CN111724498A - Supervision system and supervision method for fire safety of oil field station - Google Patents

Abstract

The invention discloses a supervision system and a supervision method for fire safety of an oil field station. The system comprises a monitoring background, a handheld explosion-proof terminal and a two-dimensional code; the monitoring background is in communication connection with the handheld explosion-proof terminal; the monitoring background generates a respective two-dimensional code of each fire extinguisher; the two-dimensional code sets up on respective fire extinguisher, and the two-dimensional code has this fire extinguisher's basic information. The system can effectively monitor the polling intervals, accurately and quickly and efficiently poll, prevents the polling from not being on time, not in time, missing polling and other conditions, greatly reduces the workload, saves the energy and the cost, and ensures the fire safety. Based on the system, the staff can execute the rapid, efficient and accurate supervision method.

Description

Supervision system and supervision method for fire safety of oil field station

Technical Field

The invention relates to the field of fire safety, in particular to a supervision system and a supervision method for fire safety of an oil field station.

Background

Whether fire fighting equipment such as fire extinguishers and the like in the existing oil field stations is safe and effective has important significance for guaranteeing life and property safety of people and safe operation of production equipment. After the fire extinguisher is put into use, the performance can change along with the lapse of time, consequently will guarantee that fire-fighting equipment fire extinguisher is in safe operation cycle, guarantees simultaneously that same fire extinguisher is adjacent to patrol and examine time interval and is less than 30 days. The conventional fire extinguisher inspection mode is mainly manual inspection, the workload is huge, and effective detection and supervision measures are not provided, so that inspection personnel often cause untimely inspection of the fire extinguisher and missed inspection of the fire extinguisher, and the fire extinguisher inspection method is very important for scientifically managing and inspecting the fire extinguisher in an oil field station and ensuring the safety and effectiveness of the fire extinguisher.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to solve the technical problem of providing a supervisory system and a supervisory method for fire safety of an oil field station.

The invention provides a monitoring system for fire safety of an oil field station, which is characterized by comprising a monitoring background, a handheld explosion-proof terminal and a two-dimensional code, wherein the monitoring background is used for monitoring the fire safety of the oil field station; the monitoring background is in communication connection with the handheld explosion-proof terminal; the monitoring background generates a respective two-dimensional code of each fire extinguisher; the two-dimensional code sets up on respective fire extinguisher, and the two-dimensional code has this fire extinguisher's basic information.

The technical scheme for solving the technical problem of the method is to provide a supervision method based on the supervision system for the fire safety of the oil field station, and the supervision method is characterized by comprising the following steps:

(1) generating a respective two-dimensional code of each fire extinguisher through a monitoring background, wherein the two-dimensional code has basic information of the fire extinguisher; then, arranging the two-dimension codes on respective fire extinguishers; when the two-dimension code is set, the inspection personnel finish the first fire safety inspection of all stations of the oil field station by an on-site inspection method;

(2) after the first fire safety inspection is finished, the monitoring background acquires the inspection information of the inspection of each fire extinguisher, the next inspection time and the background color state of each fire extinguisher on the monitoring background by summarizing the conditions of the first fire safety inspection; repairing, regulating or replacing the corresponding fire extinguisher according to the polling information to ensure the safety of the fire extinguisher;

(3) before the second fire safety inspection, an operator monitors the ground color state of each fire extinguisher on the monitoring background in real time; determining the fire extinguisher which is missed to be inspected in the first fire safety inspection according to the ground color state, and completing the fire safety inspection of the corresponding fire extinguisher through a field inspection method;

(4) carrying out second fire safety inspection according to the next inspection time determined in the step 2):

firstly, an operator checks the background color states of all the existing fire extinguishers on a monitoring background and sends the basic information of the fire extinguishers needing to be inspected to a handheld explosion-proof terminal;

then, starting the second fire safety inspection of all the sites, performing the fire safety inspection by inspection personnel through a field inspection method, and simultaneously monitoring the ground color states of all the fire extinguishers and remotely monitoring the positions and the movement tracks of the inspection personnel of all the sites by an operator through a monitoring background;

when the polling personnel of a certain station think that the fire safety polling of the station is finished, the polling finishing information is sent to the monitoring background through the handheld explosion-proof terminal, and the operating personnel determines whether the station has the fire extinguisher to be polled, which is missed to be checked, by observing the ground color states of all the fire extinguishers of the station on the monitoring background; if the station has no fire extinguisher to be inspected which is missed to be inspected, the operator sends inspection confirmation completion information to the handheld explosion-proof terminal of the inspection personnel through the monitoring background to complete the fire safety inspection work of the station; if the station has the fire extinguisher to be inspected which is missed to be inspected, the operator sends the basic information of the fire extinguisher to be inspected which is missed to be inspected to the handheld explosion-proof terminal through the monitoring background, and the inspector is guided to complete the second fire safety inspection of the station through a field inspection method; repeating the process until the second fire safety inspection of all the sites is completed;

(5) after the second fire safety inspection is finished, the monitoring background acquires the inspection information of the current inspection of each fire extinguisher, the next inspection time and the ground color state of each fire extinguisher on the monitoring background by summarizing the conditions of the second fire safety inspection; repairing, regulating or replacing the corresponding fire extinguisher according to the polling information to ensure the safety of the fire extinguisher;

(6) and (5) repeating the processes of the steps 3) to 5) in the subsequent fire safety inspection, so that the fire safety of the oil field station is ensured.

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

(1) the system can effectively monitor the polling intervals, accurately and quickly and efficiently poll, prevents the polling from not being on time, not in time, missing polling and other conditions, greatly reduces the workload, saves the energy and the cost, and ensures the fire safety.

(2) The internal structure design of the handheld explosion-proof terminal can enable the inspection work to be simple, efficient and accurate. The accuracy of the routing inspection track of the routing inspection personnel is ensured through the GPS module. The state of the polling fire extinguisher is input by shooting a picture and scanning the two-dimensional code and is uploaded to the monitoring background, so that the accuracy of polling information is ensured. The starting is realized through face recognition or fingerprint recognition, and the safety of the routing inspection information of the routing inspection personnel is ensured.

(3) The handheld explosion-proof terminal is internally provided with relevant operation flow specifications, site construction management specifications and safety inspection specifications, inspection personnel can conveniently check the handheld explosion-proof terminal in real time, the inspection personnel can guide the inspection personnel to operate normally, the comprehensive technical level is improved, and the handheld explosion-proof terminal has a production and operation integrated function.

(4) The system can enhance dynamic monitoring, intelligent reminding, alarming and emergency linkage of inspection work of fire-fighting equipment in the oil field station, ensure that the fire-fighting equipment is effectively used for extinguishing fire, and can also realize functions of sharing shift information and the like.

(5) The state of the fire extinguisher can be timely mastered and monitored through the monitoring background, and the polling work of polling personnel can be accurately guided through the communication function of the handheld explosion-proof terminal.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a monitoring system according to an embodiment of the present invention;

fig. 2 is a schematic block diagram of the overall structure of a handheld explosion-proof terminal according to an embodiment of the present invention.

In the figure: 1. monitoring a background; 2. a handheld explosion-proof terminal; 3. a fire extinguisher; 4. two-dimensional codes; 21. a processor; 22. a GPS module; 23. an input module; 24. a fingerprint identification module; 25. a display module; 26. a communication module; 27. and a shooting module.

Detailed Description

Specific examples of the present invention are given below. The specific examples are only intended to illustrate the invention in further detail and do not limit the scope of protection of the claims of the present application.

The invention provides a monitoring system (a system for short, see fig. 1-2) for fire safety of an oil field station, which is characterized by comprising a monitoring background 1, a handheld explosion-proof terminal 2 and a two-dimensional code 4; the monitoring background 1 is in communication connection with the handheld explosion-proof terminal 2; the monitoring background 1 generates a two-dimensional code 4 of each fire extinguisher 3; the two-dimensional codes 4 are arranged on the fire extinguishers 3 respectively through a screen printing technology or by being adhered, and the two-dimensional codes 4 have basic information of the fire extinguishers 3; the basic information of the fire extinguisher 3 includes the geographical location, serial number, affiliation department, shelf life, type (such as dry powder fire extinguisher, foam fire extinguisher, carbon dioxide fire extinguisher, etc.) and model (such as portable dry powder fire extinguisher, portable pressure-storing dry powder fire extinguisher, cart-type dry powder fire extinguisher, etc.) of fire extinguisher setting;

the monitoring background 1 is a computer or a mobile terminal provided with relevant function software and is used for monitoring the state of the fire extinguisher 3 in real time, determining the polling time, remotely monitoring the position and the activity track of polling personnel and guiding the polling process.

The handheld explosion-proof terminal 2 comprises hardware functional modules such as a processor 21, a GPS module 22, an input module 23, a fingerprint identification module 24, a display module 25, a communication module 26, a shooting module 27 and the like; the GPS module 22, the input module 23, the fingerprint identification module 24, the display module 25, the communication module 26 and the shooting module 27 are all electrically connected with the processor 21;

the processor 21 is used for processing various types of information; the GPS module 22 is used for positioning; the input module 23 is used for inputting various information into the handheld explosion-proof terminal 2; the fingerprint identification module 24 is used for identifying the identity of the inspection personnel; the display module 25 is used for displaying various information and man-machine interaction; the communication module 26 is used for the communication connection between the handheld explosion-proof terminal 2 and the monitoring background 1; the shooting module 27 is used for identifying the identity of the patrol personnel and scanning the two-dimensional code 4;

in this embodiment, the processor 21 is a processor with a model of MT6795, and the GPS module 22 has a model of MAX-7C-0-000; the input module 23 adopts touch screen input or keyboard input; the fingerprint identification module 24 adopts a U-17C semiconductor type fingerprint identification module; 25. the display module 25 adopts an LCD320240 or SK-070FE touch display screen; the model of the communication module 26 is EC20 CEHCLG-128-SNNS; the shooting module 27 adopts a UT _ CAMERA module.

The invention also provides a supervision method (method for short) based on the supervision system for the fire safety of the oil field station, which is characterized by comprising the following steps:

(1) generating a two-dimensional code 4 of each fire extinguisher 3 through the monitoring background 1, wherein the two-dimensional code 4 has basic information of the fire extinguisher 3; then, the two-dimensional codes 4 are arranged on the fire extinguishers 3 in a silk-screen or sticking manner; when the two-dimension code 4 is set, the polling personnel complete the first fire safety polling (namely fire extinguisher polling) of all stations of the oil field station by a field polling method;

the basic information of the fire extinguisher 3 comprises the geographical position, the serial number, the affiliation department, the quality guarantee period, the type and the model of the fire extinguisher;

(2) after the first fire safety inspection is completed, the monitoring background 1 collects the conditions of the first fire safety inspection to obtain inspection information of the inspection of each fire extinguisher 3, the next inspection time and the background color state of each fire extinguisher 3 on the monitoring background 1 interface; then, according to the polling information, the corresponding fire extinguisher 3 is repaired, pressure-regulated or replaced and the like, so that the safety of the fire extinguisher 3 is ensured;

the inspection information comprises whether the fire extinguisher is in a quality guarantee period or not, whether the pressure of the fire extinguisher is in a safety range or not (namely whether the fire extinguisher is over-voltage or under-voltage or not), whether the appearance of the fire extinguisher is intact or not (determined according to a current picture of the fire extinguisher shot by the shooting module 27) and the inspection time;

(3) checking defects and mending leakage: before the second fire safety inspection, an operator supervises the ground color state of each fire extinguisher 3 on the monitoring background 1 interface in real time; determining the fire extinguisher 3 which is missed to be inspected in the first fire safety inspection according to the ground color state, and finishing the fire safety inspection of the corresponding fire extinguisher by a field inspection method;

(4) carrying out second fire safety inspection according to the next inspection time determined in the step 2):

firstly, an operator checks the background color state of all the existing fire extinguishers 3 on the interface of the monitoring background 1, and sends the basic information of the fire extinguishers 3 (namely fire extinguishers to be patrolled) needing to be patrolled to the handheld explosion-proof terminal 2;

in the handheld explosion-proof terminal 2, the fire extinguishers in the most urgent situation are arranged at the forefront end of the handheld explosion-proof terminal 2 according to the sequence of the patrol emergency situation.

Then, starting the second fire safety inspection of all the sites, performing the fire safety inspection by inspection personnel through a field inspection method, and simultaneously monitoring the ground color states of all the fire extinguishers 3 by an operating personnel through the monitoring background 1 and remotely monitoring the positions and the moving tracks of all the site inspection personnel through the GPS module 22 of the handheld explosion-proof terminal 2;

when the polling personnel of a certain station think that the fire safety polling of the station is finished, the polling finishing information is sent to the monitoring background 1 through the handheld explosion-proof terminal 2, and the operating personnel determines whether the station has the fire extinguisher 3 to be polled, which is missed to be checked, by observing the ground color state of all the fire extinguishers 3 of the station on the monitoring background 1; if the station has no fire extinguisher 3 to be patrolled and examined which is missed to be examined, the operator sends patrolling and examining confirmation completion information to the handheld explosion-proof terminal 2 of the patroller through the monitoring background 1 to complete the fire safety patrolling and examining work of the station; if the station has the fire extinguisher to be inspected which is missed to be inspected, the operator sends the basic information of the fire extinguisher to be inspected 3 which is missed to be inspected to the handheld explosion-proof terminal 2 through the monitoring background 1 to guide the inspection personnel to complete the second fire safety inspection of the station through the on-site inspection method; repeating the process until the second fire safety inspection of all the sites is completed;

(5) after the second fire safety inspection is finished, the monitoring background 1 collects the conditions of the second fire safety inspection to obtain the inspection information of the current inspection of each fire extinguisher 3, the next inspection time and the background color state of each fire extinguisher 3 on the monitoring background 1 interface; then, according to the polling information, the corresponding fire extinguisher 3 is repaired, pressure-regulated or replaced and the like, so that the safety of the fire extinguisher 3 is ensured;

(6) and (5) repeating the processes of the steps 3) to 5) in the subsequent fire safety inspection, so that the fire safety of the oil field station is ensured.

In the non-inspection period, an inspection worker logs in the handheld explosion-proof terminal 2 in an identity recognition mode such as fingerprint recognition through the fingerprint recognition module 24 or face recognition through the shooting module 27; after the login is successful, the display module 25 displays the basic information of the fire extinguisher 3 which is responsible for the current polling personnel and the next polling time.

The field inspection method comprises the following steps: the patrol personnel log in the handheld explosion-proof terminal 2 in an identity recognition mode of fingerprint recognition through the fingerprint recognition module 24 or face recognition through the shooting module 27; after logging in successfully, the patrol personnel scans the two-dimensional code 4 on the fire extinguisher 3 through the shooting module 27 to check the basic information of the fire extinguisher 3, check whether the fire extinguisher is in the quality guarantee period and whether the pressure of the fire extinguisher is in the safety range, and input the information into the processor 21 through the input module 23; meanwhile, whether the appearance of the fire extinguisher is intact or not is checked, and a current picture of the fire extinguisher is shot through the shooting module 27 and transmitted to the processor 21; meanwhile, the GPS module 22 is automatically opened, positions the position of the inspection personnel and transmits the position to the processor 21; finally, the processor 21 transmits the information, the position of the patrol personnel and the current picture of the fire extinguisher to the monitoring background 1 through the communication module 26.

The method for judging the background color state of the fire extinguisher 3 on the monitoring background 1 interface comprises the following steps: the monitoring background 1 judges whether the fire extinguisher is more than 25 days away from the last polling time, the monitoring background 1 displays the ground color state of the fire extinguisher on the interface of the monitoring background 1 as blue when the fire extinguisher is not more than 25 days, judges whether the fire extinguisher is more than 30 days away from the last polling time when the fire extinguisher is more than 25 days, the monitoring background 1 displays the ground color state of the fire extinguisher on the interface of the monitoring background 1 as yellow when the fire extinguisher is not more than 30 days, and the monitoring background 1 displays the ground color state of the fire extinguisher on the interface of the monitoring background 1 as red when the fire extinguisher is more than 30 days; the fire extinguishers with the yellow and red bottom color states are fire extinguishers needing to be patrolled and examined, and the fire extinguishers with the blue bottom color states are fire extinguishers not needing to be patrolled and examined.

Nothing in this specification is said to apply to the prior art.

Claims (10)

1. A supervision system for fire safety of an oil field station is characterized by comprising a monitoring background, a handheld explosion-proof terminal and a two-dimensional code; the monitoring background is in communication connection with the handheld explosion-proof terminal; the monitoring background generates a respective two-dimensional code of each fire extinguisher; the two-dimensional code sets up on respective fire extinguisher, and the two-dimensional code has this fire extinguisher's basic information.

2. The supervision system for the fire safety of the oil field plant according to claim 1, wherein the monitoring background is a computer or a mobile terminal, and is used for supervising the state of the fire extinguisher in real time, determining the patrol time, remotely supervising the position and the activity track of patrol personnel and guiding the patrol process.

3. The supervisory system for fire safety of oil field plants according to claim 1, wherein the handheld explosion-proof terminal includes a processor, a GPS module, an input module, a fingerprint recognition module, a display module, a communication module, and a photographing module; the GPS module, the input module, the fingerprint identification module, the display module, the communication module and the shooting module are all electrically connected with the processor.

4. The regulatory system for fire safety of oil field plants according to claim 3, wherein the processor is configured to process various types of information; the GPS module is used for positioning; the input module is used for inputting various information into the handheld explosion-proof terminal; the fingerprint identification module is used for identifying the identity of the inspection personnel; the display module is used for displaying various information and man-machine interaction; the communication module is used for the communication connection between the handheld explosion-proof terminal and the monitoring background; the shooting module is used for identifying the identity of the patrol personnel and scanning the two-dimensional code.

5. A supervision method for the supervision system of the fire safety of the oil field station based on any one of the claims 1 to 4, characterized in that the method comprises the following steps:

(1) generating a respective two-dimensional code of each fire extinguisher through a monitoring background, wherein the two-dimensional code has basic information of the fire extinguisher; then, arranging the two-dimension codes on respective fire extinguishers; when the two-dimension code is set, the inspection personnel finish the first fire safety inspection of all stations of the oil field station by an on-site inspection method;

(2) after the first fire safety inspection is finished, the monitoring background acquires the inspection information of the inspection of each fire extinguisher, the next inspection time and the background color state of each fire extinguisher on the monitoring background by summarizing the conditions of the first fire safety inspection; repairing, regulating or replacing the corresponding fire extinguisher according to the polling information to ensure the safety of the fire extinguisher;

(3) before the second fire safety inspection, an operator monitors the ground color state of each fire extinguisher on the monitoring background in real time; determining the fire extinguisher which is missed to be inspected in the first fire safety inspection according to the ground color state, and completing the fire safety inspection of the corresponding fire extinguisher through a field inspection method;

(4) carrying out second fire safety inspection according to the next inspection time determined in the step 2):

firstly, an operator checks the background color states of all the existing fire extinguishers on a monitoring background and sends the basic information of the fire extinguishers needing to be inspected to a handheld explosion-proof terminal;

then, starting the second fire safety inspection of all the sites, performing the fire safety inspection by inspection personnel through a field inspection method, and simultaneously monitoring the ground color states of all the fire extinguishers and remotely monitoring the positions and the movement tracks of the inspection personnel of all the sites by an operator through a monitoring background;

when the polling personnel of a certain station think that the fire safety polling of the station is finished, the polling finishing information is sent to the monitoring background through the handheld explosion-proof terminal, and the operating personnel determines whether the station has the fire extinguisher to be polled, which is missed to be checked, by observing the ground color states of all the fire extinguishers of the station on the monitoring background; if the station has no fire extinguisher to be inspected which is missed to be inspected, the operator sends inspection confirmation completion information to the handheld explosion-proof terminal of the inspection personnel through the monitoring background to complete the fire safety inspection work of the station; if the station has the fire extinguisher to be inspected which is missed to be inspected, the operator sends the basic information of the fire extinguisher to be inspected which is missed to be inspected to the handheld explosion-proof terminal through the monitoring background, and the inspector is guided to complete the second fire safety inspection of the station through a field inspection method; repeating the process until the second fire safety inspection of all the sites is completed;

(5) after the second fire safety inspection is finished, the monitoring background acquires the inspection information of the current inspection of each fire extinguisher, the next inspection time and the ground color state of each fire extinguisher on the monitoring background by summarizing the conditions of the second fire safety inspection; repairing, regulating or replacing the corresponding fire extinguisher according to the polling information to ensure the safety of the fire extinguisher;

(6) and (5) repeating the processes of the steps 3) to 5) in the subsequent fire safety inspection, so that the fire safety of the oil field station is ensured.

6. The method of claim 5, wherein the basic information of the fire extinguisher includes the geographical location, number, affiliation, expiration date, type and model of fire extinguisher settings.

7. The monitoring method of claim 5, wherein the polling information includes whether the fire extinguisher is within a shelf life, whether the pressure of the fire extinguisher is within a safe range, whether the appearance of the fire extinguisher is intact, and the polling time.

8. The supervision method according to claim 5, characterized in that in a non-patrol period, patrol personnel log in the handheld explosion-proof terminal in a way of performing fingerprint identification through a fingerprint identification module or performing face identification through a shooting module; after the login is successful, the display module displays the basic information of the fire extinguisher for which the current inspection personnel is responsible and the next inspection time.

9. The supervision method according to claim 5, characterized in that the field inspection method is: the inspection personnel log in the handheld explosion-proof terminal in a mode of performing fingerprint identification through the fingerprint identification module or performing face identification through the shooting module; after logging in successfully, the patrol personnel scan the two-dimensional code on the fire extinguisher through the shooting module to check the basic information of the fire extinguisher, check whether the fire extinguisher is in the quality guarantee period and whether the pressure of the fire extinguisher is in the safety range, and input the information into the processor through the input module; meanwhile, whether the appearance of the fire extinguisher is intact or not is checked, and a current picture of the fire extinguisher is shot by a shooting module and transmitted to a processor; meanwhile, the GPS module is automatically opened, positions the positions of the inspection personnel and transmits the positions to the processor; and finally, the processor transmits the information, the position of the patrol personnel and the current picture of the fire extinguisher to a monitoring background through the communication module.

10. The supervision method according to claim 5, wherein the method for determining the ground color state of the fire extinguisher on the monitoring background is as follows: the monitoring background judges whether the distance between the fire extinguisher and the last polling time exceeds 25 days, the monitoring background displays the ground color state of the fire extinguisher as blue when the distance does not exceed 25 days, judges whether the distance between the fire extinguisher and the last polling time exceeds 30 days when the distance exceeds 25 days, displays the ground color state of the fire extinguisher as yellow when the distance does not exceed 30 days, and displays the ground color state of the fire extinguisher as red when the distance exceeds 30 days; the fire extinguishers with the yellow and red bottom color states are fire extinguishers needing to be patrolled and examined, and the fire extinguishers with the blue bottom color states are fire extinguishers not needing to be patrolled and examined.

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