TWM560144U - Intelligent switchboard cloud management system - Google Patents

Abstract

本新型係一種智能配電盤雲端管理系統，包含一配電開關組，配電開關組包含複數配電開關，各配電開關分別電連接一負載以控制一電源對各負載的供電；一電壓電流量測模組，量測通過各負載的電壓電流並通過一運算單元運算出一即時電力資訊；一雲端管理裝置，經由一雲端智能模組存取即時電力資訊後顯示，且雲端管理裝置供產生一操作指令，並通過雲端智能模組及一遠端監控模組控制各配電開關的導通狀態。如此一來，使用者可於遠端通過雲端管理裝置了解並操作各配電開關，達到遠端操作，避免現場操作發生異常並傷及人員的目的。The present invention relates to a smart distribution board cloud management system, comprising a power distribution switch group, the power distribution switch group comprises a plurality of power distribution switches, each power distribution switch is electrically connected to a load to control a power supply to each load; a voltage and current measurement module, Measure the voltage and current through each load and calculate an instant power information through an operation unit; a cloud management device displays the instant power information through a cloud intelligent module, and the cloud management device provides an operation command, and The conduction state of each power distribution switch is controlled by the cloud intelligent module and a remote monitoring module. In this way, the user can understand and operate each power distribution switch through the cloud management device at the remote end to achieve remote operation, avoiding abnormalities in the field operation and injuring personnel.

Description

智能配電盤雲端管理系統Intelligent switchboard cloud management system

本新型係一種配電盤管理系統，尤指一種智能配電盤雲端管理系統。The present invention is a power distribution board management system, especially a smart distribution board cloud management system.

請參閱圖9所示，一配電盤系統是大型電力系統須設置的必要配備，該配電盤40電連接一電源系統，依照使用需求進行電力分配；該配電盤40一般進一步包含一配電開關組41、複數集合式電表42、及一系統保護模組43，該配電開關組41包含複數配電開關411，經由控制該各配電開關411，可依照需求進行電力分配；各該集合式電表42包含有一電流電壓量測單元421、一運算單元422，該運算單元422電連接該電壓電流量單元421。各該電流電壓量測單元421分別電連接該配電開關組41的各該配電開關411，以量測各配電開關411之電流及電壓，傳送電流及電壓訊號至各該運算單元422後進行運算分析，並由一螢幕顯示各項數據。該系統保護模組43電連接該配電開關組41，量測該配電開關組41之電流，並在各該配電開關411發生過載時斷開該過載電路，以保護該配電盤系統。As shown in FIG. 9, a switchboard system is a necessary configuration for a large-scale power system. The switchboard 40 is electrically connected to a power supply system, and performs power distribution according to usage requirements. The switchboard 40 generally further includes a power distribution switch group 41 and a plurality of sets. The electric meter 42 and a system protection module 43 include a plurality of power distribution switches 411. The power distribution can be performed according to requirements by controlling the power distribution switches 411. Each of the integrated electric meters 42 includes a current and voltage measurement. The unit 421 is an arithmetic unit 422 electrically connected to the voltage and current amount unit 421. Each of the current and voltage measuring units 421 is electrically connected to each of the power distribution switches 411 of the power distribution switch group 41 to measure the current and voltage of each power distribution switch 411, and transmit current and voltage signals to each of the computing units 422 for operation analysis. And display the data by a screen. The system protection module 43 is electrically connected to the power distribution switch group 41, measures the current of the power distribution switch group 41, and disconnects the overload circuit when each of the power distribution switches 411 is overloaded to protect the power distribution panel system.

現有的配電盤系統係設置在一固定空間，若須進行觀察該配電系統之電表數據或操作配電開關組41、系統保護模組43時，管理者均必須親身至該設置空間進行觀察及手動操作，若電力系統產生問題，而管理者無法提前預知或及時趕往現場進行處理，電力系統將會產生損壞；此外，配電盤系統常為連接高電壓電力，電力系統產生問題，管理者前往該設置空間進行手動操作將有相當程度之危險性；因此，現有技術的配電盤系統有必要做進一步之改良。The existing switchboard system is disposed in a fixed space. If it is necessary to observe the meter data of the power distribution system or operate the power distribution switch group 41 and the system protection module 43, the administrator must personally go to the installation space for observation and manual operation. If the power system has problems, and the manager can't predict in advance or rush to the site for processing, the power system will be damaged. In addition, the switchboard system often connects high-voltage power, and the power system has problems. The administrator goes to the installation space. Manual operation will be of considerable risk; therefore, there is a need for further improvements in prior art switchboard systems.

有鑑於現有的配電盤系統令管理人員無法在異常情況發生時及時進行及處理且前往現場處理具有一定之危險性，本新型提供一智能配電盤雲端管理系統，該智能配電盤包含一配電開關組、一電壓電流量測模組、一運算單元、一遠端監控模組、一雲端智能模組、一雲端管理裝置；其中該配電開關組包含複數個配電開關，各該配電開關的其中一端共同電連接到一電源，另一端分別電連接一負載；該電壓電流量測模組電連接各該配電開關，以量測通過各該負載之電壓及電流；該運算單元電連接該電壓電流量測模組，以接收該電壓電流量測模組所量測之電壓電流訊號並經運算產生一即時電力資訊；該遠端監控模組分別電連接各該配電開關，分別控制各該配電開關開啟或關閉，並根據各該配電開關的導通狀態產生一開關狀態資訊，該開關狀態資訊包含各該配電開關的導通狀態；該雲端智能模組電連接該運算單元、該遠端監控模組，該雲端智能模組接收並儲存該運算單元之即時電力資訊、該遠端智能模組的開關狀態資訊；該雲端管理裝置通過無線連接或經由網路連接至該雲端智能模組，存取並顯示該雲端智能模組儲存之即時電力資訊及開關狀態資訊，並產生一操作指令傳送至該雲端智能模組；當該雲端智能模組接收該操作指令時，該雲端智能模組根據該操作指令產生一開關控制訊號並傳送至該遠端監控模組；當該遠端控制模組收到該開關控制訊號時，該遠端監控模組根據該開關控制訊號控制各該配電開關的導通狀態。In view of the fact that the existing switchboard system makes it impossible for the management personnel to timely carry out and process the abnormal situation and to go to the site for treatment, the present invention provides a smart switchboard cloud management system, which includes a power distribution switch group and a voltage. The electric current measuring module, an arithmetic unit, a remote monitoring module, a cloud intelligent module, and a cloud management device; wherein the power distribution switch group includes a plurality of power distribution switches, and one end of each of the power distribution switches is electrically connected to a power source, the other end is electrically connected to a load; the voltage and current measuring module is electrically connected to each of the power distribution switches to measure voltage and current through each of the loads; the computing unit is electrically connected to the voltage and current measuring module, Receiving the voltage and current signals measured by the voltage and current measurement module and generating an instant power information by operation; the remote monitoring module is electrically connected to each of the power distribution switches, respectively, to control each of the power distribution switches to be turned on or off, and Generating a switch status information according to the conduction state of each of the power distribution switches, and the switch status information includes each of the The cloud smart module is electrically connected to the computing unit and the remote monitoring module, and the cloud intelligent module receives and stores the real-time power information of the computing unit and the switch state information of the remote intelligent module; The cloud management device connects to the cloud intelligent module through a wireless connection or via a network, accesses and displays the real-time power information and switch state information stored by the cloud smart module, and generates an operation command to transmit to the cloud intelligent module. When the cloud intelligent module receives the operation instruction, the cloud intelligent module generates a switch control signal according to the operation command and transmits the switch control signal to the remote monitoring module; when the remote control module receives the switch control signal The remote monitoring module controls the conduction state of each of the power distribution switches according to the switch control signal.

該雲端管理裝置通過無線連接或經由網路連接至該雲端智能模組，藉此存取並接收該雲端智能模組的即時電力資訊、開關狀態訊號，並產生並傳送該操作指令至該雲端智能模組，通過該雲端智能模組產生並發送該開關控制訊號至該遠端控制模組，藉此於遠端操作該配電開關組的各該配電開關的導通狀態；由於該雲端管理裝置與該雲端智能模組係通過無線連接或經由網路連接，因此管理者不須前往該智能配電盤設置之空間，即可於遠端操作該雲端管理裝置以讀取該即時電力資訊並發送該操作指令，改進了現有技術無法即時操作之不便性及現場操作該配電盤的危險性。The cloud management device connects to the cloud intelligent module through a wireless connection or via a network, thereby accessing and receiving the instant power information, the switch state signal of the cloud smart module, and generating and transmitting the operation instruction to the cloud smart device. The module generates and sends the switch control signal to the remote control module by using the cloud intelligent module, thereby operating the power-on switch of each of the power distribution switch groups at a remote end; and the cloud management device The cloud intelligent module is connected through a wireless connection or via a network, so the administrator can operate the cloud management device remotely to read the instant power information and send the operation instruction without going to the space set by the smart switchboard. The inconvenience of the prior art that cannot be operated immediately and the danger of operating the switchboard in the field are improved.

請參閱圖1所示，本新型的智能配電盤雲端管理系統供設置於一電源20及複數負載30之間，且該智能配電盤雲端管理系統包含一配電開關組10、一電壓電流量測模組11、一運算單元12、一遠端監控模組13、一雲端智能模組14、一雲端管理裝置19；該配電開關組10包含複數個配電開關101，各該配電開關101的其中一端共同電連接至該電源20，另一端分別電連接其中一負載30，各該配電開關101的導通狀態可為一開啟狀態或一關閉狀態，各該配電開關101的導通狀態為開啟狀態時，形成導通，該電源20可供電各該負載30；各該配電開關101的導通狀態為關閉狀態時，形成不導通，該電源20無法供電至各該負載30；該電壓電流量測模組11電連接該配電開關組10的各該配電開關101，以量測通過各該負載30的電壓及電流，並產生一電壓電流訊號。As shown in FIG. 1 , the smart switchboard cloud management system of the present invention is disposed between a power source 20 and a plurality of loads 30, and the smart switchboard cloud management system includes a power distribution switch group 10 and a voltage and current measurement module 11 . An arithmetic unit 12, a remote monitoring module 13, a cloud intelligent module 14, and a cloud management device 19; the power distribution switch group 10 includes a plurality of power distribution switches 101, and one end of each of the power distribution switches 101 is electrically connected To the power source 20, the other end is electrically connected to one of the loads 30, and the conduction state of each of the power distribution switches 101 can be an open state or a closed state, and the conduction state of each of the power distribution switches 101 is turned on when the conductive state is turned on. The power source 20 can supply the load 30; when the conduction state of each of the power distribution switches 101 is off, the power is not turned on, and the power source 20 cannot supply power to each of the loads 30; the voltage and current measurement module 11 is electrically connected to the power distribution switch. Each of the power distribution switches 101 of the group 10 measures voltage and current through each of the loads 30 and generates a voltage current signal.

該運算單元12電連接該電壓電流量測模組11，以接收該電壓電流訊號，並根據該電壓電流訊號運算產生一即時電力資訊。在本較佳實施例中，該即時電力資訊包含各該負載之電壓值、電流值、功率值、功率因數值、電能消耗值、三相諧波之中任一或組合，但不以此為限。The computing unit 12 is electrically connected to the voltage and current measuring module 11 to receive the voltage and current signals, and generates an instantaneous power information according to the voltage and current signals. In the preferred embodiment, the instantaneous power information includes any one or a combination of a voltage value, a current value, a power value, a power factor value, an electrical energy consumption value, and a three-phase harmonic of each load, but is not limit.

該遠端監控模組13電連接該配電開關組10的各該配電開關101，且該遠端監控模組13可控制各該配電開關101形成開啟狀態或關閉狀態；該遠端監控模組13進一步根據各該配電開關101的導通狀態產生一開關狀態資訊，該開關狀態資訊包含各該配電開關101的導通狀態。The remote monitoring module 13 is electrically connected to each of the power distribution switches 101 of the power distribution switch group 10, and the remote monitoring module 13 can control each of the power distribution switches 101 to be in an open state or a closed state; the remote monitoring module 13 Further, according to the conduction state of each of the power distribution switches 101, a switch state information is generated, and the switch state information includes an on state of each of the power distribution switches 101.

該雲端智能模組14連接該運算單元12及該遠端監控模組13，該雲端智能模組14存取該即時電力資訊，以及該開關狀態資訊；該雲端智能模組14進一步產生一開關控制訊號，並將該開關控制訊號傳送至該遠端監控模組13。當該遠端監控模組13接收到該開關控制訊號時，該遠端監控模組13根據該開關控制訊號產生一開啟訊號或一關閉訊號傳送至該配電開關組10，以控制該配電開關組10的各該配電開關101的導通狀態。The cloud intelligent module 14 is connected to the computing unit 12 and the remote monitoring module 13. The cloud intelligent module 14 accesses the instant power information and the switch status information. The cloud intelligent module 14 further generates a switch control. Signaling and transmitting the switch control signal to the remote monitoring module 13. When the remote monitoring module 13 receives the switch control signal, the remote monitoring module 13 generates an open signal or a shutdown signal according to the switch control signal to the power distribution switch group 10 to control the power distribution switch group. The conduction state of each of the power distribution switches 101 of 10.

該雲端管理裝置19通過無線連接或經由網路連接至該雲端智能模組14，藉此存取並顯示儲存於該雲端智能模組14的即時電力資訊、開關狀態資訊，且一管理者能通過操作該雲端管理裝置19產生一操作指令，該操作指令可為一開啟指令或一關閉指令，該雲端管理裝置19傳送該操作指令至該雲端智能模組14。該雲端智能模組14根據該操作指令產生該開關控制訊號，並傳送該開關控制訊號至該遠端監控模組13，由該遠端監控模組13根據該開關控制訊號控制各該配電開關101的導通狀態。The cloud management device 19 is connected to the cloud smart module 14 through a wireless connection or via a network, thereby accessing and displaying the real-time power information and switch status information stored in the cloud smart module 14 , and a manager can pass The cloud management device 19 is configured to generate an operation command, and the operation command may be an open command or a close command, and the cloud management device 19 transmits the operation command to the cloud smart module 14 . The cloud intelligent module 14 generates the switch control signal according to the operation command, and transmits the switch control signal to the remote monitoring module 13. The remote monitoring module 13 controls each of the power distribution switches 101 according to the switch control signal. The conduction state.

由於該雲端管理裝置19係通過無線連接或經由網際網路連接該雲端智能模組14，讀取該雲端智能模組14內之資訊或傳送操作指令，因此該雲端管理裝置19無須設置於該配電盤之同一空間；也就是說，該雲端管理裝置19可設置於任何網際網路訊號可抵達之位置，而該管理者亦可藉由操作該雲端管理裝置19無距離限制且即時地讀取該智能配電盤之即時電力資訊、開關狀態資訊，且該管理者能通過操作該雲端管理裝置19產生該操作指令，進一步控制該配電開關組10內的任一配電開關101的導通狀態為開啟狀態或關閉狀態，令該管理者能即時地讀取該智能配電盤的數據資訊，對該智能配電盤進行安全距離或遠端操控，進而提升人員操作時的安全性。The cloud management device 19 does not need to be installed on the switchboard because the cloud management device 19 is connected to the cloud smart module 14 via a wireless connection or via the Internet to read information or transmit operation commands in the cloud smart module 14. The same space; that is, the cloud management device 19 can be placed at any location where the Internet signal can be reached, and the administrator can also read the smart by operating the cloud management device 19 without distance limitation. The real-time power information and the switch status information of the switchboard, and the manager can generate the operation command by operating the cloud management device 19 to further control whether the conduction state of any of the power distribution switches 101 in the power distribution switch group 10 is the on state or the off state. The administrator can immediately read the data information of the smart switchboard, and perform safe distance or remote control on the smart switchboard, thereby improving the safety of personnel operation.

請參閱圖2所示，在本新型的一較佳實施例中，該智能配電盤雲端管理系統包含一系統保護單元15，電連接該電壓電流量測模組11、該遠端監控模組13、該雲端智能模組14；該系統保護單元15由該電壓電流量測模組11接收該電壓電流訊號，並根據該電壓電流訊號判斷各該配電開關的負載30是否異常；當該系統保護單元15判斷其中一負載30的電壓或電流超過一臨界值，該系統保護單元15判斷該負載30異常，則產生一關閉訊號、一警示訊號；該系統保護單元15傳送該關閉訊號至該遠端監控模組13，令該遠端監控模組13控制電連接該異常負載30之該配電開關101的導通狀態為關閉狀態而形成斷路，以切斷該負載30之供電。此外，該系統保護單元15經由該雲端智能模組14傳送該警示訊號至該雲端管理裝置19，並由該雲端管理裝置19顯示一負載30異常訊息。Referring to FIG. 2, in a preferred embodiment of the present invention, the smart switchboard cloud management system includes a system protection unit 15 electrically connected to the voltage and current measurement module 11, the remote monitoring module 13, The cloud intelligent module 14; the system protection unit 15 receives the voltage current signal by the voltage and current measuring module 11, and determines whether the load 30 of each power distribution switch is abnormal according to the voltage current signal; when the system protection unit 15 When the voltage or current of one of the loads 30 exceeds a critical value, the system protection unit 15 determines that the load 30 is abnormal, and generates a shutdown signal and a warning signal; the system protection unit 15 transmits the shutdown signal to the remote monitoring mode. The group 13 is configured to cause the remote monitoring module 13 to control the conduction state of the power distribution switch 101 electrically connected to the abnormal load 30 to be in an off state to form an open circuit to cut off the power supply of the load 30. In addition, the system protection unit 15 transmits the warning signal to the cloud management device 19 via the cloud intelligent module 14, and the cloud management device 19 displays a load 30 abnormal message.

該系統保護單元15經由該電壓電流量測模組11得知該配電開關組10的各該配電開關的負載30電壓電流情況，並在任一負載30通過異常電流時，不須經由人為操作，可即時關閉電連接該負載30之該配電開關以切斷供電，避免該異常情況進一步擴大，導致該配電開關組10或電力系統的損壞。The system protection unit 15 knows the voltage and current condition of the load 30 of each of the power distribution switches of the power distribution switch group 10 through the voltage and current measurement module 11, and does not need to be operated by humans when any load 30 passes an abnormal current. The power distribution switch of the load 30 is immediately turned off to cut off the power supply, and the abnormal situation is further prevented from being further enlarged, resulting in damage to the power distribution switch group 10 or the power system.

請繼續參閱圖2所示，在本較佳實施例中，該智能配電盤雲端管理系統包含一分隔室溫濕度量測模組16及一導體溫度量測模組17，該分隔室溫濕度量測模組16及該導體溫度量測模組17設置於該配電盤內部，且分別電連接至該雲端智能模組14。該分隔室溫濕度量測模組16可量測該配電盤內的一分隔室溫濕度，以產生一分隔室溫濕度資訊，該導體溫度量測模組17可量測該配電盤內的一導體溫度，以產生一導體溫度資訊。該分隔室溫濕度量測模組16傳送該分隔室溫濕度資訊至該雲端智能模組14，該導體溫度量測模組17傳送該導體溫度資訊至該雲端智能模組14。該雲端管理裝置19存取該雲端智能模組14之分隔室溫濕度資訊及導體溫度資訊並顯示該分隔室溫濕度資訊及該導體溫度資訊供該管理者讀取。Referring to FIG. 2, in the preferred embodiment, the smart switchboard cloud management system includes a separate room temperature humidity measurement module 16 and a conductor temperature measurement module 17, and the room temperature humidity measurement is separated. The module 16 and the conductor temperature measuring module 17 are disposed inside the power panel and electrically connected to the cloud smart module 14 respectively. The separated room temperature humidity measuring module 16 can measure a separated room temperature humidity in the switchboard to generate a room temperature humidity information, and the conductor temperature measuring module 17 can measure a conductor temperature in the switchboard. To generate a conductor temperature information. The separated room temperature humidity measuring module 16 transmits the separated room temperature humidity information to the cloud intelligent module 14 , and the conductor temperature measuring module 17 transmits the conductor temperature information to the cloud intelligent module 14 . The cloud management device 19 accesses the room temperature humidity information and the conductor temperature information of the cloud intelligent module 14 and displays the separated room temperature humidity information and the conductor temperature information for reading by the manager.

現有的配電盤管理者須親自前往該配電盤設置之空間，以讀取溫度及濕度數據並進行操作，然而，在該配電盤發生異常情況導致該配電盤之設置空間異常高溫發生的情形下，此操作方式有其危險性。因此本新型智能配電盤雲端管理系統進一步將分隔室溫濕度資訊及導體溫度資訊傳送至雲端智能模組14，如此一來，該管理者即可經由該雲端管理裝置19得知該配電盤內部之分隔室溫濕度資訊及導體溫度資訊，藉此根據該分隔室溫濕度資訊及該導體溫度資訊判斷該配電盤是否在正常情形內運作，並可經由該雲端管理裝置19直接進行管理操作，而不須親自前往該配電盤之設置空間，避免現場操作之危險。The existing switchboard manager must personally go to the space set by the switchboard to read the temperature and humidity data and operate it. However, in the case where the abnormality of the switchboard causes the installation space of the switchboard to be abnormally high temperature, this operation mode has Its danger. Therefore, the smart switchboard cloud management system further transmits the separated room temperature humidity information and the conductor temperature information to the cloud smart module 14, so that the manager can know the partition inside the switchboard through the cloud management device 19. Temperature and humidity information and conductor temperature information, thereby determining whether the power panel is operating under normal conditions according to the separated room temperature humidity information and the conductor temperature information, and directly performing management operations via the cloud management device 19 without going in person The installation space of the switchboard avoids the danger of on-site operation.

請繼續參閱圖2所示，在本較佳實施例中，該雲端管理裝置19進一步包含一數據監測模組191、一遠端安全性操控模組192、一告警數據及時推播防護模組193、一雲端數據儲存分析模組194、一屏幕195。該數據監測模組191、該遠端安全性操控模組192、該告警數據及時推播防護模組193、該雲端數據儲存分析模組194分別透過無線連接或經由網路連接至該雲端智能模組14，該屏幕195連接該數據監測模組191及該告警數據及時推播防護模組193。As shown in FIG. 2, in the preferred embodiment, the cloud management device 19 further includes a data monitoring module 191, a remote security control module 192, and an alarm data prompting protection module 193. , a cloud data storage analysis module 194, a screen 195. The data monitoring module 191, the remote security control module 192, the alarm data timely broadcast protection module 193, and the cloud data storage analysis module 194 are respectively connected to the cloud smart module through a wireless connection or via a network. The group 14 is connected to the data monitoring module 191 and the alarm data to push the protection module 193 in time.

請一併參閱圖3及圖4所示，該數據監測模組191可存取該雲端智能模組14之即時電力資訊、分隔室溫濕度資訊、導體溫度資訊，並顯示於該屏幕195提供該管理者讀取。As shown in FIG. 3 and FIG. 4 , the data monitoring module 191 can access the instant power information of the cloud smart module 14 , separate the room temperature humidity information, and the conductor temperature information, and display the screen 195 to provide the The manager reads.

請參閱圖5所示，該遠端安全性操作模組192根據管理者的操作產生該操作指令，該操作指令為該開啟指令或該關閉指令；該遠端安全性操作模組192傳送該操作指令至該雲端智能模組14，該雲端智能模組14收到該操作指令後可產生並傳送一開關控制訊號至該遠端監控模組13，令該遠端監控模組13根據該開關控制訊號控制各該配電開關101開啟或關閉。Referring to FIG. 5, the remote security operation module 192 generates the operation instruction according to an operation of the administrator, and the operation instruction is the open command or the close command; the remote security operation module 192 transmits the operation. The cloud intelligent module 14 can generate and transmit a switch control signal to the remote monitoring module 13 after receiving the operation command, so that the remote monitoring module 13 controls according to the switch. The signal controls each of the power distribution switches 101 to be turned on or off.

該遠端監控模組13完成一控制動作後，產生並傳送一開關狀態資訊至該雲端智能模組14，以更新前一次該遠端監控模組13完成一開關控制後傳送至該雲端智能模組14之開關狀態資訊，令管理者可經由該雲端管理裝置19讀取該開關狀態資訊，以瞭解該配電開關組10之最新狀態。After the remote monitoring module 13 completes a control action, the switch status information is generated and transmitted to the cloud intelligent module 14 to update the previous remote monitoring module 13 to perform a switch control and then transmitted to the cloud smart module. The switch status information of the group 14 allows the administrator to read the switch status information via the cloud management device 19 to know the latest status of the power distribution switch group 10.

請參閱圖6所示，該告警數據及時推播防護模組193存取該雲端智能模組14之即時電力資訊、分隔室溫濕度資訊、導體溫度資訊，當該雲端智能模組14之即時電力資訊、分隔室溫濕度資訊、導體溫度資訊分別超過一上限值或一下限值時，該告警數據及時推播防護模組193判斷一異常情況發生並產生一告警訊息，該屏幕195接收並顯示該告警訊息，以通知管理者該異常情況。Referring to FIG. 6 , the alarm data promptly broadcasts the protection module 193 to access the instant power information of the cloud intelligent module 14 , separates the room temperature humidity information, and the conductor temperature information, and the instant power of the cloud intelligent module 14 When the information, the room temperature humidity information, and the conductor temperature information respectively exceed an upper limit value or a lower limit value, the alarm data promptly pushes the protection module 193 to determine an abnormal situation and generates an alarm message, and the screen 195 receives and displays the alarm message. The alert message notifies the administrator of the abnormal condition.

在本新型的一較佳實例中，管理者可在該告警數據及時推播防護模組193中設定各該配電開關101之電壓上的限值及下限值、電流的上限值及下限值、分隔室溫濕度及導體溫度的上限值及下限值，讓管理者能根據各個負載30的種類分別進行不同的設定。In a preferred embodiment of the present invention, the administrator can set the limit value and the lower limit value of the voltage of each of the power distribution switches 101, the upper limit value and the lower limit of the current in the alarm data prompting protection module 193. The value, the upper limit value and the lower limit value of the room temperature humidity and the conductor temperature are separated, and the manager can perform different settings according to the type of each load 30.

請參閱圖7及圖8所示，該雲端數據儲存分析模組194存取該雲端智能模組14存儲之即時電力資訊，根據管理者的操作將一特定歷史時間內的電力資訊製作圖表，並將該些圖表傳送至該雲端智能模組14進行儲存。Referring to FIG. 7 and FIG. 8 , the cloud data storage and analysis module 194 accesses the real-time power information stored by the cloud smart module 14 , and generates a chart of power information in a specific historical time according to the operation of the administrator, and The graphs are transmitted to the cloud smart module 14 for storage.

在本新型的一較佳實例中，該雲端管理裝置19係一行動裝置，例如一智慧型手機或一平板電腦；該行動裝置經由網路連接該雲端智能模組14。In a preferred embodiment of the present invention, the cloud management device 19 is a mobile device, such as a smart phone or a tablet computer; the mobile device connects the cloud smart module 14 via a network.

行動裝置體積小且方便攜帶，係現今多數人均熟悉操作方式之裝置，管理人可即時且不限地點地瞭解該配電系統之運作情形，並操作各配電開關101以處理不同情況，The mobile device is small in size and convenient to carry. It is a device that most people are familiar with today, and the administrator can understand the operation of the power distribution system in an instant and anywhere, and operate each power distribution switch 101 to handle different situations.

在本新型的一較佳實例中，該配電開關組10的各該配電開關101為一真空斷路器，該真空斷路器可承受高電壓及高電流，適用於通過高電壓高電流之配電盤。In a preferred embodiment of the present invention, each of the power distribution switches 101 of the power distribution switch group 10 is a vacuum circuit breaker that can withstand high voltages and high currents and is suitable for power distribution boards that pass high voltage and high current.

再請參閱圖2所示，該智能配電盤雲端管理系統進一步包含一接地開關18，該接地開關18具有兩端，一端電連接該配電開關組10之各該配電開關101電連接各該負載30之一端，另一端接地；該接地開關18進一步連接該遠端監控模組13。如此一來，該管理者可經由操作該雲端管理裝置19的遠端安全性操控模組192，產生一接地開關操作指令並傳送至該雲端智能模組14，該雲端智能模組14接收該接地開關操作指令後產生一接地開關控制訊號並傳送該接地開關控制訊號至該遠端監控模組13，該遠端監控模組13接收該接地開關控制訊號後控制該接地開關18的導通狀態為一開啟狀態或一關閉狀態，並產生一接地開關狀態資訊，該遠端監控模組13傳送該接地開關狀態資訊至該雲端智能模組14，供該雲端管理裝置19存取。As shown in FIG. 2 , the smart switchboard cloud management system further includes a grounding switch 18 having two ends, one end of which is electrically connected to each of the power distribution switch groups 10 and electrically connected to each of the loads 30 . One end and the other end are grounded; the grounding switch 18 is further connected to the remote monitoring module 13. In this way, the administrator can generate a grounding switch operation command and transmit the grounding switch operation command to the cloud smart module 14 by operating the remote security control module 192 of the cloud management device 19, and the cloud smart module 14 receives the ground. After the switch operation command is generated, a ground switch control signal is generated and the ground switch control signal is transmitted to the remote monitoring module 13. The remote monitoring module 13 receives the ground switch control signal and controls the conduction state of the ground switch 18 to be one. The open state or a closed state generates a ground switch state information, and the remote monitoring module 13 transmits the ground switch state information to the cloud smart module 14 for access by the cloud management device 19.

當該智能配電盤之電源停止供電後，該智能配電盤內之線路會保留有一殘留電壓，此時該管理者可操作該雲端管理裝置19，產生該接地開關操作指令，並傳送至該雲端智能模組14，該雲端智能模組14進一步產生該開關控制訊號傳送至該遠端監控模組13，令該遠端監控模組13控制該接地開關18的導通狀態為開啟狀態，使該接地開關18開啟形成導通，令該智能配電盤釋放殘留電壓，並與大地為同等電位，避免造成人員之危險。After the power supply of the smart power distribution board is stopped, the circuit in the smart power distribution board will retain a residual voltage. At this time, the administrator can operate the cloud management device 19 to generate the grounding switch operation command and transmit the operation command to the cloud intelligent module. The cloud intelligent module 14 further generates the switch control signal to be transmitted to the remote monitoring module 13, so that the remote monitoring module 13 controls the conduction state of the grounding switch 18 to be on, and the grounding switch 18 is turned on. The conduction is formed, so that the smart switchboard discharges the residual voltage and has the same potential as the earth, thereby avoiding the danger of personnel.

以上所述僅是本創作的較佳實施例而已，並非對本創作做任何形式上的限制，雖然本創作已以較佳實施例揭露如上，然而並非用以限定本創作，任何所屬技術領域中具有通常知識者，在不脫離本創作技術方案的範圍內，當可利用上述揭示的技術內容作出些許更動或修飾為等同變化的等效實施例，但凡是未脫離本創作技術方案的內容，依據本創作的技術實質對以上實施例所作的任何簡單修改、等同變化與修飾，均仍屬於本創作技術方案的範圍內。The above description is only a preferred embodiment of the present invention, and does not impose any form limitation on the present invention. Although the present invention has been disclosed above in the preferred embodiment, it is not intended to limit the present creation, and has any technical field. A person skilled in the art can make some modifications or modifications to equivalent embodiments by using the above-disclosed technical contents without departing from the technical scope of the present invention. The technical essence of the creation Any simple modification, equivalent change and modification of the above embodiments are still within the scope of the technical solution of the present invention.

10‧‧‧配電開關組10‧‧‧Distribution switch group

101‧‧‧配電開關101‧‧‧Distribution switch

11‧‧‧電壓電流量測模組11‧‧‧Voltage current measurement module

12‧‧‧運算單元12‧‧‧ arithmetic unit

13‧‧‧遠端監控模組13‧‧‧ Remote Monitoring Module

14‧‧‧雲端智能模組14‧‧‧Cloud Smart Module

15‧‧‧系統保護單元15‧‧‧System Protection Unit

16‧‧‧分隔室溫濕度量測模組16‧‧‧Separate room temperature humidity measurement module

17‧‧‧導體溫度量測模組17‧‧‧Conductor temperature measurement module

18‧‧‧接地開關18‧‧‧ Earthing switch

19‧‧‧雲端管理裝置19‧‧‧Cloud management device

191‧‧‧數據監測模組191‧‧‧Data Monitoring Module

192‧‧‧遠端安全性操控模組192‧‧‧Remote security control module

193‧‧‧告警數據及時推播防護模組193‧‧‧ Alarm data timely push protection module

194‧‧‧雲端數據儲存分析模組194‧‧‧ Cloud Data Storage Analysis Module

195‧‧‧屏幕195‧‧‧ screen

20‧‧‧電源20‧‧‧Power supply

30‧‧‧負載30‧‧‧load

40‧‧‧配電盤40‧‧‧Distribution panel

41‧‧‧配電開關組41‧‧‧Distribution switch group

411‧‧‧配電開關411‧‧‧Distribution switch

42‧‧‧集合式電表42‧‧‧Collected electricity meter

421‧‧‧電壓電流量測模組421‧‧‧Voltage current measurement module

422‧‧‧運算單元422‧‧‧ arithmetic unit

43‧‧‧系統保護模組43‧‧‧System Protection Module

圖1 本新型的實施例的方塊示意圖。 圖2 本新型的一較佳實施例的方塊示意圖。 圖3 本新型的數據監測模組的即時電力資訊顯示介面示意圖。 圖4 本新型的數據監測模組的溫度資訊顯示介面示意圖。 圖5 本新型的遠端安全性操控模組操作介面示意圖。 圖6 本新型的告警數據及時推播防護模組操作介面示意圖。 圖7 本新型的雲端數據儲存分析模組操作介面示意圖之一。 圖8 本新型的雲端數據儲存分析模組操作介面示意圖之二。 圖9 本新型的先前技術方塊示意圖。Figure 1 is a block diagram of an embodiment of the present invention. Figure 2 is a block diagram of a preferred embodiment of the present invention. Figure 3 is a schematic diagram of the instant power information display interface of the novel data monitoring module. Figure 4 is a schematic diagram of the temperature information display interface of the novel data monitoring module. Figure 5 is a schematic diagram of the operation interface of the remote security control module of the present invention. Figure 6 Schematic diagram of the operation interface of the new alarm data in time to push the protection module. Figure 7 is a schematic diagram of the operation interface of the novel cloud data storage analysis module. Figure 8 is a schematic diagram of the operation interface of the novel cloud data storage analysis module. Figure 9 is a schematic diagram of a prior art block diagram of the present invention.

Claims (10)

一種智能配電盤雲端管理系統，供電連接於一電源及複數個負載之間，該智能配電盤雲端管理系統包含有：一配電開關組，包含複數個配電開關，各該配電開關分別具有兩端；其中該些配電開關之一端共同電連接該電源，且各該配電開關之另一端分別電連接其中一負載；一電壓電流量測模組，分別與該配電開關組的各該配電開關電連接，以量測通過各該負載的電壓及電流，並產生一電壓電流訊號；一運算單元，電連接該電壓電流量測模組；其中該運算單元接收該電壓電流量測模組所量測之電壓電流訊號，並根據該電壓電流訊號運算出一即時電力資訊；一遠端監控模組，電連接該配電開關組的各配電開關，以控制各該配電開關開啟或關閉，並根據各該配電開關的導通狀態產生一開關狀態資訊；一雲端智能模組，連接該運算單元、該遠端監控模組，接收並儲存該運算單元的即時電力資訊、該遠端監控模組的開關狀態資訊；一雲端管理裝置，連接該雲端智能模組，以存取儲存於該雲端智能模組之該即時電力資訊、該配電開關組的該開關狀態資訊，並顯示該即時電力資訊及該開關狀態資訊，且該雲端管理裝置產生一操作指令，並傳送該操作指令至該雲端智能模組；其中該雲端智能模組根據該操作指令產生一開關控制訊號，並傳送該開關控制訊號至該遠端監控模組；其中該遠端監控模組根據該開關控制訊號，控制該配電開關組的各該配電開關的導通狀態。 A smart switchboard cloud management system, the power supply is connected between a power source and a plurality of loads. The smart switchboard cloud management system includes: a power distribution switch group, comprising a plurality of power distribution switches, each of the power distribution switches having two ends; One of the power distribution switches is electrically connected to the power supply, and the other end of each of the power distribution switches is electrically connected to one of the loads; a voltage and current measurement module is electrically connected to each of the power distribution switches of the power distribution switch group. Measuring the voltage and current through each of the loads, and generating a voltage current signal; an arithmetic unit electrically connecting the voltage and current measuring module; wherein the computing unit receives the voltage and current signal measured by the voltage and current measuring module And calculating an instantaneous power information according to the voltage and current signals; a remote monitoring module electrically connecting the power distribution switches of the power distribution switch group to control whether the power distribution switches are turned on or off, and according to the conduction of each of the power distribution switches The state generates a switch state information; a cloud smart module connects the computing unit, the remote monitoring module, and connects And storing the real-time power information of the computing unit and the switch state information of the remote monitoring module; and a cloud management device connecting the cloud smart module to access the instant power information stored in the cloud smart module, The switch state information of the power distribution switch group, and displaying the instant power information and the switch state information, and the cloud management device generates an operation command, and transmits the operation command to the cloud smart module; wherein the cloud smart module is configured according to The operation command generates a switch control signal and transmits the switch control signal to the remote monitoring module; wherein the remote monitoring module controls the conduction state of each of the power distribution switches of the power distribution switch group according to the switch control signal. 如請求項1所述之智能配電盤雲端管理系統，其中該即時電力資訊包含通過各該負載之電壓值、電流值、有效功率值、視在功率值、無效功率值、功率因數值、電能消耗值、三相諧波。 The smart distribution board cloud management system according to claim 1, wherein the instantaneous power information includes a voltage value, a current value, an effective power value, an apparent power value, an invalid power value, a power factor value, and an electric energy consumption value through each of the loads. Three-phase harmonics. 如請求項2所述之智能配電盤雲端管理系統，進一步包含一系統保護單元，電連接該電壓電流量測模組、該遠端監控模組；其中該系統保護單元接收該電壓電流量測模組的該電壓電流訊號，並根據該電壓電流訊號判斷該負載是否異常；當該系統保護單元判斷通過其中一負載的電壓或電流超過一臨界值時，該系統保護單元判斷該負載異常，且該系統保護單元產生一警示訊號、一關閉訊號，其中：該系統保護單元傳送該關閉訊號至該遠端監控模組，使該遠端監控模組關閉與該異常負載電連接的配電開關；該系統保護單元通過該雲端智能模組傳送該警示訊號傳送至該雲端管理裝置，由該雲端管理裝置顯示一負載異常訊息。 The smart distribution board cloud management system according to claim 2, further comprising a system protection unit electrically connected to the voltage and current measurement module and the remote monitoring module; wherein the system protection unit receives the voltage and current measurement module The voltage current signal, and determining whether the load is abnormal according to the voltage current signal; when the system protection unit determines that the voltage or current passing through one of the loads exceeds a critical value, the system protection unit determines that the load is abnormal, and the system The protection unit generates a warning signal and a shutdown signal, wherein: the system protection unit transmits the shutdown signal to the remote monitoring module, so that the remote monitoring module turns off the power distribution switch electrically connected to the abnormal load; The unit transmits the warning signal to the cloud management device through the cloud intelligent module, and the cloud management device displays a load abnormality message. 如請求項3所述之智能配電盤雲端管理系統，進一步包含：一分隔室溫濕度量測模組，設置於該配電盤內部，且連接該雲端智能模組；其中該分隔室溫濕度量測模組產生一分隔室溫濕度資訊，並傳送該分隔室溫濕度資訊至該雲端智能模組儲存；及一導體溫度量測模組，設置於該配電盤內部，且連接該雲端智能模組；其中該導體溫度量測模組產生一導體溫度資訊，並傳送該導體溫度資訊至該雲端智能模組儲存。 The smart distribution board cloud management system according to claim 3, further comprising: a separation room temperature humidity measurement module disposed inside the power distribution panel and connected to the cloud intelligent module; wherein the separation room temperature humidity measurement module Generating a room temperature humidity information, and transmitting the separated room temperature humidity information to the cloud intelligent module storage; and a conductor temperature measuring module disposed inside the power distribution board and connected to the cloud intelligent module; wherein the conductor The temperature measurement module generates a conductor temperature information and transmits the conductor temperature information to the cloud intelligent module for storage. 如請求項4所述之智能配電盤雲端管理系統，其中該雲端管理裝置進一步存取並顯示儲存於該雲端智能模組之該分隔室溫濕度資訊及該導體溫度資訊。 The smart distribution board cloud management system of claim 4, wherein the cloud management device further accesses and displays the separated room temperature humidity information and the conductor temperature information stored in the cloud intelligent module. 如請求項5所述之智能配電盤雲端管理系統，其中該雲端管理裝置包含：一數據監測模組，連接該雲端智能模組，存取該即時電力資訊；一遠端安全性操控模組，產生該操作指令，並連接該雲端智能模組，以傳送該操作指令至該雲端智能模組；一告警數據及時推播防護模組，存取該雲端智能模組中系統保護單元的警示訊號、該分隔室溫濕度資訊、該導體溫度資訊，於發生負載異常、分隔室溫濕度異常、導體溫度異常時，產生一告警訊息；一屏幕，連接至該告警數據及時推播防護模組及該數據監測模組；其中當該告警數據及時推播防護模組產生該告警訊息時，該屏幕接收並顯示該告警訊息及該電力資訊；一雲端數據儲存分析模組，連接至該雲端智能模組，存取儲存於該雲端智能模組的該即時電力資訊，並根據該即時電力資訊置作一圖表。 The smart distribution board cloud management system according to claim 5, wherein the cloud management device comprises: a data monitoring module connected to the cloud intelligent module to access the instant power information; and a remote security control module generated The operation instruction is connected to the cloud intelligent module to transmit the operation instruction to the cloud intelligent module; an alarm data is timely pushed to the protection module, and the warning signal of the system protection unit in the cloud intelligent module is accessed, Separating the room temperature humidity information and the conductor temperature information to generate an alarm message when a load abnormality occurs, the room temperature humidity is abnormal, and the conductor temperature is abnormal; a screen is connected to the alarm data to promptly push the protection module and the data monitoring a module, wherein when the alarm data is timely pushed to generate the alarm message, the screen receives and displays the alarm message and the power information; a cloud data storage analysis module is connected to the cloud intelligent module, and stores The instant power information stored in the cloud smart module is taken, and a chart is set according to the instant power information. 如請求項6所述之智能配電盤雲端管理系統，其中該雲端管理裝置為一行動裝置、一智慧型手機、或一平板電腦。 The smart distribution board cloud management system of claim 6, wherein the cloud management device is a mobile device, a smart phone, or a tablet computer. 如請求項1至7中任一項所述之智能配電盤雲端管理系統，其中該配電開關組的各配電開關分別為一真空斷路器。 The smart distribution board cloud management system according to any one of claims 1 to 7, wherein each of the power distribution switches of the power distribution switch group is a vacuum circuit breaker. 如請求項6所述之智能配電盤雲端管理系統，其中該智能配電盤進一步包含一接地開關，該接地開關具有兩端，一端電連接各該配電開關電連接該負載之一端，另一端接地。 The smart switchboard cloud management system of claim 6, wherein the smart switchboard further comprises a ground switch having two ends, one end electrically connecting each of the power distribution switches to one end of the load, and the other end being grounded. 如請求項9所述之智能配電盤雲端管理系統，其中該遠端監控模組電連接該接地開關，且該雲端管理裝置的該遠端安全性操控模組產生一接地開關操作指令，並該接地開關操作指令傳送至該雲端智能模組； 其中，該雲端智能模組根據該接地開關操作指令產生一接地開關控制訊號，並傳送至該遠端監控模組；其中，該遠端監控模組根據該接地開關控制訊控制該接地開關的導通狀態，並進一步根據該接地開關的導通狀態產生一接地開關狀態資訊，且該遠端監控模組經由該雲端智能模組傳送該接地開關狀態資訊至該雲端管理裝置，並由該雲端管理裝置顯示該接地開關狀態資訊。 The smart switchboard cloud management system of claim 9, wherein the remote monitoring module is electrically connected to the grounding switch, and the remote security control module of the cloud management device generates a grounding switch operation command, and the grounding The switch operation instruction is transmitted to the cloud intelligent module; The cloud intelligent module generates a grounding switch control signal according to the grounding switch operation command, and transmits the grounding switch control signal to the remote monitoring module; wherein the remote monitoring module controls the conduction of the grounding switch according to the grounding switch control signal. a state, and further generating a grounding switch state information according to the conductive state of the grounding switch, and the remote monitoring module transmits the grounding switch state information to the cloud management device via the cloud intelligent module, and is displayed by the cloud management device The grounding switch status information.