CN115830791A - Fire alarm system installation and debugging method - Google Patents

Abstract

The invention discloses a fire alarm system installation and debugging method, wherein the fire alarm system comprises a building floor and a monitoring room, the building floor is divided into a plurality of areas, each area is provided with a smoke alarm, a temperature alarm, a fire alarm and fire-fighting equipment, so that each area in the building floor can have better fire safety protection and early warning, and the monitoring room can determine a specific occurrence area when potential safety hazards occur in the building floor through the linkage of a smoke alarm device group and a smoke indicator lamp group, the communication of a temperature alarm device group and a temperature indicator lamp group, the linkage of the fire alarm device group and a fire alarm indicator lamp group and the auxiliary linkage of the monitoring device group and a monitoring picture group, so that the fire alarm can be timely carried out, the detailed area position where the potential safety hazards occur can be pointed out like fire fighters, and convenience is brought to rescue work.

Description

Fire alarm system installation and debugging method

Technical Field

The invention relates to the technical field of fire fighting, in particular to a method for installing and debugging a fire fighting alarm system.

Background

The importance of fire safety is particularly important, and the fire safety and fire alarm system in each building are an important part of fire debugging and acceptance.

Alarm equipment and treatment facilities used for fire safety in a traditional building contain smoke alarms, temperature alarms, fire-fighting equipment and the like, which have the following problems;

1. the area in the building floor is large, and the alarm and the fire-fighting equipment are distributed less, so that the problem of poor monitoring effect occurs;

2. the monitoring room can only call monitoring picture signals in a building floor, cannot be interconnected with each fire alarm in the building floor, and when fire safety problems occur, black smoke easily seals a camera picture, so that monitoring personnel cannot judge the specific position of the occurrence of the fire safety problems in the floor, and the monitoring room provides the fire alarm system installation and debugging method.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a method for installing and debugging a fire alarm system, which aims to solve the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a fire alarm system, fire alarm system includes building floor and monitor room, and the component framework of building floor is as follows:

1) The smoke alarm equipment group;

2) A temperature alarm device group;

3) The fire-fighting water equipment group;

4) A fire alarm device group;

5) Monitoring equipment groups;

6) An escape equipment group;

the escape equipment set comprises the following components:

(1) and a flashing lamp group A;

(2) and a flashing lamp group B;

(3) and a flashing light group C;

(4) and a flashing lamp group D;

the monitoring host is arranged in the monitoring room, and the monitoring content of the monitoring host is detailed as follows:

01 ) a smoke indicating lamp set;

02 A temperature indicating lamp set;

03 ) and fire alarm indicating lamp set;

04 A), monitoring group of pictures.

Preferably, the group of smoke alarm devices as set forth in 1) comprises in detail the following:

(1) a smoke alarm A;

(2) a smoke alarm B;

(3) a smoke alarm C;

(4) a smoke alarm D;

the set of smoke indicating lamps set forth in 01), which includes the following in detail;

(1) a smoke indicator lamp A;

(2) a smoke indicator lamp B;

(3) a smoke indicator lamp C;

(4) a smoke indicator lamp D;

dividing a building floor into a plurality of equal blocks, wherein each equal block forms an area, and each smoke alarm is correspondingly arranged in the matched area;

carry out letter number to the smoke alarm of every position, carry out letter number to every smog pilot lamp, the serial number of smoke alarm respectively with the serial number phase-match of smog pilot lamp, and every smoke alarm respectively with serial number assorted smog pilot lamp signal connection.

Preferably, the group of temperature alarm devices proposed in 2) comprises in detail the following:

(1) a temperature alarm A;

(2) a temperature alarm B;

(3) a temperature alarm C;

(4) a temperature alarm D;

the set of temperature indicating lamps proposed in 02), which includes the following in detail;

(1) a temperature indicator lamp A;

(2) a temperature indicator lamp B;

(3) a temperature indicator lamp C;

(4) a temperature indicating lamp D;

each temperature alarm is correspondingly arranged in the matched area;

carry out letter number to the temperature alarm of every position, carry out letter number to every temperature indicator, the serial number of temperature alarm respectively with the serial number phase-match of temperature indicator, and every temperature alarm respectively with serial number assorted temperature indicator signal connection.

Preferably, according to the fire alarm equipment set proposed in 4), the fire alarm equipment set comprises the following in detail:

(1) a fire alarm A;

(2) a fire alarm B;

(3) a fire alarm C;

(4) a fire alarm D;

the warning indicator light set proposed in 03), which includes the following in detail;

(1) the fire alarm indicator lamp A;

(2) a fire alarm indicator lamp B;

(3) the fire alarm indicator lamp C;

(4) a fire alarm indicator lamp D;

each fire alarm is correspondingly arranged in the matched area;

carry out letter number to the fire alarm ware of every position, carry out letter number to every alarm indicator, the serial number of fire alarm ware respectively with the serial number phase-match of fire alarm indicator, and every fire alarm ware respectively with serial number assorted fire alarm indicator signal connection.

Preferably, the monitoring device group proposed in 5) includes the following in detail:

(1) the camera A;

(2) the camera B;

(3) and a camera C;

(4) and a camera D.

Each camera is respectively arranged in the corresponding area and is respectively connected with the monitoring picture group through signals

Preferably, the fire service water equipment set proposed in 3) comprises the following in detail:

(1) a fire-fighting lance A;

(2) a fire-fighting lance B;

(3) a fire-fighting lance C;

(4) and a fire-fighting lance D.

A debugging method of fire alarm comprises the following steps:

s01, preparing a personnel test: the common staff comprises common people and firefighters, the number of the common staff is matched with the average pedestrian volume of the building floor in the past day, and the firefighters prepare the smoke generator and the fire source;

s02, debugging a smoke alarm system: testing whether the smoke alarm in each area can give an alarm and simultaneously trigger the smoke indicating lamp corresponding to the control room through the work of the smoke generator;

s03, debugging a temperature alarm system: a fireman approaches a fire source to the vicinity of the temperature alarm in each area, tests whether the fireman can send out an alarm and simultaneously triggers the temperature indicator lamp corresponding to the control room;

s04, debugging a fire water system: the fire fighter opens the fire branch in each area to test whether the fire branch can normally discharge water, the water discharge pressure and the water discharge flow;

s05, debugging a fire-fighting facility system: the fire fighter opens the fire alarm in each area and tests whether the fire fighter can directly go through the fire station and trigger the corresponding fire alarm indicator lamp of the control room;

s06, personnel evacuation debugging: after the fire fighters trigger the alarms, ordinary staff arrive at the stairs at the speed of normal fire safety events through guidance of the flashing lamp group and escape through the stairs, and the escape speed and the escape efficiency need to be recorded during escape;

s07, debugging a monitoring system: the firefighter calls the camera of each area according to the monitoring system in the monitoring room in the system debugging process, and checks whether the firefighter can normally work;

s08, monitoring room system: a fireman observes whether the indicating lamp appears when the system is debugged in the monitoring room and can judge whether the indicating lamp is positioned in a specific area in the building floor according to the lighting of the indicating lamp when the indicating lamp is triggered;

s09, acceptance: and when the system is debugged to be qualified, the acceptance is finished.

Preferably, according to the step S06, the flashing light groups a, B, C, D are respectively disposed in each area, and D points to C, C points to B, B points to a, and a points to the stairs, the flashing frequency of the light group is twice a second, the color of the light group is green, each light group is an LED light board, the length of the light board is 1.2m, the width of the light board is 0.4m, and the light board is installed at a visible wall surface position.

(III) advantageous effects

Compared with the prior art, the invention provides a method for installing and debugging a fire alarm system, which has the following beneficial effects:

through dividing into a plurality of regions with building floor inside, smoke alarm is all installed in every region, temperature alarm, fire alarm and fire apparatus, thereby make each regional in the building floor can have better fire control safety protection and early warning, through the linkage of smoke alarm equipment group and smoke indicator banks, the intercommunication of temperature alarm equipment group and temperature indicator banks, the linkage of fire alarm equipment group and fire alarm indicator banks and the supplementary linkage with control picture group of monitoring equipment group, thereby make the control room can confirm specific emergence region when taking place the potential safety hazard in the building floor, not only can carry out fire alarm in time, can point out the detailed regional position that takes place the potential safety hazard like the fire fighter simultaneously, bring convenience for rescue work, the equipment group of fleing that is provided can carry out the apparent guide when fleing, make things convenient for personnel in the building to flee at the effect that the banks scintillation guided and can be quick.

Drawings

FIG. 1 is a diagram of a fire alarm system of the present invention;

FIG. 2 is a schematic diagram of the smoke alarm apparatus set and the smoke indicating lamp set of the present invention;

FIG. 3 is a schematic diagram showing the linkage between the temperature alarm device set and the temperature indicator light set according to the present invention;

FIG. 4 is a linkage diagram of the fire alarm equipment set and the fire alarm indicating lamp set according to the present invention;

FIG. 5 is a block diagram of the fire service water equipment set of the present invention;

FIG. 6 is a linkage diagram of the monitoring device group and the monitoring frame group according to the present invention;

FIG. 7 is a step diagram of a fire alarm debugging method of the present invention;

fig. 8 is a block diagram of the escape apparatus set of 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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme, as shown in figures 1-7, a fire alarm system, which comprises a building floor and a monitoring room, wherein the building floor comprises the following components:

1) The smoke alarm equipment group;

2) A temperature alarm device group;

3) The fire-fighting water equipment group;

4) A fire alarm device group;

5) Monitoring equipment groups;

6) An escape equipment group;

the escape equipment set comprises the following components:

(1) the flashing lamp group A;

(2) and a flashing lamp group B;

(3) and a flashing light group C;

(4) and a flashing lamp group D;

the monitoring host is arranged in the monitoring room, and the monitoring content of the monitoring host is detailed as follows:

01 ) a smoke indicating lamp set;

02 A temperature indicating lamp set;

03 ) and fire alarm indicating lamp set;

04 ) and monitoring group of pictures.

Preferably, the group of smoke alarm devices as set forth in 1) comprises in detail the following:

(1) the smoke alarm A;

(2) a smoke alarm B;

(3) a smoke alarm C;

(4) a smoke alarm D;

the set of smoke indicator lights set forth in 01), which includes the following in detail;

(1) a smoke indicator lamp A;

(2) a smoke indicator lamp B;

(3) a smoke indicator lamp C;

(4) a smoke indicator lamp D;

dividing a building floor into a plurality of equal blocks, wherein each equal block forms an area, and each smoke alarm is correspondingly arranged in the matched area;

carry out letter number to the smoke alarm of every position, carry out letter number to every smog pilot lamp, the serial number of smoke alarm respectively with the serial number phase-match of smog pilot lamp, and every smoke alarm respectively with serial number assorted smog pilot lamp signal connection.

Preferably, the group of temperature alarm devices proposed in 2) comprises in detail the following:

(1) a temperature alarm A;

(2) a temperature alarm B;

(3) a temperature alarm C;

(4) a temperature alarm D;

the set of temperature indicating lamps proposed in 02), which includes the following in detail;

(1) a temperature indicator lamp A;

(2) a temperature indicator lamp B;

(3) a temperature indicator lamp C;

(4) a temperature indicating lamp D;

each temperature alarm is correspondingly arranged in the matched area;

carry out letter number to the temperature alarm of every position, carry out letter number to every temperature indicator, the serial number of temperature alarm respectively with the serial number phase-match of temperature indicator, and every temperature alarm respectively with serial number assorted temperature indicator signal connection.

Preferably, according to the fire alarm equipment set proposed in 4), the fire alarm equipment set comprises the following in detail:

(1) a fire alarm A;

(2) a fire alarm B;

(3) a fire alarm C;

(4) a fire alarm D;

the warning indicator lamp set proposed in 03), which includes the following in detail;

(1) the fire alarm indicator lamp A;

(2) the fire alarm indicator lamp B;

(3) a fire alarm indicator lamp C;

(4) a fire alarm indicator lamp D;

each fire alarm is correspondingly arranged in the matched area;

carry out letter number to the fire alarm ware of every position, carry out letter number to every alarm indicator, the serial number of fire alarm ware respectively with the serial number phase-match of fire alarm indicator, and every fire alarm ware respectively with serial number assorted fire alarm indicator signal connection.

Preferably, the monitoring device group proposed in 5) includes the following in detail:

(1) the camera A;

(2) the camera B;

(3) and a camera C;

(4) and a camera D.

Each camera is respectively arranged in the corresponding area and is respectively connected with the monitoring picture group through signals

Preferably, the fire service water equipment set proposed in 3) comprises the following in detail:

(1) a fire-fighting lance A;

(2) a fire-fighting lance B;

(3) a fire-fighting lance C;

(4) and a fire-fighting lance D.

A debugging method of fire alarm comprises the following steps:

s01, preparing a personnel test: the common staff comprises common people and firefighters, the number of the common staff is matched with the average pedestrian volume of the building floor in the past day, and the firefighters prepare the smoke generator and the fire source;

s02, debugging a smoke alarm system: testing whether the smoke alarm in each area can give an alarm and simultaneously trigger the smoke indicating lamp corresponding to the control room through the work of the smoke generator;

s03, debugging a temperature alarm system: a fireman approaches a fire source to the vicinity of the temperature alarm in each area, tests whether the fireman can send out an alarm and simultaneously triggers the temperature indicator lamp corresponding to the control room;

s04, debugging a fire water system: the fire fighter opens the fire branch in each area to test whether the fire branch can normally discharge water, the water discharge pressure and the water discharge flow;

s05, debugging a fire-fighting facility system: the fire fighter opens the fire alarm in each area and tests whether the fire fighter can directly go through the fire station and trigger the corresponding fire alarm indicator lamp of the control room;

s06, personnel evacuation debugging: personnel evacuation debugging: after the fire fighters trigger the alarms, ordinary staff arrive at the stairs at the speed of normal fire safety events through guidance of the flashing lamp group and escape through the stairs, and the escape speed and the escape efficiency need to be recorded during escape;

s07, debugging a monitoring system: the firefighter calls the camera of each area according to the monitoring system in the monitoring room in the system debugging process, and checks whether the firefighter can normally work;

s08, monitoring room system: a fireman observes whether the indicating lamp appears when the system is debugged in the monitoring room and can judge whether the indicating lamp is positioned in a specific area in the building floor according to the lighting of the indicating lamp when the indicating lamp is triggered;

s09, acceptance: and when the system is debugged to be qualified, the acceptance is finished.

Further, according to the proposal of the step S06, the flashing lamp groups A, B, C and D are respectively arranged in each area, and D points to C, C points to B, B points to A, A points to stairs, the flashing frequency of the lamp groups is twice a second, the color of the lamp groups is green, each lamp group is an LED lamp plate, the length of the lamp plate is 1.2m, the width of the lamp plate is 0.4m, and the lamp plate is arranged on a visible wall surface.

The working principle of the device is as follows:

the common staff comprises common people and firefighters, the number of the common staff is matched with the average pedestrian volume of the building floor in the past day, and the firefighters prepare the smoke generator and the fire source;

debugging a smoke alarm system: testing whether the smoke alarm in each area can give an alarm and simultaneously trigger the smoke indicating lamp corresponding to the control room through the work of the smoke generator;

debugging a temperature alarm system: a fireman approaches a fire source to the vicinity of the temperature alarm in each area, tests whether the fireman can send out an alarm and simultaneously triggers the temperature indicator lamp corresponding to the control room;

debugging a fire-fighting water system: the fire fighter opens the fire branch in each area to test whether the fire branch can normally discharge water, the water discharge pressure and the water discharge flow;

debugging a fire-fighting facility system: the fire fighter opens the fire alarm in each area and tests whether the fire fighter can directly go through the fire station and trigger the corresponding fire alarm indicator lamp of the control room;

personnel evacuation debugging: personnel evacuation debugging: after a fire fighter triggers each alarm, a common person arrives at a stair through guidance of a flashing light group at a speed of a normal fire safety event and escapes through the stair, and escape speed and efficiency which need to be recorded during escape are required, the flashing light group A, B, C and D are respectively arranged in each area, D points to C, C points to B, B points to A, A points to the stair, the flashing frequency of the light group is twice a second, the color of the light group is green, a 1.2m x 0.4m LED light board can achieve the effect of admiration reminding through flashing, and the person in a building can conveniently escape through the effect of flashing guidance of the light group;

debugging the monitoring system: the firefighter calls the camera of each area according to the monitoring system in the monitoring room in the system debugging process, and checks whether the camera can normally work or not;

a monitoring room system: a fireman observes whether the indicating lamp appears when the system is debugged in the monitoring room and can judge whether the indicating lamp is positioned in a specific area in the building floor according to the lighting of the indicating lamp when the indicating lamp is triggered;

and (4) acceptance: and when the system is debugged to be qualified, the acceptance is finished.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A fire alarm system which is characterized in that: the fire alarm system comprises a building floor and a monitoring room, wherein the building floor comprises the following components:

1) The smoke alarm equipment group;

2) A temperature alarm device group;

3) The fire-fighting water equipment group;

4) A fire alarm device group;

5) Monitoring equipment groups;

6) An escape equipment group;

the escape equipment set comprises the following components:

(1) the flashing lamp group A;

(2) and a flashing lamp group B;

(3) and a flashing light group C;

(4) and a flashing lamp group D;

the monitoring host is arranged in the monitoring room, and the monitoring content of the monitoring host is detailed as follows:

01 ) a smoke indicating lamp set;

02 A temperature indicating lamp set;

03 A fire alarm indicating lamp set;

04 ) and monitoring group of pictures.

2. A fire alarm system as defined in claim 1, wherein:

the set of smoke alarm devices as set forth in 1), which comprises in detail the following:

(1) a smoke alarm A;

(2) a smoke alarm B;

(3) a smoke alarm C;

(4) a smoke alarm D;

the set of smoke indicating lamps set forth in 01), which includes the following in detail;

(1) a smoke indicator lamp A;

(2) the smoke indicator lamp B;

(3) a smoke indicator lamp C;

(4) the smoke indicating lamp D;

dividing a building floor into a plurality of equal blocks, wherein each equal block forms an area, and each smoke alarm is correspondingly arranged in the matched area;

carry out letter number to the smoke alarm of every position, carry out letter number to every smog pilot lamp, the serial number of smoke alarm respectively with the serial number phase-match of smog pilot lamp, and every smoke alarm respectively with serial number assorted smog pilot lamp signal connection.

3. A fire alarm system as defined in claim 1, wherein:

the temperature alarm device group proposed in 2), which comprises in detail the following:

(1) a temperature alarm A;

(2) a temperature alarm B;

(3) a temperature alarm C;

(4) a temperature alarm D;

the temperature indicating lamp set as set forth in 02), which includes the following in detail;

(1) a temperature indicator lamp A;

(2) a temperature indicator lamp B;

(3) a temperature indicator lamp C;

(4) a temperature indicating lamp D;

each temperature alarm is correspondingly arranged in the matched area;

carry out letter number to the temperature alarm of every position, carry out letter number to every temperature indicator, the serial number of temperature alarm respectively with the serial number phase-match of temperature indicator, and every temperature alarm respectively with serial number assorted temperature indicator signal connection.

4. A fire alarm system as defined in claim 1, wherein: the fire alarm equipment group provided in 4), which comprises the following in detail:

(1) a fire alarm A;

(2) a fire alarm B;

(3) a fire alarm C;

(4) a fire alarm D;

the warning indicator light set proposed in 03), which includes the following in detail;

(1) the fire alarm indicator lamp A;

(2) a fire alarm indicator lamp B;

(3) the fire alarm indicator lamp C;

(4) the fire-fighting alarm indicator lamp D;

each fire alarm is correspondingly arranged in the matched area;

carry out letter number to the fire alarm ware of every position, carry out letter number to every alarm indicator, the serial number of fire alarm ware respectively with the serial number phase-match of fire alarm indicator, and every fire alarm ware respectively with serial number assorted fire alarm indicator signal connection.

5. A fire alarm system as defined in claim 1, wherein: the monitoring device group proposed in 5), which comprises the following in detail:

(1) the camera A;

(2) the camera B;

(3) the camera C;

(4) and a camera D.

Each camera is respectively arranged in the corresponding area and is respectively connected with the monitoring picture group through signals.

6. A fire alarm system as defined in claim 1, wherein:

the fire water equipment group proposed in 3), which comprises the following in detail:

(1) a fire-fighting lance A;

(2) a fire-fighting lance B;

(3) a fire-fighting lance C;

(4) and a fire-fighting lance D.

7. A fire alarm debugging method applied to claim 1, characterized in that: the debugging method of the fire alarm comprises the following steps:

s01, preparing a personnel test: the common staff comprises common people and firefighters, the number of the common staff is matched with the average pedestrian volume of the building floor in the past day, and the firefighters prepare the smoke generator and the fire source;

s02, debugging a smoke alarm system: testing whether the smoke alarm in each area can give an alarm and simultaneously trigger the smoke indicator lamp corresponding to the control room through the work of the smoke generator;

s03, debugging a temperature alarm system: a fireman approaches a fire source to the vicinity of the temperature alarm in each area, tests whether the fireman can send out an alarm and simultaneously triggers the temperature indicator lamp corresponding to the control room;

s04, debugging a fire water system: the fire fighter opens the fire branch in each area to test whether the fire branch can normally discharge water, the water discharge pressure and the water discharge flow;

s05, debugging a fire-fighting facility system: the fire fighter opens the fire alarm in each area and tests whether the fire fighter can directly go through the fire station and trigger the corresponding fire alarm indicator lamp of the control room;

s06, personnel evacuation debugging: after the fire fighters trigger the alarms, ordinary staff arrive at the stairs at the speed of normal fire safety events through guidance of the flashing lamp group and escape through the stairs, and the escape speed and the escape efficiency need to be recorded during escape;

s07, debugging a monitoring system: the firefighter calls the camera of each area according to the monitoring system in the monitoring room in the system debugging process, and checks whether the firefighter can normally work;

s08, monitoring room system: a fireman observes whether the indicating lamp appears when the system is debugged in the monitoring room and can judge whether the indicating lamp is positioned in a specific area in the building floor according to the lighting of the indicating lamp when the indicating lamp is triggered;

s09, acceptance: and when the system is debugged to be qualified, the acceptance is finished.

8. A debugging method of fire alarm applied to claim 7, characterized in that: according to the step S06, the flashing lamp groups A, B, C and D are respectively arranged in each area, D points to C, C points to B, B points to A, A points to stairs, the flashing frequency of the lamp groups is twice a second, the color of the lamp groups is green, each lamp group is an LED lamp plate, the length of the lamp plate is 1.2m, the width of the lamp plate is 0.4m, and the lamp plate is arranged on a visible wall surface.

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