指定開始 操作員按下設定器200的輪 進行設備管理處理。 在口又疋口口 2〇〇中’當^息輪入部no從輪入按鈕術 輸入表示設備管理處理開始的操作員指定時卞 220生成=請求照明器具3⑽的亮度變更的動料求, 並使用通信設備915發送給子站1〇〇。 <S402 :固有地址獲取處理ι> 子站100的固有地址獲取部i 10,在使用通信設備915 而從設定器200接收動作請求時,從子站存儲設備丨 獲取各照明器具300的地址。 <S403 :固有地址有無判定處理> 子站100的固有地址獲取部11〇,判定在S4〇4中是否 已選擇所有照明器具300的地址。當未選擇的地$ “有”時’將處理移至S404;當已選擇所有地址而未選擇 的地址為“無”時,結束設備管理處理。 <S404:固有地址獲取處理2> 子站100的固有地址獲取部110,從在S4〇2中所獲 的各照明為具300的地址中’選擇1個未選擇的地址並 出給設備操作部120。 别 <S405 :設備通報處理> 子站100的設備操作部120生成指示亮度變更的作 號,並使用通信設備915將所生成的信號發送給由料〇4 42 200803621 中固有地址獲取部110所選擇的地址而識別出的照明琴呈 300。 μ …、 接收到L號的利用所述地址而識別出的照明器具3〇〇 而變更放電燈的亮度,操作員可以識別出以與其:照明器 具300不同的亮度進行照明的照明器具3㈧。 「附加信息輸入處理(S102)」 <S406 :群組信息輸入處理> 心作員知:下δ又疋态200的輸入按紐902,而指定對所 識別的照明器具300設定的群組號。 口又定為200的仏息輸入部21〇,利用輸入按鈕輸 入操作員指㈣群組號、並輸出給信息輪出部22〇。 <S407 ··群組設定發送處理> 腺二,的信息輸出部220是,使用通信設備915 二a L息輸入部210所輸入的群組號發送給子站 CS408 附加信息輸入處理> —Ϊϋ1(Κ)的附加信息設定部13Q使用通信設備915從 5又疋為200接收群組號。 「附加信息設定處理(S103)」 <S409 :附加信息設定處理〉 :站1〇0的附加信息設定部130,將S408中所接收的 群組號與S404中同古a 中固有地址獲取部Π0所選擇的地址相對 £也存储到子站存儲設備190中。 <S41Q :動作請求發送處理2> 43 200803621 操作員按下設定器200的輸入按鈕9〇2,而指定繼續 進行設備管理處理。 _在"又疋斋200中’當信息輸入部21〇利用輸入按鈕9〇2 輪入表示繼續進行設備管理處理的操作員指定時,信息輸 出部22G生成用以請求變更照明器具则的亮度的動作請 求,並使用通信設備915發送給子站1〇〇。並且,將處理 移至S403。 圖17是表示實施例3中的照明器具3⑻的照明、與設 定器200的輪入之間的關係的流程圖。 口口在圖n中,(1)〜(7)分別表示設置了 20台照明 态具300的相同場所,且表示不同時間下的照明器具3〇〇 的照明狀態。 “如圖17所示,操作員要將左側的1〇台設定為群組 ^01 ,將右上的4台設定為群組G2,將右下的ό台設 疋為群組G3” 。圖17表示各群組的設定情況。 以下’與實施例1 (圖13)同樣,根據圖π對S403 〜S410的具體例進行說明。 (1)假定子站1〇〇的固有地址獲取部110所選擇的地 址是要没定為群組“G1”的照明器具300a的地址 (S404)。此時,子站1〇〇的設備操作部12〇使照明器具 3〇〇a以100°/°的調光率進行照明(S405 )。設定器200按 下<群組按鈕“Gl” (S406),信息輪出部220將群組號 G1發送給子站1〇〇 (S4〇7),子站1〇〇的附加信息設 44 200803621 定部130將群組號“G1”與照明器具300a的地址相對應 而進行存儲(S409)。 (2) 設定器200按下“選擇按鈕,,(S4i〇),假定 子站100的固有地址獲取部110所選擇的地址是要設定為 群組“G2”的照明器具3〇〇b的地址(S4〇4)。此時,子 站100的設備操作部12〇使照明器具3〇〇b以1〇〇%的調光 率進行照明(S405)。設定器200按下群組按鈕“G2,, (5406) ,信息輸出部22〇將群組號“G2”發送給子站1〇〇 (5407) ,子站1〇〇的附加信息設定部13〇將群組號“G2” 與照明器具300b的地址相對應而進行存儲(S4〇9)。 (3) 設定器200按下“選擇按鈕,,(S410),假定 子站100的固有地址獲取部11〇所選擇的地址是要設定為 群組“G1”的照明器具3〇〇c的地址(S4〇4)。此時,子 站100的設備操作部12〇使照明器具3〇〇c& 100%的調光 率進行照明(S405 )。設定器200按下群組按鈕“G1” (5406) ,信息輸出部22〇將群組號“G1,,發送給子站1〇〇 (5407) ,子站1〇〇的附加信息設定部13〇將群組號“G1” 與照明器具300c的地址相對應而進行存儲(S4〇9)。 (4) 設定器200按下“選擇按紐” (S41〇),假定 子站100的固有地址獲取部丨1〇所選擇的地址是要設定為 群組G1的照明器具300d的地址(S404)。此時,子 站100的設備操作部12〇使照明器具3〇〇(1以100%的調光 率進行照明(S405 )。設定器200按下群組按鈕“G1,, (S406),信息輸出部220將群組號“G1,,發送給子站1〇〇 45 200803621 (S407)’子站100的附加信息設定部13〇將群組號“⑴” 與知、明态具300d的地址相對應而進行存儲(以〇9)。 (5) a又疋态200按下“選擇按|丑” ($410),假定 子站100的固有地址獲取部11〇所選擇的地址是要設定為 群組G3的照明器具300e的地址(S404)。此時,子 站1〇〇的設備操作部120使照明器具30(^以1〇〇%的調光 率進行照明(S405)。設定器200按下群組按鈕“G3” (8406)’彳§息輸出部220將群組號“〇3”發送給子站1〇〇 (S407),子站1〇〇的附加信息設定部13〇將群組號“G3,, 與知、明态具300e的地址相對應而進行存儲($409)。 (6) 设疋态200按下“選擇按紐” (s4i〇),假定 子站100的固有地址獲取部110所選擇的地址是要設定為 群組“G3”的照明器具3〇〇f的地址(S4〇4)。此時,子 站1〇〇的設備操作部120使照明器具300f以1〇〇%的調光 率進行照明(S405)。設定器200按下群組按紐“G3” (5406) ’信息輸出部220將群組號“G3”發送給子站1〇〇 (5407) ,子站1〇〇的附加信息設定部13〇將群組號“G3” 與照明器具300f的地址相對應而進行存儲(S4〇9)。 (7) 重複與(1)〜(6)同樣的處理,對於所有照明 态具300選擇地址(S404),使所述照明器具以ι〇〇〇/〇的 調光率進行照明(S405),並將群組號與地址相對應而進 行存儲(S409)。 通過所述(1)〜(7),子站1〇〇在圖17中,可以將 左侧的10台照明器具300設定為群組“G1,,,將右上的4 46 200803621 台照明器具300設定為群組“G2” ,將右下沾 具300設定為群組“G3” 。 、 口照明器 所述實施例3中,説明了使照明器具3〇〇自動 熄滅、調光的控制系統(照明控制系統1〇1 ^ ’ ^的離,此 控制系統可由控制電路、照明器具300、照度傳哭^ 人感傳感器400、開關(牆壁開關42〇)的所有部: 或者也可由包含控制電路、照明器具3 〇 〇的—部^ i 例如,對於具有如下特徵的照明控制裝置(子站、 照明控制系統1〇1)進行說明’即’通過每次對隨: 的照明器具300分配群組號,操作員可以容易地進行= 的設定。 在所述具體例中,也可以將選中的部分設為刚%(照 明),將未選中的部分設為熄滅(調光率〇〇/〉丄 卞 ’调光率 的選定方法是任意的。 在所述實施例1〜實施例3中,子站1〇〇是通過變更 照明的亮度而將作為設定對象的照明器具3〇〇通報給操作 員,但也可以利用其他方法來進行通報。例如,子 也可以使進行照明或熄滅而進行通報。 即,在實施例卜實施例3中,說明了使照明器具· 自動照明或熄滅、調光的控制系統(照明控制系統!, 該控制系統例如由控制電路、照明器具3〇〇、照 410、人感傳感器400、開_ (牆壁開關42〇)白勺所有二件 構成,或者也可由包含控制電路、照明 : 所構成。 1刀 47 200803621 例如,說明了具有以下特被的照明控制駿置(占 100,照明控制系統101),即,通過確認要分配給群 照明器具300的照明或熄滅,操作員可以容易地^行二組 的設定。 例如,說明了具有以下特徵的照明控制裝置(子站 100,照明控制系統101),即,通過確認不要分配給群組 的照明器具300的照明或媳滅,操作員可以容易地進行群 組的設定。 例如,說明了具有以下特徵的照明控制裝置(子站 100,照明控制系統1〇1),即,通過每次對隨機為ON/OFF 的照明器具300分配群組號’操作員可以容易地進行群組 的設定。 <實施例4> 而且,在所述實施例1〜實施例3中,子站100是對 照明器具300設定群組號,但也可以對照明器具300以外 的照明負載設定群組號。例如,也可以對人感傳感器400 或照度傳感器410設定群組號。 圖18是表示實施例4的照度傳感器410的LED燈的 照明與設定器200的輸入之間的關係的流程圖。 在圖18中’(1)〜(3)分別表示設置了 3台照度傳 感器410的相同場所,且表示在不同的時間下照度傳感器 410的LED燈的照明狀態。 48 200803621 而且,在圖18中,以圓形的框線所示的照度 410表示LED燈熄滅的情況,圓形的填充部分所示的日 傳感器410表示LED燈照明的情況。 w'l 以下,與所述實施例1同樣,根據圖18說明將照度 感器410a設定為群組“G1”的情況。 又 (1)假定設定器200的固有地址選擇部23〇所選擇的 地址是不要設定為群組“G1”的照度傳感器4i〇b的地址 (S206)。此時,子站100的設備操作部ι2〇使照度傳感 器410b的LED燈照明(S209),設定器2〇〇按下1;選^ 按鈕” (S210)。 ' (2 )假定設定器200的固有地址選擇部230所選擇白勺 地址是不要設定為群組“G1”的照度傳感器41〇(:的地址 (S206)。此時,子站100的設備操作部120使照度傳感 器410c的LED燈照明(S209),設定器200按下“選擇 按鈕” (S210)。 (3)假定設定器200的固有地址選擇部230所選擇的 地址是要設定為群組“G1”的照度傳感器410a的地址 (S206)。此時,子站100的設備操作部120使照度傳感 器410a的LED燈照明(S209),設定器200按下“發送 按鈕” (S210),信息輸出部220將群組號“G1,,與照度 傳感器410a的地址發送給子站1〇〇 (S213)。並且,子站 100的附加信息設定部130將照度傳感器410a的地址對應 於群組號“G1”而進行存儲(S215)。 49 200803621 通過所述(1)〜(3),子站100可以將圖18中的照 度傳感器410a設定為群組“G1” 。 而且,同樣也可以對人感傳感器400設定群組。 所述實施例4中,說明了使照明器具300自動照明或 熄滅、調光的控制系統(照明控制系統101 )的形態,該 控制系統可由控制電路、照明器具300、照度傳感器410、 人感傳感器400、開關(牆壁開關420)的所有部件所構成, 或者也可由包含控制電路、和、明器具300的一部分所構成。 例如,說明了具有如下特徵的照明控制裝置(子站 100,照明控制系統101),即,通過確認要分配給群組的 照度傳感器410的顯示燈的照明或熄滅,操作員可以容易 地進行群組的設定。 而且,例如說明了具有如下特徵的照明控制裝置(子 站100,照明控制系統101),即,通過確認要分配給群組 的人感傳感器400的顯示燈的照明或熄滅,操作員可以容 易地進行群組的設定。 <實施例5> 在所述實施例1〜實施例4中,子站1〇〇對照明器具 300、人感傳感器400、照度傳感器410設定群組號,但也 可以對其他照明負載設定群組號以外的附加信息。例如, 也可以對牆壁開關420設定使照明的亮度隨著時間的經過 而變化的控制信息(以下,稱為場景號〔場景信息〕), 或使照明的調光率上升或下降的控制信息(以下,稱為調 光信息)等附加信息。 50 200803621 圖19疋表不貫施例5的設備管理處理(Si〇i〜 的流程圖。 圖2〇是實施例5的踏壁開關420的設定晝面的變遷 圖。 者^ ^二表^貝知5的牆壁開關CO的群組開關設定 旦面Λ汉疋态200的輸入之間的關係的流程圖。 圖22是表示實施例5的牆壁開關42〇的場 晝面與設定器200的輪人之_關係、的流程圖。 圖^是表示實施例5的牆壁開關42〇的調光開關設定 旦面與叙$ 2GG的輪人之間的關係的流程圖。 以下根據圖19〜圖23,對實施例5的設備管理處理 (S101〜S103)進行說明。 子站1〇〇與没疋器細,是使用cpu 911來執行以下 根據圖19所說明的各處理(s5〇i〜§5ΐ5)。 「附加信息輸入處理1 (§1〇2)」 <S501 :設定種類輸入處理> 操作員按下設定器200的輸入按鈕9〇2,指定對牆壁 開關420設㈣附加信息(群組號、場景號或調光信 的種類。 ^ 設定器2〇〇的信息輸入部210,從輸入按紐9〇2輸入 對牆壁開關420設定的操作員指定的附加信息的種類。 <S502 :設定種類判定處理> 設定器200的信息輸入部21〇,判定操作員指定的附 加信息的種卖員。當附加信息的種類$ “群組開關設定,, 51 200803621 時,將處理移至S503 ;當附加信息的種類為“場景開關設 定”時,將處理移至S504;當附加信息的種類為“調光開 關設定”時,將處理移至S505。 <S503、S504、S505 :設定晝面顯示處理a、b、c> 當附加信息的種類為“群組開關設定”時,設定器 200的信息輸出部220如圖20的上側所示,在顯示器901 上顯示群組開關設定畫面(S503 )。 當附加信息的種類為“場景開關設定”時,設定器 200的信息輸出部220如圖20的正中所示,在顯示器901 上顯示場景開關設定晝面(S504)。 當附加信息的種類為“調光開關設定”時,設定器 200的信息輸出部220如圖20的下側所示,在顯示器901 上顯示調光開關設定晝面(S505 )。 如圖20所示,當設定器200按下與各晝面相對應的輸 入按鈕902時,對應於所按下的輸入按鈕902而切換顯示 在顯示器901上的設定晝面。 圖21的晝面狀態(1)表示“群組開關設定”的初始 晝面,圖22的晝面狀態(1)表示“場景開關設定”的初 始晝面,圖23的晝面狀態(1)表示“調光開關設定”的 初始畫面。 但是,晝面的狀態並不限定於此,亦可明確顯示群組 開關設定、場景開關設定、調光開關設定。 「固有地址獲取處理·設備通報處理(S101)」 <S506 :設定設備選擇處理> 52 200803621 操作員按下要設定S501中所指定的附加信息的牆壁 開關420。 具有多個信道(按鈕、開關)的牆壁開關42〇,將表 不自身牆壁開關420的地址、與所按下的信道號的信號, 且輸出給子站1〇〇。 <S5〇7:固有地址發送處理> 子站100的固有地址獲取部11〇,從S5〇6中由操作員 所知:下的牆壁開關420輸入信號,並使用通信設備915將 由钻作員所按下的牆壁開關420的地址及信道號發送給設 定器200 〇 <S5〇8 ·固有地址接收處理> 又疋态2〇0的信息輪入部210是,使用通信設備915 而攸子站100接收操作員按下的牆壁開目㈣白勺地址及信 <S5〇9:固有地址顯示處理〉 沾金二up匕心輸出部220如圖21、圖22或圖23 的!面狀恶(2 )所示,y» w 一 於立91 在頒示器9〇1上顯示S508中信息 輸入部210所接收的料辟 羞開關420的地址及信道號。 在圖21、圖22以; 夺干口&4及圖23的晝面狀態(2)中,“Add” 表不由知作貝所按下的 到地址的情況。%相關的地址、或者已接收 面壯:二圖由21的晝面狀態⑺中的“4”、圖22的畫 面狀態(2)中的“Γ曰 尺表不由操作員所按下的信道的信 逼就。例如,4 在赂 厅迷牆壁開關420中是從上開始位於 53 200803621 第4個的信道(按叙、開關),“丨”是位於所述牆壁開關 420的最上方的信道。在圖23的畫面狀態(2)中,設定 器200在信道號上顯示“一”,在“調光開關設定,,中表 不無需信道號。在“調光開關設定,,中,例如,在所述牆 壁開關420中,將位於上侧的信道設為提高調光率的up 開關(例如,第2個),將位於下侧的信道設為降低調光 率的DOWN開關(例如,第3個)。 「附加信息輸入處理2 (S102)」 <S5l〇 :群組·場景信息輸入處理> 才呆作員按下設定器200的輸入按鈕902,指定對S5〇i 中按下的牆壁開關420設定的群組號或場景號。 。没定器200的信息輸入部21〇是,從輸入按鈕9〇2輸 入操作員指定的群組號或場景號,並存儲到遙控器存 備290中。 牆壁開關420中,可以對每個信道(按鈕、開關)設 疋附加信息。 ^ <S511、S512 ·设定繼續判定輸入處理、設定繼續判 疋處理> ' 操作員針對是否繼續對牆壁開關42〇的群組號或場景 二,仃叹疋,按下設定器2〇〇的輪入按鈕9〇2或牆壁開 420而指定操作内容。 刹田二知下輪入按1 丑9〇2時,設定器200的信息輸入部210 、」用輸續鈕902輸入操作員指定的操作内容(S5U)。 卫且^息輪入部210判定操作員指定的操作内容,當操 54 200803621 作^容為“發送”時,將處理移至S513 ;當操作内容為 一’二開關設定”、“場景開關設定,’或“調光開關設 疋日寸’將處理移至S502 (S512)。 在知:下牆壁開關420後,將處理移至,子 站100的固有地址獲取部110利用S511中由操作員所按 下=牆壁開關420而輸入信號,並使用通信設備915將操 =員所按下的牆壁開關420的地址及信道號發送給設定= <S513 :群組·場景信息發送處理> ,P又疋态200的信息輸出部220是,使用通信設備915 將對應於遙控器存儲設備29〇而存儲的牆壁開關42〇的地 址(以及信道號)、與所述牆壁開關420 (以及信道號) 的群組號或場景號,發送給子站1〇〇。 &此時,信息輪出部220如圖21、圖22或圖23的晝面 狀態(3)所示,在顯示器9〇1上顯示「發送標記」。— <S514 :附加信息輸入處理> 子站100的附加信息設定部130是,使用通信設備915 從設定器200接收牆壁開關420的地址(以及信道號)與 所述牆壁開關420 (以及信道號)的群組號或場景號。 「附加信息設定處理(S103)」 <S515 ··附加信息設定處理> 子站1〇〇的附加信息設定部130,將所接收的牆壁開 關420的地址(以及信道號)與所述牆壁開關420 (以及 55 200803621 信道號)的群組號或場景號相對應,而存儲到子站 備190中。 存儲設 在所述實施例5中,說明了使照明器具3〇〇自動昭曰 或熄滅、調光的控制系統(照明控制系統1〇1)的形鮮、月 該控制系統可由控制電路、照明器具300、照度傳g哭 410、人感傳感器400、開關(牆壁開關42〇)的所有 所構成,或者也可由包含控制電路、照明器具3〇〇的二部 分所構成。 ° 例如,說明了具有如下特徵的照明控制裝置(子站 100,照明控制系統101),即,可以同時設定要分配給群 組的牆壁開關420的種類(例如,調光開關)與群組或場 景。 所述實施形態2中,設定器200利用子站ι〇〇與各照 明負載進行通信。但是,設定器200也可以直接與各照明 負載進行通信,而不需要通過子站100。 例如’在貫施例1的S202〜S204及實施例2的S302 〜S304中’也可以是由設定器200向照明器具300請求地 址,從而設定器200從照明器具300接收地址。而且例如, 在實施例1的S207〜S209及實施例2的S307〜S309中, 也可以向利用設定器200所選擇的地址而識別出的照明器 具300發送信號,從而變更照明器具300的亮度。而且, 例如在實施例3的S401〜S405中,以設定器200選擇地 址,並向利用所選擇的地址而識別出的照明器具300發送 信號,從而也可以變更照明器具300的亮度。 56 200803621 而且’在貫施例5的S506〜S509中,設定器200獲 取4回壁開關420所輸出的地址及信道,但牆壁開關42〇也 :以不輸出信道而由設定器2〇〇來設定信道。而且,設定 态200也可以直接從牆壁開關420獲取牆壁開關420所輪 出的地址’而不需要通過子站1〇〇。 ^而且,在實施例5中,以設定器200具有群組按鈕、 昜,?、按紐及凋光按紐的情況為例進行了說明,但設定器 200也可以不具有調光按叙。在不具有調光按紐時,設定 器200針對圖20所示的設定晝面的變遷方法,例如,也可 以使晝面以如下方式進行變遷。當設定器2〇〇在顯示群組 ,關設定晝面時按下群組按减,晝面切換為調光開關設 疋畫面,在顯示調光開關設定晝面時按下群組按鈕後,晝 面切換為群組開關設定晝面;在顯示場景開關設定晝面時 按下群組按鈕後,晝面切換為群組開關設定晝面。 所述實施形態2中,例如說明了針對任意配置的照明 負載(知、明為具300、人感傳感器400、照度傳感器41〇、 牆壁開關420等)設定操作員指定的附加信息(群:號等) 的子站100 (設備管理裝置)的設備管理方法。 例如,在該設備管理方法中,固有地址獲取部110進 行以下固有地址獲取處理,,從存儲了多個個別地識別 照明負載的固有地址(MAC地址等)的子站存儲設備i9〇 中,獲取1個固有地址。 而且,設備操作部120 (設備通報部)進行以不設備 通報處理’即,通過使利用所述固有地址獲取:11〇$獲 200803621 取的固有地址A而識別出的照明負載 負載不同的動作,而將照明負載A通報給摔其他恥明 而真,固有地址獲取部110進行附、° 報的照明負载A相應的操作員指定的附加疒阜 而真部130進行以下心:信息設定處 理’即所述固有地址獲取部11〇所輸入的附加信 息A對應於固有地址A而存儲到子站存儲設備19〇中,而 對照明負載A設定附加信息A。 所述^施形態2中所說明的子站1〇〇或設定器2〇〇的 各處理,疋作為程序而存儲在存儲設備中,並由cpu9n 來執行。 所t貝崎悲2中’例如對具有在電腦上執行所述設 備管理方法的特徵的設備管理程序進行了說明。 接著對實施形態3進行說明。 實施形態3中對於以下形態進行說明,該形態下,具 有與多個子站100以及多個設定器進行通信的控制站 500,且彳工制站500控制各子站1〇〇並對連接於各子站1〇〇 的各終端進行管理。 一w主要對與所述實施形態1或實施形態2不同的事項進 灯5兄明’省略說明的事項是與所述實施形態丨或實施形態 2相同的部分。 圖24是實施形態3的控制系統的照明控制系統1〇2 的結構圖。 58 200803621 實施形態3的照明控制系統1〇2 置的控制站500 ’該控制站5〇〇與作工工制5又備衮 子站100以及多個設定器進行f夕個設備控制器的 並對連接於各子站⑽的各㈣it行㉞制各子站100 具備鍵盤、鼠標、顯示器90!等 管理裳置5。〇的形態之一例,可以==腦,是控制 實現。 」用圖2所不的硬件來 ,25是實施形態3的控制站5〇〇的 貫施形態3的控制站5〇〇中, Θ。 以及控制管理存儲設備590。 又疋。Ρ 530、 獲取 的终端的地址11G獲取連接於所述子站100 連接於^,Λ相對,控制管理信息獲取部5UH被取 連接於各子站⑽的終端的地址。 &取 備⑽巾的夂終^二古1〇0中獲取存儲在子站存儲設 σ、、、ς而的口有地址、群組號、控制信息等庐自, :s 有ί 部510通過控制管理裝置500所且 =ί:=::::=獲取連接於操 59 200803621 πι Μ二ί |?^制g理信息獲取部510相當於設定器200的 ^ . λλ ^ 〇攸連接於彳呆作員指定的子站100的 各、、、;而的固有地址中選擇1個固有地址。 上lot棄^理知作部520具有通信部及控制部,相當於子 nn l作部12G。設備㈣部12G使連接於所述 6'、冬糕進仃動作,與此相對,控制管理操作部520 使y刀別連接於各子站⑽的終端進行動作。 控制官理操作部520從設定器接收地址, 二定器200所通信的子站100發送指定了從設定 為200所接收的祕、及規絲作的控制命令信號。而且 例控制官理操作部52〇通過控制管理裝置500所呈有 的鍵盤錢標,向操作員所指定的子站⑽魏指定ρ ==信息獲取部51G所選擇的地址及規定動作的控制命 "b ~子站100的没備操作部12〇接收控制管理裝置5〇〇 Ζ ϋΐίί作部52G所發送的控制命令信號,並根據所 接收的令信號,使利用指定地址而識別出的終端進 行規定的動作。 制官理U設定部53G相當於子站1QG的附加信息 設定部130 ’附加信息設定部13G對連接於所述子站^ 的終端設定附加信息,與此相對,控制管理信息設定部53〇 對連接於各子站100的終端設定附加信息。 口 ,控制管理信息設定部530從設定器200接收操 作員心疋的群組號.控制信息,並將與所述設定器2⑽通信 的子站100的識別信息、操作員指定的群組號控制信息°、 60 200803621 及特定的終端的固有地址相對應而存儲到控制管 備590中。而且例如,控制管理信息設定部530利用S 站500所具有的鍵盤或鼠標等輪入設備,輸入操作員= 的子站100的識別號與群組號.控制信息、,並將操作曰 的子站10 0❾識別信息、操作員指定的群組號控制信烏斑 ,址、及特疋的終端的S]有地址相對應而存制控制管理 f諸設備590中。而且例如,控制管理信息設定部53〇將 存儲在控制管理存儲設備59G中的群組號·控制信息= 址的對應信息發送給設^器2⑻。設師自於 部2H)是,接收控制站的控制管理信息設定部^ 發送__•控翁息與地址的對應信息,並將群組號. 控制#息與地址的對應信息顯示在顯示器901上 操作員。 控制管理存儲設備590相當於子站100的子站 備19〇或設定器200的設定器存儲設備,控制管理ς ,設備590將子站存儲設備⑽或設定器存儲設備29〇所 存儲的信息與各子站1()()的識別信息相對應而進行存儲。 例如,控歸理存儲設備59〇將各終端的固有地址、 群組號、㈣信息與所祕端騎接的子站⑽的識別传 息相對進行存儲。而且例如,控制f理存儲設備柳 將各設定器200的識別信息與所述設定器細所通信的子 站100的識別信息相對應而進行存儲。 實施形態3中的照明控制系統102以如下方式而统— 控制多個子站100。 61 200803621 線以=°°中’分別設置有發送接收無線數據的- ㈣^制站’具備:用以與多個子站1GG發送接收舞複 婁據的天線及進行無線通信的通信部;以及按照用以料: ::站進行統一控制·管理的程序進行動作的控制部。用二 二進行統一控制.管理的程序,例如可存儲在 才工制官理存儲設備590中。 子站100與控制站500利用無線通信發送接收 從子站100向控制站依次發送連接於子站⑽的^故 端的狀態或設定信息等數據。由控制站500對子站⑽二 合判斷終端的狀態’並發送控制數據來控制各终端。而且下 ^本實施縣巾,設定器·也可以進行無線數據的發送 接收,控制站500可以與設定器200進行無線通信。嗖定 器200可以對控制站500中連接於子站1〇〇的各終端· 制參數等進行設定、變更、刪除,進而也可以_制站· 發佈系統控制命令而操作整個照明控制系統。而且,通過 由設定器200來監視控制站500的數據,可以使用設定器 200來掌握整個系統的狀態。 以此,在實施形態3的照明控制系統1〇2中,控制站 500可以通過子站1〇〇來對各終端的信息進行統一 ^理, 並且可以將經統一管理的各終端的信息發送仏嗖定器 200。並且,通過使用實施形態3的照明控制系统σ^〇2,; 起到以下效果’即’可以容易地掌握整個系統,且可以對 連接於多個子站100的終端進行綜合性控制。 62 200803621 然本發明已以較佳實施例揭露如上,铁复、, 限疋本發明,任何熟習此技藝者, 亚非用以 :範圍内,當可作些許之更動與潤飾,因此:::月之· 範圍當視後狀ttf專利範目所狀者。之保護 【圖式簡單說明】 ·、 ° 圖1是照明控制裝置的結構圖。 圖2是照明控制裝置的控制站的結構圖。 圖3疋照明控制裝置的子站的結構圖。 圖4是照明控制裝置的照明負載的結構圖。 圖5是照明控制裝置的結構圖。 圖6疋照明控制裝置的設定器的結構圖。 圖7是照明控制系統1〇1的系統結構圖。 圖8是表示實施形態2的照明控制系統1〇1的設備管 理方法的流程圖。 . 圖9是表示實施形態2的子站1〇〇、設定器2⑻的硬 件的圖。 圖10是實施形態2的子站1〇〇的功能結構圖。 圖11疋貫施形態2的設定器200的功能結構圖。 圖12是表示實施例1的設備管理處理的詳細情況的流 程圖。 圖13是表示本實施形態2的照明器具300的點燈與設 定器200的輪入之間的關係的流程圖。 圖14是表示實施例2的設備管理處理(S101〜S103) 的流程圖。 63 200803621 圖15是表示實施例2的照明器具300的點燈與設定器 200的輪入之間的關係的流程圖。 圖16是表示實施例3的設備管理處理的流程圖。 圖Π是表示實施例3的照明器具300的點燈與設定器 200的輸入之間的關係的流程圖。 圖18是表示實施例4的照度傳感器410的LED燈的 點燈與設定器200的輸入之間的關係的流程圖。 圖19是表示實施例5的設備管理處理的流程圖。 圖20是實施例5的牆壁開關420的設定晝面的變遷 圖。 圖21是表示實施例5的牆壁開關420的群組開關設定 晝面與設定器200的輸入之間的關係的流程圖。 圖22是表示實施例5的牆壁開關420的場景開關設定 晝面與設定器200的輸入之間的關係的流程圖。 圖23是表示實施例5的牆壁開關42〇的調光開關設定 晝面與設定器200的輸入之間的關係的流程圖。 圖24疋貫施形悲3的照明控制系統1〇2的結構圖。 圖25是實施形態3的控制站5〇〇的功能結構圖。 【主要元件符號說明】 11 :照明控制裝置 12、 500 :控制站 13、 1〇〇 :子站 14 :無線網路 15 :通信線 64 200803621 16 :有線網路 17a、300 :照明器具 300a、300b、300c、300d、300e、300f :照明器具 17 :終端 18 :電腦 19、200 :設定器 20 ··上位系統 21 ··作為母機的主控台 22 :傳送線 23 :作為子機的終端 30、 35 ··無線部 31、 36 :天線 32、 37、40 ··有線通信部 33、 38 :控制部 41 燈 42 轉換器部 43 照明控制部 50 無線通信 101、102 :照明控制系統 110 :固有地址獲取部 120 :設備操作部 130 :附加信息設定部 190 :子站存儲設備 210 :附加信息輸入部 65 200803621 220 :信息輸出部 230 :固有地址選擇部 290 :設定器存儲設備 400 :人感傳感器 410、410a、410b、410c ··照度傳感器 420 :牆壁開關 510 ··控制管理信息獲取部 520 ··控制管理操作部 530 :控制管理信息設定部 590 :控制管理存儲設備 901 :顯示器 902 :輸入按紐p) The address selected by the unique address selection unit 23 of the rice cooker δ and the state 200 is set to the group "G1" ^ the address of the lighting fixture 3〇〇a S3〇6). At this time, the device operation unit 120 of the substation 100 causes the lighting fixture 3A to illuminate at a dimming rate of 1 〇〇〇/0 (S3〇9), so that the last _heart (if it is the first time) It is stored at the end of the address 妆 makeup state) with a 25% dimming rate. The setter 200 presses the "select button" (S310). The address selected by the () description unique address selection unit 230 is the address of the lighting fixture 3_ that is not set to the group "G1" (S3〇6). At this time, the standby operation unit 12() of the substation 10G causes the lighting fixture 3_ to perform illumination at the dimming rate of the sail, (S3G9) 'Setter 2GG presses the "OK delete button" (S310) 'information wheel The entry unit 21 deletes the address corresponding to the group number "(7), and the stored A?, the clear state has 3〇〇b (the magic I).) (3) The setter 200 presses the "select button" (S310), It is assumed that the address selected by the unique address 4 selection unit 2 3 is the address (S3〇6) of the lighting fixture 300C to be set as the group "G j ". At this time, the device 39 200803621 of the substation 1 The lighting fixture 300c is illuminated at a dimming rate of 1% (S309), and the remote controller 200 presses the "Select button, (s31). (4) It is assumed that the address selected by the unique address selecting unit 23 of the setter 200 is the address of the lighting fixture 3〇〇d to be set as the group "G1," (S306). At this time, the substation 1〇〇 The equipment operation unit 12 causes the lighting fixture 300d to illuminate at a dimming rate of 100% (S3〇9), and illuminates the previously selected known fixture 300c with a dimming rate of 25%. "Select button" (S3l〇). ^ 5) The address selected by the unique address selection unit 2邛 of the false alarm setter 2〇〇 is the address of the day m emblem that is not set to the group "G1," (S306) ). At this time, the device operation unit of the substation 1 turns the lighting fixture 300e at 1 〇〇〇/. The dimming rate is measured according to the sun and the moon (S3〇9), so that the last selected white, Mingguang has 3QQd IX 25% dimming rate for illumination. The setter 2 按下 presses and confirms the delete button, (S31〇), and the information input unit 21 deletes the address of the illumination H 3GGe corresponding to the group I G1 (S312). (6) The setter 200 presses the "select button" (S31〇), and assumes that the port 'has: the address selected by the address remote selection unit 230 is the address of the lighting fixture 300f that is not set to be the group G1 (S3〇) 6). At this time, the substation 1 〇〇 ^ 又 备 作 作 作 作 作 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明(S31〇), the information input unit 210 deletes the address corresponding to the group number "(1)" 300f (S312). The same processing as (1) to (6) is repeated, "Do not set 疋;,,, All the lighting fixtures of the group "G1" select the address (S3〇6), 40 200803621, the lighting fixture 300 illuminates with the dimming rate of i00% (8), so that all the lightings to be selected are 3QQ The 25% dimming rate is deleted according to the group shouting "G1, and the stored address (s3i2). At this time, the setter 200 presses the "send button, (S31〇), and the information output unit sends the addresses of all the lighting devices of the group #u G1 and the group "G1" to the substation _ (S213), The additional information setting 130 of the sub-station is stored by the address of the money device 300 of the group "G1" corresponding to the group, the number G1". By the above (1) to (7), the sub-station 1 can set the ten lighting fixtures 300 on the left side in Fig. 15 as the group "gi". In the specific example, the selected portion may be set to 1〇〇% (illumination), and the unselected portion may be set to annihilation (dimming rate 〇%), and the method of selecting the dimming rate may be arbitrary. <Embodiment 3> Hereinafter, a third embodiment will be described in which the substation 1 changes the brightness of the lighting fixture 300 and individually reports the lighting fixture 300 (S101), and the setter 200 is placed one by one. The lighting fixture 300 inputs the "group number" designated by the operator (S102), and the sub-station 100 sets each group number for each lighting fixture 300 (S103). Fig. 16 is a flowchart showing the device management processing (S101 to S103) of the third embodiment. The substation 100 and the setter 200 perform the following processing (S401 to S409) described with reference to Fig. 16 using the CPU 911. "Inherent address acquisition processing and device notification processing (S101)" 41 200803621 <S401 • Operation request transmission processing ι> The button 902 is entered, and the operator is designated to start the device management process by pressing the wheel of the setter 200. When the operator input designation indicating the start of the device management processing is input from the round-up button 2, the request is made to request the request for the brightness change of the lighting fixture 3 (10), and It is sent to the substation 1 using the communication device 915. <S402: Unique address acquisition processing ι> The unique address acquisition unit i 10 of the child station 100 acquires the address of each lighting fixture 300 from the child station storage device 时 when receiving the operation request from the setter 200 using the communication device 915. <S403: Unique address presence determination processing> The unique address acquisition unit 11 of the child station 100 determines whether or not the addresses of all the lighting fixtures 300 have been selected in S4〇4. When the unselected land $ "Yes" moves the process to S404; when all the addresses have been selected and the unselected address is "None", the device management process is ended. <S404: Unique address acquisition processing 2> The unique address acquisition unit 110 of the child station 100 selects one unselected address from the address of each of the illuminations obtained in S4〇2 and sends it to the device operation. Part 120. do not <S405: Device notification processing> The device operation unit 120 of the child station 100 generates a flag indicating the change in brightness, and transmits the generated signal to the unique address acquisition unit 110 in the device 4 42 200803621 using the communication device 915. The illuminated piano identified by the selected address is 300. μ ..., the illumination device 3 识别 identified by the address is received, and the brightness of the discharge lamp is changed, and the operator can recognize the luminaire 3 (eight) that illuminates with a different brightness than the illuminator 300. "Additional information input processing (S102)" <S406: Group information input processing> The heart clerk knows that the input button 902 of the lower δ and the second state 200 specifies the group number set for the identified lighting fixture 300. The suffocation input unit 21 is set to 200, and the operator button (4) group number is input by the input button, and is output to the information wheeling unit 22A. <S407 · Group setting transmission processing> The information output unit 220 of the gland 2 is transmitted to the substation CS408 by the communication device 915. The group number input by the information input unit 210 is added to the substation CS408. The additional information setting unit 13Q of Ϊϋ1 (Κ) receives the group number from 5 to 200 using the communication device 915. "Additional Information Setting Processing (S103)" <S409: Additional information setting processing>: The additional information setting unit 130 of the station 1〇0 stores the group number received in S408 with respect to the address selected by the unique address obtaining unit 同0 in the same old language in S404. Go to the substation storage device 190. <S41Q: Operation request transmission processing 2> 43 200803621 The operator presses the input button 9〇2 of the setter 200, and specifies to continue the device management processing. When the information input unit 21 轮2 uses the input button 9〇2 to indicate the operator designation to continue the device management process, the information output unit 22G generates a brightness for requesting the change of the lighting fixture. The action request is sent to the child station 1 using the communication device 915. And, the process is moved to S403. Fig. 17 is a flow chart showing the relationship between the illumination of the lighting fixture 3 (8) and the wheeling of the setter 200 in the third embodiment. In Fig. n, (1) to (7) respectively indicate the same place where 20 illumination devices 300 are installed, and indicate the illumination state of the lighting fixture 3 at different times. “As shown in Figure 17, the operator has to set one of the left stations to group ^01, the upper right four to group G2, and the lower right to group G3”. Fig. 17 shows the setting of each group. Hereinafter, a specific example of S403 to S410 will be described based on Fig. π in the same manner as in the first embodiment (Fig. 13). (1) It is assumed that the address selected by the unique address acquisition unit 110 of the child station 1 is the address of the lighting fixture 300a to be determined as the group "G1" (S404). At this time, the device operation unit 12 of the substation 1 照明 illuminates the lighting fixture 3〇〇a at a dimming rate of 100°/° (S405). Setter 200 is pressed <Group button "Gl" (S406), the information wheeling unit 220 transmits the group number G1 to the substation 1 (S4〇7), and the additional information of the substation 1 is set 44 200803621 The fixed part 130 The group number "G1" is stored in association with the address of the lighting fixture 300a (S409). (2) The setter 200 presses the "Select button, (S4i〇), and assumes that the address selected by the unique address acquisition unit 110 of the child station 100 is the address of the lighting fixture 3〇〇b to be set as the group "G2". (S4〇4) At this time, the device operation unit 12 of the substation 100 causes the lighting fixture 3〇〇b to illuminate at a dimming rate of 1〇〇% (S405). The setter 200 presses the group button “G2” , (5406), the information output unit 22 transmits the group number "G2" to the substation 1 (5407), and the additional information setting unit 13 of the substation 1 turns the group number "G2" with the illumination. The address of the appliance 300b is stored in correspondence (S4〇9). (3) The setter 200 presses the "Select button, (S410), and assumes that the address selected by the unique address acquisition unit 11 of the child station 100 is the address of the lighting fixture 3〇〇c to be set as the group "G1". (S4〇4) At this time, the device operation unit 12 of the substation 100 illuminates the illumination device 3〇〇c& 100% dimming rate (S405). The setter 200 presses the group button "G1" ( 5406) The information output unit 22 transmits the group number "G1" to the substation 1 (5407), and the additional information setting unit 13 of the substation 1 〇 sets the group number "G1" and the lighting fixture 300c. The addresses are stored correspondingly (S4〇9). (4) The setter 200 presses the "select button" (S41〇), and assumes that the address selected by the unique address acquisition unit 子1 of the child station 100 is the address of the lighting fixture 300d to be set as the group G1 (S404). . At this time, the device operation unit 12 of the substation 100 causes the lighting fixture 3 to illuminate (1) at a dimming rate of 100% (S405). The setter 200 presses the group button "G1," (S406), information The output unit 220 transmits the group number "G1," to the additional station setting unit 13 of the substation 1〇〇45 200803621 (S407)'substation 100, and sets the group number "(1)" to the address of the known and explicit state 300d. Correspondingly, it is stored (by 〇9). (5) a 疋 200 Press "Select by ugly" ($410), assuming that the address selected by the unique address acquisition unit 11 of the substation 100 is to be set to The address of the lighting fixture 300e of the group G3 (S404). At this time, the device operation unit 120 of the child station 1 causes the lighting fixture 30 to illuminate with a dimming rate of 1% (S405). The setter 200 The group button "G3" (8406) is pressed to transmit the group number "〇3" to the substation 1 (S407), and the additional information setting unit 13 of the substation 1〇〇 The group number "G3," is stored in association with the address of the known and clear state 300e ($409). (6) Set the state 200 to press the "select button" (s4i〇), assuming the solidity of the substation 100 The address selected by the address acquisition unit 110 is the address (S4〇4) of the lighting fixture 3〇〇f to be set as the group “G3.” At this time, the device operation unit 120 of the substation 1 turns the lighting fixture 300f The dimming rate of 1% is illuminated (S405). The setter 200 presses the group button "G3" (5406) 'The information output unit 220 transmits the group number "G3" to the substation 1 (5407) The additional information setting unit 13 of the substation 1 存储 stores the group number "G3" in association with the address of the lighting fixture 300f (S4〇9). (7) Repeating with (1) to (6) In the same process, the address is selected for all the illumination devices 300 (S404), the lighting fixture is illuminated with a dimming rate of ι〇〇〇/〇 (S405), and the group number is stored corresponding to the address for storage. (S409) By the above (1) to (7), the substation 1 is in Fig. 17, and the 10 lighting fixtures 300 on the left side can be set as the group "G1,,, the upper right 4 46 200803621 The table lighting device 300 is set to the group "G2", and the lower right applicator 300 is set to the group "G3". The port illuminator is described in the third embodiment. The appliance 3 is automatically extinguished and dimmed by the control system (lighting control system 1〇1 ^ ' ^, the control system can be controlled by the control circuit, the lighting fixture 300, the illumination, the sensor 400, the switch (the wall switch 42 All parts of the :): Alternatively, the illuminating control device (substation, lighting control system 〇1) having the following features may be described as being 'i' through Each time the group number is assigned to the lighting fixture 300, the operator can easily perform the setting of =. In the specific example, the selected portion may be set to just % (illumination), and the unselected portion may be set to be off (dimming rate 〇〇 /> 丄卞 ' dimming rate selection method is arbitrary In the first to third embodiments, the substation 1 is notified to the operator by changing the brightness of the illumination, and the illumination device 3〇〇 to be set is notified. However, the notification may be performed by another method. For example, in the third embodiment, a control system for automatically lighting, extinguishing, or dimming the lighting fixture (lighting control system!, the control) is described. The system is composed of, for example, all of the control circuit, the lighting fixture 3, the camera 410, the human sensor 400, the open_ (wall switch 42A), or may be composed of a control circuit and illumination: 1 knife 47 200803621 For example, it is explained that the lighting control system (100, lighting control system 101) having the following special features, that is, by confirming the lighting or extinguishing to be assigned to the group lighting fixture 300, the operator can easily perform two For example, a lighting control device (substation 100, lighting control system 101) having the following features is explained, that is, by confirming illumination or annihilation of the lighting fixture 300 that is not to be assigned to the group, the operator can easily The setting of the group is performed. For example, a lighting control device (substation 100, lighting control system 101) having the following characteristics is explained, that is, by assigning a group number to the lighting fixture 300 that is randomly ON/OFF each time. The operator can easily make group settings. <Embodiment 4> Further, in the first to third embodiments, the substation 100 sets the group number to the lighting fixture 300, but the group number may be set for the lighting load other than the lighting fixture 300. For example, the group number can also be set for the human sensor 400 or the illuminance sensor 410. Fig. 18 is a flowchart showing the relationship between the illumination of the LED lamp of the illuminance sensor 410 of the fourth embodiment and the input of the setter 200. In Fig. 18, '(1) to (3) respectively show the same places where the three illuminance sensors 410 are installed, and indicate the illumination states of the LED lamps of the illuminance sensor 410 at different times. 48 200803621 Further, in Fig. 18, the illuminance 410 indicated by a circular frame line indicates that the LED lamp is turned off, and the day sensor 410 indicated by the circular filled portion indicates the case where the LED lamp is illuminated. W'l Hereinafter, in the same manner as in the first embodiment, the case where the illuminance sensor 410a is set to the group "G1" will be described with reference to FIG. Further, (1) It is assumed that the address selected by the unique address selecting unit 23 of the setter 200 is the address of the illuminance sensor 4i〇b which is not set to the group "G1" (S206). At this time, the device operation unit ι2 of the substation 100 illuminates the LED lamp of the illuminance sensor 410b (S209), the setter 2 〇〇 presses 1; selects the ^ button" (S210). (2) Assume that the setter 200 The address selected by the unique address selection unit 230 is an address of the illuminance sensor 41〇 (: (S206) that is not set to the group "G1". At this time, the device operation unit 120 of the substation 100 causes the LED of the illuminance sensor 410c to be lighted. Illumination (S209), the setter 200 presses the "select button" (S210). (3) It is assumed that the address selected by the unique address selecting unit 230 of the setter 200 is the address of the illuminance sensor 410a to be set as the group "G1". (S206) At this time, the device operation unit 120 of the substation 100 illuminates the LED lamp of the illuminance sensor 410a (S209), the setter 200 presses the "send button" (S210), and the information output unit 220 sets the group number "G1". The address of the illuminance sensor 410a is transmitted to the substation 1 (S213). The additional information setting unit 130 of the substation 100 stores the address of the illuminance sensor 410a in association with the group number "G1" (S215). 49 200803621 By the above (1) to (3), the substation 100 can The illuminance sensor 410a in Fig. 18 is set to the group "G1". Further, it is also possible to set a group to the human sensor 400. In the fourth embodiment, the illumination device 300 is automatically illuminated or extinguished and dimmed. a form of a control system (lighting control system 101), which may be composed of all components of the control circuit, the lighting fixture 300, the illuminance sensor 410, the human sensor 400, the switch (wall switch 420), or may include a control circuit, For example, a lighting control device (substation 100, lighting control system 101) having the following characteristics, that is, illumination of a display lamp by which the illuminance sensor 410 to be assigned to the group is confirmed is explained. Alternatively, the operator can easily perform group setting. Further, for example, a lighting control device (substation 100, lighting control system 101) having the following features, that is, by confirming the human sensor to be assigned to the group, is explained. When the display light of the 400 is turned on or off, the operator can easily set the group. <Embodiment 5> In the first to fourth embodiments, the substation 1 设定 sets the group number to the lighting fixture 300, the human sensor 400, and the illuminance sensor 410, but may also set the group for other lighting loads. Additional information other than the group number. For example, the wall switch 420 may be set with control information for changing the brightness of the illumination over time (hereinafter referred to as a scene number [scene information]), or control information for increasing or decreasing the dimming rate of the illumination ( Hereinafter, additional information such as dimming information is included. 50 200803621 Fig. 19 is a flowchart of the device management process (Si〇i~ of the fifth embodiment). Fig. 2A is a transition diagram of the setting of the tread switch 420 of the fifth embodiment. A flowchart of the relationship between the group switch of the wall switch CO of the Bay 5 and the input of the wall switch 200. Fig. 22 is a view showing the field face of the wall switch 42A of the embodiment 5 and the setter 200. Fig. 2 is a flow chart showing the relationship between the dimming switch setting dimming surface of the wall switch 42A of the fifth embodiment and the wheelman of $2GG. 23. The device management processing (S101 to S103) of the fifth embodiment will be described. The substation 1 is the same as the no device, and the cpu 911 is used to execute the following processing according to FIG. 19 (s5〇i to §) 5ΐ5). "Additional Information Input Processing 1 (§1〇2)" <S501: Setting type input processing> The operator presses the input button 9〇2 of the setter 200 to designate (4) additional information (group number, scene number, or dimming signal type) for the wall switch 420. ^ Setter The two-information information input unit 210 inputs the type of the additional information designated by the operator set to the wall switch 420 from the input button 9〇2. <S502: Setting type determination processing> The information input unit 21 of the setting unit 200 determines the seller of the additional information designated by the operator. When the type of additional information $ "Group switch setting, 51 200803621, the process moves to S503; when the type of the additional information is "Scene switch setting", the process moves to S504; when the type of the additional information is "Tune" When the optical switch is set, the process is moved to S505. <S503, S504, S505: setting face display processing a, b, c> When the type of the additional information is "group switch setting", the information output unit 220 of the setter 200 is as shown in the upper side of Fig. 20 A group switch setting screen is displayed on the display 901 (S503). When the type of the additional information is "scene switch setting", the information output unit 220 of the setter 200 displays the scene switch setting face on the display 901 as shown in the center of FIG. 20 (S504). When the type of the additional information is "dimming switch setting", the information output unit 220 of the setter 200 displays the dimming switch setting face on the display 901 as shown in the lower side of FIG. 20 (S505). As shown in Fig. 20, when the setter 200 presses the input button 902 corresponding to each facet, the setting face displayed on the display 901 is switched in accordance with the pressed input button 902. The facet state (1) of Fig. 21 indicates the initial facet of the "group switch setting", and the face state (1) of Fig. 22 indicates the initial facet of "scene switch setting", and the facet state of Fig. 23 (1) Indicates the initial screen of the "dimming switch setting". However, the state of the face is not limited to this, and the group switch setting, the scene switch setting, and the dimming switch setting can be clearly displayed. "Inherent address acquisition processing and device notification processing (S101)" <S506: Setting device selection processing> 52 200803621 The operator presses the wall switch 420 to which the additional information specified in S501 is to be set. The wall switch 42A having a plurality of channels (buttons, switches) outputs a signal indicating the address of the own wall switch 420 and the pressed channel number to the substation 1A. <S5〇7: Unique address transmission processing> The unique address acquisition unit 11 of the child station 100 knows from the operator in S5〇6 that the lower wall switch 420 inputs a signal and uses the communication device 915 to drill The address and channel number of the wall switch 420 pressed by the member is sent to the setter 200. <S5〇8 • Unique address reception processing> The information rounding unit 210 of the state 2〇0 uses the communication device 915 and the electronic station 100 receives the address and letter of the wall opening (4) pressed by the operator. <S5〇9: Unique address display processing> The digested gold output unit 220 is as shown in Fig. 21, Fig. 22 or Fig. 23! As shown by the surface evil (2), y»w_Yu Li 91 displays the address and channel number of the material shame switch 420 received by the information input unit 210 in the S508 on the issuer 9〇1. In Fig. 21 and Fig. 22; in the dry state & 4 and the facet state (2) of Fig. 23, the "Add" table is not in the case of the address pressed by the known button. % related address, or received face strong: The second picture consists of "4" in the face state (7) of 21, and the picture state (2) in Fig. 22 "The scale of the channel is not pressed by the operator. For example, 4 in the ballroom wall switch 420 is the fourth channel (synchronous, switch) located at 53 200803621 from the top, and "丨" is the channel at the top of the wall switch 420. In the picture state (2) of Fig. 23, the setter 200 displays "one" on the channel number, and in the "dimming switch setting", the channel table does not need a channel number. In the "dimming switch setting", for example, in the wall switch 420, the channel on the upper side is set as an up switch (for example, the second one) for increasing the dimming rate, and the channel on the lower side is set. DOWN switch to reduce the dimming rate (for example, the third one). "Additional information input processing 2 (S102)" <S5l〇: Group/Scene Information Input Processing> The player enters the input button 902 of the setter 200, and specifies the group number or scene number set for the wall switch 420 pressed in S5〇i. . The information input unit 21 of the determinator 200 inputs the group number or the scene number designated by the operator from the input button 9〇2, and stores it in the remote controller 290. In the wall switch 420, additional information can be set for each channel (button, switch). ^ <S511, S512 - Setting continuation determination input processing, setting continuation determination processing > 'The operator sighs against the group number or scene 2 of the wall switch 42 疋, and presses the setter 2 〇〇 The wheeling button 9〇2 or the wall opening 420 specifies the operation content. When the second round of the wheel is pressed by 1 ugly 9 〇 2, the information input unit 210 of the setter 200, "the operation content designated by the operator (S5U) is input by the input button 902. The control unit 210 determines the operation content specified by the operator. When the operation of the operation is 54 200803621, the process proceeds to S513; when the operation content is a 'two switch setting', 'the scene switch setting, 'Or the dimming switch set to the day', the process moves to S502 (S512). After knowing that the wall switch 420 is down, the process is moved to, and the unique address acquisition unit 110 of the substation 100 uses the operator in S511. Press the = wall switch 420 to input the signal, and use the communication device 915 to send the address and channel number of the wall switch 420 pressed by the operator to the setting = <S513: group/scene information transmission processing>, the information output unit 220 of the P state 200 is the address of the wall switch 42A that is stored corresponding to the remote controller storage device 29 using the communication device 915 (and The channel number), the group number or the scene number of the wall switch 420 (and the channel number) are sent to the substation 1〇〇. & At this time, the information wheeling unit 220 displays "send flag" on the display 9〇1 as shown in the facet state (3) of Fig. 21, Fig. 22 or Fig. 23 . - <S514: Additional Information Input Processing> The additional information setting unit 130 of the substation 100 receives the address (and channel number) of the wall switch 420 from the setter 200 and the wall switch 420 (and the channel number) using the communication device 915. Group number or scene number. "Additional Information Setting Processing (S103)" <S515··Additional Information Setting Process> The additional information setting unit 130 of the substation 1 将 sets the address (and channel number) of the received wall switch 420 to the wall switch 420 (and 55 200803621 channel number). The group number or scene number corresponds to and is stored in the sub-station 190. The storage device is provided in the fifth embodiment, and the control system (lighting control system 1〇1) for automatically lighting or extinguishing the lighting fixture 3 is described. The control system can be controlled by the control circuit and the illumination. The appliance 300, the illuminance transmission 104, the human sensor 400, and the switch (wall switch 42A) may be configured by two parts including a control circuit and a lighting fixture. ° For example, a lighting control device (substation 100, lighting control system 101) having characteristics in which the types of wall switches 420 to be assigned to a group (for example, dimmer switches) and groups or Scenes. In the second embodiment, the setter 200 communicates with each illumination load by using the sub-station ι. However, the setter 200 can also communicate directly with the various lighting loads without passing through the substation 100. For example, 'in S202 to S204 of the first embodiment and S302 to S304 of the second embodiment', the setter 200 may request an address from the lighting fixture 300, so that the setter 200 receives the address from the lighting fixture 300. Further, for example, in S207 to S209 of the first embodiment and S307 to S309 of the second embodiment, the illuminating device 300 identified by the address selected by the setter 200 may transmit a signal to change the brightness of the lighting fixture 300. Further, for example, in S401 to S405 of the third embodiment, the address is selected by the setter 200, and a signal is transmitted to the lighting fixture 300 identified by the selected address, whereby the brightness of the lighting fixture 300 can be changed. 56 200803621 Further, in S506 to S509 of the fifth embodiment, the setter 200 acquires the address and channel output by the four wall switch 420, but the wall switch 42 is also provided by the setter 2 without outputting the channel. Set the channel. Moreover, the set state 200 can also retrieve the address of the wall switch 420 directly from the wall switch 420 without passing through the substation 1 〇〇. Further, in the fifth embodiment, the case where the setter 200 has the group button, the 昜, the ?, the button, and the fading button has been described as an example, but the setter 200 may not have the dimming button. When the dimming button is not provided, the setting unit 200 may change the kneading surface in the following manner with respect to the setting method of the setting surface shown in Fig. 20. When the setter 2 is in the display group, press the group press to decrease when the setting is closed, the face is switched to the dimming switch setting screen, and the group button is pressed when the dimming switch setting is displayed. The face switch is set to the group switch setting face; when the group button is pressed while the scene switch setting is displayed, the face switch is switched to the group switch setting face. In the second embodiment, for example, it is described that the operator specifies the additional information (group: number) for the arbitrarily arranged lighting load (known as 300, human sensor 400, illuminance sensor 41, wall switch 420, etc.). Device management method of substation 100 (device management device). For example, in the device management method, the unique address acquisition unit 110 performs the following unique address acquisition processing, and acquires from the substation storage device i9 that stores a plurality of unique addresses (MAC addresses, etc.) that individually identify the illumination load. 1 unique address. In addition, the device operation unit 120 (device notification unit) performs an operation of not performing the device notification processing, that is, the operation of differentiating the load of the illumination load identified by the unique address A obtained by the unique address acquisition: 200803621, On the other hand, the unique address obtaining unit 110 performs an additional operation designated by the operator corresponding to the lighting load A attached to the illuminating load A, and the real part 130 performs the following: information setting processing ‘ The additional information A input by the unique address acquiring unit 11 is stored in the substation storage device 19A corresponding to the unique address A, and the additional information A is set to the lighting load A. The processing of the substation 1 or the setter 2A described in the second embodiment is stored as a program in the storage device and executed by the CPU 9n. The device management program having the feature of executing the device management method on a computer has been described. Next, the third embodiment will be described. In the third embodiment, the following description will be given. In this embodiment, the control station 500 that communicates with the plurality of substations 100 and the plurality of setters is provided, and the completion station 500 controls each of the substations 1 and connects to each Each terminal of the substation 1 is managed. The main items of the first embodiment or the second embodiment are mainly the same as those of the above-described embodiment or the second embodiment. Fig. 24 is a configuration diagram of a lighting control system 1A2 of the control system of the third embodiment. 58 200803621 The control station 500 of the lighting control system 1〇2 of the third embodiment, the control station 5〇〇 and the working system 5 are further equipped with the dice station 100 and a plurality of setting devices for performing the device controller Each of the sub-stations 100 connected to each of the (four) it lines 34 connected to each sub-station (10) is provided with a keyboard, a mouse, a display 90, and the like. An example of a squat form can be == brain, which is a control implementation. In the hardware of Fig. 2, 25 is the control station 5 of the third embodiment of the control station 5 of the third embodiment. And controlling the storage device 590. Hey. 530 530. The acquired address 11G of the terminal is connected to the sub-station 100, and the control management information acquiring unit 5UH is connected to the address of the terminal of each sub-station (10). & (10) towel 夂 ^ 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 二 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子 子By the control management device 500 and = ί:=::::=, the connection is obtained by the operation of the control device 500. The system information acquisition unit 510 corresponds to the setter 200. λλ ^ 〇攸 is connected to One unique address is selected from the unique addresses of each of the sub-station 100 designated by the stagnation worker. The upper discarding unit 520 has a communication unit and a control unit, and corresponds to the sub-n1 unit 12G. The device (four) portion 12G is connected to the 6' and the winter cake is moved, and the control management operation unit 520 causes the y-knife to be connected to the terminal of each sub-station (10) to operate. The control panel operation unit 520 receives the address from the setter, and the substation 100 communicated by the duplexer 200 transmits a control command signal designating the secret and the rule received from the setting of 200. Further, the example control authority operation unit 52 specifies the address selected by the information acquisition unit 51G and the control operation of the predetermined operation to the sub-station (10) designated by the operator by the keyboard money indicator present by the control management device 500. "b ~ The standby operation unit 12 of the substation 100 receives the control command signal transmitted from the control management device 5, and causes the terminal identified by the specified address based on the received command signal. Perform the specified actions. The additional information setting unit 130 of the sub-station 1QG, the additional information setting unit 13G sets the additional information to the terminal connected to the sub-station ^, and the control management information setting unit 53 The terminal connected to each substation 100 sets additional information. The port, control management information setting unit 530 receives the group number and control information of the operator's heart from the setter 200, and controls the identification information of the substation 100 and the group number designated by the operator in communication with the setter 2 (10). The information °, 60 200803621 is stored in the control pipe 590 corresponding to the unique address of the specific terminal. Further, for example, the control management information setting unit 530 inputs the identification number and the group number of the sub-station 100 of the operator = control information by using the wheel-in device such as a keyboard or a mouse which the S-station 500 has, and operates the sub-routine The station identification information, the operator-specified group number control letter, the address, and the special terminal S] have corresponding addresses and are stored in the control device f. Further, for example, the control management information setting unit 53 transmits the correspondence information of the group number and control information = address stored in the control management storage device 59G to the device 2 (8). The device is controlled by the control unit 2, and the control information setting unit of the receiving control station sends the corresponding information of the __• control information and the address, and displays the corresponding information of the group number, control # address and address on the display 901. On the operator. The control management storage device 590 is equivalent to the substation device 19 of the substation 100 or the setter storage device of the setter 200, and the control management device 590 stores the information stored in the substation storage device (10) or the setter storage device 29 The identification information of each substation 1()() is stored in association with each other. For example, the control storage device 59 stores the unique address, the group number, and the (4) information of each terminal in relation to the identification information of the child station (10) on which the secret terminal is riding. Further, for example, the control device stores the identification information of each setter 200 in association with the identification information of the child station 100 in which the setter is finely communicated. The illumination control system 102 in the third embodiment controls a plurality of sub-station 100 in the following manner. 61 200803621 The line is provided with - transmit and receive wireless data in the = ° ° - (4) ^ station "provided: an antenna for transmitting and receiving the dance data with the plurality of substations 1GG and a communication unit for performing wireless communication; Materials used: :: The control unit that performs the operation of the program for unified control and management. The program for unified control and management by two or two can be stored, for example, in the production system storage device 590. The substation 100 and the control station 500 transmit and receive by wireless communication. The slave station 100 sequentially transmits data such as status or setting information connected to the terminal of the substation (10) to the control station. The control station 500 determines the state of the terminal by the substation (10) and transmits control data to control each terminal. Further, the present embodiment can perform wireless data transmission and reception, and the control station 500 can perform wireless communication with the setter 200. The controller 200 can set, change, and delete each terminal parameter or the like connected to the substation 1 in the control station 500, and can also operate the entire lighting control system by the system/distribution system control command. Moreover, by monitoring the data of the control station 500 by the setter 200, the setter 200 can be used to grasp the state of the entire system. As a result, in the illumination control system 1A2 of the third embodiment, the control station 500 can unify the information of each terminal through the substation 1 and can transmit the information of each terminal that is uniformly managed. Stabilizer 200. Further, by using the illumination control system σ^〇2 of the third embodiment, the entire system can be easily grasped, and the terminal connected to the plurality of sub-stations 100 can be comprehensively controlled. 62 200803621 However, the present invention has been disclosed in the preferred embodiments as above, and is limited to the present invention. Anyone skilled in the art can use the following: within the scope, when some changes and retouching can be made, therefore::: The scope of the month is regarded as the shape of the ttf patent model. Protection [Simplified description of the drawings] ·, ° Figure 1 is a structural diagram of the lighting control device. 2 is a structural diagram of a control station of a lighting control device. Figure 3 is a block diagram of a substation of the lighting control device. 4 is a structural diagram of a lighting load of a lighting control device. Fig. 5 is a structural diagram of a lighting control device. Fig. 6 is a structural diagram of a setting device of the illumination control device. Fig. 7 is a system configuration diagram of the illumination control system 101. Fig. 8 is a flowchart showing a device management method of the illumination control system 1A in the second embodiment. Fig. 9 is a view showing the hardware of the substation 1 and the setter 2 (8) in the second embodiment. Fig. 10 is a view showing the functional configuration of a substation 1 in the second embodiment; Fig. 11 is a view showing the functional configuration of the setter 200 of the second embodiment. Fig. 12 is a flow chart showing the details of the device management processing of the first embodiment. Fig. 13 is a flow chart showing the relationship between the lighting of the lighting fixture 300 of the second embodiment and the rounding of the setter 200. Fig. 14 is a flowchart showing the device management processing (S101 to S103) of the second embodiment. 63 200803621 Fig. 15 is a flowchart showing the relationship between the lighting of the lighting fixture 300 of the second embodiment and the rounding of the setter 200. Fig. 16 is a flowchart showing the device management processing of the third embodiment. Fig. Π is a flowchart showing the relationship between the lighting of the lighting fixture 300 of the third embodiment and the input of the setter 200. Fig. 18 is a flowchart showing the relationship between the lighting of the LED lamp of the illuminance sensor 410 of the fourth embodiment and the input of the setter 200. Fig. 19 is a flowchart showing the device management processing of the fifth embodiment. Fig. 20 is a transition diagram of the setting of the wall switch 420 of the fifth embodiment. Fig. 21 is a flow chart showing the relationship between the group switch setting face of the wall switch 420 of the fifth embodiment and the input of the setter 200. Fig. 22 is a flow chart showing the relationship between the scene switch setting face of the wall switch 420 of the fifth embodiment and the input of the setter 200. Fig. 23 is a flow chart showing the relationship between the dimming switch setting face of the wall switch 42A of the fifth embodiment and the input of the setter 200. Fig. 24 is a structural view of the illumination control system 1〇2 of the sacred 3. Fig. 25 is a view showing the functional configuration of a control station 5A according to the third embodiment. [Description of main component symbols] 11 : Lighting control device 12, 500: Control station 13, 1: Substation 14: Wireless network 15: Communication line 64 200803621 16: Cable network 17a, 300: Lighting fixtures 300a, 300b , 300c, 300d, 300e, 300f: lighting fixture 17: terminal 18: computer 19, 200: setter 20 · upper system 21 · main console 22 as a master: transmission line 23: terminal 30 as a slave 35··Wireless units 31 and 36: Antennas 32, 37, 40 • Wired communication units 33 and 38: Control unit 41 Lamp 42 Converter unit 43 Lighting control unit 50 Wireless communication 101, 102: Lighting control system 110: Unique address Acquisition unit 120: device operation unit 130: additional information setting unit 190: substation storage device 210: additional information input unit 65 200803621 220: information output unit 230: unique address selection unit 290: setter storage device 400: human sensor 410 410a, 410b, 410c · Illuminance sensor 420 : Wall switch 510 · Control management information acquisition unit 520 · Control management operation unit 530 : Control management information setting unit 590 : Control management storage device 901 : Display 902 : input button
911 : CPU 912 :總線911 : CPU 912 : Bus
913 : ROM913 : ROM
914 : RAM 915 :通信設備 920 ·•磁碟裝置914 : RAM 915 : Communication Equipment 920 · Disk Device
921 : OS 923 :程序群 924 :文件群 66921 : OS 923 : Program Group 924 : File Group 66