CN109224352B - Fire-fighting automation equipment for high-rise and super-high-rise buildings and application method thereof - Google Patents
Fire-fighting automation equipment for high-rise and super-high-rise buildings and application method thereof Download PDFInfo
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- CN109224352B CN109224352B CN201811285361.XA CN201811285361A CN109224352B CN 109224352 B CN109224352 B CN 109224352B CN 201811285361 A CN201811285361 A CN 201811285361A CN 109224352 B CN109224352 B CN 109224352B
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- A—HUMAN NECESSITIES
- A62—LIFE-SAVING; FIRE-FIGHTING
- A62C—FIRE-FIGHTING
- A62C37/00—Control of fire-fighting equipment
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- A—HUMAN NECESSITIES
- A62—LIFE-SAVING; FIRE-FIGHTING
- A62B—DEVICES, APPARATUS OR METHODS FOR LIFE-SAVING
- A62B3/00—Devices or single parts for facilitating escape from buildings or the like, e.g. protection shields, protection screens; Portable devices for preventing smoke penetrating into distinct parts of buildings
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- A—HUMAN NECESSITIES
- A62—LIFE-SAVING; FIRE-FIGHTING
- A62C—FIRE-FIGHTING
- A62C31/00—Delivery of fire-extinguishing material
- A62C31/02—Nozzles specially adapted for fire-extinguishing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25J—MANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
- B25J18/00—Arms
- B25J18/02—Arms extensible
- B25J18/04—Arms extensible rotatable
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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- Health & Medical Sciences (AREA)
- Business, Economics & Management (AREA)
- Emergency Management (AREA)
- Engineering & Computer Science (AREA)
- Public Health (AREA)
- Robotics (AREA)
- Mechanical Engineering (AREA)
- General Health & Medical Sciences (AREA)
- Fire-Extinguishing By Fire Departments, And Fire-Extinguishing Equipment And Control Thereof (AREA)
- Emergency Lowering Means (AREA)
Abstract
The application relates to fire-fighting automation equipment for high-rise and super-high-rise buildings and a use method thereof, wherein the fire-fighting automation equipment comprises a skirt house, a plurality of floors are built above the skirt house, a plurality of fire-fighting devices are sequentially arranged in the floors at intervals from bottom to top, and a working arm assembly of each fire-fighting device can rotate 360 degrees around a hinge point and stretches in the length direction of the working arm assembly; the fire fighting device is also connected with an automatic alarm or a remote control device through a PLC program. The automatic work is quick and sensitive in action and good in rescue effect.
Description
Technical Field
The application relates to the technical field of fire control of buildings, in particular to fire control automation equipment for high-rise and super-high-rise buildings and a use method thereof.
Background
At present, with the development of urban economy, high-rise buildings are continuously increased, and the rapid development of high-rise buildings in China is mainly determined by urban population concentration and construction land shortage besides building functions and urban planning. Under the condition that the population is more and the urban land is more and more intense, the construction of high-rise buildings can effectively save land resources, reduce building cost, improve urban greening rate and improve living environment of urban residents. Some high buildings now even reach more than 100 floors.
In the prior art, when a fire-fighting fire occurs, a call is usually made to give an alarm, a firefighter holds a fire-fighting water pipe or a fire extinguisher to extinguish the fire, but because of a high-rise building, the fire occurs on a floor at a higher level, the firefighter can not reach the point of the fire even if adopting a fire-fighting aerial ladder, the fire-fighting measure is slow in-place speed, and the fire development is fast, so that the expected fire-fighting effect can not be achieved.
Disclosure of Invention
Aiming at the defects in the prior art, the inventor provides a fire-fighting automation device for high-rise and super-high-rise buildings and a use method thereof, so that fire extinguishment or other rescue matters can be automatically and rapidly completed at any fire point of the high-rise buildings, and the safety and effectiveness of rescue are greatly improved.
The technical scheme adopted by the application is as follows:
the utility model provides a high-rise and super high-rise building fire control automation equipment, includes the skirt room, has constructed the multilayer floor above the skirt room, inside the floor, from down upwards the interval in proper order install a plurality of fire control unit, every fire control unit's work arm subassembly can carry out 360 rotations around the pin joint to stretch out and draw back in the length direction of work arm subassembly itself; the fire fighting device is also connected with an automatic alarm or a remote control device through a PLC program.
As a further improvement of the above technical scheme:
the structure of the single fire-fighting device is as follows: the automatic window is embedded into the outer wall surface, a fixed rod assembly is arranged opposite to the outer wall surface, a horizontal hydraulic cylinder is fixed on the fixed rod assembly, a working arm assembly is arranged at the head of a piston rod of the hydraulic cylinder and consists of a telescopic arm and a working main arm, and a universal joint is arranged at the head of the working main arm; the working arm assembly is in butt joint with the automatic window; the outside cover of pneumatic cylinder has put square pipe, fire control member gyro wheel is installed to lower floor upper surface, and the protection frame is installed to the bottom surface of the one end of going up the floor, the bottom surface of protection frame is installed and is prevented toppling the gyro wheel, fire control member gyro wheel upper portion be square pipe, the top surface of square pipe is fixed with the motor, the top surface of motor and prevent toppling the gyro wheel cooperation, rotatory water pipe is connected to the output of motor, rotatory water pipe stretches into in the work arm subassembly.
The fire fighting device is installed inside the floor at intervals of 60 meters.
One end of the rotary water pipe is connected with a water source.
The telescopic boom is internally penetrated with a water spray pipe communicated with the rotary water pipe, and a hydraulic rod piece is arranged at a hinge point at one end of the telescopic boom to drive the single telescopic boom to extend and retract.
Six sections of telescopic arms are arranged in total, and the structure and the size of each section of telescopic arm are the same.
The length of the telescopic arm and the working main arm is six meters.
The universal joint of the working main arm is connected with a spray head, a cleaning roller or a personnel rescue frame.
The method for using the fire-fighting automation equipment for the high-rise and super-high-rise buildings adopts a computer full-automatic control mode and mainly comprises the following operation steps:
the first step: when a fire is found at a certain position, the fire triggers an automatic alarm to provide a specific position for alarming, and a computer instruction is used for controlling the automatic alarm;
and a second step of: automatic window opening;
and a third step of: the hydraulic cylinder works to control the extension of the double-section piston, so that the whole working arm assembly is controlled to extend out of the wall of the automatic window;
fourth step: the working arm assembly is automatically unfolded outside the wall;
fifth step: the motor works to drive the rotary water pipe to rotate, so that the rotary water pipe is driven to reach a specific fire position, the glass wall or window outside the fire position is smashed, the water pump at the water source is automatically started, and the fire extinguishing work is carried out on the fire position;
sixth step: continuously extinguishing fire until the fire source is extinguished;
seventh step: after the fire is extinguished, the water pump at the water source is turned off, the working arm assembly is retracted, the hydraulic cylinder is controlled to retract, and the working arm assembly is reset.
The application method of the fire-fighting automation equipment for the high-rise and super-high-rise buildings adopts manual remote control, and mainly comprises the following operation steps:
the first step: a fire is found at a certain location;
and a second step of: alarming is carried out manually, and a firefighter on duty uses a remote control sensor to carry out instruction operation;
and a third step of: remote control opening the window;
fourth step: the hydraulic cylinder works to control the extension of the double-section piston, so that the whole working arm assembly is controlled to extend out of the wall of the automatic window;
fifth step: the motor works to drive the rotary water pipe to rotate, so that the rotary water pipe is driven to reach a specific fire position, the glass wall or window outside the fire position is smashed, the water pump at the water source is automatically started, and the fire extinguishing work is carried out on the fire position;
sixth step: continuously extinguishing fire until the fire source is extinguished;
seventh step: after the fire is extinguished, the water pump at the water source is turned off, the working arm assembly is retracted, the hydraulic cylinder is controlled to retract, and the working arm assembly is reset.
The beneficial effects of the application are as follows:
the fire-fighting equipment is compact and reasonable in structure and convenient to operate, and can automatically and rapidly finish fire-fighting or other rescue matters under the condition of disaster through installing the fire-fighting equipment in the building, so that the safety and effectiveness of rescue are greatly improved, and the time is saved.
The head of the working main arm is provided with the universal joint, so that various spray heads can be randomly arranged, and spray, water spray, spray or fire extinguishing foam which are actually required can be realized.
The universal joint can be provided with the cleaning roller, so that the outer wall can be comprehensively cleaned. Meanwhile, support work is performed under other disaster situations.
The application does not need to be installed in each floor, can be used for spacing multi-storey buildings, and has long length of each working arm assembly and wide rescue range.
According to the application, according to the actual situation of the scene, the indoor firefighters can be directly connected with the fire-fighting faucet to perform fire extinguishing operation on the indoor fire place.
The application can also carry out rescue work under the condition of fire in high-rise buildings.
Drawings
Fig. 1 is a front view of the present application.
Fig. 2 is a schematic view of the structure of the single fire fighting device of the present application (non-operating state).
Fig. 3 is a full cross-sectional view taken along section A-A in fig. 2.
Fig. 4 is a full sectional view taken along section B-B in fig. 2.
Fig. 5 is a schematic view of the construction of a single fire protection device of the present application (working arm assembly extended state).
Fig. 6 is a schematic view of the construction of a single fire protection device of the present application (with the working arm assembly fully open).
Wherein: 1. a floor; 2. a working arm assembly; 3. a skirt house; 4. an outer wall surface; 5. an automatic window; 6. upstairs; 7. a working main arm; 8. a telescoping arm; 9. fire control member roller; 10. downstairs; 11. a hinge point; 12. a hydraulic cylinder; 13. a protective frame; 14. anti-overturning idler wheels; 15. a motor; 16. a fixed rod assembly; 17. a water spray pipe; 18. rotating the water pipe; 19. a hydraulic rod; 20. square tubes.
Detailed Description
The following describes specific embodiments of the present application with reference to the drawings.
As shown in fig. 1, 2, 3, 4, 5 and 6, the fire-fighting automation device for high-rise and super-high-rise buildings of the embodiment comprises a skirt house 3, wherein a plurality of floors 1 are constructed above the skirt house 3, a plurality of fire-fighting devices are sequentially installed in the floors 1 at intervals from bottom to top, and a working arm assembly 2 of each fire-fighting device can rotate 360 degrees around a hinge point 11 and stretches in the length direction of the working arm assembly 2; the fire fighting device is also connected with an automatic alarm or a remote control device through a PLC program.
The structure of the single fire-fighting device is as follows: the automatic window comprises a lower floor 10 and an upper floor 6 which are spaced at a certain floor 1, wherein one ends of the lower floor 10 and the upper floor 6 are outer wall surfaces 4, an automatic window 5 is embedded in each outer wall surface 4, a fixed rod assembly 16 is arranged opposite to each outer wall surface 4, a horizontal hydraulic cylinder 12 is fixed on each fixed rod assembly 16, a piston rod head working arm assembly 2 of each hydraulic cylinder 12, the working arm assembly 2 consists of a telescopic arm 8 and a working main arm 7, and a universal joint is arranged at the head of each working main arm 7; the working arm assembly 2 is in butt joint with the automatic window 5; the outside cover of pneumatic cylinder 12 has put square pipe 20, and fire control member gyro wheel 9 is installed to the upper surface of lower floor 10, and protection frame 13 is installed to the bottom surface of the one end of upper floor 6, and protection frame 13's bottom surface is installed and is prevented toppling gyro wheel 14, and fire control member gyro wheel 9 upper portion is square pipe 20, and square pipe 20's top surface is fixed with motor 15, and motor 15's top surface cooperates with preventing toppling gyro wheel 14, and rotary water pipe 18 is connected to motor 15's output, and rotary water pipe 18 stretches into in the work arm subassembly 2.
The fire fighting device is installed inside the floor 1 at intervals of 60 meters.
One end of the rotary water pipe 18 is connected to a water source.
A water spray pipe 17 communicated with a rotary water pipe 18 penetrates into the telescopic arm 8, and a hydraulic rod piece 19 is installed at a hinge point 11 at one end of the telescopic arm 8 to drive the single telescopic arm 8 to extend and retract.
The telescopic arms 8 are provided with six sections in total, and the structure and the size of each section of telescopic arm 8 are the same.
The telescopic arm 8 and the working main arm 7 are six meters in length.
The universal joint of the working main arm 7 is connected with a spray head, a cleaning roller or a personnel rescue frame.
The application method of the fire-fighting automation equipment for the high-rise and super-high-rise buildings of the embodiment adopts a computer full-automatic control mode and mainly comprises the following operation steps:
the first step: when a fire is found at a certain position, the fire triggers an automatic alarm to provide a specific position for alarming, and a computer instruction is used for controlling the automatic alarm;
and a second step of: the automatic window 5 is opened;
and a third step of: the hydraulic cylinder 12 works to control the extension of the double-section piston, so as to control the extension of the whole working arm assembly 2 out of the wall of the automatic window 5;
fourth step: the working arm assembly 2 is automatically unfolded outside the wall;
fifth step: the motor 15 works to drive the rotary water pipe 18 to rotate, so that the rotary water pipe 17 is driven to reach a specific fire position, the glass wall or window outside the fire position is smashed, the water pump at the water source is automatically started, and the fire extinguishing work is carried out on the fire position;
sixth step: continuously extinguishing fire until the fire source is extinguished;
seventh step: after the fire is extinguished, the water pump at the water source is turned off, the working arm assembly 2 is retracted, the hydraulic cylinder 12 is controlled to retract, and the working arm assembly 2 is reset.
The application method of the fire-fighting automation equipment for the high-rise and super-high-rise buildings of the embodiment adopts manual remote control and mainly comprises the following operation steps:
the first step: a fire is found at a certain location;
and a second step of: alarming is carried out manually, and a firefighter on duty uses a remote control sensor to carry out instruction operation;
and a third step of: remote control opening the window;
fourth step: the hydraulic cylinder 12 works to control the extension of the double-section piston, so as to control the extension of the whole working arm assembly 2 out of the wall of the automatic window 5;
fifth step: the motor 15 works to drive the rotary water pipe 18 to rotate, so that the rotary water pipe 17 is driven to reach a specific fire position, the glass wall or window outside the fire position is smashed, the water pump at the water source is automatically started, and the fire extinguishing work is carried out on the fire position;
sixth step: continuously extinguishing fire until the fire source is extinguished;
seventh step: after the fire is extinguished, the water pump at the water source is turned off, the working arm assembly 2 is retracted, the hydraulic cylinder 12 is controlled to retract, and the working arm assembly 2 is reset.
The whole fire fighting device is arranged in a building floor 1, all equipment is indoor at ordinary times, and a working arm assembly 2 is extended out through a computer automatic program or a remote control device to treat disaster situations.
Due to the action of the telescopic arm 8, the telescopic arm has the practical working range that the telescopic arm extends out 7-8 meters at maximum and has wide working range.
In the actual use process, if a point suddenly fires, the bottom 360-degree rotating water outlet pipe is in variable-speed transmission at the end motor 15, and after the whole fire extinguishing pipeline stretches out of the building wall, the fire extinguishing pipeline gradually rotates to reach an accident point according to the accident point. The fire pipe is pushed out of the wall or retracted at the bottom end by a hydraulic double-jointed rod. After other fire-fighting pipelines are pushed out of the wall, each node is provided with a hydraulic rod piece 19 for operation extension or retraction, the fire-fighting pipelines are except for fixed telescopic pipelines, six sections of other fire-fighting pipeline meters are moved by a bearing wheel disc for ensuring stability when reaching the fixed telescopic fire-fighting pipeline at will according to disaster points, the bearing wheel disc for the bottom is arranged on the upper part of the motor 15 gearbox, the bearing wheel disc must slide in a channel steel groove, and the fire-fighting pipelines at the bottom are ensured to be stable when being extended or retracted and the fire-fighting pipeline at the outside of the wall rotates by 360 degrees. The fire extinguishing pipe fixed at the bottom can retract according to the setting condition of the outer wall building after sending other fire extinguishing pipes out of the wall, so that the damage to fire extinguishing equipment caused by too much of the fire extinguishing pipe extending out of the wall is reduced. The whole fire-fighting operation has good reliability and high working efficiency.
The above description is intended to illustrate the application and not to limit it, the scope of which is defined by the claims, and any modifications can be made within the scope of the application.
Claims (3)
1. The utility model provides a high-rise and super high-rise building fire control automation equipment, includes skirt room (3), and multi-layer floor (1), its characterized in that have been constructed to skirt room (3) top: a plurality of fire fighting devices are sequentially arranged in the floor (1) at intervals from bottom to top, and the working arm assembly (2) of each fire fighting device can rotate 360 degrees around the hinge point (11) and stretch in the length direction of the working arm assembly (2); the fire fighting device is also connected with an automatic alarm or a remote control device through a PLC program; the structure of the single fire-fighting device is as follows: the automatic window comprises a lower floor (10) and an upper floor (6) which are arranged at intervals on a certain floor (1), wherein one ends of the lower floor (10) and the upper floor (6) are outer wall surfaces (4), automatic windows (5) are embedded in the outer wall surfaces (4), fixing rod assemblies (16) are arranged opposite to the outer wall surfaces (4), horizontal hydraulic cylinders (12) are fixed on the fixing rod assemblies (16), piston rod head working arm assemblies (2) of the hydraulic cylinders (12) are formed by telescopic arms (8) and working main arms (7), and universal joints are arranged at the heads of the working main arms (7); the working arm assembly (2) is in butt joint with the automatic window (5); square pipe (20) has been put to the outside cover of pneumatic cylinder (12), fire control member gyro wheel (9) are installed to lower floor (10) upper surface, and protection frame (13) are installed to the bottom surface of the one end of upper floor (6), prevent overturning gyro wheel (14) are installed to the bottom surface of protection frame (13), fire control member gyro wheel (9) upper portion is square pipe (20), the top surface of square pipe (20) is fixed with motor (15), the top surface and the cooperation of preventing overturning gyro wheel (14) of motor (15), rotatory water pipe (18) are connected to the output of motor (15), rotatory water pipe (18) stretch into in work arm module (2); the fire fighting device is arranged inside the floor (1) at intervals of 60 meters; one end of the rotary water pipe (18) is connected with a water source; a water spraying pipe (17) communicated with a rotary water pipe (18) penetrates into the telescopic arm (8), a hydraulic rod piece (19) is arranged at a hinge point (11) at one end of the telescopic arm (8), and the single telescopic arm (8) is driven to extend and retract; six sections of telescopic arms (8) are arranged in total, and the structure and the size of each section of telescopic arm (8) are the same; the lengths of the telescopic arm (8) and the working main arm (7) are six meters; the universal joint of the working main arm (7) is connected with a spray head, a cleaning roller or a personnel rescue frame.
2. A method of using the fire-fighting automation equipment for high-rise and super high-rise buildings of claim 1, characterized in that: the computer full-automatic control mode is adopted, and mainly comprises the following operation steps:
the first step: when a fire is found at a certain position, the fire triggers an automatic alarm to provide a specific position for alarming, and a computer instruction is used for controlling the automatic alarm;
and a second step of: the automatic window (5) is opened;
and a third step of: the hydraulic cylinder (12) works to control the extension of the double-section piston, so as to control the extension of the whole working arm assembly (2) to the outside of the wall of the automatic window (5);
fourth step: the working arm assembly (2) is automatically unfolded outside the wall;
fifth step: the motor (15) works to drive the rotary water pipe (18) to rotate, so that the rotary water pipe (17) is driven to reach a specific fire position, the glass wall or window outside the fire position is smashed, the water pump at the water source is automatically started, and the fire extinguishing work is carried out on the fire position;
sixth step: continuously extinguishing fire until the fire source is extinguished;
seventh step: after the fire is extinguished, the water pump at the water source is turned off, the working arm assembly (2) is retracted, the hydraulic cylinder (12) is controlled to retract, and the working arm assembly (2) is reset.
3. A method of using the fire-fighting automation equipment for high-rise and super high-rise buildings of claim 1, characterized in that: adopts manual remote control, and mainly comprises the following operation steps:
the first step: a fire is found at a certain location;
and a second step of: alarming is carried out manually, and a firefighter on duty uses a remote control sensor to carry out instruction operation;
and a third step of: remote control opening the window;
fourth step: the hydraulic cylinder (12) works to control the extension of the double-section piston, so as to control the extension of the whole working arm assembly (2) to the outside of the wall of the automatic window (5);
fifth step: the motor (15) works to drive the rotary water pipe (18) to rotate, so that the rotary water pipe (17) is driven to reach a specific fire position, the glass wall or window outside the fire position is smashed, the water pump at the water source is automatically started, and the fire extinguishing work is carried out on the fire position;
sixth step: continuously extinguishing fire until the fire source is extinguished;
seventh step: after the fire is extinguished, the water pump at the water source is turned off, the working arm assembly (2) is retracted, the hydraulic cylinder (12) is controlled to retract, and the working arm assembly (2) is reset.
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CN201811285361.XA CN109224352B (en) | 2018-10-31 | 2018-10-31 | Fire-fighting automation equipment for high-rise and super-high-rise buildings and application method thereof |
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CN109224352B true CN109224352B (en) | 2023-09-08 |
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CN108682357A (en) * | 2018-05-16 | 2018-10-19 | 天津视得文化传播有限公司 | One kind being used for tourist attraction cultural spreading playing device |
CN209270712U (en) * | 2018-10-31 | 2019-08-20 | 朱和泰 | Executive information systems automatic fire fighting equipment |
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CN102900018A (en) * | 2012-10-19 | 2013-01-30 | 江阴市黄山船舶配件有限公司 | Full circle swinging telescopic gap bridge |
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CN104941099A (en) * | 2015-06-30 | 2015-09-30 | 陈福敏 | Intelligent fire extinguishing system for multilayer, high-rise and super high-rise buildings |
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