1313950 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種能源管理系 可經由遠端信號傳輸方式來"卜別疋關於一種 j乃叭木l刺旎源之能源管理系統。 【先前技術】 在能源管理或電能控制之技 許多控制能源的方法,而㈣士有斗夕業者發展出 mη 此類的方法大都是以佈線之方式 來連接主控端之控缝置或受控端之負载。 式 在專利技術方面,業者設計出供應電力至 電子負載的專利技術,例如專利公開號第奶侧= 置’包括有一太陽能電池,用以心 電此,以產生照明裝置所需的電力;一蓄電池 能電池連接,用以儲存該太陽能電池所產生的電力; ,極燈管,用,提供照明所需的光線;一冷陰極燈管.砂 早7L ’透過一第二電路開關(switch)與該蓄電池連接,用以 驅動該冷陰極燈管發亮。為了達到能源管理之目的,故配 合一感測器偵測環境之亮度後,由太陽能提供電力至該A 陰極燈管發。 7 …此-專利雖然提供了電能管理之技術,但仍必須要透 過實體之電路線路才能控制該負載之發光或不發光之狀 態,除了需要在有限的空間内完成線路的佈設外,更需要 耗費多餘的人力來維護線路,實在不符合經濟效應。 1313950 【發明内容】 本發明所欲解決之技術問題: 、由上述可知,一般管理能源之系統均是利用電線來完 成各個負載之連接及電力控制。採用此種傳統方式,必須 要在建物施卫前即要規劃預留各個線路的佈設位置及路 ' =、,故在施卫作業上相當耗時及耗費佈線成本。當系統要 • ㈣或祕時亦會是m對於使用者而言即會帶來 • 残及困擾。若線賴落、損壞時就必須將原本已佈設好 的線路拆卸逐一檢查,不但維修困難且浪費時間。再者, 以有線佈設之方式’不一定會有很好的信號傳輸可靠度, 7如當地震或建物應力等因素而造成管路破裂、位移、壓 知、或被鼠類喷食時’都會造成線路信號傳輸時之問題。 即使沒有這些因素的存在,當線路老舊時亦會造成短路、 產生雜訊等問題。 、因此,要如何设計出一種能利用無線信號來控制各種 • 電子負載之能源供應系統’實為現今業者亟欲追求之目 標。 緣此,本發明之主要目的即是提供一種能源管理遠端 ㈣傳輸线’其係在主控端提供—種主控端控制模组, ^稭由多個感測器感測環境信號,經由—感測端無線收發 ^置發达出,經由-主控端無線收發裝置將該環境信號傳 达至基準值比對電路比對後,傳送至該主控端控制模組並 經由驅動電路驅動該電源供應迴路,以控制各個負載之供 6 1313950 模植,係先由广要目的即是在感測端提供—種感測端控制 無線收發裝置將該環境信號發送出去'一= 生-電源值私快土 vu專至基準值比對電路比對後’產 “、^才工制信號並利用該主控端盔線發茫 送,由該感測端益線收⑽罢h 而…'踝收毛裝置叙 組,以驅動兮電开供廡、後$入該感測端控制模 動4電源供應迴路’控制各個 本發明所採用的且體η P戰1、電里 附呈圖式作進一步之說明將错由以下之實施例及 本發明解決問題之技術手段: 本發明為解決習知技術之問1M y 在於-種能源管理遠端信==所_之技術手段係 置、至少一負載迴路、至少一 不 3| , 5H·、、, 電源仏應迴路、至少一感測 至--感測端無線發射褒置 裝置、-主控端控制模組、—環境"二“無線接收 遗基準資料庫斑一驅 動电路。該電源供應裝置用以 ’、' 系統之雷六。夂名甚、 、應此源官理遠端信號傳輸 ^別連接 、^連接多個負載。各電源供應迴路 = = 與各負载迴路,用以將該電源供 壞境區域之選定位置,以感 ,又隹頂疋 端盔綿" 兄内之壞境信號。該感測 :=裝置連接該感测器用以將該感測器所產生之環 二收裝置用以接收該主控端 …為射裝置所發出之環境信號。該環境信號基準資料庫 7 1313950 連接及主控端控制模組,用以 — 值。並利用兮俨葦核境信號基準 用違唬基準資料庫所 值與該環境作泸進杆卜斟 衣兄信號基準 了對,以產生—電源供 路。 ““亥電源供應迴路供應電力至該負載迴 本發明對照先前技術之功效: 相較於傳統佈線式的能源管理线,本發明係 源空制:電爾置之供電量,改善了傳統能 尖,,、、、限疋之環境區域内佈線不易、維修困難之缺 再加上本發明可利用太陽能、風力所製造出之能源, =用在多種的電子負載上,即可使能源管理系統之功效 發揮到最大。 本發明所採用的具體實施<列,將藉由以下之實施例及 附呈圖式作進—步之說明。 【實施方式】 -明參閱第一圖所示,係顯示本發明能源管理遠端信號 傳輸系統之第—實施例方塊圖。由圖中可知,本發明係為 一種能源管理遠端信號傳輸系統100,係先感測環境區域 20(3之狀怨(如溫度、溼度及亮度等狀態…)產生環境信號, J用無線收發裝置將環境信號傳輸至控制器,以使該能 源S理遠端信號傳輸系統1〇〇可控制環境區域2〇〇之狀 態0 1313950 該能源管理遠端信號傳輸系統100包括一電源供應裝 置卜複數個電源供應迴路21、22、..·、2η、複數個負載 迴路31、32、·_.、3η、複數個感測器4與—主控端控 組5。 、 該電源供應裝置i可供應能源管理遠端信號傳輸系統 _之電力’而電力來源可來自太陽能、風力等各種能 源11亥電源供應裝置1連接各電源供應迴路21、22、、1313950 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to an energy management system that can be transmitted via a remote signal transmission method to an energy management system of a japonica source. [Prior Art] Many methods of controlling energy in energy management or power control technology, and (4) the method of developing a mη such as a singer, most of them are connected by way of wiring to the control or control of the master. The load on the end. In the patented technology, the industry has devised a patented technology for supplying electric power to an electronic load. For example, the patent publication No. milk side = set includes a solar cell for electrocardiogram to generate the electric power required for the lighting device; The battery can be connected to store the electricity generated by the solar cell; the pole lamp is used to provide the light required for illumination; a cold cathode lamp. The sand is 7L 'through a second circuit switch (switch) A battery connection is used to drive the cold cathode lamp to illuminate. In order to achieve the purpose of energy management, after a sensor is used to detect the brightness of the environment, solar energy is supplied to the A cathode lamp. 7 ... This - although the patent provides the technology of power management, it must still be through the physical circuit circuit to control the state of light or non-lighting of the load, in addition to the need to complete the layout of the line in a limited space, it is more expensive Excessive manpower to maintain the line is really not in line with economic effects. 1313950 SUMMARY OF THE INVENTION Problems to be Solved by the Invention: As can be seen from the above, generally, systems for managing energy use wires to complete connection and power control of respective loads. In this traditional way, it is necessary to plan to reserve the layout position and road of each line before the building is guarded. Therefore, it is quite time consuming and costly for wiring in the maintenance work. When the system requires • (4) or secret time, it will also be m for the user. If the line is damaged or damaged, it is necessary to remove the originally laid-out lines one by one, which is not only difficult to repair but also wastes time. Furthermore, in the form of wired layout, 'not necessarily good signal transmission reliability, 7 such as when the pipeline is broken, displaced, pressed, or sprayed by rodents when factors such as earthquake or building stress cause Causes problems when the line signal is transmitted. Even without these factors, when the line is old, it will cause problems such as short circuit and noise. Therefore, how to design an energy supply system that can use wireless signals to control various electronic loads is what the current industry is pursuing. Therefore, the main purpose of the present invention is to provide an energy management remote (four) transmission line, which is provided at the main control terminal, and a main control terminal control module, which senses environmental signals by multiple sensors. - The sensing terminal wireless transceiver is developed, and the environment signal is transmitted to the reference value comparison circuit via the master terminal wireless transceiver device, and then transmitted to the master control module and driven by the driving circuit. The power supply circuit is used to control the load of each load. The first purpose is to provide a sensing terminal at the sensing end to control the wireless transceiver to send the environmental signal out. Value private fast soil vu is dedicated to the reference value comparison circuit after the 'production', ^ production system signal and use the main control helmet line to send, from the sensing end of the benefit line to receive (10) h and...踝 踝 装置 , , , , , , , , , , , , , , , , , , , 踝 踝 踝 踝 踝 踝 踝 踝 踝 踝 踝 踝 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该Further explanation will be solved by the following embodiments and the present invention. Means: The invention solves the problem of the prior art. 1M y lies in the technical means of the remote management of the energy management, at least one load circuit, at least one not 3|, 5H·, , power supply仏The circuit should be at least one sensed to - the sensing end wireless transmitting device, the - controlling terminal module, the - environment "two" wireless receiving reference data library spot one driving circuit. The power supply unit is used for the ',' system. The name is very, and should be the source of the remote signal transmission. Do not connect, ^ connect multiple loads. Each power supply circuit = = and each load circuit, used to supply the power supply to the selected location of the bad area, to the sense, and then the top of the helmet. The sensing:=the device is connected to the sensor for receiving the environmental signal generated by the control device by the ring-receiving device generated by the sensor. The environmental signal reference database 7 1313950 is connected to the master control module for the value. And use the 兮俨苇Nuclear environment signal base to use the value of the defying benchmark database to match the environment as a benchmark for the production of the power supply. ""Hai power supply circuit supplies power to the load back to the present invention. Compared with the conventional wired energy management line, the present invention is a source air system: the power supply of the electric device is improved, and the conventional energy tip is improved. , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The effect is maximized. The specific implementations of the present invention will be described by way of the following examples and accompanying drawings. [Embodiment] - As shown in the first figure, a block diagram showing a first embodiment of the energy management remote signal transmission system of the present invention is shown. As can be seen from the figure, the present invention is an energy management remote signal transmission system 100, which first senses the environmental area 20 (3 such as grievances (such as temperature, humidity, brightness, etc.) to generate environmental signals, J uses wireless transceiver The device transmits the environmental signal to the controller such that the energy source remote signal transmission system 1 can control the state of the environment area 2 1313950. The energy management remote signal transmission system 100 includes a power supply device a power supply circuit 21, 22, . . . , 2n, a plurality of load circuits 31, 32, ··., 3η, a plurality of sensors 4 and a master terminal group 5. The power supply device i can Supply energy management remote signal transmission system _ power 'and power source can come from solar energy, wind power and other energy sources 11 Hai power supply device 1 connected to each power supply circuit 21, 22,
’而各電源供應迴路則連接負載迴路31、32、…、^, 且各負載迴路3卜32、...、3n分別連接有多個負載η:: Mb、31c、32a、32b、32c、3na、3nb、3ne。 200之選定位置,可感 號si,並連接一感測端 各感測器4係佈設在環境區域 測環境内環境區域2〇〇中之環境信 無線發射裝置6a。 。亥主控端控制模組5分別連接一設定單元51、一主杵 端無線接收裝Ϊ 6b、與—環境信號基準f料庫7,並依^ 驅動電路8與各電源供應迴路。該環境信號基準 貝二7可儲存多筆環境信號基準值(如溫度基準值、溼度 基準值及^度基準值等".)。此外,使用者可利用該設定單 對/亥%i兄彳§號基準資料庫7設定該環境信號基準值。 、、而當本發明之能源管理遠端信號傳輸系統運談 環境區域2〇0中之環境信號Sl ’藉由該感: 出:’衣置“將該環境信號sl以無線傳送方式發射 ^所裝置㈣收該感測端無線發射裝置 出之%衩“號si,並將該環境信號sl送入該主控 9 1313950 端控制模組5内。 *該主控端控制模組5接收到該主控端無線接收裝置 ,接f到之環境信號sl時會與該環境錢基準資料庫7 之%境信號基準值Μ比對,依據比對 ,號一2,,經由驅動電路8以控制:= 應迴路供應電力至該負載迴路。 八 較佳實施例 、例如使用者利用設定單元Μ設定該環境信號基準資 料庫7之^絲準值為27度,若該感測器4感測到環 境以或200内之溫度& 24 &時,該感測器4則會產生一溫 度信號經由該感測端無線發射裝置6a發送出去,此時該主 控端無線接收裝置6b會接收該溫度信號並送人該主控端控 制模組5並與該環境信絲準資㈣7所儲存之溫度信號 基準值進行比對’㈣溫度信號低於使用者所設定之溫度 乜號土準值即產生一電源供應控制信號,經由驅動電路 8以控制該電源供應迴路增加供應電力至該負載迴路與該 負載(如溫度調節褒置),以提高環境區域2〇〇内之溫度。 又例如使用者利用設定單元51設定該環境信號1準 ^料庫7之環境信號基準值為24度,若該感測器彳感測到 %境區域200内之溫度為27度時,該感測器4則會產生— 溫度信號經由該感測端無線發射裝置6a發送出去,此時該 主控端無線接收裝置6b會接收該溫度信號並送入該主控端 控制模組5並與該環境信號基準資料庫7所儲存之溫度信 1313950 波基準值進行比對,_溫度信號高於使用者所設 度信號基準值,即產生一電源供應控制信號,經由驅動; 路8以控制該電源供應迴路減少供應電力至該負載迴路與 該負載’以降低環境區域200内之溫度。 ” 閱第二圖,係顯示本發明能源管理遠端信號傳輸 系奴弟—實施例方塊圖。由圖中可清楚得知,本實施例 與第-實施例之構件與連接關係大致相同’其差異在於各 感,器4依序連接一感測端控制模組9與-感測端無線收 發裝置6c,而該主控端控制模組5連接一主控端無線收發 裝置6d。 本實_在運作時,係先由該感測器4感測環境區域 2〇〇中之環境信號sl並傳送至該感測端控制模組9,以藉 由該感測端無線收發裝置6e將該環境信號si以無線傳^ 方式發射出。之後4主控端無線收發裝置6d接收該感測端 '、、、線收务裝置6c所發出之環境信號sl,並將該環境信號 si送入該主控端控制模組5内。 *。亥主控端控f彳模組5接㈣該主控端無線收發裝置 所接收狀環境信號sl時,會與該環境信號基準資料 庫、7之環境信號基準好以比對,並依據比對結果產生一 電源傳輸控制信號s2 ’經由該主控端無線收發裝置6d發 射出去’由該感測端無線收發裝置6e接收後,傳送至該感 測铷技制模組9,以控制該電源供應迴路供應電力至該負 载迴路。 ' 在只際應用時,可依據實際環境區域之大小而選擇感 1313950 測器及感測端控制模組之裝設位置及主控端控制模組間之 距離,在有必要時,亦可加裝信號中繼站,以確保信號之 傳輸。 凡A悉此技此之專業人士者所能輕易得知者,該主控 端無線發射裝置、該感測端無線接收裝置之間,與該感測 ^無線收發I置、主控端無線收發裝置之間均可藉由短距 热線通訊標準(Zigbee)、藍芽通訊標準(Biue t〇〇th)或其他相 關通訊標準來進行傳輸動作。 藉由上述之本發明實施例可知,本發明確具產業上之 利用價值。惟以上之實施例說明,僅為本發明之較佳實施 例說明,凡習於此項技術者當可依據本發明之上述實施例 祝明而作其它種種之改良及變化。然而這些依據本發明實 施例所作的種種改良及變化,當仍屬於本發明之發明精神 及界定之專利範圍内。 【圖式簡單說明】 第—圖係顯示本發明能源管理遠端信號傳輪系統之第一實 施例方塊圖。 、 第二圖係顯示本發明能源管理遠端信號傳輸系統之第二實 施例方塊圖。 【主要元件符號說明】 ㉟源管理遠端信號傳輸系統 核境區域 12 1313950'The power supply circuit is connected to the load circuits 31, 32, ..., ^, and each load circuit 3, 32, ..., 3n is connected to a plurality of loads η:: Mb, 31c, 32a, 32b, 32c, 3na, 3nb, 3ne. The selected position of 200 can be sensed and connected to a sensing end. Each of the sensors 4 is disposed in an environmental area in the environmental area 2 of the environmental area. . The main control terminal module 5 is connected to a setting unit 51, a main wireless receiving device 6b, and an environmental signal reference f library 7, respectively, and according to the driving circuit 8 and the respective power supply circuits. The ambient signal reference can store multiple environmental signal reference values (such as temperature reference value, humidity reference value, and ^ reference value, etc.). In addition, the user can use the setting list to set the environmental signal reference value for the reference database 7 of the 彳 。 。. And when the energy management remote signal transmission system of the present invention talks about the environmental signal S1 in the environmental area 2〇0 by the sense: out: 'clothing' transmits the environmental signal sl by wireless transmission The device (4) receives the % 衩 “si” of the wireless transmitting device of the sensing terminal, and sends the environmental signal sl into the control module 5 of the main control 9 1313950. * The master control module 5 receives the wireless receiving device of the master terminal, and compares the reference signal value of the environment signal of the environmental money reference database 7 with the environmental signal sl of the environment, according to the comparison, No. 2, via the drive circuit 8 to control: = The circuit should supply power to the load circuit. In a preferred embodiment, for example, the user uses the setting unit to set the environmental signal reference database 7 to a value of 27 degrees, if the sensor 4 senses the temperature of the environment or within 200 & 24 & When the sensor 4 generates a temperature signal and sends it through the sensing terminal wireless transmitting device 6a, the master wireless receiving device 6b receives the temperature signal and sends the control mode to the master terminal. The group 5 is compared with the reference value of the temperature signal stored in the environmental information wire (4) 7 '(4) The temperature signal is lower than the temperature value set by the user, and a power supply control signal is generated, via the driving circuit 8 To control the power supply circuit to increase the supply of power to the load circuit and the load (such as a temperature regulation device) to increase the temperature in the environmental region 2〇〇. For example, the user sets the environmental signal reference value of the environmental signal 1 by the setting unit 51 to 24 degrees. If the sensor 彳 senses that the temperature in the % environment area 200 is 27 degrees, the sense is The detector 4 generates a temperature signal sent through the sensing terminal wireless transmitting device 6a, at which time the master wireless receiving device 6b receives the temperature signal and sends it to the master control module 5 and The temperature signal 1313950 wave reference value stored in the environmental signal reference database 7 is compared, and the _temperature signal is higher than the user-set signal reference value, that is, a power supply control signal is generated, via the drive; the circuit 8 controls the power supply. The supply circuit reduces supply of power to the load circuit and the load to reduce the temperature within the environmental region 200. Referring to the second figure, a block diagram of an embodiment of the energy management remote signal transmission system of the present invention is shown. It is clear from the figure that the components and the connection relationship of the present embodiment and the first embodiment are substantially the same. The difference lies in the sense that the device 4 is sequentially connected to a sensing terminal control module 9 and a sensing terminal wireless transceiver device 6c, and the master terminal control module 5 is connected to a master terminal wireless transceiver device 6d. In operation, the ambient signal s1 in the environmental area 2 is sensed by the sensor 4 and transmitted to the sensing end control module 9 to enable the environment by the sensing end wireless transceiver 6e. The signal si is transmitted in a wireless transmission mode. After that, the fourth master wireless transceiver device 6d receives the environmental signal sl sent by the sensing terminal ', the line receiving device 6c, and sends the environmental signal si to the main In the control terminal control module 5. *. The main control terminal of the control terminal is connected to the (five) environmental signal of the environmental signal reference database, 7 The benchmark is better to compare and generate a power transmission control signal s2 according to the comparison result. After being transmitted by the master wireless transceiver 6d, 'received by the sensing terminal wireless transceiver 6e, it is transmitted to the sensing technology module 9 to control the power supply circuit to supply power to the load circuit. In the case of only the application, the distance between the installation position of the 1313950 detector and the sensing terminal control module and the control module of the main control terminal can be selected according to the size of the actual environment area, and can be installed if necessary. Signal relay station to ensure the transmission of signals. Anyone who knows this skill can easily know, the master wireless transmitting device, the sensing terminal wireless receiving device, and the sensing ^ wireless The transmitting and receiving I and the master wireless transceivers can perform transmission operations by short-distance hot-line communication standard (Zigbee), Bluetooth communication standard (Biue t〇〇th) or other related communication standards. The embodiments of the present invention show that the present invention has industrial use value. However, the above embodiments are merely illustrative of the preferred embodiments of the present invention, and those skilled in the art can Other improvements and variations will occur to those skilled in the art. However, various modifications and changes made in accordance with the embodiments of the present invention are still within the scope of the invention and the scope of the invention defined by the present invention. A block diagram showing a first embodiment of the energy management remote signal transmission system of the present invention. The second diagram is a block diagram showing a second embodiment of the energy management remote signal transmission system of the present invention. Source management remote signal transmission system nuclear area 12 1313950
1 電源供應裝置 21、22、…、2η 電源供應迴路 31、32、... ' 3η 負載迴路 31a 、 31b 、 31c 、 32a 、 負載 32b、32c、3na、3nb、3nc 4 感測器 5 主控端控制模組 51 設定单元 6a 感測端無線發射裝置 6b 主控端無線接收裝置 6c 感測端無線收發裝置 6d 主控端無線收發裝置 7 環境信號基準資料庫 8 驅動電路 9 感測端控制模組 si 環境信號 s2 電源傳輸控制信號 s21、s22、s23 電源供應控制信號 131 power supply device 21, 22, ..., 2η power supply circuit 31, 32, ... ' 3η load circuit 31a, 31b, 31c, 32a, load 32b, 32c, 3na, 3nb, 3nc 4 sensor 5 master End control module 51 setting unit 6a sensing terminal wireless transmitting device 6b master terminal wireless receiving device 6c sensing terminal wireless transceiver device 6d terminal wireless transceiver device 7 environmental signal reference database 8 driving circuit 9 sensing terminal control mode Group si environmental signal s2 power transmission control signal s21, s22, s23 power supply control signal 13