CN115400379B

CN115400379B - Electrical control fire control unit based on artificial intelligence

Info

Publication number: CN115400379B
Application number: CN202211067699.4A
Authority: CN
Inventors: 李纪云; 王俊平; 孙睿; 张大鹏; 卢春光; 杨绍清; 杨奥棋; 刘伯艳
Original assignee: Henan Polytechnic Institute
Current assignee: Guangdong Anxin Fire Detection Co ltd
Priority date: 2022-09-01
Filing date: 2022-09-01
Publication date: 2023-05-02
Anticipated expiration: 2042-09-01
Also published as: CN115400379A

Abstract

The invention relates to the technical field of fire-fighting equipment, in particular to an electric control fire-fighting device based on artificial intelligence, which comprises a fire-fighting water pump and a water pump motor, wherein a water outlet of the fire-fighting water pump is fixedly and hermetically connected with a main water pipe, a pressurizing assembly is arranged on the outer side of the main water pipe, a fire-fighting pipe which is fixedly and hermetically connected with the main water pipe is arranged at the end part of the main water pipe, a fire-fighting spray head assembly is fixedly arranged at a position of the outer side of the fire-fighting pipe downwards, the pressurizing assembly can increase the pressure inside the main water pipe, and the fire-fighting spray head assembly can accurately spray high-pressure water inside the fire-fighting pipe to a fire point according to the position of the fire point in a controllable manner; the fire extinguisher is simple and ingenious in structure and convenient to maintain and use, and can accurately extinguish fire according to the position of a fire point in the working process; the risk of suffocation and poisoning of people in a fire scene can be reduced; the spray head can be automatically closed after fire extinguishment, so that water resource saving and quick recovery of a fire scene are facilitated; has better application prospect and popularization value.

Description

Electrical control fire control unit based on artificial intelligence

Technical Field

The invention relates to the technical field of fire-fighting equipment, in particular to an electrical control fire-fighting device based on artificial intelligence.

Background

Along with the acceleration of the urban process in China, the economy is rapidly developed, various large buildings with complex structures are continuously emerging, and the fire hazard is continuously increased; the fire safety management system brings a plurality of new problems to the fire safety management work, but the related fire professional technology has great progress, the efficiency of fire facilities is greatly improved, and particularly in the aspect of building fire facilities, the fire facilities are very large in number and variety, and the technical level is also very high.

At present, a sprinkling fire extinguishing mode is mainly adopted in the fire protection of a building, a main fire protection facility comprises a fire protection water pump, a fire protection pipeline, a fire protection spray head and a controller, a main device directly facing a fire scene is the fire protection spray head, the existing fire protection spray head mainly adopts glass or fusible alloy as a temperature sensing and triggering release element, the fire protection spray head is fixedly arranged on the fire protection pipeline inside the building, when a fire disaster occurs, the fire protection spray head is automatically opened after the glass ball, the glass pipe or the fusible alloy senses the temperature, and the controller can start the fire protection water pump to pump water to the fire protection spray head through the fire protection pipeline, so that the fire scene is sprinkled and extinguished; the existing fire-fighting facilities can effectively avoid fire spreading and expanding to a certain extent, thereby protecting the life and property safety of people, but the device also has the following defects:

firstly, before a fire disaster occurs, as the glass ball and the fusible alloy can not reach the trigger temperature immediately, the fire condition is difficult to detect in time and feedback at the earliest stage of the fire disaster, and the fire sprinkler can not realize sprinkling and extinguishing of the fire scene at the first time of the fire disaster;

secondly, the fire sprinkler can only carry out sprinkling in a set range in the use process, the sprinkling direction can not be intelligently adjusted according to specific fire conditions, and accurate sprinkling and extinguishing are difficult to carry out according to the firing direction, so that the water consumption is increased, and unnecessary soaking of other important equipment is possibly caused;

thirdly, after the fire disaster occurs, the fire-fighting spray head cannot be automatically closed again after the glass ball and the fusible alloy are triggered in a high-temperature environment, so that water is always sprayed after the spray head is opened, water resources can be wasted, and the recovery difficulty in the later stage of the fire disaster can be increased.

Therefore, how to realize accurate sprinkling and extinguishing of the fire sprinkler according to the direction of fire at the first time of fire occurrence and how to automatically restore the initial state after the completion of fire extinguishing are problems to be solved by those skilled in the art at present.

Disclosure of Invention

In order to solve the problems that in the prior art, a fire-fighting nozzle is difficult to accurately spray water to extinguish according to the direction of fire at the first time of fire occurrence and the fire-fighting nozzle cannot be automatically closed after the fire extinguishing is completed, the invention provides an artificial intelligence-based electric control fire-fighting device.

The technical scheme of the invention is as follows:

the invention provides an artificial intelligence-based electric control fire fighting device, which comprises a fire fighting water pump and a water pump motor for driving the fire fighting water pump to operate, wherein a water outlet of the fire fighting water pump is fixedly and hermetically connected with a main water pipe, a pressurizing assembly is arranged on the outer side of the main water pipe, a fire fighting pipe which is fixedly and hermetically connected with the main water pipe is arranged at the end part of the main water pipe, a fire fighting spray head assembly is fixedly arranged at a position of the outer side of the fire fighting pipe downwards, the pressurizing assembly can increase the pressure inside the main water pipe, and the fire fighting spray head assembly can accurately spray high-pressure water inside the fire fighting pipe to a fire point according to the position of the fire point to extinguish the fire.

Further, the supercharging assembly comprises a water turbine, the water turbine is fixedly arranged on the main water pipe, a first one-way valve and a second one-way valve which are in sealing and fixed connection with the water turbine are respectively arranged at the water outlet and the water inlet of the water turbine, an air compressor in transmission connection with the water turbine is arranged at the output shaft end of the water turbine, an air pipe in sealing and fixed connection with the air compressor is arranged at the output end of the air compressor, a third one-way valve in fixed and sealing connection with the air pipe is arranged at the tail end of the air pipe, the third one-way valve is fixedly arranged at the position, located outside the second one-way valve, of the main water pipe, and the outlet of the third one-way valve is in sealing and fixed communication with the main water pipe.

Further, a controller which is electrically connected with the water pump motor is arranged outside the water pump motor, a rotary position sensor is arranged at the other end of the air compressor on the output shaft of the water turbine, and the rotary position sensor is electrically connected with the controller.

Further, the fire control shower nozzle subassembly include the standpipe, the upper end of standpipe and the outside fixed sealed intercommunication of fire control pipe down, the lower tip of standpipe is located four in its outside and is equipped with four horizontal pipes with its sealed fixed intercommunication, the outer end of horizontal pipe all is equipped with the first pipe box of being connected with it sealed rotation, the outer end of first pipe box is equipped with the first hose with its sealed fixed intercommunication, the other end of first hose is equipped with fixed sealing connection's second pipe box, the other end of second pipe box is equipped with the first inclined tube with its sealed fixed connection, the outside articulated connection of first pipe box and second pipe box, the lower extreme inside of first inclined tube is equipped with the second inclined tube with its sealed sliding connection, the lower tip of second inclined tube is equipped with the automatically controlled flow valve with its sealed fixed connection.

Further, the electric control flow valve is electrically connected with the controller.

Further, the medial surface of automatically controlled flow valve be equipped with the first mount pad of articulated connection with it, the lower extreme of first mount pad is equipped with the pendulum pipe with its fixed connection, the outside of pendulum pipe corresponds the lower tip of second inclined tube and is equipped with the second hose with the export sealing fixed connection of four automatically controlled flow valves respectively, second hose and pendulum pipe sealing fixed connection, the upper end of first mount pad is equipped with the pendulum rod with its fixed connection, the upper end of pendulum rod is equipped with the second mount pad of articulated connection through spherical with it, second mount pad fixed mounting is in the downside of violently managing the inner.

Further, the lower extreme of pendulum pipe be equipped with its fixed connection's water curtain bowl, the lower extreme of pendulum pipe is seted up corresponding to the bottom of water curtain bowl, the aperture of watering hole is less than the aperture of pendulum pipe's lower extreme, the inner in watering hole is located the side of water curtain bowl indent and is equipped with annular bellied retaining ring.

Furthermore, the outer sides of the second mounting seats are positioned between every two adjacent transverse pipes, the AI cameras are fixedly mounted, the AI cameras are electrically connected with an external AI processor, and the AI processor is electrically connected with the controller.

Further, the outer end of the main water pipe, which is positioned on the third one-way valve, is fixedly provided with a pressure gauge. The beneficial effects achieved by the invention are as follows:

when the fire extinguishing device is used, firstly, the AI camera can find smoke or flame at the first time in the detection process, and the smoke or flame and signals of the direction of the smoke or flame are sent to the controller through the AI processor, the controller can automatically start the water pump motor to drive the fire pump to operate, and simultaneously correspondingly control the corresponding electric control flow valve to be opened to a proper position or closed, so that the swinging pipe and the fire prevention nozzle assembly swing to the direction of the flame and spray the fire, further the aim of accurately extinguishing the flame is achieved, after the flame is extinguished, the AI camera can send smoke or flame eliminated signals to the controller through the AI processor, the controller can automatically start the water pump motor to drive the fire pump to stop operating, and simultaneously control all the electric control flow valves to be in a closed state, and when the fire extinguishing device is in the same in water pressure, all the second inclined pipes slide at the same position in the first inclined pipes, and stop spraying water to the fire prevention nozzle assembly.

In the working process, the air compressor can compress the external air and then input the compressed air into the main water pipe through the air pipe and the third one-way valve, the compressed air can be used for increasing the water pressure in the main water pipe, the design can increase the water pressure by using the air pressure, thereby being beneficial to improving the fire extinguishing effect, increasing the oxygen content of the fire scene, reducing the risk of poisoning and choking of people trapped in the fire scene, and further improving the life and property protection capability of people in the fire disaster.

In conclusion, the fire extinguisher is simple and ingenious in structure and convenient to maintain and use, and can accurately extinguish fire in time and effectively according to the specific position of a fire point in the working process, so that the fire extinguishing effect is more obvious; the fire extinguishing device can also convey air to a fire scene in the fire extinguishing process, so that the risks of choking and poisoning of people in the fire scene are reduced; the spray head can be automatically closed after fire extinguishment, so that water resource saving and quick recovery of a fire scene are facilitated; has better application prospect and popularization value.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention; FIG. 2 is an enlarged schematic view of the structure of the portion I in FIG. 1; FIG. 3 is a schematic view of the structure of section A-A in FIG. 2; FIG. 4 is a schematic view of the operating state of FIG. 2; fig. 5 is an enlarged schematic view of the structure of the part ii of the body 3.

Detailed Description

In order to facilitate understanding of the invention by those skilled in the art, a specific embodiment of the invention is described below with reference to the accompanying drawings.

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

It will be understood that when an element is referred to as being "mounted" to another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "or/and" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1-5, the invention provides an artificial intelligence-based electric control fire fighting device, which comprises a fire water pump 1 and a water pump motor 2 for driving the fire water pump 1 to operate, wherein a water inlet of the fire water pump 1 is fixedly communicated with a fire water storage tank, a water outlet of the fire water pump 1 is fixedly and hermetically connected with a main water pipe 3, a water turbine 4 is fixedly arranged on the main water pipe 3, the water turbine 4 belongs to the prior art, the structural principle of the water turbine 4 is not repeated herein, and in the working process, when water flows through the main water pipe 3, the water turbine 4 is driven to rotate.

As shown in fig. 1, a water outlet and a water inlet of a water turbine 4 are respectively provided with a first one-way valve 5 and a second one-way valve 6 which are in sealing and fixed connection with the water outlet and the water inlet, an air compressor 7 in transmission connection with the water turbine 4 is arranged at the output shaft end of the water turbine 4, the air compressor 7 belongs to the prior art, the structural principle of the air compressor 7 is not repeated, the water turbine 4 can drive the air compressor 7 to operate in the rotating process, an air pipe 8 in sealing and fixed connection with the air compressor 7 is arranged at the output end of the air pipe 8, a third one-way valve 9 in fixed and sealed connection with the air pipe 8 is arranged at the tail end of the air pipe 8, the third one-way valve 9 is fixedly arranged at the position on the main water pipe 3 and is positioned at the outer side of the second one-way valve 6, the outlet of the third one-way valve 9 is in sealing and fixed communication with the main water pipe 3, in the working process, the air compressor 7 can compress external air and then be input into the main water pipe 3 through the air pipe 8 and the third one-way valve 9, the compressed air can not only enlarge the inside the main water pipe, but also increase the oxygen content of the fire scene in the process in the compressed air in the fire scene in the fire extinguishing process, and the risk of being trapped in the water and choking is reduced; the first check valve 5 and the second check valve 6 can prevent the air entering the main water pipe 3 from reversely impacting on the water turbine 4, so that the invention can normally operate.

As shown in fig. 1, the outer end of the main water pipe 3, which is located at the third check valve 9, is fixedly provided with the pressure gauge 10, the outer end of the main water pipe 3, which is located at the pressure gauge 10, is provided with the fire-fighting pipe 11 which is fixedly connected with the pressure gauge 10 in a sealing manner, the fire-fighting pipe 11 is fixedly installed in a place where fire disaster prevention is needed, the fire-fighting nozzle assembly 12 is fixedly installed at the downward position of the outer side of the fire-fighting pipe 11, in the working process, the pressure gauge 10 can intuitively monitor the pressure of water entering the fire-fighting pipe 11 in real time, and when fire disaster occurs, the internal water of the main water pipe 3 can be sprayed out from the fire-fighting nozzle assembly 12 through the fire-fighting pipe 11, so that the effect of extinguishing the flame in a fire scene is achieved.

As shown in fig. 1, a controller 13 is arranged outside the water pump motor 2 and is electrically connected with the water pump motor, and the controller 13 can control the operation and stop of the water pump motor 2; the other end of the output shaft of the water turbine 4, which is positioned at the air compressor 7, is provided with a rotary position sensor 14, the rotary position sensor 14 is electrically connected with a controller 13, the rotary position sensor 14 can monitor whether the water turbine 4 rotates or runs in real time, and transmit a rotation signal of the water turbine 4 to the controller 13, and the controller 13 can regulate and control the rotation speed of the water pump motor 2 in real time according to the rotation signal detected by the rotary position sensor 14, so that the system pressure is ensured to be normal; in the working process, if the rotary position sensor 14 detects that the water turbine 4 rotates, water flows through the water turbine 4, when no fire occurs, the rotary position sensor 14 can be used for detecting whether the fire tube 11 has a water leakage fault, and when the fire occurs, the rotary position sensor 14 can transmit a rotation signal detected by the rotary position sensor to the controller 13, so that the controller 13 can automatically regulate and control the rotation speed of the water pump motor 2.

As shown in fig. 1, 2, 3 and 5, the fire-fighting nozzle assembly 12 comprises a vertical pipe 15, the upper end of the vertical pipe 15 is fixedly and hermetically communicated with the outer side of the fire-fighting pipe 11, four transverse pipes 16 which are fixedly and hermetically communicated with the lower end of the vertical pipe 15 are arranged on the four sides of the outer side of the vertical pipe 15, a first pipe sleeve 17 which is fixedly and rotatably connected with the transverse pipes 16 is arranged at the outer end of the transverse pipes 16, a first hose 18 which is fixedly and hermetically communicated with the first pipe sleeve 17 is arranged at the outer end of the first hose 18, a second pipe sleeve 19 which is fixedly and hermetically connected with the other end of the first hose 18 is arranged at the other end of the first pipe sleeve 19, a first inclined pipe 20 which is fixedly and hermetically connected with the outer side of the second pipe sleeve 19 is hinged with the first pipe sleeve 17, a second inclined pipe 21 which is fixedly and hermetically connected with the lower end of the first inclined pipe 20 is internally provided with an electric control flow valve 22 which is fixedly and hermetically connected with the second inclined pipe 21, the electric control flow valve 22 is electrically connected with the controller 13, and the controller 13 can control the opening of the electric control flow valve 22 so as to control the flow through the electric control flow valve 22.

As shown in fig. 1, 2, 3 and 5, the inner side surfaces of the four electric control flow valves 22 are provided with first installation seats 23 which are hinged with the first installation seats, the lower ends of the first installation seats 23 are provided with swinging pipes 24 which are fixedly connected with the first installation seats, the outer sides of the swinging pipes 24 are respectively provided with second hoses 25 which are fixedly connected with the outlets of the four electric control flow valves 22 in a sealing manner, the second hoses 25 are fixedly connected with the swinging pipes 24 in a sealing manner, the upper ends of the first installation seats 23 are provided with swinging rods 26 which are fixedly connected with the first installation seats, the upper ends of the swinging rods 26 are provided with second installation seats 27 which are fixedly connected with the second installation seats through spherical hinges, and the second installation seats 27 are fixedly installed on the lower sides of the inner ends of the transverse pipes 16; in operation, when water inside the fire tube 11 enters the standpipe 15, water inside the fire tube 11 enters the interiors of the first and second

inclined tubes

20 and 21 through the cross tube 16 and the first hose 18; when the controller 13 controls all the electric control flow valves 22 to be opened, water in the second inclined tube 21 enters the swing tube 24 through the second hose 25 and is finally sprayed out from the lower end of the swing tube 24; as shown in fig. 4, when the controller 13 controls one of the electrically controlled flow valves 22 to be closed and controls the other electrically controlled flow valve 22 opposite thereto to be opened, and simultaneously controls the other two opposite electrically controlled flow valves 22 to be opened to the proper positions; the water in the second inclined tube 21 corresponding to the electric control flow valve 22 in the closed state pushes the second inclined tube 21 to slide outwards in the first inclined tube 20, so that the second inclined tube 21 pushes the first mounting seat 23 to drive the swinging tube 24 to swing in the direction of the second inclined tube 21 corresponding to the electric control flow valve 22 in the open state by taking the spherical hinged joint of the second mounting seat 27 as the center, the second inclined tube 21 corresponding to the electric control flow valve 22 in the open state correspondingly slides in the first inclined tube 20 correspondingly in cooperation with the swinging of the first mounting seat 23, and meanwhile, the first inclined tube 20 corresponding to the other two opposite electric control flow valves 22 correspondingly cooperates with the swinging of the first mounting seat 23 to drive the first pipe sleeve 17 to rotate relative to the outer end of the transverse tube 16, so that movement interference is avoided; the water in the second inclined tube 21 corresponding to the electric control flow valve 22 in the opened state enters the second hose 25 and the swing tube 24 through the electric control flow valve 22, and finally is sprayed out from the lower end of the swing tube 24.

As shown in fig. 2, 3 and 4, the lower end of the swinging pipe 24 is provided with a water curtain bowl 28 fixedly connected with the swinging pipe, the bottom of the water curtain bowl 28 is provided with a water spraying hole 29 corresponding to the lower end of the swinging pipe 24, the aperture of the water spraying hole 29 is smaller than that of the lower end of the swinging pipe 24, the inner end of the water spraying hole 29 is provided with an annular raised retainer ring 30 on the concave side surface of the water curtain bowl 28, most of water sprayed from the lower end of the swinging pipe 24 can be sprayed to a fire scene through the water spraying hole 29 in the working process, and the other small part of water can be thrown upwards from the outer side of the retainer ring 30 along the concave side surface of the water curtain bowl 28 to form a water curtain, so that the fire can be effectively prevented from burning open fire in the fire scene when the fire scene is overlarge.

As shown in fig. 2, 3 and 4, the AI cameras 31 are fixedly installed between every two adjacent transverse pipes 16 on the outer side of the second mounting seat 27, the AI cameras 31 are electrically connected with an external AI processor, the AI processor is electrically connected with the controller 13, in the working process, the AI cameras 31 can shoot the image information on the outer side of the fire-fighting nozzle assembly 12 in real time and send the image information to the AI processor, the AI processor can intelligently identify the flame and smoke in the image information, calculate the positions of the flame and smoke according to the position information of the AI cameras 31, send the signals of the flame or smoke and the position to the controller 13, and the controller 13 firstly starts the water pump motor 2 to drive the fire-fighting water pump 1 to operate, and simultaneously correspondingly controls the corresponding electric control flow valve 22 to be opened to a proper position or closed, so that the swinging pipe 24 swings to the position facing the flame and sprays the flame, thereby achieving the purpose of extinguishing the flame.

In summary, when the present invention is used for fire protection and extinguishment, firstly, the AI camera 31 discovers smoke or flame at the first time in the detection process, and the controller 13 automatically starts the water pump motor 2 to drive the fire pump 1 to operate through the AI processor, and simultaneously correspondingly controls the corresponding electric control flow valve 22 to be opened to a proper position or closed, so that the swinging tube 24 and the fire prevention nozzle assembly 12 swing to the direction facing the flame to spray, thereby achieving the purpose of accurately extinguishing the flame, after the flame is extinguished, the AI camera 31 can generate the smoke or flame eliminated signal to the controller 13 through the AI processor, and the controller 13 automatically starts the water pump motor 2 to drive the fire water pump 1 to stop operating, and simultaneously controls all the electric control flow valves 22 to be in a closed state, when the fire protection water pressure inside all the second inclined tubes 21 are equal, so that all the second inclined tubes 21 slide to the same position inside the first inclined tubes 20, and the fire prevention nozzle assembly 12 is stopped, when the fire is extinguished, the design is accurate according to the position of the fire protection nozzle assembly, and the fire protection device can also be closed in time, thereby further saving water loss caused by fire protection and extinguishment of fire protection equipment can be avoided when the fire is extinguished, and other important fire protection equipment is not only can be extinguished, but also can be closed in time, and water loss is more important when fire protection is caused.

In the working process of the fire extinguishing device, the air compressor 7 can compress external air and then input the compressed air into the main water pipe 3 through the air pipe 8 and the third one-way valve 9, the compressed air can be used for increasing the water pressure in the main water pipe, the design is beneficial to improving the fire extinguishing effect by increasing the water pressure through the air pressure, the oxygen content of a fire scene can be increased, the risk of poisoning and choking of people trapped in the fire scene is reduced, and the life and property protection capability of people in the fire disaster is further improved.

In a word, the fire extinguisher is simple and ingenious in structure and convenient to maintain and use, and can timely and effectively extinguish fire according to the specific position of a fire point in the working process, so that the fire extinguishing effect is more obvious; the fire extinguishing device can also convey air to a fire scene in the fire extinguishing process, so that the risks of choking and poisoning of people in the fire scene are reduced; the spray head can be automatically closed after fire extinguishment, so that water resource saving and quick recovery of a fire scene are facilitated; therefore, the invention has better application prospect and popularization value.

The embodiments of the present invention described above do not limit the scope of the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the scope of the present invention as set forth in the appended claims.

Claims

1. An artificial intelligence-based electric control fire control device which is characterized in that: the fire-fighting water pump comprises a fire-fighting water pump (1) and a water pump motor (2) for driving the fire-fighting water pump (1) to operate, wherein a water outlet of the fire-fighting water pump (1) is fixedly and hermetically connected with a main water pipe (3), a pressurizing assembly is arranged on the outer side of the main water pipe (3), a fire-fighting pipe (11) which is fixedly connected with the main water pipe in a sealing manner is arranged at the end part of the main water pipe (3), a fire-fighting spray head assembly (12) is fixedly arranged at the outer side of the fire-fighting pipe (11) downwards, the pressurizing assembly can increase the pressure inside the main water pipe (3), and the fire-fighting spray head assembly (12) can accurately spray high-pressure water inside the fire-fighting pipe (11) to the fire point according to the position of the fire point to extinguish the fire; the supercharging assembly comprises a water turbine (4), the water turbine (4) is fixedly arranged on a main water pipe (3), a first one-way valve (5) and a second one-way valve (6) which are fixedly connected with the water turbine (4) in a sealing way are respectively arranged at a water outlet and a water inlet of the water turbine (4), an air compressor (7) which is fixedly connected with the water turbine in a transmission way is arranged at the output shaft end of the water turbine (4), an air pipe (8) which is fixedly connected with the air compressor (7) in a sealing way is arranged at the output end of the air pipe (8), a third one-way valve (9) which is fixedly connected with the air pipe is arranged at the tail end of the air pipe (8), and the third one-way valve (9) is fixedly arranged at the position, which is positioned outside the second one-way valve (6), on the main water pipe (3) in a sealing way; a controller (13) which is electrically connected with the water pump motor (2) is arranged outside the water pump motor (2), a rotary position sensor (14) is arranged at the other end of the air compressor (7) on the output shaft of the water turbine (4), and the rotary position sensor (14) is electrically connected with the controller (13); the fire control shower nozzle subassembly (12) include standpipe (15), the upper end of standpipe (15) and the outside fixed sealed intercommunication of outside down of fire control pipe (11), the lower tip of standpipe (15) is located the four outside four and is equipped with four horizontal pipes (16) with it fixed sealed intercommunication, the outer end of horizontal pipe (16) all is equipped with first pipe box (17) with it fixed sealed rotation connection, the outer end of first pipe box (17) is equipped with first hose (18) with it fixed sealed intercommunication, the other end of first hose (18) is equipped with fixed sealed second pipe box (19), the other end of second pipe box (19) is equipped with first pipe chute (20) with it fixed sealed connection, the outside articulated connection of first pipe box (17) and second pipe box (19), the lower extreme inside of first pipe chute (20) is equipped with second pipe chute (21) with it fixed sealed sliding connection, the lower tip of second pipe chute (21) is equipped with automatically controlled flow valve (22) with it fixed sealed connection.

2. The artificial intelligence based electrically controlled fire protection apparatus of claim 1, wherein: the electric control flow valve (22) is electrically connected with the controller (13).

3. The artificial intelligence based electrically controlled fire protection apparatus of claim 2, wherein: the inner side of the electric control flow valve (22) is provided with a first mounting seat (23) which is hinged with the first mounting seat, the lower end of the first mounting seat (23) is provided with a swinging pipe (24) which is fixedly connected with the first mounting seat, the outer side of the swinging pipe (24) is respectively provided with a second hose (25) which is fixedly connected with the outlets of the four electric control flow valves (22) in a sealing way, the second hose (25) is fixedly connected with the swinging pipe (24) in a sealing way, the upper end of the first mounting seat (23) is provided with a swinging rod (26) which is fixedly connected with the first mounting seat, the upper end of the swinging rod (26) is provided with a second mounting seat (27) which is fixedly connected with the second mounting seat through a spherical hinge, and the second mounting seat (27) is fixedly mounted on the lower side of the inner end of the transverse pipe (16).

4. An artificial intelligence based electrically controlled fire fighting device according to claim 3, characterized in that: the lower extreme of pendulum pipe (24) be equipped with its fixed connection's water curtain bowl (28), water curtain bowl (28) bottom is seted up corresponding pendulum pipe (24) lower extreme and is had been spilt hole (29), the aperture of spilt hole (29) is less than the aperture of pendulum pipe (24) lower extreme, the inner of spilt hole (29) is located water curtain bowl (28) indent side and is equipped with annular bellied retaining ring (30).

5. An artificial intelligence based electrically controlled fire fighting device according to claim 3, characterized in that: the outer sides of the second mounting seats (27) are positioned between every two adjacent transverse pipes (16), AI cameras (31) are fixedly mounted, the AI cameras (31) are electrically connected with an external AI processor, and the AI processor is electrically connected with the controller (13).

6. The artificial intelligence based electrically controlled fire protection apparatus of claim 1, wherein: the outer end of the main water pipe (3) positioned on the third one-way valve (9) is fixedly provided with a pressure gauge (10).