CN114677043A - Intelligent gas valve fault emergency disposal center platform and method - Google Patents

Abstract

The invention discloses an intelligent gas valve fault emergency treatment center platform and method, and belongs to the field of gas valve operation and maintenance. The invention solves the problem that faults are difficult to solve because emergency events are not scheduled in time in the use process of the gas valve in the prior art. An intelligent gas valve fault emergency disposal center platform and a method are provided, wherein a supervision center system comprises a supervision computer and a fault emergency treatment system, the fault emergency treatment system comprises an emergency computer, the supervision center system further comprises a regular maintenance module, and the fault emergency treatment system further comprises a big database. The multi-party linkage is established for the emergency first time through the fault emergency processing system, the emergency disposal flow of the intelligent center is started, and the maintenance personnel are assigned to achieve the best fault processing efficiency.

Description

Intelligent gas valve fault emergency disposal center platform and method

Technical Field

The invention relates to the technical field of gas valve operation and maintenance, in particular to an intelligent gas valve fault emergency disposal center platform and method.

Background

The gas valve is a novel safety matching device for gas pipeline engineering. The gas valve is used for cutting off, connecting and regulating gas in a pipeline, and has good control characteristics and closing sealing performance. It is suitable for various gas medium pipelines such as city gas, liquefied petroleum, natural gas and oxygen. The driving form is manual, worm gear transmission, electric, pneumatic, hydraulic, electrohydraulic linkage and other executing mechanisms, and long-distance control and automatic operation can be realized.

Along with the increase of social economy, the application of gas pipeline transmission energy is on a growing trend, a large number of gas long-distance pipelines are laid, and the problem of pipeline safety protection is increasingly remarkable.

During the use of gas valves, the following drawbacks tend to exist:

1. in the aspect of daily cooperation and command scheduling, because the scheduling of the emergency is not timely, the situation of the site is not known, and a manager is difficult to remotely guide and solve the problem in real time.

2. The pipeline is buried underground and mostly avoids population residential areas, the geographic environment is also relatively severe, daily traditional operation and maintenance management mainly depends on manual inspection, meter reading and manual operation, the data acquisition period is long, real-time monitoring and analysis cannot be achieved, and accident risks cannot be prevented.

Aiming at the defects, it is necessary to design an intelligent gas valve fault emergency treatment center platform and a method.

Disclosure of Invention

The invention aims to provide an intelligent gas valve fault emergency treatment center platform and a method, which can solve the problem that faults are difficult to solve due to the fact that emergency events are not scheduled timely in the use process of a gas valve in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent gas valve fault emergency disposal center platform comprises a metering workstation, a valve control station, a compression relay station and a supervision center system, wherein the supervision center system comprises a supervision computer and a fault emergency treatment system, the supervision center system is in bidirectional connection with a communication base station, the supervision center system is used for monitoring intelligent gas valves of the metering workstation, the valve control station and the compression relay station in a remote physical-coupled manner, the output end of the supervision computer is connected with the input end of the fault emergency treatment system, the fault emergency treatment system comprises an emergency computer, the output end of the emergency computer is respectively connected with the input ends of a dispatching task module, a main interphone and a smart phone, the dispatching task module is used for intelligently distributing fault emergency disposal work, and the fault emergency treatment system establishes a multi-party linked emergency disposal flow for emergency events, the monitoring center system further comprises a periodic maintenance module, the periodic maintenance module is used for formulating a cycle periodic table for maintenance work, the fault emergency treatment system further comprises a big database, and the big database is used for managing timely data of the emergency repair disposal center.

Preferably, the metering workstation, the valve control station and the compression relay station respectively comprise a sensor assembly, an instrument assembly, an actuator assembly, a detector assembly, video monitoring equipment and an access control system assembly, the sensor assembly, the instrument assembly, the actuator assembly, the detector assembly, the video monitoring equipment and the access control system assembly are used for monitoring and controlling the working data of the metering workstation, the valve control station and the compression relay station in a multi-azimuth mode, and the sensor assembly comprises a pressure sensor, a temperature sensor, a leakage sensor, a flow sensor and a tide sensor.

Preferably, the output of sensor subassembly, instrument subassembly, executor subassembly, detector subassembly, video monitoring equipment and access control system subassembly all is connected with the input of valve thing networking equipment, communication base station and valve thing networking equipment both way junction, valve thing networking equipment sends the data information conversion of sensor subassembly, instrument subassembly, executor subassembly, detector subassembly, video monitoring equipment and access control system subassembly to the internet.

Preferably, the communication base station is respectively connected with the cloud server platform and the computing center server in a bidirectional mode, the output end of the computing center server is connected with the input end of the supervision center system, the computing center server is used for encrypting platform data and uploading the platform data to the cloud end, the computing center server is connected with the management computer in a bidirectional mode, and the management computer is used for adjusting data parameters of the supervision center system.

Preferably, the communication base station is in two-way connection with the wireless communication terminal, the cloud server platform is in two-way connection with the storage module, the cloud server platform synchronizes operation and maintenance data in real time, and the wireless communication terminal is used for receiving system tasks of patrol management, defect management and emergency repair.

Preferably, the output of supervision computer is connected with alarm device's input, alarm device includes speaker, alarm lamp and dialing alarm module, just alarm device is used for the on-the-spot warning of measurement workstation, valve control station and compression relay station, just supervision computer and periodic maintenance module both way junction, the periodic maintenance module is provided with a plurality of, and a plurality of the periodic maintenance module all includes clean module, detection and analysis module, maintenance module, test module and patrols and examines the robot, clean module is used for the data of the clean gas valve of record, detection and analysis module carries out detection and analysis and record data to the gas valve subassembly, maintenance module is used for managing the maintenance data of gas valve subassembly, test module is used for experimental gas valve and records experimental data, it is used for patrolling and examining intelligent measurement workstation, patrols and examines the robot, Valve control station and compression relay station.

Preferably, the fault emergency processing system comprises a GPS satellite, an output end of the GPS satellite is connected with an input end of the communication base station, the GPS satellite is used for positioning the intelligent gas valve, the communication base station is bidirectionally connected with the emergency computer, the emergency computer is used for receiving the position information of the fault gas valve and is bidirectionally connected with the large database, the big database sends emergency management information to an emergency computer for management, the order dispatching task module is used for receiving command information of the emergency computer, the intelligent mobile phones are provided with a plurality of intelligent mobile phones which are all used for receiving the order dispatching task information, the output end of the main interphone is connected with the input end of the auxiliary interphone, the auxiliary interphone is provided with a plurality of communication information which is processed in an emergency mode and is transmitted to the main interphone, and the main interphone sends the communication information to the emergency computer.

Preferably, the dispatching task module further comprises fault emergency data, the output end of the fault emergency data is connected with the input end of the fault level planning, the output end of the fault level planning is connected with the input end of the arrangement information of the emergency maintenance personnel, the input end of the arrangement information of the emergency maintenance personnel is connected with the output end of the dispatching management operation end, the dispatching management operation end is in two-way connection with the wireless transmission module, the output end of the wireless transmission module is connected with the input end of the communication end of the emergency maintenance personnel, the output end of the communication end of the emergency maintenance personnel is connected with the input end of the GPS positioning module, and the output end of the GPS positioning module is connected with the input end of the wireless transmission module.

Preferably, the big database comprises emergency vehicle data, emergency tool data, emergency equipment data, emergency personnel data and emergency route data, the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency personnel data and the emergency route data are connected with the real-time statistics module, the real-time statistics module is used for recording data information of fault emergency treatment, the real-time statistics module is connected with the wireless transmission module, the emergency vehicle data comprise vehicle type information, vehicle driver information and vehicle position information, the emergency tool data comprise tool parameter information, the emergency equipment data comprise equipment specification information, equipment operation methods and equipment safety information, and the emergency route data comprise route planning information and vehicle driving information.

A disposal method of an intelligent gas valve fault emergency disposal center platform comprises the following steps:

the method comprises the following steps: installing a sensor assembly, an instrument assembly, an actuator assembly, a detector assembly, video monitoring equipment and an access control system assembly in a metering workstation, a valve control station and a compression relay station, and monitoring the working state of a gas valve;

step two: connecting a sensor assembly, an instrument assembly, an actuator assembly, a detector assembly, video monitoring equipment and an access control system assembly into a network through valve Internet of things equipment, adjusting and processing data of a calculation center server by a worker through operating a management computer, setting corresponding numerical values, supervising abnormal data, receiving data information through the calculation center server, and sending the data information to a supervision center system through the calculation center server;

step three: in the supervision center system, a gas valve is maintained and overhauled regularly through a cleaning module, a detection and analysis module, a maintenance module, a test module and an inspection robot, data are uploaded to a network in time through a valve Internet of things device, if abnormal data are generated, the position of the gas valve is positioned in time through a GPS satellite, and a task command is rapidly distributed through a dispatching task module;

step four: counting the fault information of the gas valve, rapidly planning the fault grade, positioning a communication end of an emergency maintenance worker of a maintenance worker through a GPS positioning module, and simultaneously sending the positioning result to a distribution management operation end through a wireless transmission module;

step five: the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency personnel data and the emergency route data are synchronized in an emergency computer, a corresponding emergency treatment plan is formulated through statistics of the emergency computer and managers, and emergency personnel arrangement information can be rapidly formulated through dispatching a management operation end according to the information and the positions of the emergency personnel.

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

1. the intelligent gas valve fault emergency disposal center platform and the method thereof have the advantages that the intelligent gas valve is subjected to the Internet of things, the remote management can be conveniently carried out, the monitoring data can be centrally managed through a supervisory computer, various maintenance tasks are organized and distributed, the multi-way linkage is established for emergency events at the first time through a fault emergency processing system, the emergency disposal process of an intelligent center is started, the prevention and the guarantee in advance, the emergency disposal in the event and the retrospective optimization are realized, the equipment maintenance management is carried out through a regular maintenance module, the safe service cycle of the equipment is the most core investment of a pipeline system, the clear and safe communication and joint maneuvering management are well carried out, the equipment value is maximized, the work model, the parameter model, the reliability model, the service model and the fault model of the intelligent gas valve are established through a dispatching task module, and according to the data information of a large database, the intelligent distribution emergency repair task has the advantages of timely and intelligent distribution, wide adaptability and high working efficiency, provides intelligent valves and various process links and the whole of the industry through the data accumulation and the accurate positioning of business requirements, and distributes tasks to maintenance personnel so as to achieve the best fault treatment efficiency.

2. The intelligent gas valve fault emergency disposal center platform and the method realize parameter detection and analysis on a gas carrier of a pipeline and form data through sensing terminals such as a pressure sensor, a temperature sensor, a leakage sensor, a flow sensor, a tide sensor and the like, finally form a multifunctional monitoring module, realize real-time monitoring and communication on a valve equipment system through a valve actuator assembly, a valve instrument assembly, a valve sensor assembly and the like, acquire equipment parameter data, realize a remote operation monitoring module which can monitor, record and control the equipment system, realize remote real-time monitoring management, and can acquire, transmit, store and analyze parameters such as temperature, pressure, leakage, flow, tide, control, field video and the like in real time, and improve the management effect.

3. The intelligent gas valve fault emergency disposal center platform and the method monitor the working state of a gas valve in real time through a sensor assembly, an instrument assembly, an actuator assembly, a detector assembly, a video monitoring device and an access control system assembly, regularly maintain and overhaul the gas valve through a cleaning module, a detection and analysis module, a maintenance module, a test module and an inspection robot, upload data to a network in time through a valve Internet of things device, timely position the gas valve through a GPS satellite if abnormal data is generated, manage the gas valve data through an emergency computer, and rapidly distribute task commands through a dispatching task module, so that the optimal fault emergency disposal effect is achieved, and the working quality is improved.

Drawings

FIG. 1 is a schematic diagram of the principles of the present invention;

FIG. 2 is a schematic diagram of the surveillance center system of the present invention;

FIG. 3 is a schematic diagram of the fault emergency handling system of the present invention;

FIG. 4 is a functional block diagram of a dispatch task module of the present invention;

FIG. 5 is a schematic block diagram of a large database of lower dies of the invention.

In the figure: 1. a metering workstation; 2. a valve control station; 3. compressing the relay station; 401. a sensor assembly; 402. a meter assembly; 403. an actuator assembly; 404. a probe assembly; 405. a video monitoring device; 406. an access control system component; 5. valve internet of things equipment; 6. a communication base station; 7. a cloud server platform; 8. a computation center server; 9. a management computer; 10. a supervision centre system; 101. a supervisory computer; 102. an alarm device; 103. the module is overhauled regularly; 1041. a cleaning module; 1042. a detection analysis module; 1043. a maintenance module; 1044. a test module; 1045. a patrol robot; 11. a wireless communication terminal; 12. a storage module; 13. a fault emergency handling system; 131. a GPS satellite; 132. an emergency computer; 133. a dispatch task module; 134. a main interphone; 135. an auxiliary interphone; 136. a smart phone; 137. a large database.

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.

Referring to fig. 1-3, an intelligent gas valve fault emergency disposal center platform includes a metering workstation 1, a valve control station 2, a compression relay station 3 and a supervision center system 10, the supervision center system 10 includes a supervision computer 101 and a fault emergency processing system 13, the supervision center system 10 is bidirectionally connected with a communication base station 6, the supervision center system 10 is used for monitoring the intelligent gas valves of the metering workstation 1, the valve control station 2 and the compression relay station 3 in a remote internet of things, the output end of the supervision computer 101 is connected with the input end of the fault emergency processing system 13, the intelligent gas valves are subjected to internet of things, remote management can be conveniently performed, the monitoring data can be centrally managed through the supervision computer 101, various maintenance tasks are organized and distributed, a multi-party linkage is established for emergency events at the first time through the fault emergency processing system 13, an emergency disposal flow of the intelligent center is started, the accident emergency treatment system 13 comprises an emergency computer 132, the output end of the emergency computer 132 is respectively connected with the input ends of a dispatching task module 133, a main interphone 134 and a smart phone 136, the dispatching task module 133 is used for intelligently distributing the accident emergency treatment work, a working model, a parameter model, a reliability model, a service model and a fault model of the smart valve are established through the dispatching task module 133, the smart valve and each process link and the totality of the industry are provided through the accumulation of data and the accurate positioning of service requirements, the distribution tasks are carried out on maintenance personnel to achieve the best failure treatment efficiency, the accident emergency treatment system 13 establishes the multi-party linked emergency treatment process for the emergency, the supervision center system 10 also comprises a regular maintenance module 103, the periodic maintenance module 103 is used for formulating the cyclic period table of maintenance work, carry out the equipment maintenance management through the periodic maintenance module 103, it is the most core input of pipe-line system to the safe life cycle of equipment, clear safe communication and joint maneuvering management have been done, make the value of equipment maximize, trouble emergency treatment system 13 is still including big database 137, big database 137 is used for managing the timely data of emergency repair treatment center, according to the data information of big database 137, timely intelligent distribution salvagees the task, adaptability is wide, high work efficiency.

Further, the metering workstation 1, the valve control station 2 and the compression relay station 3 each include a sensor assembly 401, an instrument assembly 402, an actuator assembly 403, a detector assembly 404, a video monitoring device 405 and an access control system assembly 406, the sensor assembly 401, the instrument assembly 402, the actuator assembly 403, the detector assembly 404, the video monitoring device 405 and the access control system assembly 406 are used for monitoring and controlling the working data of the metering workstation 1, the valve control station 2 and the compression relay station 3 in multiple directions, the sensor assembly 401 includes a pressure sensor, a temperature sensor, a leakage sensor, a flow sensor and a power flow sensor, the parameter detection and analysis of the gas carrier of the pipeline are realized through sensing terminals such as the pressure sensor, the temperature sensor, the leakage sensor, the flow sensor and the power flow sensor, and data are formed, and finally a multifunctional monitoring module is formed, the valve equipment system is monitored and communicated in real time through the valve actuator assembly 403, the valve instrument assembly 402, the valve sensor assembly 401 and the like, equipment parameter data are obtained, a remote operation supervision module which can monitor, record and control the equipment system is realized, remote real-time monitoring management is realized, parameters such as temperature, pressure, leakage, flow, tide, control, field video and the like of the metering workstation 1, the valve control station 2 and the compression relay station 3 can be collected, transmitted, stored and analyzed in real time, and the management effect is improved.

Further, the output ends of the sensor assembly 401, the instrument assembly 402, the actuator assembly 403, the detector assembly 404, the video monitoring device 405 and the access control system assembly 406 are connected with the input end of the valve internet of things device 5, the communication base station 6 is connected with the valve internet of things device 5 in a two-way mode, the valve internet of things device 5 converts and sends the data information of the sensor assembly 401, the instrument assembly 402, the actuator assembly 403, the detector assembly 404, the video monitoring device 405 and the access control system assembly 406 to the internet, the data information of the detection assembly can be uploaded to the network, data can be downloaded through the communication device, remote monitoring management and control can be conducted, a customer can conveniently report repair, detailed equipment information and operation and maintenance reports can be consulted, the operation and maintenance flow can be tracked, intelligent management is achieved, and the requirements of the customer are met.

Further, the communication base station 6 is respectively connected with the cloud server platform 7 and the computing center server 8 in a bidirectional mode, the output end of the computing center server 8 is connected with the input end of the monitoring center system 10, the computing center server 8 is used for encrypting platform data and uploading cloud, the computing center server 8 is connected with the management computer 9 in a bidirectional mode, the management computer 9 is used for adjusting data parameters of the monitoring center system 10, a worker can operate the management computer 9 to adjust data of the computing center server 8 and set corresponding numerical values, abnormal data can be fully monitored, intelligent management of the gas valve and intelligent processing of emergency faults of the gas valve can be effectively achieved by matching with the monitoring center system 10, and working quality is improved.

Further, the communication base station 6 is connected with the wireless communication terminal 11 in a two-way mode, the cloud server platform 7 is connected with the storage module 12 in a two-way mode, data information is stored through the storage module 12, the data information can be downloaded into the cloud server platform 7 through the wireless communication terminal 11, data can be remotely inquired, the cloud server platform 7 can synchronize operation and maintenance data in real time, and the wireless communication terminal 11 is used for receiving system tasks of patrol management, defect management and emergency repair.

Further, the output end of the supervisory computer 101 is connected to the input end of the alarm device 102, the alarm device 102 includes a speaker, an alarm lamp and a dial alarm module, the alarm device 102 is used for on-site alarm of the metering workstation 1, the valve control station 2 and the compression relay station 3, the supervisory computer 101 is bidirectionally connected to the periodic maintenance module 103, the periodic maintenance module 103 is provided with a plurality of modules, each of the periodic maintenance modules 103 includes a cleaning module 1041, a detection and analysis module 1042, a maintenance module 1043, a test module 1044 and an inspection robot 1045, the cleaning module 1041 is used for recording data of a clean gas valve, the detection and analysis module 1042 is used for detecting and analyzing the gas valve and recording data, the maintenance module 1043 is used for managing maintenance data of the gas valve, the test module 1044 is used for testing the gas valve and recording experimental data, the inspection robot 1045 is used for intelligently inspecting the metering workstation 1, the inspection module 1042 is used for recording experimental data, and the inspection data, The pipeline states of the valve control station 2 and the compression relay station 3 periodically provide accurate operation and maintenance data through the periodic maintenance module 103, the working effect of the management center platform is improved, long-term work is facilitated, and the comprehensive maintenance and timely defect elimination guarantee are achieved, so that the equipment is always in the best running state, and the performance of the equipment is improved.

Further, the fault emergency processing system 13 includes a GPS satellite 131, an output end of the GPS satellite 131 is connected to an input end of the communication base station 6, the GPS satellite 131 is used for positioning the intelligent gas valve, the communication base station 6 is connected to an emergency computer 132 in a bidirectional manner, the emergency computer 132 is used for receiving position information of the fault gas valve, the emergency computer 132 is connected to a big database 137 in a bidirectional manner, the big database 137 sends emergency management information to the emergency computer 132 for management, a dispatching task module 133 is used for receiving command information of the emergency computer 132, a plurality of smart phones 136 are provided, each of the plurality of smart phones 136 is used for receiving dispatching task information, an output end of the main interphone 134 is connected to an input end of the auxiliary interphone 135, a plurality of auxiliary interphones 135 are provided, the plurality of auxiliary interphones 135 transmit emergency processing communication information to the main interphone 134, the main interphone 134 sends the communication information to the emergency computer 132, the working state of the gas valve is monitored in real time through the sensor assembly 401, the instrument assembly 402, the actuator assembly 403, the detector assembly 404, the video monitoring device 405 and the access control system assembly 406, the cleaning module 1041, the detection and analysis module 1042, the maintenance module 1043, the test module 1044 and the inspection robot 1045 are used for maintaining and repairing the gas valve regularly, data are uploaded to a network in time through the valve internet of things device 5, if abnormal data are generated, the position of the gas valve can be located in time through the GPS satellite 131, the data of the gas valve are managed through the emergency computer 132, and a task command is rapidly distributed through the order distributing task module 133, the optimal fault emergency processing effect is achieved, and the working quality is improved.

Referring to fig. 4, the dispatching task module 133 further includes fault emergency data, an output end of the fault emergency data is connected to an input end of the fault level planning, a fault level is formulated through the fault level planning, so as to facilitate dispatching, overhauling, maintenance personnel and overhauling, maintenance equipment, an output end of the fault level planning is connected to an input end of arrangement information of emergency repair personnel, an input end of arrangement information of the emergency repair personnel is connected to an output end of a dispatching management operation end, the dispatching management operation end is bidirectionally connected to the wireless transmission module, an output end of the wireless transmission module is connected to an input end of a communication end of the emergency repair personnel, an output end of the communication end of the emergency repair personnel is connected to an input end of the GPS positioning module, an output end of the GPS positioning module is connected to an input end of the wireless transmission module, so as to count the fault information of the gas valve, plan the fault level quickly, and position the communication end of the emergency repair personnel through the GPS positioning module, meanwhile, the first-aid repair management system is sent to the distribution management operation end through the wireless transmission module, and the arrangement information of the first-aid repair personnel can be rapidly formulated according to the information and the position of the first-aid repair personnel through the distribution management operation end, so that task allocation is carried out, the working quality is effectively improved, and the maintenance and repair efficiency is improved.

Referring to fig. 5, the big database 137 includes emergency vehicle data, emergency tool data, emergency equipment data, emergency personnel data, and emergency route data, the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency personnel data, and the emergency route data are connected to the real-time statistics module, the real-time statistics module is used to record data information of fault emergency disposal, the real-time statistics module is connected to the wireless transmission module, the wireless transmission module sends the real-time information to the emergency computer 132, the emergency computer 132 searches for the data information quickly to make an optimal emergency treatment plan, the emergency vehicle data includes vehicle type information, vehicle driver information, and vehicle position information, the emergency tool data includes tool parameter information, and the emergency equipment data includes equipment specification information, equipment operation method, and equipment safety information, and the emergency route data comprises route planning information and vehicle running information, the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency personnel data and the emergency route data are synchronized in the emergency computer 132, and a corresponding emergency treatment plan is formulated through statistics of the emergency computer 132 and managers, so that the efficiency of fault maintenance and repair is conveniently improved.

Referring to fig. 1 to 5, a disposal method for an intelligent gas valve failure emergency disposal center platform includes the following steps:

the method comprises the following steps: installing a sensor assembly 401, a meter assembly 402, an actuator assembly 403, a detector assembly 404, video monitoring equipment 405 and an access control system assembly 406 in the metering workstation 1, the valve control station 2 and the compression relay station 3, and monitoring the working state of the gas valve;

step two: connecting a sensor assembly 401, an instrument assembly 402, an actuator assembly 403, a detector assembly 404, video monitoring equipment 405 and an access control system assembly 406 into a network through a valve Internet of things device 5, adjusting and processing data of a calculation center server 8 by a worker through operating a management computer 9, setting corresponding numerical values, monitoring abnormal data, receiving data information through the calculation center server 8, and sending the data information to a monitoring center system 10 by the calculation center server 8;

step three: in the supervision center system 10, the gas valves are regularly maintained and overhauled through the cleaning module 1041, the detection and analysis module 1042, the maintenance module 1043, the test module 1044 and the inspection robot 1045, data are uploaded to the network through the valve internet of things device 5 in time, if abnormal data are generated, the gas valve positions are timely positioned through the GPS satellite 131, and task commands are quickly distributed through the order distributing task module 133;

step four: counting the fault information of the gas valve, rapidly planning the fault grade, positioning a communication end of an emergency maintenance worker of a maintenance worker through a GPS positioning module, and simultaneously sending the positioning result to a distribution management operation end through a wireless transmission module;

step five: the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency personnel data and the emergency route data are synchronized in the emergency computer 132, the corresponding emergency treatment plan is formulated through statistics of the emergency computer 132 and management personnel, and the arrangement information of the emergency personnel can be rapidly formulated through dispatching management operation ends according to the information and the position of the emergency personnel.

In summary, according to the intelligent gas valve fault emergency disposal center platform and the method, the sensor assembly 401, the meter assembly 402, the actuator assembly 403, the detector assembly 404, the video monitoring device 405 and the access control system assembly 406 are installed in the metering workstation 1, the valve control station 2 and the compression relay station 3, the working state of the gas valve is monitored, the sensor assembly 401, the meter assembly 402, the actuator assembly 403, the detector assembly 404, the video monitoring device 405 and the access control system assembly 406 are connected to the network through the valve internet of things device 5, a worker adjusts and processes data of the calculation center server 8 through the operation management computer 9, sets corresponding numerical values, supervises abnormal data, receives data information through the calculation center server 8, the calculation center server 8 sends the data information to the supervision center system 10, and sends the data information to the supervision center system 10 through the pressure sensor, The system comprises a temperature sensor, a leakage sensor, a flow sensor, a tide sensor and other sensing terminals, wherein the sensing terminals of the temperature sensor, the leakage sensor, the flow sensor, the tide sensor and the like are used for realizing parameter detection and analysis on a gas carrier of a pipeline and forming data, and finally forming a multifunctional monitoring module, the valve equipment system is monitored and communicated in real time through a valve actuator assembly 403, a valve instrument assembly 402, a valve sensor assembly 401 and the like to obtain equipment parameter data, so that a monitoring module which can be monitored, recorded and controlled can be remotely operated is realized, remote real-time monitoring management is realized, parameters such as temperature, pressure, leakage, flow, tide, control, on-site video and the like of a metering workstation 1, a valve control station 2 and a compression relay station 3 can be acquired, transmitted, stored and analyzed in real time, and the management effect is improved, and in a monitoring center system 10, the parameters such as the cleaning module 1041, a detection and analysis module 1042, a maintenance module 1043, a flow sensor, a tide sensor, a pipeline and the like are used for realizing parameter detection and analysis on the real-time detection and the real-time of the monitoring of the gas carrier of the pipeline and the monitoring module, and the monitoring module is realized, The test module 1044 and the inspection robot 1045 regularly maintain and overhaul the gas valve, upload data to the network in time through the valve internet of things device 5, locate the gas valve position in time through the GPS satellite 131 if abnormal data occurs, and quickly distribute task commands through the dispatching task module 133, count the fault information of the gas valve, quickly plan the fault level, locate the communication end of the emergency repair personnel of the maintenance personnel through the GPS location module, and simultaneously send the task commands to the dispatching management operation end through the wireless transmission module, quickly formulate the arrangement information of the emergency repair personnel according to the information and the position of the emergency repair personnel through the dispatching management operation end, thereby performing task distribution, effectively improving the working quality, improving the efficiency of maintenance and overhaul, synchronizing the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency repair personnel data and the emergency route data in the emergency computer 132, through the statistics of the emergency computer 132 and the manager, a corresponding emergency treatment plan is formulated, and the intelligent mobile phone 136 contacts the staff to quickly perform fault emergency treatment work.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an intelligence gas valve trouble emergency treatment center platform, includes measurement workstation (1), valve control station (2), compression relay station (3) and supervision center system (10), its characterized in that: the monitoring center system (10) comprises a monitoring computer (101) and a fault emergency processing system (13), the monitoring center system (10) is in bidirectional connection with a communication base station (6), the monitoring center system (10) is used for monitoring and metering workstations (1), valve control stations (2) and intelligent gas valves of compression relay stations (3) of remote internet of things, the output end of the monitoring computer (101) is connected with the input end of the fault emergency processing system (13), the fault emergency processing system (13) comprises an emergency computer (132), the output end of the emergency computer (132) is respectively connected with the input ends of a dispatching task module (133), a main interphone (134) and a smart phone (136), the dispatching task module (133) is used for intelligently distributing fault emergency handling work, and the fault emergency processing system (13) establishes a linkage emergency handling process for emergency events, the supervision center system (10) is characterized by further comprising a periodic maintenance module (103), the periodic maintenance module (103) is used for formulating a cycle periodic table of maintenance work, the fault emergency treatment system (13) is further comprising a big database (137), and the big database (137) is used for managing timely data of an emergency repair disposal center.

2. The intelligent gas valve fault emergency treatment center platform of claim 1, wherein: the metering workstation (1), the valve control station (2) and the compression relay station (3) respectively comprise a sensor assembly (401), an instrument assembly (402), an actuator assembly (403), a detector assembly (404), a video monitoring device (405) and an access control system assembly (406), the sensor assembly (401), the instrument assembly (402), the actuator assembly (403), the detector assembly (404), the video monitoring device (405) and the access control system assembly (406) are used for monitoring working data of the metering workstation (1), the valve control station (2) and the compression relay station (3) in a multidirectional mode, and the sensor assembly (401) comprises a pressure sensor, a temperature sensor, a leakage sensor, a flow sensor and a power flow sensor.

3. The intelligent gas valve fault emergency treatment center platform of claim 2, wherein: the output of sensor subassembly (401), instrument subassembly (402), executor subassembly (403), detector subassembly (404), video monitoring equipment (405) and access control system subassembly (406) all is connected with the input of valve thing networking device (5), communication base station (6) and valve thing networking device (5) both way junction, valve thing networking device (5) send the data information conversion of sensor subassembly (401), instrument subassembly (402), executor subassembly (403), detector subassembly (404), video monitoring equipment (405) and access control system subassembly (406) to the internet.

4. The intelligent gas valve fault emergency treatment center platform of claim 3, wherein: the communication base station (6) is in two-way connection with the cloud server platform (7) and the computing center server (8) respectively, the output end of the computing center server (8) is connected with the input end of the supervision center system (10), the computing center server (8) is used for encrypting platform data and uploading cloud ends, the computing center server (8) is in two-way connection with the management computer (9), and the management computer (9) is used for adjusting data parameters of the supervision center system (10).

5. The intelligent gas valve fault emergency disposal center platform of claim 4, wherein: communication base station (6) and wireless communication terminal (11) both way junction, cloud server platform (7) and storage module (12) both way junction, cloud server platform (7) real-time synchronization fortune dimension data, just wireless communication terminal (11) are used for receiving the system task of patrol management, defect management and emergency repair.

6. The intelligent gas valve fault emergency treatment center platform of claim 5, wherein: the output end of the supervision computer (101) is connected with the input end of the alarm device (102), the alarm device (102) comprises a loudspeaker, an alarm lamp and a dialing alarm module, the alarm device (102) is used for field alarm of the metering workstation (1), the valve control station (2) and the compression relay station (3), the supervision computer (101) is bidirectionally connected with the regular maintenance module (103), the regular maintenance module (103) is provided with a plurality of modules, the regular maintenance modules (103) respectively comprise a cleaning module (1041), a detection and analysis module (1042), a maintenance module (1043), a test module (1044) and an inspection robot (1045), the cleaning module (1041) is used for recording data of a clean gas valve, the detection and analysis module (1042) performs detection and analysis on the gas valve assembly and records the data, the maintenance module (1043) is used for managing the maintenance data of the gas valve assembly, the test module (1044) is used for testing the gas valve and recording experimental data, and the inspection robot (1045) is used for intelligently inspecting pipeline states of the metering workstation (1), the valve control station (2) and the compression relay station (3).

7. The intelligent gas valve fault emergency treatment center platform of claim 6, wherein: the fault emergency processing system (13) comprises a GPS satellite (131), the output end of the GPS satellite (131) is connected with the input end of a communication base station (6), the GPS satellite (131) is used for positioning an intelligent gas valve, the communication base station (6) is in two-way connection with an emergency computer (132), the emergency computer (132) is used for receiving the position information of the fault gas valve, the emergency computer (132) is in two-way connection with a big database (137), the big database (137) sends emergency management information to the emergency computer (132) for management, a dispatching task module (133) is used for receiving command information of the emergency computer (132), the intelligent mobile phone (136) is provided with a plurality of intelligent mobile phones (136) which are all used for receiving dispatching task information, the output end of a main interphone (134) is connected with the input end of an auxiliary interphone (135), the auxiliary interphone (135) is provided with a plurality of communication information, the auxiliary interphone (135) transmits the communication information of emergency treatment to the main interphone (134), and the main interphone (134) transmits the communication information to the emergency computer (132).

8. The intelligent gas valve fault emergency treatment center platform of claim 7, wherein: the dispatching task module (133) further comprises fault emergency data, the output end of the fault emergency data is connected with the input end of fault level planning, the output end of the fault level planning is connected with the input end of arrangement information of rush-repair personnel, the input end of the arrangement information of the rush-repair personnel is connected with the output end of the dispatching management operation end, the dispatching management operation end is in two-way connection with the wireless transmission module, the output end of the wireless transmission module is connected with the input end of the communication end of the rush-repair personnel, the output end of the communication end of the rush-repair personnel is connected with the input end of the GPS positioning module, and the output end of the GPS positioning module is connected with the input end of the wireless transmission module.

9. The intelligent gas valve fault emergency treatment center platform of claim 8, wherein: the large database (137) comprises emergency vehicle data, emergency tool data, emergency equipment data, emergency personnel data and emergency route data, the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency personnel data and the emergency route data are connected with a real-time counting module, the real-time counting module is used for recording data information of fault emergency treatment, the real-time counting module is connected with a wireless transmission module, the emergency vehicle data comprise vehicle type information, vehicle driver information and vehicle position information, the emergency tool data comprise tool parameter information, the emergency equipment data comprise equipment specification information, equipment operation methods and equipment safety information, and the emergency route data comprise route planning information and vehicle driving information.

10. A disposal method for an intelligent gas valve failure emergency disposal center platform according to claim 9, comprising the following steps:

the method comprises the following steps: installing a sensor assembly (401), an instrument assembly (402), an actuator assembly (403), a detector assembly (404), video monitoring equipment (405) and an access control system assembly (406) in a metering workstation (1), a valve control station (2) and a compression relay station (3) and monitoring the working state of a gas valve;

step two: connecting a sensor assembly (401), an instrument assembly (402), an actuator assembly (403), a detector assembly (404), a video monitoring device (405) and an access control system assembly (406) into a network through a valve Internet of things device (5), adjusting and processing data of a computing center server (8) by a worker through operating a management computer (9), setting corresponding numerical values, supervising abnormal data, receiving data information through the computing center server (8), and sending the data information to a supervision center system (10) by the computing center server (8);

step three: in the supervision center system (10), the gas valves are maintained and overhauled regularly through a cleaning module (1041), a detection analysis module (1042), a maintenance module (1043), a test module (1044) and an inspection robot (1045), data are uploaded to a network in time through a valve Internet of things device (5), if abnormal data are generated, the position of the gas valves is located in time through a GPS satellite (131), and task commands are rapidly distributed through a dispatching task module (133);

step four: the method comprises the steps of counting fault information of a gas valve, rapidly planning fault levels, positioning a communication end of an emergency maintenance worker of a maintenance worker through a GPS positioning module, and sending the communication end to a distribution management operation end through a wireless transmission module;

step five: the emergency vehicle data, the emergency tool data, the emergency equipment data, the emergency personnel data and the emergency route data are synchronized in an emergency computer (132), a corresponding emergency treatment plan is formulated through statistics of the emergency computer (132) and managers, and emergency personnel arrangement information can be rapidly formulated through dispatching a management operating end according to the information and the position of the emergency personnel.

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