CN111599146A - Method and device for linkage of fire alarm, illumination and monitoring system of railway station - Google Patents

Abstract

The invention relates to a method for linkage of a fire alarm, illumination and monitoring system of a railway station, which comprises the following specific steps: step S1: the fire automatic alarm system collects the alarm information, processes the normal lighting power supply and sends the processing result and the alarm information to the station equipment monitoring system; step S2: the station equipment monitoring system issues warning information to a human-computer interface of the monitoring system and the operation and maintenance personnel mobile terminal for judgment, and if the normal lighting power supply is not cut off, the operation and maintenance personnel mobile terminal goes to S3; if so, go to S4; step S3: the station equipment monitoring system issues prompt information to a human-computer interface of the monitoring system and the operation and maintenance personnel mobile terminal; step S4: the station equipment monitoring system judges whether a set threshold value is exceeded or not, and if the set threshold value is exceeded, the cut-off state is maintained; if not, the restarting information is sent to the lighting system, and the normal lighting power supply is restarted. Compared with the prior art, the fire disaster evacuation alarm system has the advantages of improving the comprehensiveness of fire disaster alarm information processing, ensuring the safety of fire disaster evacuation and the like.

Description

Method and device for linkage of fire alarm, illumination and monitoring system of railway station

Technical Field

The invention relates to the technical field of railway station equipment, in particular to a method and a device for linkage of a railway station fire alarm system, an illumination system and a monitoring system.

Background

Automatic fire alarm systems have been widely established in railway stations, and station equipment monitoring systems have also been widely established in railway stations, particularly in railway passenger stations.

After the fire is confirmed, whether the automatic fire alarm system should cut off the non-fire-fighting power supply of the fire area and the related area, especially the normal lighting power supply, is determined according to the actual situation, and the design difference among various areas and various design houses is large. As long as it can be confirmed that a fire does not occur in the power supply line, the power supply, particularly the normal lighting power supply, may not be turned off first. If the normal illumination is in the lighting state in the fire disaster, the normal illumination is kept, and the illumination of the normal illumination is higher, so that people can be evacuated. The normal lighting can not cause electric shock accidents and secondary disasters as long as the normal lighting is cut off before the water system acts.

In practice, whether or not the automatic fire alarm system has shut off the normal lighting power after the fire is confirmed is not consistent for each station. At this time, the problem of "should be turned on and not turned off" and "should be turned off" of the normal lighting power supply is very likely to occur only by manual judgment processing.

Disclosure of Invention

The invention aims to overcome the defect that a corresponding scheme is wrong due to the fact that a normal lighting power supply only judges and processes manually in a fire disaster in the prior art, and provides a method and a device for linkage of a railway station fire alarm system, a lighting system and a monitoring system.

The purpose of the invention can be realized by the following technical scheme:

a method for linkage of fire alarm, illumination and monitoring system of railway station comprises an automatic fire alarm system, a station equipment monitoring system and an illumination system, and comprises the following steps:

step S1: the fire automatic alarm system collects the alarm information, processes the normal lighting power supply of the lighting system and sends the processing result and the alarm information to the station equipment monitoring system;

step S2: the station equipment monitoring system issues the alarm information to a human-computer interface of the monitoring system and a mobile terminal of operation and maintenance personnel, judges a processing result, and if the normal lighting power supply is not cut off, goes to step S3; if the normal lighting power is in the cut-off state, go to step S4;

step S3: the station equipment monitoring system issues prompt information to a human-computer interface of the monitoring system and a mobile terminal of operation and maintenance personnel;

step S4: the station equipment monitoring system judges whether the alarm information exceeds a fire set threshold, and if the alarm information exceeds the fire set threshold, the normal lighting power supply is kept in a cut-off state; and if the fire disaster setting threshold value is not exceeded, the station equipment monitoring system sends restarting information to the lighting system, and the lighting system turns on the normal lighting power supply again according to the restarting information.

Preferably, the alert information includes range information and people stream information of a fire occurrence point.

The mobile terminal comprises a computer and a mobile phone.

The issuing mode of the warning information comprises voice broadcasting and light flashing on a human-computer interface of the monitoring system.

Preferably, the issuing mode of the alarm information further includes displaying the alarm information on a mobile terminal of the operation and maintenance personnel.

The fire set threshold comprises a range threshold and a people flow threshold.

The prompt information comprises the starting time of the water system of the railway station and prompts an operator to turn off the normal lighting power supply before the water system is started according to the prompt information.

An apparatus for using the method of the railway station fire alarm, lighting and monitoring system linkage, the apparatus comprising a memory and a processor, the memory including an automatic fire alarm portion and a lighting portion, the processor including a station equipment monitoring portion, the method being stored in the memory in the form of a computer program and executed by the processor to implement the following steps when executed:

step S1: the fire automatic alarm part collects alarm information, processes a normal lighting power supply of the lighting part and sends a processing result and the alarm information to the station equipment monitoring part;

step S2: the station equipment monitoring part issues the alarm information to a human-computer interface of a monitoring system and a mobile terminal of operation and maintenance personnel, judges a processing result, and if the normal lighting power supply is not cut off, goes to step S3; if the normal lighting power is in the cut-off state, go to step S4;

step S3: the station equipment monitoring part issues prompt information to the monitoring system human-computer interface and the operation and maintenance personnel mobile terminal;

step S4: the station equipment monitoring part judges whether the alarm information exceeds a fire set threshold value or not, and if the alarm information exceeds the fire set threshold value, the normal lighting power supply is kept in a cut-off state; and if the fire set threshold value is not exceeded, the station equipment monitoring part sends restarting information to the illumination part, and the illumination part turns on the normal illumination power supply again according to the restarting information.

Compared with the prior art, the invention judges the alarm information collected by the fire automatic alarm system and the processing result of the normal lighting power supply of the lighting system through the station equipment monitoring system, refines the corresponding scheme when the normal lighting power supply is in the non-cut-off state and the cut-off state, and judges whether to keep the normal lighting power supply disconnected or restarted by integrating the fire setting threshold value and the real-time alarm information, thereby improving the comprehensiveness of fire alarm information processing, ensuring the safety of fire evacuation and avoiding electric shock accidents and secondary disasters caused by improper normal lighting power supply processing.

Drawings

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

FIG. 2 is a schematic view of the apparatus of the present invention.

Reference numerals:

201-automatic fire alarm part; 202-station equipment monitoring department; 203-illumination part.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1, a method for linkage of a fire alarm, illumination and monitoring system of a railway station comprises an automatic fire alarm system, a station equipment monitoring system and an illumination system, and comprises the following specific steps:

step S1: the fire automatic alarm system collects the alarm information, processes the normal lighting power supply of the lighting system and sends the processing result and the alarm information to the station equipment monitoring system;

step S2: the station equipment monitoring system issues warning information to a human-computer interface of the monitoring system and the operation and maintenance personnel mobile terminal, the processing result is judged, and if the normal lighting power supply is not cut off, the step S3 is carried out; if the normal lighting power is in the cut-off state, go to step S4;

step S3: the station equipment monitoring system issues prompt information to a human-computer interface of the monitoring system and the operation and maintenance personnel mobile terminal;

step S4: the station equipment monitoring system judges whether the alarm information exceeds a fire set threshold, and if the alarm information exceeds the fire set threshold, the normal lighting power supply is kept in a cut-off state; if the fire disaster setting threshold value is not exceeded, the station equipment monitoring system sends restarting information to the lighting system, and the lighting system turns on the normal lighting power supply again according to the restarting information so as to facilitate people evacuation.

The alert information includes range information and people stream information of a fire occurrence point.

The mobile terminal comprises a computer and a mobile phone.

The issuing mode of the warning information comprises voice broadcasting and light flashing on a human-computer interface of the monitoring system.

The issuing mode of the alarm information also comprises the step of displaying the alarm information on the mobile terminal of the operation and maintenance personnel.

The fire setting threshold value comprises a range threshold value and a people flow threshold value.

The prompt message comprises the starting time of the water system of the railway station and prompts an operator to turn off the normal lighting power supply before the water system is started according to the prompt message.

As shown in fig. 2, an apparatus using a method for linkage of a railway station fire alarm, lighting and monitoring system includes a memory including an automatic fire alarm part 201 and a lighting part 203, and a processor including a station equipment monitoring part 202, and the method is stored in the memory in the form of a computer program, and when executed by the processor, implements the following steps:

step S1: the automatic fire alarm part 201 collects alarm information, processes the normal lighting power supply of the lighting part 203, and sends the processing result and the alarm information to the station equipment monitoring part 202;

step S2: the station equipment monitoring part 202 issues warning information to the human-computer interface of the monitoring system and the operation and maintenance personnel mobile terminal, judges the processing result, and if the normal lighting power supply is not cut off, goes to step S3; if the normal lighting power is in the cut-off state, go to step S4;

step S3: the station equipment monitoring part 202 issues prompt information to a human-computer interface of the monitoring system and a mobile terminal of operation and maintenance personnel;

step S4: the station equipment monitoring part 202 judges whether the alarm information exceeds a fire set threshold, and if the alarm information exceeds the fire set threshold, the normal lighting power supply is kept in a cut-off state; if the fire set threshold is not exceeded, the station equipment monitoring part 202 sends restart information to the illumination part 203, and the illumination part 203 turns on the normal illumination power supply again according to the restart information so as to evacuate people.

In addition, it should be noted that the specific embodiments described in the present specification may have different names, and the above descriptions in the present specification are only illustrations of the structures of the present invention. Minor or simple variations in the structure, features and principles of the present invention are included within the scope of the present invention. Various modifications or additions may be made to the described embodiments or methods may be similarly employed by those skilled in the art without departing from the scope of the invention as defined in the appending claims.

Claims (8)

1. A method for linkage of fire alarm, illumination and monitoring system of railway station is characterized by comprising an automatic fire alarm system, a station equipment monitoring system and an illumination system, and comprises the following steps:

step S1: the fire automatic alarm system collects the alarm information, processes the normal lighting power supply of the lighting system and sends the processing result and the alarm information to the station equipment monitoring system;

step S2: the station equipment monitoring system issues the alarm information to a human-computer interface of the monitoring system and a mobile terminal of operation and maintenance personnel, judges a processing result, and if the normal lighting power supply is not cut off, goes to step S3; if the normal lighting power is in the cut-off state, go to step S4;

step S3: the station equipment monitoring system issues prompt information to a human-computer interface of the monitoring system and a mobile terminal of operation and maintenance personnel;

step S4: the station equipment monitoring system judges whether the alarm information exceeds a fire set threshold, and if the alarm information exceeds the fire set threshold, the normal lighting power supply is kept in a cut-off state; and if the fire disaster setting threshold value is not exceeded, the station equipment monitoring system sends restarting information to the lighting system, and the lighting system turns on the normal lighting power supply again according to the restarting information.

2. The method for linkage of fire alarm, lighting and monitoring system at railway station as claimed in claim 1, wherein the alarm information comprises range information and people stream information of fire occurrence point.

3. The method for linkage of fire alarm, lighting and monitoring system at railway station as claimed in claim 1, wherein the mobile terminal comprises a computer and a mobile phone.

4. The method for linkage of fire alarm, lighting and monitoring system at railway station as claimed in claim 1, wherein the issuing manner of the alarm information comprises voice broadcasting and light flashing at the man-machine interface of the monitoring system.

5. The method for linkage of fire alarm, lighting and monitoring system at railway station as claimed in claim 4, wherein the issuing of the alarm information further comprises displaying the alarm information on a mobile terminal of an operation and maintenance person.

6. The method for linkage of fire alarm, lighting and monitoring system at railway station as claimed in claim 1, wherein the fire setting threshold comprises a range threshold and a people flow threshold.

7. The method for linkage of fire alarm, lighting and monitoring system at railway station as claimed in claim 1, wherein the prompt message includes the start time of the water system at railway station, and prompts the operator to turn off the normal lighting power supply before the water system is started according to the prompt message.

8. An apparatus using the method for linkage of fire alarm, lighting and monitoring system for railway station as claimed in any one of claims 1-7, characterized in that the apparatus comprises a memory and a processor, the memory comprises a fire automatic alarm part (201) and a lighting part (203), the processor comprises a station equipment monitoring part (202), the method is stored in the memory in the form of a computer program, and the method is executed by the processor, and the following steps are realized when the method is executed:

step S1: the automatic fire alarm part (201) collects alarm information, processes a normal lighting power supply of the illumination part (203), and sends a processing result and the alarm information to the station equipment monitoring part (202);

step S2: the station equipment monitoring part (202) issues the alarm information to a human-computer interface of a monitoring system and a mobile terminal of operation and maintenance personnel, judges a processing result, and if the normal lighting power supply is not cut off, goes to step S3; if the normal lighting power is in the cut-off state, go to step S4;

step S3: the station equipment monitoring part (202) issues prompt information to the monitoring system human-computer interface and the operation and maintenance personnel mobile terminal;

step S4: the station equipment monitoring part (202) judges whether the alarm information exceeds a fire set threshold value, and if the alarm information exceeds the fire set threshold value, the normal lighting power supply is kept in a cut-off state; if the fire set threshold value is not exceeded, the station equipment monitoring part (202) sends restarting information to the lighting part (203), and the lighting part (203) turns on the normal lighting power supply again according to the restarting information.

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