CN217030831U - CIM-based intelligent gas control platform - Google Patents

Abstract

The utility model provides a CIM-based intelligent gas management and control platform which comprises a pressure regulating station subsystem, a pressure regulating box subsystem, a valve chamber subsystem, an instrument monitoring subsystem, a gas appliance subsystem, a super fusion server cluster, a data transmission module and a CI M display control module, wherein the instrument monitoring subsystem is respectively in communication connection with the pressure regulating station subsystem, the pressure regulating box subsystem, the valve chamber subsystem and the gas appliance subsystem; and the signal input end of the super fusion server cluster is respectively in communication connection with each subsystem through a data transmission module, and establishes a signal interaction path with the CI M display control module. Thereby can carry out real-time supervision to each item parameter information in the gas pipe network to according to monitoring data to each automatically controlled valve or automatically controlled gate in the pipe network on-off control, and make things convenient for the staff to look over the component framework and each item operation index of gas management and control platform directly perceivedly, realize the accurate location to the supervision object.

Description

CIM-based intelligent gas management and control platform

Technical Field

The utility model relates to the technical field of smart city management, in particular to a CIM-based smart gas management and control platform.

Background

The gas pipe network is used as an urban life line, realizes the function of conveying gas for urban residents, and is an important carrier for guaranteeing activities such as daily kitchen gas consumption and heating. However, with the increasing shortage of global gas resources, the scheduling optimization of the gas resources has become a primary problem which plagues gas enterprises.

The traditional gas scheduling adopts a manual mode to perform manual scheduling according to the demand of each region of a gas pipe network and an empirical value, so that the problems of scheduling reaction lag, uneven scheduling distribution and the like exist, and gas supply gaps with different degrees are often caused. Under the background of the current 'digital China', the traditional scheduling mode cannot meet the use requirement of smart city construction.

SUMMERY OF THE UTILITY MODEL

The utility model provides a CIM-based intelligent gas control platform, which is used for solving the technical problems.

The utility model provides a CIM-based intelligent gas control platform, which comprises:

the pressure regulating station subsystem is electrically connected with the gate valve controller and the monitoring instrument in each pressure regulating station and is used for performing centralized control on all pressure regulating stations in the gas subsystem;

the pressure regulating box subsystem is electrically connected with the gate valve controllers in the pressure regulating boxes on the branch pipe network of the gas system and is used for performing centralized control on all the pressure regulating boxes in the whole gas subsystem;

the valve chamber subsystem is electrically connected with the gate valve controllers in the valve chambers on the main pipe network of the gas system and is used for performing centralized control on all the valve chambers in the whole gas subsystem;

the gas appliance subsystem is electrically connected with the gas supply valves of all the gas appliance devices and is used for performing centralized control on the gas supply valves of all the gas appliances in the whole gas subsystem;

the instrument monitoring subsystem is electrically connected with the monitoring instruments in each pressure regulating station subsystem and is used for collecting monitoring data of all the monitoring instruments in the whole gas subsystem, and the instrument monitoring subsystem is respectively in communication connection with the pressure regulating station subsystem, the pressure regulating box subsystem, the valve chamber subsystem and the gas appliance subsystem;

the super-fusion server cluster is in communication connection with the pressure regulating station subsystem, the pressure regulating box subsystem, the valve chamber subsystem, the gas appliance subsystem and the instrument monitoring subsystem through a data transmission module respectively;

and the CIM display control module is used for establishing an information interaction path with the super-fusion server cluster and carrying out CIM model display control on the intelligent gas control platform.

Preferably, the super-convergence server cluster comprises a plurality of enterprise-level super-convergence servers and at least one switch, and the plurality of super-convergence servers are arranged on the switch in parallel through optical fibers and combined to form the super-convergence server cluster.

Preferably, the super-convergence server cluster is connected with the data transmission module through a network cable and realizes data exchange.

Preferably, the CIM display control module includes a CIM mobile terminal and a CIM central control terminal, and both the CIM mobile terminal and the CIM central control terminal include a CIM engine unit.

Preferably, the super-convergence server cluster is in communication connection with the CIM central control terminal through a communication cable, and the super-convergence server cluster is in communication connection with the CIM mobile terminal through a wireless communication module.

Preferably, the signal input part of the gate valve controller in the pressure regulating station is in communication connection with the monitoring instrument, and the signal output part of the gate valve controller is electrically connected with each electric control valve and the electric control gate in the pressure regulating station and is used for controlling the opening and closing degree of the electric control valve and the electric control gate in the pressure regulating station according to the monitoring data of the monitoring instrument to regulate the pressure.

Preferably, the data transmission module is in communication connection with the pressure regulating station subsystem, the pressure regulating box subsystem, the valve chamber subsystem, the instrument monitoring subsystem and the gas appliance subsystem through network cables, and is used for receiving real-time operation data of the subsystems and forwarding the real-time operation data to the super-fusion server cluster for storage.

The intelligent gas control platform based on the CIM can monitor various parameter information in a gas pipe network in real time, open and close control is performed on each electric control valve or electric control gate in the pipe network according to monitoring data, and meanwhile, the CIM technology and gas control are integrated, so that a three-dimensional panoramic browsing model is provided for the gas control platform, workers can conveniently and visually check composition frameworks and various operation indexes of the gas control platform, and accurate positioning of a supervision object is realized. The mode of its intelligent management and control can realize carrying out dynamic adjustment according to each supervision object's operational aspect in real time, handles accident, exception the very first time, promotes the whole operation and maintenance level of gas.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic diagram of a module principle of a CIM-based intelligent gas management and control platform according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The utility model provides a CIM-based intelligent gas control platform, which comprises a pressure regulating station subsystem 10, a pressure regulating box subsystem 20, a valve chamber subsystem 30, a gas appliance subsystem 40, an instrument monitoring subsystem 50, a super-fusion server cluster 60, a data transmission module 70 and a CIM display control module 80, wherein the signal input end of the super-fusion server cluster 60 is in communication connection with the pressure regulating station subsystem 10, the pressure regulating box subsystem 20, the valve chamber subsystem 30, the instrument monitoring subsystem 50 and the gas appliance subsystem 40 respectively through the data transmission module 70, and a signal interaction path is established with the CIM display control module 80.

Specifically, the pressure regulating station subsystem 10 is electrically connected with the gate valve controllers and the monitoring instruments in the pressure regulating stations, and is used for performing centralized control on all the pressure regulating stations in the gas subsystem. The signal input part of the gate valve controller in the pressure regulating station is in communication connection with the monitoring instrument, and the signal output part of the gate valve controller is electrically connected with each electric control valve and each electric control gate in the pressure regulating station and is used for controlling the opening and closing degree of the electric control valves and the electric control gates in the pressure regulating station according to the monitoring data of the monitoring instrument to regulate the pressure.

The pressure regulating box subsystem 20 is electrically connected with the gate valve controllers in the pressure regulating boxes on the branch pipe network of the gas system, and is used for carrying out centralized control on all the pressure regulating boxes in the whole gas subsystem.

The valve chamber subsystem 30 is electrically connected with the gate valve controllers in the valve chambers on the main pipe network of the gas system, and is used for performing centralized control on all the valve chambers in the whole gas subsystem.

The gas appliance subsystem 40 is electrically connected to the gas supply valves of the gas appliance devices, and is configured to centrally control the gas supply valves of all the gas appliances in the entire gas appliance subsystem.

The instrument monitoring subsystem 50 is electrically connected with monitoring instruments in each pressure regulating station subsystem 10 and used for collecting monitoring data of all the monitoring instruments in the whole gas subsystem, the instrument monitoring subsystem 50 is in communication connection with the pressure regulating station subsystem 10, the pressure regulating box subsystem 20, the valve chamber subsystem 30 and the gas appliance subsystem 40 respectively, and transmits the monitoring data of all the monitoring instruments to the super-fusion server cluster 60 through the data transmission module 70.

The pressure regulating station subsystem 10, the pressure regulating box subsystem 20, the valve chamber subsystem 30 and the gas appliance subsystem 40 are preferably programmable PLCs, and a monitoring parameter corresponding control list is set in advance in the PLCs according to needs by workers, wherein the monitoring parameter corresponding control list comprises electric control valves and opening and closing degrees of the electric control gates which are correspondingly adjusted under different flow rates, pressures and temperatures; the PLC receives monitoring data of the monitoring instrument collected by the instrument monitoring subsystem 50, acquires corresponding opening and closing degree control parameters of the electric control valve or the electric control gate according to a preset corresponding control list of monitoring parameters, and controls the electric control valve or the electric control gate to adjust to a corresponding opening and closing degree. The PLC is preferably Siemens S7-1500.

The super-convergence server cluster 60 comprises a plurality of enterprise-level super-convergence servers and at least one switch, wherein the plurality of super-convergence servers are arranged on the switch in parallel through optical fibers and combined to form the super-convergence server cluster 60. Preferably, the super-fusion server cluster 60 is connected to the data transmission module 70 through a network cable to implement data exchange, and the data transmission module 70 is in communication connection with the pressure regulating station subsystem 10, the pressure regulating tank subsystem 20, the valve chamber subsystem 30, the meter monitoring subsystem 50, and the gas appliance subsystem 40 through a network cable, and is configured to receive real-time operation data of each subsystem and forward the real-time operation data to the super-fusion server cluster 60 for storage. The super-fusion server cluster 60 receives and stores all information of the pressure regulating station subsystem 10, the pressure regulating box subsystem 20, the valve chamber subsystem 30, the instrument monitoring subsystem 50 and the gas appliance subsystem 40, and respectively issues corresponding control instructions to the pressure regulating station subsystem 10, the pressure regulating box subsystem 20, the valve chamber subsystem 30 and the gas appliance subsystem 40 according to monitoring data acquired by the instrument monitoring subsystem 50. Preferably, the data transmission module 70 is an RTU device.

The CIM display control module 80 is in communication connection with the super fusion server cluster 60 and is used for carrying out CIM model display control on the intelligent gas control platform. The CIM display control module 80 includes a CIM mobile terminal 81 and a CIM central control terminal 82, where the CIM mobile terminal 81 and the CIM central control terminal 82 both include a CIM engine unit; the super-convergence server cluster 60 is in communication connection with the CIM central control terminal 82 through a communication cable, and the super-convergence server cluster 60 is in communication connection with the CIM mobile terminal 81 through a wireless communication module. Preferably, the CIM central control terminal 82 is a 70-inch touch control all-in-one machine, and is capable of displaying a CIM model of the whole intelligent gas control platform on a large screen, receiving an external input instruction, sending the external input instruction to the super-fusion server cluster 60, and realizing intelligent control of each subsystem by the super-fusion server cluster 60.

According to the intelligent gas control platform based on the CIM, disclosed by the utility model, various parameter information in a gas pipe network can be monitored in real time, the opening and closing control of each electric control valve or electric control gate in the pipe network is carried out according to monitoring data, and the CIM technology and gas control are fused, so that a three-dimensional panoramic browsing model is provided for the gas control platform, a worker can conveniently and visually check the composition framework and various operation indexes of the gas control platform, and the accurate positioning of a monitoring object is realized. The mode of its intelligent management and control can realize carrying out dynamic adjustment according to the behavior of each supervision object in real time, handles accident, exception the very first time, promotes the whole fortune dimension level of gas.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (7)

1. The utility model provides an wisdom gas management and control platform based on CIM which characterized in that includes:

the pressure regulating station subsystem is electrically connected with the gate valve controller and the monitoring instrument in each pressure regulating station and is used for performing centralized control on all pressure regulating stations in the gas subsystem;

the pressure regulating box subsystem is electrically connected with the gate valve controllers in the pressure regulating boxes on the branch pipe network of the gas system and is used for performing centralized control on all the pressure regulating boxes in the whole gas subsystem;

the valve chamber subsystem is electrically connected with the gate valve controllers in the valve chambers on the main pipe network of the gas system and is used for performing centralized control on all the valve chambers in the whole gas subsystem;

the gas appliance subsystem is electrically connected with the gas supply valves of all the gas appliance devices and is used for performing centralized control on the gas supply valves of all the gas appliances in the whole gas subsystem;

the instrument monitoring subsystem is electrically connected with the monitoring instruments in each pressure regulating station subsystem and is used for collecting monitoring data of all the monitoring instruments in the whole gas subsystem, and the instrument monitoring subsystem is respectively in communication connection with the pressure regulating station subsystem, the pressure regulating box subsystem, the valve chamber subsystem and the gas appliance subsystem;

the super-fusion server cluster is in communication connection with the pressure regulating station subsystem, the pressure regulating box subsystem, the valve chamber subsystem, the gas appliance subsystem and the instrument monitoring subsystem through a data transmission module respectively;

and the CIM display control module is used for establishing an information interaction path with the super-fusion server cluster and carrying out CIM model display control on the intelligent gas control platform.

2. The intelligent gas control platform according to claim 1, wherein the super-convergence server cluster comprises a plurality of enterprise-level super-convergence servers and at least one switch, and the super-convergence servers are arranged on the switch in parallel through optical fibers and combined to form the super-convergence server cluster.

3. The CIM-based intelligent gas management and control platform as claimed in claim 1, wherein the super-converged server cluster is connected with the data transmission module through a network cable and realizes data exchange.

4. The intelligent gas control platform based on the CIM as claimed in claim 1, wherein the CIM display control module comprises a CIM mobile terminal and a CIM central control terminal, and the CIM mobile terminal and the CIM central control terminal both comprise a CIM engine unit.

5. The CIM-based intelligent gas management and control platform according to claim 4, wherein the super-convergence server cluster is in communication connection with the CIM central control terminal through a communication cable, and the super-convergence server cluster is in communication connection with the CIM mobile terminal through a wireless communication module.

6. The CIM-based intelligent gas management and control platform as claimed in claim 1, wherein a signal input end of a gate valve controller in the pressure regulating station is in communication connection with a monitoring instrument, and a signal output end of the gate valve controller is electrically connected with each electric control valve and each electric control gate in the pressure regulating station, and is used for controlling the opening degree of each electric control valve and each electric control gate in the pressure regulating station according to monitoring data of the monitoring instrument to adjust the pressure.

7. The intelligent gas control platform based on the CIM as claimed in claim 1, wherein the data transmission module is in communication connection with the pressure regulating station subsystem, the pressure regulating box subsystem, the valve chamber subsystem, the instrument monitoring subsystem and the gas appliance subsystem through a network cable, and is used for receiving real-time operation data of each subsystem and forwarding the real-time operation data to the super fusion server cluster for storage.

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