CN112150752A - Fire-fighting water monitoring system and method - Google Patents

Abstract

The invention discloses a fire-fighting water monitoring system and a method, wherein the system comprises a monitoring system, an identification system and an alarm system, wherein the monitoring system comprises a water tank water level monitoring system, a fire-fighting water pipe water pressure monitoring system and a fire-fighting water pipe flow monitoring system; the method comprises the steps that a water level sensor collects liquid level information in a fire water tank and a fire-fighting water pool which are arranged at the top of a building, a water pressure sensor collects water pressure information at the end part of a fire hydrant positioned between floors, and a flow sensor collects water flow information at the water inlet end of a fire-fighting water pipe of the building and transmits the water flow information to a data recording module. By implementing the invention, the district fire-fighting water pipe can be brought into a fire-fighting monitoring system, so that the specific situation of the fire-fighting water in the district can be mastered, and the abnormal phenomenon occurs in the fire-fighting water: the potential safety hazard of fire water is stopped and the safety of the fire water is ensured by finding that water is deficient, water is not available, water pressure is under-pressure, leakage and water flow fluctuates in time.

Description

Fire-fighting water monitoring system and method

Technical Field

The invention relates to the technical field of fire fighting, in particular to a fire fighting water monitoring system and method.

Background

In the practical meaning of fire protection, all water bodies which can be used for fighting fire can be used as fire protection water sources, fire protection water can be supplied by a water supply pipe network, a natural water source or a fire protection water pool, and the Chinese fire protection water mainly takes life drinking water, which runs counter to the current situation that water resources are lacked in China, and how to find a new safe and sufficient fire protection water source to replace the life drinking water is urgent. From the angle of saving water and ensuring the safety and reliability of fire-fighting water, the reclaimed water, the circulating cooling water and the rainwater can be applied to fire-fighting facilities.

At the initial stage of a fire disaster, because the burning area is smaller, the fire behavior is weaker, and the personnel at the scene of the fire disaster can adopt the correct fire extinguishing mode in time, can effectively control the spreading of the fire disaster, and realize the effect of putting out the fire. According to the related fire fighting cases, most of the fire disasters are discovered and extinguished in the early stage, even if the fire disasters are not extinguished in the early stage, the fire can be effectively suppressed before fire fighters arrive, so that the hazard of the fire is reduced, and therefore, fire water in a building is stable and reliable and directly concerns the fire fighting situation.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a fire-fighting water monitoring system and a method.

The invention provides a fire-fighting water monitoring system, which comprises a monitoring system, an identification system and an alarm system, wherein the monitoring system comprises a water tank water level monitoring system, a fire-fighting water pipe water pressure monitoring system and a fire-fighting water pipe flow monitoring system;

the water tank water level monitoring system is formed by combining a plurality of water level sensors which are arranged in a fire water tank at the top of a building; the water tank water level monitoring system also comprises a fire-fighting water pool liquid level sensor combination for monitoring a fire-fighting water source end;

the fire hydrant water pressure monitoring system is formed by combining a plurality of water pressure sensors arranged at the end parts of fire hydrants, and the water pressure sensors are arranged between floors of a building to monitor whether the water pressure in the fire hydrants in the floors is qualified or not;

the flow monitoring system of the fire-fighting water pipe is formed by combining a plurality of flow sensors arranged at the water inlet end of the fire-fighting water pipe, and the flow sensors monitor the water flow at the water inlet end of the fire-fighting water pipe of the building;

the identification system comprises a data recording module, a data analysis module and a data transmission module, wherein the data recording module is used for receiving monitoring data transmitted by the monitoring system for recording and transmitting, and the data analysis module is used for analyzing the obtained monitoring data, comparing and analyzing the data and judging whether a fault occurs or not;

the identification system judges that the fire-fighting water pipeline is in failure according to the monitoring data, and the data transmission module transmits the data to the alarm system in time;

the alarm system comprises an alarm module arranged in the server of the fire-fighting team, an alarm module arranged in property or an industry committee of a community, and an alarm module arranged in the community or a street.

Preferably, the tank water level monitoring system monitors water level information inside the tank and the fire service water pool.

Preferably, the fire hose water pressure monitoring system monitors the water pressure information of the fire hose between floors.

Preferably, the fire hose flow monitoring system monitors fire hose water flow information.

Preferably, the monitoring system further comprises a routine patrol of the fire fighters.

Preferably, among the monitored control system, the fire fighter patrols and examines the in-process, and monitored control system in time takes notes and patrols and examines the in-process and cause water pressure and water flow change in the water pipe.

The invention provides a using method of a fire-fighting water monitoring system, which comprises the following steps:

s1: the water level sensor acquires liquid level information in a fire water tank and a fire-fighting water pool which are arranged at the top of a building, the water pressure sensor acquires water pressure information at the end part of a fire hydrant positioned between floors, and the flow sensor acquires water flow information at the water inlet end of a fire hose of the building and transmits the water flow information to the data recording module;

s2: the data recording module receives monitoring data transmitted by the monitoring system for recording and transmitting, and the data analysis module analyzes the obtained monitoring data, compares and analyzes the data and judges whether a fault occurs;

s3: the water tank water level monitoring system monitors whether the water levels in the water tank and the fire-fighting water pool exceed a set warning threshold value or not, and when the liquid levels are lower than the set threshold value, data are transmitted to the identification system as abnormal signals, and position information of the water tank and the fire-fighting water pool is sent;

s4: the fire-fighting water pipe water pressure monitoring system monitors whether the water pressure of fire-fighting water in a floor reaches a set minimum water pressure threshold value or not, the water pressure is lower than the set minimum water pressure threshold value, data are transmitted to the identification system as abnormal signals, and position information of a fire hydrant with insufficient water pressure is sent;

s5: the fire-fighting water pipe flow monitoring system monitors the flow of fire-fighting water pipes entering the interior of a building, records and positions the water flow in time when the water flow changes, and judges whether the water consumption belongs to fire-fighting water consumption or the water leakage belongs to pipeline leakage according to the synchronization of water pressure sensors arranged at the end parts of fire hydrants;

s6: the method comprises the following steps that firemen regularly organize patrol inspection on a fire fighting water source, a fire hydrant and the like, open the end part of the fire hydrant in an inspection process, inspect water pressure and water quantity, and avoid the phenomenon that no water exists in a fire hose;

s7: the data analysis module judges problems existing in a fire-fighting water pipe network in the monitoring system according to the transmission information, collects fault data in time, positions the faults, packs the data and sends the data to the alarm system;

s8: the alarm system transmits the received fault data to an alarm module in a server of a fire-fighting team, an alarm module arranged in property or an industry committee of a community and an alarm module arranged in the community or a street in sequence, supervises and urges the property or the industry committee of the community to investigate in time and solve abnormal phenomena, and supervises and monitors by the community, the street and fire-fighting team personnel in the solving process so as to timely treat the abnormal phenomena in charge and avoid the phenomena of no water or insufficient water pressure during water consumption;

s9: after abnormal phenomena are checked and processed, the abnormal phenomena are timely fed back to the monitoring system, fire fighters eliminate abnormal alarm at the background, and organization personnel perform rechecking and checking on abnormal areas, potential safety hazards of fire-fighting water are eliminated, and safety of fire-fighting water is guaranteed.

The beneficial effects of the invention are as follows:

by implementing the invention, the district fire-fighting water pipe can be brought into a fire-fighting monitoring system, so that the specific situation of the fire-fighting water in the district can be mastered, and the abnormal phenomenon occurs in the fire-fighting water: the water shortage, water pressure under-pressure, leakage and fluctuation of water flow can be discovered in time, the alarm in the community can not be cancelled, and a limited adjustment and modification report is sent to urge the first responsible person to eliminate hidden danger;

after the hidden dangers are eliminated, the fire fighter staff monitor at the backstage to supervise and urge the elimination of the hidden dangers, and after the elimination, the abnormal alarm is eliminated in the monitoring system, so that the abnormal phenomenon is timely processed, the phenomenon of no water or insufficient water pressure during water consumption is avoided, and the abnormal area is rechecked and checked, thereby avoiding the potential safety hazard of fire water and ensuring the safety of fire water;

by implementing the invention, the hidden danger in the fire-fighting water pipe network can be found in time, the hidden danger area can be positioned in time, and multiple parties can supervise the hidden danger when finding the hidden danger, thereby avoiding the hidden danger from being untreated and improving the fire-fighting water safety.

Drawings

FIG. 1 is a schematic diagram of a fire fighting water monitoring system and method according to the present invention;

FIG. 2 is a schematic view of a monitoring system of the fire-fighting water monitoring system and method according to the present invention;

FIG. 3 is a schematic diagram of an alarm system of a fire-fighting water monitoring system and method according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a fire-fighting water monitoring system comprises a monitoring system 1, an identification system 2 and an alarm system 3, wherein the monitoring system 1 comprises a water tank level monitoring system 101, a fire-fighting water pipe water pressure monitoring system 102 and a fire-fighting water pipe flow monitoring system 103;

the water tank water level monitoring system 101 is formed by combining a plurality of water level sensors which are arranged inside a fire water tank on the top of a building; the water tank water level monitoring system 101 also comprises a fire-fighting water pool liquid level sensor combination for monitoring a fire-fighting water source end;

the fire hose water pressure monitoring system 102 is formed by combining a plurality of water pressure sensors arranged at the end parts of fire hydrants, and the water pressure sensors are arranged between floors of a building to monitor whether the water pressure in the fire hydrants in the floors is qualified or not;

the fire-fighting water pipe flow monitoring system 103 is formed by combining a plurality of flow sensors installed at the water inlet end of a fire-fighting water pipe, and the flow sensors monitor the water flow at the water inlet end of the fire-fighting water pipe of the building;

the identification system 2 comprises a data recording module 201, a data analysis module 202 and a data transmission module 203, wherein the data recording module 201 receives monitoring data transmitted by the monitoring system 1 for recording and transmission, and the data analysis module 202 analyzes the obtained monitoring data, compares and analyzes the data and judges whether a fault occurs;

the identification system 2 judges that the fire-fighting water pipeline is in failure according to the monitoring data, and the data transmission module 203 transmits the data to the alarm system 3 in time;

the alarm system 3 includes an alarm module 301 installed inside the server for fire brigade, an alarm module 302 installed in property or business association of a community, and an alarm module 303 installed in community or street.

In the present invention, a water tank level monitoring system 101 monitors water level information inside a water tank and a fire pool.

In the invention, the fire water pipe water pressure monitoring system 102 monitors the water pressure information of fire water between floors.

In the present invention, a fire hose flow monitoring system 103 monitors fire hose flow information.

In the invention, the monitoring system 1 also comprises the routine inspection of the fire fighters.

In the invention, in the process of patrolling and examining the fire fighters in the monitoring system 1, the monitoring system 1 timely records the water pressure and water flow change in the water pipe in the process of patrolling and examining.

A method of using a fire service water monitoring system, comprising the steps of:

the first step is as follows: the water level sensor acquires liquid level information in a fire water tank and a fire-fighting water pool which are arranged at the top of a building, the water pressure sensor acquires water pressure information at the end part of a fire hydrant positioned between floors, and the flow sensor acquires water flow information at the water inlet end of a fire hose of the building and transmits the water flow information to the data recording module 201;

the second step is that: the data recording module 201 receives the monitoring data transmitted by the monitoring system 1 for recording and transmitting, and the data analysis module 202 analyzes the obtained monitoring data, compares and analyzes the data and judges whether a fault occurs;

the third step: the water tank water level monitoring system 101 monitors whether the water levels in the water tank and the fire-fighting water pool exceed a set warning threshold value or not, and when the liquid levels are lower than the set threshold value, data are transmitted to the identification system 2 as abnormal signals, and position information of the water tank and the fire-fighting water pool is sent;

the fourth step: the fire hose water pressure monitoring system 102 monitors whether the water pressure of the fire water between floors reaches a set minimum water pressure threshold value, and when the water pressure is lower than the set minimum water pressure threshold value, data is transmitted to the recognition system 2 as an abnormal signal, and position information of a fire hydrant with insufficient water pressure is sent;

the fifth step: the fire-fighting water pipe flow monitoring system 103 monitors the flow of fire-fighting water pipes entering the building, records and positions the water flow in time when the water flow changes, and judges whether the water consumption belongs to fire-fighting water consumption or the water leakage belongs to pipeline leakage according to the synchronization of water pressure sensors arranged at the end parts of fire hydrants;

and a sixth step: the method comprises the following steps that firemen regularly organize patrol inspection on a fire fighting water source, a fire hydrant and the like, open the end part of the fire hydrant in the inspection process, inspect the water pressure and the water quantity, and avoid the phenomenon that no water exists in a fire hose;

the seventh step: the data analysis module 202 judges problems existing in a fire-fighting water pipe network in the monitoring system according to the transmission information, collects fault data in time, positions the faults, packs the data and sends the data to the alarm system 3;

eighth step: the alarm system 3 transmits the received fault data to an alarm module 301 in a server of a fire-fighting team, an alarm module 302 arranged in property or an industry committee of a community and an alarm module 303 arranged in the community or a street in sequence, supervises and urges the property or the industry committee of the community to check in time and solves the abnormal phenomenon, and is supervised and monitored by the community, the street and the fire-fighting team in the solving process, so that the abnormal phenomenon is timely treated, and the phenomenon of no water or insufficient water pressure is avoided when water is used;

and finally: after abnormal phenomena are checked and processed, the abnormal phenomena are timely fed back to the monitoring system 1, fire fighters eliminate abnormal alarm at the background, and organization personnel perform recheck and check on abnormal areas, so that potential safety hazards of fire-fighting water are eliminated, and the safety of the fire-fighting water is guaranteed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. A fire-fighting water monitoring system is characterized by comprising a monitoring system (1), an identification system (2) and an alarm system (3), wherein the monitoring system (1) comprises a water tank level monitoring system (101), a fire-fighting water pipe water pressure monitoring system (102) and a fire-fighting water pipe flow monitoring system (103);

the water tank water level monitoring system (101) is formed by combining a plurality of water level sensors installed inside a fire water tank on the top of a building; the water tank water level monitoring system (101) also comprises a fire-fighting water pool liquid level sensor combination for monitoring a fire-fighting water source end;

the fire hydrant water pressure monitoring system (102) is formed by combining a plurality of water pressure sensors arranged at the end parts of fire hydrants, and the water pressure sensors are arranged between floors of a building to monitor whether the water pressure in the fire hydrants in the floors is qualified or not;

the fire-fighting water pipe flow monitoring system (103) is formed by combining a plurality of flow sensors arranged at the water inlet end of a fire-fighting water pipe, and the flow sensors monitor the water flow at the water inlet end of the fire-fighting water pipe of a building;

the identification system (2) comprises a data recording module (201), a data analysis module (202) and a data transmission module (203), wherein the data recording module (201) receives monitoring data transmitted by the monitoring system (1) for recording and transmission, and the data analysis module (202) analyzes the obtained monitoring data, compares and analyzes the data and judges whether a fault occurs;

the identification system (2) judges that the fire-fighting water pipeline is in failure according to the monitoring data, and the data transmission module (203) transmits the data to the alarm system (3) in time;

the alarm system (3) comprises an alarm module (301) arranged in a fire-fighting team server, an alarm module (302) installed in community property or an entrepreneur and an alarm module (303) installed in a community or a street.

2. A fire service water monitoring system according to claim 1, wherein the tank water level monitoring system (101) monitors water level information inside the tank and the fire service water pool.

3. A fire service water monitoring system according to claim 1, wherein the fire service water pipe water pressure monitoring system (102) monitors inter-floor fire service water pressure information.

4. A fire service water monitoring system according to claim 1, wherein the fire service water pipe flow monitoring system (103) monitors fire service water pipe flow information.

5. A fire service water monitoring system according to claim 1, characterised in that the monitoring system (1) also includes routine inspection of fire fighters.

6. A fire service water monitoring system according to claim 5, wherein in the process of patrol inspection of the fire fighters in the monitoring system (1), the monitoring system (1) timely records the changes of water pressure and water flow in the water pipe in the process of patrol inspection.

7. Use of a firewater monitoring system according to any of claims 1-6, characterised by the steps of:

s1: the water level sensor acquires liquid level information in a fire water tank and a fire-fighting water pool which are arranged at the top of a building, the water pressure sensor acquires water pressure information at the end part of a fire hydrant positioned between floors, and the flow sensor acquires water flow information at the water inlet end of a fire hose of the building and transmits the water flow information to the data recording module (201);

s2: the data recording module (201) receives monitoring data transmitted by the monitoring system (1) for recording and transmitting, and the data analysis module (202) analyzes the obtained monitoring data, compares and analyzes the data and judges whether a fault occurs;

s3: the water tank water level monitoring system (101) monitors whether the water levels in the water tank and the fire-fighting water pool exceed a set warning threshold value or not, and when the liquid levels are lower than the set threshold value, data are transmitted to the identification system (2) as abnormal signals, and position information of the water tank and the fire-fighting water pool is sent;

s4: the fire hose water pressure monitoring system (102) monitors whether the water pressure of fire water between floors reaches a set minimum water pressure threshold value, the water pressure is lower than the set minimum water pressure threshold value, data are transmitted to the recognition system (2) as abnormal signals, and position information of a fire hydrant with insufficient water pressure is sent;

s5: the fire-fighting water pipe flow monitoring system (103) monitors the water flow of a fire-fighting water pipe entering the interior of a building, records and positions the water flow in time when the water flow changes, and judges whether the water consumption belongs to fire-fighting water consumption or the water leakage belongs to pipeline leakage according to the synchronization of water pressure sensors arranged at the end parts of fire hydrants;

s6: the method comprises the following steps that firemen regularly organize patrol inspection on a fire fighting water source, a fire hydrant and the like, open the end part of the fire hydrant in an inspection process, inspect water pressure and water quantity, and avoid the phenomenon that a fire fighting water pipe is free of water;

s7: the data analysis module (202) judges problems existing in a fire-fighting water pipe network in the monitoring system according to the transmission information, collects fault data in time, positions the faults, packs the data and sends the data to the alarm system (3);

s8: the alarm system (3) transmits the received fault data to an alarm module (301) in a server of a fire-fighting team, an alarm module (302) installed in a community property or an industry committee and an alarm module (303) installed in a community or a street in sequence, supervises and urges the community property or the industry committee to investigate in time and solve abnormal phenomena, and is supervised and monitored by the community, the street and fire-fighting team personnel in the solving process, so that the abnormal phenomena are timely treated, and the phenomenon of no water or insufficient water pressure is avoided when water is used;

s9: after abnormal phenomena are checked and processed, the abnormal phenomena are timely fed back to the monitoring system (1), fire fighters eliminate abnormal alarm at the background, and organization personnel perform rechecking and checking on abnormal areas, potential safety hazards of fire-fighting water are eliminated, and safety of fire-fighting water is guaranteed.

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