M309049 八、新型說明: 【新型所屬之技術領域】 本創作乃提供世人-種操作簡單、省電又可顯示出建築物外 觀不同亮光夜景效果之「無線電太陽能燈光控制裝置」者。 【先前技術】 因為科技商品的刺激,生活所得的提高,人由最基本的穿著、 飲食’而至交通、娛樂的要求逐次提高,尤甚連聽覺與視覺的接 _ 觸,也成為現代人們追求的感官享受之一。 往昔建築業只注重建材之選用,如磁碑、大理石或高貴建材 作為建築物之特色及提昇其價值,然在這數年來,建築業為丁顯 示建屋之特色及價值性,多以增加建物外牆之燈光為設計走向, 如此不僅可以成為當地之地標,也可成為特殊夜景效果。 因為其燈光器要設以電源線及控制單元,故在建築過程中就 必需事先預留電纜及相關設施,是增加施工的費用。而有的新建 I 大樓若無預留電纜之建築物,或傳統大樓欲增加夜景燈光,就需 要另設外線以裝置,不僅或破壞建物外觀,也因需以人工拉線, 及透過大型吊車或由上而下垂吊的施工方式,除危險也耗費不 貲’且有極高的安全顧慮及不方便之缺點。 無論是拉線或有事先預設電纜線之建築物,所裳設之夜景效 果,皆有耗電及支出費用高之缺點。 【新型内容】 本創作「無線電太陽能燈光控制裝置」係可提供免電線、不 5 M309049 耗電費,裝配容易,不論新舊建築物皆可按設,且操作簡單,利 用太陽能發電,纟續又省力,可依需要控制安裝於其外牆燈飾所 展示出不同之夜景亮光效果,為其主要設計目的。 本創作「無線電太陽能燈光控制裝置」係以一控制器可直接 控制建築物外牆之發光裝置,或混控模式間接由無線燈光控制裝 置發射訊號,指令數多個發光裝置依預定亮光模式,使有不同之 亮光、閃亮、循環亮光及色澤變化的方式者。 本創作「無線電太陽能燈光控制裝置」之發光裝置及無線燈 光控制裝置皆設有太陽能板,以達省電目的者。 本創作「無線電太陽能燈光控制裝置」之發光裝置可依需要 免牽電線而直接設於外牆,以太陽能發電,是不受新舊大廈配電 之困擾,而可適用於任何新舊建築物上者。 本創作「無線電太陽能燈光控制裝置」之無線燈光控制裝置 可計算出所有發光裝置所儲備太陽電能量之可用電時間,供使用 者作為直接控制或混合控制模式之參考。 本創作「無線電太陽能燈光控制裝置」之發光裝置之發光體 係包含有多色燈組,以便可依控制發出不同之色光者。 【實施方式】 本創作「無線電太陽能燈光控制裝置」基本上包括有一控制 器T、無線電燈光控制裝置b及數多個發光裝置a,其中,無線電 燈光控制裝置B及數多個發光裝置A皆具有太陽能發電之功能(詳 後述),因該其由太陽能發電而免事先配線,故而可以依設計目的 M3 09049 也不會破壞原建物之外 固設於任何新舊之建築物上,省時省力, 觀或其它設施。M309049 VIII. New description: [New technical field] This creation is a kind of "radio solar lighting control device" which is easy to operate, saves electricity and can display the different luminous night scenes of buildings. [Prior Art] Because of the stimulation of technology products and the improvement of the income of life, the requirements of people from the most basic wearing and eating, to transportation and entertainment, have been gradually improved, especially the connection between hearing and vision has become the pursuit of modern people. One of the sensory enjoyment. In the past, the construction industry only focused on the selection of building materials, such as magnetic monuments, marble or noble building materials as the characteristics of buildings and enhance their value. However, in the past few years, the construction industry has shown the characteristics and value of housing construction, and more to increase the construction. The lighting of the wall is the design trend, so it can not only become a local landmark, but also become a special night scene effect. Because the light fixture is to be equipped with a power cord and a control unit, it is necessary to reserve cables and related facilities in advance during the construction process, which increases the construction cost. In some new buildings, if there is no cable-reserved building, or if the traditional building wants to add night lighting, it will need to install an external line to install, not only to destroy the appearance of the building, but also to manually pull the wire and through a large crane or The construction method from the top to the bottom hangs, in addition to the danger is also costly 'and has high security concerns and inconveniences. Whether it is a cable or a building with a pre-set cable, the night view effect of the show has the disadvantages of high power consumption and high expenditure. [New content] The creation of "Radio Solar Lighting Control Device" can provide free wire, no 5 M309049 power consumption, easy to assemble, no matter whether new or old buildings can be installed, and easy to operate, using solar power to generate electricity, and then continue It is energy-saving, and can be controlled according to the needs of the exterior wall lighting to display different night light effects, which is the main design purpose. The "Radio Solar Lighting Control Device" of this creation uses a controller to directly control the illuminating device of the external wall of the building, or the mixing mode to indirectly transmit signals by the wireless lighting control device, and instructs the plurality of illuminating devices to follow the predetermined lighting mode. There are different ways of light, sparkle, cycle light and color change. The illuminating device and the wireless light control device of the "Radio Solar Lighting Control Device" of this creation are all equipped with solar panels for the purpose of saving electricity. The illuminating device of the "Radio Solar Lighting Control Device" can be directly installed on the external wall without wires, and can be powered by solar energy. It is not affected by the distribution of new and old buildings, but can be applied to any new and old buildings. . The wireless lighting control unit of the "Radio Solar Light Control Device" can calculate the available electricity time of solar energy stored by all illuminators for the user's reference as a direct control or hybrid control mode. The illuminating device of the illuminating device of the "radio solar lighting control device" of the present invention comprises a multi-color lamp set so that different color lights can be emitted according to the control. [Embodiment] The present invention "radio solar lighting control device" basically includes a controller T, a radio light control device b and a plurality of light-emitting devices a, wherein the radio light control device B and the plurality of light-emitting devices A have The function of solar power generation (described later), because it is generated by solar power and is not pre-wired, M3 09049 can be fixed to any new and old buildings without destroying the original structure, saving time and effort. View or other facilities.
^,無線紐光控姆D錢於可供諸發域置A易於接收 電綠令之位置,如第一圖Α、β實施例,該無線電燈光控制裝置 b係設於建齡m控㈣τ讀制枝有混控賊或直控 核式,所觀合控制(參第―圖Α),就是控彻τ可指令無線電燈 先控制裝置Β分職制各贿絲置Α呈财之赋亮光,如間 斷發光、蚊發光,配合不同色之發絲_色而可達到不同顯 不色光之模式;直接_就是不透過無_燈光控織置Β(如第 -圖Β) ’而直接控制全部發光裝置Α呈簡單全亮或全關之動作。 而混控模式係預先設定各種不同亮光之方式,一但確定混控 模式後,就可朗需之亮光赋齡無線光控繼置β動作: 而圖中所不之控制器τ為戶外遙控之實施例,如為大廈建築物, 則可以有線方式將控制器Τ設於管理室或安全室管控之。 如第二圖所示’該控制器Τ設有高頻發射編碼電路贾卜順 序控制之最大崎設定關電路TS1及微電腦Τ)κ:ρυ,該微電腦 TX-CPU可儲存各種控制模組及相關編碼資料,而透過關關電路TS1 之按鍵K1~K4的細設定’可依需要齡控制無線紐光控制裝 置β或發光裝置Α作不同之混控或直控動作模式,而控制器τ所 指令之控制信號’有可包含有顯示燈色、顯示時間、亮光次序等 專方式。 如第三圖所示,為無線電燈光控制裝置Β之可行電路圖實施 M309049 例,其基本設有微處理機控制電路Bc卜無線電接收電路丽、 無線電發射電路内碼學習控制按鍵_、内碼學習資料及 參數存放元件BM!、顯示元件剛、電源穩壓電路、外部電源 輸入端電路仙1、日細_電路BS1,其中微處理機控制電路 尚L3有王電路時序振盈電路卿、全電路微處理機重置電 路 BR1。^, Wireless New Light Controls D Money is available for the location of the A to be able to receive the Green Green Order. For example, the first figure, the β embodiment, the radio light control device b is set at the age of m control (four) τ reading There are mixed thieves or direct control nucleus, and the control is controlled (see ― Α Α), which is the control of the τ can command the radio light first control device Β separate system, each bribe is set to be rich in the light, such as Intermittent illuminating, mosquito illuminating, with different colors of hair _ color can achieve different modes of colorless light; direct _ is not through the _ light control weaving Β (such as the first - Figure Β) ' directly control all lighting devices Α It is a simple full-light or full-off action. The mixing mode is a way to pre-set various different lights. Once the mixing mode is determined, the brightness of the wireless light control relays the beta action: the controller τ in the figure is an outdoor remote control. In the embodiment, if it is a building, the controller can be set in a management room or a security room in a wired manner. As shown in the second figure, the controller is equipped with a high-frequency transmitting and encoding circuit, the maximum setting switch circuit TS1 and the microcomputer Τ: υ, the microcomputer TX-CPU can store various control modules and related Encoding data, and through the fine setting of the button K1~K4 of the circuit TS1, the wireless neon control device β or the illuminating device can be controlled according to the required age, and the controller τ commands The control signal 'can include a display light color, display time, light sequence, and the like. As shown in the third figure, the M309049 example is implemented for the feasible circuit diagram of the radio lighting control device, which is basically provided with a microprocessor control circuit Bc, a radio receiving circuit, a radio transmission circuit internal code learning control button _, and an inner code learning data. And parameter storage component BM!, display component just, power supply voltage regulator circuit, external power input terminal circuit Xian 1, daily fine _ circuit BS1, wherein the microprocessor control circuit is still L3 has Wang circuit timing vibration circuit, full circuit micro The processor resets the circuit BR1.
而發光衣置A之電路結構’如第四圖所示之可行實施例,其 包括有微處理機控制電路AC卜無線電高頻信號接收電路腿’、、 外部翻電源輸人電路撕、_學習控制按鍵簡、内碼學習 資料及參數存放元件、燈光控制輸出電路Au、強制電源設定 電路APL1、耕控繼触置奴關職、騎顧祕腦、 弱電壓侧、電域源魏麵、數㈣路電源控 制電路APS卜充電電池腦、鴻能充電㈣雜入控制電 路腦、太陽能狀態偵測電路驗,其中’微處理機控制電路拟 尚包含有全電_序振盪電路觸、全電路微處理機重置電路 AR卜 在使用前’首先將控繼T上之順序_之最她數設定開 關電路TS1設定不同之控讎組數,:欠再作以之動作,按下發 光裝置A或無線電燈光控制裝置B之内碼學習控制按鍵腦^ BLN1不放’再按下T上之按鍵π〜Κ4 ’此時微處理$ TX cpu即會 將所設定之最大組數及相關編碼資料’透過高頻發射編碼電路τχι 發射出去’由發絲置A或無線紐光控制裝置B接收,當順利 M309049 寫入内碼學習資料及參數存放元件AMI或BM1後,微處理機控制 電路AC1、BC1就會由其中之微處理器CPU2指令燈光控制輸出電 路或顯示元件B81顯示燈號,以告知操作者學習完畢。 待數夕個發絲置A及無線紐光控繼置B學習完畢之 後’即可練於建築物狀之位置上。 發光裝置A於白天有日照_,太陽能充電板電流輸入控制電 路soi中之太陽能板SL就會吸收太陽能轉換成電屢及電流進入 φ充電電池電路ABA1中蓄電’而此時太陽能狀態侧電路纖會 貞、、i疋否為白天或晚上之判斷,而告知數位電路電源控制電 $ APS1以供作為輸出電壓之依據,如摘測為白天則不輸出電壓, 若經太陽能狀態谓測電路臟偵測為晚上,無日出時,就會輸出 電壓供電池電源昇壓電路厕、弱電壓摘測電路麵、無線電高 頻信號接收電路綱、微處理機控制電路拟、電源穩壓電路 ARG卜㈣學習控制按鍵⑽、㈣判資料及參數存放元件 • 纖、順序控制燈號位置設定_ ASW卜強制電源設定電路Apu 及燈光控制輸出電路AL1等單元運作。 在晚上時’因為無日照供太陽能板SL動作轉換電能故沒有 任何電壓輸出’此時太陽能狀態侧電路職齡將此狀態通知 數位電路電源㈣電路聰_,喊位·f源控制電路觀 若收到的是白天訊息就不會_,若收咖是晚上的訊息時才會 動作’令充電電池電路舰輸出太陽能所儲備的,經電池電 源昇壓電路麵將電壓昇壓至工作電壓,而電源穩壓電路編 M3 09049 則是將電池電源昇壓電路厕i產生之電壓再作第二次之處理,以 穩定工作電壓。 而微處理機控制電路AC1中之第一微處理器cpui會隨時透過 無線電高頻信號触電路麵接收來自控制器τ之無線信號,當 接收到信號時’内瑪學習資料及參數存放元件歷就會先比對是 否為正確錢,若為正確就將此卫作職送至第二微處理器 CPU2 ’再透過燈光控制輸出電路AU顯示控制器τ所指令欲顯示 φ 之燈色及其動作。 而時間參數則是由第二微處理器⑽讀取來自第三微處理 器CPU3之時序信號’發光裝置Α及無線電燈光控制裝置β皆同,The circuit structure of the illuminating garment A is as shown in the fourth embodiment, which includes a microprocessor control circuit AC, a radio high frequency signal receiving circuit leg, and an external power input circuit tearing, _learning Control button Jane, internal code learning data and parameter storage components, lighting control output circuit Au, forced power setting circuit APL1, cultivated control, followed by contact slaves, riding the brain, weak voltage side, electric domain source Wei, number (4) Road power control circuit APS Bu rechargeable battery brain, Hong can charge (four) miscellaneous control circuit brain, solar state detection circuit test, where 'microprocessor control circuit is still included with all-electric _ sequence oscillation circuit touch, full circuit micro The processor reset circuit ARb first sets the number of different control groups in the order of the last number of the control circuit TS1 before the use of the control block, and the operation of the control device is performed by pressing the light-emitting device A or The internal light code control control button of the radio light control device B ^ BLN1 does not put 'press the button on the T π ~ Κ 4 ' at this time micro processing $ TX cpu will set the maximum number of groups and related code data 'through high frequency The shot coding circuit τχι is transmitted 'received by the hairline set A or the wireless neon light control device B. When the smooth M309049 writes the inner code learning data and the parameter storage component AMI or BM1, the microprocessor control circuit AC1, BC1 will be The microprocessor CPU2 instructs the light control output circuit or the display component B81 to display the light number to inform the operator that the learning is completed. After a few eves of hairline set A and wireless New Light Control Relay B, after learning, you can practice in the position of the building. The illuminating device A has sunshine during the day _, and the solar panel SL in the solar charging board current input control circuit soi absorbs solar energy and converts it into electricity and current into the φ rechargeable battery circuit ABA1 to store electricity', and at this time, the solar state side circuit fiber will贞,, i疋 is the judgment of day or night, and tell the digital circuit power control $ APS1 for the output voltage basis, such as the daytime, the output voltage is not output, if the solar state is detected by the circuit For the evening, when there is no sunrise, the voltage will be output for the battery power boost circuit toilet, the weak voltage measurement circuit surface, the radio high-frequency signal receiving circuit, the microprocessor control circuit, the power supply voltage regulator circuit ARG (4) Learning control buttons (10), (4) judgment data and parameter storage components • Fiber, sequential control lamp position setting _ ASW Bu forced power setting circuit Apu and light control output circuit AL1 and other units operate. At night, because there is no sunshine for solar panel SL action conversion energy, there is no voltage output. At this time, the solar state side circuit service age informs the digital circuit power supply of this state (4) Circuit Cong _, shouting · f source control circuit It is not that the daytime message will not be _, if the receipt of the coffee is the message of the night, the action will be made to make the rechargeable battery circuit ship output the solar energy reserve, and the voltage is boosted to the working voltage by the battery power supply boosting circuit surface, and the power supply The voltage regulator circuit M3 09049 is to process the voltage generated by the battery power boosting circuit toilet i for the second time to stabilize the working voltage. The first microprocessor cpui in the microprocessor control circuit AC1 receives the wireless signal from the controller τ through the radio high-frequency signal on the circuit surface at any time. When receiving the signal, the Nema learning data and the parameter storage component are recorded. It will first compare whether it is the correct money. If it is correct, it will send the guard to the second microprocessor CPU2' and then through the light control output circuit AU, the controller τ will instruct to display the color of φ and its action. The time parameter is read by the second microprocessor (10) from the timing signal 'lighting device' and the radio light control unit β of the third microprocessor CPU3.
進而才可鱗確控職燈亮_,仙此可_纽發光裝置A 同步動作要求。 若弱碰伽電路顧偵_觀壓時,即絲充電電池電 路ΑΒΑ1電量不足,微處理機控制電路Αα之第一微處理器_ • 就會指令燈光控制輸出電路仙停止亮光動作,且為避免數位電 路電源控制電路APS1之反應,而使電池電源昇屢電路細及電 源穩屢電路ARG1不斷動作,該數位電路電源控制電路·強 制關閉所有電源。 曰 其t,發光裝置A亦可設有外部備用電源輸入電路撕,當 白天日照時間短’太陽能轉換電能不足,在充電電池電路_ 2 呈弱電量時,且在設定的亮光時間内,該外部備用電源輸入電路 AEV即被啟動,而繼續供電於數位電路電源控制電路卿作動。 M3 09049 而強制電源設定電路APL1之功能,是使在預夜間預設亮光的 時間内,保障燈光控制輸出電路AL1之穩定運作,避免太陽能狀 悲债測電路AS02於仪間受到外來燈光照射,如施工燈、車燈、事 故現%之照明、它處火災'遊行燈光…等突發狀況下,誤判為白 天而發生錯誤之指令,而強制電源設定電路^^^丨仍會強制燈光控 制輸出電路AL1繼續動作。 以上發光裝置A疋可由控制器τ直接控制(如第五圖)或由控In order to achieve the correct position of the job light _, this can be _ New illuminator A synchronous action requirements. If the weak touch gamma circuit detects the voltage, the wire charging battery circuit ΑΒΑ1 is insufficient, and the first microprocessor of the microprocessor control circuit Αα _ will instruct the light control output circuit to stop the light action, and to avoid The digital circuit power control circuit APS1 reacts to make the battery power supply circuit and the power supply circuit ARG1 continuously operate. The digital circuit power control circuit forcibly turns off all power supplies.曰其t, illuminating device A can also be equipped with an external backup power input circuit to tear, when the daylight hours are short, the solar energy conversion energy is insufficient, when the rechargeable battery circuit _ 2 is weak, and within the set light time, the external The standby power input circuit AEV is activated and continues to be powered by the digital circuit power control circuit. M3 09049 and the function of the forced power setting circuit APL1 is to ensure the stable operation of the light control output circuit AL1 during the pre-night preset bright light, and to avoid the solar light sorrow measurement circuit AS02 being exposed to external light between the instruments, such as Construction lights, lights, accidents, current lighting, fires in the 'parade lights, etc., in the sudden situation, misjudged as the daytime error, and the forced power setting circuit ^^^丨 will force the light control output circuit AL1 continues to move. The above lighting device A疋 can be directly controlled by the controller τ (as shown in the fifth figure) or by the control
制器T控制無線電燈光控繼置B操縱諸多發光裝置A之不同亮 光動作(如第六圖)。The controller T controls the radio lighting control relay B to operate different illumination actions of the plurality of illumination devices A (as shown in the sixth figure).
而無線電燈光控制裝置B之電源亦是藉由外部電源輸入端電 路BD1之室外SL電源供應,而電源穩壓電路抑可將電源穩壓至 可使用之找電壓’且日光強弱偵測電路⑽會將信號輸入至微 處理機控織路BC1供第-微處理諸m計算白天太陽能所轉換 之電壓可供晚上用電之時間,因發光裝置A使用之電能也是由SL 所轉換’故由此即可計算出在各種混控方式下可 制者參考。 叮』 《工 在白天時’無線電燈光控制裝置B之無線電接收電路腿、 顯不疋件则、無線電發射電路BT1皆不發生 侧電路BS1 _到室外天里時,㈣龍〜I行日尤強羽 機控制電路BC1之第一 微地里CPU1才會去啟動它們運作。 電路日光強弱侧電路BS1送出信號給微處理機控制 後’第一微處理器⑽將會計算於白天所吸收太陽能的 M309049 可用電時間,因為無線電燈光控制裝置B與發光裝置A同時接收 太陽能’故而以無線電燈光控制裝置B所吸收的太陽能就可推算 出發光裝置A的可用電時間,或許些有微差,但有加入差異變數 計算’而此經計算過後的數據會送至第二微處理器CPU2,再經第 二微處理器CPU2輸出至顯示元件B81告知使用者整體系統有效亮 光之時間。且微處理機控制電路BC1之第一微處理器CPU1亦會隨 時接收由無線電接收電路BRF1接收來之信號,當接收到控制器τ 之信號時,則會先由内碼學習資料及參數存放元件M1先比對之, 若為混控信號,就會由微處理機控制電路BC1之第二微處理器cpu2 將混控信號處理’最後便由無線電發㈣路βτι發射指令,各個 發光裝置A之無線電高頻信號接收電路厕接收後,進而會依預 疋之指令作出必須之亮光方式。若無線電接收· _接收控制 器τ之信號為餘模式,則絲f燈光㈣裝置B *會作出任何 動作。 其中’微處理機控制電路BC1倾處理機控制電路似之第 三微處理器CPU3之輪出時脈供同步之,因為當發光裝置a接到由 無線電燈光控制裝置B之所主持混控之操作信號要求時,發光裝 置A之微處理機控制電路AC卜順序控制燈號位置設定開關臟 就會依所指定對應位置’顯示燈光控制輸出電路ω之動作,如 第七圖之實關tf ’在混域式巾’發絲置a之順序控制燈號 位置設定關纖妓本核⑽在_雜置,騎16組發 光衣置A貝]各自有自己的顯示組別,但有相同之基礎時脈供同^ M309049 當發光裝置 仰卜時間接收由無線電燈光_裝置B之發 射控制信號’即會啟動微處理機控制電路AC1的第三微處理器⑽ 之基礎時脈後’其各自翔設定之順序控龜餘置設定開關 ASW1在自己所狀^微處理議_錄置齡或呈媳滅之 動作,藉此就可獲致混控之目的。 ^The power supply of the radio lighting control device B is also supplied by the outdoor SL power supply of the external power input terminal circuit BD1, and the power supply voltage stabilizing circuit can regulate the power supply to the usable voltage to be used, and the solar intensity detecting circuit (10) will Input the signal to the microprocessor-controlled weaving road BC1 for the first-micro-processing m to calculate the time during which the voltage converted by the solar energy can be used for nighttime power, because the energy used by the illuminating device A is also converted by the SL. It can be calculated to be a reference in various mixing modes.叮 "When the work is in the daytime, the radio receiving circuit legs of the radio lighting control device B, the display device, and the radio transmitting circuit BT1 do not generate the side circuit BS1 _ to the outdoor sky, (4) Long ~ I line is particularly strong The CPU1 in the first micro-ground of the feather control circuit BC1 will start their operation. After the circuit sunlight intensity side circuit BS1 sends a signal to the microprocessor control, the first microprocessor (10) will calculate the available time of the M309049 absorbed by the solar energy during the day, because the radio light control device B and the illuminating device A simultaneously receive the solar energy. The solar energy absorbed by the radio lighting control device B can be used to calculate the available electric time of the illuminating device A, perhaps slightly different, but with the addition of the difference variable calculation 'and the calculated data is sent to the second microprocessor The CPU 2 then outputs to the display element B81 via the second microprocessor CPU2 to inform the user of the time when the overall system is effectively illuminated. The first microprocessor CPU1 of the microprocessor control circuit BC1 also receives the signal received by the radio receiving circuit BRF1 at any time. When receiving the signal of the controller τ, the internal code learning data and the parameter storage component are first used. M1 is first compared. If it is a mixed control signal, the second microprocessor cpu2 of the microprocessor control circuit BC1 processes the mixed control signal. Finally, the command is transmitted by the radio (four) channel βτι, and each of the light-emitting devices A After the radio high-frequency signal receiving circuit receives the toilet, it will then make the necessary light mode according to the pre-command command. If the signal of the radio reception _receiver controller τ is the residual mode, the device f* (4) device B* will perform any action. Wherein the 'microprocessor control circuit BC1 tilting processor control circuit is similar to the third microprocessor CPU3's turn-off clock for synchronization, because when the light-emitting device a is connected to the operation controlled by the radio light control device B When the signal is required, the microprocessor control circuit AC of the illuminating device A sequentially controls the position of the lamp position setting switch to display the operation of the light control output circuit ω according to the specified corresponding position, as shown in the seventh figure. Mixed field towel 'hairline set a sequence control lamp position setting off fiber 妓 core (10) in _ miscellaneous, riding 16 sets of illuminating clothes A shell] each has its own display group, but with the same basis The pulse supply is the same as ^ M309049 when the illumination device receives the transmission control signal from the radio light_device B, which will start the basic microprocessor of the third microprocessor (10) of the microprocessor control circuit AC1. The sequential control turtle setting switch ASW1 can be used for the purpose of mixing control in its own state. ^
又無線電燈光控制裝置B可在混控模式用作的時間中,自動 由無線電發射電路BT1發射出統一的同步信號給魏装置A,可防 止有多個發光裝置A _長_運作後,發生不同步的狀況。 另’因為所有的發光裝置A的工作電量皆為白天所儲之太陽 能’而無線電燈光控制裝置B之微處理機控制電路Bci的第一微 處理器CPU1會計算所有發光裝置A電量可提觀賊稍最佳用 電時間下’控制所有發光裝置A之燈光控制輸出電路AU皆會一 致在電量肢録敎錢、下停止。這就是要避免各個發光裝置a 的可用電量可能會麵不-致,㈣方使其在輯算其最佳的用 電時間下…致停止動作’方不致發生各個A的電量祕之時間 不同,而產生不諧調的發光顯示情形者。 而燈光控制輸出電路AL1是可具有數多個不同色之燈組,以 供依設定呈現不同色光者。 若控制器T發射之信號為直控模式,則無線電燈光控制裝置 B不發生動作,而是發光裝置A之燈光控制輸出電路AL1依設定之 模式產生預定色燈亮光之效果,但控制器T可指定發光裝置a的 工作時間而可自動停止工作,或直接由控制器T控制之。 13 M309049 &上所述,本創作「無線電太陽能燈光控制裝置」、结構簡單, 可真正提供業界-最麵化賴外觀之輯,方便又經濟,已切 確獲致進步、創難,是申請前未見則^或他人發明於先之事 實’羑提出新型專利申請之。 以上所舉乃本嶋之可行實施細足條本專利,故凡 不超出本創作精神所作的任何改變或等效替換之結果,皆應屬本 創作之專利範圍。 【圖式簡單說明】 第一圖A·係為本創作之混控模式之配置圖。 第一圖B ··係為本創作之直控模式之配置圖。 第二圖:係為本創作之控制器電路圖。 第二圖:係為本創作之太陽能無線燈光控制裝置電路圖。 第四圖:係為本創作之太陽能發光裝置電路圖。 第五圖··係為本創作之直控模式示意圖。 第六圖:係為本創作之混控模式示意圖。 第七圖··係為本創作之數位波形示意圖。 【主要元件符號說明】 τ......控繼 ΤΧ1......高頻發射編碼電路 TS1……順序控制之最大組數設定開關電路 τ - CPll···微處理 A......發光裝置 ......微處理機控制電路 ALN1......内碼學習控制按鍵 Μ M3 09049In addition, the radio light control device B can automatically transmit a unified synchronization signal to the Wei device A by the radio transmitting circuit BT1 during the time when the mixing mode is used, thereby preventing a plurality of lighting devices A_long_ after operation, The status of the synchronization. In addition, because all the operating power of the illuminating device A is the solar energy stored during the day, and the first microprocessor CPU1 of the microprocessor control circuit Bci of the radio lighting control device B calculates the illuminating power of all the illuminating devices A. Under the slightly best power consumption time, the light control output circuit AU that controls all the light-emitting devices A will consistently stop at the power and stop. This is to avoid that the available power of each illuminating device a may not be met, and (4) to make it calculate the best power-on time...the stop action is not to cause the time of each A's battery to be different. And the occurrence of unharmonious illumination shows the situation. The light control output circuit AL1 is a group of lamps that can have a plurality of different colors for presenting different colors according to the settings. If the signal transmitted by the controller T is in the direct control mode, the radio light control device B does not operate, but the light control output circuit AL1 of the illumination device A generates the effect of the predetermined color light according to the set mode, but the controller T can The working time of the illuminating device a is specified to automatically stop the operation or directly controlled by the controller T. 13 M309049 & As mentioned above, the creation of "Radio Solar Lighting Control Device" has a simple structure, which can truly provide the industry-the most versatile appearance. It is convenient and economical. It has been improved and created. If you don’t see it, or if someone else invents the first fact, you can file a new patent application. The above is a simplification of the patents, and any changes or equivalent substitutions that do not go beyond the spirit of this creation shall fall within the scope of this creation. [Simple description of the diagram] The first figure A· is the configuration diagram of the mixing mode of the creation. The first picture B ·· is the configuration diagram of the direct control mode of the creation. The second picture is the circuit diagram of the controller of this creation. The second picture is the circuit diagram of the solar wireless lighting control device. The fourth picture is the circuit diagram of the solar light-emitting device. The fifth picture is a schematic diagram of the direct control mode of the creation. The sixth picture is a schematic diagram of the mixed control mode of the creation. The seventh picture is a schematic diagram of the digital waveform of the creation. [Description of main component symbols] τ... Control succeeding ΤΧ1... High-frequency transmit coding circuit TS1... Maximum number of sequence control set switch circuit τ - CPll···Microprocessing A.. ....Lighting device...Microprocessor control circuit ALN1...Internal code learning control button Μ M3 09049
AMI··. …内碼學習資料及參數存放元件 ARFl· .....無線電同頻彳a 5虎接收電路 ASW1· …··順序控制燈號位置設定開關 AS01· …··太陽能充電板電流輸入控制電路 AS02· …··太陽能狀態偵測電路 AEV··. •…外部備用電源輸入電路 ABAl· ••…充電電池電路 APS1••… ••數位電路電源控制電路 ADUl· .....電池電源昇壓電路AVD1......弱電壓彳貞測電路 ARG1· …··電源穩壓電路 APL1·… ••強制電源設定電路 AL1·· •…燈光控制輸出電路 A0S1••… ••全電路時序振盪電路 AR1·· …·全電路微處理機重置電路 B…·· •無線電燈光控制裝置 BC1…… 微處理機控制電路 BLNl· ••…内碼學習控制按鍵 Ml·· •…内碼學習資料及參數存放元件 BS1" …·曰光強弱偵測電路 BD1…… 外部電源輸入端電路 BG1·· •…電源穩壓電路 BT1…… 無線電發射電路 B81·· …·顯示元件 BRF1·… ••無線電接收電路 B0S1. …··全電路時序振盪電路 BR1·· …·全電路微處理機重置電路AMI··. ... internal code learning data and parameter storage component ARFl· ..... radio same frequency 彳 a 5 tiger receiving circuit ASW1 · ... · · sequential control light position setting switch AS01 · ...·· solar charging board current Input control circuit AS02·...··Solar state detection circuit AEV··. •...External standby power input circuit ABAl·••...Rechargeable battery circuit APS1••... ••Digital circuit power control circuit ADUl· ..... Battery power boost circuit AVD1... weak voltage detection circuit ARG1·...·Power supply voltage regulator circuit APL1·... •• Forced power supply setting circuit AL1·· •...light control output circuit A0S1••... ••Full circuit timing oscillation circuit AR1···All circuit microprocessor reset circuit B...··•Radio light control device BC1... Microprocessor control circuit BLNl· ••... Internal code learning control button Ml·· •... Internal code learning data and parameter storage component BS1" ...·Dawn light intensity detection circuit BD1...... External power input terminal circuit BG1··•...Power supply voltage stabilization circuit BT1... Radio transmission circuit B8 1·· ...·Display element BRF1·... ••Radio receiving circuit B0S1. ...··Full circuit timing oscillation circuit BR1····Full circuit microprocessor reset circuit