201021352 六、發明說明: 【發明所屬之技術領域】 本發明係有關於-種節能電源延長線,尤指—種具有 插座狀態通知及遠端控制斷電功能之節能電源延長線二201021352 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to an energy-saving power supply extension line, and more particularly to an energy-saving power supply extension line having a socket status notification and a remote control power-off function.
【先前技術】 為了迎合大眾的需求, 化。許多電器只需按壓遙控 或關機的目的。 大部分電器的設計越來越人性 器的電源鍵,就可以達到開機 然而’這一類的電器即係 ,_ , 1使在關機狀態,仍需使用一定 的電力待機,藉以維持遙控技 σ 役接收斋及電源控制電路的運 作。長時間及大數量的累籍 Λ. 大数篁旳系積’能源之消耗以及電費之損失 亦相當可觀。 具<孭大 部分使用者在電器使用完畢之後關閉電源並將插頭 拔離插座,藉以減少能源的浪費。但欲再次使用電器時, β則必須一一將電器之插頭插上電源插座。由於曰常生活使 用的電器相當多,長久下來實為—件相當褐人的工作。 且,經常插拔插頭,亦容易造成電源插座夾持力量疲 乏及導體的磨損氧化’長久下來可能會導致電器插頭於使 用時鬆脫’造成電器的損壞。或因導體磨損氧化,電力傳 導效能降低,造成額外的電力損失。 因此,部分使用者使用如第工圖所示之電源延長線 ίο,其主要係設置有複數個插座12,各插座12分別設有 一對應之開關14,該電源延長線1〇並以一電源線16連接 3 201021352 到電源插座18。 可將電器插接於電源延長線10之插座ι2 電器關機或不使用時,只需將該插座12 上使用,當 閉,即可確保㈣n完全斷電,Μ頻繁插=關μ關 可達到節能的效果。 拔電裔插頭即 上述技術雖然可以達到節能的效果 刻記住關閉對應的開關…― :仍㊉使用者時 關閉開關Η,則身在遠方,對出門而忘記 無力處理。 ^於豕中電為之用電狀態亦是 【發明内容】 本發明之主要目的,在於提供一種節能電源延長線, 具有插座狀態通知及遠端控制斷電功能者。 本發明之-人要目的,在於提供一種節能電源延長線, 其主要係利用電流偵測器偵各插座之用電狀態,並可經由 網路通知使用者。 ❹-本發明之又-目的,在於提供—種節能電源延長線, 可經由網路傳送指令使指定之插座通電或斷電者。 本發明之又-目的,在於提供一種節能電源延長線, 可利用無線通訊單元傳輸簡訊至指定行動電話,藉以通知 使用者各插座之用電狀態者。 本發明之又-目的,在於提供一種節能電源延長線, 可利用㉝Ά傳送指令使指定之插座通電或斷電者。 本發明之又一目的,在於提供一種節能電源延長線, 4 201021352 ’可以遙控器控制各插座通電或斷電者。 本發明之又一目的,在於提供一種節能電源延長線, 具有火警自動斷電之功能者。 為達成上述目的,本發明提供一種節能電源延長線, 其主要構造包含有:一組電源線,可連接一電源插座,藉 以提供電源;複數個電流偵測器,分別連接該組電源線, 可偵測通過之電流;複數個開關單元,各開關單元分別對 應並連接一電流偵測器,可依控制而導通及斷電;複數個 ©插座,各插座分別對應並連接一開關單元,可分別插接一 電器;及一控制模組,包含有一微處理器及一網路控制單 元,該微處理器連接各電流偵測器、各開關單元及該網路 控制單元,用以控制各開關單元之導通或斷電,該網路控 制單元可連接至一網路。 本發明尚提供一種節能電源延長線,其主要構造包含 有:一組電源線,可連接一電源插座,藉以提供電源;複 數個電流偵測器,分別連接該組電源線,可偵測通過之電 Φ 流;複數個開關單元,各開關單元分別對應並連接一電流 偵測器,可依控制而導通及斷電;複數個插座,各插座分 別對應並連接一開關單元,可分別插接一電器;及一控制 模組,包含有一微處理器及一無線通訊單元,該微處理器 連接各電流偵測器、各開關單元及該網路控制單元,用以 控制各開關單元之導通或斷電,該無線通訊單元可與一行 動裝置進行資料傳輸。 5 201021352 【實施方式】 请參閱第2圖,係本發明一較佳實施例之構造方塊 圖。如圖所示,本發明節能電源延長線2〇之主要構造係 包含有.複數個插座201、複數個開關單元2〇3、複數個 電流4貞測器205及一控制模組22。 其中,各插座201分別對應一開關單元2〇3及一電流 偵測器205。各插座201分別以一組電源線2〇9串接對應 之開關單元203及電流偵測器205,並連接至一組主電源 ❹線207。該組主電源線207可連接至一電源插座32,藉以 提供電源。 控制模組22包含有一微處理器221及一網路控制單 兀225。微處理器221分別連接各開關單元2〇3、各電流 偵測器205及該網路控制單元225,可將各電流偵測器2〇5 偵測所得各插座201之用電狀態通過網路控制單元225, 以電子郵件的形式經網路34傳送至指定之電子郵件帳號。 使用者亦可根據所接收電子郵件顯示之各插座201用 電狀態,決定讓各插座201供電或斷電,以電子郵件傳送 命令。網路控制單元225接收包含命令之電子郵件後,微 處理器221即可根據電子郵件之命令内容發出控制訊號至 各開關單元203,令各開關單元203根據命令而導通或斷 電’完成由遠端控制各插座201供電或斷電之目的。 其中’该網路34係可選擇為有線網路、無線網路及 其組合式之其中之一。 控制模組22亦可包含有一無線通訊單元227,連接該 6 201021352 微處理器221。微處理器221可將各電流偵測器2〇5偵測 所得各插座201之用電狀態通過無線通訊單元22,以簡訊 的形式經由無線通訊網路傳送至指定之行動裝置36。 使用者亦可根據所接收簡訊顯示之各插座2〇1用電狀 態,決定讓各插座201供電或斷電,以簡訊傳送命令。無 線通訊單元227接收包含命令之簡訊後,微處理器221即 可根據簡訊之命令内容發出控制訊號至各開關單元2〇3, 令各開關單元203根據命令而導通或斷電,以另一種形式 • 完成由遠端控制各插座201供電或斷電之目的。 其中’該行動裝置36係可選擇為行動電話、具行動 通訊功能之個人數位助理(PDA)或具行動通訊功能之筆記 型電腦。 控制模組22尚可包含有一遙控接收單元229,連接該 微處理器221。當使用者在家中’距離本發明之節能電源 延長線20不遠時,可利用一遙控器38發送命令。遙控接 收單元229接收遙控器之命令後,微處理器221即可 根據命令發出控制訊號至各開關單元2〇3令各開關單元 203根據命令而導通或斷電。使用者無需靠近節能電源延 長線20,即可控制各插座之供電狀態,可利於將節能電源 延長線20及各電器之電源線收納於隱蔽之處。 本發明之節能電源延長線2〇亦可設置複數個手動開 關26,各手動開關26分別對應一插座201,並分別連接 至微處理器221。當使用者觸摸或按壓手動開關26時,微 處理器221即接收一訊號,並根據該訊號而控制對應的開 7 201021352 關單元203改變導通或斷電的狀態,同時改變該插座2〇ι 之供電或斷電狀態。 節能電源延長線20尚可設有複數個指示燈261,分別 對應各插座201。各指示燈261分別連接至微處理器221, 可根據各插座201之供電或斷電狀態而為亮燈或熄滅狀 態,藉以顯示各對應插座201之狀態。各指示燈261係可 分別為一發光二極體,亦可分別設置於對應的手動開關% 之中’藉以節省所需之空間配置。 ❹ 控制模組U尚可包含有一記憶體單元223,連接該微 處理器221。該記憶體單元223可包含有隨機存取記憶體 及非揮發性記憶體,除了供微處理H 221暫存運算所需之 資料外’尚可儲存所需之勒體及各式設定資料。 例如,使用者可透過網路34連接網路控制單元225、 利用行動裝置36傳送設定簡訊至無線通訊單元227、或使 祕控f 38發出設定命令至遙控接收單元229,藉以設定 =電量提示功能。可於用電量達到或接近設定時,透過 扣疋2式(電子郵件或簡訊)傳送警示訊息。或可設定每月 用電量警不或提示,達到有效管理用電之功能。 控制模組22尚可設有一火警偵測單元228,連接該微 處理器221。當偵測到火警發生時,可強制所有開關單元 203斷電’停止所有電器之供電,藉以避免火警損失擴大。 口一本發明之_能電源延長線2〇尚可包含有一電源供應 單元24 ’連接主電源線2()7,藉以提供穩定的電源至控制 模組22。 201021352 本發明之各開關單元203係可分別為一繼電器,可於 斷路時確保不會有任何漏電流產生。 以上所述者,僅為本發明之一較佳實施例而已,並非 用來限定本發明實施之範圍,即凡依本發明申請專利範圍 所述之形狀、構造、特徵及精神所為之均等變化與修飾, 均應包括於本發明之申請專利範圍内。 【圖式簡單說明】 Ο 第1圖:係習用電源延長線之示意圖。 第2圖:係本發明一較佳實施例之構造方塊圖。 【主要元件符號說明】 10 電源延長線 12 插座 14 開關 16 電源線 18 電源插座 20 節能電源延長線 201 插座 203 開關單元 205 電流 <貞測器 207 主電源線 209 電源線 22 控制模組 221 微處理器 223 記憶體 225 網路控制單元 227 無線通訊單元 228 火警彳貞測單元 229 遙控接收單元 24 電源供應單元 26 手動開關 261 指示燈 32 電源插座 34 網路 9 201021352 遙控器 '36 行動裝置 38[Prior Art] In order to meet the needs of the public, change. Many appliances only need to be pressed for remote control or shutdown. Most of the electrical appliances are designed with more and more human power button, you can reach the power supply. However, this type of electrical equipment is _, 1 so that in the off state, still need to use a certain power standby, in order to maintain remote control technology Fast and power control circuit operation. Long time and a large number of 累 Λ. Large number of 篁旳 ’ ‘ energy consumption and the loss of electricity costs are also considerable. Most users of < 关闭 turn off the power after the appliance is used and pull the plug out of the socket to reduce energy waste. However, when you want to use the appliance again, β must plug the plug of the appliance into the power socket. Because there are quite a lot of electrical appliances used in life, it is quite a brown job for a long time. Moreover, the plug is often plugged and unplugged, and it is easy to cause the power supply socket to be weak and the wear and oxidation of the conductor 'long-term may cause the electrical plug to loosen when used, causing damage to the electrical appliance. Or due to oxidation of the conductors, the power transmission performance is reduced, resulting in additional power loss. Therefore, some users use a power extension cord ίο as shown in the drawing, which is mainly provided with a plurality of sockets 12, each of which is provided with a corresponding switch 14, which is connected to a power cord. 16 connect 3 201021352 to the power outlet 18. The appliance can be plugged into the socket of the power extension cord 10. When the appliance is turned off or not in use, it only needs to be used on the socket 12. When it is closed, it can ensure that (4) n is completely powered off, and the frequency is frequently inserted = off μ to achieve energy saving. Effect. Pulling the electric plug is the above technology, although it can achieve the effect of energy saving. Remember to turn off the corresponding switch...——: When the user is still ten, when the switch is turned off, the person is far away and forgets to deal with it. The present invention is directed to providing an energy-saving power extension cord having a socket status notification and a remote control power-off function. The object of the present invention is to provide an energy-saving power extension cord, which mainly utilizes a current detector to detect the power state of each socket, and can notify the user via the network. ❹ - The purpose of the present invention is to provide an energy-saving power extension cord that can be used to power up or power down a designated outlet via a network transmission command. Still another object of the present invention is to provide an energy-saving power extension cord that can transmit a short message to a designated mobile phone by using a wireless communication unit to notify the user of the power state of each outlet. Still another object of the present invention is to provide an energy-saving power extension cord that can be used to energize or de-energize a designated outlet using a 33-inch transmission command. Another object of the present invention is to provide an energy-saving power extension cord, which can control the power-on or power-off of each outlet by a remote controller. Another object of the present invention is to provide an energy-saving power extension cord having the function of automatically powering off the fire. To achieve the above object, the present invention provides an energy-saving power extension cord, the main structure comprising: a set of power lines, which can be connected to a power socket to provide power; a plurality of current detectors respectively connected to the power line, Detecting the passing current; a plurality of switching units, each of which is connected to and connected to a current detector, which can be turned on and off according to the control; a plurality of sockets, each socket corresponding to and connected to a switch unit, respectively Plugging in an electrical device; and a control module comprising a microprocessor and a network control unit, the microprocessor connecting each current detector, each switch unit and the network control unit for controlling each switch unit The network control unit can be connected to a network when it is turned on or off. The invention further provides an energy-saving power supply extension line, the main structure comprising: a set of power lines, which can be connected to a power socket to provide power; a plurality of current detectors respectively connected to the group of power lines, which can be detected and passed Electric Φ flow; a plurality of switch units, each switch unit corresponding to and connected to a current detector, which can be turned on and off according to the control; a plurality of sockets, each socket corresponding to and connected to a switch unit, respectively, can be plugged one And a control module comprising a microprocessor and a wireless communication unit, wherein the microprocessor is connected to each current detector, each switch unit and the network control unit for controlling the on or off of each switch unit The wireless communication unit can perform data transmission with a mobile device. 5 201021352 [Embodiment] Please refer to Fig. 2, which is a block diagram showing a configuration of a preferred embodiment of the present invention. As shown in the figure, the main structure of the energy-saving power extension cord 2 of the present invention comprises a plurality of sockets 201, a plurality of switching units 2〇3, a plurality of currents 4 detectors 205, and a control module 22. Each of the sockets 201 corresponds to a switch unit 2〇3 and a current detector 205. Each of the sockets 201 is connected in series with a corresponding power supply line 2〇9 to the corresponding switch unit 203 and current detector 205, and is connected to a set of main power supply lines 207. The set of main power cords 207 can be connected to a power outlet 32 for providing power. The control module 22 includes a microprocessor 221 and a network control unit 225. The microprocessor 221 is connected to each of the switch units 2〇3, the current detectors 205, and the network control unit 225, and can detect the power status of each socket 201 detected by each current detector 2〇5 through the network. The control unit 225 transmits the email to the designated email account via the network 34. The user can also decide to power or de-energize each outlet 201 according to the power status of each socket 201 displayed on the received email, and send the command by e-mail. After the network control unit 225 receives the email containing the command, the microprocessor 221 can send a control signal to each switch unit 203 according to the command content of the email, so that each switch unit 203 turns on or off according to the command. The terminal controls the power supply or power-off of each socket 201. The network 34 can be selected as one of a wired network, a wireless network, and a combination thereof. The control module 22 can also include a wireless communication unit 227 connected to the 6 201021352 microprocessor 221. The microprocessor 221 can transmit the power status of each socket 201 detected by each current detector 2〇5 to the designated mobile device 36 via the wireless communication unit via the wireless communication unit 22 in the form of a short message. The user can also determine whether to power or de-energize each outlet 201 according to the power status of each socket 2〇1 displayed on the received short message, and transmit the command by way of a short message. After the wireless communication unit 227 receives the short message including the command, the microprocessor 221 can send a control signal to each of the switch units 2〇3 according to the command content of the short message, so that each switch unit 203 is turned on or off according to the command, in another form. • The purpose of powering or powering off each outlet 201 by the remote control is completed. The mobile device 36 can be selected as a mobile phone, a personal digital assistant (PDA) with mobile communication function, or a notebook with mobile communication function. The control module 22 can also include a remote control receiving unit 229 connected to the microprocessor 221. When the user is at home "not far from the energy-saving power extension cord 20 of the present invention, a remote control 38 can be used to send commands. After the remote control receiving unit 229 receives the command from the remote controller, the microprocessor 221 can issue a control signal to each of the switching units 2〇3 according to the command to cause each of the switching units 203 to be turned on or off according to the command. The user can control the power supply status of each outlet without being close to the energy-saving power extension line 20, which can facilitate the storage of the energy-saving power extension cord 20 and the power cords of the electrical appliances in concealed places. The energy-saving power extension cord 2 of the present invention may also be provided with a plurality of manual switches 26, each of which corresponds to a socket 201 and is respectively connected to the microprocessor 221. When the user touches or presses the manual switch 26, the microprocessor 221 receives a signal, and according to the signal, controls the corresponding open 7 201021352 off unit 203 to change the state of being turned on or off, and simultaneously changing the socket 2 〇 ι Power or power off state. The energy-saving power extension cord 20 can also be provided with a plurality of indicator lights 261 corresponding to the respective sockets 201. The indicator lights 261 are respectively connected to the microprocessor 221, and can be turned on or off according to the power supply or power-off state of each socket 201, thereby displaying the state of each corresponding socket 201. Each of the indicator lights 261 can be a light-emitting diode, respectively, or can be respectively disposed in the corresponding manual switch%, thereby saving the required space configuration. The control module U can also include a memory unit 223 connected to the microprocessor 221. The memory unit 223 can include random access memory and non-volatile memory. In addition to the data required for the micro-processing of the H 221 temporary storage operation, the required fonts and various setting data can be stored. For example, the user can connect to the network control unit 225 through the network 34, transmit the setting brief message to the wireless communication unit 227 by using the mobile device 36, or cause the secret control f 38 to issue a setting command to the remote control receiving unit 229, thereby setting the=power prompt function. . The alert message can be transmitted via the button 2 (email or SMS) when the power usage reaches or approaches the setting. Or you can set the monthly power consumption alarm or prompt to achieve the function of effectively managing power consumption. The control module 22 can also be provided with a fire detection unit 228 connected to the microprocessor 221. When a fire alarm is detected, all switching units 203 can be forced to be powered off to stop powering all appliances to avoid an increase in fire damage. The power supply extension cable 2 of the present invention may further include a power supply unit 24' connected to the main power supply line 2 () 7 to provide a stable power supply to the control module 22. 201021352 Each of the switching units 203 of the present invention can be a relay, respectively, which can ensure that no leakage current is generated when the circuit is broken. The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, which is equivalent to the changes in shape, structure, features and spirit of the present invention. Modifications are intended to be included in the scope of the patent application of the present invention. [Simple description of the diagram] Ο Figure 1: Schematic diagram of the conventional power extension cord. Figure 2 is a block diagram showing the construction of a preferred embodiment of the present invention. [Main component symbol description] 10 power extension cord 12 socket 14 switch 16 power cord 18 power socket 20 energy-saving power extension cord 201 socket 203 switch unit 205 current < detector 207 main power line 209 power line 22 control module 221 micro Processor 223 Memory 225 Network Control Unit 227 Wireless Communication Unit 228 Fire Alarm Unit 229 Remote Control Receiver Unit 24 Power Supply Unit 26 Manual Switch 261 Indicator Light 32 Power Outlet 34 Network 9 201021352 Remote Control '36 Mobile Device 38
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