CN113835956A - Intelligent operation management method, device and system for pressure regulating equipment - Google Patents

Abstract

The invention discloses an intelligent operation management method, device and system of pressure regulating equipment. The intelligent management device comprises a data acquisition unit, a parameter judgment unit and a prediction alarm unit. The intelligent management system comprises a plurality of intelligent management devices of the pressure regulating equipment, a database and the pressure regulating equipment. By comprehensively analyzing and predicting the continuity of the operation data, the intelligent operation management method, the intelligent operation management device and the intelligent operation management system realize an active management mode of comprehensive analysis, preventive maintenance and early warning of the pressure regulating equipment, and improve the comprehensiveness and the efficiency of the operation management of the pressure regulating equipment.

Description

Intelligent operation management method, device and system for pressure regulating equipment

Technical Field

The invention relates to the field of intelligent operation management of pressure regulating equipment, in particular to an intelligent operation management method, device and system of the pressure regulating equipment.

Background

With the gradual deepening of the intelligent gas network concept, the pressure regulating equipment in the gas industry is taken as a core component of gas transmission and distribution, and the digitization and the intellectualization are inevitable trends.

In the prior art, each gate station and a high-medium pressure regulating station in a town gas transmission and distribution system basically realize SCADA data monitoring on the operation conditions such as pressure, temperature, flow, valve position and the like, and partial stations realize remote pressure regulation and flow limitation; for the medium and low voltage regulating cabinets/boxes distributed at all corners of cities and towns, a manual management mode is continuously used. The traditional management means of a gas enterprise is to check the working conditions of pipe network pressure, filter blockage, pressure regulator failure, pressure regulating station leakage and the like in a mode of manually and periodically polling a pressure regulating cabinet/box; periodically maintaining and repairing the equipment by a management method of planned maintenance; data recording and transmission are carried out in a mode of installing a pressure recorder or a pressure transmitter and a temperature transmitter, and then the change of the running state of the pipe network is analyzed in a mode of manual analysis according to the collected data.

However, the prior art still has the following defects: (1) the labor cost is high; (2) the comprehensiveness of analyzing the operation parameters of the equipment is insufficient, the management of the pressure regulating equipment adopts a traditional large, medium and small maintenance mode, and the loss of the equipment is increased invisibly; (3) the passive management of 'after-treatment' is taken as the main part, an active management mode of 'early warning' cannot be effectively formed, and the management on the operation of the pipe network is low in efficiency.

Therefore, there is a need for an intelligent operation management method, apparatus and system for voltage regulation devices, so as to solve the above problems in the prior art.

Disclosure of Invention

In view of the above technical problems, an object of the present invention is to provide an intelligent operation management method, apparatus and system for a pressure regulating device, so as to improve the comprehensiveness and efficiency of the operation management of the pressure regulating device.

The invention provides an intelligent management method of pressure regulating equipment, which comprises the following steps: automatically generating and executing a data acquisition instruction so as to acquire, store and upload a real-time operation parameter set; wherein the set of real-time operating parameters comprises a plurality of operating parameter data; sequentially judging whether each operation parameter data is normal or not according to a preset parameter threshold set; and when all the operation parameter data are normal data, sending an analysis prediction report to a user according to the operation parameter data, a preset operation analysis prediction model and a preset strategy database.

In one embodiment, the intelligent management method further comprises: and when abnormal data exists, determining a fault type according to the abnormal data and a preset strategy database, and generating, storing and sending the alarm information to a user according to the fault type.

In one embodiment, the intelligent management method further comprises: and adjusting the pressure data, the valve opening and closing conditions and the flow data of the pressure regulating equipment in real time according to the strategy database and the plurality of operation parameter data through a parameter adjusting instruction.

In an embodiment, the sequentially determining whether each operating parameter data is normal according to a preset parameter threshold set specifically includes: and when the operation parameter data falls into the parameter threshold value range of the corresponding parameter in the preset parameter threshold value group, judging that the operation parameter data is normal data.

In one embodiment, the intelligent management method further comprises: when an alarm statistic instruction sent by the user is received, all currently stored alarm information is called, statistics is carried out on all the alarm information, and a statistical result is sent to the user in a visual information mode according to the alarm statistic instruction.

The invention also provides an intelligent management device of the pressure regulating equipment, which comprises a data acquisition unit, a parameter judgment unit and a prediction alarm unit, wherein the data acquisition unit is used for automatically generating and executing data acquisition instructions so as to acquire, store and upload the real-time operation parameter group; wherein the set of real-time operating parameters comprises a plurality of operating parameter data; the parameter judgment unit is used for sequentially judging whether the operation parameter data are normal or not according to a preset parameter threshold value group; and the prediction alarm unit is used for sending an analysis prediction report to a user according to the plurality of operation parameter data, a preset operation analysis prediction model and a preset strategy database when all the operation parameter data are normal data.

In one embodiment, the prediction alarm unit is further configured to, when there is abnormal data, determine a fault type according to the abnormal data and a preset policy database, and generate, store, and send the alarm information to a user according to the fault type.

In one embodiment, the intelligent management device further includes an intelligent adjustment unit, and the intelligent adjustment unit is configured to adjust pressure data, valve opening/closing conditions, and flow data of the pressure regulating device in real time according to the policy database and the plurality of operation parameter data through a parameter adjustment instruction.

In one embodiment, the intelligent management device further comprises a positioning display unit, and the positioning display unit is used for displaying the position data and the pressure data of all the pressure regulating devices on a map and marking the pressure regulating devices in different states with different colors.

The invention also provides an intelligent management system of the pressure regulating equipment, which comprises a plurality of intelligent management devices of the pressure regulating equipment, a database and the pressure regulating equipment, wherein the intelligent management devices, the database and the pressure regulating equipment are sequentially in communication connection, and the intelligent management devices are used for executing the intelligent management method of the pressure regulating equipment on the pressure regulating equipment and storing all process data and result data in the database.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

the invention provides an intelligent operation management method, device and system of a pressure regulating device, which realize an active management mode of comprehensive analysis and early warning of the pressure regulating device by comprehensively analyzing and predicting the continuity of operation data and improve the comprehensiveness and the high efficiency of the operation management of the pressure regulating device.

Furthermore, the intelligent operation management method, device and system for the pressure regulating equipment further adjust the pressure data, the valve opening and closing conditions and the flow data of the pressure regulating equipment in real time through the parameter adjusting instruction, so that the adjustment automation of the pressure regulating equipment is realized, and the high efficiency of the operation management of the pressure regulating equipment is further improved.

Furthermore, the intelligent operation management method, device and system for the pressure regulating devices further display the position data and the pressure data of all the pressure regulating devices on the map, and mark the pressure regulating devices in different states by different colors, so that the intuitiveness of displaying the specific conditions of the pressure regulating devices is improved, and the high efficiency of the operation management of the pressure regulating devices is further improved.

Drawings

The invention will be further described with reference to the accompanying drawings, in which:

FIG. 1 illustrates a flow diagram of one embodiment of a method for intelligent operation management of a pressure regulating device in accordance with the present invention;

FIG. 2 is a flow diagram illustrating another embodiment of a method for intelligent operation management of a pressure regulating device in accordance with the present invention;

FIG. 3 is a block diagram illustrating one embodiment of an intelligent operation management apparatus of a voltage regulating device in accordance with the present invention;

fig. 4 shows a block diagram of an embodiment of an intelligent operation management system of a voltage regulating device according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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 of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Detailed description of the preferred embodiment

The embodiment of the invention first describes an embodiment of an intelligent operation management method of a pressure regulating device. Fig. 1 shows a flowchart of an embodiment of an intelligent operation management method of a voltage regulating device according to the present invention. As shown in fig. 1, the method comprises the steps of:

and S1, automatically generating and executing data acquisition instructions so as to acquire, store and upload the real-time operation parameter group.

In order to realize comprehensive analysis and prediction of the continuity of the pressure regulating equipment, the real-time operation parameter set of the pressure regulating equipment needs to be acquired in real time and stored at a preset time data acquisition interval, and the acquired real-time operation parameter set needs to be packaged and uploaded at a preset packaging and uploading time interval. The real-time operation parameter group comprises pressure data, flow data, position data, valve opening and closing conditions and other operation parameter data of the pressure regulating equipment. In one embodiment, the pressure data includes inlet pressure data and outlet pressure data; the flow data includes natural gas flow and bleed gas flow; the valve opening and closing conditions comprise a valve opening and closing state and a valve opening and closing state before and after pressure regulation. In one embodiment, the set of real-time operating parameters further includes a filter cartridge replacement alert status, a pipeline gas temperature, a remote shut-off valve shut-off signal, and a combustible gas leak detection result.

In one embodiment, the data acquisition command may be automatically generated completely according to a preset data acquisition time interval and a packing and uploading time interval, or may be automatically generated correspondingly according to an acquisition command input by a user.

And S2, sequentially judging whether the operation parameter data are normal or not according to the preset parameter threshold group.

The judgment process of the operation parameter data specifically comprises the following steps: when the operation parameter data falls into the parameter threshold value range of the corresponding parameter in the preset parameter threshold value group, judging that the operation parameter data is normal data; and when the operation parameter data falls out of the parameter threshold value range of the corresponding parameter in the preset parameter threshold value group, judging that the operation parameter data is abnormal data.

And S3, when all the operation parameter data are normal data, sending an analysis prediction report to a user according to the operation parameter data, a preset operation analysis prediction model and a preset strategy database.

After each operation parameter data is judged, whether the operation state of the pressure regulating equipment is normal or not can be determined: when all the operation parameter data are normal data, the operation state of the pressure regulating equipment is normal; and when the abnormal data exist, the operation state of the voltage regulating equipment is indicated to be a fault.

When the operation state of the pressure regulating equipment is normal, in order to realize preventive maintenance, the pressure regulating equipment needs to be comprehensively analyzed, evaluated and predicted according to the current desired operation parameter data, and an analysis prediction report is generated according to the analysis result and the prediction result and sent to a user, so that the user can know the current operation condition of the pressure regulating equipment and the residual life cycle of each group of accessories of the pressure regulating equipment predicted based on the current operation condition, and the user can judge whether to replace the group of accessories according to the predicted residual life cycle, thereby realizing an active management mode of early warning and realizing preventive maintenance.

The invention provides an intelligent operation management method of pressure regulating equipment, which realizes the comprehensive analysis of the pressure regulating equipment and an active management mode of early warning by continuously and comprehensively analyzing and predicting operation data, and improves the comprehensiveness and the high efficiency of the operation management of the pressure regulating equipment.

Detailed description of the invention

Furthermore, another embodiment of an intelligent operation management method for a voltage regulating device is described in the embodiments of the present invention. Fig. 2 is a flowchart of another embodiment of an intelligent operation management method of a voltage regulating device according to the present invention. As shown in fig. 2, the method comprises the steps of:

and A1, automatically generating and executing data acquisition instructions so as to acquire, store and upload the real-time operation parameter group.

In order to realize comprehensive analysis and prediction of the continuity of the pressure regulating equipment, the real-time operation parameter set of the pressure regulating equipment needs to be acquired in real time and stored at a preset time data acquisition interval, and the acquired real-time operation parameter set needs to be packaged and uploaded at a preset packaging and uploading time interval. The real-time operation parameter group comprises pressure data, flow data, position data, valve opening and closing conditions and other operation parameter data of the pressure regulating equipment. In one embodiment, the pressure data includes inlet pressure data and outlet pressure data; the flow data includes natural gas flow and bleed gas flow; the valve opening and closing conditions comprise a valve opening and closing state and a valve opening and closing state before and after pressure regulation. In one embodiment, the set of real-time operating parameters further includes a current electric quantity value of the pressure regulating device, a replacement reminding state of the filter cartridge, a pipeline gas temperature, a remote shutoff signal of the shutoff valve, and a combustible gas leakage detection result.

In one embodiment, the data acquisition command may be automatically generated completely according to a preset data acquisition time interval and a packing and uploading time interval, or may be automatically generated correspondingly according to an acquisition command input by a user.

And A2, sequentially judging whether the operation parameter data are normal or not according to the preset parameter threshold group.

The judgment process of the operation parameter data specifically comprises the following steps: when the operation parameter data falls into the parameter threshold value range of the corresponding parameter in the preset parameter threshold value group, judging that the operation parameter data is normal data; and when the operation parameter data falls out of the parameter threshold value range of the corresponding parameter in the preset parameter threshold value group, judging that the operation parameter data is abnormal data.

A31, when all the operation parameter data are normal data, sending an analysis prediction report to a user according to the operation parameter data, a preset operation analysis prediction model and a preset strategy database.

After each operation parameter data is judged, whether the operation state of the pressure regulating equipment is normal or not can be determined: when all the operation parameter data are normal data, the operation state of the pressure regulating equipment is normal; and when the abnormal data exist, the operation state of the voltage regulating equipment is indicated to be a fault.

When the operation state of the pressure regulating equipment is normal, in order to realize preventive maintenance, the pressure regulating equipment needs to be comprehensively analyzed, evaluated and predicted according to the current desired operation parameter data, and an analysis prediction report is generated according to the analysis result and the prediction result and sent to a user, so that the user can know the current operation condition of the pressure regulating equipment and the residual life cycle of each group of accessories of the pressure regulating equipment predicted based on the current operation condition, and the user can judge whether to replace the group of accessories according to the predicted residual life cycle, thereby realizing an active management mode of early warning and realizing preventive maintenance.

A32, when abnormal data exists, determining a fault type according to the abnormal data and a preset strategy database, and generating, storing and sending the alarm information to a user according to the fault type.

When the fault occurs, if the pressure regulating equipment is waited for being manually notified and overhauled, the management efficiency of the pressure regulating equipment is greatly reduced. Therefore, the method described in the embodiment of the invention can enable the user to know the fault condition of the pressure regulating equipment in time by automatically diagnosing the fault and automatically alarming according to the diagnosis result, thereby carrying out maintenance in time. In one embodiment, the alarm information includes anomaly data, a fault type, and a troubleshooting policy. In one embodiment, when the abnormal data is judged to exist, the fault type is determined according to the abnormal data, and corresponding operation parameter data is tracked and acquired in real time according to the fault type, so that the quality of the abnormal data is guaranteed, and the accuracy of the maintenance strategy given according to the abnormal data and a preset strategy library is improved.

In order to enable the voltage regulating device to completely retain all collected operation parameter data, in an embodiment, the intelligent management method further includes: and when the fault type is insufficient electric quantity or communication fault, locally storing the operation parameter data which is not uploaded so as to prevent the data loss.

In addition, in order to facilitate quantitative statistics and analysis of types and times of alarm information of the pressure regulating equipment for users, in one embodiment, the method further comprises the following steps: when an alarm statistic instruction sent by the user is received, all currently stored alarm information is called, statistics is carried out on all the alarm information, and a statistical result is sent to the user in a visual information mode according to the alarm statistic instruction. In one embodiment, the manner of visualizing the information includes graphical visualization such as histograms, pie charts, and the like.

Besides analysis and prediction, the intelligent management method also comprises an intelligent regulation function, so that a response strategy in the strategy database can be correspondingly executed according to the real-time operation parameter data of the pressure regulating equipment, and the intelligent regulation of the pressure regulating equipment is realized by regulating the pressure data, the valve opening and closing conditions and the flow data of the pressure regulating equipment in real time. In one embodiment, the method further comprises: and adjusting the pressure data, the valve opening and closing conditions and the flow data of the pressure regulating equipment in real time according to the strategy database and the plurality of operation parameter data through a parameter adjusting instruction.

In order to more intuitively show the distribution and the operation condition of each voltage regulating device to a user, in one embodiment, the intelligent management method further comprises the following steps: and displaying the position data and the pressure data of all the pressure regulating devices on a map, and marking the pressure regulating devices in different states by using different colors. In one embodiment, the intelligent management method further comprises: and displaying each operation parameter data, analysis prediction report or latest alarm information of the pressure regulating equipment to the user through the pressure regulating equipment with different color marks selected by the user. In one embodiment, the selection means comprises one or more clicks, long press, hover, check in a list box, and combinations of one or more of the foregoing.

In order to make the management of the voltage regulating device more flexible and personalized, in one embodiment, the intelligent management method further includes: and configuring or modifying a preset time data acquisition interval, a preset packaging uploading time interval, a preset parameter threshold set, a preset operation analysis prediction model and a preset strategy database according to a configuration instruction input by a user.

The invention provides an intelligent operation management method of pressure regulating equipment, which realizes the comprehensive analysis of the pressure regulating equipment and an active management mode of early warning by continuously and comprehensively analyzing and predicting operation data, and improves the comprehensiveness and the high efficiency of the operation management of the pressure regulating equipment; furthermore, the intelligent operation management method of the pressure regulating equipment provided by the invention also adjusts the pressure data, the valve opening and closing condition and the flow data of the pressure regulating equipment in real time through the parameter adjusting instruction, thereby realizing the adjustment automation of the pressure regulating equipment and further improving the high efficiency of the operation management of the pressure regulating equipment; furthermore, the intelligent operation management method for the pressure regulating devices provided by the invention also displays the position data and the pressure data of all the pressure regulating devices on the map and marks the pressure regulating devices in different states by using different colors, so that the intuitiveness of the display of the specific conditions of the pressure regulating devices is improved, and the high efficiency of the operation management of the pressure regulating devices is further improved.

Detailed description of the preferred embodiment

In addition to the above method, an embodiment of an intelligent management apparatus for a voltage regulating device is described in the embodiments of the present invention. Fig. 3 is a block diagram showing an embodiment of an intelligent operation management apparatus of a voltage regulating device according to the present invention.

As shown in fig. 3, the intelligent management device includes a data acquisition unit 11, a parameter judgment unit 12, and a prediction alarm unit 13.

The data acquisition unit 11 is configured to automatically generate and execute data acquisition instructions, so as to acquire, store, and upload a set of real-time operation parameters. The set of real-time operating parameters includes a plurality of operating parameter data.

The parameter judgment unit 12 is configured to sequentially judge whether each operating parameter data is normal according to a preset parameter threshold set.

The prediction alarm unit 13 is configured to send an analysis prediction report to a user according to the multiple operation parameter data, a preset operation analysis prediction model, and a preset policy database when all the operation parameter data are normal data.

In the intelligent management process of the pressure regulating equipment, the intelligent management device automatically generates and executes a data acquisition instruction through the data acquisition unit 11, so as to acquire, store and upload a real-time operation parameter group; subsequently, the parameter judgment unit 12 sequentially judges whether the operation parameter data are normal according to a preset parameter threshold value group; finally, through the prediction alarm unit 13, when all the operation parameter data are normal data, an analysis prediction report is sent to the user according to the operation parameter data, a preset operation analysis prediction model and a preset strategy database.

In one embodiment, the prediction alarm unit 13 is further configured to, when there is abnormal data, determine a fault type according to the abnormal data and a preset policy database, and generate, store, and send the alarm information to a user according to the fault type. In an embodiment, the prediction alarm unit 13 is further configured to, when receiving an alarm statistic instruction sent by the user, call up all currently stored alarm information, perform statistics on all the alarm information, and send a statistical result to the user in a visual information manner according to the alarm statistic instruction. In one embodiment, the manner of visualizing the information includes graphical visualization such as histograms, pie charts, and the like.

In one embodiment, the intelligent management device further includes an intelligent adjustment unit, and the intelligent adjustment unit is configured to adjust pressure data, valve opening/closing conditions, and flow data of the pressure regulating device in real time according to the policy database and the plurality of operation parameter data through a parameter adjustment instruction. In one embodiment, the parameter adjustment instructions may be generated autonomously by the intelligent management device from the policy database or by user input.

In one embodiment, the intelligent management device further comprises a positioning display unit, and the positioning display unit is used for displaying the position data and the pressure data of all the pressure regulating devices on a map and marking the pressure regulating devices in different states with different colors. In one embodiment, the positioning display unit is further used for displaying various operation parameter data, analysis prediction reports or latest alarm information of the pressure regulating equipment to a user through the pressure regulating equipment which is selected by the user and marked by different colors. In one embodiment, the selection means comprises one or more clicks, long press, hover, check in a list box, and combinations of one or more of the foregoing.

In one embodiment, the intelligent management device further includes a data temporary storage unit, and the data temporary storage unit is configured to store the operating parameter data that is not uploaded locally when the fault type is power shortage or communication fault, so as to prevent loss of data.

In one embodiment, the intelligent management device further includes a parameter configuration unit, and the parameter configuration unit is configured to configure or modify a preset time data acquisition interval, a preset package uploading time interval, a preset parameter threshold set, a preset operation analysis prediction model, and a preset policy database according to a parameter configuration instruction input by a user.

In one embodiment, the intelligent management device further comprises a remote wake-up unit, and the remote wake-up unit is used for remotely waking up the intelligent management device according to a remote wake-up instruction sent by a user.

The invention provides an intelligent operation management device of pressure regulating equipment, which realizes the comprehensive analysis of the pressure regulating equipment and an active management mode of early warning by carrying out comprehensive analysis and prediction on the continuity of operation data, and improves the comprehensiveness and the high efficiency of the operation management of the pressure regulating equipment; furthermore, the intelligent operation management device of the pressure regulating equipment provided by the invention also adjusts the pressure data, the valve opening and closing condition and the flow data of the pressure regulating equipment in real time through the parameter adjusting instruction, so that the adjustment automation of the pressure regulating equipment is realized, and the high efficiency of the operation management of the pressure regulating equipment is further improved; furthermore, the intelligent operation management device for the pressure regulating equipment, provided by the invention, also displays the position data and the pressure data of all the pressure regulating equipment on the map, and marks the pressure regulating equipment in different states by using different colors, so that the intuitiveness of the display of the specific conditions of the pressure regulating equipment is improved, and the high efficiency of the operation management of the pressure regulating equipment is further improved.

Detailed description of the invention

In addition to the above method and apparatus, the present invention also describes an embodiment of an intelligent operation management system for a voltage regulating device. Fig. 4 shows a block diagram of an embodiment of an intelligent operation management system of a voltage regulating device according to the present invention.

As shown in fig. 4, the intelligent management system includes a plurality of intelligent management apparatuses 1, a database 2, and pressure regulating devices 3 of the pressure regulating devices, the intelligent management apparatuses 1, the database 2, and the pressure regulating devices 3 are sequentially connected in a communication manner, and the intelligent management apparatus 1 is configured to execute the intelligent management method of the pressure regulating devices on the pressure regulating devices 3, and store all process data and result data in the database 2.

In one embodiment, the intelligent operation management system further comprises a user mobile terminal. The user mobile terminal is used for sending an alarm statistic instruction to the intelligent management device, so that the intelligent management device calls all currently stored alarm information, counts all the alarm information, and sends a statistic result to the user in a visual information mode according to the alarm statistic instruction; the user mobile terminal is also used for sending a parameter configuration instruction to the intelligent management device so as to configure or modify a preset time data acquisition interval, a preset packaging uploading time interval, a preset parameter threshold value set, a preset operation analysis prediction model and a preset strategy database in the intelligent management device; the user mobile terminal is also used for sending a remote awakening instruction to the intelligent management device so as to remotely awaken the intelligent management device.

The invention provides an intelligent operation management system of a pressure regulating device, which realizes the comprehensive analysis of the pressure regulating device and an active management mode of early warning by carrying out comprehensive analysis and prediction on the continuity of operation data, and improves the comprehensiveness and the high efficiency of the operation management of the pressure regulating device; furthermore, the intelligent operation management system of the pressure regulating equipment provided by the invention also adjusts the pressure data, the valve opening and closing condition and the flow data of the pressure regulating equipment in real time through the parameter adjusting instruction, so that the adjustment automation of the pressure regulating equipment is realized, and the efficiency of the operation management of the pressure regulating equipment is further improved; furthermore, the intelligent operation management system for the pressure regulating devices provided by the invention also displays the position data and the pressure data of all the pressure regulating devices on the map and marks the pressure regulating devices in different states by using different colors, so that the intuitiveness of the display of the specific conditions of the pressure regulating devices is improved, and the high efficiency of the operation management of the pressure regulating devices is further improved.

The above-mentioned embodiments are provided to further explain the objects, technical solutions and advantages of the present invention in detail, and it should be understood that the above-mentioned embodiments are only examples of the present invention and are not intended to limit the scope of the present invention. It should be understood that any modifications, equivalents, improvements and the like, which come within the spirit and principle of the invention, may occur to those skilled in the art and are intended to be included within the scope of the invention.

Claims (10)

1. An intelligent management method for pressure regulating equipment is characterized by comprising the following steps:

automatically generating and executing a data acquisition instruction so as to acquire, store and upload a real-time operation parameter set; wherein the set of real-time operating parameters comprises a plurality of operating parameter data;

sequentially judging whether each operation parameter data is normal or not according to a preset parameter threshold set;

and when all the operation parameter data are normal data, sending an analysis prediction report to a user according to the operation parameter data, a preset operation analysis prediction model and a preset strategy database.

2. The intelligent management method for the voltage regulation device according to claim 1, further comprising:

and when abnormal data exists, determining a fault type according to the abnormal data and a preset strategy database, and generating, storing and sending alarm information to a user according to the fault type.

3. The intelligent management method for the voltage regulation device according to claim 2, further comprising:

and adjusting the pressure data, the valve opening and closing conditions and the flow data of the pressure regulating equipment in real time according to the strategy database and the plurality of operation parameter data through a parameter adjusting instruction.

4. The intelligent management method for the pressure regulating equipment according to claim 3, wherein the step of sequentially judging whether the data of each operating parameter is normal or not according to a preset parameter threshold set specifically comprises the following steps:

and when the operation parameter data falls into the parameter threshold value range of the corresponding parameter in the preset parameter threshold value group, judging that the operation parameter data is normal data.

5. The intelligent management method for the voltage regulation devices according to any one of claims 1 to 4, further comprising:

when an alarm statistic instruction sent by the user is received, all currently stored alarm information is called, statistics is carried out on all the alarm information, and a statistical result is sent to the user in a visual information mode according to the alarm statistic instruction.

6. An intelligent management device of pressure regulating equipment is characterized by comprising a data acquisition unit, a parameter judgment unit and a prediction alarm unit, wherein,

the data acquisition unit is used for automatically generating and executing a data acquisition instruction so as to acquire, store and upload a real-time operation parameter set; wherein the set of real-time operating parameters comprises a plurality of operating parameter data;

the parameter judgment unit is used for sequentially judging whether the operation parameter data are normal or not according to a preset parameter threshold value group;

and the prediction alarm unit is used for sending an analysis prediction report to a user according to the plurality of operation parameter data, a preset operation analysis prediction model and a preset strategy database when all the operation parameter data are normal data.

7. The intelligent management device of the pressure regulating equipment according to claim 6, wherein the prediction alarm unit is further configured to determine a fault type according to the abnormal data and a preset policy database when the abnormal data exists, and generate, store and send alarm information to a user according to the fault type.

8. The intelligent management device for the pressure regulating equipment according to claim 7, further comprising an intelligent adjusting unit, wherein the intelligent adjusting unit is used for adjusting the pressure data, the valve opening and closing conditions and the flow data of the pressure regulating equipment in real time according to the strategy database and the plurality of operation parameter data through a parameter adjusting instruction.

9. The intelligent management device for the pressure regulating devices according to any one of claims 6 to 8, further comprising a positioning display unit, wherein the positioning display unit is used for displaying the position data and the pressure data of all the pressure regulating devices on a map and marking the pressure regulating devices in different states with different colors.

10. An intelligent management system of a pressure regulating device, which is characterized by comprising a plurality of intelligent management devices of the pressure regulating device, a database and the pressure regulating device, wherein the intelligent management devices, the database and the pressure regulating device are sequentially connected in a communication way, and the intelligent management devices are used for executing the intelligent management method of the pressure regulating device, which is disclosed by any one of claims 1 to 5, on the pressure regulating device and storing all process data and result data in the database.

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