阅读说明：本技术 一种应用于集装箱内的消防监控系统设计方法 (Design method of fire-fighting monitoring system applied to container ) 是由 高娟 于 2021-08-24 设计创作，主要内容包括：本发明涉及一种应用于集装箱内的消防监控系统设计方法,属于集装箱消防领域。本发明基于硬件特性和功能按键设计系统显示界面,综合显示设备状态和流程信息,对操作之间关系进行约束；针对消防设备的特点设计灭火流程,基于策略设计三种不同灭火方式。以故障灯、火警灯、灭火操作信号灯为主体,根据操作结果按照约定的策略进行不同方式显示设计。联动集装箱内的配电、门禁和故障管理模块实现智能化设计,有效保障集装箱内的正常运行。(The invention relates to a design method of a fire protection monitoring system applied to a container, and belongs to the field of container fire protection. The invention designs a system display interface based on hardware characteristics and functional keys, comprehensively displays equipment state and flow information, and restrains the relation between operations; the fire extinguishing process is designed according to the characteristics of fire fighting equipment, and three different fire extinguishing modes are designed based on strategies. The fault lamp, the fire alarm lamp and the fire extinguishing operation signal lamp are used as main bodies, and different display designs are carried out according to operation results and according to an agreed strategy. The intelligent design is realized to distribution, entrance guard and fault management module in the linkage container, effectively ensures the normal operating in the container.)

1. A design method of a fire-fighting monitoring system applied in a container is characterized by comprising the design of a monitoring system interface, the design of a fire-fighting function, the design of a signal lamp, the design of a main process function and the design of a linkage function in the container,

designing a monitoring system interface:

the interface displays fire-fighting state information, a fault indicator light, a fire alarm indicator light, a fire extinguishing indicator light, a silencing button, a reset button, a primary releasing button, a secondary releasing button, an emergency releasing button, a working mode and a container pressure value are arranged, and a constraint relation is arranged among button operations;

the fire-fighting function design:

after the fire fighting system is started, acquiring state information of fire fighting equipment at a fixed frequency, carrying out corresponding indicator lamp flashing display on a main interface, and carrying out silencing operation on an alarm signal and a fault signal of the fire fighting equipment;

the user sets for fire-fighting equipment mode and the type of putting out a fire and starts electric fire extinguishing, and the system begins to get into the flow of putting out a fire, supports three kinds of modes of putting out a fire: one-time application, emergency application and secondary application;

signal lamp design:

setting display rules of a fault indicator light, a fire alarm indicator light and a fire extinguishing indicator light;

designing main flow functions:

carrying out message response according to a button of a user on an interface, receiving message feedback of the fire fighting equipment and displaying the message feedback on a user operation interface;

the linkage function design in the container:

the fire fighting system automatically records fault information according to the fire information and simultaneously carries out intelligent control on the linkage access control system and the power distribution system.

2. A method as recited in claim 1, wherein said setting a constraint relationship between button operations comprises: the default state of the secondary release button is not enabled, and the secondary release button can be enabled only after the user clicks the primary release button; after a user clicks the release button once, the countdown is displayed on the interface for 15 seconds, the user is allowed to click the reset button within 15 seconds to interrupt the fire extinguishing process, and the reset button is forbidden after the countdown is finished; after the dispensing is finished, the reset button is enabled, and during any one dispensing process, the other two dispensing buttons are disabled.

3. A fire monitoring system design method applied in a container as recited in claim 1, wherein the setting of the display rules of the fault indicator light, the fire alarm indicator light and the fire extinguishing indicator light specifically comprises:

the fault signal display rule is as follows: the color is changed into yellow and flickers, the fault indicator lamp is turned on or off after the noise is reduced, and the existence of the fault is indicated by long lighting; the failure disappears to be indicated as extinguished;

the fire alarm signal display rule is as follows: red flashing, and long-shining after silencing until the fire disappears and goes out;

the fire extinguishing signal display rule is as follows: after one-time application, starting a lamp to flash red after one-time application, and after 15 seconds of delay, turning on the lamp for a long time until the reset is turned off; after emergency discharge, starting the lamp to be red and long-lighted until reset after one discharge; after the second discharge, the lamp is turned on red for a long time until the lamp is reset.

4. A fire monitoring system design method as recited in claim 1 applied inside a container, wherein the fault indicator lights comprise a class I electrical start fault, a class I container fault, a class II electrical start fault, a class II container fault, an operational fault, a class I smoke detector fault, a class II smoke detector fault and an alarm in the monitoring system interface;

the fire alarm indicator lamp comprises an alarm of a class I smoke detector and an alarm of a class II smoke detector;

the operation button and the status lamp comprise a silencing button and a status lamp, a reset button and a status lamp, a primary releasing button and a status lamp, a secondary releasing button and a status lamp, and an emergency releasing button and a status lamp;

the working mode comprises testing and running, and the testing state does not release fire extinguishing gas;

the vessel pressure includes a class I vessel pressure value and a class II vessel pressure value.

5. A fire monitoring system design method applied in a container as recited in claim 1, wherein the fire alarm signal is processed preferentially when the fire alarm signal and the failure signal occur simultaneously.

6. A fire monitoring system design method applied in a container as claimed in any one of claims 1-5, wherein the user sets the fire fighting equipment operation mode and fire fighting type and starts the electric fire fighting, and the system starts the fire fighting process specifically comprising:

when the fire-fighting equipment state shows a fire alarm signal, a user operates a fire-fighting control interface to implement electric starting fire prevention and extinguishing, and the fire extinguishing mode comprises primary discharge, emergency discharge and secondary discharge;

when fire is needed to be extinguished, a user can put out the fire by 'one-time release', the time delay is required from starting to extinguishing the fire for 15s, and the user can interrupt the fire extinguishing process through the resetting operation within the time delay;

if the fire still exists in the monitoring area after the first fire extinguishing, the user needs to perform the 'secondary discharge' in real time, and the system immediately executes the secondary fire extinguishing program;

if the fire is needed to be immediately extinguished in an emergency, an 'emergency release' mode is needed; the three fire extinguishing discharge modes can not be implemented simultaneously, and the 'secondary discharge' is forbidden when the 'primary discharge' is not adopted.

7. A fire monitoring system design method applied in a container as recited in any of claims 1-5, wherein the main process function design specifically comprises:

setting a user interface button style;

resetting a numerical label page and setting a default value;

resetting the error prompt label, and marking the error prompt label with a red font when warning information exists;

the flag set resetFlag represents the fault resetting of the smoke feeling 1 and the smoke feeling 2, and the fault resetting of the electric starting 1 and the electric starting 2;

using a mark group ErasureFlag to indicate that the electric starting is 1, the electric starting is 2, the container is failed 1, the container is failed 2, the operation is failed, the smoke feeling is 1, the smoke feeling is 2, the alarm is given, and the smoke feeling is 1, the smoke feeling is 2, the fault is silenced;

using different marks to represent various key operation enables;

setting a timer to display various signal lamps on an interface, and setting the state of each container: judging the normal, alarm, fault and noise reduction marks at the same time, and displaying different colors on the signal lamp according to the judgment result;

setting a timer to carry out flicker processing on various signal lamps of the interface, and respectively displaying three states of flicker, long on and off according to the states;

creating a network external character, receiving state information of the fire fighting equipment, performing the next step if the creation fails, and performing protocol analysis on the information if the creation succeeds;

and timing for 20 seconds, and performing socket connection again after the 20 seconds are ended.

8. A method as claimed in claim 7, wherein the step of creating a network suite, receiving status information of the fire fighting equipment, and if the creation fails, proceeding to the next step, and if the creation succeeds, performing protocol analysis on the information specifically includes:

reading the value, alarm source, alarm information and alarm type of a pressure sensor of the fire fighting equipment, and carrying out related display on a container and a status signal lamp corresponding to an interface;

judging the working state of the fire fighting equipment, and respectively displaying the working state or the testing state on an interface;

judging the result of the silencing operation and displaying the result on an interface by combining the operation mark;

judging the reset operation state result, and setting the reset mark of the corresponding button according to the result;

the reset operation mark and the 90-second countdown are jointly judged, and the emergency reset and secondary reset results are displayed;

judging the operation result of one-time application, and starting 15-second countdown according to the result;

judging the reset operation applied once within the 15 second countdown, and setting a corresponding mark if the reset operation is performed;

judging the operation result of the emergency release, starting a 90-second countdown according to the result, and setting an interface related button and a label;

and judging the result of the secondary application operation, starting a 90-second countdown according to the result, and setting a decoding related button and a label.

9. A fire monitoring system design method applied in a container as recited in claim 7, wherein the design of linkage function in the container specifically comprises:

the fire-fighting system receives the fire alarm signal, sends the signal to an access control module in the container, and opens the door of the remote machine cabinet so as to better control the fire;

sending a signal to a power distribution monitoring module, performing main power supply outage operation, and cutting off the power supply of each running device so as to protect other devices in the container;

the fire-fighting monitoring system acquires equipment fault information, and records faults by using database operation in the fault management module so that a user can inquire historical records, and data analysis and equipment maintenance are performed.

10. A fire monitoring system design method applied in a container as claimed in claim 1, characterized in that the fire monitoring system is developed based on QT in linux system.

Technical Field

The invention belongs to the field of container fire protection, and particularly relates to a design method of a fire protection monitoring system applied to a container.

Background

The fire fighting system is used for overall management of fire alarm safety of the place, plays an important role in normal working operation of the place, only hardware indicator lamps are used for state display in the traditional fire fighting system, and only simple video monitoring and smoke control design are carried out on scene equipment; the fire extinguishing system in the traditional container does not carry out linkage regulation and control and visual management based on environmental equipment in the container.

In order to solve the problem of fire control monitoring in a container, a strategy-based fire control monitoring system design method is provided.

Disclosure of Invention

Technical problem to be solved

The invention aims to solve the technical problem of how to provide a design method of a fire protection monitoring system applied in a container so as to solve the monitoring problem of the fire protection system in the container.

(II) technical scheme

In order to solve the technical problems, the invention provides a design method of a fire-fighting monitoring system applied in a container, which comprises the steps of monitoring system interface design, fire-fighting function design, signal lamp design, main process function design and linkage function design in the container,

designing a monitoring system interface:

the interface displays fire-fighting state information, a fault indicator light, a fire alarm indicator light, a fire extinguishing indicator light, a silencing button, a reset button, a primary releasing button, a secondary releasing button, an emergency releasing button, a working mode and a container pressure value are arranged, and a constraint relation is arranged among button operations;

the fire-fighting function design:

after the fire fighting system is started, acquiring state information of fire fighting equipment at a fixed frequency, carrying out corresponding indicator lamp flashing display on a main interface, and carrying out silencing operation on an alarm signal and a fault signal of the fire fighting equipment;

the user sets for fire-fighting equipment mode and the type of putting out a fire and starts electric fire extinguishing, and the system begins to get into the flow of putting out a fire, supports three kinds of modes of putting out a fire: one-time application, emergency application and secondary application;

signal lamp design:

setting display rules of a fault indicator light, a fire alarm indicator light and a fire extinguishing indicator light;

designing main flow functions:

carrying out message response according to a button of a user on an interface, receiving message feedback of the fire fighting equipment and displaying the message feedback on a user operation interface;

the linkage function design in the container:

the fire fighting system automatically records fault information according to the fire information and simultaneously carries out intelligent control on the linkage access control system and the power distribution system.

Further, the setting of the constraint relationship among the button operations specifically includes: the default state of the secondary release button is not enabled, and the secondary release button can be enabled only after the user clicks the primary release button; after a user clicks the release button once, the countdown is displayed on the interface for 15 seconds, the user is allowed to click the reset button within 15 seconds to interrupt the fire extinguishing process, and the reset button is forbidden after the countdown is finished; after the dispensing is finished, the reset button is enabled, and during any one dispensing process, the other two dispensing buttons are disabled.

Further, setting the display rules of the fault indicator light, the fire alarm indicator light and the fire extinguishing indicator light specifically comprises:

the fault signal display rule is as follows: the color is changed into yellow and flickers, the fault indicator lamp is turned on or off after the noise is reduced, and the existence of the fault is indicated by long lighting; the failure disappears to be indicated as extinguished;

the fire alarm signal display rule is as follows: red flashing, and long-shining after silencing until the fire disappears and goes out;

the fire extinguishing signal display rule is as follows: after one-time application, starting a lamp to flash red after one-time application, and after 15 seconds of delay, turning on the lamp for a long time until the reset is turned off; after emergency discharge, starting the lamp to be red and long-lighted until reset after one discharge; after the second discharge, the lamp is turned on red for a long time until the lamp is reset.

Furthermore, in the monitoring system interface, the fault indicator lamp comprises a type I electric starting fault, a type I container fault, a type II electric starting fault, a type II container fault, an operation fault, a type I smoke detector fault, a type II smoke detector fault and an alarm;

the fire alarm indicator lamp comprises an alarm of a class I smoke detector and an alarm of a class II smoke detector;

the operation button and the status lamp comprise a silencing button and a status lamp, a reset button and a status lamp, a primary releasing button and a status lamp, a secondary releasing button and a status lamp, and an emergency releasing button and a status lamp;

the working mode comprises testing and running, and the testing state does not release fire extinguishing gas;

the vessel pressure includes a class I vessel pressure value and a class II vessel pressure value.

Furthermore, when the fire alarm signal and the fault signal occur simultaneously, the fire alarm signal is processed preferentially.

Further, the user sets the fire fighting equipment working mode and the fire extinguishing type and starts the electric fire extinguishing, and the system starts to enter the fire extinguishing process and specifically comprises:

when the fire-fighting equipment state shows a fire alarm signal, a user operates a fire-fighting control interface to implement electric starting fire prevention and extinguishing, and the fire extinguishing mode comprises primary discharge, emergency discharge and secondary discharge;

when fire is needed to be extinguished, a user can put out the fire by 'one-time release', the time delay is required from starting to extinguishing the fire for 15s, and the user can interrupt the fire extinguishing process through the resetting operation within the time delay;

if the fire still exists in the monitoring area after the first fire extinguishing, the user needs to perform the 'secondary discharge' in real time, and the system immediately executes the secondary fire extinguishing program;

if the fire is needed to be immediately extinguished in an emergency, an 'emergency release' mode is needed; the three fire extinguishing discharge modes can not be implemented simultaneously, and the 'secondary discharge' is forbidden when the 'primary discharge' is not adopted.

Further, the main process function design specifically includes:

setting a user interface button style;

resetting a numerical label page and setting a default value;

resetting the error prompt label, and marking the error prompt label with a red font when warning information exists;

the flag set resetFlag represents the fault resetting of the smoke feeling 1 and the smoke feeling 2, and the fault resetting of the electric starting 1 and the electric starting 2;

using a mark group ErasureFlag to indicate that the electric starting is 1, the electric starting is 2, the container is failed 1, the container is failed 2, the operation is failed, the smoke feeling is 1, the smoke feeling is 2, the alarm is given, and the smoke feeling is 1, the smoke feeling is 2, the fault is silenced;

using different marks to represent various key operation enables;

setting a timer to display various signal lamps on an interface, and setting the state of each container: judging the normal, alarm, fault and noise reduction marks at the same time, and displaying different colors on the signal lamp according to the judgment result;

setting a timer to carry out flicker processing on various signal lamps of the interface, and respectively displaying three states of flicker, long on and off according to the states;

creating a network external character, receiving state information of the fire fighting equipment, performing the next step if the creation fails, and performing protocol analysis on the information if the creation succeeds;

and timing for 20 seconds, and performing socket connection again after the 20 seconds are ended.

Further, the creating a network external form, receiving the status information of the fire fighting equipment, performing the next step if the creating fails, and performing protocol analysis on the information if the creating succeeds specifically includes:

reading the value, alarm source, alarm information and alarm type of a pressure sensor of the fire fighting equipment, and carrying out related display on a container and a status signal lamp corresponding to an interface;

judging the working state of the fire fighting equipment, and respectively displaying the working state or the testing state on an interface;

judging the result of the silencing operation and displaying the result on an interface by combining the operation mark;

judging the reset operation state result, and setting the reset mark of the corresponding button according to the result;

the reset operation mark and the 90-second countdown are jointly judged, and the emergency reset and secondary reset results are displayed;

judging the operation result of one-time application, and starting 15-second countdown according to the result;

judging the reset operation applied once within the 15 second countdown, and setting a corresponding mark if the reset operation is performed;

judging the operation result of the emergency release, starting a 90-second countdown according to the result, and setting an interface related button and a label;

and judging the result of the secondary application operation, starting a 90-second countdown according to the result, and setting a decoding related button and a label.

Further, the linkage functional design in the container specifically includes:

the fire-fighting system receives the fire alarm signal, sends the signal to an access control module in the container, and opens the door of the remote machine cabinet so as to better control the fire;

sending a signal to a power distribution monitoring module, performing main power supply outage operation, and cutting off the power supply of each running device so as to protect other devices in the container;

the fire-fighting monitoring system acquires equipment fault information, and records faults by using database operation in the fault management module so that a user can inquire historical records, and data analysis and equipment maintenance are performed.

Further, the fire monitoring system is developed on the basis of QT in the linux system.

(III) advantageous effects

The invention provides a design method of a fire protection monitoring system applied to a container, which can realize the monitoring function of the fire protection system under a linux system in the container, and has been subjected to product operation test and inspection. The result marks, and this scheme can be monitored for fire-fighting equipment in the container, puts out a fire the operation according to smoke detector alarm information simultaneously, can simulate the flow of putting out a fire and demonstrate, and distribution and entrance guard, fault management module in the linkage container simultaneously operate, provide the guarantee for container normal operating.

Drawings

FIG. 1 is a flow diagram of the present invention for extinguishing a fire;

FIG. 2 is a design flow chart of the present invention.

Detailed Description

In order to make the objects, contents and advantages of the present invention clearer, the following detailed description of the embodiments of the present invention will be made in conjunction with the accompanying drawings and examples.

The invention belongs to the container fire fighting technology, and provides a fire fighting monitoring system based on a strategy, which is designed and realized aiming at the container application scene and the fire fighting equipment characteristics under the application scene of linux. The invention provides a visual monitoring window for the fire-fighting system, realizes the simultaneous control of software and hardware of the container fire-fighting system, monitors the state and the fault state of fire-fighting equipment in real time, and can implement fire-fighting measures according to strategies.

The invention aims to solve the monitoring problem of a fire fighting system in a container under a linux system.

In order to achieve the purpose, the invention adopts the following technical scheme.

1. Monitoring system interface design

(1) The interface displays fire-fighting state information, and is provided with a fault indicator light, a fire alarm indicator light, a fire extinguishing indicator light, a silencing button, a reset button, a primary releasing button, a secondary releasing button, an emergency releasing button, a working mode (testing and running) and a container pressure value;

(2) interface button operation constraints:

firstly, the default state of the secondary release button is not enabled, and the secondary release button can be enabled only after a user clicks the primary release button;

after the user clicks the release button once, the countdown is displayed on the interface for 15 seconds, the user is allowed to click the reset button within 15 seconds to interrupt the fire extinguishing process, and the reset button is forbidden after the countdown is finished;

and enabling the reset button after the releasing is finished. The other two dispensing buttons are disabled during any one dispensing process.

2. Design of fire-fighting function

After the fire-fighting system is started, the state information (including state information such as detector fire alarm signals and fault signals, fire extinguishing signals, power failure information and the like) of the fire-fighting equipment is collected at the frequency of 1 s/time, corresponding indicator lamps are displayed in a flashing mode on a main interface, and the silencing operation can be carried out on the alarm signals and the fault signals of the fire-fighting equipment.

The user sets the working mode and the fire extinguishing type of the equipment and starts the electric fire extinguishing, and the system starts to enter the fire extinguishing process. Three fire extinguishing modes are supported: primary application, emergency application, and secondary application.

3. Signal lamp design

And designing a fault indicator lamp, a fire alarm indicator lamp and a fire extinguishing indicator lamp according to corresponding operations of a user.

(1) The fault signal display rule is as follows: the yellow flickers, after silencing, the fault lamp (yellow) turns on or off for a long time (the fault exists, the fault is on for a long time, the fault disappears and is off);

(2) the fire alarm signal display rule is as follows: red flashing, and long-shining after silencing until the fire disappears and goes out;

(3) the fire extinguishing signal display rule is as follows: after one-time application, starting a lamp to flash red after one-time application, and after 15 seconds of delay, turning on the lamp for a long time until the reset is turned off; after emergency discharge, starting the lamp to be red and long-lighted until reset after one discharge; after the second discharge, the lamp is turned on red for a long time until the lamp is reset.

(4) When the fire alarm signal and the fault signal occur simultaneously, the fire alarm signal is processed preferentially.

4. Design of main process function

And carrying out message response according to the button of the user on the interface, and simultaneously receiving the message feedback of the fire fighting equipment and simultaneously displaying the message feedback on the user operation interface.

5. Linkage function design in container

The fire fighting system automatically records fault information according to the fire information and simultaneously carries out intelligent control on the linkage access control system and the power distribution system.

Through the steps, the monitoring function of the fire fighting system under the linux system can be realized.

In order to solve the problem of monitoring and controlling the lower fire and defense of a linux system in a container, a design method developed based on QT is adopted by combining with the graph 1. The present invention will be further described below.

1. System interface design

1) The interface displays fire-fighting state information, and a fault indicator lamp is arranged: the method comprises the following steps of I type electric starting fault, I type container fault, II type electric starting fault, II type container fault, operation fault, I type smoke detector fault, II type smoke detector fault and alarm;

2) fire alarm indicator lamp: alarm of a class I smoke detector and alarm of a class II smoke detector.

3) Operating buttons and status lights: the device comprises a silencing button and a status lamp, a reset button and a status lamp, a primary releasing button and a status lamp, a secondary releasing button and a status lamp, and an emergency releasing button and a status lamp;

4) the working mode is as follows: and (5) testing and running. The test condition does not release the fire suppressing gas. The pressure of the container: class I vessel pressure values and class II vessel pressure values.

5) Interface button operation constraints: the secondary release button default state is not enabled, only after the user clicks the release button once: not enabled to be grey and enabled to be green. After a user clicks the release button once, the interface displays countdown for 15 seconds, the user is allowed to click the reset button within 15 seconds, and the reset button is forbidden after the countdown is finished; enabling the reset button after the discharge is finished; the other two dispensing buttons are disabled during any one dispensing process.

2. Design of fire-fighting function

The fire fighting system adopts a TCP protocol to carry out network communication, receives the state information of the fire fighting equipment, the frequency is 1 s/time, and the information content comprises: a pressure value of a container pressure sensor, a state of a smoke sensor, an electric start state, a value of a pressure sensor device, an operation failure state, a working state of a fire box, a reset operation mark, a silencing operation mark, an emergency release operation mark, a secondary release operation mark, a primary release start mark, a secondary release start mark, a primary release completion mark, and a secondary release completion mark.

The user sets the running state and the fire extinguishing type of the equipment and starts the electric fire extinguishing, and the system starts to enter the fire extinguishing process. The fire extinguishing strategy is as follows:

(1) when the fire-fighting equipment state shows a fire alarm signal, a user can operate the fire-fighting control interface to implement electric starting fire prevention and extinguishing, and the fire extinguishing mode comprises one-time release, emergency release and secondary release.

(2) When fire is needed to be extinguished, a user can put out the fire by 'one-time release', the time delay is required from starting to extinguishing the fire for 15s, and the user can interrupt the fire extinguishing process through the resetting operation within the time delay;

(3) if the fire still exists in the monitoring area after the first fire extinguishing, the user needs to perform the 'secondary discharge' in real time, and the system immediately executes the secondary fire extinguishing program;

(4) if the fire is needed to be immediately extinguished in an emergency, an 'emergency release' mode is needed. The three fire extinguishing discharge modes can not be implemented simultaneously, and the 'secondary discharge' is forbidden when the 'primary discharge' is not adopted.

(5) When I electricity starts a fault or I container has a fault, the first discharge is forbidden, and the second discharge can be carried out;

(6) when I electricity starts a fault or I container has a fault, the emergency discharge is forbidden, and the secondary discharge can be carried out;

(7) II, prohibiting secondary discharge when the electric starting fails or the container II fails;

3. signal lamp display strategy design

And designing a fault lamp, a fire alarm signal lamp and a fire extinguishing operation signal lamp according to corresponding operations of a user.

(1) The fault signal display rule is as follows: the yellow flickers, after silencing, the fault lamp (yellow) turns on or off for a long time (the fault exists, the fault is on for a long time, the fault disappears and is off);

(2) the fire alarm signal display rule is as follows: red flashing, and long-shining after silencing until the fire disappears and goes out;

(3) the fire extinguishing signal display rule is as follows: after one-time application, starting a lamp to flash red after one-time application, and after 15 seconds of delay, turning on the lamp for a long time until the reset is turned off; after emergency discharge, starting the lamp to be red and long-lighted until reset after one discharge; after the second discharge, the lamp is turned on red for a long time until the lamp is reset.

4. Design of main process function

And carrying out message response according to the button of the user on the interface, and simultaneously receiving the message feedback of the fire fighting equipment and simultaneously displaying the message feedback on the user operation interface. The method comprises the following specific steps:

setting a user interface button style;

resetting the numerical label page and setting default values;

resetting the error prompt label, and marking the error prompt label with a red font when warning information exists;

indicating the fault reset of the smoke feeling 1 and the smoke feeling 2 and the fault reset of the electric starting 1 and the electric starting 2 by using a mark set resetFlag;

using a mark group ErasurreFlag to indicate that the electric starting is 1, the electric starting is 2, the container is failed 1, the container is failed 2, the operation is failed, the smoke feeling is 1, the smoke feeling is 2, the alarm is given, and the smoke feeling is 1, the smoke feeling is 2, the fault is silenced;

sixthly, using different marks to represent various key operation enables;

and seventhly, setting a timer to display various signal lamps on the interface, and regarding the state of each container: judging the normal, alarm, fault and noise reduction marks at the same time, and displaying different colors on the signal lamp according to the judgment result;

eighthly, setting a timer to flash various signal lamps on the interface, and respectively displaying three states of flashing, long-time on and off according to the states;

creating a network external part character, receiving the state information of the fire-fighting equipment, if the creation is failed, carrying out the next step, and if the creation is successful, carrying out protocol analysis on the information:

a. reading the value, alarm source, alarm information and alarm type of a pressure sensor of the fire fighting equipment, and carrying out related display on a container and a status signal lamp corresponding to an interface;

b. judging the working state of the fire fighting equipment, and respectively displaying the working state or the testing state on an interface;

c. judging the result of the silencing operation and displaying the result on an interface by combining the operation mark;

d. judging the reset operation state result, and setting the reset mark of the corresponding button according to the result;

e. the reset operation mark and the 90-second countdown are jointly judged, and the emergency reset and secondary reset results are displayed;

f. judging the operation result of one-time application, and starting 15-second countdown according to the result;

g. judging the reset operation applied once within the 15 second countdown, and setting a corresponding mark if the reset operation is performed;

h. judging the operation result of the emergency release, starting a 90-second countdown according to the result, and setting an interface related button and a label;

i. judging the result of the secondary discharge operation, starting a countdown for 90 seconds according to the result, and setting a decoding related button and a label;

timing the time of the frequency (r) in 20 seconds, and performing socket connection again after the time of 20 seconds is over;

5. realize the linkage function in the container

The fire-fighting system receives the fire alarm signal, sends the signal to an access control module in the container, and opens the door of the remote machine cabinet so as to better control the fire;

sending a signal to a power distribution monitoring module, performing main power supply outage operation, and cutting off the power supply of each running device so as to protect other devices in the container;

the fire fighting monitoring system acquires equipment fault information, and records faults by using database operation in the fault management module so that a user can inquire historical records, and data analysis and equipment maintenance are carried out;

by utilizing the technical scheme and adopting the operation steps, the monitoring function of the fire-fighting system under the linux system in the container can be realized, and the method is tested and tested by product operation. The result marks, and this scheme can be monitored for fire-fighting equipment in the container, puts out a fire the operation according to smoke detector alarm information simultaneously, can simulate the flow of putting out a fire and demonstrate, and distribution and entrance guard, fault management module in the linkage container simultaneously operate, provide the guarantee for container normal operating.

The invention provides a design method of a fire-fighting monitoring system applied in a container, which comprises the following steps that (1) the monitoring system displays an interface design, and the status, operation faults and fire-fighting process information of fire-fighting equipment can be monitored in real time according to the (1); (2) designing a fire extinguishing process, namely designing three different electric starting fire extinguishing processes based on a strategy according to the step (2); (3) signal lamp design, which realizes the working state display mode of the signal lamp based on strategy design; (4) and (3) designing a module linkage function in the container, and solving the operation problem of equipment in the container under the condition of fire alarm according to other modules in the (4) linkage container.

Further, the interface display design of the monitoring system (1) and the signal lamp design mode (3) display the working mode and the equipment state of the current fire-fighting equipment through the interface control, and meanwhile, the strategy among the fire-fighting modes is designed through the constraint relation among the keys.

Further, (3) realize the fire control design function of putting out a fire based on the tactics, through three kinds of different modes of putting out a fire (once put, two times put, promptly put) dynamic coordination, solve the fire alarm condition in the container effectively. (4) The intelligent working mode in the container is realized through the linkage access control system, the fault management module and the power distribution module, and the personnel danger and the equipment loss are reduced through remote control.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.