CN213904094U - Equipment operation monitoring device based on cloud computing - Google Patents
Equipment operation monitoring device based on cloud computing Download PDFInfo
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- CN213904094U CN213904094U CN202022279338.9U CN202022279338U CN213904094U CN 213904094 U CN213904094 U CN 213904094U CN 202022279338 U CN202022279338 U CN 202022279338U CN 213904094 U CN213904094 U CN 213904094U
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Abstract
A device operation monitoring device based on cloud computing comprises an implementation module, a command module and a command module, wherein the implementation module comprises a plurality of operation devices and a plurality of detection units for detecting operation parameters of each operation device respectively, the command module comprises a monitoring platform, a processing unit, a diagnosis unit and a display unit, the command module comprises an information platform, a transmission unit and an execution unit, a plurality of devices are respectively connected with the detection units arranged respectively, the detection units are connected with input interfaces of the monitoring platform in parallel, the input interfaces of the processing platform and the diagnosis unit are respectively connected with corresponding input interfaces of the monitoring platform, and the output interfaces of the processing platform and the diagnosis unit are connected with a display interface; the input interface of the information platform is connected with the output interface of the monitoring platform, the output interface of the information platform is connected with the input borrowing port of the transmission unit, the output interface of the transmission unit is connected with the input interface of the execution unit, and the execution unit is connected with the respective online display screens of the multiple devices in parallel.
Description
Technical Field
The utility model belongs to the technical field of uninterrupted power source, especially, relate to an equipment operation monitoring device based on cloud calculates.
Background
The electric control integrated cabin is based on the mature manufacturing technology of products of an outdoor box-type substation, and is assembled and modularly installed in combination with the requirements of standardized design, integrated assembly and modularized installation, system equipment such as electric power, automatic control, communication and the like are installed and debugged in a factory and are installed in a movable, sealed, moistureproof and antirust prefabricated cabin body, so that the construction of a three-way valve chamber equipment room with integrated structure, integrated power distribution and integrated service is realized, and the electric control integrated cabin is an innovative quick distribution type room building mode.
The existing monitoring system can only monitor whether the electric control cabin has problems, when the problems occur, a professional needs to be dispatched to check, after the problems are found again, maintenance is carried out, and the time from the problem finding to the dispatching and the maintenance is too long, so that the maintenance cost is increased, and the use of electric power is possibly influenced.
Disclosure of Invention
To solve the problems set forth in the background art described above. The utility model provides an equipment operation monitored control system based on cloud calculates has the characteristics of quick diagnosis and quick contact.
The utility model provides an equipment operation monitored control system based on cloud is calculated which characterized in that: a cloud computing-based equipment operation monitoring system comprises an implementation module, a command module and a command module, wherein the implementation module comprises a plurality of operation equipment and a plurality of detection units for detecting operation parameters of each operation equipment respectively, the command module comprises a monitoring platform, a processing unit, a diagnosis unit and a display unit, the command module comprises an information platform, a transmission unit and an execution unit, a plurality of pieces of equipment are respectively connected with the detection units respectively arranged, the detection units are connected with input interfaces of the monitoring platform in parallel, the input interfaces of the processing platform and the diagnosis unit are respectively connected with corresponding input interfaces of the monitoring platform, and the output interfaces of the processing platform and the diagnosis unit are connected with a display interface; the input interface of the information platform is connected with the output interface of the monitoring platform, the output interface of the information platform is connected with the input borrowing port of the transmission unit, the output interface of the transmission unit is connected with the input interface of the execution unit, and the execution unit is connected with the respective online display screens of the multiple devices in parallel.
The monitoring platform is used for receiving a detection signal sent by the detection unit after detecting the operating equipment and monitoring the operating equipment according to the detection signal.
The processing unit is an analysis platform based on B/S framework software of cloud computing, and the processing unit is used for sorting and analyzing the operation parameters of the operation equipment received by the monitoring platform and feeding back the processed data to the monitoring platform for display.
The diagnosis unit is used for diagnosing the data analyzed by the processing unit, transmitting the information obtained by diagnosis to the monitoring platform for display and transmission to the information platform or informing nearby workers through a communicator arranged on the diagnosis unit.
The information platform is used for processing and classifying the diagnostic information and transmitting the classified data to the relevant execution unit through the transmission unit.
The execution unit is used for transmitting the information transmitted by the transmission unit to an online display screen of the equipment.
Compared with the prior art, the utility model have following advantage:
1. the detection unit conveys the operation condition of the operation equipment to the monitoring platform for monitoring, the database of the monitoring platform collects the operation standard parameters of the operation equipment, the collected information is processed and displayed through the processing unit, when the operation parameters are abnormal, the judgment is rapidly made through the diagnosis unit, the judgment result and the processing scheme are transmitted to the execution unit through the information platform, the execution unit learns the execution scheme, the execution unit rapidly goes to a problem point to carry out work according to the execution scheme, a worker directly carries a matched tool to go to complete maintenance, the speed from problem occurrence to maintenance completion is improved, and the maintenance cost is indirectly reduced.
2. Be equipped with the talker on the diagnosis unit, when emergency and corresponding execution unit can't transmit information at once take place for the operating device, the diagnosis unit can be directly through near staff of talker liaison operating device to command the staff, cross the information platform and directly operate this moment, thereby make the most serious reduction of problem, very big improvement the security of operation.
Drawings
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic structural view of the present invention;
fig. 2 is a schematic diagram of the information transmission flow in an abnormal state of the present invention;
fig. 3 is a schematic view of the process for rapidly processing the problem in the abnormal state of the present invention.
In the figure: 1. the system comprises an implementation module 1, a detection unit 1.1, a communicator 1.2, a command module 2, a monitoring platform 2.1, a display interface 2.11, a processing unit 2.2, a diagnosis unit 2.3, a command module 3, an information platform 3.1, a transmission unit 3.2 and an execution unit 3.3.
Detailed Description
The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention in the present invention based on the embodiments of the present invention.
Referring to fig. 1-3, the present invention provides the following technical solutions: an equipment operation monitoring system based on cloud computing comprises an implementation module 1, a command module 2 and a command module 3, wherein the implementation module comprises a plurality of operation equipment abc and a plurality of detection units 1.1 used for detecting operation parameters of each operation equipment respectively, the command module comprises a monitoring platform 2.1, a processing unit 2.2, a diagnosis unit 2.3 and a display interface 2.11, and the command module 3 comprises an information platform 3.1, a transmission unit 3.2 and an execution unit 3.3; the equipment is connected with the detection unit, the detection unit is connected with the input interface of the monitoring platform in parallel, the input interfaces of the processing platform and the diagnosis unit are respectively connected with the input corresponding interface of the monitoring platform, and the output interfaces of the processing platform and the diagnosis unit are connected with the display interface; the input interface of the information platform is connected with the output interface of the monitoring platform, the output interface of the information platform is connected with the input borrowing port of the transmission unit, the output interface of the transmission unit is connected with the input interface of the execution unit, and the execution unit is connected with the respective online display screens of the multiple devices in parallel.
In this embodiment: including implementing module 1, command module 2 and command module 3, implement module 1 and include a plurality of operation equipment and be used for respectively to a plurality of detecting element 1.1 of every operation equipment operating parameter detection, detecting element 1.1 includes trouble oscillograph and electric integrated monitoring system Acrel-5000EIM, can carry out real time monitoring to the running state of equipment through electric integrated monitoring system Acrel-5000EIM, including environmental parameter such as temperature in the equipment, humidity and voltage/flow table data etc. trouble oscillograph is used for carrying out real time supervision, the trouble oscillograph is used for every operation equipment operating parameterElectric power systemWhen a system has a fault, the change conditions of various electrical quantities in the processes before and after the fault can be automatically and accurately recorded, the analysis and comparison of the electrical quantities have important effects on analyzing and processing the accident, judging whether the protection is correct or not and improving the safe operation level of the power system, the data uploaded by a fault recorder is supplied to professional personnel for reference, judging the fault and giving a guidance scheme, a command module 2 comprises a monitoring platform 2.1, a processing unit 2.2 and a diagnosis unit 2.3, the monitoring platform 2.1 is in signal connection with a detection unit 1.1, the monitoring platform 2.1 is used for receiving a detection signal sent by the detection unit 1.1 after detecting equipment and monitoring the operation equipment according to the detection signal, the operation parameters of the operation equipment are subjected to data acquisition by the detection unit 1.1 and then are sent to the monitoring platform 2.1, the monitoring platform 2.1 is monitored and recorded by professional personnel, the opening and closing time of the equipment and the floating size of each parameter are recorded in detail, the processing unit 2.2 is in signal connection with the monitoring platform 2.1, the processing unit 2.2 is an analysis platform of B/S framework software based on cloud computing, the processing unit 2.2 is used for sorting and analyzing the operation parameters of the operation equipment received by the monitoring platform 2.1, and the processed data is fed back to the monitoring platform 2.1 for display, the processing unit 2.2 carries out the arrangement and analysis of the equipment state information received on the monitoring platform 2.1, and then displayed on the monitoring platform 2.1, the operator can clearly observe the running state of each running device after the display, and when a problem occurs, the B/S framework, namely the browser/server, can be discovered in the first time.The structure of the system has the advantages of zero installation, one browser, access and wider facing range, the monitoring platform 2.1 is in signal connection with the diagnosis unit 2.3, the diagnosis unit 2.3 is used for diagnosing data analyzed by the processing unit 2.2 and transmitting information obtained by diagnosis to the monitoring platform 2.1 for display, and the command module 3 comprises an information platform 3.1, a transmission unit 3.2 and an execution unit 3.3. The information platform 3.1 is in signal connection with the monitoring platform 2.1, the monitoring platform 2.1 transmits information diagnosed by the diagnosis unit 2.3 to the information platform 3.1, the diagnosis unit 2.3 is composed of a problem database and professionals, when a problem occurs in the equipment, the problem parameter and the problem database can be analyzed and compared to solve, when a new problem occurs, the professional analyzes and judges the problem parameter and determines an execution scheme, the information platform 3.1 is used for processing and classifying the diagnosis information and transmitting the classified data to the relevant execution unit 3.3 through the transmission unit 3.2, the execution unit 3.3 is used for transmitting the information transmitted by the transmission unit 3.2 to the equipment on-line display to form a closed loop feedback system, the information platform 3.1 processes and classifies the diagnosis information, the method comprises the steps that the content of diagnosis information is transmitted to a relevant execution unit 3.3 through a transmission unit 3.2, an information platform 3.1 mainly aims at sending an execution scheme to the corresponding execution unit 3.3 to play a role in information transmission and communication, the execution unit 3.3 is implemented on running equipment according to information transmitted by the transmission unit 3.2 and works according to diagnosis information, the execution unit 3.3 comprises a responsible person of each running equipment, and after receiving the information transmitted by the information platform 3.1, the responsible person executes a superior transmission scheme aiming at the running equipment. When an emergency occurs and the responsible person is not beside the operation equipment, the diagnosis unit 2.3 can directly contact the working personnel nearby the problem equipment through the communicator 1.2, and some operations are firstly carried out to prevent the problem from being enlarged.
Claims (6)
1. A device operation monitoring device based on cloud computing comprises an implementation module, a command module and a command module, wherein the implementation module comprises a plurality of operation devices and a plurality of detection units for detecting operation parameters of each operation device respectively, the command module comprises a monitoring platform, a processing unit, a diagnosis unit and a display unit, the command module comprises an information platform, a transmission unit and an execution unit, a plurality of devices are respectively connected with the detection units arranged respectively, the detection units are connected with input interfaces of the monitoring platform in parallel, the input interfaces of the processing platform and the diagnosis unit are respectively connected with corresponding input interfaces of the monitoring platform, and the output interfaces of the processing platform and the diagnosis unit are connected with a display interface; the input interface of the information platform is connected with the output interface of the monitoring platform, the output interface of the information platform is connected with the input borrowing port of the transmission unit, the output interface of the transmission unit is connected with the input interface of the execution unit, and the execution unit is connected with the respective online display screens of the multiple devices in parallel.
2. The device for monitoring the operation of the equipment based on the cloud computing according to claim 1, wherein: the monitoring platform is used for receiving a detection signal sent by the detection unit after detecting the operating equipment and monitoring the operating equipment according to the detection signal.
3. The device for monitoring the operation of the equipment based on the cloud computing according to claim 1, wherein: the processing unit is an analysis platform based on B/S framework software of cloud computing, and the processing unit is used for sorting and analyzing the operation parameters of the operation equipment received by the monitoring platform and feeding back the processed data to the monitoring platform for display.
4. The device for monitoring the operation of the equipment based on the cloud computing according to claim 1, wherein: the diagnosis unit is used for diagnosing the data analyzed by the processing unit, transmitting the information obtained by diagnosis to the monitoring platform for display and transmission to the information platform or informing nearby workers through a communicator arranged on the diagnosis unit.
5. The device for monitoring the operation of the equipment based on the cloud computing according to claim 1, wherein: the information platform is used for processing and classifying the diagnosis information and transmitting the classified data to the execution unit through the transmission unit.
6. The device for monitoring the operation of the equipment based on the cloud computing according to claim 1, wherein: the execution unit is used for transmitting the information transmitted by the transmission unit to an online display screen of the equipment.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022279338.9U CN213904094U (en) | 2020-10-14 | 2020-10-14 | Equipment operation monitoring device based on cloud computing |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022279338.9U CN213904094U (en) | 2020-10-14 | 2020-10-14 | Equipment operation monitoring device based on cloud computing |
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| Publication Number | Publication Date |
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| CN213904094U true CN213904094U (en) | 2021-08-06 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN202022279338.9U Expired - Fee Related CN213904094U (en) | 2020-10-14 | 2020-10-14 | Equipment operation monitoring device based on cloud computing |
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| Country | Link |
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| CN (1) | CN213904094U (en) |
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2020
- 2020-10-14 CN CN202022279338.9U patent/CN213904094U/en not_active Expired - Fee Related
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Granted publication date: 20210806 |