CN111878283A

CN111878283A - Hydroelectric power generation equipment convenient to height-adjusting

Info

Publication number: CN111878283A
Application number: CN202010769565.1A
Authority: CN
Inventors: 杨素玲
Original assignee: Individual
Current assignee: Jiangxi Xiankou Hydropower Development Co ltd
Priority date: 2020-08-04
Filing date: 2020-08-04
Publication date: 2020-11-03
Anticipated expiration: 2040-08-04
Also published as: CN111878283B

Abstract

A hydroelectric generating device convenient for height adjustment comprises a shell, a central plate fixedly arranged on the lower end face of the shell, an adjusting device arranged on the shell, a generating set arranged on the central plate, a small shaft rotatably arranged on the central plate, a turntable fixedly arranged on the small shaft and fan wheel assemblies uniformly arranged in the turntable on the circumference; the fan wheel component comprises a vibration cavity arranged in the rotary disc, a ball arranged in the vibration cavity in a rolling mode, a fan wheel fixedly arranged on the ball and a cleaning device arranged on the fan wheel, and by arranging the telescopic column, the brush and other structures, the fan wheel component can timely clean up scale adhered to the surface of the fan wheel while generating electricity by utilizing water flow, so that the influence of long-time accumulation of water flow on the electricity generation efficiency is avoided, meanwhile, dust generated when the brush cleans the fan wheel can be timely removed from the external space by arranging the buckle shell and the cleaning column, and the problem that the scale generated by cleaning the fan wheel of the brush is adhered to the brush to affect the next cleaning is avoided.

Description

Hydroelectric power generation equipment convenient to height-adjusting

Technical Field

The invention belongs to the field of new energy, and particularly relates to a hydropower generation device with a height convenient to adjust.

Background

The water flow power generation is similar to a device of a windmill, is arranged in a river, and drives fan blades to rotate by water flow to generate energy and convert the energy into electric energy.

Disclosure of Invention

The invention provides the hydropower equipment with the height capable of being adjusted and cleaning the scale in time, which is convenient for adjusting the height, so as to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a hydroelectric generating device convenient for height adjustment comprises a shell, a central plate fixedly arranged on the lower end face of the shell, an adjusting device arranged on the shell, a generating set arranged on the central plate, a small shaft rotatably arranged on the central plate, a turntable fixedly arranged on the small shaft and fan wheel assemblies uniformly arranged in the turntable on the circumference; the fan wheel component comprises a vibration cavity arranged in the turntable, a ball arranged in the vibration cavity in a rolling manner, a fan wheel fixedly arranged on the ball and a cleaning device arranged on the fan wheel, and is characterized in that the vibration cavity is arranged in the turntable; the cleaning device comprises a buckle shell arranged on the fan wheel in a reciprocating sliding mode, and the buckle shell is fixedly connected with the rotary disc through two reset springs.

The cleaning device also comprises two cleaning components which are symmetrically arranged in the buckle shell from top to bottom; the cleaning assembly comprises rolling parts which are arranged in the buckle shell in a bilateral symmetry mode, and each rolling part comprises a rotating cavity arranged in the buckle shell, a connecting shaft rotationally arranged in the rotating cavity, a roller fixedly arranged on the left end face of the connecting shaft, a telescopic column fixedly arranged on the right end face of the connecting shaft, a cleaning column sleeved on the telescopic column in a reciprocating sliding mode, and a plurality of fan blade cleaning assemblies arranged on the cleaning column; the fan blade cleaning assembly comprises a sliding cavity arranged on the cleaning column, a sliding plate arranged in the sliding cavity in a reciprocating sliding mode, a brush fixedly arranged on the sliding plate, a moving cavity arranged in the cleaning column, a telescopic column fixedly connected with the inner wall of the moving cavity through a telescopic spring, and a small spring fixedly connected with the inner wall of the sliding cavity.

The cleaning device further comprises a limiting cavity arranged in the cleaning column, an auxiliary shaft rotatably arranged on the inner wall of the limiting cavity, a rolling column fixedly arranged on the left end face of the auxiliary shaft, and a telescopic column abutted against the rolling column, wherein the limiting cavity is a square space.

The power generation device comprises a small shaft rotationally arranged on the central plate, a turntable fixedly arranged on the small shaft, and a plurality of fan wheel assemblies uniformly arranged in the turntable on the circumference; the fan wheel component comprises a vibration cavity arranged in a rotary disc, a ball arranged in the vibration cavity in a rolling mode, a fan wheel fixedly arranged on the ball, a power generation cavity arranged in a shell, a disc-shaped shell fixedly arranged in the rear end wall of the power generation cavity, a settling cavity arranged in the disc-shaped shell, a stator fixedly arranged on the inner wall of the settling cavity, a rotating shaft rotatably arranged on the rear end wall of the settling cavity, a rotor fixedly arranged on the rotating shaft, a transformer fixedly arranged on the rear end wall of the power generation cavity, a power supply fixedly arranged on the rear end wall of the power generation cavity, a supporting column fixedly arranged on the upper end face of the shell and an electric lamp fixedly arranged on the supporting column, wherein the small shaft is in transmission connection with the rotating shaft through a conveying belt.

Adjusting device is including setting up a plurality of buckle subassemblies on the casing, buckle subassembly sets up the stopper in the regulation intracavity, the rotation that sets up in the pivot of adjusting the intracavity, fixed setting at the epaxial double-rail wheel of commentaries on classics, the circular chamber of setting on the stopper, the spacing ball of roll setting in the circular chamber including setting up regulation chamber, the reciprocal slip in the casing, the stopper left end face with adjust the intracavity wall through big spring fixed connection the stopper left end face with wire rope one end fixed connection, the wire rope transmission sets up on the double-rail wheel, the pivot in per two adjacent buckle subassemblies is passed through belt transmission and is connected.

The adjusting device also comprises adjusting components symmetrically arranged in the shell; the adjusting assembly comprises a sliding groove arranged on the rear end wall of the power generation cavity, a sliding block arranged in the sliding groove in a reciprocating sliding mode, a stress plate fixedly arranged on the front end face of the sliding block, a holding rod fixedly arranged on the upper end face of the stress plate, a holding table fixedly arranged on the upper end face of the holding rod, the upper end face of the stress plate and the upper end wall of the power generation cavity are fixedly connected through an auxiliary spring, the holding rod penetrates through the upper end face of the shell, and the lower end face of the stress plate is fixedly connected with one section of the steel wire rope.

Drawings

FIG. 1 is a front cross-sectional view of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a partial enlarged view of FIG. 1 at B;

FIG. 4 is an enlarged view of a portion of FIG. 1 at C;

FIG. 5 is an enlarged view of a portion of FIG. 1 at D;

fig. 6 is a view showing the connection between 41 and 40 in fig. 2.

Detailed Description

As shown in fig. 1-6, a hydroelectric power generating device convenient for height adjustment comprises a shell 21, a central plate 16 fixedly arranged on the lower end face of the shell 21, an adjusting device arranged on the shell 21, a power generating device arranged on the central plate 16, a small shaft 14 rotatably arranged on the central plate 16, a rotary disc 15 fixedly arranged on the small shaft 14, and fan wheel assemblies uniformly arranged in the rotary disc 15 in the circumference; the fan wheel component comprises a vibration cavity 18 arranged in the rotary disc 15, a ball 50 arranged in the vibration cavity 18 in a rolling mode, a fan wheel 19 fixedly arranged on the ball 50, and a cleaning device arranged on the fan wheel 19, wherein the cleaning device comprises a buckle shell 20 arranged on the fan wheel 19 in a reciprocating sliding mode, and the buckle shell 20 is fixedly connected with the rotary disc 15 through two return springs 17.

The cleaning device further comprises two cleaning components, a rolling component, a rotating cavity 32, a connecting shaft 34, a roller 33, a telescopic column 41, a cleaning column 40, a sliding cavity 37, a sliding plate 38, a brush 36 and a moving cavity 42 which are symmetrically arranged in the buckle shell 20 from top to bottom, the cleaning components comprise two rolling components symmetrically arranged in the buckle shell 20 from left to right, the rolling components comprise the rotating cavity 32 arranged in the buckle shell 20, the connecting shaft 34 is rotationally arranged in the rotating cavity 32, the roller 33 is fixedly arranged on the left end surface of the connecting shaft 34, the telescopic column 41 is fixedly arranged on the right end surface of the connecting shaft 34, the cleaning column 40 is sleeved on the telescopic column 41 in a reciprocating sliding manner, the plurality of fan blade cleaning components arranged on the cleaning column 40 comprise the sliding cavity 37 arranged on the cleaning column 40, and the sliding plate 38 is arranged in the sliding cavity 37 in a reciprocating sliding manner, the brush 36 is fixedly arranged on the sliding plate 38, the moving cavity 42 is arranged in the cleaning column 40, the telescopic column 41 is fixedly connected with the inner wall of the moving cavity 42 through a telescopic spring 43, and the sliding plate 38 is fixedly connected with the inner wall of the sliding cavity 37 through a small spring 39.

The cleaning device also comprises a limiting cavity 47, an auxiliary shaft 45 and a rolling column 46 which are arranged in the cleaning column 40, wherein the auxiliary shaft 45 is rotatably arranged on the inner wall of the limiting cavity 47, the rolling column 46 is fixedly arranged on the left end surface of the auxiliary shaft 45, the telescopic column 41 is abutted against the rolling column 46, and the limiting cavity 47 is a square space, when the cleaning device is arranged in a bridge or river channel, a large amount of water rust is accumulated on a fan wheel of a generator when the cleaning device is used for a long time, the use is influenced when the cleaning device is not used for a long time, the efficiency of water flow power generation is reduced, when water flow impacts, the fan wheel 19 rotates, centrifugal force is generated by the rotation of the fan wheel 19 to drive the four rollers 33 to roll along one side direction of the fan wheel, the roller 33 drives the connecting shaft 34 to rotate, the connecting shaft 34 drives the telescopic column 41 to rotate, the telescopic column 41 drives the cleaning column 40 to rotate, and because the fan wheel, the buckle shell 20 will move to the two sides of the fan wheel 19 and be opened, because the connection part of the telescopic column 41 and the cleaning column 40 adopts the square fast and square slot, the telescopic column 41 can slide in the cleaning column 40, the telescopic column 41 can drive the cleaning column 40 to rotate, the buckle shell 20 drives the cleaning column 40 to move to the two sides simultaneously, so the cleaning column 40 leaks to the outside space, at this time, the sliding plate 38 recovers to the natural state, the small spring 39 is driven to move outwards until the brush 36 installed on the small spring is abutted against the fan wheel 19, and because the cleaning column 40 rotates, the brush 36 will always clean the fan wheel, because the fan wheel 19 is installed on the ball 50, the ball 50 is arranged in the vibration cavity 18 in a rolling way and is connected with the inner wall of the vibration cavity 18 through a plurality of 49, when the water flow impacts, the fan wheel 19 will generate the micro-shaking, so the brush 36 will generate the shaking, so the dust on the surface of the brush 36 can shake off extremely, when the water flow is larger or smaller, the rotation speed generated by the rotation of the fan wheel 19 is different, the buckle shell 20 moves back and forth along the lateral line of the fan wheel 19, when the buckle shell 20 moves in the opposite direction, the opening plate in the middle of the buckle shell 20 cleans the brush 36 at the same time, and the dust generated by the cleaning of the brush 36 on the fan wheel is scraped off, through the arrangement of the telescopic column 41, the brush 36 and other structures, the invention can clean the scale adhered to the surface of the fan wheel 19 in time while generating power by using the water flow, thereby avoiding the influence on the power generation efficiency caused by the long-time accumulation of the water flow, and meanwhile, the dust generated by the cleaning of the brush 36 on the fan wheel 19 by arranging the buckle shell 20 and the cleaning column 40 can timely remove the external space from the outside space, and avoiding the influence on the next cleaning caused by the scale adhered to the brush 36 due to the cleaning of the fan wheel 19 by the brush 36.

The power generation device comprises a small shaft 14 rotatably arranged on a central plate 16, a rotary disc 15, the rotary disc 15 fixedly arranged on the small shaft 14, a vibration cavity 18, a ball 50, a fan wheel 19, a power generation cavity 23, a disc-shaped shell 28, a mounting cavity 30, a stator 29, a rotating shaft 26, a rotor 27, a transformer 24, a power supply 25, a support column 66 and a plurality of fan wheel assemblies uniformly arranged in the rotary disc 15 in a circumferential mode; the fan wheel component comprises a vibration cavity 18 arranged in a rotary disc 15, a ball 50 is arranged in the vibration cavity 18 in a rolling manner, a fan wheel 19 is fixedly arranged on the ball 50, a power generation cavity 23 is arranged in a shell 21, a disc-shaped shell 28 is fixedly arranged in the rear end wall of the power generation cavity 23, a placement cavity 30 is arranged in the disc-shaped shell 28, a stator 29 is fixedly arranged on the inner wall of the placement cavity 30, a rotating shaft 26 is rotatably arranged on the rear end wall of the placement cavity 30, a rotor 27 is fixedly arranged on the rotating shaft 26, a transformer 24 is fixedly arranged on the rear end wall of the power generation cavity 23, a power supply 25 is fixedly arranged on the rear end wall of the power generation cavity 23, a support column 66 is fixedly arranged on the upper end surface of the shell 21, an electric lamp 67 is fixedly arranged on the support column 66, a small shaft 14 is in transmission connection with the rotating shaft 26 through a conveyor belt 31, when water flows in a river channel, the water flow impacts the fan wheel 19 to rotate, the fan wheel 19 rotates to drive the ball 50 to rotate, the ball 50 rotates to drive the turntable 15 to rotate, the turntable 15 rotates to drive the small shaft 14 to rotate, the small shaft 14 rotates through the conveyor belt 31 to drive the rotating shaft 26 to rotate, the rotating shaft 26 rotates to drive the rotor 27 to rotate, the rotor 27 rotates in the accommodating cavity 30, because the stator 29 is installed in the accommodating cavity 30, the rotor 27 rotates to cut magnetic induction lines to generate unstable current and store the current in the transformer 24, the transformer 24 converts the unstable current into stable current and stores the stable current in the power supply 25, the power supply 25 uses the electric energy for the electric lamp 67 to generate electricity, the kinetic energy of the water flow can be converted into electric energy through the transformer 24, the fan wheel 19 and the electric lamp 67, the unstable current is transmitted into the transformer 24, the transformer 24 converts the electric energy into usable electric energy and stores the usable electric, is used for lighting the electric lamp 67 and utilizing the electric energy in time.

Adjusting device is including setting up a plurality of buckle subassemblies on casing 21, adjusting chamber 51, stopper 57, pivot 54, double track wheel 55, wire rope 52, circular chamber 58, buckle subassembly is including setting up adjusting chamber 51 in casing 21, stopper 57 reciprocating slide sets up in adjusting chamber 51, pivot 54 rotates and sets up in adjusting chamber 51, and double track wheel 55 is fixed to be set up on pivot 54, wire rope 52 sets up on stopper 57, stopper ball 59 rolls and sets up in circular chamber 58, stopper 57 left end face with adjust the chamber 51 inner wall through big spring 53 fixed connection, stopper 57 left end face with one section fixed connection of wire rope 52, the transmission of wire rope 52 sets up on double track wheel 55, pivot 54 in every two adjacent buckle subassemblies is connected through belt 56 transmission.

The adjusting device also comprises an adjusting assembly, a sliding groove 60, a sliding block 61, a stress plate 62, a hand-held rod 63 and a hand-held platform 65 which are symmetrically arranged in the shell 21, wherein the adjusting assembly comprises the sliding groove 60 arranged at the rear end wall of the power generation cavity 23, the sliding block 61 is arranged in the sliding groove 60 in a reciprocating sliding manner, the stress plate 62 is fixedly arranged at the front end surface of the sliding block 61, the hand-held rod 63 is fixedly arranged at the upper end surface of the stress plate 62, the hand-held platform 65 is fixedly arranged at the upper end surface of the hand-held rod 63, the upper end surface of the stress plate 62 is fixedly connected with the upper end wall of the power generation cavity 23 through an auxiliary spring 64, the hand-held rod 63 penetrates through the upper end surface of the shell 21, the lower end surface of the stress plate 62 is fixedly connected with one section of the steel wire rope 52, when the adjusting device needs to be installed or disassembled or adjusted in height, only two persons need to lift the hand-, the hand-held rod 63 is driven to move upwards to the stress plate 62 of the ground hole to be abutted against the upper end wall of the power generation cavity 23, when the stress plate 62 moves upwards, the steel wire rope 52 is pulled to move upwards to drive the double-rail wheel 55 to rotate, the double-rail wheel 55 drives the rotating shaft 54 to rotate, the rotating shaft 54 drives the belt 56 to rotate, the steel wire rope 52 drives the limiting block 57 to move leftwards, so that the

limiting balls

59 and 13 are separated, at the moment, an operator continues to pull the hand-held platform 65 upwards, the stress plate 62 becomes a stress point, the stress plate 62 drives the shell 21 to move upwards, the shell 21 drives the central plate 16 to move upwards, the central plate 16 drives the power generation device and the cleaning device to move upwards, so that the device can be adjusted in time, the efficiency of water flow power generation is improved, the device can be detached and maintained in time when damaged, and the height of the device can be adjusted with strong applicability and is not influenced by seasonal rainwater, meanwhile, the device is convenient to maintain and avoid the problems that the device is fixed at the same height and is easily affected by seasons, or the device cannot be timely disassembled when needing to be maintained and the like.

The working principle is as follows: when the invention needs to be installed or disassembled or adjusted in height, only two persons need to lift the hand-holding table 65 at the same time, the hand-holding table 65 moves upwards to drive the hand-holding rod 63 to move upwards, the hand-holding rod 63 drives the ground hole stress plate 62 to move upwards until the stress plate 62 is abutted against the upper end wall of the power generation cavity 23, when the stress plate 62 moves upwards, the steel wire rope 52 is pulled to move upwards to drive the double-rail wheel 55 to rotate, the double-rail wheel 55 drives the rotating shaft 54 to rotate, the rotating shaft 54 drives the belt 56 to rotate, the steel wire rope 52 drives the limiting block 57 to move leftwards, so that the limiting

balls

59 and 13 are separated, at the moment, the operator continues to pull the hand-holding table 65 upwards, the stress plate 62 becomes a stress point, the stress plate 62 drives the shell 21 to move upwards, the shell 21 drives the central plate 16 to move upwards, the central plate 16 drives the power generation device and the cleaning device to move upwards, when the device is arranged in a bridge opening or a river channel, a fan wheel of a generator can accumulate a large amount of water rust when being used for a long time, the use is influenced when the device is not cleaned in time, the efficiency of water flow power generation is reduced, when water flow impacts, the fan wheel 19 rotates to generate centrifugal force to drive the four rollers 33 to roll along one side direction of the fan wheel, the rollers 33 drive the connecting shaft 34 to rotate, the connecting shaft 34 drives the telescopic column 41 to rotate, the telescopic column 41 drives the cleaning column 40 to rotate, because the fan wheel 19 is triangular, when the rollers 33 roll along the fan wheel 19, the buckle shell 20 moves towards two sides of the fan wheel 19 to be opened, because the connecting part of the telescopic column 41 and the cleaning column 40 adopts a square groove, the telescopic column 41 can slide in the cleaning column 40, the telescopic column 41 can drive the cleaning column 40 to rotate, and the buckle shell 20 drives the cleaning column 40 to move towards two sides simultaneously, so that the cleaning column 40 leaks to the outside space, at this time, the sliding plate 38 recovers to the natural state, the small spring 39 is driven to move outwards until the brush 36 mounted on the small spring moves to abut against the fan wheel 19, and because the cleaning column 40 rotates, the brush 36 will always clean the fan wheel, and because the fan wheel 19 is mounted on the ball 50, the ball 50 is arranged in the vibration cavity 18 in a rolling manner and is connected with the inner wall of the vibration cavity 18 through a plurality of balls 49, when the water flow impacts, the fan wheel 19 will shake slightly, so that the brush 36 shakes, so that the dust on the surface of the brush 36 can shake off greatly, when the water flow is large or small, the rotating speed generated when the fan wheel 19 rotates is different, the buckle shell 20 will move back and forth along the lateral line of the fan wheel 19, when the buckle shell 20 moves in opposite directions, the opening plate in the middle of the buckle shell 20 will clean the brush 36 at the same time, and scrape off the dust generated when the brush 36 cleans the fan wheel, when water flows in a river channel or a bridge opening, the water flow impacts the fan wheel 19 to rotate, the fan wheel 19 rotates to drive the ball 50 to rotate, the ball 50 rotates to drive the rotary table 15 to rotate, the rotary table 15 rotates to drive the small shaft 14 to rotate, the small shaft 14 rotates through the conveyor belt 31 to drive the rotary shaft 26 to rotate, the rotary shaft 26 rotates to drive the rotor 27 to rotate, the rotor 27 rotates in the placement cavity 30, due to the fact that the stator 29 is installed in the placement cavity 30, the rotor 27 rotates to cut magnetic induction lines, unstable current is generated and stored in the transformer 24, the transformer 24 converts the unstable current into stable current and stores the stable current into the power supply 25, and the power supply 25 uses the electric energy for the electric lamp 67 to generate electricity.

Claims

1. A hydroelectric generating device convenient for height adjustment comprises a shell (21), a central plate (16) fixedly arranged on the lower end face of the shell (21), an adjusting device arranged on the shell (21), a generating set arranged on the central plate (16), a small shaft (14) rotatably arranged on the central plate (16), a turntable (15) fixedly arranged on the small shaft (14), and fan wheel assemblies uniformly arranged in the turntable (15) on the circumference; the fan wheel component comprises a vibration cavity (18) arranged in the rotary disc (15), a ball (50) arranged in the vibration cavity (18) in a rolling manner, a fan wheel (19) fixedly arranged on the ball (50), and a cleaning device arranged on the fan wheel (19), and is characterized in that; the cleaning device comprises a clamping shell (20) which is arranged on a fan wheel (19) in a reciprocating sliding mode, and the clamping shell (20) is fixedly connected with the rotary disc (15) through two return springs (17).

2. Hydropower device with a height convenient to adjust according to claim 1, characterized in that: the cleaning device also comprises two cleaning components which are symmetrically arranged in the buckle shell (20) from top to bottom; the cleaning assembly comprises rolling components which are arranged in the buckle shell (20) in a bilateral symmetry mode, wherein each rolling component comprises a rotating cavity (32) arranged in the buckle shell (20), a connecting shaft (34) rotatably arranged in the rotating cavity (32), a roller (33) fixedly arranged on the left end face of the connecting shaft (34), a telescopic column (41) fixedly arranged on the right end face of the connecting shaft (34), a cleaning column (40) sleeved on the telescopic column (41) in a reciprocating sliding mode, and a plurality of fan blade cleaning assemblies arranged on the cleaning column (40); the fan blade cleaning assembly comprises a sliding cavity (37) arranged on a cleaning column (40), a sliding plate (38) arranged in the sliding cavity (37) in a reciprocating sliding mode, a brush (36) fixedly arranged on the sliding plate (38), and a moving cavity (42) arranged in the cleaning column (40), wherein the telescopic column (41) is fixedly connected with the inner wall of the moving cavity (42) through a telescopic spring (43), and the sliding plate (38) is fixedly connected with the inner wall of the sliding cavity (37) through a small spring (39).

3. Hydropower device with a height convenient to adjust according to claim 1, characterized in that: the cleaning device further comprises a limiting cavity (47) arranged in the cleaning column (40), an auxiliary shaft (45) rotatably arranged on the inner wall of the limiting cavity (47), and a rolling column (46) fixedly arranged on the left end face of the auxiliary shaft (45), the telescopic column (41) is abutted to the rolling column (46), and the limiting cavity (47) is a square space.

4. Hydropower device with a height convenient to adjust according to claim 1, characterized in that: the power generation device comprises a small shaft (14) rotatably arranged on a central plate (16), a turntable (15) fixedly arranged on the small shaft (14), and a plurality of fan wheel assemblies uniformly arranged in the turntable (15) in the circumference; the fan wheel component comprises a vibration cavity (18) arranged in a rotary disc (15), a ball (50) arranged in the vibration cavity (18) in a rolling manner, a fan wheel (19) fixedly arranged on the ball (50), a power generation cavity (23) arranged in a shell (21), a disc-shaped shell (28) fixedly arranged in the rear end wall of the power generation cavity (23), a placement cavity (30) arranged in the disc-shaped shell (28), a stator (29) fixedly arranged on the inner wall of the placement cavity (30), a rotating shaft (26) rotatably arranged on the rear end wall of the placement cavity (30), a rotor (27) fixedly arranged on the rotating shaft (26), a transformer (24) fixedly arranged on the rear end wall of the power generation cavity (23), a power supply (25) fixedly arranged on the rear end wall of the power generation cavity (23), a support column (66) fixedly arranged on the upper end face of the shell (21), and an electric lamp (67) fixedly arranged on the support column (66), the small shaft (14) is in transmission connection with the rotating shaft (26) through a conveying belt (31).

5. Hydropower device with a height convenient to adjust according to claim 1, characterized in that: the adjusting device comprises a plurality of buckle components arranged on a shell (21), the buckle components comprise an adjusting cavity (51) arranged in the shell (21), a limiting block (57) arranged in the adjusting cavity (51) in a reciprocating sliding manner, a rotating shaft (54) rotatably arranged in the adjusting cavity (51), a double-rail wheel (55) fixedly arranged on the rotating shaft (54), a circular cavity (58) arranged on the limiting block (57), and a limiting ball (59) arranged in the circular cavity (58) in a rolling manner, the left end surface of the limiting block (57) is fixedly connected with the inner wall of the adjusting cavity (51) through a big spring (53), the left end surface of the limiting block (57) is fixedly connected with one end of the steel wire rope (52), the steel wire rope (52) is arranged on a double-rail wheel (55) in a transmission mode, and rotating shafts (54) in every two adjacent buckling assemblies are in transmission connection through a belt (56).

6. Hydropower device with a height convenient to adjust according to claim 1, characterized in that: the adjusting device also comprises an adjusting component which is symmetrically arranged in the shell (21); the adjusting assembly comprises a sliding groove (60) arranged on the rear end wall of the power generation cavity (23), a sliding block (61) arranged in the sliding groove (60) in a reciprocating sliding mode, a stress plate (62) fixedly arranged on the front end face of the sliding block (61), a holding rod (63) fixedly arranged on the upper end face of the stress plate (62), and a holding table (65) fixedly arranged on the upper end face of the holding rod (63), wherein the upper end face of the stress plate (62) is fixedly connected with the upper end wall of the power generation cavity (23) through an auxiliary spring (64), the holding rod (63) penetrates through the upper end face of the shell (21), and the lower end face of the stress plate (62) is fixedly connected with one section of the steel wire rope (52).