CN113184765A

CN113184765A - Communication base station with from electricity generation companion ladder

Info

Publication number: CN113184765A
Application number: CN202110562721.1A
Authority: CN
Inventors: 曹伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2021-07-30

Abstract

The invention relates to the field of communication, in particular to a communication base station with a self-generating elevator, wherein the maintenance of a modern communication base station often needs manual climbing, the work is very dangerous, and safety accidents are easily caused.

Description

Communication base station with from electricity generation companion ladder

Technical Field

The invention relates to the field of communication, in particular to a communication base station with a self-generating elevator.

Background

The maintenance of modern communication base stations often needs manual climbing, the work is very dangerous, safety accidents are easily caused, and the equipment is invented based on the reasons.

Disclosure of Invention

The invention aims to provide a communication base station with a self-generating elevator, which can safely bring maintenance personnel to the top of the base station.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a communication base station with from electricity generation companion ladder, includes base station frame assembly, wind power generation assembly, companion ladder assembly and power assembly, base station frame assembly is connected with wind power generation assembly, and the companion ladder assembly is connected with base station frame assembly, and the power assembly is connected with base station frame assembly, companion ladder assembly.

As a further optimization of the technical scheme, the base station frame assembly comprises a frame, a lifting chute, a base station base, a base station upper cover, a scratch-proof roller and a battery, wherein the lifting chute is positioned on the frame, the frame is connected with the base station base, the frame is connected with the base station upper cover, the base station upper cover is rotatably connected with the scratch-proof roller and the scratch-proof roller, and the battery is connected with the base station upper cover.

As a further optimization of the technical scheme, the wind power generation assembly comprises a central shaft, a steering plate, a steering roller, a turning groove, a rotating frame, power generation blades, a connecting rod and a ball rod, wherein the central shaft is connected with the steering plate, is rotatably connected with an upper cover of a base station, is connected with the steering roller, is positioned on the steering roller, is rotatably connected with the central shaft, is rotatably connected with the rotating frame, is connected with the power generation blades, is connected with the connecting rod, is connected with the ball rod, and is in sliding connection with the turning groove.

As a further optimization of the technical proposal, the elevator assembly of the invention comprises an elevator box, a roller bracket, a bracket chute, a safety belt shaft, a safety belt, a confining belt, a sliding clamp, a thread clamping shaft, a friction cylinder, a rotating block, a tension spring, a centrifugal block, a hair strip cylinder, a spring, an elevating lug and a climbing ladder, wherein the roller is rotationally connected with the roller bracket, the roller is slidably connected with the elevating chute, the roller bracket is slidably connected with the bracket chute, the bracket chute is positioned on the elevator box, the safety belt shaft is rotationally connected with the elevator box, the safety belt shaft is connected with the safety belt, the safety belt is connected with the confining belt, the confining belt is connected with the sliding clamp, the sliding clamp is slidably connected with the safety belt, the sliding clamp is in threaded connection with the thread clamping shaft, the friction cylinder and the elevator box are both connected, both ends of the safety belt shaft are respectively connected with the rotating block and the spring, the rotating block is connected with the tension spring, and the tension spring is in a normal state, the tension spring is connected with the centrifugal block, the clockwork spring is connected with the clockwork spring barrel, the lifting box is connected with the lifting support lug, and the climbing ladder is connected with the lifting box.

As a further optimization of the technical scheme, the power assembly comprises a fixed support, a lifting motor, a bevel gear I, a bevel gear II shaft, a rotary table, a bevel gear ring, a bevel gear III shaft support, a rope roller and a lifting rope, wherein the lifting motor is connected with the bevel gear I, the bevel gear I is in meshed connection with the bevel gear II, a base station base is connected with the fixed support, the lifting motor is connected with the base station base, the lifting motor is connected with the fixed support, the lifting motor is connected with the bevel gear I, the bevel gear I is in meshed connection with the bevel gear II, the bevel gear II is connected with the bevel gear II shaft, the bevel gear II shaft is connected with the rotary table, the rotary table is in rotary connection with the fixed support, the rotary table is connected with the bevel gear ring, the bevel gear ring is in meshed connection with the bevel gear III shaft, the bevel gear III shaft is in rotary connection with the bevel gear III shaft support, III shaft brackets of bevel gear are connected with the frame, and the III axles of bevel gear are connected with the rope roll, and the rope roll is connected with the lifting rope, and the lifting rope is connected with the lift journal stirrup, and the battery is the elevator motor power supply, and elevator motor is equipped with the lock function after stalling.

As a further optimization of the technical scheme, the outer side of the upper part of the rotating frame is provided with the magnets, the magnets are connected with the central shaft, a magnetic field is formed between the magnets, and the rotating frame is made of a conductor.

The communication base station with the self-generating elevator has the beneficial effects that: wind power generation assembly can turn into electric power with wind-force and store in the battery, and the battery is the power assembly power supply, and the power assembly drives the lift ladder assembly and rises or descend, has saved the danger of climbing, when maintenance personal overhauls, ties up the safety belt, and the safety belt can in time lock when maintenance personal drops, prevents that the people from falling, when the people gos forward or retreats, and the safety belt can stretch out and draw back automatically.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural diagram of the base station frame assembly 1 of the present invention;

fig. 3 is an enlarged schematic view of the structure of the base station frame assembly 1 of the present invention;

FIG. 4 is a first schematic structural view of the wind power generation assembly 2 of the present invention;

FIG. 5 is an expanded view of the wind power generation assembly 2 of the present invention;

FIG. 6 is a schematic structural view II of the wind power generation assembly 2 of the present invention;

fig. 7 is a first schematic structural view of the elevator assembly 3 of the present invention;

fig. 8 is a schematic structural view of the elevator assembly 3 of the present invention;

fig. 9 is a schematic structural view three of the elevator assembly 3 of the present invention;

fig. 10 is an enlarged schematic view of the structure of the elevator assembly 3 of the present invention;

fig. 11 is a fourth schematic structural view of the elevator assembly 3 of the present invention;

fig. 12 is a schematic structural view five of the elevator assembly 3 of the present invention;

FIG. 13 is a first schematic structural view of the power assembly 4 of the present invention;

FIG. 14 is a second schematic structural view of the power assembly 4 of the present invention;

fig. 15 is a third schematic structural view of the power combined unit 4 of the present invention.

In the figure: a base station frame assembly 1; a frame 1-1; a lifting chute 1-2; base station bases 1-3; a base station upper cover 1-4; 1-5 of anti-scraping rollers; 1-6 of a scratch-resistant roller; a wind power generation assembly 2; a central shaft 2-1; a deflector 2-2; 2-3 of a steering roller; 2-4 of a turning groove; 2-5 of a rotating frame; 2-6 parts of power generation fan blades; 2-7 of a connecting rod; 2-8 parts of a ball arm; an elevator assembly 3; 3-1 of a lifting box; 3-2 of rollers; 3-3 of a roller bracket; 3-4 of a bracket chute; 3-5 parts of a safety belt shaft; 3-6 parts of a safety belt; a fastening band 3-7; 3-8 parts of a sliding clamp; 3-9 parts of a threaded clamp shaft; 3-10 parts of friction cylinder; 3-11 of a rotating block; 3-12 of a tension spring; 3-13 parts of centrifugal block; 3-14 parts of a spring barrel; 3-15 parts of clockwork spring; 3-16 of a lifting support lug; climbing stands 3-17; a power pack 4; a fixed support 4-1; a lifting motor 4-2; 4-3 of a bevel gear I; bevel gears II 4-4; 4-5 of a bevel gear II shaft; 4-6 of a turntable; 4-7 parts of bevel gear ring; 4-8 parts of bevel gears; bevel gear III shaft 4-9; 4-10 shaft supports of a bevel gear III; 4-11 parts of rope rollers; 4-12 of lifting rope.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 15, and a communication base station with a self-generating elevator includes a base station frame assembly 1, a wind power generation assembly 2, an elevator assembly 3, and a power assembly 4, where the base station frame assembly 1 is connected to the wind power generation assembly 2, the elevator assembly 3 is connected to the base station frame assembly 1, and the power assembly 4 is connected to the base station frame assembly 1 and the elevator assembly 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 15, and the embodiment further describes the first embodiment, in which the base station frame assembly 1 includes a frame 1-1, a lifting chute 1-2, a base station base 1-3, a base station upper cover 1-4, a scratch-resistant roller 1-5, a scratch-resistant roller 1-6, and a battery 1-17, the lifting chute 1-2 is located on the frame 1-1, the frame 1-1 is connected with the base station base 1-3, the frame 1-1 is connected with the base station upper cover 1-4, the base station upper cover 1-4 is rotatably connected with the scratch-resistant roller 1-5 and the scratch-resistant roller 1-6, and the battery 1-17 is connected with the base station upper cover 1-4.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1-15, and the present embodiment further describes the first embodiment, the wind power generation assembly 2 includes a central shaft 2-1, a steering plate 2-2, a steering roller 2-3, a turning groove 2-4, a rotating frame 2-5, a power generation blade 2-6, a connecting rod 2-7 and a ball rod 2-8, the central shaft 2-1 is connected with the steering plate 2-2, the central shaft 2-1 is rotatably connected with a base station upper cover 1-4, the central shaft 2-1 is connected with the steering roller 2-3, the turning groove 2-4 is located on the steering roller 2-3, the rotating frame 2-5 is rotatably connected with the central shaft 2-1, the power generation blade 2-6 is rotatably connected with the rotating frame 2-5, the power generation blade 2-6 is connected with the connecting rod 2-7, the connecting rod 2-7 is connected with the ball rod 2-8, the ball rod 2-8 is connected with the diversion groove 2-4 in a sliding mode, and the wind power generation assembly can convert wind power into electric power to be stored in the battery.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, and the embodiment will be further described, in which the elevator assembly 3 includes an elevator box 3-1, rollers 3-2, a roller bracket 3-3, a bracket sliding slot 3-4, a safety belt shaft 3-5, a safety belt 3-6, a fastening belt 3-7, a sliding clamp 3-8, a threaded clamping shaft 3-9, a friction cylinder 3-10, a rotating block 3-11, a tension spring 3-12, a centrifugal block 3-13, a spring cylinder 3-14, a spring 3-15, an elevating lug 3-16 and a climbing ladder 3-17, the rollers 3-2 are rotatably connected with the roller bracket 3-3, the rollers 3-2 are slidably connected with the elevating sliding slot 1-2, the roller bracket 3-3 is slidably connected with the bracket sliding slot 3-4, the bracket chute 3-4 is positioned on the lifting box 3-1, the safety belt shaft 3-5 is rotationally connected with the lifting box 3-1, the safety belt shaft 3-5 is connected with the safety belt 3-6, the safety belt 3-6 is connected with the locking belt 3-7, the locking belt 3-7 is connected with the sliding clamp 3-8, the sliding clamp 3-8 is slidably connected with the safety belt 3-6, the sliding clamp 3-8 is in threaded connection with the threaded clamping shaft 3-9, the friction cylinder 3-10 and the clockwork cylinder 3-14 are both connected with the lifting box 3-1, both ends of the safety belt shaft 3-5 are respectively connected with the rotary block 3-11 and the clockwork spring 3-15, the rotary block 3-11 is connected with the tension spring 3-12, the tension spring 3-12 is in a normal state, the tension spring 3-12 is connected with the centrifugal block 3-13, the spring 3-15 is connected with the spring barrel 3-14, the lifting box 3-1 is connected with the lifting support lug 3-16, the climbing ladder 3-17 is connected with the lifting box 3-1, when maintenance personnel overhaul, a safety belt is tightened, the safety belt can be locked in time when the maintenance personnel fall down to prevent people from falling, and when the people go forward or backward, the safety belt can automatically stretch.

The fifth concrete implementation mode:

the embodiment will be described with reference to fig. 1-15, and the embodiment will be further described, wherein the power assembly 4 comprises a fixed support 4-1, a lifting motor 4-2, a bevel gear i 4-3, a bevel gear ii 4-4, a bevel gear ii shaft 4-5, a turntable 4-6, a bevel gear ring 4-7, a bevel gear iii 4-8, a bevel gear iii shaft 4-9, a bevel gear iii shaft support 4-10, a rope roller 4-11 and a lifting rope 4-12, the lifting motor 4-2 is connected with the bevel gear i 4-3, the bevel gear i 4-3 is engaged with the bevel gear ii 4-4, the base station base 1-3 is connected with the fixed support 4-1, the lifting motor 4-2 is connected with the base station base 1-3, the lifting motor 4-2 is connected with the fixed support 4-1, the lifting motor 4-2 is connected with a bevel gear I4-3, the bevel gear I4-3 is in meshed connection with a bevel gear II 4-4, the bevel gear II 4-4 is connected with a bevel gear II shaft 4-5, the bevel gear II shaft 4-5 is connected with a rotary table 4-6, the rotary table 4-6 is in rotary connection with a fixed support 4-1, the rotary table 4-6 is connected with a bevel gear ring 4-7, the bevel gear ring 4-7 is in meshed connection with a bevel gear III 4-8, the bevel gear III 4-8 is connected with a bevel gear III shaft 4-9, the bevel gear III shaft 4-9 is in rotary connection with a bevel gear III shaft support 4-10, the bevel gear III shaft support 4-10 is connected with a frame 1-1, the bevel gear III shaft 4-9 is connected with a rope roller 4-11, and the rope roller 4-11 is connected with a lifting rope 4-12, the lifting ropes 4-12 are connected with the lifting lugs 3-16, the batteries 1-17 supply power to the lifting motor 4-2, the lifting motor 4-2 has a locking function after stalling, the batteries supply power to the power assembly, and the power assembly drives the lifting ladder assembly to rise or fall, so that the climbing danger is saved.

The sixth specific implementation mode:

in the following, this embodiment will be described with reference to fig. 1 to 15, and the embodiment will be further described, in which magnets are provided on the outer side of the upper part of the rotating frame 2-5, the magnets are connected to the central shaft 2-1, a magnetic field is formed between the magnets, and the rotating frame 2-5 is made of a conductor.

The invention relates to a communication base station with a self-generating elevator, which has the working principle that: the wind blows the steering plate 2-2 to make the steering plate 2-2 parallel to the wind direction, the steering plate 2-2 drives the central shaft 2-1 to rotate, the central shaft 2-1 drives the steering roller 2-3 to rotate, the steering roller 2-3 drives the diversion groove 2-4 to rotate, the wind blows the electricity generating fan blade 2-6 to rotate, the electricity generating fan blade 2-6 drives the rotating frame 2-5 to rotate, the electricity generating fan blade 2-6 drives the ball rod 2-8 to slide in the diversion groove 2-4 through the connecting rod 2-7, the position of the ball rod 2-8 in the diversion groove 2-4 changes to drive the electricity generating fan blade 2-6 to rotate, only one electricity generating fan blade 2-6 is opposite to the wind in the opposite direction, so that the rotating resistance of the rotating frame 2-5 is greatly reduced and the electricity generating fan blade rotates rapidly, the outer side of the upper part of the rotating frame 2-5 is provided with a magnet, the magnets are connected with the central shaft 2-1, a magnetic field is formed between the magnets, the rotating frame 2-5 is made of a conductor, the rotating frame 2-5 rotates to cut a magnetic induction line in the magnetic field to generate an induced current, the current is guided to the battery 1-17 to charge the battery 1-17, a maintenance person sleeves a gap between the safety belt 3-6 and the fastening belt 3-7 on the body, the fastening belt 3-7 drives the sliding clamp 3-8 to slide on the safety belt 3-6, the proper circumference of the safety belt 3-6 and the fastening belt 3-7 is adjusted according to the waistline of the maintenance person, then the threaded clamping shaft 3-9 is rotated, the threaded clamping shaft 3-9 clamps the safety belt 3-6 and the fastening belt 3-7, the sliding clamp 3-8 does not slide, the lifting motor 4-2 is started, the battery 1-17 supplies power for the lifting motor 4-2, the lifting motor 4-2 drives the bevel gear I4-3 to rotate, the bevel gear I4-3 drives the bevel gear II 4-4 to rotate, the bevel gear II 4-4 drives the bevel gear II shaft 4-5 to rotate, the bevel gear II shaft 4-5 drives the turntable 4-6 to rotate, the turntable 4-6 drives the bevel gear III 4-8 to rotate, the bevel gear III 4-8 drives the bevel gear III shaft 4-9 to rotate, the bevel gear III shaft 4-9 drives the rope roller 4-11 to rotate, the rope roller 4-11 drives the lifting rope 4-12 to wind on, the lifting rope 4-12 drives the lifting box 3-1 to move upwards through the lifting support lug 3-16, the lifting box 3-1 drives the roller support 3-3 to move upwards through the support chute 3-4, the roller support 3-3 drives the roller 3-2 to slide in the lifting chute 1-2, when the lifting box 3-1 rises to the top, the lifting motor 4-2 is locked and does not rotate after stopping rotating, a maintenance person can step on the climbing ladder 3-17 to climb from the upper part of the lifting box 3-1 to the upper cover 1-4 of the base station to maintain the top facility, when the maintenance person moves, the safety belt 3-6 extends to drive the safety belt shaft 3-5 to rotate, the safety belt shaft 3-5 drives the clockwork spring 3-15 to compress internally, when the maintenance person returns, the clockwork spring 3-15 expands internally to drive the safety belt shaft 3-5 to rotate to wind the safety belt 3-6, the safety belt 3-6 is ensured not to extend excessively, when the maintenance person falls carelessly, the safety belt 3-6 extends rapidly to drive the safety belt shaft 3-5 to rotate, the safety belt shaft 3-5 drives the rotating block 3-11 to rotate, the rotating block 3-11 rotates rapidly to generate centrifugal force to throw out the centrifugal block 3-13, the centrifugal block 3-13 and the friction cylinder 3-10 rub to greatly reduce the rotation speed of the safety belt shaft 3-5, the maintenance personnel slowly descend without causing safety accidents, the lifting motor 4-2 is reversely rotated after the maintenance is finished, the lifting rope 4-12 is released, and the lifting box 3-1 can drive the maintenance personnel to safely return.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a communication base station with from electricity generation elevator, includes base station frame assembly (1), wind power generation assembly (2), elevator assembly (3) and power assembly (4), its characterized in that: the base station frame assembly (1) is connected with the wind power generation assembly (2), the elevator assembly (3) is connected with the base station frame assembly (1), and the power assembly (4) is connected with the base station frame assembly (1) and the elevator assembly (3).

2. The communication base station provided with the self-generating elevator as claimed in claim 1, wherein: the base station frame assembly (1) comprises a frame (1-1), a lifting chute (1-2), a base station base (1-3), a base station upper cover (1-4), a scratch-proof roller (1-5), a scratch-proof roller (1-6) and a battery (1-17), wherein the lifting chute (1-2) is positioned on the frame (1-1), the frame (1-1) is connected with the base station base (1-3), the frame (1-1) is connected with the base station upper cover (1-4), the base station upper cover (1-4) is rotatably connected with the scratch-proof roller (1-5) and the scratch-proof roller (1-6), and the battery (1-17) is connected with the base station upper cover (1-4).

3. The communication base station provided with the self-generating elevator as claimed in claim 1, wherein: the wind power generation assembly (2) comprises a central shaft (2-1), a steering plate (2-2), a steering roller (2-3), a turning groove (2-4), a rotating frame (2-5), power generation fan blades (2-6), a connecting rod (2-7) and a ball rod (2-8), wherein the central shaft (2-1) is connected with the steering plate (2-2), the central shaft (2-1) is rotatably connected with a base station upper cover (1-4), the central shaft (2-1) is connected with the steering roller (2-3), the turning groove (2-4) is positioned on the steering roller (2-3), the rotating frame (2-5) is rotatably connected with the central shaft (2-1), the power generation fan blades (2-6) are rotatably connected with the rotating frame (2-5), and the power generation fan blades (2-6) are connected with the connecting rod (2-7), the connecting rod (2-7) is connected with the ball rod (2-8), and the ball rod (2-8) is connected with the direction-changing groove (2-4) in a sliding manner.

4. The communication base station provided with the self-generating elevator as claimed in claim 1, wherein: the elevator assembly (3) comprises an elevator box (3-1), rollers (3-2), a roller support (3-3), a support sliding groove (3-4), a safety belt shaft (3-5), a safety belt (3-6), a fastening belt (3-7), a sliding clamp (3-8), a threaded clamping shaft (3-9), a friction cylinder (3-10), a rotating block (3-11), a tension spring (3-12), a centrifugal block (3-13), a hair strip cylinder (3-14), a clockwork spring (3-15), an elevating support lug (3-16) and a climbing ladder (3-17), wherein the rollers (3-2) are rotatably connected with the roller support (3-3), the rollers (3-2) are slidably connected with the elevator sliding groove (1-2), the roller support (3-3) is slidably connected with the support sliding groove (3-4), the bracket chute (3-4) is positioned on the lifting box (3-1), the safety belt shaft (3-5) is rotationally connected with the lifting box (3-1), the safety belt shaft (3-5) is connected with the safety belt (3-6), the safety belt (3-6) is connected with the fastening belt (3-7), the fastening belt (3-7) is connected with the sliding clamp (3-8), the sliding clamp (3-8) is slidably connected with the safety belt (3-6), the sliding clamp (3-8) is in threaded connection with the threaded clamp shaft (3-9), the friction cylinder (3-10) and the hair strip cylinder (3-14) are both connected with the lifting box (3-1), two ends of the safety belt shaft (3-5) are respectively connected with the rotating block (3-11) and the hair strip (3-15), the rotating block (3-11) is connected with the tension spring (3-12), the tension spring (3-12) is in a normal state, the tension spring (3-12) is connected with the centrifugal block (3-13), the clockwork spring (3-15) is connected with the clockwork spring barrel (3-14), the lifting box (3-1) is connected with the lifting support lug (3-16), and the climbing ladder (3-17) is connected with the lifting box (3-1).

5. The communication base station provided with the self-generating elevator as claimed in claim 1, wherein: the power assembly (4) comprises a fixed support (4-1), a lifting motor (4-2), a bevel gear I (4-3), a bevel gear II (4-4), a bevel gear II shaft (4-5), a turntable (4-6), a bevel gear ring (4-7), a bevel gear III (4-8), a bevel gear III shaft (4-9), a bevel gear III shaft support (4-10), a rope roller (4-11) and a lifting rope (4-12), wherein the lifting motor (4-2) is connected with the bevel gear I (4-3), the bevel gear I (4-3) is meshed with the bevel gear II (4-4), a base station base (1-3) is connected with the fixed support (4-1), and the lifting motor (4-2) is connected with the base station base (1-3), the lifting motor (4-2) is connected with the fixed support (4-1), the lifting motor (4-2) is connected with the bevel gear I (4-3), the bevel gear I (4-3) is meshed with the bevel gear II (4-4), the bevel gear II (4-4) is connected with the bevel gear II shaft (4-5), the bevel gear II shaft (4-5) is connected with the turntable (4-6), the turntable (4-6) is rotationally connected with the fixed support (4-1), the turntable (4-6) is connected with the bevel gear ring (4-7), the bevel gear ring (4-7) is meshed with the bevel gear III (4-8), the bevel gear III (4-8) is connected with the bevel gear III shaft (4-9), the bevel gear III shaft (4-9) is rotationally connected with the bevel gear III support (4-10), a shaft support (4-10) of a bevel gear III is connected with a frame (1-1), a shaft (4-9) of the bevel gear III is connected with a rope roller (4-11), the rope roller (4-11) is connected with a lifting rope (4-12), the lifting rope (4-12) is connected with a lifting support lug (3-16), a battery (1-17) supplies power for a lifting motor (4-2), and the lifting motor (4-2) is provided with a locking function after stalling.

6. The communication base station provided with the self-generating elevator as claimed in claim 3, wherein: the outer side of the upper part of the rotating frame (2-5) is provided with a magnet, the magnet is connected with the central shaft (2-1), a magnetic field is formed between the magnets, and the rotating frame (2-5) is made of a conductor.