CN116150433B - Industrial control software database generation system - Google Patents

Industrial control software database generation system Download PDF

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Publication number
CN116150433B
CN116150433B CN202310009832.9A CN202310009832A CN116150433B CN 116150433 B CN116150433 B CN 116150433B CN 202310009832 A CN202310009832 A CN 202310009832A CN 116150433 B CN116150433 B CN 116150433B
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data acquisition
time data
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CN116150433A (en
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张正德
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Sens Mechanical & Electrical Co ltd
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Sens Mechanical & Electrical Co ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/90Details of database functions independent of the retrieved data types
    • G06F16/901Indexing; Data structures therefor; Storage structures
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

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  • Engineering & Computer Science (AREA)
  • Databases & Information Systems (AREA)
  • Theoretical Computer Science (AREA)
  • Software Systems (AREA)
  • Data Mining & Analysis (AREA)
  • Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Testing And Monitoring For Control Systems (AREA)

Abstract

The invention discloses an industrial control software database generation system, which relates to the technical field of industrial automation control and aims to provide an industrial control software database generation system which is used for prolonging the time interval of two times of data acquisition of a database, reducing the storage data of the database in a limited time and prolonging the service life of the database.

Description

Industrial control software database generation system
Technical Field
The invention relates to the technical field of industrial automation control, in particular to an industrial control software database generation system.
Background
The characteristics of modern industry require real-time monitoring of the whole process, high-speed real-time data processing, long-term historical data storage and integration and sharing of production information, and based on the requirements, industrial control technology is needed, so that the production and manufacturing processes of factories are more automatic, efficient and accurate, and have controllability and visibility, and a real-time database is a key technical support in an industrial control system.
In the operation process of the production equipment, the real-time database system collects the operation data of the equipment in real time, grasps the operation condition of the device at any time, and timely processes the problems through real-time monitoring and analysis of key data in the production process so as to keep the operation state of the production stable; the real-time database is also a bridge connecting the industrial production control system and the enterprise upper management system, and enterprises can provide data platforms for business decisions, planning and scheduling, advanced process control, quality monitoring and other projects through the data platforms provided by the real-time database system.
Generally, when an enterprise controls the whole production process, only the whole trend of data is required to be grasped, if some data is abnormal, then the abnormal data existence time period is required to be checked finely, so in the prior art, the real-time data acquisition equipment can continuously send real-time data to the central control console, the central control console processes and stores all the data, the operation burden of the central control console is greatly increased, the database formation efficiency is also reduced, and a large amount of invalid data occupation space exists.
Disclosure of Invention
(one) solving the technical problems
Aiming at the defects of the prior art, the invention provides an industrial control software database generating system which can delay the time interval of two times of data acquisition of a database, reduce the stored data of the database in a limited time and prolong the service life of the database.
(II) technical scheme
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an industrial control software database generation system, includes central control cabinet and a plurality of real-time data acquisition equipment, and a plurality of real-time data acquisition equipment is used for detecting the different data in the production process to send the real-time data of detection to central control cabinet, central control cabinet includes processing unit and memory cell, processing unit is used for handling the received signal of telecommunication, and sends the data after handling to memory cell and store, its characterized in that, real-time data acquisition equipment is used for storing the data of gathering, and the current data of gathering of timing transmission to central control cabinet specifically is:
s100, setting a data acquisition time interval t 1 The real-time data acquisition equipment acquires primary data at interval t 1 After the time, continuously acquiring current operation data, and simultaneously storing the acquired operation data;
s200, setting the interval of the central control console receiving data as t 2 The real-time data acquisition equipment transmits the currently acquired data to the central control console at intervals of t 2 After the time, continuing to send data to the central control console;
s300, the central control console receives and processes the data signals sent by the real-time data acquisition equipment, and then stores the processed data;
wherein, the real-time data acquisition equipment transmits the current operation data acquired for the first time to the central control console, t 2 =kt 1 K is a positive integer greater than 2.
Preferably, the real-time data acquisition device may automatically or passively delete the historical data;
when the real-time data collection device automatically deletes the history data, it is necessary to save the history data for at least one period.
Preferably, an external storage card is installed on the real-time data acquisition device, and the external storage card is used for receiving the historical data stored in the real-time data acquisition device.
Preferably, the central console further comprises a hiding unit for sending signals to the processing unit at regular time, and the processing unit is used for encrypting and hiding the stored data.
Preferably, a packing unit is arranged in the real-time data acquisition device, and the packing unit is used for compressing and packing the historical data in the real-time data acquisition device and forwarding the historical data to an external memory card for storage.
Preferably, a storage threshold value and an alarm unit are arranged in the real-time data acquisition device, and the real-time data acquisition device is further used for comparing the acquired operation data with the storage threshold value, and according to a comparison result: if the operation data is smaller than or larger than the storage threshold value, indicating that the equipment is abnormal in operation, starting the alarm unit and sending an alarm signal to the central control console; if the operation data is in the numerical value interval of the storage threshold value, the operation data is directly sent to the central control console;
after the alarm signal is sent, the real-time data acquisition devices send abnormal operation data to the central control console at the same time;
the processing unit is also used for controlling equipment to stop or operate, and when the processing unit receives the alarm signal, the processing unit is used for controlling the equipment to stop or operate.
Preferably, after the real-time data acquisition equipment simultaneously sends the abnormal data to the central control console, the real-time data acquisition equipment intercepts the data in a period of time before the abnormal data appear, and sends the data in the period of time to the central control console;
the real-time data acquisition equipment is provided with a trigger unit, the alarm unit is further used for sending signals to the trigger unit, and the trigger unit is used for sending data in a period of time to the central control console.
Preferably, the storage unit includes a first storage area for storing normal operation data and a second storage area, and when the processing unit receives the alarm signal, the processing unit transfers the received real-time data and history to the second storage area.
(III) beneficial effects
Compared with the prior art, the invention provides an industrial control software database generation system, which comprises the following steps of
The beneficial effects are that:
1. each real-time data acquisition device is utilized to independently store each item of generated data, the real-time data acquisition device continuously acquires device operation data after a short time interval, and when the real-time data acquisition device transmits the primary acquisition device to the central control console, the central control console transmits current data to the central control console after a long time interval, and the central control console processes and stores the acquired data so as to generate a database; the time interval of two times of data acquired by the central control console is prolonged, so that the data stored in the database is reduced in a limited period of time, the occupied space of the data is reduced, and meanwhile, an enterprise can control the whole production process through the database; when the running data in a certain time period needs to be finely controlled, the data stored in each real-time data acquisition device can be called to be checked.
2. By determining a data threshold, when the device is running, the real-time data acquisition device can compare the acquired current running data with the stored data threshold, and when the running data is smaller than or larger than the stored threshold, the device is indicated to be abnormal in running, and at the moment, the alarm unit is started and sends an alarm signal to the central control console; when the real-time data acquisition devices send the alarm signals, the plurality of real-time data acquisition devices simultaneously send abnormal operation data and historical data for a period of time to the central control console so as to analyze the abnormal operation data at a later stage.
Drawings
FIG. 1 is a schematic flow chart of an industrial control software database generating system in the invention;
FIG. 2 is a schematic diagram of the relationship between a central console and a real-time data acquisition device according to the present invention;
fig. 3 is a schematic structural diagram of an industrial control software database generating system in the present invention.
In the figure: 100. a central console; 200. real-time data acquisition equipment; 300. a processing unit; 400. a storage unit; 401. a first storage area; 402. a second storage area; 500. a packing unit; 600. an alarm unit; 700. and a trigger unit.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
Referring to fig. 1 to 3, an industrial control software database generating system includes a central console 100 and a plurality of real-time data acquisition devices 200, wherein the plurality of real-time data acquisition devices 200 are used for detecting different data in a production process and transmitting the detected real-time data to the central console 100, and a processing unit 300 is used for processing received electrical signals and transmitting the processed data to a storage unit 400 for storage, and is characterized in that the real-time data acquisition devices 200 are used for storing acquired data and transmitting the current acquired data to the central console 100 at regular time, specifically:
s100, setting a data acquisition time interval t 1 The real-time data acquisition device 200 acquires primary data at intervals t 1 After the time, continuously acquiring current operation data, and simultaneously storing the acquired operation data;
s200, setting the interval of the central console 100 for receiving data as t 2 Real-time data acquisitionThe device 200 communicates the currently acquired data to the central console 100 at intervals t 2 After the time, continuing to transmit data to the central console 100;
s300, the central control console 100 receives and processes the data signals sent by the real-time data acquisition equipment 200, and then stores the processed data;
wherein the real-time data acquisition device 200 transmits the current operation data acquired for the first time to the central console 100, t 2 =kt 1 K is a positive integer greater than 2.
In the system of the present invention, each generated item of data is individually stored using each real-time data acquisition device 200, the real-time data acquisition device 200 continues to acquire device operation data after a short time interval, and when the real-time data acquisition device 200 transmits the primary acquisition device to the central console 100, the central console 100 transmits the current data to the central console 100 after a long time interval, and the central console 100 processes and stores the acquired data, thereby generating a database.
It can be found that, because the interval time between two times of data acquired by the central console 100 is longer, the data stored in the database is reduced in a limited period of time, so that the occupied space of the data is reduced, and meanwhile, the enterprise can control the whole production process through the database; when the operation data in a certain time period needs to be finely controlled, the data stored in each real-time data acquisition device 200 can be called for viewing.
In the present embodiment, the abnormal data is data that should be originally increased or decreased, but this phenomenon does not occur, so that it is necessary to view the fine data.
Further, after the enterprise stores the data for one period, the database is checked, and the real-time data acquisition device 200 can automatically or passively delete the historical data;
wherein, when the real-time data collection device 200 automatically deletes the history data, it is necessary to save the history data for at least two periods.
Typically, the database of the central console 100 needs to be kept for a long period of time to prevent the knowledge of the operational data before the device after the next year or even longer, and the data in the real-time data acquisition device 200 can be periodically purged.
In actual use, the enterprise needs to check the running data of the device on the same day every day or every week, and when the data in the central console 100 is seen to have no problem, the data in the real-time data acquisition device 200 does not need to be checked, so that the data in the real-time data acquisition device 200 can be cleared, and the data storage period in the real-time data acquisition device 200 needs to be longer than the period for the enterprise to check the data.
Of course, the worker may automatically delete the data stored in the real-time data collection device 200, and the central console 100 may include a display terminal, and the worker may directly delete all the data stored in the real-time data collection device 200 through the display terminal.
Further, the central console 100 further comprises a hiding unit 800, the hiding unit 800 is configured to send signals to the processing unit 300 at regular time, and the processing unit 300 is configured to encrypt and hide the stored data.
In order to improve the security of data, in this embodiment, after the data is generated in the database, the database can be automatically hidden, and an administrator can open the database by triggering a display event.
It should be noted that the triggering display event may be, but is not limited to:
operating in a preset area of the display terminal, for example, setting a certain specific area, such as the upper right corner of the display screen, on the display terminal, and judging that a triggering display event is detected when the processing unit detects that the upper right corner of the display screen is operated;
or, performing operation of a preset action in the display area, for example, a specific action, wherein the sliding track of the mouse or the finger on the display screen is the letter Z or L, and when the processing unit detects that the sliding track of the display screen is the letter Z or L, judging that a trigger display event is detected;
when the processing unit judges that the triggering display event is detected, the key is correct, and at the moment, the data in the database can be checked.
Further, an external storage card is installed on the real-time data acquisition device 200, and the external storage card is used for receiving the history data stored in the real-time data acquisition device 200.
The external storage card can help different departments of the enterprise to exchange data, and the data stored by different real-time data acquisition devices 200 independently can be counted and checked conveniently when the database data is abnormal.
Further, a packing unit 500 is provided inside the real-time data acquisition device 200, and the packing unit 500 is configured to compress and pack the historical data in the real-time data acquisition device 200, and forward the compressed and packed historical data to an external memory card for storage.
In the present invention, since the external memory card is provided, the storage time of the history data can be prolonged, and of course, in order to utilize the external memory card to the greatest extent, the history data in the real-time data acquisition device 200 can be further packaged, which is the prior art, and the principle thereof will not be described herein.
Example 2
After a long period of use of the device, a malfunction occurs, in which the data changes and exceeds the normal threshold, based on which the invention provides a preferred embodiment:
referring to fig. 1 to 3, an industrial control software database generating system includes a central console 100 and a plurality of real-time data acquisition apparatuses 200, the plurality of real-time data acquisition apparatuses 200 are used for detecting different data in a production process and transmitting the detected real-time data to the central console 100, a processing unit 300 is used for processing received electrical signals and transmitting the processed data to a storage unit 400 for storage, characterized in that the real-time data acquisition apparatuses 200 are used for storing acquired data and transmitting the current acquired data to the central console 100 at regular time;
the real-time data acquisition device 200 is internally provided with a storage threshold and alarm unit 600, and the real-time data acquisition device 200 is further configured to compare the acquired operation data with the storage threshold, and according to the comparison result: if the operation data is smaller or larger than the storage threshold value, indicating that the equipment is abnormal in operation, an alarm unit 600 in the real-time data acquisition equipment 200 is started and sends an alarm signal to the central console 100; if the operation data is within the value interval of the storage threshold, the alarm unit 600 in the real-time data acquisition device 200 directly transmits the operation data to the central console 100;
wherein, after the alarm signal is sent, the real-time data acquisition device 200 simultaneously sends abnormal operation data to the central console 100;
the processing unit 300 in the central console 100 is also used to control the equipment to shut down or operate, and when the processing unit 300 receives an alarm signal, the equipment is controlled to shut down and stop operating.
In the running process of the equipment, a data threshold value is necessarily existed, and when the running data exceeds the data threshold value, abnormal running can be caused, and at the moment, the equipment stop detection needs to be controlled.
In this embodiment, the data threshold refers to a range of the device during operation, and generally, normal operation of the device will be in this interval, however, if the data is originally in a stable rise in this interval, but there is an abnormality in the data, the data is in a stable rise and continuously falls, or other changes in the threshold interval, and the alarm signal is not triggered.
Therefore, this embodiment is an optimization of the above embodiment, and does not conflict with the above embodiment, resulting in the disappearance of the situation in the above embodiment.
As a preferred embodiment of the present invention, a data threshold is determined, and when the apparatus is operated, the real-time data acquisition apparatus 200 may compare the acquired current operation data with the stored data threshold, and when the operation data is smaller or larger than the stored threshold, it indicates that the apparatus is abnormally operated, at this time, the alarm unit 600 in the real-time data acquisition apparatus 200 is turned on to transmit an alarm signal to the central console 100, and if the operation data is within a numerical range of the stored threshold, the operation data is normally transmitted to the central console 100.
Of course, after the alarm signal is transmitted, the real-time data collection apparatuses 200 need to simultaneously transmit the abnormal operation data to the center console 100 for later analysis thereof.
Further, after the real-time data acquisition device 200 simultaneously transmits the abnormal data to the central console 100, the real-time data acquisition device 200 intercepts the data in a period of time before the occurrence of the abnormal data, and transmits the data in the period of time to the central console 100;
the real-time data acquisition device 200 is provided with a trigger unit 700, the alarm unit 600 in the real-time data acquisition device 200 sends a signal to the trigger unit 700, and the trigger unit 700 is used for sending data in a period of time to the central console 100.
It should be noted that, after the real-time data collection device 200 sends the abnormal operation data to the central console 100, the staff member needs to analyze the reason, so as to be a preferred embodiment of the present invention, the real-time data collection device 200 will automatically send the data in a period of time before the occurrence of the abnormal data to the central console 100.
Further, the storage unit 400 in the central console 100 includes a first storage area 401 and a second storage area 402, and when the processing unit 300 receives the alarm signal, the processing unit 300 transfers the received real-time data and history data to the second storage area 402, and the first storage area 401 is used for storing normal operation data.
For fast statistics of the operation data exceeding the data threshold, the storage unit 400 may be divided into two storage areas, and it is ensured that when the processing unit 300 receives the alarm signal, the received real-time data and the history data are transferred to the second storage area 402, and of course, the first storage area 401 is used for storing the normal operation data.
Working principle: each item of generated data is individually stored by using each real-time data acquisition device 200, the real-time data acquisition device 200 continues to acquire device operation data after a short time interval, and when the real-time data acquisition device 200 transmits the primary acquisition device to the central console 100, the real-time data acquisition device transmits current data to the central console 100 after a long time interval, the processing unit 300 in the central console 100 processes the received electrical signals, and the processed data is transmitted to the storage unit 400 in the central console 100 for storage;
in the process, the data in the real-time data acquisition equipment 200 can be cleared, a worker can directly delete all the data stored in the real-time data acquisition equipment 200 through the display terminal, and the real-time data acquisition equipment 200 can also automatically delete historical data;
the real-time data acquisition device 200 may also compare the acquired current operation data with a stored data threshold, and when the operation data is smaller or larger than the stored threshold, indicating that the device is abnormally operated, at this time, the alarm unit 600 in the real-time data acquisition device 200 is turned on and transmits an alarm signal to the central console 100; when the real-time data collection apparatuses 200 transmit the alarm signal, the plurality of real-time data collection apparatuses 200 simultaneously transmit the abnormal operation data to the center console 100; when the real-time data acquisition device 200 simultaneously transmits the abnormal data to the central console 100, the real-time data acquisition device 200 intercepts the data in a period of time before the abnormal data appear, and transmits the data in the period of time to the central console 100; when the processing unit 300 in the central console 100 receives the alarm signal, the processing unit 300 may transfer the received real-time data and history data to the second storage area 402.
The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications and the like made on the basis of the present invention to solve the substantially same technical problems and achieve the substantially same technical effects are included in the scope of the present invention.

Claims (8)

1. The utility model provides an industrial control software database generation system, includes central control cabinet (100) and a plurality of real-time data acquisition equipment (200), a plurality of real-time data acquisition equipment (200) are used for detecting the different data in the production process to send central control cabinet (100) with real-time data that detects, central control cabinet (100) are including processing unit (300) and memory cell (400), processing unit (300) are used for handling the received signal of telecommunication to send the data after handling to memory cell (400) and store, characterized in that, real-time data acquisition equipment (200) are used for storing the acquisition data, and the timing sends current acquisition data to central control cabinet (100), specifically:
s100, setting a data acquisition time interval t 1 The real-time data acquisition device (200) acquires primary data at intervals t 1 After the time, continuously acquiring current operation data, and simultaneously storing the acquired operation data;
s200, setting the interval of the data received by the central control console (100) as t 2 The real-time data acquisition device (200) transmits the currently acquired data to the central console (100) at intervals t 2 After the time, continuing to send data to the central control console (100);
s300, the central control console (100) receives and processes the data signals sent by the real-time data acquisition equipment (200), and then stores the processed data;
wherein the real-time data acquisition device (200) transmits the current operation data acquired for the first time to the central control console (100), t 2 =kt 1 K is a positive integer greater than 2.
2. An industrial control software database generating system as described in claim 1, wherein: the real-time data acquisition device (200) may automatically or passively delete historical data;
when the real-time data collection device (200) automatically deletes the history data, it is necessary to save the history data for at least one period.
3. An industrial control software database generating system according to claim 2, wherein: an external storage card is installed on the real-time data acquisition equipment (200) and is used for receiving historical data stored in the real-time data acquisition equipment (200).
4. A system for generating an industrial control software database according to claim 3, wherein: the central console (100) further comprises a hiding unit (800), the hiding unit (800) is used for sending signals to the processing unit (300) at regular time, and the processing unit (300) is used for encrypting and hiding the stored data.
5. The industrial control software database generating system according to claim 4, wherein: the real-time data acquisition device (200) is internally provided with a packing unit (500), and the packing unit (500) is used for compressing and packing historical data in the real-time data acquisition device (200) and forwarding the historical data to an external memory card for storage.
6. The industrial control software database generating system according to claim 5, wherein: the real-time data acquisition device (200) is internally provided with a storage threshold value and an alarm unit (600), and the real-time data acquisition device (200) is also used for comparing acquired operation data with the storage threshold value and according to a comparison result: if the operation data is smaller or larger than a storage threshold value, indicating that the equipment is abnormally operated, starting an alarm unit (600) and sending an alarm signal to a central control console (100); if the operation data is in the numerical range of the storage threshold value, the operation data is directly sent to the central control console (100);
wherein, after the alarm signal is sent, the real-time data acquisition equipment (200) simultaneously sends abnormal operation data to the central control console (100) by a plurality of real-time data acquisition equipment (200);
the processing unit (300) is also used for controlling equipment to stop or operate, and when the processing unit (300) receives an alarm signal, the equipment is controlled to stop operating.
7. The industrial control software database generating system according to claim 6, wherein: when the real-time data acquisition equipment (200) simultaneously transmits abnormal operation data to the central control console (100), the real-time data acquisition equipment (200) intercepts data in a period of time before the abnormal operation data appear, and transmits the data in the period of time to the central control console (100);
the real-time data acquisition equipment (200) is internally provided with a trigger unit (700), the alarm unit (600) is further used for sending signals to the trigger unit (700), and the trigger unit (700) is used for sending data in a period of time to the central control console (100).
8. The industrial control software database generating system according to claim 7, wherein: the memory unit (400) comprises a first memory area (401) and a second memory area (402), the first memory area (401) is used for storing normal operation data, and when the processing unit (300) receives an alarm signal, the processing unit (300) transfers the received real-time data and history to the second memory area (402).
CN202310009832.9A 2023-01-05 2023-01-05 Industrial control software database generation system Active CN116150433B (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101470868A (en) * 2008-05-27 2009-07-01 北京奥腾讯达科技有限公司 Optimized management system for enterprise stock
KR100964296B1 (en) * 2009-12-15 2010-06-16 한국전력거래소 A data acquisition and supervisory control system
CN108388223A (en) * 2018-04-03 2018-08-10 深圳市同富信息技术有限公司 It is a kind of to be used for apparatus control system of the wisdom factory based on data closed loop
CN110557251A (en) * 2019-09-27 2019-12-10 武汉控安融科技有限公司 Industrial data safety isolation acquisition system and internal and external network data one-way transmission method
WO2019233047A1 (en) * 2018-06-07 2019-12-12 国电南瑞科技股份有限公司 Power grid dispatching-based operation and maintenance method

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101470868A (en) * 2008-05-27 2009-07-01 北京奥腾讯达科技有限公司 Optimized management system for enterprise stock
KR100964296B1 (en) * 2009-12-15 2010-06-16 한국전력거래소 A data acquisition and supervisory control system
CN108388223A (en) * 2018-04-03 2018-08-10 深圳市同富信息技术有限公司 It is a kind of to be used for apparatus control system of the wisdom factory based on data closed loop
WO2019233047A1 (en) * 2018-06-07 2019-12-12 国电南瑞科技股份有限公司 Power grid dispatching-based operation and maintenance method
CN110557251A (en) * 2019-09-27 2019-12-10 武汉控安融科技有限公司 Industrial data safety isolation acquisition system and internal and external network data one-way transmission method

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