TW202005206A - Power outlet load management system and method thereof - Google Patents
Power outlet load management system and method thereof Download PDFInfo
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一種管理系統及其方法,尤其是指一種透過由插座提供電壓、電流以及插槽資訊至管理伺服器以生成對應控制指令進行插槽供電與否的插座負載管理系統及其方法。A management system and method thereof, in particular, a socket load management system and method for supplying power to a socket by supplying voltage, current and socket information from a socket to a management server to generate corresponding control commands.
插座與人們的生活有著密不可分的關係,因為它可為各式電器提供電源,所以每個人每天都會接觸使用到插座;而插座的設計形態雖沿革已久,也早就被一般大眾習慣,但在實際應用中仍存在有問題。The socket has an inseparable relationship with people's lives, because it can provide power for various electrical appliances, so everyone will use the socket every day; and the design of the socket has been used for a long time, but it has long been used by the general public, but There are still problems in practical applications.
現有的插座並不具有負載的監控功能,讓電器的負載無法被監控,故使用者對於電器的負載多寡通常不具概念,無法有效進行省電,以達到節能減碳的環保訴求,更甚者會造成電源迴路過度使用造成跳電或是導致火災的發生。Existing outlets do not have a load monitoring function, so that the load of electrical appliances cannot be monitored, so users usually have no idea about the load of electrical appliances, and cannot effectively save electricity to achieve the environmental protection demands of energy saving and carbon reduction. Over-use of the power circuit may cause electrical shock or fire.
綜上所述,可知先前技術中長期以來一直存在不具插座負載管理的問題,因此有必要提出改進的技術手段,來解決此一問題。In summary, it can be seen that there has been a problem that there is no socket load management in the prior art for a long time, so it is necessary to propose improved technical means to solve this problem.
有鑒於先前技術存在不具插座負載管理的問題,本發明遂揭露一種插座負載管理系統及其方法,其中:In view of the problem of the prior art that there is no socket load management, the present invention discloses a socket load management system and method thereof, in which:
本發明所揭露的插座負載管理系統,其包含:電源插座以及控制伺服器,電源插座更包含:至少一電源插槽、至少一燈號指示單元、儲存單元、偵測控制單元以及傳輸單元;控制伺服器更包含:處理器以及存儲裝置。The socket load management system disclosed in the present invention includes a power socket and a control server. The power socket further includes: at least one power socket, at least one light indicator unit, storage unit, detection control unit and transmission unit; control The server further includes: a processor and a storage device.
其中,燈號指示單元與電源插槽相互對應;儲存單元儲存電源插槽的插槽資訊,電源插槽的插槽資訊包含電源迴路資訊以及插槽序號資訊;偵測控制單元分別偵測電源插槽的電壓與電流,並依據控制指令控制電源插槽提供電源供應或是停止電源供應,並且控制電源插槽對應的燈號指示單元切換為對應的燈號顯示狀態;及傳輸單元接收控制指令,傳送電源插槽的電壓與電流以及電源插槽的插槽資訊。Among them, the indicator unit and the power socket correspond to each other; the storage unit stores the slot information of the power socket, the slot information of the power socket includes the power circuit information and the slot number information; the detection control unit detects the power socket separately The voltage and current of the tank, and according to the control command, control the power socket to provide power supply or stop the power supply, and control the light indicator unit corresponding to the power socket to switch to the corresponding light display state; and the transmission unit receives the control command, Transmit the voltage and current of the power socket and the socket information of the power socket.
處理器,用於執行各指令;及存儲裝置,用於存儲多個指令,指令由處理器加載並執行:A processor is used to execute each instruction; and a storage device is used to store multiple instructions, and the instructions are loaded and executed by the processor:
自傳輸單元接收電源插槽的電壓與電流以及電源插槽的插槽資訊;計算電源插槽的實際負載;依據電源插槽的插槽資訊計算出對應電源迴路的總實際負載;當電源迴路的總實際負載超過電源迴路的總理論負載或是電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,依據電源插槽的插槽資訊且電源插槽的實際負載為0對應生成控制指令為停止電源供應;及傳送控制指令至傳輸單元。Receive the voltage and current of the power supply slot and the slot information of the power supply slot from the transmission unit; calculate the actual load of the power supply slot; calculate the total actual load of the corresponding power supply circuit according to the slot information of the power supply slot; When the total actual load exceeds the total theoretical load of the power circuit or the difference between the total actual load of the power circuit and the total theoretical load of the power circuit is less than the preset load difference, according to the slot information of the power slot and the power slot The actual load of 0 corresponds to generating a control command to stop the power supply; and transmitting the control command to the transmission unit.
本發明所揭露的插座負載管理方法,其包含下列步驟:The socket load management method disclosed in the present invention includes the following steps:
首先,提供具有至少一電源插槽、至少一燈號指示單元、儲存單元、偵測控制單元以及傳輸單元的電源插座,燈號指示單元與電源插槽相互對應;接著,電源插槽的插槽資訊儲存於儲存單元中,電源插槽的插槽資訊包含電源迴路資訊以及插槽序號資訊;接著,偵測控制單元與電源插槽電性連接,分別偵測電源插槽的電壓與電流;接著,傳輸單元與偵測控制單元電性連接,傳送電源插槽的電壓與電流以及電源插槽的插槽資訊至控制伺服器;接著,控制伺服器計算電源插槽的實際負載;接著,控制伺服器依據電源插槽的插槽資訊計算出對應電源迴路的總實際負載;接著,控制伺服器於電源迴路的總實際負載超過電源迴路的總理論負載或是電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,依據電源插槽的插槽資訊且電源插槽的實際負載為0對應生成控制指令為停止電源供應;接著,控制伺服器傳送控制指令至傳輸單元;最後,偵測控制單元依據控制指令控制電源插槽提供電源供應或是停止電源供應,並且控制電源插槽對應的燈號指示單元切換為對應的燈號顯示狀態。First, provide a power socket with at least one power socket, at least one light indication unit, storage unit, detection control unit, and transmission unit, the light indication unit and the power socket correspond to each other; then, the power socket socket The information is stored in the storage unit. The slot information of the power supply slot includes power circuit information and slot number information; then, the electrical connection between the control unit and the power supply slot is detected, and the voltage and current of the power supply slot are respectively detected; and , The transmission unit is electrically connected to the detection control unit, and transmits the voltage and current of the power socket and the socket information of the power socket to the control server; then, the control server calculates the actual load of the power socket; then, the control servo The controller calculates the total actual load of the corresponding power circuit according to the slot information of the power slot; then, the total actual load of the control server in the power circuit exceeds the total theoretical load of the power circuit or the total actual load of the power circuit and the power circuit When the difference between the total theoretical load is less than the preset load difference, according to the slot information of the power slot and the actual load of the power slot is 0, the corresponding control command is generated to stop the power supply; then, the control server sends the control command To the transmission unit; finally, the detection control unit controls the power supply slot to provide power supply or stops the power supply according to the control instruction, and controls the light indicator unit corresponding to the power supply slot to switch to the corresponding light indicator display state.
本發明所揭露的系統及方法如上,與先前技術之間的差異在於管理伺服器由插座接收電源插槽的電壓與電流以及電源插槽的插槽資訊,控制伺服器計算電源插槽的實際負載,以及控制伺服器依據電源插槽的插槽資訊計算出對應電源迴路的總實際負載,控制伺服器於電源迴路的總實際負載超過電源迴路的總理論負載或是電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,依據電源插槽的插槽資訊且電源插槽的實際負載為0對應生成控制指令為停止電源供應,控制伺服器將控制指令傳送至對應的插座,插座控制電源插槽提供電源供應或是停止電源供應以及控制電源插槽對應的燈號指示單元切換為對應的燈號顯示狀態。The system and method disclosed in the present invention are as above. The difference from the prior art is that the management server receives the voltage and current of the power socket from the socket and the socket information of the power socket, and controls the server to calculate the actual load of the power socket , And the control server calculates the total actual load of the corresponding power circuit according to the slot information of the power supply slot, the total actual load of the control server in the power circuit exceeds the total theoretical load of the power circuit or the total actual load of the power circuit and the power supply When the difference between the total theoretical load of the loop is less than the preset load difference, according to the slot information of the power slot and the actual load of the power slot is 0, the corresponding control command is generated to stop the power supply, and the control server will control the command It is sent to the corresponding socket. The socket controls the power socket to provide power supply or stops the power supply and controls the light indicator unit corresponding to the power socket to switch to the corresponding light signal display state.
透過上述的技術手段,本發明可以達成提供插座負載管理的技術功效。Through the above technical means, the present invention can achieve the technical effect of providing socket load management.
以下將配合圖式及實施例來詳細說明本發明的實施方式,藉此對本發明如何應用技術手段來解決技術問題並達成技術功效的實現過程能充分理解並據以實施。The embodiments of the present invention will be described in detail below in conjunction with the drawings and examples, so as to fully understand and implement the implementation process of how the present invention uses technical means to solve technical problems and achieve technical effects.
以下將以第一個實施例來說明本發明第一實施態樣的運作系統與方法,並請同時參考「第1圖」、「第2A圖」、「第2B圖」以及「第3圖」所示,「第1圖」繪示為本發明插座負載管理系統的系統方塊圖;「第2A圖」以及「第2B圖」繪示為本發明插座負載管理方法的方法流程圖;「第3圖」繪示為本發明插座負載管理系統的架構示意圖。The first embodiment will be used to describe the operating system and method of the first embodiment of the present invention, and please refer to "Figure 1", "Figure 2A", "Figure 2B" and "Figure 3" As shown, "Figure 1" shows a system block diagram of the socket load management system of the present invention; "Figure 2A" and "Figure 2B" show the method flowchart of the socket load management method of the present invention; "third "Figure" shows a schematic diagram of the socket load management system of the present invention.
本發明所揭露第一實施態樣的插座負載管理系統,其包含:電源插座10以及控制伺服器20,電源插座10更包含:至少一電源插槽11、至少一燈號指示單元12、儲存單元13、偵測控制單元14以及傳輸單元15;控制伺服器20更包含:處理器21以及存儲裝置22。The socket load management system of the first embodiment disclosed in the present invention includes: a
燈號指示單元12與電源插槽11彼此之間是相互對應,亦即一個燈號指示單元12與一個電源插槽11是相互對應(步驟101),燈號指示單元12是提供使用者快速了解電源插槽11是否能正常使用的用途,具體而言,假設燈號指示單元12呈現綠色燈號,即表示對應的電源插槽11可以正常使用,假設燈號指示單元12呈現紅色燈號,即表示對應的電源插槽11不能正常使用,在此僅為舉例說明之,並不以此侷限本發明的應用範疇。The
儲存單元13是儲存電源插槽11的插槽資訊,電源插槽11的插槽資訊71包含電源迴路資訊以及插槽序號資訊(步驟102),電源迴路資訊是表示該電源插槽11所屬的電源迴路,插槽序號資訊是指定電源插座10中的電源插槽11。The
偵測控制單元14分別偵測電源插座10中每一個電源插槽11的電壓72與電流73(步驟103),在偵測控制單元14分別偵測電源插座10中每一個電源插槽11的電壓72與電流73後進一步透過傳輸單元15與控制伺服器20建立連線,傳輸單元15可以透過無線傳輸方式與控制伺服器20建立連線,前述無線傳輸方式例如是Wi-Fi、行動通訊網路…等,在此僅為舉例說明之,並不以此侷限本發明的應用範疇,傳輸單元15在與控制伺服器20建立連線後,傳輸單元15即可傳送電源插槽11的插槽資訊71及其對應的電壓72與電流73至控制伺服器20(步驟104)。The
控制伺服器20的處理器21是用於執行各指令,控制伺服器20的存儲裝置22是用於存儲多個指令,指令由控制伺服器20的處理器21加載並執行:The
控制伺服器20自傳輸單元15接收到電源插槽11的電壓72與電流73以及電源插槽11的插槽資訊71後,控制伺服器20先依據電源插槽11的電壓72與電流73計算出電源插槽11的實際負載(步驟105),電源插槽11的實際負載即是將電源插槽11的電壓72乘以電源插槽11的電流73所計算得到。After the
接著,控制伺服器20會再依據電源插槽11的插槽資訊71中電源迴路資訊查找出對應的每一個電源插槽11的插槽資訊71,再依據電源插槽11的插槽資訊71所對應的電源插槽71的實際負載進行相加,藉以計算得到電源迴路的總實際負載(步驟106)。Then, the
在控制伺服器20計算出電源迴路的總實際負載後,控制伺服器20會進一步比對電源迴路的總實際負載與電源迴路的總理論負載。After the
當電源迴路的總實際負載超過電源迴路的總理論負載時,控制伺服器20依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令74為停止電源供應(步驟107)。When the total actual load of the power circuit exceeds the total theoretical load of the power circuit, the
當電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,控制伺服器20依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令74為停止電源供應(步驟107)。When the difference between the total actual load of the power supply loop and the total theoretical load of the power supply loop is less than the preset load difference, the
當電源迴路的總實際負載與電源迴路的總理論負載之間的差值大於預設負載差值時,控制伺服器20依據電源插槽11的插槽資訊71中插槽序號資訊對應生成控制指令74為提供電源供應。When the difference between the total actual load of the power circuit and the total theoretical load of the power circuit is greater than the preset load difference, the
在控制伺服器20生成控制指令74後,即可再透過無線傳輸方式將控制指令74傳送至對應的傳輸單元15(步驟108),在傳輸單元15自控制伺服器20接收到控制指令74後,偵測控制單元14即可依據控制指令74對對應的電源插槽11以及燈號指示單元12進行控制,亦即偵測控制單元14會依據控制指令74控制電源插槽11提供電源供應或是停止電源供應,並且偵測控制單元14會依據控制指令74控制電源插槽11對應的燈號指示單元12切換為對應的燈號顯示狀態(步驟109)。After the
當傳輸單元15接收到控制指令74時,電源插槽11依據控制指令74啟動對應電源插槽11的電源供應切換機構以透過物理機構形式封閉或是開放對應的電源插槽11供應電源,或是電源插槽11依據控制指令74控制對應電源插槽11的電源供應切換開關以透過電路的供電或是斷電形式停止對應的電源插槽11供應電源。When the
控制伺服器20除了依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令74之外,控制伺服器20會進一步依據電源插槽11的實際負載進行排序,再依據電源插槽11的實際負載排序後的結果由負載高至負載低選取至少一電源插槽11的插槽資訊71為高負載電源插槽資訊75。The
高負載電源插槽資訊75的選取方式如下:電源插槽11的實際負載排序後選取最高負載的電源插槽11的實際負載,將電源迴路的總實際負載減去被選取的電源插槽11的實際負載,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值時,則停止電源插槽11的插槽資訊71的選取,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載與電源迴路的總理論負載之間的差值仍小於預設負載差值時,則再選取第二高的電源插槽11的實際負載,以重複進行上述的計算與判斷,直到電源迴路的總實際負載減去所有被選取的電源插槽11的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值為止。The selection method of the high-load power
控制伺服器20透過無線傳輸方式與使用者所持有的手持式裝置30建立連線,前述無線傳輸方式例如是Wi-Fi、行動通訊網路…等,在此僅為舉例說明之,並不以此侷限本發明的應用範疇,控制伺服器20即可將高負載電源插槽資訊75傳送至手持式裝置30,手持式裝置30在自控制伺服器20接收到高負載電源插槽資訊75後,即可對高負載電源插槽資訊75進行顯示,讓使用者知道需要停止使用多少電源插槽11才能避免電源迴路負載過高的問題。The
控制伺服器20會進一步依據電源插槽11的實際負載進行排序,亦可依據電源插槽11的實際負載排序後的結果由負載低至負載高選取至少一電源插槽11的插槽資訊71為低負載電源插槽資訊76。The
低負載電源插槽資訊76的選取方式如下:電源插槽11的實際負載排序後選取最低負載的電源插槽11的實際負載,將電源迴路的總實際負載減去被選取的電源插槽的實際負載,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值時,則停止電源插槽11的插槽資訊71的選取,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載與電源迴路的總理論負載之間的差值仍小於預設負載差值時,則再選取第二低的電源插槽11的實際負載,以重複進行上述的計算與判斷,直到電源迴路的總實際負載減去所有被選取的電源插槽11的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值為止。The selection method of the low-load power
控制伺服器20透過無線傳輸方式與使用者所持有的手持式裝置30建立連線,前述無線傳輸方式例如是Wi-Fi、行動通訊網路…等,在此僅為舉例說明之,並不以此侷限本發明的應用範疇,控制伺服器20即可將低負載電源插槽資訊76傳送至手持式裝置30,手持式裝置30在自控制伺服器20接收到低負載電源插槽資訊76後,即可對低負載電源插槽資訊76進行顯示,讓使用者知道需要停止使用多少電源插槽11才能避免電源迴路負載過高的問題。The
以下將以第二個實施例來說明本發明第二實施態樣的運作系統與方法,並請同時參考「第4圖」、「第5A圖」、「第5B圖」以及「第6圖」所示,「第4圖」繪示為本發明插座負載管理系統的系統方塊圖;「第5A圖」以及「第5B圖」繪示為本發明插座負載管理方法的方法流程圖;「第6圖」繪示為本發明插座負載管理系統的架構示意圖。The following will describe the operating system and method of the second embodiment of the present invention with the second embodiment, and please refer to "Figure 4", "Figure 5A", "Figure 5B" and "Figure 6" at the same time As shown, "Figure 4" shows a system block diagram of the socket load management system of the present invention; "Figure 5A" and "Figure 5B" show the method flowchart of the socket load management method of the present invention; "Sixth "Figure" shows a schematic diagram of the socket load management system of the present invention.
本發明所揭露第二實施態樣的插座負載管理系統,其包含:延長電源插座40以及控制伺服器50,延長電源插座40更包含:至少一延長電源插槽41、至少一延長燈號指示單元42、延長接收單元43、延長儲存單元44、延長處理單元45、延長偵測控制單元46以及延長傳送單元47(步驟201);控制伺服器50更包含:處理器51以及存儲裝置52。The socket load management system disclosed in the second embodiment of the present invention includes: an extended
延長燈號指示單元42與延長電源插槽41彼此之間是相互對應(步驟203),亦即一個延長燈號指示單元42與一個延長電源插槽41是相互對應,延長燈號指示單元42是提供使用者快速了解延長電源插槽41是否能正常使用的用途,具體而言,假設延長燈號指示單元42呈現綠色燈號,即表示對應的延長電源插槽41可以正常使用,假設延長燈號指示單元42呈現紅色燈號,即表示對應的延長電源插槽41不能正常使用,在此僅為舉例說明之,並不以此侷限本發明的應用範疇。The extended
當延長電源插座40插接於電源插座10(請參考「第1圖」所示)其中的一個電源插槽11(請參考「第1圖」所示,步驟202)時,延長電源插座40與電源插座10彼此之間透過無線傳輸方式建立連線,前述無線傳輸方式例如是Wi-Fi、行動通訊網路…等,在此僅為舉例說明之,並不以此侷限本發明的應用範疇,在延長電源插座40與電源插座10建立連線後,延長接收單元43即可自傳輸單元15(請參考「第1圖」所示)接收對應電源插槽11的插槽資訊71(步驟204)。When the extended
延長儲存單元44是儲存延長電源插槽41的插槽資訊81,延長電源插槽41的插槽資訊81包含延長插槽序號資訊(步驟205),插槽序號資訊是指定延長電源插座40中的延長電源插槽41。The
在延長接收單元43自傳輸單元15接收對應電源插槽11的插槽資訊81後,延長處理單元45即可將電源插槽11的插槽資訊71中電源迴路資訊加入自延長電源插槽41的插槽資訊81中並更新延長儲存單元44中儲存的延長電源插槽41的插槽資訊81(步驟206)。After the
延長偵測控制單元46分別偵測延長電源插座40中每一個延長電源插槽41的電壓82與電流83(步驟207),在延長偵測控制單元46分別偵測延長電源插座40中每一個延長電源插槽41的電壓82與電流83,延長電源插座40透過無線傳輸方式與控制伺服器50建立連線,前述無線傳輸方式例如是Wi-Fi、行動通訊網路…等,在此僅為舉例說明之,並不以此侷限本發明的應用範疇,在延長電源插座40與控制伺服器50建立連線後,由延長傳送單元47傳送延長電源插槽41的插槽資訊81及其對應的電壓82與電流83至控制伺服器20(步驟208)。The extension
控制伺服器50的處理器51是用於執行各指令,控制伺服器50的存儲裝置52是用於存儲多個指令,指令由控制伺服器50的處理器51加載並執行:The
控制伺服器50自延長傳送單元47接收到延長電源插槽41的電壓82與電流83以及延長電源插槽41的插槽資訊81(步驟209)後,控制伺服器50先依據延長電源插槽41的電壓82與電流83計算出延長電源插槽41的實際負載(步驟210),延長電源插槽41的實際負載即是將延長電源插槽41的電壓82乘以延長電源插槽41的電流83所計算得到。After the
接著,控制伺服器50會再依據延長電源插槽41的插槽資訊81中電源迴路資訊查找出對應的每一個電源插槽11的插槽資訊71以及延長電源插槽41的插槽資訊81,再依據插槽資訊71所對應的電源插槽11的實際負載以及插槽資訊81所對應的延長電源插槽41的實際負載進行相加,藉以計算得到電源迴路的總實際負載(步驟211),並且依據插槽資訊81所對應的延長電源插槽41的實際負載進行相加,藉以計算得到延長電源迴路的總實際負載(步驟212)。Then, the
在控制伺服器50計算出電源迴路的總實際負載以及延長電源迴路的總實際負載後,控制伺服器50會進一步比對電源迴路的總實際負載與電源迴路的總理論負載,以及進一步比對延長電源迴路的總實際負載與延長電源迴路的總理論負載。After the
當電源迴路的總實際負載超過電源迴路的總理論負載時,控制伺服器50依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令為停止電源供應,並且控制伺服器50依據延長電源插槽41的插槽資訊81中插槽序號資訊以及延長電源插槽41的實際負載為0對應生成控制指令為停止電源供應(步驟213)。When the total actual load of the power circuit exceeds the total theoretical load of the power circuit, the
當電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,控制伺服器50依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令為停止電源供應,並且控制伺服器50依據延長電源插槽41的插槽資訊81中插槽序號資訊以及延長電源插槽41的實際負載為0對應生成控制指令為停止電源供應(步驟213)。When the difference between the total actual load of the power circuit and the total theoretical load of the power circuit is less than the preset load difference, the
當電源迴路的總實際負載與電源迴路的總理論負載之間的差值大於預設負載差值,且延長電源迴路的總實際負載超過延長電源迴路的總理論負載時,控制伺服器50依據延長電源插槽41的插槽資訊81中插槽序號資訊以及延長電源插槽41的實際負載為0對應生成控制指令為停止電源供應(步驟214)。When the difference between the total actual load of the power supply loop and the total theoretical load of the power supply loop is greater than the preset load difference, and the total actual load of the extended power supply loop exceeds the total theoretical load of the extended power supply loop, the
當電源迴路的總實際負載與電源迴路的總理論負載之間的差值大於預設負載差值,且延長電源迴路的總實際負載與延長電源迴路的總理論負載之間的差值小於預設延長負載差值時,控制伺服器50依據延長電源插槽41的插槽資訊81中插槽序號資訊以及延長電源插槽41的實際負載為0對應生成控制指令為停止電源供應(步驟214)。When the difference between the total actual load of the power supply loop and the total theoretical load of the power supply loop is greater than the preset load difference, and the difference between the total actual load of the extended power supply loop and the total theoretical load of the extended power supply loop is less than the preset When extending the load difference, the
當電源迴路的總實際負載與電源迴路的總理論負載之間的差值大於預設負載差值,且延長電源迴路的總實際負載與延長電源迴路的總理論負載之間的差值大於預設延長負載差值時,控制伺服器50依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令為提供電源供應,並且控制伺服器50依據延長電源插槽41的插槽資訊81中插槽序號資訊以及延長電源插槽41的實際負載為0對應生成控制指令為提供電源供應。When the difference between the total actual load of the power loop and the total theoretical load of the power loop is greater than the preset load difference, and the difference between the total actual load of the extended power loop and the total theoretical load of the extended power loop is greater than the preset When the load difference is extended, the
在控制伺服器50生成控制指令後,即可再透過無線傳輸方式將控制指令84傳送至對應的傳輸單元15或是延長接收單元43(步驟215),在延長接收單元43自控制伺服器50接收到控制指令84後,延長偵測控制單元46即可依據控制指令84對對應的延長電源插槽41以及延長燈號指示單元42進行控制,亦即延長偵測控制單元46會依據控制指令84控制延長電源插槽41提供電源供應或是停止電源供應,並且延長偵測控制單元46會依據控制指令84控制延長電源插槽41對應的延長燈號指示單元42切換為對應的燈號顯示狀態(步驟216)。After the
當延長接收單元43接收到控制指令84時,延長電源插槽41依據控制指令84啟動對應延長電源插槽41的電源供應切換機構以透過物理機構形式封閉或是開放對應的延長電源插槽41供應電源,或是延長電源插槽41依據控制指令84控制對應延長電源插槽41的電源供應切換開關以透過電路的供電或是斷電形式停止對應的延長電源插槽41供應電源。When the
控制伺服器50除了依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令74為停止電源供應,並且控制伺服器50依據延長電源插槽41的插槽資訊81中插槽序號資訊以及延長電源插槽41的實際負載為0對應生成控制指令84為停止電源供應之外,控制伺服器50會進一步依據電源插槽11的實際負載以及延長電源插槽41的實際負載進行排序,再依據電源插槽11的實際負載以及延長電源插槽41的實際負載排序後的結果由負載高至負載低選取至少一電源插槽11的插槽資訊71以及/或是至少一延長電源插槽41的插槽資訊81為高負載電源插槽資訊85。The
高負載電源插槽資訊85的選取方式如下:電源插槽11的實際負載以及延長電源插槽41的實際負載排序後選取最高負載的電源插槽11的實際負載或是延長電源插槽41的實際負載,將電源迴路的總實際負載減去被選取的電源插槽11的實際負載或是延長電源插槽41的實際負載,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載或是延長電源插槽41的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值時,則停止電源插槽11的插槽資訊71或是延長電源插槽41的插槽資訊81的選取,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載或是延長電源插槽41的實際負載與電源迴路的總理論負載之間的差值仍小於預設負載差值時,則再選取第二高的電源插槽11的實際負載或是延長電源插槽41的實際負載,以重複進行上述的計算與判斷,直到電源迴路的總實際負載減去所有被選取的電源插槽11的實際負載以及/或是延長電源插槽41的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值為止。The selection method of the high-load power socket information 85 is as follows: the actual load of the power socket 11 and the actual load of the extended power socket 41 are sorted, and the actual load of the highest-load power socket 11 or the actual power of the extended power socket 41 is selected Load, subtract the actual load of the selected power supply slot 11 or the actual load of the extended power supply slot 41 from the total actual load of the power supply circuit, when the total actual load of the power supply circuit subtracts the actual load of the selected power supply slot 11 When the difference between the load or the actual load of the extended power supply slot 41 and the total theoretical load of the power supply circuit is greater than the preset load difference, the slot information 71 of the power supply slot 11 or the extended power supply slot 41 is stopped When selecting the slot information 81, when the total actual load of the power supply circuit minus the actual load of the selected power supply slot 11 or the difference between the actual load of the extended power supply slot 41 and the total theoretical load of the power supply circuit is still less than When the load difference is preset, the actual load of the second highest power supply slot 11 or the actual load of the extended power supply slot 41 is selected to repeat the above calculation and judgment until the total actual load of the power supply circuit is subtracted The difference between the actual load of all the selected power supply slots 11 and/or the actual load of the extended power supply slots 41 and the total theoretical load of the power circuit is greater than the preset load difference.
控制伺服器50透過無線傳輸方式與使用者所持有的手持式裝置60建立連線,前述無線傳輸方式例如是Wi-Fi、行動通訊網路…等,在此僅為舉例說明之,並不以此侷限本發明的應用範疇,控制伺服器50即可將高負載電源插槽資訊85傳送至手持式裝置60,手持式裝置60在自控制伺服器50接收到高負載電源插槽資訊85後,即可對高負載電源插槽資訊85進行顯示,讓使用者知道需要停止使用多少電源插槽才能避免電源迴路負載過高的問題。The
控制伺服器50除了依據電源插槽11的插槽資訊71中插槽序號資訊以及電源插槽11的實際負載為0對應生成控制指令74,並且控制伺服器50依據延長電源插槽41的插槽資訊81中插槽序號資訊以及延長電源插槽41的實際負載為0對應生成控制指令84之外,控制伺服器50會進一步依據電源插槽11的實際負載以及延長電源插槽41的實際負載進行排序,再依據電源插槽11的實際負載以及延長電源插槽41的實際負載排序後的結果由負載低至負載高選取至少一電源插槽11的插槽資訊71以及/或是至少一延長電源插槽41的插槽資訊81為低負載電源插槽資訊86。The
低負載電源插槽資訊86的選取方式如下:電源插槽11的實際負載以及延長電源插槽41的實際負載排序後選取最低負載的電源插槽11的實際負載或是延長電源插槽41的實際負載,將電源迴路的總實際負載減去被選取的電源插槽11的實際負載或是延長電源插槽41的實際負載,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載或是延長電源插槽41的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值時,則停止電源插槽11的插槽資訊71或是延長電源插槽41的插槽資訊81的選取,當電源迴路的總實際負載減去被選取的電源插槽11的實際負載或是延長電源插槽41的實際負載與電源迴路的總理論負載之間的差值仍小於預設負載差值時,則再選取第二低的電源插槽11的實際負載或是延長電源插槽41的實際負載,以重複進行上述的計算與判斷,直到電源迴路的總實際負載減去所有被選取的電源插槽11的實際負載以及/或是延長電源插槽41的實際負載與電源迴路的總理論負載之間的差值大於預設負載差值為止。The selection method of the low-load power socket information 86 is as follows: the actual load of the power socket 11 and the actual load of the extended power socket 41 are sorted and the actual load of the power socket 11 with the lowest load or the actual power socket 41 is selected Load, subtract the actual load of the selected power supply slot 11 or the actual load of the extended power supply slot 41 from the total actual load of the power supply circuit, when the total actual load of the power supply circuit subtracts the actual load of the selected power supply slot 11 When the difference between the load or the actual load of the extended power supply slot 41 and the total theoretical load of the power supply circuit is greater than the preset load difference, the slot information 71 of the power supply slot 11 or the extended power supply slot 41 is stopped When selecting the slot information 81, when the total actual load of the power supply circuit minus the actual load of the selected power supply slot 11 or the difference between the actual load of the extended power supply slot 41 and the total theoretical load of the power supply circuit is still less than When the load difference is preset, the actual load of the second lowest power supply slot 11 or the actual load of the extended power supply slot 41 is selected to repeat the above calculation and judgment until the total actual load of the power supply circuit is subtracted The difference between the actual load of all the selected power supply slots 11 and/or the actual load of the extended power supply slots 41 and the total theoretical load of the power circuit is greater than the preset load difference.
控制伺服器50透過無線傳輸方式與使用者所持有的手持式裝置60建立連線,前述無線傳輸方式例如是Wi-Fi、行動通訊網路…等,在此僅為舉例說明之,並不以此侷限本發明的應用範疇,控制伺服器50即可將低負載電源插槽資訊86傳送至手持式裝置60,手持式裝置60在自控制伺服器50接收到低負載電源插槽資訊86後,即可對低負載電源插槽資訊86進行顯示,讓使用者知道需要停止使用多少電源插槽才能避免電源迴路負載過高的問題。The
綜上所述,可知本發明與先前技術之間的差異在於管理伺服器由插座接收電源插槽的電壓與電流以及電源插槽的插槽資訊,控制伺服器計算電源插槽的實際負載,以及控制伺服器依據電源插槽的插槽資訊計算出對應電源迴路的總實際負載,控制伺服器於電源迴路的總實際負載超過電源迴路的總理論負載或是電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,依據電源插槽的插槽資訊且電源插槽的實際負載為0對應生成控制指令為停止電源供應,控制伺服器將控制指令傳送至對應的插座,插座控制電源插槽提供電源供應或是停止電源供應以及控制電源插槽對應的燈號指示單元切換為對應的燈號顯示狀態。In summary, the difference between the present invention and the prior art is that the management server receives the voltage and current of the power socket from the socket and the socket information of the power socket, controls the server to calculate the actual load of the power socket, and The control server calculates the total actual load of the corresponding power circuit according to the slot information of the power slot. The total actual load of the control server in the power circuit exceeds the total theoretical load of the power circuit or the total actual load of the power circuit and the power circuit. When the difference between the total theoretical load is less than the preset load difference, according to the slot information of the power slot and the actual load of the power slot is 0, the corresponding control command is generated to stop the power supply, and the control server sends the control command to The corresponding socket, the socket controls the power socket to provide power supply or stops the power supply, and controls the light indicator unit corresponding to the power socket to switch to the corresponding light signal display state.
藉由此一技術手段可以來解決先前技術所存在不具插座負載管理的問題,進而達成提供插座負載管理的技術功效。With this technical method, the problem of the prior art without socket load management can be solved, and then the technical effect of providing socket load management can be achieved.
雖然本發明所揭露的實施方式如上,惟所述的內容並非用以直接限定本發明的專利保護範圍。任何本發明所屬技術領域中具有通常知識者,在不脫離本發明所揭露的精神和範圍的前提下,可以在實施的形式上及細節上作些許的更動。本發明的專利保護範圍,仍須以所附的申請專利範圍所界定者為準。Although the disclosed embodiments of the present invention are as above, the content described is not intended to directly limit the patent protection scope of the present invention. Any person with ordinary knowledge in the technical field to which the present invention belongs can make slight changes in the form and details of implementation without departing from the spirit and scope disclosed by the present invention. The scope of patent protection of the present invention shall still be subject to those defined in the attached patent application scope.
10‧‧‧電源插座11‧‧‧電源插槽12‧‧‧燈號指示單元13‧‧‧儲存單元14‧‧‧偵測控制單元15‧‧‧傳輸單元20‧‧‧控制伺服器21‧‧‧處理器22‧‧‧存儲裝置30‧‧‧手持式裝置40‧‧‧電源插座41‧‧‧延長電源插槽42‧‧‧延長燈號指示單元43‧‧‧延長接收單元44‧‧‧延長儲存單元45‧‧‧延長處理單元46‧‧‧延長偵測控制單元47‧‧‧延長傳送單元50‧‧‧控制伺服器51‧‧‧處理器52‧‧‧存儲裝置60‧‧‧手持式裝置71‧‧‧插槽資訊72‧‧‧電壓73‧‧‧電流74‧‧‧控制指令75‧‧‧高負載電源插槽資訊76‧‧‧低負載電源插槽資訊81‧‧‧插槽資訊82‧‧‧電壓83‧‧‧電流84‧‧‧控制指令85‧‧‧高負載電源插槽資訊86‧‧‧低負載電源插槽資訊步驟 101‧‧‧提供具有至少一電源插槽、至少一燈號指示單元、儲存單元、偵測控制單元以及傳輸單元的電源插座,燈號指示單元與電源插槽相互對應步驟 102‧‧‧電源插槽的插槽資訊儲存於儲存單元中,電源插槽的插槽資訊包含電源迴路資訊以及插槽序號資訊步驟 103‧‧‧偵測控制單元與電源插槽電性連接,分別偵測電源插槽的電壓與電流步驟 104‧‧‧傳輸單元與偵測控制單元電性連接,傳送電源插槽的電壓與電流以及電源插槽的插槽資訊至控制伺服器步驟 105‧‧‧控制伺服器計算電源插槽的實際負載步驟 106‧‧‧控制伺服器依據電源插槽的插槽資訊計算出對應電源迴路的總實際負載步驟 107‧‧‧控制伺服器於電源迴路的總實際負載超過電源迴路的總理論負載或是電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,依據電源插槽的插槽資訊且電源插槽的實際負載為0對應生成控制指令為停止電源供應步驟 108‧‧‧控制伺服器傳送控制指令至傳輸單元步驟 109‧‧‧偵測控制單元依據控制指令控制電源插槽提供電源供應或是停止電源供應,並且控制電源插槽對應的燈號指示單元切換為對應的燈號顯示狀態步驟 201‧‧‧提供具有至少一延長電源插槽、至少一延長燈號指示單元、延長接收單元、延長儲存單元、延長處理單元、延長偵測控制單元以及延長傳送單元步驟 202‧‧‧延長電源插座電性插接於電源插座中電源插槽其中之一步驟 203‧‧‧延長燈號指示單元與延長電源插槽相互對應步驟 204‧‧‧延長傳輸單元自傳輸單元接收電源迴路資訊步驟 205‧‧‧延長儲存單元儲存延長電源插槽的插槽資訊以及延長連接資訊,延長電源插槽的插槽資訊包含延長插槽序號資訊步驟 206‧‧‧延長處理單元將電源迴路資訊加入自延長電源插槽的插槽資訊中並更新延長儲存單元中儲存的延長電源插槽的插槽資訊步驟 207‧‧‧延長偵測控制單元分別偵測延長電源插槽的電壓與電流步驟 208‧‧‧延長傳送單元傳送延長電源插槽的電壓與電流以及延長電源插槽的插槽資訊步驟 209‧‧‧控制伺服器自延長傳輸單元接收延長電源插槽的電壓與電流以及延長電源插槽的插槽資訊步驟 210‧‧‧控制伺服器計算延長電源插槽的實際負載步驟 211‧‧‧控制伺服器依據延長電源插槽的插槽資訊計算出對應電源迴路的總實際負載步驟 212‧‧‧控制伺服器依據延長電源插槽的插槽資訊計算出延長電源迴路的總實際負載步驟 213‧‧‧控制伺服器於電源迴路的總實際負載超過電源迴路的總理論負載或是電源迴路的總實際負載與電源迴路的總理論負載之間的差值小於預設負載差值時,依據延長電源插槽的插槽資訊且電源插槽的實際負載為0對應生成控制指令為停止電源供應步驟 214‧‧‧控制伺服器於電源迴路的總實際負載與電源迴路的總理論負載之間的差值大於預設負載差值,且延長電源迴路的總實際負載超過延長電源迴路的總理論負載或是延長電源迴路的總實際負載與延長電源迴路的總理論負載之間的差值小於預設延長負載差值時,依據延長電源插槽的插槽資訊且電源插槽的實際負載為0對應生成控制指令為停止電源供應步驟 215‧‧‧控制伺服器傳送控制指令至延長接收單元步驟 216‧‧‧延長偵測控制單元依據控制指令控制延長電源插槽提供電源供應或是停止電源供應,並且控制延長電源插槽對應的延長燈號指示單元切換為對應的燈號顯示狀態10‧‧‧Power socket 11‧‧‧Power socket 12‧‧‧Light indication unit 13‧‧‧Storage unit 14‧‧‧ Detection control unit 15‧‧‧Transmission unit 20‧‧‧Control server 21‧ ‧‧Processor 22‧‧‧Storage device 30‧‧‧Handheld device 40‧‧‧Power socket 41‧‧‧Extended power socket 42‧‧‧Extended light indicator unit 43‧‧‧Extended receiving unit 44‧‧ ‧Extended storage unit 45‧‧‧Extended processing unit 46‧‧‧Extended detection control unit 47‧‧‧Extended transmission unit 50‧‧‧Control server 51‧‧‧Processor 52‧‧‧Storage device 60‧‧‧ Handheld device 71‧‧‧Slot information 72‧‧‧Voltage 73‧‧‧Current 74‧‧‧Control command 75‧‧‧High load power slot information 76‧‧‧Low load power slot information 81‧‧‧ Slot information 82‧‧‧Voltage 83‧‧‧Current 84‧‧‧Control instruction 85‧‧‧High load power slot information 86‧‧‧Low load power slot information Step 101‧‧‧Provide with at least one power plug The power socket of the slot, at least one light indicating unit, storage unit, detection control unit and transmission unit, the light indicating unit and the power socket correspond to each other. Step 102 The slot information of the power socket is stored in the storage unit , The slot information of the power supply slot includes the power circuit information and the slot number information. Step 103‧‧‧ Detect the electrical connection between the control unit and the power supply slot, respectively detect the voltage and current of the
第1圖繪示為本發明插座負載管理系統的第一實施態樣系統方塊圖。 第2A圖以及第2B圖繪示為本發明插座負載管理方法的第一實施態樣方法流程圖。 第3圖繪示為本發明插座負載管理系統的第一實施態樣架構示意圖。 第4圖繪示為本發明插座負載管理系統的第二實施態樣系統方塊圖。 第5A圖以及第5B圖繪示為本發明插座負載管理方法的第二實施態樣方法流程圖。 第6圖繪示為本發明插座負載管理系統的第二實施態樣架構示意圖。FIG. 1 is a block diagram of a system of a first embodiment of a socket load management system of the present invention. FIG. 2A and FIG. 2B are flowcharts illustrating the method of the first embodiment of the socket load management method of the present invention. FIG. 3 is a schematic diagram of the first embodiment of the socket load management system of the present invention. FIG. 4 is a block diagram of a second embodiment of the socket load management system of the present invention. FIG. 5A and FIG. 5B are flowcharts illustrating the method of the second embodiment of the socket load management method of the present invention. FIG. 6 is a schematic diagram of a second embodiment of the socket load management system of the present invention.
10‧‧‧電源插座 10‧‧‧Power socket
11‧‧‧電源插槽 11‧‧‧Power socket
12‧‧‧燈號指示單元 12‧‧‧Light indication unit
13‧‧‧儲存單元 13‧‧‧Storage unit
14‧‧‧偵測控制單元 14‧‧‧detection control unit
15‧‧‧傳輸單元 15‧‧‧Transmission unit
20‧‧‧控制伺服器 20‧‧‧Control server
21‧‧‧處理器 21‧‧‧ processor
22‧‧‧存儲裝置 22‧‧‧Storage device
Claims (10)
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TW107116952A TW202005206A (en) | 2018-05-18 | 2018-05-18 | Power outlet load management system and method thereof |
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TW107116952A TW202005206A (en) | 2018-05-18 | 2018-05-18 | Power outlet load management system and method thereof |
Publications (1)
Publication Number | Publication Date |
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TW202005206A true TW202005206A (en) | 2020-01-16 |
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TW (1) | TW202005206A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI798588B (en) * | 2020-09-25 | 2023-04-11 | 李錦峰 | Equipment indicating system and signal detection device |
-
2018
- 2018-05-18 TW TW107116952A patent/TW202005206A/en unknown
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI798588B (en) * | 2020-09-25 | 2023-04-11 | 李錦峰 | Equipment indicating system and signal detection device |
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