CN115370527B

CN115370527B - Hydraulic generator

Info

Publication number: CN115370527B
Application number: CN202211298767.8A
Authority: CN
Inventors: 张振磊; 高雪梅; 徐红欣; 赵文彬
Original assignee: Heze Tianying New Energy Co ltd
Current assignee: Heze Tianying New Energy Co ltd
Priority date: 2022-10-24
Filing date: 2022-10-24
Publication date: 2023-01-24
Anticipated expiration: 2042-10-24
Also published as: CN115370527A

Abstract

The invention relates to the technical field of wave power generation, in particular to a hydraulic generator which comprises two groups of supporting columns, wherein the opposite surfaces of the two groups of supporting columns are provided with sliding rails, the interior of each sliding rail is connected with a transmission shell in a sliding manner, and floating sliding blocks are fixedly arranged at the front end and the rear end of each transmission shell. The invention utilizes the continuous fluctuation of waves to drive the transmission floating plate to continuously overturn by arranging the transmission mechanism and the fluctuation power generation mechanism, so as to drive the first transmission rod to continuously deflect, the part of the first transmission rod extending to the transmission shell can carry the fourth magnet to continuously move, and continuously make cutting magnetic field movement in the second coil to generate current, then the transmission paddle arranged on the outer surface of the first transmission rod is arranged in water and is driven by the scouring of water flow, so that the second transmission rod drives the second transmission wheel to rotate, further the first transmission shaft is driven to rotate through the transmission of a belt, and the first transmission shaft can drive the second magnet to make cutting magnetic field movement in the first coil to generate current.

Description

Hydraulic generator

Technical Field

The invention relates to the technical field of wave power generation, in particular to a hydraulic power generator.

Background

Tidal power generators are motors that convert mechanical energy into electrical energy, usually driven by steam turbines, water turbines or internal combustion engines, small tidal power generators are also driven by windmills or other machines via gears or belts, tidal power generators drive blades using the tide to drive internal motors, converting tidal energy into electrical energy, and can be roughly divided into stationary tidal power generators and floating tidal power generators according to their installation methods, the former being fixed at the bottom of a shoal, the latter floating in shallow water.

In the prior patent (publication number: CN 105649866B), a tidal power generator is characterized in that a frame is fixedly arranged on the shore, so that the power generation device is prevented from drifting along with waves, a floating block floats up and down to drive a piston rod of a third hydraulic cylinder to do telescopic motion, and a hydraulic system stores hydraulic energy; the floating plate can incline along with the height of waves, so that the sliding plate can incline, the pulley can roll to the lower position of the sliding plate under the action of gravity, the sliding of the pulley drives the rotating shaft to rotate, the first gear rotates, the first rack moves back and forth, the sliding block moves along the sliding rail, the piston rod of the first hydraulic cylinder is pushed to do telescopic motion, and the hydraulic system stores hydraulic energy;

the prior art realizes the way that the wave energy is transmitted from reciprocating motion to unidirectional rotary motion through a certain transmission mechanism to drive a generator to generate electricity, people invent various wave power generation devices, a mechanical wave generator in the prior art only utilizes the wave energy generated by one wave fluctuation and cannot utilize other energy generated by the wave, and then the prior art can only utilize the wave fluctuation to perform established electricity generation and cannot automatically enhance the energy utilization of the wave energy according to the amplitude enhancement of the wave fluctuation, so the low energy utilization rate causes the low electricity generation efficiency.

To this end, a hydraulic generator is proposed.

Disclosure of Invention

The present invention is directed to a hydraulic generator to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a hydraulic generator comprises two groups of supporting columns, wherein the opposite surfaces of the two groups of supporting columns are respectively provided with a sliding rail, the inner parts of the sliding rails are slidably connected with a transmission shell, the front end and the rear end of the transmission shell are respectively and fixedly provided with a floating slide block, a first transmission rod is rotatably connected between the two groups of transmission shells, the middle part of the outer surface of the first transmission rod is fixedly provided with a transmission floating plate, the lower ends of the two groups of transmission shells are respectively and fixedly provided with a connecting piece, a second transmission rod is rotatably connected between the two groups of connecting pieces, the middle part of the outer surface of the second transmission rod is fixedly provided with a transmission paddle, a transmission mechanism is arranged between the transmission shell and the second transmission rod and comprises a first transmission shaft which is rotatably connected with the opposite surfaces of the two groups of transmission shells, the other end of the first transmission shaft is fixedly provided with a first transmission wheel, and the left end and the right end of the second transmission rod are respectively and fixedly provided with a second transmission wheel, the outer sides of the outer surfaces of the first driving wheel and the second driving wheel are provided with belts, the first driving wheel and the second driving wheel are in transmission connection through the belts, the right side of the transmission shell is provided with arc-shaped transmission teeth and a first gear, the inner side of the arc-shaped transmission teeth is fixedly connected with a first connecting rod, the first connecting rod is fixedly connected to the outer surface of the first transmission rod, the left end and the right end inside the transmission shell are both provided with a fluctuation power generation mechanism, the middle of the fluctuation power generation mechanism is provided with a power conversion mechanism and a stable power generation mechanism, the power conversion mechanism is arranged in the middle of the stable power generation mechanism, the power conversion mechanism and the fluctuation power generation mechanism are in transmission connection with a transmission mechanism, the stable power generation mechanism is in transmission connection with the power conversion mechanism, and the transmission mechanism is in transmission connection with the power conversion mechanism, unstable wave energy is converted into stable mechanical power to generate current, and when the fluctuation amplitude of waves is increased, the power conversion mechanism is matched with the stable power generation mechanism to generate more electric power;

the power conversion mechanism comprises a transition pipe fixedly installed at the right end inside the transmission shell and a transmission pipe fixedly installed at the left end inside the transmission shell, a fixed sleeve is arranged inside the transmission shell corresponding to each group of first gears, a first connecting pipe is communicated between each group of fixed sleeves and the transition pipe, and a second connecting pipe is communicated between each group of fixed sleeves and the transmission pipe;

the power conversion mechanism further comprises a piston plate which is connected with the inside of the fixed sleeve in a sliding manner, a transmission column is arranged on the right side of the piston plate, a connecting shaft is fixedly connected to the right end of the transmission column, the connecting shaft penetrates through the transmission shell and extends to the outside to be fixedly connected with the first gear, a sliding sleeve is fixedly mounted on the inner wall of the fixed sleeve, a push rod is connected with the inside of the sliding sleeve in a sliding manner, the push rod is fixedly connected with the piston plate, a second transmission shaft is fixedly mounted on the right side of the lower end face of the push rod, a transmission groove is formed in the outer surface of the transmission column in an annular manner, and the second transmission shaft is connected with the inside of the transmission groove in a sliding manner;

the transmission shell is characterized in that a plurality of groups of gears I are arranged in a mirror symmetry mode correspondingly to a plurality of groups of gears I arranged in a mirror symmetry mode, the two sides of the mirror image are arranged in a fan-shaped dispersing mode, a one-way water inlet valve is arranged inside a first connecting pipe communicated between the fixing sleeve on the front side inside the transmission shell and the transition pipe, a one-way water outlet valve is arranged inside a second connecting pipe communicated between the fixing sleeve and the transmission pipe, a one-way water outlet valve is arranged inside a first connecting pipe communicated between the fixing sleeve on the rear side inside the transmission shell and the first connecting pipe, and a one-way water inlet valve is arranged inside a second connecting pipe communicated between the fixing sleeve and the transmission pipe;

the stable power generation mechanism comprises a first rotating shaft which is rotatably connected with the inside of a transmission pipe, a transmission plate is fixedly mounted on the outer surface of the first rotating shaft, a second gear is arranged below the right side of the transmission pipe, the second gear is arranged on the lower side of the middle inside of a transmission shell, the first rotating shaft penetrates through the transmission pipe and extends to the inside of the transmission shell to be fixedly connected with the second gear, the left end of the transition pipe is rotatably connected with a toothed ring, and the toothed ring is mutually meshed with the second gear;

the stable power generation mechanism further comprises a rotating shaft II arranged inside the gear ring, a connecting rod II is fixedly arranged between the rotating shaft II and the gear ring, the left end of the rotating shaft II extends to the inner side of the transmission pipe, the right end of the rotating shaft II extends to the inner side of the transition pipe, a coil II is fixedly arranged on the inner wall of the transition pipe, a third magnet is arranged on the left side of the inner side of the coil II, a fifth connecting rod is fixedly connected to the inner side of the third magnet, the fifth connecting rod is fixedly connected with the rotating shaft I, and the second coil and the third coil are both arc-shaped and provided with multiple groups of magnets and are arranged in an annular dispersing manner;

stabilize power generation mechanism and still include the inner wall fixed mounting's of driving tube coil one, the inboard right side of coil one is provided with magnetite one, the inboard fixed mounting of magnetite one has connecting rod three, connecting rod three and two fixed connection of pivot, coil one all is the arc with magnetite one and is provided with the multiunit to be annular dispersion setting.

Preferably, the first gear is provided with a plurality of groups and is arranged in a fan shape around the arc-shaped transmission gear, and the arc-shaped transmission gear and the first gear of the plurality of groups are arranged in a mirror image mode around the first transmission rod.

Preferably, undulant power generation mechanism includes that the inboard left side of coil one is provided with magnetite two, the inboard fixed mounting of magnetite two has connecting rod four, transmission shaft one runs through the transmission housing and extends to the inside of coil one, connecting rod four and a transmission shaft fixed connection, magnetite two is the arc and is provided with the multiunit to be the annular dispersion setting.

Preferably, undulant power generation mechanism still includes the second magnetite of the inboard right side setting of coil two, the inboard fixedly connected with connecting rod six of second magnetite, the transfer line runs through transmission housing and extends to the inside of coil two, six and transfer line fixed connection of connecting rod, the one end fixed mounting of six connecting rods has fourth magnetite, fourth magnetite is the arc and is provided with the multiunit to be the annular dispersion setting.

Compared with the prior art, the invention has the beneficial effects that:

1. the transmission mechanism and the wave power generation mechanism are arranged, the continuous fluctuation of waves is utilized to drive the transmission floating plate to continuously overturn so as to drive the first transmission rod to continuously deflect, the part of the first transmission rod, which extends to the transmission shell, can carry the fourth magnet to continuously move and continuously make a cutting magnetic field motion in the second coil so as to generate current, then the transmission paddles arranged on the outer surface of the first transmission rod are arranged in water and are driven by the scouring of water flow, so that the second transmission rod drives the second transmission wheel to rotate, the first transmission shaft is driven to rotate through the transmission of a belt, and the first transmission shaft can drive the second magnet to make a cutting magnetic field motion in the first coil so as to generate current;

2. according to the invention, the power conversion mechanism and the stable power generation mechanism are used, the transmission mechanism is used for carrying out transmission connection on the power rotating ring mechanism, unstable wave energy is converted into stable mechanical power, and further current is generated, and when the fluctuation amplitude of waves is increased, the power conversion mechanism is matched with the stable power generation mechanism to generate more electric power.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is an overall structural view of the present invention;

FIG. 2 is a structural view of the transmission mechanism of the present invention;

FIG. 3 is an enlarged schematic view of the invention at A in FIG. 2;

FIG. 4 is an enlarged schematic view of the invention at B of FIG. 2;

FIG. 5 is a cross-sectional view of the transmission housing of the present invention;

FIG. 6 is an enlarged view of the invention at C of FIG. 5;

FIG. 7 is a cross-sectional view of the retaining sleeve of the present invention;

FIG. 8 is an enlarged view taken at D of FIG. 7 in accordance with the present invention;

FIG. 9 is a cross-sectional view of a first drive shaft of the present invention;

FIG. 10 is a cross-sectional view of a transition duct of the present invention;

FIG. 11 is an enlarged schematic view at E of FIG. 10 in accordance with the present invention;

FIG. 12 is a cross-sectional view of the power conversion mechanism of the present invention;

FIG. 13 is an enlarged schematic view at F of FIG. 12 in accordance with the present invention;

FIG. 14 is a cross-sectional view of the stabilizing power generation mechanism of the present invention;

fig. 15 is a sectional view of the wave power generating mechanism of the present invention.

Description of reference numerals: 1. a support pillar; 2. a slide rail; 3. a transmission housing; 4. a floating slide block; 5. a first transmission rod; 6. a transmission floating plate; 7. a connecting member; 8. a second transmission rod; 9. a transmission paddle; 10. a first transmission shaft; 11. a first transmission wheel; 12. a second driving wheel; 13. a belt; 14. a first connecting rod; 15. an arc-shaped transmission gear; 16. a first gear; 17. a transition pipe; 18. fixing the sleeve; 19. a transmission pipe; 20. a first connecting pipe; 21. a second connecting pipe; 22. a piston plate; 23. a drive post; 24. a connecting shaft; 25. a sliding sleeve; 26. a push rod; 27. a second transmission shaft; 28. a transmission groove; 29. a first rotating shaft; 30. a drive plate; 31. a second gear; 32. a toothed ring; 33. a second rotating shaft; 34. a second connecting rod; 35. a third connecting rod; 36. a first magnet; 37. a first coil; 38. a connecting rod IV; 39. a second magnet; 40. a second coil; 41. a fifth connecting rod; 42. a third magnet; 43. a connecting rod six; 44. and a fourth magnet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 15, the present invention provides a technical solution:

a hydraulic generator comprises two groups of supporting columns 1, sliding rails 2 are arranged on opposite surfaces of the two groups of supporting columns 1, transmission shells 3 are connected inside the sliding rails 2 in a sliding mode, floating sliders 4 are fixedly arranged at the front ends and the rear ends of the transmission shells 3, a transmission rod I5 is connected between the two groups of transmission shells 3 in a rotating mode, a transmission floating plate 6 is fixedly arranged in the middle of the outer surface of the transmission rod I5, connecting pieces 7 are fixedly arranged at the lower ends of the two groups of transmission shells 3, a transmission rod II 8 is connected between the two groups of connecting pieces 7 in a rotating mode, a transmission paddle 9 is fixedly arranged in the middle of the outer surface of the transmission rod II 8, a transmission mechanism is arranged between the transmission shells 3 and the transmission rod II 8 and comprises two groups of transmission shafts 10 which are rotatably connected with the opposite surfaces of the transmission shells 3, a transmission wheel I11 is fixedly arranged at the other ends of the transmission shafts 10, and transmission wheels II 12 are fixedly arranged at the left end and the right end of the transmission rod II 8, a belt 13 is arranged on the outer sides of the outer surfaces of the first driving wheel 11 and the second driving wheel 12, the first driving wheel 11 and the second driving wheel 12 are in transmission connection through the belt 13, an arc-shaped driving tooth 15 and a first gear 16 are arranged on the right side of the transmission shell 3, a first connecting rod 14 is fixedly connected to the inner side of the arc-shaped driving tooth 15, the first connecting rod 14 is fixedly connected to the outer surface of the first driving rod 5, fluctuation power generation mechanisms are arranged at the left end and the right end of the inner part of the transmission shell 3, a power conversion mechanism and a stable power generation mechanism are arranged in the middle of the fluctuation power generation mechanisms, the power conversion mechanism is arranged in the middle of the stable power generation mechanism, the power conversion mechanism and the fluctuation power generation mechanism are in transmission connection with the transmission mechanism, the stable power generation mechanism is in transmission connection with the power conversion mechanism, a plurality of groups of gears 16 are arranged in a fan shape around the arc-shaped driving tooth 15, the arc-shaped transmission teeth 15 and the multiple groups of gears 16 are arranged in two groups around the transmission rod one 5 in a mirror image mode.

By adopting the technical scheme, the invention utilizes the continuous fluctuation of waves to drive the transmission floating plate 6 to continuously overturn so as to drive the transmission rod I5 to continuously deflect by arranging the transmission mechanism, the power conversion mechanism and the stable power generation mechanism, the two ends of the outer surface of the transmission rod I5 are fixedly connected with the arc-shaped transmission teeth 15 through the connecting rod I14, so that the arc-shaped transmission teeth 15 synchronously deflect so as to rotate the gear I16, then the transmission paddle 9 arranged on the outer surface of the transmission rod II 8 is arranged in water and driven by the scouring of water flow, so that the transmission rod II 8 drives the transmission wheel II 12 to rotate, further the transmission shaft I10 is driven by the belt 13 to rotate, the transmission shaft I10 can drive the magnet II 39 to do cutting magnetic field motion in the coil I37 so as to generate current, the transmission mechanism is used for carrying out transmission connection on the power rotation ring mechanism, so that unstable energy is converted into stable mechanical power to generate current, and when the fluctuation amplitude of waves is increased, the wave energy of the wave energy is matched with the stable power generation mechanism, more electric power can be generated.

Specifically, as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 10 to 14, the power conversion mechanism includes a transition pipe 17 fixedly installed at the right end inside the transmission housing 3 and a transmission pipe 19 fixedly installed at the left end inside the transmission housing 3, a fixed sleeve 18 is provided inside the transmission housing 3 corresponding to each group of gears 16, a first connecting pipe 20 is provided between each group of fixed sleeves 18 and the transition pipe 17, a second connecting pipe 21 is provided between each group of fixed sleeves 18 and the transmission pipe 19, the power conversion mechanism further includes a piston plate 22 slidably connected inside the fixed sleeve 18, a transmission column 23 is provided at the right side of the piston plate 22, a connecting shaft 24 is fixedly connected to the right end of the transmission column 23, the connecting shaft 24 penetrates through the transmission housing 3 and extends to the outside to be fixedly connected with the first gear 16, a sliding sleeve 25 is fixedly installed on the inner wall of the fixed sleeve 18, a push rod 26 is connected inside the sliding sleeve 25 in a sliding manner, the push rod 26 is fixedly connected with the piston plate 22, a second transmission shaft 27 is fixedly installed on the right side of the lower end face of the push rod 26, a transmission groove 28 is annularly formed in the outer surface of the transmission column 23, the second transmission shaft 27 is connected inside the transmission groove 28 in a sliding manner, a plurality of groups of gears 16 which are arranged in a mirror symmetry manner are arranged on the fixed sleeve 18 correspondingly, both sides of the mirror image are arranged in a fan-shaped dispersing manner, a one-way water inlet valve is arranged inside a first connecting pipe 20 which is arranged between the fixed sleeve 18 on the front side inside of the transmission shell 3 and the transition pipe 17 in a communication manner, a one-way water outlet valve is arranged inside a second connecting pipe 21 which is arranged between the fixed sleeve 18 and the transmission pipe 19 in a communication manner, a one-way water outlet valve is arranged inside a first connecting pipe 20 which is arranged between the fixed sleeve 18 on the rear side inside of the transmission shell 3 and the first communicating pipe, the inner part of the connecting pipe II 21 communicated and arranged between the fixed sleeve 18 and the transmission pipe 19 is provided with a one-way water inlet valve, the stable power generation mechanism comprises a rotating shaft I29 rotationally connected with the inner part of the transmission pipe 19, the outer surface of the rotating shaft I29 is fixedly provided with a transmission plate 30, the right lower part of the transmission pipe 19 is provided with a gear II 31, the gear II 31 is arranged at the lower side of the middle of the inner part of the transmission shell 3, the rotating shaft I29 penetrates through the transmission pipe 19 and extends to the inner part of the transmission shell 3 to be fixedly connected with the gear II 31, the left end of the transition pipe 17 is rotationally connected with a toothed ring 32, the toothed ring 32 is mutually meshed with the gear II 31, the stable power generation mechanism also comprises a rotating shaft II 33 arranged inside the toothed ring 32, and a connecting rod II 34 is fixedly arranged between the rotating shaft II 33 and the toothed ring 32, the left end of the second rotating shaft 33 extends to the inner side of the transmission pipe 19, the right end of the second rotating shaft 33 extends to the inner side of the transition pipe 17, a second coil 40 is fixedly mounted on the inner wall of the transition pipe 17, a third magnet 42 is arranged on the left side of the inner side of the second coil 40, a fifth connecting rod 41 is fixedly connected to the inner side of the third magnet 42, the fifth connecting rod 41 is fixedly connected with the first rotating shaft 29, the second coil 40 and the third magnet 42 are both arc-shaped and provided with multiple groups and are arranged in an annular dispersing mode, the stable power generation mechanism further comprises a first coil 37 fixedly mounted on the inner wall of the transmission pipe 19, a first magnet 36 is arranged on the right side of the inner side of the first coil 37, a third connecting rod 35 is fixedly mounted on the inner side of the first magnet 36, the third connecting rod 35 is fixedly connected with the second rotating shaft 33, and the first coil 37 and the first magnet 36 are both arc-shaped and provided with multiple groups and are arranged in an annular dispersing mode.

By adopting the technical scheme, the prior art realizes a mode that wave energy is transmitted from reciprocating motion to unidirectional rotation motion through a certain transmission mechanism to drive a generator to generate electricity, people invent various wave power generation devices, a mechanical wave generator in the prior art only utilizes wave energy generated by one wave fluctuation and cannot utilize other energy generated by the wave, and secondly, the prior art only can utilize the wave fluctuation to perform established electricity generation and cannot automatically enhance the energy utilization of the wave energy according to the amplitude enhancement of the wave fluctuation, and the low energy utilization rate causes low electricity generation efficiency, so that the invention can generate more mechanical energy along with the increase of the wave fluctuation amplitude by arranging a power conversion mechanism and a stable electricity generation mechanism, thereby generating more electricity, and the specific implementation mode is as follows: firstly, the support column 1 is fixedly installed on the seabed, the transmission floating plate 6 floats on the water surface under the action of the floating slide block 4, the transmission floating plate 6 is enabled to deflect continuously along with the fluctuation of waves, the transmission rod one 5 is further driven to deflect, the arc-shaped transmission teeth 15 fixedly connected with the transmission rod one 5 through the connecting rod one 14 are also enabled to deflect continuously, the arc-shaped transmission teeth 15 are meshed with the gear one 16, therefore, along with the deflection of the arc-shaped transmission teeth 15, a plurality of groups of gears one 16 on the front side and the rear side of the transmission rod one 5 rotate, the transmission column 23 fixedly connected with the gear one 16 through the connecting shaft 24 rotates along with the rotation of the gear one 16, when the transmission column 23 rotates, the transmission column 23 is enabled to do continuous reciprocating motion through the action of the transmission grooves 28 and the transmission shaft two 27 because the transmission shaft two 27 fixedly connected with the lower end of the push rod 26 is inserted into the transmission groove 28 formed in the outer surface of the transmission column 23, along with the rotation of the transmission column 23, the push rod 26 pushes the piston plate 22 to do continuous motion in the inner part of the fixed sleeve 18 in the fixed sleeve 18, the piston tube 19, and the piston tube 19 which is enabled to suck the piston tube 22 in the fixed sleeve 18, and the piston tube 19 in the fixed sleeve 18, thereby, the piston tube 19 which is enabled to suck water in the piston tube 19 in the fixed sleeve 18, and the piston tube 19 in the fixed sleeve 18, and the piston tube 19, the piston tube which is enabled to do the piston tube 19, and the piston tube which is enabled to do the piston tube 19 in the fixed sleeve tube 19, and the piston tube 19 in the fixed sleeve 18, and the piston tube which is enabled to do the piston tube 19 in the fixed sleeve tube 19, the second gear 31 is meshed with the gear ring 32 for transmission, so that the gear ring 32 rotates along with the rotation of the second gear 31, the second gear 32 drives the second rotating shaft 33 to rotate through the connection of the second connecting rod 34, the first magnet 36 fixedly connected with the left end of the outer surface of the second rotating shaft 33 through the third connecting rod 35 rotates along with the first rotating shaft, so that the magnetic field in the first coil 37 is cut, stable current is generated in the first coil 37 according to lenz's law, the third magnet 42 fixedly connected with the right end of the outer surface of the second rotating shaft 33 through the fifth connecting rod 41 rotates in the second coil 40, the magnetic field in the second coil 40 is cut, the second coil 40 generates stable current, when the amplitude of fluctuation of waves is increased, the deflection angle of the transmission floating plate 6 is increased, the deflection angle of the first transmission rod 5 is increased, the deflection angle of the arc-shaped transmission teeth 15 is increased, the second gear 15 is meshed with more first gears 16 for transmission, more piston plates 22 and the fixed sleeves 18 pump water flow, the flow speed of the water flow in the transmission pipe 19 is increased, the transmission plate 30, the first gear 29, the first magnet 31 and the third magnet 42 is accelerated to cut synchronously, and the magnet 36, so that the magnet 36 is generated by the magnet.

Specifically, as shown in fig. 1, 2, 3, 4, 5, 9 and 15, the wave power generation mechanism includes a first magnet 39 disposed on the left side of the inner side of a first coil 37, a second magnet 39 fixedly disposed on the inner side of the second magnet 39, a first transmission shaft 10 penetrating through the transmission housing 3 and extending into the first coil 37, a fourth connection rod 38 fixedly connected to the first transmission shaft 10, a plurality of sets of the magnets 39 arranged in an arc shape and arranged in an annular dispersed manner, a second magnet 39 disposed on the right side of the inner side of a second coil 40, a sixth connection rod 43 fixedly connected to the inner side of the second magnet 39, a first transmission rod 5 penetrating through the transmission housing 3 and extending into the second coil 40, a sixth connection rod 43 fixedly connected to the first transmission rod 5, a fourth magnet 44 fixedly disposed on one end of the sixth connection rod 43, and a plurality of sets of the magnets 44 arranged in an arc shape and arranged in an annular dispersed manner.

By adopting the technical scheme, the wave energy not only has kinetic energy of fluctuation of the water surface but also has energy generated by water flow scouring, the traditional wave energy generator only utilizes the wave energy of fluctuation of the water surface, but not utilizes the energy generated by water flow scouring, therefore, the wave power generation mechanism is arranged to utilize the energy generated by water flow scouring, and the specific implementation mode is as follows: when the transmission rod I5 deflects, the magnet III 42 fixedly connected with the transmission rod I5 and the connecting rod III 43 are driven to deflect, so that the magnet III 42 performs magnetic field cutting motion in the coil II 40, and current is generated, when the transmission paddle 9 arranged in water fluctuates in waves, the transmission rod II 8 rotates along with the washing of water flow, the transmission wheel II 12 fixedly connected with the transmission rod II 8 rotates, the transmission wheel II 12 is in transmission connection with the transmission wheel I11 through the belt 13, so that the transmission wheel I11 carries the transmission shaft I10 to rotate, the magnet II 39 fixedly connected with the transmission shaft I10 through the connecting rod IV 38 similarly rotates, the magnet II 39 is arranged in a magnetic field generated by the coil I37, and the magnetic field generated by the coil I37 is cut along with the rotation of the magnet II 39, so that current is generated in the coil I37.

The working principle is as follows: firstly, the support column 1 is fixedly installed on the seabed, the transmission floating plate 6 floats on the water surface under the action of the floating slide block 4, the transmission floating plate 6 is enabled to deflect continuously along with the fluctuation of waves, the transmission rod one 5 is further driven to deflect, the arc-shaped transmission teeth 15 fixedly connected with the transmission rod one 5 through the connecting rod one 14 are also enabled to deflect continuously, the arc-shaped transmission teeth 15 are meshed with the gear one 16, therefore, along with the deflection of the arc-shaped transmission teeth 15, a plurality of groups of gears one 16 on the front side and the rear side of the transmission rod one 5 rotate, the transmission column 23 fixedly connected with the gear one 16 through the connecting shaft 24 rotates along with the rotation of the gear one 16, when the transmission column 23 rotates, the transmission column 23 is enabled to do continuous reciprocating motion through the action of the transmission grooves 28 and the transmission shaft two 27 because the transmission shaft two 27 fixedly connected with the lower end of the push rod 26 is inserted into the transmission groove 28 formed in the outer surface of the transmission column 23, along with the rotation of the transmission column 23, the push rod 26 pushes the piston plate 22 to do continuous motion in the inner part of the fixed sleeve 18 in the fixed sleeve 18, the piston tube 19, and the piston tube 19 which is enabled to suck the piston tube 22 in the fixed sleeve 18, and the piston tube 19 in the fixed sleeve 18, thereby, the piston tube 19 which is enabled to suck water in the piston tube 19 in the fixed sleeve 18, and the piston tube 19 in the fixed sleeve 18, and the piston tube 19, the piston tube which is enabled to do the piston tube 19, and the piston tube which is enabled to do the piston tube 19 in the fixed sleeve tube 19, and the piston tube 19 in the fixed sleeve 18, and the piston tube which is enabled to do the piston tube 19 in the fixed sleeve tube 19, the second gear 31 is meshed with the gear ring 32 for transmission, so that the gear ring 32 rotates along with the rotation of the second gear 31, the gear ring 32 drives the second rotating shaft 33 to rotate through the connection of the second connecting rod 34, the first magnet 36 fixedly connected with the left end of the outer surface of the second rotating shaft 33 through the third connecting rod 35 rotates along with the rotation of the second connecting rod 33, so that the magnetic field in the first coil 37 is cut, stable current is generated in the first coil 37 according to lenz's law, the third magnet 42 fixedly connected with the right end of the outer surface of the second rotating shaft 33 through the fifth connecting rod 41 rotates in the second coil 40, the magnetic field in the second coil 40 is cut, so that the second coil 40 generates stable current, when the amplitude of fluctuation of waves is increased, the deflection angle of the transmission floating plate 6 is increased, the deflection angle of the first transmission rod 5 is increased, the deflection angle of the arc-shaped transmission teeth 15 is increased, and further, the transmission is carried out with more first gears 16, through the transmission technology, more piston plates 22 and the fixed sleeve 18 pump water flow, the flow rate of the water flow in the transmission pipe 19 is increased, the rotating speed of the transmission plate 30, the rotating shaft I29, the gear II 31, the gear ring 32 and the rotating shaft I29 is synchronously increased, the cutting of the magnet III 42 and the magnet I36 on a magnetic field is further increased, more current is generated, the transmission rod I5 can drive the magnet III 42 fixedly connected with the transmission rod I5 and the connecting rod VI 43 to deflect when deflecting, so that the magnet III 42 performs cutting magnetic field movement in the coil II 40, and further current is generated, the transmission paddle 9 arranged in water can rotate along with the washing of the water flow when waves fluctuate, so that the transmission rod II 8 rotates, and the transmission wheel II 12 fixedly connected with the transmission rod II 8 rotates, the second driving wheel 12 is in transmission connection with the first driving wheel 11 through a belt 13, so that the first driving wheel 11 carries the first transmission shaft 10 to rotate, the second magnet 39 fixedly connected with the first transmission shaft 10 through the fourth connecting rod 38 rotates similarly, the second magnet 39 is arranged in a magnetic field generated by the first coil 37, and the magnetic field generated by the first coil 37 is cut along with the rotation of the second magnet 39, so that current is generated in the first coil 37.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a hydraulic generator, includes two sets of support columns (1), its characterized in that: two sets of slide rail (2) have all been seted up to the opposite face of support column (1), the inside sliding connection of slide rail (2) has drive shell (3), the front end of drive shell (3) and the equal fixed mounting in rear end have float slider (4), and are two sets of rotate between drive shell (3) and be connected with transfer line (5), the surface middle part fixed mounting of transfer line (5) has transmission kickboard (6), and is two sets of the equal fixed mounting of lower extreme of drive shell (3) has connecting piece (7), and is two sets of rotate between connecting piece (7) and be connected with transfer line two (8), the surface middle part fixed mounting of transfer line two (8) has transmission oar (9), be provided with drive mechanism between drive shell (3) and transfer line two (8), drive mechanism includes that the opposite face of two sets of drive shells (3) all rotates transmission shaft (10) of being connected, the other end fixed mounting of transmission shaft one (10) has one (11), the left end and the equal fixed mounting of transfer line two (8) has two (12), the surface of drive wheel one (11) and the drive wheel (13) carry out transmission gear (15) through transmission gear (13), the transmission gear (13) and the transmission shell (13), the right side is provided with the transmission wheel (13) and the transmission gear (13) the transmission shell (13) carry out transmission (16) The inner side of the arc-shaped transmission gear (15) is fixedly connected with a first connecting rod (14), the first connecting rod (14) is fixedly connected to the outer surface of a first transmission rod (5), the left end and the right end of the inner part of the transmission shell (3) are respectively provided with a fluctuation power generation mechanism, a power conversion mechanism and a stable power generation mechanism are arranged in the middle of the fluctuation power generation mechanism, the power conversion mechanism is arranged in the middle of the stable power generation mechanism, the power conversion mechanism and the fluctuation power generation mechanism are in transmission connection with the transmission mechanism, the stable power generation mechanism is in transmission connection with the power conversion mechanism, the transmission mechanism is in transmission connection with the power conversion mechanism, unstable wave energy is converted into stable mechanical power, further current is generated, and when the fluctuation amplitude of waves is increased, more electric power can be generated by matching the power conversion mechanism with the stable power generation mechanism;

the power conversion mechanism comprises a transition pipe (17) fixedly mounted at the right end inside the transmission shell (3) and a transmission pipe (19) fixedly mounted at the left end inside the transmission shell (3), a fixed sleeve (18) is arranged inside the transmission shell (3) corresponding to each group of first gears (16), a first connecting pipe (20) is communicated between each group of fixed sleeves (18) and the transition pipe (17), and a second connecting pipe (21) is communicated between each group of fixed sleeves (18) and the transmission pipe (19);

the power conversion mechanism further comprises a piston plate (22) which is slidably connected with the inside of the fixed sleeve (18), a transmission column (23) is arranged on the right side of the piston plate (22), a connecting shaft (24) is fixedly connected to the right end of the transmission column (23), the connecting shaft (24) penetrates through the transmission shell (3) and extends to the outside to be fixedly connected with the first gear (16), a sliding sleeve (25) is fixedly installed on the inner wall of the fixed sleeve (18), a push rod (26) is slidably connected to the inside of the sliding sleeve (25), the push rod (26) is fixedly connected with the piston plate (22), a second transmission shaft (27) is fixedly installed on the right side of the lower end face of the push rod (26), a transmission groove (28) is annularly formed in the outer surface of the transmission column (23), and the second transmission shaft (27) is slidably connected to the inside of the transmission groove (28);

the transmission device is characterized in that a plurality of groups of fixed sleeves (18) are arranged in mirror symmetry corresponding to a plurality of groups of first gears (16) which are arranged in mirror symmetry, two sides of a mirror image are arranged in a fan-shaped dispersed manner, a one-way water inlet valve is arranged inside a first connecting pipe (20) which is arranged between the fixed sleeve (18) on the front side inside the transmission shell (3) and the transition pipe (17) in a communicated manner, a one-way water outlet valve is arranged inside a second connecting pipe (21) which is arranged between the fixed sleeve (18) and the transmission pipe (19) in a communicated manner, a one-way water outlet valve is arranged inside a first connecting pipe (20) which is arranged between the fixed sleeve (18) on the rear side inside the transmission shell (3) and the first connecting pipe in a communicated manner, and a one-way water inlet valve is arranged inside a second connecting pipe (21) which is arranged between the fixed sleeve (18) and the transmission pipe (19) in a communicated manner;

the stable power generation mechanism comprises a first rotating shaft (29) which is rotatably connected with the inside of a transmission pipe (19), a transmission plate (30) is fixedly mounted on the outer surface of the first rotating shaft (29), a second gear (31) is arranged below the right side of the transmission pipe (19), the second gear (31) is arranged on the lower side of the middle of the inside of the transmission shell (3), the first rotating shaft (29) penetrates through the transmission pipe (19) and extends to the inside of the transmission shell (3) to be fixedly connected with the second gear (31), the left end of the transition pipe (17) is rotatably connected with a toothed ring (32), and the toothed ring (32) and the second gear (31) are meshed with each other;

the stable power generation mechanism further comprises a second rotating shaft (33) arranged inside the gear ring (32), a second connecting rod (34) is fixedly installed between the second rotating shaft (33) and the gear ring (32), the left end of the second rotating shaft (33) extends to the inner side of the transmission pipe (19), the right end of the second rotating shaft (33) extends to the inner side of the transition pipe (17), a second coil (40) is fixedly installed on the inner wall of the transition pipe (17), a third magnet (42) is arranged on the left side of the inner side of the second coil (40), a fifth connecting rod (41) is fixedly connected to the inner side of the third magnet (42), the fifth connecting rod (41) is fixedly connected with the first rotating shaft (29), and the second coil (40) and the third magnet (42) are both provided with multiple groups in an arc shape and are arranged in an annular dispersing manner;

stabilize power generation mechanism and still include inner wall fixed mounting's of driving tube (19) coil one (37), the inboard right side of coil one (37) is provided with magnetite one (36), the inboard fixed mounting of magnetite one (36) has connecting rod three (35), connecting rod three (35) and two (33) fixed connection in pivot, coil one (37) all are the arc with magnetite one (36) and are provided with the multiunit to be the annular dispersion setting.

2. A hydroelectric generator as claimed in claim 1, wherein: the first gear (16) is provided with a plurality of groups and is arranged in a fan shape around the arc-shaped transmission gear (15), and the arc-shaped transmission gear (15) and the first gear (16) are arranged in two groups around the transmission rod (5) in a mirror image mode.

3. A hydro-generator as claimed in claim 2, wherein: undulant power generation mechanism includes that the inboard left side of coil one (37) is provided with magnet two (39), the inboard fixed mounting of magnet two (39) has connecting rod four (38), transmission shaft one (10) run through transmission housing (3) and extend to the inside of coil one (37), connecting rod four (38) and transmission shaft one (10) fixed connection, magnet two (39) are the arc and are provided with the multiunit to be the annular dispersion setting.

4. A hydro-generator as claimed in claim 3, wherein: undulant power generation mechanism still includes two (39) of the magnetite of the inboard right side setting of two (40) coils, six (43) of inboard fixedly connected with connecting rods of two (39) magnetites, the inside that transmission case (3) and two (40) coils were extended to in transfer line (5), six (43) of connecting rods and transfer line (5) fixed connection, the one end fixed mounting of six (43) of connecting rod has four (44) magnetites, four (44) of magnetites are the arc and are provided with the multiunit to be the annular dispersion setting.