CN113777959A - Mode sequential control method and device based on comprehensive monitoring system - Google Patents

Abstract

The invention discloses a mode sequential control method and a mode sequential control device based on a comprehensive monitoring system, which belong to the technical field of rail transit, and comprise the steps of dividing an environment of a station and an equipment monitoring system into a plurality of subsystems, wherein each subsystem corresponds to a subsystem mode group model; selecting from the subordinate modes of the subsystem mode group model according to a target mode to be issued by each station to form a mode sequence control card model; and issuing a command of the execution mode sequential control card model to a comprehensive monitoring system of the control center, issuing the command to a corresponding comprehensive monitoring system of the station and a corresponding environment and equipment monitoring system, and executing the target mode by the environment and equipment monitoring system. The invention realizes the rapid mode control of the whole line station and increases the universality and the flexibility of mode sequential control.

Description

Mode sequential control method and device based on comprehensive monitoring system

Technical Field

The invention relates to the technical field of rail transit, in particular to a mode sequential control method and device based on a comprehensive monitoring system.

Background

The equipment monitored by the subway environment and equipment monitoring system (hereinafter referred to as BAS) comprises ventilation and air conditioning system equipment, water supply and drainage equipment, a two-way valve, a jet fan and the like, so that comprehensive and effective automatic monitoring and management of the environment of all-line stations and intervals are realized. A subway BAS is provided with a control center and a station two-level management, wherein the control center is a master control level, the station is a sub-control level, monitoring equipment of the control center management level is arranged in a central control room of the control center, and monitoring equipment of the station management level is arranged in a station control room. The mode control belongs to a specific equipment group control, and according to the process design requirements, a group of electromechanical equipment completes actions according to the control requirements and a certain sequence, so that specific purposes of ventilation, smoke exhaust and the like are achieved. The mode sequential control is a set of sequential execution control instructions with conditional judgment, namely, a plurality of controlled objects are defined as a sequential operation sequence according to a certain safety interlocking relationship, an operator selects a required sequential control sequence through a sequential control screen to operate each controlled object, and once the sequential operation is started to be executed, the sequential operation is automatically executed step by step according to the sequential control sequence.

Disclosure of Invention

The invention aims to provide a mode sequential control method and a mode sequential control device based on an integrated monitoring system, which realize the flexibility and the practicability of mode sequential control by configuring the integrated monitoring system on a control center server and each station server.

In order to achieve the purpose, the invention is realized by the following technical scheme:

in one aspect, the present invention provides a mode sequence control method based on an integrated monitoring system, including:

selecting a target mode to be issued by each station from the modes under the subsystem mode group model to form a mode sequence control card model and storing the mode sequence control card model in a comprehensive monitoring system of a control center;

and issuing a command of the execution mode sequential control card model to a comprehensive monitoring system of the control center.

Furthermore, the method also comprises the following steps of,

according to the correlation between the station environment and the operation of equipment in the equipment monitoring system, the station environment and the equipment monitoring system are divided into a plurality of subsystems, each subsystem corresponds to one subsystem mode group model, and each subsystem mode group model comprises a plurality of modes.

Further, the dividing of the station environment and the equipment monitoring system into a plurality of subsystems includes: the system comprises a large ventilation system, a small ventilation system, a tunnel ventilation system and an air-conditioning water system.

Further, the information contained in the subsystem mode group model includes: issuing a mode roll call, executing a result roll call, a mode input roll call and a current mode roll call;

the name of the issued mode point is the name of the issued mode point; the issuing mode measuring point is an analog quantity output point and is used for issuing a mode;

the execution result point name is the name of a measuring point corresponding to the execution result of the mode after the mode is issued; the execution result point is an analog quantity input point and is used for representing a measuring point corresponding to the result of the mode execution;

the mode input point name is a name corresponding to the mode input point; the mode input measuring point is a switching value input measuring point and is used for indicating whether the current mode is input or not;

the current mode point name is a name corresponding to the current mode measuring point; the current mode measurement point is an analog quantity input point, and represents a measurement point currently executed.

Further, the mode contained in each subsystem mode group model includes:

the system comprises a zero clearing state, a night outage state, a small fresh air conditioning system, a full fresh air conditioning system, a ventilation season, a heat extraction working condition and a heat extraction energy-saving working condition.

Further, each mode contains information including: a schema ID number, a schema name, a schema number, and a schema description.

Further, the comprehensive monitoring system for forming a mode sequential control card model and storing the mode sequential control card model in a control center by selecting from the subordinate modes of the subsystem mode group model according to the target mode to be issued by each station includes:

selecting stations according to a target mode to be issued by each station by adopting an online browsing tool;

selecting a subsystem mode group model under the station;

selecting a target mode from the modes under the subsystem mode group model;

and selecting the next station until all target modes to be issued by all stations are selected, forming a mode sequential control card model and storing the mode sequential control card model in the comprehensive monitoring system of the control center.

Further, the information contained in the mode compliance card model includes: the system comprises a station name, a subsystem name, a target mode alias, a target mode value, a current mode alias, a working condition, a current execution result and a current mode input state;

the alias/current mode of the target mode is a mode in the subsystem mode group model corresponding to the target mode/current mode;

the target mode value is an actual control value which needs to be issued by the comprehensive monitoring system;

the working condition, the current execution result and the current mode input state are obtained from information contained in the currently executed subsystem mode group model.

Further, the method also comprises the following steps:

and receiving target mode execution information uploaded by the comprehensive monitoring system of each station.

In another aspect, the present invention provides a mode sequence control apparatus based on an integrated monitoring system, including:

the construction module is used for selecting from the subordinate modes of the subsystem mode group model according to a target mode to be issued by each station to form a mode sequential control card model and storing the mode sequential control card model in a comprehensive monitoring system of a control center;

and the number of the first and second groups,

and the issuing module is used for issuing a command of the execution mode sequential control card model to the comprehensive monitoring system of the control center.

The invention has the beneficial effects that:

the invention designs a mode sequence control card model, realizes the rapid mode control of the whole line station, and increases the universality and the flexibility of the mode sequence control;

the invention designs the subsystem mode group model, facilitates the editing of the mode sequential control card by an online tool, and increases the practicability of the system.

Drawings

FIG. 1 is a flow chart of a mode control method based on an integrated monitoring system according to the present invention;

FIG. 2 is a flow diagram of mode control data of the present invention.

Detailed Description

The present invention will be better understood and implemented by those skilled in the art by the following detailed description of the technical solution of the present invention with reference to the accompanying drawings and specific examples, which are not intended to limit the present invention.

Referring to fig. 1, in one aspect, the present invention provides a mode sequential control method based on an integrated monitoring system, including:

selecting a target mode to be issued by each station from the modes under the subsystem mode group model to form a mode sequence control card model and storing the mode sequence control card model in a comprehensive monitoring system of a control center;

and issuing a command of the execution mode sequential control card model to a comprehensive monitoring system of the control center.

It should be noted that, in the embodiment of the present invention, a comprehensive monitoring system is provided on both the server of the control center and the servers of each station;

the comprehensive monitoring system of the control center is used for receiving commands of the control center, issuing the commands to the comprehensive monitoring system of each station and receiving execution results uploaded by the comprehensive monitoring system of each station;

the comprehensive monitoring system of each station is used for sending commands issued by the comprehensive monitoring system of the control center to the corresponding subsystems and uploading the execution structures of the subsystems to the comprehensive monitoring system of the control center.

It should be noted that, each station defines the subsystem mode group model in advance,

dividing a BAS (environment and equipment monitoring system) system into subsystems according to the running relevance of each equipment under the BAS; each subsystem is configured with a subsystem name and corresponds to a subsystem mode group model.

Specifically, the subsystems comprise a large ventilation system, a small ventilation system, a tunnel ventilation system, an air-conditioning water system and the like.

Specifically, the subsystem mode group model includes an issuing mode roll name, an execution result roll name, a mode input roll name and a current mode roll name, and the issuing mode, the execution result, the mode input and the current mode information corresponding to the subsystem mode can be known through the subsystem mode group model.

The name of the issued mode point is the name of the issued mode point; the issuing mode measuring point is an analog quantity output point and is used for issuing a mode;

the execution result point name is the name of a measuring point corresponding to the execution result of the mode after the mode is issued; the execution result measuring point is an analog quantity input point and is used for returning to the measuring point corresponding to the result of the mode execution;

the mode input point name is a name corresponding to the mode input point; the mode input measuring point is a switching value input measuring point and is used for indicating whether the current mode is input or not;

the current mode point name is a name corresponding to the current mode measuring point; the current mode measurement point is an analog quantity input point, and represents a measurement point currently executed.

Specifically, the subsystem mode group model defines included modes in advance, and each subsystem mode group model may include a plurality of modes.

The modes comprise a zero clearing state, a night off state, a small fresh air conditioning system, a full fresh air conditioning system, a ventilation season, a heat extraction working condition, a heat extraction energy-saving working condition and the like.

Each mode contains information including: a schema ID number, a schema name, a schema number, and a schema description.

The comprehensive monitoring system in the embodiment of the invention selects from the modes under the subsystem mode group model according to the target mode to be issued by each station to form the mode sequence control card model and stores the mode sequence control card model in the control center, and comprises:

the method comprises the steps of adopting an online browsing tool, defining target modes to be issued for each station, firstly selecting the station, then selecting a subsystem mode group model under the station, then selecting the target modes required under the subsystem mode group model, then selecting the next station until all the target modes to be issued are selected, completing the definition of a mode sequential control card, forming a mode sequential control card model, and storing the mode sequential control card model in a comprehensive monitoring system of a control center.

Specifically, the mode sequential control card model comprises a station name, a subsystem name, a target mode alias, a target mode value, a current mode alias, a working condition, a current execution result and a current mode input state.

The mode alias is in one-to-one correspondence with the mode name, and is a complement to the mode name and represents a specific mode thereof. For example, the mode name is "D0" and the mode name is "clear state".

The target mode value is an actual control value that the system needs to issue, for example, the target mode value 199 corresponds to the mode name "D0".

And acquiring the alias, the working condition, the current execution result and the current mode input state of the current mode from the currently input subsystem mode group model.

It should be noted that the target mode is selected from one of the modes included in the subsystem mode group model.

It should be noted that the online browsing tool in the embodiment of the present invention adopts an existing mature online browsing tool.

As shown in fig. 2, the mode sequence control card model is defined on a Human Machine Interface (HMI) of the control center, a target mode to be issued is defined for each station, a station is selected first, a subsystem group under the station is selected, a target mode required under the subsystem group is selected, after the above steps, the mode sequence control card definition is completed, and the target mode is stored in a comprehensive monitoring system arranged on a control center server.

An operator issues a mode sequential control card on an HMI of the control center, a control command is issued to the upper surface of a comprehensive monitoring system of the control center, a sequential control service process of the comprehensive monitoring system of the control center can comb the control command, then the target mode control command of each station is issued to the comprehensive monitoring system of the corresponding station, the comprehensive monitoring system of the station receives the command issued by the control center and then sends the command to the corresponding subsystem, the subsystem executes the corresponding mode, and returns the execution information to the comprehensive monitoring system of the station, and the comprehensive monitoring system of the station returns the mode execution information to the comprehensive monitoring system of the control center, through the process, the specific result information of the mode execution, including the target mode number, the current mode number, the working condition and the mode execution state, can be checked through the HMI of the control center.

The execution states of the modes include: stop, start, fail and succeed.

On the other hand, an embodiment of the present invention further provides a mode sequential control device based on an integrated monitoring system, including:

the construction module is used for selecting from the subordinate modes of the subsystem mode group model according to a target mode to be issued by each station to form a mode sequential control card model and storing the mode sequential control card model in a comprehensive monitoring system of a control center;

and the number of the first and second groups,

and the issuing module is used for issuing a command of the execution mode sequential control card model to the comprehensive monitoring system of the control center.

It is to be noted that the apparatus embodiment corresponds to the method embodiment, and the implementation manners of the method embodiment are all applicable to the apparatus embodiment and can achieve the same or similar technical effects, so that the details are not described herein.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (10)

1. A mode sequential control method based on an integrated monitoring system is characterized by comprising the following steps:

selecting a target mode to be issued by each station from the modes under the subsystem mode group model to form a mode sequence control card model and storing the mode sequence control card model in a comprehensive monitoring system of a control center;

and issuing a command of the execution mode sequential control card model to a comprehensive monitoring system of the control center.

2. The integrated monitoring system-based mode sequence control method according to claim 1, further comprising,

according to the correlation between the station environment and the operation of equipment in the equipment monitoring system, the station environment and the equipment monitoring system are divided into a plurality of subsystems, each subsystem corresponds to one subsystem mode group model, and each subsystem mode group model comprises a plurality of modes.

3. The mode sequence control method based on the comprehensive monitoring system as claimed in claim 2, wherein the dividing of the station environment and the equipment monitoring system into a plurality of subsystems comprises: the system comprises a large ventilation system, a small ventilation system, a tunnel ventilation system and an air-conditioning water system.

4. The integrated monitoring system-based mode sequence control method according to claim 2, wherein the subsystem mode group model comprises information including: issuing a mode roll call, executing a result roll call, a mode input roll call and a current mode roll call;

the name of the issued mode point is the name of the issued mode point; the issuing mode measuring point is an analog quantity output point and is used for issuing a mode;

the execution result point name is the name of a measuring point corresponding to the execution result of the mode after the mode is issued; the execution result point is an analog quantity input point and is used for representing a measuring point corresponding to the result of the mode execution;

the mode input point name is a name corresponding to the mode input point; the mode input measuring point is a switching value input measuring point and is used for indicating whether the current mode is input or not;

the current mode point name is a name corresponding to the current mode measuring point; the current mode measurement point is an analog quantity input point, and represents a measurement point currently executed.

5. The integrated monitoring system-based mode sequence control method according to claim 2, wherein each subsystem mode group model comprises modes comprising:

the system comprises a zero clearing state, a night outage state, a small fresh air conditioning system, a full fresh air conditioning system, a ventilation season, a heat extraction working condition and a heat extraction energy-saving working condition.

6. The integrated monitoring system-based pattern sequence control method according to claim 5, wherein each pattern comprises information including: a schema ID number, a schema name, a schema number, and a schema description.

7. The mode sequence control method based on the comprehensive monitoring system according to claim 1, wherein the comprehensive monitoring system which selects the target mode to be issued according to each station from the subordinate modes of the subsystem mode group model to form the mode sequence control card model and stores the mode sequence control card model in the control center comprises:

selecting stations according to a target mode to be issued by each station by adopting an online browsing tool;

selecting a subsystem mode group model under the station;

selecting a target mode from the modes under the subsystem mode group model;

and selecting the next station until all target modes to be issued by all stations are selected, forming a mode sequential control card model and storing the mode sequential control card model in the comprehensive monitoring system of the control center.

8. The mode sequence control method based on the integrated monitoring system as claimed in claim 7, wherein the information contained in the mode sequence control card model comprises: the system comprises a station name, a subsystem name, a target mode alias, a target mode value, a current mode alias, a working condition, a current execution result and a current mode input state;

the target mode alias/current mode alias adopts a mode in a subsystem mode group model corresponding to the target mode/current mode;

the target mode value is an actual control value which needs to be issued by the comprehensive monitoring system;

the working condition, the current execution result and the current mode input state are obtained from information contained in the currently executed subsystem mode group model.

9. The mode sequence control method based on the integrated monitoring system according to claim 1, characterized by further comprising:

and receiving target mode execution information uploaded by the comprehensive monitoring system of each station.

10. A mode sequential control device based on an integrated monitoring system is characterized by comprising:

the construction module is used for selecting from the subordinate modes of the subsystem mode group model according to a target mode to be issued by each station to form a mode sequential control card model and storing the mode sequential control card model in a comprehensive monitoring system of a control center;

and the number of the first and second groups,

and the issuing module is used for issuing a command of the execution mode sequential control card model to the comprehensive monitoring system of the control center.

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