CN114602089A

CN114602089A - Self-control type forest firewall

Info

Publication number: CN114602089A
Application number: CN202210422894.8A
Authority: CN
Inventors: 孟桂娟
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-21
Filing date: 2022-04-21
Publication date: 2022-06-10
Anticipated expiration: 2042-04-21
Also published as: CN114602089B

Abstract

The invention discloses a self-control type forest fire wall which comprises a cloth storage groove, a first tower pipe and a second tower pipe, wherein the first tower pipe and the second tower pipe are positioned on one side surface of the cloth storage groove, a first signal transmitting and receiving device is installed at the top of the first tower pipe, a second signal transmitting and receiving device is installed at the top of the second tower pipe, a first pulley frame is installed on the outer wall of the upper end of the first tower pipe, a second pulley frame is installed on the outer wall of the upper end of the second tower pipe, and a first winch is installed at the bottom of the first tower pipe. According to the automatic control type forest fire wall, fire information acquired by a camera and an infrared temperature sensor which are installed on a tower pipe is utilized, the information is processed by a signal processor and transmitted to a forest fire center through a signal transmitter in time, meanwhile, an automatic controller lifts a fire wall cloth to block the spread of fire, and a good foundation is laid for timely fire extinguishment of firefighters.

Description

Self-control type forest firewall

Technical Field

The invention relates to the field of forest fire prevention, in particular to a self-control type forest fire wall.

Background

The fire prevention wall of forest is a support equipment that carries out conflagration and spread and block, and traditional instrument of putting out a fire has broom, shovel, fire extinguisher, watering lorry etc. to control the intensity of a fire of forest, and along with the continuous development of science and technology, people are also higher and higher to the manufacturing process requirement of fire prevention wall of forest.

The existing forest fire prevention tools have certain disadvantages when in use, the traditional fire extinguishing tools comprise a broom, a shovel, a fire extinguisher, a sprinkler and the like, but the tools have little significance for forest fire extinguishing, and some forest fires even burn for several months.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic control type forest fire wall, which utilizes fire information acquired by a camera and an infrared temperature sensor arranged on a tower pipe, transmits the information to a forest fire center through a signal transmitter in time through the processing of a signal processor, and simultaneously raises a fire wall cloth by an automatic controller to block the spreading of fire, thereby laying a good foundation for the timely fire extinguishing of firefighters and effectively solving the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a self-control formula forest prevents hot wall, is including storing up cloth groove, first wire rope, first tower pipe and second tower pipe, first tower pipe is located the side of storing up the cloth groove with second tower pipe, first signal transmitter receiver is installed at the top of first tower pipe, second signal transmitter receiver is installed at the top of second tower pipe, first pulley yoke is installed to the upper end outer wall of first tower pipe, the second pulley yoke is installed to the upper end outer wall of second tower pipe, first book machine of raising is installed to the bottom of first tower pipe, the second hoist engine is installed to the bottom of second tower pipe.

As an optimal technical scheme of this application, be provided with first pulley on the first pulley yoke, be provided with the second pulley on the second pulley yoke, be provided with first wire rope on the first tower pipe, first wire rope one end is connected with third wire rope through first pulley, be provided with second wire rope on the second tower pipe, second wire rope's one end is connected with fourth wire rope through the second pulley, the first wire rope other end is connected with first winding machine, the other end of second tower pipe is connected with the second hoist engine, third wire rope has fifth wire rope with fourth wire rope's bottom location, the last positioning connection of fifth wire rope has the fire prevention cloth, the bottom positioning of fire prevention cloth is connected with the cloth bottom shaft.

As a preferred technical scheme of this application, first solar panel and light are installed to the outer wall position of first tower pipe, second solar panel, camera, infrared ray fire sensor and signal processing controller are installed to the outer wall position of second tower pipe, set up movable pulley and fixed pulley on the first tower pipe, first wire rope moves about on movable pulley, fixed pulley, first wire rope connects and lifts wire rope, first wire rope and lift wire rope wind on first hoist engine, driving motor is installed to the tip of first hoist engine, the second hoist engine is located the corresponding position of first hoist engine.

As an optimal technical scheme of this application, store up the upper end in cloth groove and be provided with the capping, store up and be provided with the capping axle between cloth groove and the capping, the lid axle motor is installed to the tip of capping axle.

As a preferred technical scheme of this application, fix a position the installation between first tower pipe and the first signal emission receiver, fix a position the installation between second tower pipe and the second signal emission receiver, fix through the mode of bolt location between first tower pipe and the first pulley yoke, fix through the mode of bolt location between second tower pipe and the second pulley yoke, first hoist engine carries out rotation activity in the position of first tower socle bottom, the second hoist engine carries out rotation activity in the position of second tower socle bottom.

As an optimal technical scheme of this application, fix a position between first pulley yoke and the first pulley, fix a position between second pulley yoke and the second pulley, first wire rope move about on first tower pipe, first pulley and with fixed between the third wire rope, second wire rope move about on second tower pipe, second pulley and with fixed between the fourth wire rope, third wire rope, fourth wire rope, fifth wire rope fix the upper end position of fire prevention cloth.

As an optimal technical scheme of this application, fix through the mode of mounting bracket location between first tower pipe and first solar panel, the light, the mode of location mounting bracket location is fixed between second tower pipe and second solar panel, camera, infrared ray fire inductor, the signal processing controller, first wire rope, the end position that lifts wire rope connect and all wind the book at first hoist outer wall, the first hoist of driving motor drive is just reversing, the position of fire prevention cloth lifts when first hoist corotation, the position of fire prevention cloth is pulled down when first hoist reversal, second hoist and first hoist are isostructure and synchronous activity.

As a preferred technical scheme of this application, the capping carries out rotary motion through the capping axle in the upper end position of storing up cloth groove, and the position of capping axle is driven through the lid axle motor.

Compared with the prior art, the invention provides a self-control type forest firewall, which has the following beneficial effects: the automatic control type forest fire wall utilizes fire information collected by a camera and an infrared temperature sensor arranged on a tower pipe, the information is transmitted to a forest fire center through a signal transmitter in time through the processing of a signal processor, meanwhile, an automatic controller lifts a fire wall cloth to block the spreading of fire, a good foundation is laid for the timely fire extinguishing of firefighters, when a certain area of the forest has a fire, an infrared fire sensor erected on the edge of the tower pipe of the area can detect the fire point at the first time and then transmit signals to the signal processor and the controller, the signals processed by the signal processor can be transmitted to the forest fire center through the signal transmitter, the firefighters can find the fire point to extinguish the fire according to a plurality of towers and a plurality of defense areas, and simultaneously, the signal controller can send instructions to a motor on a cover shaft to switch on a power supply, the capping will open under the drive of motor, then will put through the motor at the installation tower bottom, the motor rotates derailleur and hoist engine and will work, rotatory hoist engine will be carried the cloth wire rope and draw and curl up, at this moment wire rope will mention the fire prevention cloth fast, the fire prevention cloth of mentioning just separates these adjacent two forests, the stretching of the intensity of a fire has been prevented, after the big fire is put out, promote cloth motor reverse rotation, the fire prevention cloth is drawn down, fall into and store up the cloth inslot, cover epaxial motor and also can reverse, cover the capping at the notch, when the forest does not have the conflagration, solar panel on the tower pipe sends the electric energy, in the storage battery, supply with the use of these fire-proof equipment of installation, whole forest firewall simple structure, high durability and convenient operation, the effect of use is better for traditional mode.

Drawings

Fig. 1 is a schematic view of the overall structure of an autonomous forest firewall according to the present invention.

Fig. 2 is a schematic structural diagram of the connection of the fire-proof cloth in the self-controlled forest fire-proof wall.

Fig. 3 is a schematic structural diagram of a cloth storage tank in the self-controlled forest fire wall according to the invention.

Fig. 4 is a schematic structural diagram of the lifting and pulling operation of the fire-proof cloth in the self-controlled forest fire-proof wall according to the invention.

In the figure: 1. a cloth storage tank; 2. a slot cover shaft; 3. a cloth bottom shaft; 4. a slot cover; 5. a first winding machine; 6. fireproof cloth; 7. a first wire rope; 8. a first tower tube; 9. a first pulley; 10. a first signal transmitter-receiver; 11. a first solar panel; 12. an illuminating lamp; 13. a fifth wire rope; 14. a fourth wire rope; 15. a second pulley; 16. a second sheave frame; 17. a second signal transmitter-receiver; 18. a second solar panel; 19. a camera; 20. an infrared fire sensor; 21. a signal processing manipulator; 22. a second hoist; 23. a cover shaft motor; 24. a third wire rope; 25. a first sheave frame; 26. a second tower tube; 27. a second wire rope; 28. a movable pulley; 29. a fixed pulley; 30. a drive motor; 31. and lifting the steel wire rope.

Detailed Description

Example one

As shown in fig. 1-4, an automatic control type forest fire prevention wall comprises a cloth storage groove 1, a first steel wire rope 7, a first tower pipe 8 and a second tower pipe 26, wherein the first tower pipe 8 and the second tower pipe 26 are located on one side surface of the cloth storage groove 1, a first signal transmitting and receiving device 10 is installed at the top of the first tower pipe 8, a second signal transmitting and receiving device 17 is installed at the top of the second tower pipe 26, a first pulley frame 25 is installed on the outer wall of the upper end of the first tower pipe 8, a second pulley frame 16 is installed on the outer wall of the upper end of the second tower pipe 26, a first winch 5 is installed at the bottom of the first tower pipe 8, and a second winch 22 is installed at the bottom of the second tower pipe 26.

Further, a first pulley 9 is arranged on the first pulley yoke 25, a second pulley 15 is arranged on the second pulley yoke 16, a first steel wire rope 7 is arranged on the first tower pipe 8, one end of the first steel wire rope 7 is connected with a third steel wire rope 24 through the first pulley 9, a second steel wire rope 27 is arranged on the second tower pipe 26, one end of the second steel wire rope 27 is connected with a fourth steel wire rope 14 through the second pulley 15, the other end of the first steel wire rope 7 is connected with a first hoisting machine 5, the other end of the second tower pipe 26 is connected with a second hoisting machine 22, a fifth steel wire rope 13 is positioned at the bottom of the third steel wire rope 24 and the bottom of the fourth steel wire rope 14, a fireproof cloth 6 is positioned on the fifth steel wire rope 13, and a cloth bottom shaft 3 is positioned and connected at the bottom of the fireproof cloth 6.

Furthermore, the first tower pipe 8 and the first signal transmitting and receiving device 10 are positioned and installed, the second tower pipe 26 and the second signal transmitting and receiving device 17 are positioned and installed, the first tower pipe 8 and the first pulley yoke 25 are fixed through a bolt positioning mode, the second tower pipe 26 and the second pulley yoke 16 are fixed through a bolt positioning mode, the first winch 5 rotates at the bottom of the first tower pipe 8, and the second winch 22 rotates at the bottom of the second tower pipe 26.

Furthermore, the first pulley yoke 25 is positioned between the first pulley 9, the second pulley yoke 16 is positioned between the second pulley 15, the first steel wire rope 7 moves on the first tower tube 8 and the first pulley 9 and is fixed between the first steel wire rope and the third steel wire rope 24, the second steel wire rope 27 moves on the second tower tube 26 and the second pulley 15 and is fixed between the second steel wire rope and the fourth steel wire rope 14, and the third steel wire rope 24, the fourth steel wire rope 14 and the fifth steel wire rope 13 fix the upper end position of the fireproof cloth 6.

Example two

On the basis of the first embodiment, as shown in fig. 1 to 4, an automatic control type forest fire wall includes a cloth storage groove 1, a first steel wire rope 7, a first tower pipe 8 and a second tower pipe 26, wherein the first tower pipe 8 and the second tower pipe 26 are located on one side surface of the cloth storage groove 1, a first signal transmitter-receiver 10 is installed at the top of the first tower pipe 8, a second signal transmitter-receiver 17 is installed at the top of the second tower pipe 26, a first pulley frame 25 is installed on the outer wall of the upper end of the first tower pipe 8, a second pulley frame 16 is installed on the outer wall of the upper end of the second tower pipe 26, a first winch 5 is installed at the bottom of the first tower pipe 8, and a second winch 22 is installed at the bottom of the second tower pipe 26.

Further, a first solar panel 11 and an illuminating lamp 12 are installed at the outer wall of the first tower pipe 8, a second solar panel 18, a camera 19, an infrared fire sensor 20 and a signal processing controller 21 are installed at the outer wall of the second tower pipe 26, a movable pulley 28 and a fixed pulley 29 are arranged on the first tower pipe 8, the first steel wire rope 7 moves on the movable pulley 28 and the fixed pulley 29, the first steel wire rope 7 is connected with a lifting steel wire rope 31, the first steel wire rope 7 and the lifting steel wire rope 31 are wound on the first winch 5, a driving motor 30 is installed at the end of the first winch 5, and the second winch 22 is located at the corresponding position of the first winch 5.

Further, first tower pipe 8 and first solar panel 11, fix through the mode of mounting bracket location between the light 12, second tower pipe 26 and second solar panel 18, camera 19, infrared ray fire sensor 20, the mode of location mounting bracket location is fixed between the signal processing controller 21, first wire rope 7, the tip position of lifting wire rope 31 is connected and all is around rolling up at first hoist 5 outer wall, driving motor 30 drives first hoist 5 and just reverses, the position of fire prevention cloth 6 lifts when first hoist 5 corotation, the position of fire prevention cloth 6 is pulled down when first hoist 5 reverses, second hoist 22 is the same structure and synchronous activity with first hoist 5.

EXAMPLE III

On the basis of the first embodiment and the second embodiment, as shown in fig. 1 to 4, the self-control forest fire wall includes a cloth storage tank 1, a first tower pipe 8 and a second tower pipe 26, the first tower pipe 8 and the second tower pipe 26 are located on one side surface of the cloth storage tank 1, a first signal transmitter-receiver 10 is installed at the top of the first tower pipe 8, a second signal transmitter-receiver 17 is installed at the top of the second tower pipe 26, a first pulley frame 25 is installed on the outer wall of the upper end of the first tower pipe 8, a second pulley frame 16 is installed on the outer wall of the upper end of the second tower pipe 26, a first winch 5 is installed at the bottom of the first tower pipe 8, and a second winch 22 is installed at the bottom of the second tower pipe 26.

Further, the upper end of the cloth storage groove 1 is provided with a groove cover 4, a groove cover shaft 2 is arranged between the cloth storage groove 1 and the groove cover 4, and a cover shaft motor 23 is installed at the end part of the groove cover shaft 2.

Further, the chute cover 4 is rotatably moved at the upper end position of the cloth storage chute 1 by the chute cover shaft 2, and the position of the chute cover shaft 2 is driven by the cover shaft motor 23.

The working principle is as follows: the invention comprises a cloth storage groove 1, a groove cover shaft 2, a cloth bottom shaft 3, a groove cover 4, a first winch 5, a fireproof cloth 6, a first steel wire rope 7, a first tower tube 8, a first pulley 9, a first signal transmitting receiver 10, a first solar panel 11, an illuminating lamp 12, a fifth steel wire rope 13, a fourth steel wire rope 14, a second pulley 15, a second pulley frame 16, a second signal transmitting receiver 17, a second solar panel 18, a camera 19, an infrared fire sensor 20, a signal processing controller 21, a second winch 22, a cover shaft motor 23, a third steel wire rope 24, a first pulley frame 25, a second tower tube 26, a second steel wire rope 27, a movable pulley 28, a fixed pulley 29, a driving motor 30 and a lifting steel wire rope 31, wherein when in use, the fireproof cloth 6 is arranged in the cloth storage groove 1, the groove opening is provided with a cover, the cover is connected with the edge of the groove through a shaft, and the shaft is connected with the motor, the lower end of a fire-proof cloth 6 is fixed at the bottom of the groove, the upper end of the fire-proof cloth is penetrated on a steel wire rope, a pipe tower is arranged on one side surface of the groove, an infrared detector, a camera, a solar panel, a signal emitter, a signal processing controller 21, a pulley, a lamp and the like are arranged on the pipe tower, one end of a cloth lifting steel wire rope is connected with the cloth penetrating steel wire rope, the other end of the cloth lifting steel wire rope is wound on a winch, the middle of the cloth lifting steel wire rope bypasses the pulley, before a forest fire-proof wall is arranged, the whole forest is firstly divided into a plurality of areas according to different terrains, a fire-fighting channel is laid between each area, then the forest fire-proof wall is arranged, so that a fireman can arrive at the first time when a fire occurs in the forest, fire-fighting equipment can be smoothly transported to a fire scene, a cloth storage groove 1 is a cuboid groove for storing fire, a groove cover shaft 2 is a shaft for connecting the cloth storage groove 1 and a groove cover 4, a cloth bottom shaft 3 is a fixed shaft at the bottom end of the fire-proof cloth 6 for fixing the lower end of the fire-proof cloth 6, the groove cover 4 is an upper cover of the cloth storage groove 1 and can open the upper cover and cover the groove opening through the control of a motor, the first winch 5 is placed at the bottom of the tower pipe, the lifting and falling of the fireproof cloth 6 are realized through a steel wire rope connected with the first winch, the fireproof cloth 6 is a special cloth capable of resisting high temperature, fire and corrosion, the upper end of the fireproof cloth 6 is penetrated through by the steel wire rope, the lower end of the fireproof cloth 6 is fixed at the bottom of the groove through a pipe shaft, the first steel wire rope 7 is a steel wire rope penetrating through an upper movable pulley, the tower pipe and a lower gearbox and realizing the lifting or falling of the fireproof cloth 6 through the operation of the gearbox, the first tower pipe 8 and the second tower pipe 26 are towers which are welded by steel pipes and used for supporting the fireproof cloth 6, the upper end of the fireproof cloth 6 is provided with the movable pulley, a signal emitter and a lamp, the motor and the gearbox are arranged inside the lower end, the first pulley 9 is used for penetrating through a wheel of the steel wire rope, is fixed, the first signal transmitting receiver 10 is installed on the top of the tower tube for transmitting signal or receiving signal, the first solar energy plate 11 and the second solar energy plate 18 are used for receiving the plate of solar energy, it can convert the light energy into electric energy, the lighting lamp 12 is used for night lighting or using the ultraviolet ray to kill insect, the fifth wire rope 13 is used to string the upper end of the cloth, the two ends of the rope are fixed on the sliding block, the sliding block can move up and down in the tower tube, the fourth wire rope 14 passes through the pulley, the upper end is connected on the fifth wire rope 13, the lower end is connected on the second windlass 22, the second pulley 15 is fixed on the tower tube through the pulley frame, the second pulley frame 16 is used to fix the frame of the pulley, it is installed on the tower tube, the second signal transmitting receiver 17 is installed on the top of the tower tube, the camera 19 is used for observing forest fire at any time, the infrared fire sensor 20 is connected on the signal processing controller 21, the device can transmit the sensed signal to a signal processing controller 21, the signal processing controller 21 can transmit the received signal processing to a first signal transmitting receiver 10, a second signal transmitting receiver 17 and a control motor to operate to lift the fireproof cloth 6, when a certain area of the forest has a fire, an infrared fire sensor 20 erected on a tower pipe at the edge of the area can detect the fire point at the first time, then the signal can be transmitted to the signal processor and the controller, the signal processed by the signal processor can be transmitted to a forest fire center through the signal transmitter, a fireman can extinguish the fire according to the number of towers and the number of fire prevention areas, meanwhile, the signal controller can send an instruction to the motor on a cover shaft to switch on, the cover can open the slot cover 4 under the driving of the motor, and then the motor at the bottom of the tower can be switched on, the motor rotates derailleur and hoist engine and will work, rotatory hoist engine will be carried cloth wire rope and draw and curl up, at this moment wire rope will mention fire prevention cloth 6 fast, the fire prevention cloth 6 of mentioning just separates these two adjacent forests, the stretching of the intensity of a fire has been prevented, big fire extinguishes the back, promote cloth motor reverse rotation, 6 pulldowns of fire prevention cloth, fall on storing up cloth groove 1, cover epaxial motor also can reverse, with the lid at the notch, when the forest does not take place the conflagration, solar panel on the tower pipe sends the electric energy, in the storage battery, supply with the use of these fire-proof equipment of installation.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. The utility model provides a self-control formula forest prevents hot wall, includes cloth storage groove (1), first wire rope (7), first tower pipe (8) and second tower pipe (26), its characterized in that: first tower pipe (8) and second tower pipe (26) are located the side of storing up cloth groove (1), first signal emission receiver (10) are installed to the top of first tower pipe (8), second signal emission receiver (17) are installed at the top of second tower pipe (26), first pulley yoke (25) are installed to the upper end outer wall of first tower pipe (8), second pulley yoke (16) are installed to the upper end outer wall of second tower pipe (26), first hoist engine (5) are installed to the bottom of first tower pipe (8), second hoist engine (22) are installed to the bottom of second tower pipe (26).

2. An autonomous forest fire protection wall according to claim 1, characterised in that: a first pulley (9) is arranged on the first pulley frame (25), a second pulley (15) is arranged on the second pulley frame (16), a first steel wire rope (7) is arranged on the first tower pipe (8), one end of the first steel wire rope (7) is connected with a third steel wire rope (24) through the first pulley (9), a second steel wire rope (27) is arranged on the second tower pipe (26), one end of the second steel wire rope (27) is connected with a fourth steel wire rope (14) through the second pulley (15), the other end of the first steel wire rope (7) is connected with a first winch (5), the other end of the second tower pipe (26) is connected with a second winch (22), a fifth steel wire rope (13) is positioned at the bottoms of the third steel wire rope (24) and the fourth steel wire rope (14), and a fireproof cloth (6) is positioned and connected on the fifth steel wire rope (13), the bottom of the fireproof cloth (6) is connected with a cloth bottom shaft (3) in a positioning way.

3. An autonomous forest fire protection wall according to claim 1, characterised in that: the solar fire monitoring system is characterized in that a first solar panel (11) and an illuminating lamp (12) are installed at the outer wall of a first tower pipe (8), a second solar panel (18), a camera (19), an infrared fire sensor (20) and a signal processing controller (21) are installed at the outer wall of a second tower pipe (26), a movable pulley (28) and a fixed pulley (29) are arranged on the first tower pipe (8), a first steel wire rope (7) moves on the movable pulley (28) and the fixed pulley (29), a lifting steel wire rope (31) is connected with the first steel wire rope (7), the first steel wire rope (7) and the lifting steel wire rope (31) are wound on a first winch (5), a driving motor (30) is installed at the end of the first winch (5), and the second winch (22) is located at the corresponding position of the first winch (5).

4. An autonomous forest fire protection wall according to claim 1, characterised in that: store up the upper end of cloth groove (1) and be provided with capping (4), store up and be provided with slotted lid axle (2) between cloth groove (1) and capping (4), lid axle motor (23) are installed to the tip of slotted lid axle (2).

5. An autonomous forest fire protection wall according to claim 1, characterised in that: the device comprises a first tower pipe (8), a first signal transmitting and receiving device (10), a second tower pipe (26), a second signal transmitting and receiving device (17), a first pulley frame (25), a second tower pipe (26), a first winch (5), and a second winch (22), wherein the first tower pipe (8) and the first signal transmitting and receiving device are positioned and mounted, the second tower pipe (26) and the second signal transmitting and receiving device (17) are positioned and mounted, the first tower pipe (8) and the first pulley frame (25) are fixed in a bolt positioning mode, the second tower pipe (26) and the second pulley frame (16) are fixed in a bolt positioning mode, the first winch (5) performs rotary motion at the bottom of the first tower pipe (8), and the second winch (22) performs rotary motion at the bottom of the second tower pipe (26).

6. An autonomous forest fire protection wall as claimed in claim 2, characterised in that: the fireproof cloth is characterized in that the first pulley frame (25) is positioned with the first pulley (9), the second pulley frame (16) is positioned with the second pulley (15), the first steel wire rope (7) moves on the first tower pipe (8) and the first pulley (9) and is fixed with the third steel wire rope (24), the second steel wire rope (27) moves on the second tower pipe (26) and the second pulley (15) and is fixed with the fourth steel wire rope (14), and the third steel wire rope (24), the fourth steel wire rope (14) and the fifth steel wire rope (13) fix the upper end of the fireproof cloth (6).

7. A self-controlling forest firewall according to claim 3, wherein: the device is characterized in that the first tower tube (8), the first solar panel (11) and the illuminating lamp (12) are fixed in a mounting frame positioning mode, the second tower tube (26), the second solar panel (18), the camera (19), the infrared fire sensor (20) and the signal processing controller (21) are fixed in a mounting frame positioning mode, the end portions of the first steel wire rope (7) and the lifting steel wire rope (31) are connected and wound on the outer wall of the first winch (5), the driving motor (30) drives the first winch (5) to rotate forward and backward, the fireproof cloth (6) is lifted up when the first winch (5) rotates forward, the fireproof cloth (6) is pulled down when the first winch (5) rotates backward, and the second winch (22) and the first winch (5) are of the same structure and move synchronously.

8. An autonomous forest fire protection wall as claimed in claim 4, characterised in that: the groove cover (4) rotates at the upper end of the cloth storage groove (1) through the groove cover shaft (2), and the position of the groove cover shaft (2) is driven by a cover shaft motor (23).