201015288 六、發明說明: 【發明所屬之技術領域】 節能控制裝置 本發明是有關於一種節能控制裝置、節能插座裝置及節能電 子裝置,特別是有關於一種具有遙控學習功能以控制電源開關的 【先前技術】 ⑩ 由於環保意識抬頭,所以越來越多使用者重視電子襞置省電 效果,但是大部分的電子裝置在關機後,仍有部分電子元件持續 在耗電,例如無線訊號接收元件。在習知技藝中,有一種省電型 插座具有控制功能,讓使用者關閉電子裝置之後,以控制的方式 將插電的供電魏關,如此崎—步避免電子裝置在 分元件還繼續耗電。 、然而’使用上述習知的省電型插座時,使用者必須先用播座 的遙控器啟動插座,再用電子裝置的遙控器來啟動電子裝置,此 ❹舉改變了使財操作電子裝置的㈣,對使用者十分不方便。 此外,電子裝置如電腦在未使用時其内部系統主機會進入待 機模式,以達省電之功效。可是一般的待機模式只是將輸入輪出 控制訊號齡1,而系統主機⑽理器(cpu)、記憶體及時鐘單元 (Rtc)仍持續耗電韓持喚醒魏。此種省電方式雜崎低消乾 之電源’但仍無法完全輯電_供電,因此對於長時間待 電子裝置,節能的效果並不良好。 、 4 201015288 【發明内容】 有鑑於上述S知技藝之問題,本發明之一 2她輸剛之咖令啸嶋_之== 根據本發明之目的,提出一種 :厂節能控制裝置包含-無線訊號收發模組及一=源 ,線=號收發模_以收發—無線訊號。處理模_簡取出盈201015288 VI. Description of the invention: [Technical field of invention] Energy-saving control device The present invention relates to an energy-saving control device, an energy-saving socket device and an energy-saving electronic device, and more particularly to a remote control function for controlling a power switch Technology] 10 As environmental awareness rises, more and more users pay more attention to the power saving effect of electronic devices. However, after most electronic devices are turned off, some electronic components continue to consume power, such as wireless signal receiving components. In the prior art, a power-saving socket has a control function, so that after the user turns off the electronic device, the power supply of the plug-in is controlled in a controlled manner, so that the electronic device continues to consume power in the component. . However, when using the above-mentioned conventional power-saving socket, the user must first activate the socket with the remote controller of the broadcast seat, and then use the remote controller of the electronic device to activate the electronic device, which changes the operation of the electronic device. (4) It is very inconvenient for the user. In addition, when an electronic device such as a computer is not in use, its internal system host will enter standby mode to achieve power saving. However, the normal standby mode only turns the input control signal to the age of 1, while the system host (10) processor (cpu), memory and clock unit (Rtc) continue to consume power. This kind of power-saving method is a power supply that is low-powered, but it is still unable to fully power up the power supply. Therefore, for a long time waiting for an electronic device, the energy saving effect is not good. 4 201015288 [Summary of the Invention] In view of the above-mentioned problems of the prior art, one of the present inventions 2, she lost her coffee, whistling _ === According to the object of the present invention, a plant energy-saving control device includes - wireless signal transmission and reception Module and one = source, line = number transceiver module _ to send and receive - wireless signal. Processing mode
❹ 輸人齡’並具有—學f模式及—控制模式,當處 =組^於學賴式時,處賴_將輸人指令記錄為一控制 “ ‘處理模組執行於控制模式時,處理模組係判斷輸入指令 之雜編令是純配,若是,麟難峰據匹配的 控制指令控制電源開關是否供電。 本發明之另-目的就是在提出—卿祕絲置,此節能插 座裝置包含-插座及-節能控槪置。插座係供電子裝置插置, 此插座c含有電源關。$能控制裝置包含—無線訊號收發模 組及-處理模組。無線訊號收發模_以收發—絲訊號。處理 模組用以擷取出無線訊號所載的輸人指令,並具有—學習模式及 一控制模式,當處理模組操作於學習模式時,處理模組係將輸入 指令記錄為-控·令’魏賴_作於控糖耕,處理模 組係判斷輸人指令與所記錄之的控制指令是否匹配,若是,則該 處理模組根觀_控令_電源關,並透過無線訊號收 發模組將匹配的控制指令傳送至電子裝置。 其中,虽使用者啟動節能插座裝置後,節能插座裝置會回傳 一通知訊號(Acknowledge 至遙控器,讓使用者知道插座裝 201015288 指示燈 置已經啟動。此外,節能插座裝置更進一步 讓使用者知道插絲置當制狀態。 ' 目的就是在提出-_能電子裝置,此節能電 本發明之又一 開關模 斷開。 系統主機、一開關模組及-節:控::置。 if連接系統主機及-電源,由—控制指令控制其 即能控制裝置包含一無線訊號收發模組及一處理;•且: ❹ ❹ 載的-輸入齡。當處賴_行 模組係觸輪人齡與所記錄之的控_令是純配。若是,則 處理模組轉㈣的控儲令控細隨減彡統主機。 其中系統主機内包含—時鐘單元。節能控制裝置更包含一變 壓模組’變壓模組係連接電朗以將電源降壓並輸出—降壓電源 至時鐘單元,處理模組根據匹配的該控制指令控制該變壓模組 承上所述,依本發明之節能控制裝置節能控制裝置、節能插 座裝置及節能電子裝置’其可具有-或多個下述優點: (1) 讓使用者可用電子裝置原本的遙控器來啟動/關閉電源開 關及控制電子裝置,以兼顧省電功敫以及使用便利性。 (2) 節能電子裝置當處於待機狀態時,只供電給時鐘單元維持 相關之功能,而達到省電功效。 【實施方式】 請參閱第1圖、第2圖、第3圖及第4圖,其係分別為本發 明之第一實施例之節能插座裝置之方塊圖、實施電路圖、外觀設 6 201015288 計前視圖及外觀設計後視圖。圖中,節能插座裝置1包含一第一 插座11、一第二插座12、一電源線13及一節能控制裝置14,其 中,節能控制裝置14包含一處理模組15及一無線訊號收發模組 16。第一插座η係讓可遙控的電子裝置17插置,第二插座口係 讓無遙控功能的電子裝置18插置。電源線π係電性連接第一^ 座11、第二插座12及一電源25。上述第一插座11或第二插座12 内包含有電源開關,此電源開關可為一繼電器,以控制是否提供 電源25。 〇 無線訊號收發模組16係電性連接處理模組15,用以收發一第 一無線訊號162。如第2圖所示,在實現時可以一紅外線接收元件 164及一紅外線發射元件165組成無線訊號收發模組16。此外, 節能插座裝置1視需要亦可額外擴充一無線訊號收發模組16,如 第2圖所示的紅外線接收元件166及紅外線發射元件167。以上所 述之無線訊號收發模組16除了可使用紅外線來收發訊號外,亦可 使用如無線射頻(RF)或網路傳輸方式進行訊號的傳遞。利用網路 傳輸方式可將複數個節能插座装置1建立一網路連結關係,只要 在節能插座裝置1内記錄複數個節能插座裝置丨的網際網路通訊 協定位址(IP Address),使用者只需操控一部節能插座裝置1,此 節能插座裝置1即可透過網路將一控制指令1532傳送到記錄内 所有的網際網路通訊協定位址’以同時操控複數個節能插座裝置丄 内的電路為斷路或導通。 處理模組15可包含一訊號處理單元15ι、一比對單元152及 一儲存單元153’訊號處理單元151係接收第一無線訊號162並操 取出第一無線訊號162所載的一輸入指令1531。處理模組15可操 作於一學習模式或一控制模式。在實現時可以一切換開關19來切 7 201015288 :::模控制模式’例如第2圖所示的處理模組15的-腳位 =連接-切細關19作為學f模 :立 當處理模組15操作於學習模 =31記錄於儲存單元⑸作為控儀令側。例t = ❺節能插座裝置!記錄序按遙控器2G上需要讓 鍵的指令讓處理模組15記錄。λ、鍵’讓遙控器2G發出此按 當處理模組15操作於控制模式時,則 入指令咖與所記錄之的控制指令ι ^組15根據匹配的控制指令伽控制第一插座 電子二:===㈣給可遙㈣ 送給可遙㈣電繼17,16帽指令傳 則處理棋㈣可直接對f功時, 座11停止供電給可遙控的電子裝置17,,。 彳第插 =_敝16賴她讀.2= 制可遙控的電子裝置17關機後,再控制第-插座η停止供電 8 201015288 此外’無線訊號收發模組16更可包含一延遲單元161。此延 遲單元161可提供一延遲時間,以讓節能插座裝置1進行遙控時 不會發生錯誤。例如無線訊號收發模組16會根據設定的延遲時 間,延遲直到處理模組15啟動第一插座u使第一插座u開始供 電給可遙控的電子裝置17之後,才將開機指令傳送給可遙控的電 子裝置17。同理,無線訊號收發模組16會根據設定的延遲時間延 遲直到處理模組15控制可遙控的電子裝置17關機之後,才將關 機指令透過處理模組15傳送到第一插座u。延遲單元161所提供 ©之延遲時間除了可預先職之外,更簡由處賴組15在處於學 習模式時將輸入指令1531記錄為延遲時間在儲存到延遲單元161 内。 藉此’使用者便可使用可遙控的電子裝置17原本的遙控器2〇 來控制可遙控的電子裝置17與節能插座裝置!,以兼顧省電及使 用便利性。 此外,當處理模組15控制第一插座u時,視需要亦可回傳 〇 一通知訊號(Acknowledge signal)至遙控器20,讓使用者知道第一 插座11已經啟動或已經關閉。 此外,如第3圖所示’節能插座裝置i上可包含指示燈21, 此指示燈2i如第2圖所示可分為電源開關指示燈211及學習模式 的切換指示燈212,用以讓使用者知道目前節能插座裝置i的狀 態。 请參閱第5圖及第6圖’其係分別為本發明之第二實施例之 節能電子裝置之方塊圖及實施電路圖。圖中,節能電子裝置22包 含一系統主機23、一開關模組24及一節能控制裝置14。 201015288 系統主機23包含-時鐘單元η ’以提供一目前時間。❹ lose the age of people's and have a learning f mode and a control mode. When the group = group is in the learning mode, the _ _ the input command is recorded as a control "when the processing module is executed in the control mode, the processing The module is judged to be a pure match of the input command, and if so, Lin Nianfeng controls whether the power switch is powered according to the matched control command. The other object of the present invention is to present the device, the energy-saving socket device includes - Socket and - energy-saving control device. The socket is for electronic device insertion, the socket c contains power off. The energy control device includes - wireless signal transceiver module and - processing module. Wireless signal transmission and reception module _ to send and receive - wire The processing module is configured to extract the input command contained in the wireless signal, and has a learning mode and a control mode. When the processing module operates in the learning mode, the processing module records the input command as a control. Let 'Wei Lai _ control the sugar farming, the processing module determines whether the input command matches the recorded control command, and if so, the processing module roots _ control order _ power off, and send and receive through wireless signals Module will The control command is transmitted to the electronic device. After the user activates the energy-saving socket device, the energy-saving socket device returns a notification signal (Acknowledge to the remote controller, so that the user knows that the socket device 201015288 indicator has been activated. The energy-saving socket device further allows the user to know the status of the wire insertion. The purpose is to present the electronic device, which is another switch mode of the invention. The system host, a switch module and a section : Control:: Set. If the system host and the power supply are connected, the control device can control the device to include a wireless signal transceiver module and a processing; • and: ❹ 载 Load-input age. The line module is the pure match of the age of the touch wheel and the recorded control. If it is, then the control module transfers (4) the control and storage control to reduce the system host. The system host contains the clock unit. The control device further comprises a transformer module, the transformer module is connected to the power to step down the power supply and output the voltage source to the clock unit, and the processing module controls the control according to the matched control command. According to the pressure module of the present invention, the energy-saving control device for energy-saving control device, the energy-saving socket device and the energy-saving electronic device of the present invention can have - or a plurality of advantages as follows: (1) allowing the user to use the original remote control of the electronic device To activate/deactivate the power switch and control electronics to balance power saving and ease of use. (2) When the energy-saving electronic device is in the standby state, it only supplies power to the clock unit to maintain the relevant functions, and achieves power saving effect. [Embodiment] Please refer to FIG. 1 , FIG. 2 , FIG. 3 , and FIG. 4 , which are respectively a block diagram, an implementation circuit diagram, and an appearance design of an energy-saving socket device according to a first embodiment of the present invention. The front view and the rear view of the design. In the figure, the energy-saving socket device 1 includes a first socket 11, a second socket 12, a power cord 13 and an energy-saving control device 14, wherein the energy-saving control device 14 includes a processing module. 15 and a wireless signal transceiver module 16. The first socket η is for inserting the remotely controllable electronic device 17, and the second socket is for inserting the electronic device 18 without the remote control function. The power line π is electrically connected to the first socket 11, the second socket 12, and a power source 25. The first socket 11 or the second socket 12 includes a power switch, and the power switch can be a relay to control whether the power source 25 is provided. 〇 The wireless signal transceiver module 16 is electrically connected to the processing module 15 for transmitting and receiving a first wireless signal 162. As shown in FIG. 2, an infrared receiving component 164 and an infrared emitting component 165 can be combined to form a wireless signal transceiving module 16 when implemented. In addition, the energy-saving socket device 1 can additionally expand a wireless signal transmitting and receiving module 16, such as the infrared receiving element 166 and the infrared emitting element 167 shown in Fig. 2, as needed. In addition to using infrared rays to transmit and receive signals, the above-described wireless signal transceiver module 16 can also transmit signals by using, for example, radio frequency (RF) or network transmission. The network transmission mode can establish a network connection relationship between the plurality of energy-saving socket devices 1, as long as the Internet Protocol address (IP Address) of the plurality of energy-saving socket devices is recorded in the energy-saving socket device 1, the user only An energy-saving socket device 1 is required to be operated, and the energy-saving socket device 1 can transmit a control command 1532 to all Internet Protocol addresses in the record through the network to simultaneously control circuits in the plurality of energy-saving socket devices. For breaking or conducting. The processing module 15 can include a signal processing unit 15i, a comparison unit 152, and a storage unit 153. The signal processing unit 151 receives the first wireless signal 162 and operates an input command 1531 carried by the first wireless signal 162. The processing module 15 can operate in a learning mode or a control mode. In the implementation, a switch 19 can be switched to cut 7 201015288 ::: mode control mode 'for example, the processing module 15 shown in FIG. 2 - pin = connection - shred off 19 as the learning f mode: the vertical processing mode The group 15 operates on the learning mode = 31 and records it on the storage unit (5) as the control side. Example t = ❺ Energy-saving socket device! The recording sequence is pressed by the processing module 15 by pressing the command of the remote controller 2G that requires the key. λ, key ' let the remote controller 2G issue the button when the processing module 15 operates in the control mode, then the command coffee and the recorded control command ι ^ group 15 control the first socket electronic two according to the matching control command: === (4) Give the remote (4) to the remote (four) power following the 17,16 cap command pass to process the chess (four) can directly work on the f, the seat 11 stops supplying power to the remotely controllable electronic device 17, .彳 插 = 敝 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 。 。 。 。 。 。 。 。 。 。 。 。 。 The delay unit 161 can provide a delay time so that the power-saving outlet device 1 can be remotely controlled without an error. For example, the wireless signal transceiver module 16 delays the power-on command until the processing module 15 activates the first socket u to start the power supply to the remote-controllable electronic device 17 according to the set delay time. Electronic device 17. Similarly, the wireless signal transceiver module 16 transmits the shutdown command to the first outlet u through the processing module 15 according to the set delay time delay until the processing module 15 controls the remotely controllable electronic device 17 to shut down. The delay time provided by the delay unit 161, in addition to the pre-employment, is more simply recorded by the relying group 15 when the learning mode is in the learning mode as the delay time is stored in the delay unit 161. Thereby, the user can control the remotely controllable electronic device 17 and the energy saving socket device using the remote controller 2〇 of the remotely controllable electronic device 17! To balance power saving and ease of use. In addition, when the processing module 15 controls the first socket u, an Acknowledge signal can be returned to the remote controller 20 as needed to let the user know that the first socket 11 has been activated or has been turned off. In addition, as shown in FIG. 3, the energy-saving socket device i may include an indicator light 21, which may be divided into a power switch indicator 211 and a learning mode switching indicator 212 as shown in FIG. The user knows the current status of the energy saving outlet device i. Please refer to FIG. 5 and FIG. 6 for a block diagram and an implementation circuit diagram of an energy-saving electronic device according to a second embodiment of the present invention. In the figure, the energy-saving electronic device 22 includes a system host 23, a switch module 24 and an energy-saving control device 14. 201015288 System host 23 includes a clock unit η ' to provide a current time.
Pj關模組24連接系統主機μ及電源’並根據一控制指令1532 控制二導通㈣或斷開_,此開關模組24可為一繼電器開關。 =能控制裝置14與第-圖不_是除了具有—無線訊號收發 、、且及處理模組15,更包含有一變壓模組%。 變壓模組26係連餅部電顧骑電源降壓並輸出一降壓電 ,261至時鐘單兀23卜如第6圖所示,變壓模組%外接之電源 ❹為一交流電源,其中,可透過一整流器27將交流電轉為直流電, 乂使變壓模組26輸出之電源符合系統主機23内時鐘單元之 所需。 無線訊號收發模組16,如第5圖所示,在實現時可以一紅外 線接收元件164與_紅外線魏元件165、—棚接收元件168 與一射頻發射元件169及-網路傳輸模組m其巾至少一種組成 無線訊號收發模組16。利用網路傳輸模組17〇建立的網路連結關 係’可讓使用者只需驗—部節能電子裝置22,此節能電子裝置 © 22上雜複數個節能電子裝置22的網際網路通訊狀位址(lpThe Pj switch module 24 is connected to the system host μ and the power supply ’ and controls the two conduction (four) or disconnection _ according to a control command 1532. The switch module 24 can be a relay switch. = The control device 14 and the first picture are not only having a wireless signal transceiving, but also the processing module 15, and further comprising a transformer module %. The transformer module 26 is connected to the cake section, and the power supply is stepped down to output a step-down power, and the 261 to the clock unit 23 is as shown in Fig. 6. The external power supply of the transformer module is an AC power source. The AC power can be converted to DC power through a rectifier 27, so that the power output of the transformer module 26 is matched with the clock unit in the system host 23. The wireless signal transceiver module 16, as shown in FIG. 5, can realize an infrared receiving component 164 and an infrared component 165, a shed receiving component 168 and a radio frequency transmitting component 169, and a network transmission module m. At least one of the wipes constitutes a wireless signal transceiver module 16. The network connection relationship established by the network transmission module 17 can enable the user to check only the energy-saving electronic device 22, and the energy-saving electronic device 22 has the Internet communication status of the plurality of energy-saving electronic devices 22. Address (lp
Address) ’此節&電子裝置22 g卩可透過網路將控制指令1532傳送 至J記錄内所有的網際網路通訊協定位址,以同時操控複數個節能 電子裝置22。此外,系統主機23與節能控制裝置14視需要亦可 擴充-無線訊號收發模組16,如第6圖所示的紅外線接收元件166 及紅外線發射元件167。 處理模組15在實現時可以一切換開關19來切換學習模式或 控制模式。如第6圖所示,處理模組15的一腳位連接一切換開關 I9作為學習模式的啟綱關^當使用者按下切換麵19,則處理 201015288 ' 模組15進入學習模式,否則處理模組15進入控制模式。 當處理模組I5操作於學習模式時,處賴組15係將輸 令1531記錄於儲存單元153作為控制指令1532。例如使^ ; 拿系統主機23的遙控器20靠近紅外線接收元件,再按下切 關19。之後依序按遙控器20上需要讓處理模組15記錄的按鍵: 例如待機鍵’讓遙控器20發出此按鍵的指令讓處理模組15記錄。 當處理模組15操作於控制模式時,如輸入指令153 ❹指令且比對單元152亦比對成功時,則處理模組B先發出待機 令至該系統主機23,以控制系統主機23進入待機㈣。# ^ 模組b控制變壓模組26提供降壓電源201給系統主機B 鐘單元23i維持待機狀態所需之電力。之後處理模組i5發出控制 指令1532至開關模組24,以使開關模組24内電路斷開停止 給系統主機23。例如,當輸入指令1531為啟動指令且比對單元 152亦比對成功時,處理模組15則發出控制指令1532 24,以使開關模、组24電路導通恢復供電給系統主機23。、虚 ⑩理模組15控制變麵組26停止提供降壓電源261給系統 寒3,刚祕機23從待機狀 tlT 1533 β 預it Λ對由時鐘單元231提供之目前時間與所記錄之的 ㈣”理模組15根據匹配的控制 曰7 增麵組26 ’麟匹配的控她令1532傳送至開 201015288 關模組24及系統主機23。例如,處理模組㈣ 162的輸入指令1531包含預定時間⑽為早上7點與 1532為啟動系統主機23。接著處理模組15將預定時間153 ^令1532記錄在儲存單元153内,並發出待機控制指令^ 至系統主機23,離姆統主機23進人待機狀態 统 ❹ e 23内除了時鐘單元231之外其他部件如處理器咖不再繼續= 電。之後,處理模組15控制龍模組26提供維持時鐘單元Π 工作所需之降壓電源261。接著’處理模組15發出控制指令⑸2 至開關模組24,贿卿顧24電路_停止供電於系統主機 23。然後處理模组15内的比對單元152開始比對時鐘單元奴 供的目前時間與所記錄之的預定時間1533是否匹配。若目前時間 與預定時間1533相同則處理模組ls發出匹配的控制指令脱至 開關模組24,贿關· 24㈣路導通恢復供電料統主機 23。接者,處理模組15控制變壓模組%停止提供降壓電源261 給系統主機23,並傳送控制指令1532以啟動系統主機23。此節 能電子裝置如運縣電視機上,可使電視機在預定_ 1533自動 =啟錄製節目或充當鬧鐘時巾間的待機狀態,只需消耗維持時鐘 單元231工作之電源,而達到省電功效。 此外處理模組15更可包含一延遲單元161,此延遲單元 ^供Γ延遲時間。為了避免系統主機23在尚未轉換為待機模式 ’還沒接收到降壓電源261時,開瞧、组24就斷開停止供電給 系統主機23。或者如關模組%電路尚未導通喊理模组b即 發出開機的控制指令1532至系統主機23使其無法開機而發生錯 誤、、故處理模、組15在控制變壓模組26與將匹配的控制指令1532 傳送至關模組24及纽域23之間,需先經過-段由延遲單 12 201015288 觀遲時fa1。例如明_蚊是延遲3秒,^ 待機狀^下^===彳___令與= 统主機23。延遲單元161所提供之延= 可由系統預設之外,亦可藉由處理模組15在處於學習 將二 φ 組26 j令咖記錄為延遲時間。之後當處理模組15操作於抑: 式時即可根據延遲時間控制系統主機23、開猶組2 使用本發明之節能電子裝置可有效節省不必要的耗電。以一 般液晶電視,其待賴式(standby mode)T每小時還會消耗 4·4瓦,若每天14小時待機模式,則每年待機模式共需用電22 度。·若使用本發明之節能電子裝置,職晶電視進人省電模式 (saving mode)後其耗電〇 2瓦,每年在省電模式下用電僅1度, 達到兼顧省電功效以及使用便利性。 ® 【圖式簡單說明】 第1圖係為本發明之第一實施例之節能插座裝置之方塊圖; 第2圖係為本發明之第一實施例之節能插座裝置之實施電路圖; 第3囷係為本發明之第一實施例之節能插座裝置之外觀設計前 視圖; 第4圖係為本發明之第一實施例之節能插座裝置之外觀設計後 視圖; 第5圖係為本發明之第二實施例之節能電子裝置之方塊圖;以 13 201015288 及 第6圖係為本發明之第二實施例之節能電子震置之實施電 圖0 【主要元件符號說明】 ❹Address' The & electronic device 22g can transmit control commands 1532 over the network to all Internet Protocol addresses in the J record to simultaneously control the plurality of power-saving electronic devices 22. Further, the system main unit 23 and the energy saving control device 14 can also be expanded as needed - the wireless signal transmitting and receiving module 16, such as the infrared receiving element 166 and the infrared emitting element 167 shown in Fig. 6. The processing module 15 can switch the learning mode or the control mode by switching the switch 19 as it is implemented. As shown in FIG. 6, a pin of the processing module 15 is connected to a switch I9 as a learning mode. When the user presses the switch surface 19, the process 201015288 is processed. The module 15 enters the learning mode, otherwise processing Module 15 enters control mode. When the processing module I5 is operating in the learning mode, the relying group 15 records the output 1531 in the storage unit 153 as the control command 1532. For example, the remote controller 20 of the system main unit 23 is brought close to the infrared ray receiving element, and the switch 19 is pressed. Then, the button on the remote controller 20 that needs to be recorded by the processing module 15 is sequentially pressed: for example, the standby button 'allows the remote controller 20 to issue a command for the button to be recorded by the processing module 15. When the processing module 15 is operating in the control mode, such as the input command 153 ❹ command and the comparison unit 152 is also successful, the processing module B first issues a standby command to the system host 23 to control the system host 23 to enter the standby mode. (4). # ^ The module b control transformer module 26 provides the power required by the step-down power supply 201 to maintain the standby state of the system host B clock unit 23i. The processing module i5 then issues a control command 1532 to the switch module 24 to cause the circuit within the switch module 24 to be disconnected and stopped to the system host 23. For example, when the input command 1531 is a start command and the comparison unit 152 is also successful, the processing module 15 issues a control command 1532 24 to turn on the switch mode and the group 24 circuit to restore power to the system host 23. The virtual time module 15 controls the change group 26 to stop providing the step-down power supply 261 to the system cold 3, and the secret machine 23 from the standby state ttl 1533 β preit Λ to the current time provided by the clock unit 231 and the recorded (4) The control module 15 transmits the control 1542 to the open 201015288 switch module 24 and the system host 23 according to the matched control 曰7 add-on group 26'. The input command 1531 of the processing module (4) 162 includes a predetermined order. The time (10) is 7:00 am and 1532 is the startup system host 23. Then the processing module 15 records the predetermined time 153 ^ 1532 in the storage unit 153, and issues a standby control command ^ to the system host 23, which is from the UM host 23 The other components of the human standby state system e 23 except the clock unit 231, such as the processor café, do not continue = power. Thereafter, the processing module 15 controls the squad module 26 to provide the buck power supply 261 required to maintain the clock unit Π operation. Then, the processing module 15 issues a control command (5) 2 to the switch module 24, and the circuit _ stops the power supply to the system host 23. Then, the comparison unit 152 in the processing module 15 starts to compare the current supply of the clock unit. Time and If the current time is the same as the predetermined time 1533, if the current time is the same as the predetermined time 1533, the processing module ls issues a matching control command to the switch module 24, and the bribe off 24 (four) way to restore the power supply host 23. The processing module 15 controls the transformer module % to stop providing the step-down power supply 261 to the system host 23, and transmits a control command 1532 to activate the system host 23. The energy-saving electronic device, such as the Yunxian television, can make the television set at a predetermined time. 1533 automatic = start recording state or play the standby state between the wipes, only need to consume the power supply to maintain the clock unit 231, and achieve power saving effect. Further, the processing module 15 further includes a delay unit 161, the delay unit ^ Supply delay time. In order to prevent the system host 23 from switching to the standby mode yet, when the buck power supply 261 has not been received, the group 24 is turned off and the power supply to the system host 23 is turned off. Turning on the shouting module b, the power-on control command 1532 is issued to the system host 23 to make it unable to be turned on and an error occurs, so the processing module, the group 15 is in the control transformer module 26 and The matching control command 1532 is transmitted between the off module 24 and the new field 23, and the fa1 is delayed by the delay period 12 201015288. For example, the _ mosquito is delayed by 3 seconds, ^ standby mode ^^== =彳___令和=System 23. The delay provided by the delay unit 161 can be preset by the system, and the processing module 15 can also record the delay time of the two φ groups. Then, when the processing module 15 is operated in the following manner, the system host 23 and the open panel 2 can be used according to the delay time to effectively save unnecessary power consumption by using the energy-saving electronic device of the present invention. In a typical LCD TV, the standby mode T consumes 4.4 watts per hour. If the standby mode is 14 hours per day, the standby mode requires 22 degrees of power per year. If the energy-saving electronic device of the present invention is used, the TV has a power consumption of 2 watts and a power consumption of only 1 degree per year in the power saving mode, achieving both power saving and convenient use. Sex. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of an energy-saving socket device according to a first embodiment of the present invention; FIG. 2 is a circuit diagram of an energy-saving socket device according to a first embodiment of the present invention; The front view of the design of the energy-saving socket device of the first embodiment of the present invention; FIG. 4 is a rear view of the design of the energy-saving socket device of the first embodiment of the present invention; Block diagram of the energy-saving electronic device of the second embodiment; 13 201015288 and FIG. 6 are the implementation diagrams of the energy-saving electronic vibration of the second embodiment of the present invention [Description of main component symbols]
I :節能插座裝置; II :第一插座; 12 :第二插座; 13 :電源線; :節能控制裝置; 15 :處理模組; 151 .訊號處理單元; 152 :比對單元; 153 :儲存單元; 1531 :輸入指令; 1532 :控制指令; 1533 :預定時間; 16 :無線訊號收發模組; 161 :延遲單元; 162 :第一無線訊號; 163 :第二無線訊號; 164、 166 :紅外線接收元件; 165、 167 :紅外線發射元件; 168 :射頻接收元件; 169 :射頻發射元件; 170 :網路傳輸模組; 17 :可遙控的電子装置; 18 :電子裝置; 19 :切換開關; 20 :遙控器; 21 :指示燈; 211 :電源開關指示燈; 212 :切換指示燈; 22 :節能電子裝置; 23 :系統主機; 231 :時鐘單元; 24 :開關模組; 25 ··電源; 26 :變壓模組; 261 :降壓電源;以及 27 :整流器。I: energy-saving socket device; II: first socket; 12: second socket; 13: power cord;: energy-saving control device; 15: processing module; 151. signal processing unit; 152: comparison unit; 153: storage unit 1531: input command; 1532: control command; 1533: predetermined time; 16: wireless signal transceiver module; 161: delay unit; 162: first wireless signal; 163: second wireless signal; 164, 166: infrared receiving component 165, 167: Infrared emitting element; 168: RF receiving component; 169: RF transmitting component; 170: Network transmission module; 17: Remotely controllable electronic device; 18: Electronic device; 19: Toggle switch; 21; indicator light; 211: power switch indicator; 212: switch indicator; 22: energy-saving electronic device; 23: system host; 231: clock unit; 24: switch module; 25 · power supply; 26: change Pressure module; 261: step-down power supply; and 27: rectifier.