CN104421120B

CN104421120B - Power generation method and device of drum generator on conveyor

Info

Publication number: CN104421120B
Application number: CN201310407515.9A
Authority: CN
Inventors: 罗新红
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-09-03
Filing date: 2013-09-03
Publication date: 2021-09-21
Anticipated expiration: 2033-09-03
Also published as: WO2015032172A1; CN104421120A

Abstract

A power generation method and a device of a cylinder generator on a belt conveyor comprise a method invention and a device invention. The invention designs a cylinder generator, and places the generator in a large hollow cylinder which can roll on a belt conveyor; a hollow cylinder and a solid cylinder are arranged in the liquid in the cylinder generator. The belt conveyor is driven to rotate by external force, the large cylinder and the cylinder generator on the belt conveyor rotate simultaneously, and under the condition of rotation, buoyancy and gravity generated by the hollow cylinder and the solid cylinder in the cylinder generator are converted into power to drive the generator in the power generation box to generate and output the power; the device comprises a belt conveyor with an inclination, a large roller, a rotatable closed large cylinder, a cylinder generator, a hollow cylinder, a solid cylinder, liquid, a power generation box and the like.

Description

Power generation method and device of drum generator on conveyor

Technical Field

The invention relates to a method and a device for generating power, in particular to a cylinder generator arranged on a belt conveyor, a method and a device for generating power.

Background

The known methods of generating electricity result in a large consumption of energy, and both of the patent applications 2005100815516 and 2008102132866 have disadvantages.

Disclosure of Invention

The invention aims to provide a method and a device for generating electric energy by utilizing the rotation of a cylinder generator on a belt conveyor with inclination so as to improve the generating efficiency.

The method for realizing the invention is as follows: a cylinder generator is arranged and is placed in a large hollow cylinder which can roll on a belt conveyor; the belt conveyor with the inclination is driven to work by external force, the large cylinder and the cylinder generator on the conveyor rotate simultaneously, the hollow cylinder and the solid cylinder in the cylinder generator convert generated buoyancy and gravity into electric power to be output, and the cylinder generator on the conveyor generates electric energy.

One of the cylinder generator on the conveyor in the above method, the method for generating electricity and the device thereof is: it comprises

a. Arranging a cylindrical generator, wherein a hollow cylinder, a solid sickle body and a generator box are arranged in the cylindrical generator, and the cylindrical generator is placed in a large rotatable cylinder on a belt conveyor with an inclination; the structure is that a rolling hollow large cylinder is placed on a belt conveyor with inclination, a cylinder generator is placed in the large cylinder, a center shaft is fixed at the center of the cylinder generator, the center shaft is hollow and is connected with a power generation box through a gear set, the power generation box is connected with an inner cylinder of the hollow cylinder and a solid crescent through a connecting fixing rod, the solid cylinder hung on the power generation box is combined together, two ends of the shaft are exposed out of two end covers of the cylinder generator, and electricity generated by the generator is output through a collecting ring arranged on the hollow center shaft and a cable and then is output through the collecting ring arranged on the large cylinder and the cable;

b. a, placing a large hollow cylinder capable of rolling on the belt conveyor with the inclination, and placing a cylinder generator in the large cylinder, wherein the cylinder generator is filled with liquid;

c. the cylinder generator is a rolling closed cylinder, the center of the cylinder generator is a center shaft fixed together with the cylinder generator, the center shaft is hollow, and a collecting ring and a cable are arranged on the center shaft;

d. c, a hollow cylinder, a solid cylinder and a solid sickle body are arranged in the closed cylinder;

e. d, combining a power generation box in the inner cylinder of the hollow cylinder, connecting a gear set of the power generation box with the center shaft c, combining the solid sickle body with the power generation box through a connecting fixed rod, and hanging the solid cylinder at the bottom of the power generation box;

f. the belt conveyor is driven by external force, the large cylinders on the belt rotate simultaneously, the cylinder generators in the large cylinders also rotate simultaneously, and the central shafts rotate along with the large cylinders and drive the generators in the power generation boxes to generate electric energy.

The second of the method and the device for generating power by the cylinder generator on the conveyor in the method is as follows: it comprises

a. Arranging a cylinder generator, wherein a hollow cylinder, a solid cylinder, a piston assembly, a high-pressure pipe and a generator box arranged outside the cylinder are arranged in the cylinder generator, and the cylinder generator is placed in a large rotatable cylinder on a belt conveyor with inclination; the structure is that a rolling hollow large cylinder is placed on a belt conveyor with inclination, a cylinder generator is placed in the large cylinder, a plurality of piston assemblies are arranged on the inner circumference of the cylinder generator, a solid cylinder and a hollow cylinder are arranged above the piston assemblies, a connected high-pressure pipe is arranged below the piston assemblies and is connected with a power generation box in the center of one side end face of the cylinder, a piston valve of the piston assembly is communicated with liquid, a water outlet valve is connected with the power generation box outside the cylinder through the high-pressure pipe, an ejector rod is arranged on the solid cylinder and the hollow cylinder and generates high-pressure sprayed liquid when the ejector rod abuts against the piston of the piston assembly, the liquid passes through the high-pressure pipe and a high-pressure nozzle to spray an impeller, the rotating impeller drives the generator to generate electricity, and the liquid flows back into the closed cylinder through a water return port of. The electricity that the generator sent is exported through collecting ring and cable after, and collecting ring and the cable that rethread big drum set up derive:

b. a, placing a hollow large cylinder capable of rolling on the belt conveyor with the inclination in the step a, and placing a cylinder generator in the large cylinder, wherein the cylinder generator is filled with liquid;

c. the cylinder generator is a rolling closed cylinder, a plurality of piston assemblies are arranged on the inner circumference of the cylinder generator and are connected with the high-pressure water pipe, and a power generation box connected with the high-pressure water pipe is arranged in the center of the end face of one side of the cylinder;

d. the piston assembly is provided with a cylinder body, a piston, a spring, a water outlet valve, a piston valve, a water outlet valve and a high-pressure water pipe;

e. c, a hollow cylinder body and a solid cylinder body are arranged in the closed cylinder, and a mandril is arranged on the cylinder body;

f. the belt conveyor is driven by external force, the large cylinder on the belt rotates, the cylinder generator inside the large cylinder rotates simultaneously, the hollow cylinder and the solid cylinder inside the large cylinder also rotate simultaneously and press against the piston assembly to generate high-pressure water flow, and the water flow impacts the impeller in the power generation box through the high-pressure pipe, so that the generator generates electric energy and outputs the electric energy.

The cylinder generator on the conveyor in the method, the method for generating electricity and the device thereof are the following three: it comprises

a. Arranging a cylinder generator, wherein two wheelbarrows, a hollow cylinder, a solid cylinder, a positioning rod and a power generation box outside the cylinder are arranged in the cylinder generator, and the cylinder generator is placed in a large rotatable cylinder on a belt conveyor with an inclination; the structure is that a rollable hollow large cylinder is placed on a belt conveyor with inclination, a cylinder generator is placed in the large cylinder, wheelbarrows are respectively arranged at the upper part and the lower part inside a cylinder body of the cylinder generator, a power generation box is arranged on a flat plate of the vehicle, gears in the power generation box are closely matched with the wheelwheels of the wheelbarrows, and the hollow cylinder body and the solid cylinder body are respectively placed on flat plates of the two vehicles. The center of drum generator is fixed with a axis, this axis is hollow, the locating lever that links to each other with the axis, fix the hollow barrel on the wheel barrow, solid barrel, when drum generator rotated, they can not fall from the car, the power cord that comes out from the power generation box also extends to the axis through the locating lever, the locating lever passes through the bearing and combines in the axis, the electricity that the generator sent, through setting up behind centraxonial collecting ring and cable output, derive through collecting ring and the cable that big cylinder set up again:

c. the cylinder generator in b is a rolling closed cylinder, the center of the cylinder generator is a center shaft fixed together with the cylinder generator, the center shaft is hollow, and a collecting ring and a cable are arranged on the center shaft;

d. c, respectively arranging a monocycle at the upper part and the lower part of the inner circumference of the rollable closed cylinder, and arranging a power generation box, a hollow cylinder and a solid cylinder on a flat plate of the monocycle;

e. d, positioning the hollow cylinder and the solid cylinder on the flat plate of the monocycle by a positioning rod connected by a middle shaft, wherein the positioning rod is combined on the middle shaft by a bearing;

f. the belt conveyor is driven by external force, the large cylinder on the belt rotates, the cylinder generator inside the large cylinder rotates simultaneously, the inside of the large cylinder is fixed by the hollow cylinder and the solid cylinder, the single wheels of the two wheelbarrows also rotate simultaneously, and the single wheels drive the gear and the generator in the power generation box to rotate to generate and output electric energy;

the method further comprises the following steps:

the inclined belt conveyor and the large rolling cylinder are immersed in liquid, air is filled between the large cylinder and the cylinder generator, and the liquid in the device is water or saline water or mercury.

The method further comprises the following steps:

the belt of the belt conveyor with the inclination is a hollow large cylinder capable of rolling, and a cylinder generator is placed in the large cylinder.

The method further comprises the following steps:

the belt of the belt conveyor with the inclination can be provided with other generators which drive the generators to generate electricity through the rotation of the cylinders. The cylindrical generators of both patent applications No. 2005100815516 and No. 2008102132866 can also be placed on the device to generate electricity by rotating on an inclined belt conveyor.

The large cylinder and the cylinder generator in the large cylinder are not necessarily placed on a belt conveyor with an inclination, and only need to be placed on a slope or even can be placed on a specially-made large roller to rotate for power generation.

Besides the cylindrical generator in the device, other generators which drive the generator to generate electricity through the rotation of the cylinder can be arranged on the belt of the inclined belt conveyor and the large roller.

The invention has the following beneficial effects: the characteristic that the cylinder generator can roll to generate electric energy on the slope is utilized, the belt conveyor is adopted to replace the slope, the cylinder generator is continuously enabled to roll to generate electricity, and the generating efficiency is improved.

Drawings

FIG. 1 is one of the devices of the present invention, wherein 1 cylinder, 2 end caps, 3 belt rollers, 4 rotating shafts, 5 belts, 6 belt pulleys, 10 bearings, 17 frames, 7 low legs, 8 high legs, 9 cables, 151 large cylinders, 14 belt conveyors with inclination.

Fig. 2 is a radial cross-sectional view of fig. 1, with 11 directions of motion, 13 cylinder generators.

Fig. 3 is an axial cross-section of fig. 1, with 19 slip rings and cables.

Fig. 4 is an assembled and exploded view of fig. 1 with 12 the retainer ring.

Fig. 5 shows a second embodiment of the present invention, in which 1 cylinder, 2 end caps, and 13 cylinder generator.

FIG. 6 is a radial cross-sectional view of FIG. 5, wherein 4 a power generation box, 5 a power generator, 7 a hollow cylinder, 8 a solid cylinder, 15 a solid sickle body, 9 a hollow middle shaft, 16 a hook, 18 a connecting fixing rod and 11 a mandril.

Fig. 7 is an axial cross-sectional view of fig. 5 with 3 cables, 6 gear sets, 12 slip rings.

Fig. 8 is a schematic assembly diagram of fig. 5.

Fig. 9 shows a third device of the present invention, which comprises 1 cylinder, 2 end covers, 3 collecting rings and cables, 4 power generation boxes, 5 high-voltage tubes, 10 reinforcing bodies and 13 cylinder generators.

FIG. 10 is a radial sectional view of FIG. 9, wherein the operation of 5 high pressure tube, 6 piston assembly, 7 hollow cylinder, 8 solid cylinder, 9 ram, 11 outlet valve, 12 spring, 16 piston, 17 piston valve, 18 cylinder, 19 connecting tube, 21 piston assembly is schematically shown.

FIG. 11 is an axial cross-sectional view of FIG. 9 with 14 impellers, 15 return ports, 20 generators, 22 high pressure nozzles.

Fig. 12 is an assembled exploded view of fig. 9.

FIG. 13 is a fourth embodiment of the device of the present invention, wherein 1 cylinder, 2 end caps, 17 slip rings, 14 reinforcement.

Fig. 14 is a radial cross-sectional view of fig. 13 with 3 cables, 4 generator boxes, 5 plates, 6 wheelbarrows, 7 hollow cylinders, 8 solid cylinders, 9 positioning rods, 10 bearings, 12 central shafts, 15 gears, 16 generators.

Fig. 15 is an axial cross-sectional view of fig. 13, with 14 reinforcing rings, 13 cylinder generator.

Fig. 16 is an assembled exploded view of fig. 13.

FIG. 17 shows the apparatus of the present invention, wherein 7 frames, 4 rotating shafts, 10 bearings, 26 supports, 151 large cylinders, 152 large rollers.

Fig. 18 is a radial cross-sectional view of fig. 17, with a 13-cylinder generator.

Detailed Description

The invention is further illustrated by the following examples:

example 1

As shown in fig. 1-4, the inclined belt conveyor 14 and the large hollow cylinder 151 on the inclined belt conveyor are composed of a cylinder 1 and an end cover 2, the end cover 2 seals the cylinder 1 to form the large cylinder 151, a collecting ring and a cable 19, a balance ring 12 and a cylinder generator 13 are arranged in the large cylinder 151, the cylinder generator is any one of the cylinder generators 13 in fig. 5 and fig. 9 and fig. 13, the support ring 12 has the function of keeping the cylinder generator balanced during rotation, and the cable 9 in the collecting ring and the cable 19 extends from the center point of the end cover 2 on one side. The belt roller 3, belt 5, bearing 10, rotating shaft 4, pulley 6, are placed above the upper leg 8 and lower leg 7 in the frame 17, forming a belt conveyor 14 with an inclination (i.e., slope). The cylinder generator 13 may not be placed inside the large cylinder 151 if necessary, and the cylinder generator 13 may be directly placed on the belt conveyor. When the device works, the cylinder generator 13 is placed in the hollow large cylinder 151 on the belt conveyor 14, and the large cylinder and the cylinder generator in the liquid are in a rolling power generation state on the belt. The belt pulley 6 is driven by external force to rotate, the rotating shaft 4, the belt roller 3 and the belt 5 on the bearing 10 rotate simultaneously (according to the direction of the moving direction 11), the large cylinder 151 also rotates according to the direction of the moving direction 11, when the rolling speed of the large cylinder rolling downwards reaches a certain rotating speed, the large cylinder rotates in situ, and the cylinder generator in the large cylinder generates electric energy and outputs the electric energy through the collecting ring, the cable 19 and the cable 9 arranged on the large cylinder 151. Next, the belt conveyor 14 of the present apparatus and the large hollow cylinder 151 above it are rotated to generate electric power in combination with the cylinder generator 13 of any one of

embodiments

2, 3, and 4.

Example 2

As shown in fig. 5-8, the cylindrical generator 13 of the device is composed of a cylinder 1 and an end cover 2, the end cover 2 seals the cylinder 1, and a hollow cylinder 7, a solid cylinder 8, a solid sickle body 15, a hook 16, a generator box 4, a hollow middle shaft 9, a generator 5, a connecting fixing rod 18, a mandril 11, a gear set 6 and a collecting ring 12 are arranged in the cylinder, wherein the solid sickle body 15 is arranged at the outermost ring and is combined with the generator box 4 through the connecting fixing rod 18, and the combination of the solid sickle body and the generator box is hard connection through welding or a tight-fitting method; the hollow cylinder 7 and the solid cylinder 8 are arranged at the innermost ring, the power generation box 4 is combined in an inner hole of the hollow cylinder 7 through an ejector rod 11, the combination of the hollow cylinder 7 and the solid cylinder 8 is in flexible connection through a method of accessories such as screws, the solid cylinder 8 hung on a hook 16 also belongs to flexible connection, and a hollow center shaft 9 is connected with the power generator 5 through a gear set 6; the cylindrical generator 13 is filled with liquid, the hollow cylinder 7 generates buoyancy, the solid cylinder 8 and the solid sickle body 15 still generate gravity, under the action of the two forces (under the condition that the cylindrical generator 13 rotates), the generator box 4 which originally rotates along with the hollow center shaft 9 is fixed in place, the rotation of the hollow center shaft 9 drives the gear set 6 to rotate, the generator 5 connected with the gear set generates electric energy, and the electric energy is connected with the collector ring 12 through the cable 3 in the hollow center shaft 9 and is output through the collector ring 12 outside the cylinder. When the device works, the cylinder generator 13 of the device is placed in the large cylinder 151 on the belt conveyor 14, the belt is driven to rotate by external force, the large cylinder 151 and the cylinder generator 13 rotate simultaneously, the middle shaft in the cylinder generator rotates along with the rotation, the gear set in the generator box and the generator are driven to rotate, and the generator generates electric energy. The middle shaft rotates and the power generation box is fixed, so that the buoyancy and the gravity are converted into electric energy to be output, and then the electric energy is output through a cable of the large cylinder and the collecting ring 19.

Example 3

As shown in figures 9-12, the cylinder generator 13 of the device is composed of a cylinder 1 and an end cover 2, the cylinder 1 is sealed by the end cover 2, and a hollow cylinder 7, a solid cylinder 8, a push rod 9, a water outlet valve 11, a high-pressure pipe 5 and a piston assembly 6 are arranged in the cylinder 1. The working schematic 21 of the piston assembly 6 shows its structure in both pressurized and non-pressurized states. The outer surface of the generator is provided with a collecting ring, a cable 3, a power generation box 4, a high-pressure pipe 5 and a reinforcement body 10, and the inner surface of the power generation box 4 consists of a high-pressure nozzle 22, an impeller 14, a power generator 20 and a water return port 15. The piston assembly 6 is composed of a cylinder body 18, a piston 16, a water outlet valve 11 (the piston 16 is opened when being pressed), a piston valve 17 (the piston is opened when being replenished with water), a spring 12 and a connecting pipe 19. Wherein, the cylinders of the hollow cylinder 7 and the solid cylinder 8 are provided with a mandril 9, when the cylinder generator 13 rotates, the mandril 9 presses the corresponding piston assembly 6 arranged in the reinforcing body 10, the piston 16 (the piston valve 17 is closed simultaneously) is pressed into the lower part of the cylinder 18, the liquid in the cylinder 18 generates an injection force due to the pressure, the liquid is injected to the impeller 14 in the power generation box through the opened water outlet valve 11, the connecting pipe 19, the high-pressure pipe 5 and the high-pressure nozzle 22, the impeller 14 rotates, the connected generator 20 rotates to generate power, the liquid returns to the cylinder generator 13 through the water return port 15, after the hollow cylinder 7 and the solid cylinder 8 respectively press one piston assembly, the high-pressure liquid is simultaneously pressed to the next corresponding piston assembly 6, the high-pressure liquid is injected to the impeller again to enable the engine to generate power continuously, the piston assembly 6 which is just pressed is in the spring 12, under the action of a piston valve 17 (which is opened when water is supplemented into the cylinder), the piston 16 is reset, the cylinder body 18 is refilled with liquid, and the power for driving the generator to rotate is generated after the circulation is pressed. When the device works, the cylinder generator 13 of the device is placed in the large cylinder 151 on the belt conveyor 14, the belt is driven to rotate by external force, the large cylinder and the cylinder generator 13 rotate simultaneously, the hollow cylinder 7 and the solid cylinder 8 in the large cylinder rotate simultaneously, the ejector rod 9 on the cylinder presses the piston assembly 6, liquid generates jet force due to pressure, and the generator 20 rotates to generate electric energy. Under the action of buoyancy and gravity, the hollow cylinder 7 and the solid cylinder 8 rotate in situ and press the piston assembly ceaselessly, the buoyancy and the gravity are converted into electric energy continuously, and the electric energy is output through the collecting ring and the cable 3 and then through the collecting ring and the cable of the large cylinder 151.

Example 4

As shown in fig. 13-16, the cylindrical generator 13 of the present device is composed of a cylinder 1 and end caps 2, the end caps 2 seal the cylinder 1, a central shaft 12 is arranged between the central points of the two end caps, a bearing 10 is arranged on the shaft, two wheelbarrows 6 are arranged in the middle of the end caps, a hollow cylinder 7 and a solid cylinder 8 are respectively arranged on a flat plate 5 of the wheelbarrows 6, a power generation box 4, a gear 15, a generator 16, a cable 3 and a positioning rod 9 are further arranged on the wheelbarrows 6, wherein the wheelbarrows of the wheelbarrows 6 are closely matched with the gear 15 and the generator 16 of the power generation box 4: the single wheel rotates to drive the gear 15 of the power generation box to rotate at the same time, the gear also drives the generator 16 to rotate to generate power, and the electric energy generated by the generator is output through the cable 3 in the positioning rod 9, the collecting ring 17 on the middle shaft 12 and the cable 3. The bearing 10 on the middle shaft 12 is connected with the positioning rod 9, the positioning rod 9 has the functions of fixing the hollow cylinder 7 and the solid cylinder 8 and fixing the two wheelbarrows, and even if the cylinder engine 13 integrally rotates, the wheelbarrows and the hollow cylinder still keep the solid cylinder in place. The outer circumference of the cylinder generator 13 is provided with a reinforcement 14 to ensure that the pressure generated by the wheelbarrow 6 does not damage the outer circumference of the cylinder. When the device works, the cylinder generator 13 of the device is placed in the large cylinder 151 on the belt conveyor 14, the belt is driven to rotate by external force, the large cylinder 151 and the cylinder generator 13 rotate simultaneously, the single wheels of the two wheelbarrows in the large cylinder are driven to rotate, the gear connected with the single wheels and the generator also rotate simultaneously, and the generator generates and outputs electric energy and outputs the electric energy through the cable of the large cylinder 151 and the collecting ring 19.

The cylinder generator in the above device can also be placed on the large roller, as shown in fig. 17-18, the large cylinder 151 and the cylinder generator 13 of the device are placed on the large roller 152, the large roller 152 is fixed on the bearing 10 of the frame 7, the bracket 26 plays a supporting role, when the rotating speed of the large roller reaches the requirement, the large cylinder 151 and the cylinder generator 13 will rotate in situ to generate electricity, and the principle is the same as that of the rotation on the belt conveyor. Other generators of the type that generate electricity by rotation of the drum can also be placed on the large roller 152. The cylindrical generators of both patent applications No. 2005100815516 and No. 2008102132866 may be placed as well. When the electric energy-saving drum works, the rotating shaft 4 on the bearing 10 is driven to rotate by external force, the large drum rotates simultaneously, and the drum generator in the large drum on the large drum generates electric energy.

In the above-mentioned device, the place needing sealing is added with sealing rubber ring.

Claims

1. A method of generating electricity from a drum generator on a conveyor, the method comprising:

arranging a cylinder generator and placing the cylinder generator in a large hollow cylinder which can roll on a belt conveyor with an inclination; the belt conveyor with the inclination is driven to work by external force, the large hollow cylinder on the conveyor and the cylinder generator rotate simultaneously, buoyancy and gravity generated by the hollow cylinder and the solid cylinder inside the cylinder generator are converted into electric power to be output, and the cylinder generator on the conveyor generates electric energy.

2. The method for generating power by a drum generator on a conveyor as claimed in claim 1, wherein the method for generating power by a drum generator on a conveyor comprises:

a. arranging a cylindrical generator, wherein a hollow cylinder, a solid sickle body and a generator box are arranged in the cylindrical generator, and the cylindrical generator is placed in a rotatable large hollow cylinder on a belt conveyor with an inclination; the structure is that a rolling hollow large cylinder is placed on a belt conveyor with inclination, a cylinder generator is placed in the hollow large cylinder, a center shaft is fixed at the center of the cylinder generator, the center shaft is hollow and is connected with a power generation box through a gear set, the power generation box is connected with an inner cylinder of the hollow cylinder and a solid crescent sickle body through a connecting fixing rod, the solid cylinders hung on the power generation box are combined together, two ends of the shaft are exposed out of two end covers of the cylinder generator, and electricity generated by the generator is output through a collecting ring and a cable which are arranged on the center shaft and then output through the collecting ring and the cable which are arranged on the hollow large cylinder;

b. b, placing a large hollow cylinder capable of rolling on the belt conveyor with the inclination, and placing a cylinder generator in the large hollow cylinder, wherein the cylinder generator is filled with liquid;

f. the belt conveyor is driven by external force, the large hollow cylinder on the belt rotates simultaneously, the cylinder generator inside the large hollow cylinder also rotates simultaneously, and the central shaft rotates along with the large hollow cylinder and drives the generator in the power generation box to generate and output power.

3. The method for generating power by a drum generator on a conveyor as claimed in claim 1, wherein the method for generating power by a drum generator on a conveyor comprises:

a. arranging a cylinder generator, wherein a hollow cylinder, a solid cylinder, a piston assembly, a high-pressure pipe and a generator box arranged outside the cylinder are arranged in the cylinder generator, and the cylinder generator is placed in a rotatable hollow large cylinder on a belt conveyor with an inclination; the structure is that a rolling hollow large cylinder is placed on a belt conveyor with inclination, a cylinder generator is placed in the hollow large cylinder, a plurality of piston assemblies are arranged on the inner circumference of the cylinder generator, a solid cylinder and a hollow cylinder are arranged above the piston assemblies, a connected high-pressure pipe is arranged below the piston assemblies, the high-pressure pipe is connected with a power generation box at the center of one side end face of the cylinder, a piston valve of the piston assemblies is communicated with liquid, a water outlet valve is connected with the power generation box outside the cylinder through the high-pressure pipe, ejector rods are arranged on the solid cylinder and the hollow cylinder, when the ejector rods are abutted against the piston of the piston assemblies, high-pressure sprayed liquid is generated, the liquid passes through the high-pressure pipe and the high-pressure nozzle to spray the impeller, the rotating impeller drives the generator to generate electricity, the liquid flows back into the closed cylinder through a water return port of the power generation box to be recycled, the electricity generated by the generator is output through a collecting ring and a cable, then the power is output through a collecting ring and a cable of the large hollow cylinder;

f. the belt conveyor is driven by external force, the large hollow cylinder on the belt rotates, the cylinder generator inside the large hollow cylinder rotates simultaneously, the hollow cylinder and the solid cylinder inside the large hollow cylinder also rotate simultaneously and press against the piston assembly to generate high-pressure water flow, the water flow impacts the impeller inside the power generation box through the high-pressure pipe, and the power generator generates electric energy and outputs the electric energy.

4. The method for generating power by a drum generator on a conveyor as claimed in claim 1, wherein the method for generating power by a drum generator on a conveyor comprises:

a. arranging a cylinder generator, wherein two wheelbarrows, a hollow cylinder, a solid cylinder, a positioning rod and a power generation box outside the cylinder are arranged in the cylinder generator, and the cylinder generator is placed in a rotatable large hollow cylinder on a belt conveyor with an inclination; the structure is that a rolling hollow large cylinder is placed on a belt conveyor with inclination, a cylinder generator is placed in the hollow large cylinder, a monocycle is respectively arranged at the upper part and the lower part inside a cylinder body of the cylinder generator, a power generation box is arranged on a flat plate of the monocycle, gears in the power generation box are tightly matched with a monocycle of the monocycle, the hollow cylinder and the solid cylinder are respectively placed on flat plates of the two monocycle, a center shaft is fixed at the center of the cylinder generator, the center shaft is hollow, a positioning rod connected with the center shaft is fixed on the hollow cylinder body and the solid cylinder, a power line coming out of the power generation box also extends to the center shaft through the positioning rod, the positioning rod is combined on the center shaft through a bearing, and electricity generated by the generator is output through a collecting ring and a cable which are arranged on the center shaft, and then is output through the collecting ring and the cable which are arranged on the hollow large cylinder;

e. d, positioning the hollow cylinder and the solid cylinder on the flat plate of the monocycle by a positioning rod connected by a middle shaft, wherein the positioning rod is combined on the hollow middle shaft by a bearing;

f. the belt conveyor is driven by external force, the large hollow cylinder on the belt rotates, the cylinder generator inside the large hollow cylinder rotates simultaneously, the inside of the large hollow cylinder is fixed by the hollow cylinder and the solid cylinder, the single wheels of the two wheelbarrows also rotate simultaneously, and the single wheels drive the gear and the generator in the power generation box to rotate to generate electric energy and output the electric energy.