CN107313525A - A kind of Building Fire Protection system and construction method - Google Patents
A kind of Building Fire Protection system and construction method Download PDFInfo
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- CN107313525A CN107313525A CN201710679939.9A CN201710679939A CN107313525A CN 107313525 A CN107313525 A CN 107313525A CN 201710679939 A CN201710679939 A CN 201710679939A CN 107313525 A CN107313525 A CN 107313525A
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/62—Insulation or other protection; Elements or use of specified material therefor
- E04B1/92—Protection against other undesired influences or dangers
- E04B1/94—Protection against other undesired influences or dangers against fire
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- A—HUMAN NECESSITIES
- A62—LIFE-SAVING; FIRE-FIGHTING
- A62C—FIRE-FIGHTING
- A62C2/00—Fire prevention or containment
- A62C2/06—Physical fire-barriers
- A62C2/10—Fire-proof curtains
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- A—HUMAN NECESSITIES
- A62—LIFE-SAVING; FIRE-FIGHTING
- A62C—FIRE-FIGHTING
- A62C31/00—Delivery of fire-extinguishing material
- A62C31/005—Delivery of fire-extinguishing material using nozzles
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- A—HUMAN NECESSITIES
- A62—LIFE-SAVING; FIRE-FIGHTING
- A62C—FIRE-FIGHTING
- A62C37/00—Control of fire-fighting equipment
- A62C37/36—Control of fire-fighting equipment an actuating signal being generated by a sensor separate from an outlet device
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- Health & Medical Sciences (AREA)
- Public Health (AREA)
- Business, Economics & Management (AREA)
- Emergency Management (AREA)
- Architecture (AREA)
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Fire Alarms (AREA)
- Alarm Systems (AREA)
- Fire-Extinguishing By Fire Departments, And Fire-Extinguishing Equipment And Control Thereof (AREA)
Abstract
The invention discloses a kind of Building Fire Protection system and construction method, its system includes building body, the building body includes multiple architecture storeys, the inside spaced set of the architecture storey has multiple fire walls, and architecture storey is divided into multiple first monitor areas by multiple fire walls, each first monitor area is divided into multiple second monitor areas, and the inside of each second monitor area is mounted on an infrared inductor, the infrared inductor is by being wirelessly connected with master control platform, and the output end of master control platform is by being wirelessly connected with multiple zone controls, multiple zone controls and multiple second monitor areas, which are corresponded, to be set, the fire wall includes being cast in the core layer inside architecture storey, the present invention can not only carry out more accurate detection to the condition of a fire of architecture storey, and Building Fire Protection system can also carry out fire-extinguishing operations to there is the second monitor area of the condition of a fire automatically.
Description
Technical field
The present invention relates to Building Fire Protection equipment technical field, more particularly to a kind of Building Fire Protection system and construction method.
Background technology
With the continuous development of scientific technology with the continuous progress of society, building trade has obtained quick development, in order to
Personal safety and the property safety of people is ensured, the inside of each building must install fire prevention system, and existing building is prevented
Fiery system is all the direct progress installation fire hydrant on architecture storey and the facility corresponding to fire hydrant, when fire occurs for architecture storey
During feelings, traditional fire prevention system must pass through manual operation so that traditional fire prevention system does not have active suppression function, and passes
The fire prevention system of system can not accurately be monitored to the condition of a fire of architecture storey, therefore propose a kind of Building Fire Protection system and construction
Method.
The content of the invention
The technical problem existed based on background technology, the present invention proposes a kind of Building Fire Protection system and construction method.
A kind of Building Fire Protection system proposed by the present invention, including building body, the building body include multiple building buildings
Layer, the inside spaced set of the architecture storey has multiple fire walls, and architecture storey be divided into by multiple fire walls it is many
Individual first monitor area, each first monitor area is divided into multiple second monitor areas, and each second monitor area is interior
Portion is mounted on an infrared inductor, and the infrared inductor is by being wirelessly connected with master control platform, and master control
The output end of platform is by being wirelessly connected with multiple zone controls, multiple zone controls and multiple second monitor areas
Correspond and set, the fire wall includes being cast in the core layer inside architecture storey, and core layer includes concrete and set
The heat-insulation layer on the outside of concrete is put, the inside of the core layer is provided with main pipeline, and the both sides of core layer are equipped with and built
Build the barrier layer that floor is connected, the barrier layer is resistant to elevated temperatures engine firewall, and a side roof part of the barrier layer away from core layer
Multiple electric cabinets are installed, multiple electric cabinets are corresponded with multiple second monitor areas and set, and the inside of each electric cabinet
A zone control is placed with, the zone control in same second monitor area has identical volume
Number, the zone control includes second processing unit, and the first input end of second processing unit is electrically connected with second
The output end of radio receiving unit, the first output end of the second processing unit is electrically connected with the input of the first synchronization unit
End, and the first output end of the first synchronization unit is electrically connected with the input of the second synchronization unit, second synchronization unit
Output end be electrically connected with multiple electric control valves, and multiple electric control valves are respectively positioned on the inside of same second monitor area,
It is mounted on secondary duct on multiple electric control valves, and electric control valve is arranged on main pipeline by corresponding secondary duct, described the
Second output end of one synchronization unit is electrically connected with the input of delay unit, and the output end of delay unit is electrically connected with
The input of 3rd synchronization unit, the output end of the 3rd synchronization unit, which is electrically connected with, multiple is located at the same second monitoring
Automatically controlled shower nozzle in region, and automatically controlled shower nozzle is on corresponding electric control valve.
Preferably, the infrared inductor includes sensing unit, and sensing unit is used for the second monitored space to place
Domain carries out condition of a fire detection, and the output end of the sensing unit is electrically connected with the first input end of infrared control unit, and infrared
Control unit is placed in the inside of infrared inductor, and the first output end of the infrared control unit is electrically connected with positioning unit
Input, and the output end of positioning unit and the second input of infrared control unit be electrically connected with, and the positioning unit is used
Positioned in the second monitor area to place, it is wireless that the second output end of the infrared control unit is electrically connected with first
The input of transmitting element.
Preferably, the master control platform includes first processing units, and the first input end of first processing units is electrical
The first output end of the first radio receiving unit is connected with, first radio receiving unit and the first wireless transmission unit pass through
Wireless connection, the first output end of the first processing units is electrically connected with the control end for transferring unit, described to transfer unit
The first output end be electrically connected with the input of memory cell, the memory cell is used to store the residing for infrared inductor
Number information corresponding to the positional information and zone control of two monitor areas, and the residing for storage infrared inductor
Number information corresponding to the positional information and zone control of two monitor areas has relevance, described to transfer the of unit
Two output ends are electrically connected with the first input end of contrast matching unit, and the second input and the first nothing of contrast matching unit
Second output end of line receiving unit is electrically connected with, and the second of the control end for contrasting matching unit and first processing units is defeated
Go out end to be electrically connected with, and the output end of contrast matching unit and the second input of first processing units are electrically connected with, described the
3rd output end of one processing unit is electrically connected with the input of the second wireless transmission unit, and the second wireless transmission unit and
Second radio receiving unit is wirelessly transferred.
Preferably, it is described to transfer the control signal that unit is used to receive first processing units transmission, then transfer unit root
The information inside memory cell is transferred according to the control signal transmitted by first processing units, finally transferring unit will be from depositing
The information that storage unit is transferred is sent on contrast matching unit.
Preferably, the contrast matching unit transfers unit transmitted information and the first radio receiving unit for reception
Transmitted location information, then contrast matching unit will transfer unit transmitted information and the first radio receiving unit is sent out
The location information sent is analyzed, and finally contrasts matching unit and is sent to the number information of corresponding zone control
In first processing units.
Preferably, the delay unit is used to receive the control signal transmitted by the first synchronization unit, then delay unit
The control signal received is subjected to delay process, last delay unit is sent control signals on the 3rd synchronization unit.
The invention also provides a kind of construction method of Building Fire Protection system, comprise the following steps:
S1:Equidistantly carry out that multiple core layer locating templates are installed in the inside of architecture storey first;
S2:Main pipeline is installed in the inside of core layer locating template described in S1, then installs multigroup in the both sides of main pipeline
Secondary duct, multigroup secondary duct is located in corresponding second monitor area respectively, and every group of secondary duct is located at the second prison including multiple
Control the secondary duct in region;
S3:Casting concrete is carried out on core layer locating template described in S1, is then installed in the outside of concrete
Heat-insulation layer, carries out removing core layer locating template after concrete condenses completely;
S4:The outside of heat-insulation layer described in S3 is installed by resistant to elevated temperatures barrier layer;
S5:Installation electric control valve is carried out in secondary duct described in S2, installation electric spray is then carried out on electric control valve;
S6:The side roof part chisel of barrier layer described in S4 away from core layer set be provided with inside mounting groove, mounting groove it is automatically controlled
Zone control is carried on case, electric cabinet;
S7:Zone control described in S6 carries out wiring with corresponding electric control valve and electric spray respectively, and region is controlled
Device processed is wirelessly transferred with master control platform;
S8:The inside of the second monitor area described in S2 is installed by infrared inductor, and infrared inductor and master control
Platform is wirelessly transferred.
Beneficial effects of the present invention:
1st, architecture storey is divided into multiple first monitor areas by fire wall, and the first monitor area is divided into multiple second prisons again
Region is controlled, the inside of each second monitor area is fitted with one and filled with the infrared induction that master control platform is wirelessly transferred
Put, Building Fire Protection system can carry out more accurate detection to the condition of a fire of architecture storey;
2nd, by the infrared inductor in each second monitor area, master control platform, in electric cabinet
Zone control, multiple electric control valves in each second monitor area and installed in each second monitoring
Multiple electric sprays in region are engaged, and Building Fire Protection system can go out to the second monitor area for the condition of a fire occur automatically
Fire operation;
The present invention can not only carry out more accurate detection to the condition of a fire of architecture storey, and Building Fire Protection system can also be automatic
Fire-extinguishing operations are carried out to there is the second monitor area of the condition of a fire.
Brief description of the drawings
Fig. 1 is a kind of front view of Building Fire Protection system proposed by the present invention;
Fig. 2 is a kind of side view of the fire wall of Building Fire Protection system proposed by the present invention;
Fig. 3 is a kind of fundamental diagram of Building Fire Protection system proposed by the present invention;
Fig. 4 is a kind of fundamental diagram of the infrared inductor of Building Fire Protection system proposed by the present invention;
Fig. 5 is a kind of fundamental diagram of the master control platform of Building Fire Protection system proposed by the present invention;
Fig. 6 is a kind of fundamental diagram of the zone control of Building Fire Protection system proposed by the present invention.
In figure:1 architecture storey, 2 first monitor areas, 3 second monitor areas, 4 infrared inductors, 5 core layers, 6 masters
Pipeline, 7 barrier layers, 8 electric cabinets, 9 electric control valves, 10 electric sprays, 11 secondary ducts.
Embodiment
The present invention is made with reference to specific embodiment further to explain.
Embodiment
With reference to Fig. 1-6, the present invention proposes a kind of Building Fire Protection system, including building body, and building body includes multiple
Architecture storey 1, the inside spaced set of architecture storey 1 has multiple fire walls, and architecture storey 1 is separated by multiple fire walls
For multiple first monitor areas 2, each first monitor area 2 is divided into multiple second monitor areas 3, and each second monitored space
The inside in domain 3 is mounted on an infrared inductor 4, and infrared inductor 4 includes sensing unit, and sensing unit is used for pair
Second monitor area 3 at place carries out condition of a fire detection, and the output end of sensing unit is electrically connected with the first of infrared control unit
Input, and infrared control unit is placed in the inside of infrared inductor 4, the first output end of infrared control unit is electrically connected with
There is the input of positioning unit, and the output end of positioning unit and the second input of infrared control unit are electrically connected with, positioning
Unit is used to position second monitor area 3 at place, and the second output end of infrared control unit is electrically connected with first
The input of unit is transmitted wirelessly, infrared inductor 4 includes first by being wirelessly connected with master control platform, master control platform
Processing unit, and the first input end of first processing units is electrically connected with the first output end of the first radio receiving unit,
One radio receiving unit and the first wireless transmission unit are by wireless connection, and the first output end of first processing units is electrically connected with
There is the control end for transferring unit, the first output end for transferring unit is electrically connected with the input of memory cell, and memory cell is used for
Number information corresponding to the positional information and zone control of the second monitor area 3 residing for storage infrared inductor 4,
And the numbering corresponding to the positional information and zone control of the second monitor area 3 residing for storage infrared inductor 4 is believed
Breath has relevance, and the second output end for transferring unit is electrically connected with the first input end of contrast matching unit, and contrast
Second output end of the second input and the first radio receiving unit with unit is electrically connected with, and contrasts the control end of matching unit
Be electrically connected with the second output end of first processing units, and contrast matching unit output end and first processing units second
Input is electrically connected with, and the 3rd output end of first processing units is electrically connected with the input of the second wireless transmission unit, and
Second wireless transmission unit and the second radio receiving unit are wirelessly transferred, and the output end of master control platform passes through wireless connection
There are multiple zone controls, multiple zone controls and multiple second monitor areas 3, which are corresponded, to be set, and fire wall includes
The core layer 5 inside architecture storey 1 is cast in, and core layer 5 includes concrete and the heat-insulation layer being arranged on the outside of concrete, core
The inside of central layer 5 is provided with main pipeline 6, and the both sides of core layer 5 are equipped with the barrier layer 7 being connected with architecture storey 1, barrier
Layer 7 is resistant to elevated temperatures engine firewall, and a side roof part of the barrier layer 7 away from core layer 5 is provided with multiple electric cabinets 8, multiple automatically controlled
Case 8 is corresponded with multiple second monitor areas 3 and set, and the inside of each electric cabinet 8 is placed with a Region control dress
Put, the zone control in same second monitor area 3, which has, to be identically numbered, and zone control includes second
Processing unit, and the first input end of second processing unit is electrically connected with the output end of the second radio receiving unit, second
First output end of reason unit is electrically connected with the input of the first synchronization unit, and the first output end electricity of the first synchronization unit
Property is connected with the input of the second synchronization unit, and the output end of the second synchronization unit is electrically connected with multiple electric control valves 9, and many
Individual electric control valve 9 is respectively positioned on the inside of same second monitor area 3, multiple electric control valves 9 and is mounted on secondary duct 11, and
Electric control valve 9 is arranged on main pipeline 6 by corresponding secondary duct 11, and the second output end of the first synchronization unit is electrically connected with
The input of delay unit, and the output end of delay unit is electrically connected with the input of the 3rd synchronization unit, the 3rd is synchronous single
The output end of member is electrically connected with multiple automatically controlled shower nozzles 10 in same second monitor area 3, and automatically controlled shower nozzle 10 is pacified
On corresponding electric control valve 9, architecture storey 1 is divided into multiple first monitor areas 2, the first monitored space by fire wall
Domain 2 is divided into multiple second monitor areas 3 again, and the inside of each second monitor area 3 is fitted with one and master control platform
The infrared inductor 4 being wirelessly transferred, Building Fire Protection system can carry out more accurate inspection to the condition of a fire of architecture storey 1
Survey, by the infrared inductor 4 in each second monitor area 3, master control platform, in electric cabinet 8
Zone control, multiple electric control valves 9 in each second monitor area 3 and installed in each second prison
Multiple electric sprays 10 in control region 3 are engaged, and Building Fire Protection system can be automatically to the second monitor area 3 of the condition of a fire occur
Fire-extinguishing operations are carried out, the present invention can not only carry out more accurate detection, and Building Fire Protection system to the condition of a fire of architecture storey 1
Automatically fire-extinguishing operations can also be carried out to there is the second monitor area 3 of the condition of a fire.
In the present embodiment, the control signal that unit is used to receive first processing units transmission is transferred, unit root is then transferred
The information inside memory cell is transferred according to the control signal transmitted by first processing units, finally transferring unit will be from depositing
The information that storage unit is transferred is sent on contrast matching unit, and contrast matching unit is used to receive the letter transferred transmitted by unit
Breath and the first radio receiving unit transmitted by location information, then contrast matching unit will transfer unit transmitted information and
Location information transmitted by first radio receiving unit is analyzed, and finally contrasts matching unit by corresponding Region control
The number information of device is sent in first processing units, and delay unit is used to receive the control letter transmitted by the first synchronization unit
Number, then the control signal received is carried out delay process by delay unit, and last delay unit sends control signals to the
On three synchronization units, architecture storey 1 is divided into multiple first monitor areas 2 by fire wall, and the first monitor area 2 is divided into again
Multiple second monitor areas 3, the inside of each second monitor area 3 is fitted with one and is wirelessly transferred with master control platform
Infrared inductor 4, Building Fire Protection system can carry out more accurate detection to the condition of a fire of architecture storey 1, pass through and install
Infrared inductor 4, master control platform in each second monitor area 3, the dress of the Region control in electric cabinet 8
Put, multiple electric control valves 9 in each second monitor area 3 and in each second monitor area 3
Multiple electric sprays 10 are engaged, and Building Fire Protection system can carry out fire extinguishing behaviour to there is the second monitor area 3 of the condition of a fire automatically
Make, the present invention can not only carry out more accurate detection to the condition of a fire of architecture storey 1, and Building Fire Protection system can also be automatic
Fire-extinguishing operations are carried out to there is the second monitor area 3 of the condition of a fire.
In the present embodiment, architecture storey 1 is divided into multiple first monitor areas 2 by fire wall, and the first monitor area 2 is again
Multiple second monitor areas 3 are divided into, the inside of each second monitor area 3 is fitted with one and carries out nothing with master control platform
The infrared inductor 4 of line transmission, multiple infrared inductors 4 in Building Fire Protection system can be to second monitored space at place
Domain 3 is monitored in real time, and Building Fire Protection system allows to carry out the condition of a fire of architecture storey 1 more accurate detection, when building
When building some second monitor area 3 in floor 1 and the condition of a fire occur, the infrared detection dress inside the second monitor area 3 is now placed in
Put 4 and the condition of a fire is detected by sensing unit, sensing unit controls positioner to be positioned by infrared control unit, position
Location information is transferred on infrared control unit by device, and infrared control unit is wireless by the first wireless transmission unit and first
Receiving unit is triggered to first processing units, while infrared control unit is wireless by the first wireless transmission unit and first
Location information is sent on contrast matching unit by receiving unit, and first processing units send control signal to unit is transferred, and is adjusted
Take control signal of the unit according to transmitted by first processing units to transfer the information inside memory cell, transfer unit simultaneously
The information transferred from memory cell is sent on contrast matching unit, contrast matching unit will transfer letter transmitted by unit
Location information transmitted by breath and the first radio receiving unit is analyzed, and contrasts matching unit and controls corresponding region
The number information of device processed is sent in first processing units, and first processing units pass through the second wireless transmission unit and the second nothing
The zone control that line receiving unit is pointed at condition of a fire position is controlled, the second processing list in the zone control
Multiple electric control valves 9 that member is pointed to by the first synchronization unit and the second synchronization unit at condition of a fire position synchronize opening,
Meanwhile, the second processing unit in the zone control passes through the first synchronization unit, delay unit and the 3rd synchronization unit pair
Multiple electric sprays 10 at condition of a fire position synchronize startup so that the firing-fighting medium in main pipeline 6 passes sequentially through pair
Pipeline 11, electric control valve 9 and electric spray 10, are finally sprayed with automatically controlled shower nozzle 10, now the second monitoring where the condition of a fire
Multiple electric sprays 10 in region 3 carry out fire-extinguishing operations simultaneously.
The present embodiment also proposed a kind of construction method of Building Fire Protection system, comprise the following steps:
S1:Equidistantly carry out that multiple core layer locating templates are installed in the inside of architecture storey 1 first;
S2:Main pipeline 6 is installed in the inside of core layer locating template described in S1, then installs many in the both sides of main pipeline 6
Group secondary duct 11, multigroup secondary duct 11 is located in corresponding second monitor area 3 respectively, and every group of secondary duct 11 includes multiple positions
In the secondary duct 11 of the second monitor area 3;
S3:Casting concrete is carried out on core layer locating template described in S1, is then installed in the outside of concrete
Heat-insulation layer, carries out removing core layer locating template after concrete condenses completely;
S4:The outside of heat-insulation layer described in S3 is installed by resistant to elevated temperatures barrier layer 7;
S5:Carry out that electric control valve 9 is installed in secondary duct 11 described in S2, then carry out installing electronic on electric control valve 9
Shower nozzle 10;
S6:Side roof part chisel of the barrier layer 7 away from core layer 5 described in S4 is set is provided with electricity inside mounting groove, mounting groove
Control and zone control is carried on case 8, electric cabinet 8;
S7:Zone control described in S6 carries out wiring, and region with corresponding electric control valve 9 and electric spray 10 respectively
Control device is wirelessly transferred with master control platform;
S8:The inside of the second monitor area 3 described in S2 is installed by infrared inductor 4, and infrared inductor 4 and master control
Platform processed is wirelessly transferred.
The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto,
Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its
Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.
Claims (7)
1. a kind of Building Fire Protection system, including building body, the building body include multiple architecture storeys(1), the building
Floor(1)Inside spaced set have multiple fire walls, and architecture storey(1)It is divided into multiple first by multiple fire walls
Monitor area(2), it is characterised in that each first monitor area(2)It is divided into multiple second monitor areas(3), and each
Two monitor areas(3)Inside be mounted on an infrared inductor(4), the infrared inductor(4)By wirelessly connecting
Master control platform is connected to, and the output end of master control platform is controlled by being wirelessly connected with multiple zone controls, multiple regions
Device processed and multiple second monitor areas(3)Correspond and set, the fire wall includes being cast in architecture storey(1)Internal
Core layer(5), and core layer(5)Including concrete and the heat-insulation layer being arranged on the outside of concrete, the core layer(5)Inside
Main pipeline is installed(6), and core layer(5)Both sides be equipped with and architecture storey(1)The barrier layer being connected(7), the resistance
Interlayer(7)For resistant to elevated temperatures engine firewall, and barrier layer(7)Away from core layer(5)A side roof part multiple electric cabinets are installed
(8), multiple electric cabinets(8)With multiple second monitor areas(3)Correspond and set, and each electric cabinet(8)Inside put
A zone control is equipped with, positioned at same second monitor area(3)Interior zone control, which has, to be identically numbered,
The zone control includes second processing unit, and to be electrically connected with second wireless for the first input end of second processing unit
The output end of receiving unit, the first output end of the second processing unit is electrically connected with the input of the first synchronization unit,
And first first output end of synchronization unit be electrically connected with the input of the second synchronization unit, second synchronization unit it is defeated
Go out end and be electrically connected with multiple electric control valves(9), and multiple electric control valves(9)It is respectively positioned on same second monitor area(3)'s
Inside, multiple electric control valves(9)On be mounted on secondary duct(11), and electric control valve(9)Pass through corresponding secondary duct(11)Peace
Mounted in main pipeline(6)On, the second output end of first synchronization unit is electrically connected with the input of delay unit, and delay
The output end of unit is electrically connected with the input of the 3rd synchronization unit, and the output end of the 3rd synchronization unit is electrically connected with
It is multiple to be located at same second monitor area(3)Interior automatically controlled shower nozzle(10), and automatically controlled shower nozzle(10)Installed in corresponding electricity
Control valve(9)On.
2. a kind of Building Fire Protection system according to claim 1, it is characterised in that the infrared inductor(4)Including
Sensing unit, and sensing unit is used for the second monitor area to place(3)Carry out condition of a fire detection, the output of the sensing unit
End is electrically connected with the first input end of infrared control unit, and infrared control unit is placed in infrared inductor(4)Inside,
First output end of the infrared control unit is electrically connected with the input of positioning unit, and the output end of positioning unit and red
Second input of outer control unit is electrically connected with, and the positioning unit is used for the second monitor area to place(3)Determined
Position, the second output end of the infrared control unit is electrically connected with the input of the first wireless transmission unit.
3. a kind of Building Fire Protection system according to claim 1, it is characterised in that the master control platform is included at first
Unit is managed, and the first input end of first processing units is electrically connected with the first output end of the first radio receiving unit, it is described
First radio receiving unit and the first wireless transmission unit pass through wireless connection, the first output end electricity of the first processing units
Property be connected with the control end for transferring unit, first output end for transferring unit is electrically connected with the input of memory cell, institute
Stating memory cell is used to store infrared inductor(4)The second residing monitor area(3)Positional information and Region control dress
Put corresponding number information, and storage infrared inductor(4)The second residing monitor area(3)Positional information and region
Number information corresponding to control device has relevance, and second output end for transferring unit is electrically connected with contrast matching
The first input end of unit, and the second input of contrast matching unit and the second output end of the first radio receiving unit are electrical
Connection, the control end of the contrast matching unit and the second output end of first processing units are electrically connected with, and contrast matching is single
The output end of member and the second input of first processing units are electrically connected with, and the 3rd output end of the first processing units is electrical
The input of the second wireless transmission unit is connected with, and the second wireless transmission unit and the second radio receiving unit are wirelessly passed
It is defeated.
4. a kind of Building Fire Protection system according to claim 3, it is characterised in that it is described transfer unit be used for receive first
The control signal that processing unit is sent, then transfers control signal of the unit according to transmitted by first processing units to memory cell
Internal information is transferred, and finally transfers unit and the information transferred from memory cell is sent on contrast matching unit.
5. a kind of Building Fire Protection system according to claim 3, it is characterised in that the contrast matching unit is used to receive
Unit transmitted information and the location information transmitted by the first radio receiving unit are transferred, then contrasting matching unit will transfer
Location information transmitted by unit transmitted information and the first radio receiving unit is analyzed, and finally contrast matching is single
The number information of corresponding zone control is sent in first processing units by member.
6. a kind of Building Fire Protection system according to claim 1, it is characterised in that the delay unit is used to receive first
Control signal transmitted by synchronization unit, then delay unit by the control signal received carry out delay process, be finally delayed
Unit is sent control signals on the 3rd synchronization unit.
7. a kind of construction method of Building Fire Protection system, it is characterised in that comprise the following steps:
S1:First in architecture storey(1)Inside equidistantly carry out that multiple core layer locating templates are installed;
S2:The inside of core layer locating template described in S1 is installed by main pipeline(6), then in main pipeline(6)Both sides peace
Fill multigroup secondary duct(11), multigroup secondary duct(11)It is located at corresponding second monitor area respectively(3)It is interior, and every group of secondary duct
(11)It is located at the second monitor area including multiple(3)Secondary duct(11);
S3:Casting concrete is carried out on core layer locating template described in S1, is then installed in the outside of concrete
Heat-insulation layer, carries out removing core layer locating template after concrete condenses completely;
S4:The outside of heat-insulation layer described in S3 is installed by resistant to elevated temperatures barrier layer(7);
S5:Secondary duct described in S2(11)Upper progress installation electric control valve(9), then in electric control valve(9)It is upper to be pacified
Fill electric spray(10);
S6:Barrier layer described in S4(7)Away from core layer(5)Side roof part chisel set mounting groove, installed inside mounting groove
There is electric cabinet(8), electric cabinet(8)It is upper to carry zone control;
S7:Zone control described in S6 respectively with corresponding electric control valve(9)And electric spray(10)Wiring is carried out, and
Zone control is wirelessly transferred with master control platform;
S8:The second monitor area described in S2(3)Inside install infrared inductor(4), and infrared inductor(4)
It is wirelessly transferred with master control platform.
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CN104658162A (en) * | 2013-11-19 | 2015-05-27 | 西安奥赛福科技有限公司 | Fire alarm control system |
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CN108969944B (en) * | 2018-07-05 | 2021-03-19 | 黄河科技学院 | Fire-proof device for building facade |
CN110485590A (en) * | 2019-08-21 | 2019-11-22 | 赖建林 | A kind of fire proof construction steel construction |
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