CN217567228U

CN217567228U - High-rise emergency fire rescue system

Info

Publication number: CN217567228U
Application number: CN202121095980.XU
Authority: CN
Inventors: 蔡茂林; 郭向群
Original assignee: Beijing Zhuang Long Technology Management Center LP
Current assignee: Jiangsu Zhuanglong Drone Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2022-10-14
Anticipated expiration: 2031-05-21

Abstract

The utility model discloses a high-rise emergent fire rescue system, include: the fire extinguishing system comprises a guarantee vehicle, wherein a lifting platform, a mooring cable device, a generator, a fire extinguishing material storage cabin, a fuel oil cabin, a control cabin and a storage cabin are arranged in a vehicle cabin of the guarantee vehicle; the fire extinguishing equipment is arranged on the lifting platform in a foldable mode and is propped open when in a working state; the unmanned aerial vehicle is installed in the storage cabin and is electrically connected with the mooring cable equipment in a working state; the command vehicle is in communication connection with at least one security vehicle; and the central control station is in communication connection with the command vehicle and the unmanned aerial vehicle. The system can meet the requirements of personnel evacuation and fire extinguishment under the condition of high-rise fire; electric power and fire extinguishing materials used by the rescue system are conveyed by the mooring cable, and the system can work in the air for a long time, so that the high-altitude operation performance is ensured.

Description

High-rise emergency fire rescue system

Technical Field

The utility model relates to a fire control technical field especially relates to a high-rise emergent fire rescue system.

Background

At present, for the fire rescue of low buildings, an unmanned aerial vehicle can be adopted to spray fire extinguishing materials or throw fire extinguishing bombs. For high-rise buildings, the unmanned rescue cannot be achieved due to the influence of relevant factors such as the load capacity of the unmanned aerial vehicle, the human power still needs to be organized for on-site rescue, the rescue difficulty is high, and the danger of rescuers is increased.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a high-rise emergent fire rescue system solves the problem that exists among the prior art at least partially.

In order to solve the problem, the utility model provides a high-rise emergent fire rescue system, include:

the fire extinguishing system comprises a guarantee vehicle, wherein a lifting platform, a mooring cable device, a generator, a fire extinguishing material storage cabin, a fuel oil cabin, a control cabin and a storage cabin are arranged in a vehicle cabin of the guarantee vehicle;

the fire extinguishing equipment is arranged on the lifting platform in a foldable mode and is propped open when in a working state;

the unmanned aerial vehicle is installed in the storage cabin and is electrically connected with the mooring cable equipment in a working state;

the command vehicle is in communication connection with at least one guarantee vehicle;

and the central control station is in communication connection with the command vehicle and the unmanned aerial vehicle.

Further, the fire extinguishing apparatus includes:

the multifunctional fire fighting equipment comprises a cabin body, a folding support arm, a culvert, a coaxial contra-rotating propeller, a power system, a central ceiling protection plate, a central ceiling protection net, a side ceiling protection plate, a side ceiling protection net, an umbrella cabin, a cabin door, a high-pressure fire fighting nozzle, an air bag cabin and a mooring cable;

the coaxial reverse rotation propeller is installed on a power system and is connected with the power system in a transmission mode, the power system is installed on a hanging rack of a duct, the duct is installed on a folding support arm, the folding support arm is installed on a rotating shaft in the cabin body, a central ceiling protection plate and a protection net are installed above the machine body, a side ceiling protection plate and a protection net are installed above the duct, an umbrella cabin is installed on the upper portion of the machine body, and a central ceiling protection net and a protection plate below are installed on the central ceiling protection net.

Further, the fire extinguishing apparatus further includes:

the counterweight plate, the high-altitude rescue corridor and the high-altitude rescue corridor lock hook;

wherein, the counterweight plate is installed on the organism to be located the organism rear, the vestibule spout has been seted up on the organism, high altitude rescue vestibule collapsible install in the vestibule spout, high altitude rescue vestibule latch hook is installed in the tip of high altitude rescue vestibule.

Further, the command car includes: the device comprises a vehicle body, a control room, a nacelle, an alarm lamp, a megaphone and a data transmission antenna;

the control room is arranged in the vehicle body, the warning lamp and the data transmission antenna are arranged at the top of the vehicle body, the command vehicle can simultaneously receive image data transmitted back by the unmanned aerial vehicle and instruction data of a fire rescue command center through the data transmission antenna, and can simultaneously send a scheme instruction to the guarantee vehicle.

Further, the central control station includes: the system comprises a data antenna, a data processor, a central control screen and a cloud platform;

the data antenna can receive real-time image information data sent back by the detection unmanned aerial vehicle and the field command vehicle, the data processor projects the returned image onto a central control screen of a fire rescue command hall, and meanwhile, the data antenna can send an instruction to the field;

the cloud platform is used for counting data information of all fire fighting equipment in the area and projecting the data information to a central control screen of a fire rescue command hall.

Further, the cloud platform is also used for projecting street routes around the fire scene onto a central control screen of a fire rescue command hall so as to confirm the routes needing to be closed.

Furthermore, the cloud platform is also used for projecting the information of surrounding hospitals to a central control screen of a fire rescue command hall so as to collect the ambulances of nearby hospitals to drive to the scene.

The high-rise emergency fire-fighting and rescue system provided by the utility model comprises a central control station, a command vehicle, a guarantee vehicle, fire-fighting equipment and an unmanned aerial vehicle, and can continuously detect the fire scene condition, and transmit image information back to a fire-fighting control center to ensure that the rear part can be arranged globally; meanwhile, the requirements of personnel evacuation and fire extinguishment under the condition of high-rise fire can be met through lifting and unfolding of the fire extinguishing equipment; the electric power and the fire extinguishing materials used by the rescue system are conveyed by the mooring cable, and the system can work in the air for a long time, so that the high-altitude operation performance is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a specific embodiment of the utility model;

FIG. 2 is a schematic structural diagram of the support vehicle shown in FIG. 1 in a working state;

FIG. 3 is a schematic structural diagram of one embodiment of the fire fighting equipment provided by the present invention;

FIG. 4 is a schematic illustration of the fire suppression apparatus of FIG. 3 in an operational deployed state;

FIG. 5 is a schematic view of the fire suppression apparatus of FIG. 3 in a deployed state of the passageway;

fig. 6 is a schematic structural diagram of a specific embodiment of the command car provided by the present invention;

fig. 7-9 are schematic structural views of a specific embodiment of the tethered cable device provided by the present invention.

Description of reference numerals:

100-security vehicles, 200-command vehicles;

1-lifting platform, 2-mooring cable equipment, 3-fire extinguishing equipment and 4-generator;

5-a water-based fire extinguishing material storage cabin, 6-a fuel oil cabin, 7-a control cabin and 8-a storage cabin;

31-a cabin body, 32-a folding support arm, 33-a duct, 34-a coaxial reverse propeller and 35-a power system;

36-central ceiling guard, 37-central ceiling protective net, 38-side ceiling guard;

39-side ceiling protective net, 310-umbrella cabin, 311-cabin door, 312-high pressure fire nozzle, 313-air bag cabin;

314-mooring cable, 315-counterweight plate, 316-high altitude rescue corridor, 317-high altitude rescue corridor lock hook;

201-control room, 202-pod, 203-warning light, 204-megaphone, 205-data transmission antenna;

21-a power box, 22-a vehicle body beam frame, 23-a line barrel device, 24-a control box and 25-a data transmission antenna;

26-electric wire slip ring, 27-right-angle waterway connector, 28-motor, 29-clutch, 210-coupler;

211-brake clutch, 212-wire outlet mechanism, 213-lead screw, 214-slideway, 215-foldable handle;

216-rotating speed encoder, 217-brake mechanism handle.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

It should be noted that, in the case of no conflict, the features in the following embodiments and examples may be combined with each other; moreover, based on the embodiments in the present disclosure, all other embodiments obtained by a person of ordinary skill in the art without making creative efforts shall fall within the protection scope of the present disclosure.

It is noted that various aspects of the embodiments are described below within the scope of the appended claims. It should be apparent that the aspects described herein may be embodied in a wide variety of forms and that any specific structure and/or function described herein is merely illustrative. Based on the disclosure, one skilled in the art should appreciate that one aspect described herein may be implemented independently of any other aspects and that two or more of these aspects may be combined in various ways. For example, an apparatus may be implemented and/or a method practiced using any number of the aspects set forth herein. Additionally, such an apparatus may be implemented and/or such a method may be practiced using other structure and/or functionality in addition to one or more of the aspects set forth herein.

In a specific embodiment, the utility model provides a high-rise emergent fire rescue system includes guarantee car 100, fire-fighting equipment 3, unmanned aerial vehicle, command car 200 and central control station.

As shown in fig. 1 and 2, a lifting platform 1, a mooring cable device 2, a generator 4, a fire extinguishing material storage cabin 8, a fuel cabin 6, a control cabin 7 and a storage cabin 8 are arranged in a cabin of the support vehicle 100, and an unmanned aerial vehicle is carried in the storage cabin 8 and is electrically connected with the mooring cable device 2 in a working state. Before the work, take out the unmanned aerial vehicle that is used for the investigation from storage cabin 8, utilize unmanned aerial vehicle to investigate the scene of a fire, unmanned aerial vehicle during operation, the power is provided by mooring cable equipment 2, guarantees that unmanned aerial vehicle can last the investigation above the scene of a fire, and unmanned aerial vehicle gives command car 200 with real-time image data passback, and command car 200 can formulate the scheme and send the scheme instruction to guarantee car 100's control room 201 according to the scene of a fire condition. When the high-altitude rescue vehicle works, a cabin cover above the vehicle 100 slides forwards and backwards, the lifting platform 1 lifts the fire extinguishing equipment 3 for high-altitude rescue out of the vehicle cabin, the fire extinguishing equipment 3 takes off, the vehicle-mounted oil tank supplies oil to the generator 4, the generator 4 outputs alternating current to the mooring cable equipment 2, the alternating current is converted into direct current by the high-altitude rescue fire extinguishing equipment 3 through the power supply box 21 on the mooring cable equipment 2, electric energy is supplied to the fire extinguishing equipment 3 through the power supply cable in the cable, the water-based fire extinguishing material storage cabin 5 supplies high-pressure water-based fire extinguishing material to the high-altitude rescue fire extinguishing equipment 3 through the mooring cable equipment 2, the high-altitude rescue fire extinguishing equipment 3 supplies high-pressure water-based fire extinguishing material to the fire extinguishing equipment 3 through the waterway cable in the cable of the mooring cable equipment 2, field workers can control the equipment in the control cabin 7 and receive instructions of the command vehicle 200.

The fire fighting equipment 3 is foldably mounted on the lifting platform 1 and is spread when in an operating state. Specifically, as shown in fig. 3 to 5, the fire extinguishing apparatus 3 includes a cabin 31, a folding arm 32, a duct 33, a coaxial contra-rotating propeller 34, a power system 35, a central ceiling protection plate 36, a central ceiling protection net 37, a side ceiling protection plate 38, a side ceiling protection net 39, an umbrella cabin 310, a cabin door 311, a high-pressure fire sprinkler 312, an airbag cabin 313, and a mooring cable 314; the fire extinguishing apparatus 3 further comprises a weight plate 315, a high-altitude rescue corridor 316 and a high-altitude rescue corridor lock hook 317.

The coaxial reverse rotation propeller is installed on a power system and is connected with the power system in a transmission mode, the power system is installed on a hanging rack of a duct, the duct is installed on a folding support arm, the folding support arm is installed on a rotating shaft in the cabin body, a central ceiling protection plate and a protection net are installed above the machine body, a side ceiling protection plate and a protection net are installed above the duct, an umbrella cabin is installed on the upper portion of the machine body, and a central ceiling protection net and a protection plate below are installed on the central ceiling protection net. When the umbrella is opened, central ceiling protection network and guard plate will break away from the organism, and the hatch door is located the organism front portion and passes through cabin door hub connection on the organism, high pressure fire control shower nozzle installation and the anterior below position of organism, and the gasbag cabin is installed in organism below central position, and the mooring cable is installed and is expanded the process at position support arm behind the organism below: the inside rotation axis of organism drives folding support arm and expandes to both sides, and the support arm drives the whole expansion of driving system.

The counterweight plate is installed on the organism to be located the organism rear, the vestibule spout has been seted up on the organism, high altitude rescue vestibule install retractably in the vestibule spout, high altitude rescue vestibule latch hook is installed in the tip of high altitude rescue vestibule. When the high-altitude rescue corridor extends outwards, the counterweight plates are further unfolded to balance the high-rise rescue fire-extinguishing equipment. In the whole opening process, the opening degrees of the cabin door, the high-altitude rescue corridor and the counterweight plate are jointly adjusted and controlled by flight control, so that the gravity center position of the equipment is not changed. When the vestibule contacts the building body, the high-altitude vestibule latch hook overturns to hook the building body, and the trapped personnel can stably walk on the vestibule. When rescue is finished, after people enter the cabin body, the cabin door, the high-altitude rescue corridor and the counterweight plate are closed, and in the whole closing process, the opening degrees of the cabin door, the high-altitude rescue corridor and the counterweight plate are jointly adjusted and controlled through flight control, so that the gravity center position of the equipment is not changed.

When the fire extinguishing apparatus 3 is in the folded state as shown in fig. 3 inside the vehicle 100, the folded state can reduce the space inside the vehicle body occupied by the apparatus, and when the fire extinguishing apparatus 3 is lifted out of the vehicle 100, the folded state is in the unfolded state as shown in fig. 4; when the fire extinguishing apparatus 3 is in the deployed state of the high-altitude rescue corridor 316 as shown in fig. 5 in the process of rescuing people, the hatch door 311 is opened firstly in the deployment process, the counterweight plates 315 are deployed simultaneously to counterweight the high-rise rescue fire extinguishing apparatus 3 in the process of opening the hatch door 311, and when the high-altitude rescue corridor 316 extends outwards, the counterweight plates 315 are further deployed to counterweight the high-rise rescue fire extinguishing apparatus 3. In the whole opening process, the opening degrees of the cabin door 311, the high-altitude rescue corridor 316 and the counterweight plate 315 are jointly adjusted and controlled by flight control, so that the gravity center position of the equipment is not changed. When the vestibule contacts the building body, the high-altitude vestibule latch hook overturns to hook the building body, and the trapped personnel can stably walk on the vestibule. When the rescue is finished, after the personnel enter the cabin body 31, the cabin door 311, the high-altitude rescue corridor 316 and the counterweight plate 315 are closed, and in the whole closing process, the opening degrees of the cabin door 311, the high-altitude rescue corridor 316 and the counterweight plate 315 are jointly adjusted and controlled by flight control, so that the gravity center position of the equipment is ensured not to change. After the rescue is finished, the firefighter returns to the fire scene by taking the fire extinguishing apparatus 3 and extinguishes the fire by using the high-pressure fire sprinkler 312. In the whole process of saving people and extinguishing fire, the mooring cable 314 continuously charges the equipment and provides high-pressure liquid-based fire extinguishing fuel, so that the equipment can continuously work. A ceiling protection plate and a ceiling protection net in the high-rise rescue fire-extinguishing equipment 3 can prevent the equipment from being damaged by direct smashing of falling objects at high altitude during working. The fire extinguishing equipment 3 adopts a ducted 33 type coaxial counter-propeller power system 35, the coaxial counter-propeller can provide larger lift force, and the size of a propeller can be reduced, so that the overall size of the equipment is reduced, and the ducted 33 can rectify incoming flow in front of the disc surface of the propeller, so that the power efficiency is improved. The parachute bay 310 and the air bag in the fire extinguishing device 3 can provide sufficient safety and reliability for the device, when the device falls down due to problems, the device can be directly opened to parachute, when the device lands, the air bag can be bounced to further buffer the device, and therefore personnel in the device are not injured.

The command car 200 is in communication connection with at least one support car 100, and further, as shown in fig. 6, the command car 200 includes: the vehicle body, control room 201, pod 202, warning light 203, megaphone 204 and data transmission antenna; the control room 201 is arranged in the vehicle body, the warning lamp 203 and the data transmission antenna are arranged at the top of the vehicle body, and the command vehicle 200 can simultaneously receive image data transmitted back by the unmanned aerial vehicle and instruction data of a fire rescue command center through the data transmission antenna and can simultaneously send a scheme instruction to the guarantee vehicle 100.

The field command vehicle 200 can command 1 or several high-rise rescue fire-extinguishing equipment 3 transportation and support vehicles 100 at the same time, can receive image data and command data of a fire rescue command center transmitted by the detection unmanned aerial vehicle through a data transmission antenna at the same time, and can send scheme commands to the high-rise rescue fire-extinguishing equipment 3 transportation and support vehicles 100 at the same time; the warning lamp 203 and the megaphone 204 can prompt and evacuate people and vehicles around.

The central control station is in communication connection with the command vehicle 200 and the unmanned aerial vehicle. The central control station comprises a data antenna, a data processor, a central control screen and a cloud platform. The data antenna can receive real-time image information data sent back by the detection unmanned aerial vehicle and the field command vehicle 200, the data processor projects the returned image onto a central control screen of a fire rescue command hall, and meanwhile, the data antenna can send an instruction to the field; the cloud platform is used for counting data information of all fire fighting equipment in the area and projecting the data information to a central control screen of a fire rescue command hall. The cloud platform is also used for projecting street routes around the fire scene onto a central control screen of a fire rescue command hall so as to confirm the routes needing to be closed. The cloud platform is also used for projecting the information of surrounding hospitals to a central control screen of a fire rescue command hall so as to conveniently collect ambulances of nearby hospitals to drive to the scene.

The central control station for background fire rescue command consists of a data antenna, a data processor, a central control screen and a cloud platform, wherein the data antenna can receive real-time image information data sent back by the detection unmanned aerial vehicle and the field command vehicle 200, projects the returned image onto the central control screen of a fire rescue command hall through the data processor, and can send an instruction to the field; the cloud platform can make statistics of all fire-fighting equipment data information in the area and project to the well accuse screen in fire rescue command hall to can know near rescue vehicles that can the collection fast, also can project the street route around the scene of a fire on the well accuse screen in fire rescue command hall simultaneously, thereby can confirm the route that needs the confined, and with the information projection of hospital on every side on the well accuse screen in fire rescue command hall, thereby the ambulance of near hospital of can gathering fast is toward the scene.

As shown in fig. 7 to 9, the mooring cable device 2 includes a power supply box 21, a vehicle body beam frame 22, a wire barrel device 23, a control box 24, a data transmission antenna, an electric wire slip ring 26, a right-angle water connector 27, a motor 28, a clutch 29, a coupling 210, a brake clutch 211, an outlet mechanism 212, a lead screw 213, a slide way 214, a foldable handle 215, a rotational speed encoder 216 and a brake mechanism handle 217. In the working process, the generator 4 outputs alternating current to enter the power box 21, the alternating current is converted into direct current by the power box 21, and the equipment is supplied with power by the mooring power line; the drum rotation speed is provided according to the rotation speed encoder 216, and the drum rotation speed can be controlled in the control room 201 according to actual requirements through the data transmission antenna and the control box 24; the outlet mechanism 212 can protect the cable from being scratched; the lead screw 213 can ensure that the mechanism moves according to the size of the flat cable on the cable barrel, and ensure that the cable is always stretched and does not disorder the cable; the waterway cable and the cable are integrated into a whole, so that the two cables are prevented from being wound with each other and being incapable of taking up and paying off the line; the brake mechanism can deal with emergency and manually control the cable to stop working.

In the above embodiment, the high-rise emergency fire rescue system provided by the utility model comprises a central control station, a command vehicle 200, a security vehicle 100, a fire extinguishing device 3 and an unmanned aerial vehicle, and the system can continuously detect the fire scene condition and transmit the image information back to the fire control center, so as to ensure that the overall arrangement can be carried out at the rear; meanwhile, the requirements of personnel evacuation and fire extinguishment under the condition of high-rise fire can be met and solved through the lifting and unfolding of the fire extinguishing equipment 3; the power and fire extinguishing materials used by the rescue system are conveyed by the mooring cable 314, and the system can work in the air for a long time, so that the high-altitude operation performance is ensured.

Furthermore, the fire extinguishing equipment 3 in the system is high in safety and reliability, is provided with a parachute and an air bag, guarantees the safety of personnel on the equipment, can be folded, reduces the space of the whole equipment in a vehicle, is provided with a protection plate and a protection net above the equipment, and can prevent the equipment from being injured by falling objects in the high altitude under the working state. The electric power used by the equipment and the water-based fire extinguishing material are both supplied by the mooring cable 314, so that the equipment can work in a long-time idle state; the device adopts a ducted 33 type coaxial counter-rotating propeller power system 35, the coaxial counter-rotating propeller can provide larger lifting force and reduce the size of the device, and the ducted 33 can improve the efficiency for power; the cabin door 311, the high-altitude rescue corridor 316 and the counterweight plate 315 are controlled by flight control in the opening and closing processes, so that the gravity center position of the equipment is not changed, and the equipment can stably work in the air; the apparatus has a high pressure fire sprinkler 312 to extinguish fires, and the water-based fire extinguishing material can be continuously supplied by a mooring line 314.

Further, the system is characterized in that a guarantee vehicle 100 is provided with a vehicle-mounted water-based fire extinguishing material storage cabin 5, the storage cabin 8 is provided with a high-pressure water pump, high-pressure water-based fire extinguishing material can be provided for equipment, fuel oil in an oil tank can be provided for a generator 4, and continuous power output is guaranteed; the mooring cable device 2 for the high-altitude rescue fire-extinguishing device 3 is matched, and the device can simultaneously provide electric energy and high-pressure water-based fire-extinguishing materials for the high-altitude rescue fire-extinguishing device 3; a storage cabin 8 of the high-altitude rescue fire-extinguishing equipment 3 is arranged; the lifting platform 1 is provided with the high-altitude rescue fire-extinguishing equipment 3, and the high-altitude rescue fire-extinguishing equipment 3 can be stored and released; the top cabin cover is arranged, so that the water and dust can be prevented when the equipment is not used; the detection unmanned aerial vehicle storage cabin 8 is provided, and 1 or more detection unmanned aerial vehicles can be stored; the equipped high-altitude rescue fire-extinguishing equipment 3 can provide electric energy for the investigation unmanned aerial vehicle by using the mooring cable equipment 2; a control room 201 is provided, which can receive and send instructions and operate the whole set of system;

furthermore, the mooring cable device 2 for the high-altitude rescue fire-extinguishing device 3 in the system is provided with a water path and circuit cable integrated cable, the paying-off and taking-up speed can be controlled, the linear movement of the wire outlet mechanism 212 and the movement of the wire can be kept consistent by controlling the lead screw 213 assembly and the winding drum according to the transmission ratio through the transmission assembly, so that the cable is always kept in a stretched state and cannot be curled and wound, and the wire outlet mechanism 212 can ensure that the surface of the cable is not collided and scratched;

further, the command vehicle 200 of the system can command 1 or several high-rise rescue fire-extinguishing equipment 3 transportation and security vehicles 100 at the same time, can receive image data and command data of a fire rescue command center sent back by the reconnaissance unmanned aerial vehicle through a data transmission antenna at the same time, and can send scheme commands to the high-rise rescue fire-extinguishing equipment 3 transportation and security vehicles 100 at the same time; the warning lamp 203 and the megaphone 204 can prompt and evacuate people and vehicles around.

Furthermore, in a background fire rescue command center control station in the system, the data antenna can receive real-time image information data sent back by the detection unmanned aerial vehicle and the field command vehicle 200, the data processor projects the returned image onto a central control screen of a fire rescue command hall, and meanwhile, an instruction can be sent to the field; the cloud platform can make statistics of all fire-fighting equipment data information in the area and project to the well accuse screen in fire rescue command hall to can know near rescue vehicles that can the collection fast, also can project the street route around the scene of a fire on the well accuse screen in fire rescue command hall simultaneously, thereby can confirm the route that needs the confined, and with the information projection of hospital on every side on the well accuse screen in fire rescue command hall, thereby the ambulance of near hospital of can gathering fast is toward the scene.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A high-rise emergency fire rescue system, comprising:

the fire extinguishing system comprises a guarantee vehicle, wherein a lifting platform, a mooring cable device, a generator, a fire extinguishing material storage cabin, a fuel cabin, a control cabin and a storage cabin are arranged in a vehicle cabin of the guarantee vehicle;

the command vehicle is in communication connection with at least one security vehicle;

2. A high-rise emergency fire rescue system as claimed in claim 1, wherein the fire suppression apparatus comprises:

the device comprises a cabin body, a folding support arm, a duct, a coaxial contrarotating propeller, a power system, a central ceiling protection plate, a central ceiling protection net, a side ceiling protection plate, a side ceiling protection net, an umbrella cabin, a cabin door, a high-pressure fire-fighting nozzle, an air bag cabin and a mooring cable;

3. A high-rise emergency fire rescue system as claimed in claim 2, wherein the fire suppression apparatus further comprises:

4. A high-rise emergency fire rescue system as claimed in claim 1, wherein the command car comprises: the device comprises a vehicle body, a control room, a nacelle, an alarm lamp, a megaphone and a data transmission antenna;

the control room is arranged in the vehicle body, the warning lamp and the data transmission antenna are arranged at the top of the vehicle body, the command vehicle can simultaneously receive image data transmitted by the unmanned aerial vehicle and instruction data of a fire rescue command center through the data transmission antenna, and can simultaneously send scheme instructions to the guarantee vehicle.