Method for generating power by using ocean wave energy and wind energy
阅读说明:本技术 一种利用海洋波浪能与风能双重发电的方法 (Method for generating power by using ocean wave energy and wind energy ) 是由 王和能 李俊 于 2019-09-24 设计创作,主要内容包括:本发明公布了一种利用海洋波浪能与风能双重发电的方法,其步骤在于:波浪使浮球上下起伏,浮球上下起伏并通过连接杆/连接支架牵引齿轮轴一转动,齿轮轴一转动并最终通过输入斜齿轮、传递斜齿轮、输出斜齿轮牵引转轴绕自身轴向转动;转轴转动并向行星增速机构的输入部件传递动力,且该动力经行星增速机构的输出部件向发电机的转子输出,发电机转子转动即利用海洋波浪能进行发电工作;在发电机利用海洋波浪能进行发电过程中,伴随波浪同时出现的海洋风能会通过垂直轴螺旋风力发电扇叶驱使转轴做与发电机发电工作时的转子转向一致的转动,转轴转动并驱使发电机的转子转动,发电机即利用海洋风能进行发电工作。(The invention discloses a method for generating power by using ocean wave energy and wind energy, which comprises the following steps: the floating ball fluctuates up and down due to waves, the floating ball fluctuates up and down and pulls the first gear shaft to rotate through the connecting rod/the connecting bracket, and the first gear shaft rotates and finally rotates around the self axial direction through the input bevel gear, the transmission bevel gear and the output bevel gear traction rotating shaft; the rotating shaft rotates and transmits power to an input part of the planetary speed increasing mechanism, the power is output to a rotor of the generator through an output part of the planetary speed increasing mechanism, and the rotor of the generator rotates to utilize ocean wave energy to generate electricity; in the process that the generator generates electricity by using ocean wave energy, ocean wind energy which appears along with waves simultaneously drives the rotating shaft to rotate in the same direction as the rotor during the electricity generation work of the generator through the vertical shaft spiral wind power generation fan blades, the rotating shaft rotates and drives the rotor of the generator to rotate, and the generator generates electricity by using the ocean wind energy.)
1. A method for generating power by using ocean wave energy and wind energy doubly comprises the following steps:
s1: the sea surface waves and makes the wind wave power generation device fluctuate up and down;
the wind wave power generation device comprises a floating body, an installation shell, a wave energy conversion mechanism, a planetary speed increasing mechanism and a power generator, wherein the floating body floats on the water surface and is also fixedly installed at the top end of an installation frame body;
the wave energy conversion mechanism comprises a transmission member and a conversion member, the transmission member is arranged in the installation shell and comprises an installation support and a rotating shaft, the installation support is fixedly installed in the installation shell, the axial direction of the rotating shaft is vertical to the water surface, and the rotating shaft is movably installed on the installation support and can rotate around the axial direction of the rotating shaft;
the conversion component comprises a first gear shaft, a second gear shaft, an input bevel gear, a transmission bevel gear, an output bevel gear, a connecting rod, a connecting support and a floating ball, wherein the first gear shaft/the second gear shaft is axially parallel to the water surface and movably arranged on the mounting support and can rotate around the self axial direction, the second gear shaft is arranged between the first gear shaft and the rotating shaft, a one-way rotating component is arranged between the input bevel gear and the first gear shaft, the input bevel gear is arranged outside the first gear shaft through the one-way rotating component, the transmission bevel gear is coaxially fixed outside the second gear shaft, the output bevel gear is coaxially fixed outside the rotating shaft, the input bevel gear is meshed with the transmission bevel gear, the transmission bevel gear is meshed with the output bevel gear, the one-way rotating component is used for enabling the input bevel gear, the connecting bracket is fixedly arranged outside the first gear shaft, the floating ball floats on the water surface, one end of the connecting rod is fixedly connected with the connecting bracket, the other end of the connecting rod penetrates through the sealing element and then is fixedly connected with the floating ball, and four groups of conversion components are arranged in an array manner along the circumferential direction of the rotating shaft;
when the sea surface waves, the waves can enable the floating ball to fluctuate up and down, the floating ball fluctuates up and down and pulls the first gear shaft to rotate around the self axial direction through the connecting rod/the connecting support, the first gear shaft rotates and finally pulls the rotating shaft to rotate around the self axial direction through the input bevel gear, the transmission bevel gear and the output bevel gear, and in the process, the one-way rotating component enables the rotating shaft to always rotate in accordance with the rotation direction of a rotor when a generator generates electricity;
s2: the planetary speed increasing mechanism is positioned below the rotating shaft, the generator is positioned below the planetary speed increasing mechanism, an input part of the planetary speed increasing mechanism is coaxially and fixedly connected with the rotating shaft, and an output part of the planetary speed increasing mechanism is coaxially and fixedly connected with a rotor of the generator;
the rotating shaft rotates and transmits power to an input part of the planetary speed increasing mechanism, the power is output to a rotor of the generator through an output part of the planetary speed increasing mechanism, the power generated by the rotation of the rotating shaft is subjected to speed increasing treatment through the planetary speed increasing mechanism and then transmitted to the generator, and the rotation of the rotor of the generator is to generate electricity by utilizing ocean wave energy;
s3: the top end of the rotating shaft extends to be positioned right above the mounting shell, and the top end of the rotating shaft is coaxially provided with a vertical axis spiral wind power generation fan blade;
in the process that the generator generates electricity by using ocean wave energy, ocean wind energy which appears along with waves simultaneously drives the rotating shaft to rotate in the same direction as the rotor during the electricity generation work of the generator through the vertical shaft spiral wind power generation fan blades, the rotating shaft rotates and drives the rotor of the generator to rotate, and the generator generates electricity by using the ocean wind energy.
2. The method for generating power by using ocean wave energy and wind energy according to claim 1, wherein the mounting frame body comprises inserting columns and mounting columns, the inserting columns are vertically arranged and fixed at the water bottom, and sliding grooves are coaxially formed in the top ends of the inserting columns;
the wind wave power generation device is characterized in that one end of the mounting column is coaxially located in the sliding groove, the other end of the mounting column is located above the inserting column and is provided with a mounting seat, the mounting column and the sliding groove arranged at the top end of the inserting column form sliding guide fit, and the wind wave power generation device is mounted on the mounting seat.
3. A method for generating power doubly using ocean wave energy and wind energy according to claim 2, wherein a damping and protecting member is arranged between the inserting column and the mounting column, a guiding bracket is fixedly arranged on the outer circumferential surface of the inserting column, a fixing bracket is fixedly arranged on the outer circumferential surface of the mounting column, and the fixing bracket is close to the top end of the mounting column.
4. The method for generating power doubly by using ocean wave energy and wind energy according to claim 3, wherein the damping protection member comprises a guide rod, a first damping spring and a second damping spring, the guide rod is vertically arranged, the top end of the guide rod is fixedly connected with the fixed support, the bottom end of the guide rod penetrates through the guide support and is positioned below the guide support, the bottom end of the guide rod is further provided with an abutting step, and a sliding guide fit is formed between the guide rod and the guide support;
the damping spring is sleeved outside the part of the guide rod between the guide bracket and the fixed bracket, and the damping spring is sleeved outside the part of the guide rod between the abutting step and the guide rod;
four groups of shock absorption protection components are arranged in an array along the circumferential direction of the inserted columns.
5. A method of dual generation using ocean wave energy and wind energy according to claim 3 or 4, wherein the float is fixedly mounted on the mounting;
the two ends of the guide hole along the guide direction are provided with supporting steps which are positioned at the position of the guide hole close to the hole opening of the inner cavity of the mounting shell, and the sealing element comprises a sealing plate and a sealing gasket;
the sealing plate is fixedly arranged at a hole opening of the guide hole, which is far away from the inner cavity of the mounting shell, the sealing plate and the guide hole form sealed fit, the sealing plate is also provided with a guide hole which is communicated with the guide hole, and the guide direction of the guide hole is parallel to the guide direction of the guide hole.
6. The method for generating power doubly by using ocean wave energy and wind energy according to claim 5, wherein the sealing gasket is arranged in the guide hole and positioned in the area between the sealing plate and the supporting step, the area between the sealing plate and the supporting step and the sealing gasket form sealed sliding guide fit, and the sealing gasket is further provided with a connecting hole communicated with the guide hole;
one end of the connecting rod is fixedly connected with the connecting bracket, the other end of the connecting rod penetrates through the guide hole/connecting hole/guide hole and then is fixedly connected with the floating ball, the connecting rod is fixedly connected with the connecting hole, and the connecting rod and the guide hole/guide hole form sliding guide fit.
7. The method for generating power doubly by using ocean wave energy and wind energy according to claim 1, wherein the unidirectional rotating member comprises a mounting sleeve, a ratchet wheel, a pawl and a unidirectional spring, the mounting sleeve is coaxially and fixedly sleeved outside the first gear shaft, and the mounting sleeve can be divided into two parts along the axial direction of the mounting sleeve and is respectively a mounting section and a hinging section;
the ratchet wheel is of a circular cylinder structure with an opening end and a closed end, the closed end of the ratchet wheel is coaxially provided with a mounting hole, a bearing is arranged in the mounting hole, the ratchet wheel is movably mounted outside the mounting section of the mounting sleeve through the bearing arranged in the mounting hole, the hinged section of the mounting sleeve is located in the ratchet wheel, and the opening end of the ratchet wheel is matched with and mounted with an end cover in an annular structure.
8. The method for generating power doubly by using ocean wave energy and wind energy according to claim 7, wherein ratchets of the ratchet wheel are arranged on the wall of the cavity of the ratchet wheel, one end of the pawl is hinged to the hinged section of the mounting sleeve, the core line of the hinged shaft is parallel to the axial direction of the first gear shaft, the other end of the pawl is inserted into the ratchets of the ratchet wheel, one end of the one-way spring is connected with the hinged section of the mounting sleeve, the other end of the one-way spring is connected with the side face, facing the mounting sleeve, of the pawl, and the pawl is driven to move;
the input helical gear is coaxially fixed outside the ratchet wheel, and the ratchet wheel, the pawl and the one-way spring are matched to drive the input helical gear to rotate in one direction and finally drive the rotating shaft to rotate in accordance with the rotation direction of the generator during power generation.
9. A method of dual power generation using ocean wave energy and wind energy according to claim 1, the planetary speed increasing mechanism is positioned below the rotating shaft, the generator is positioned below the planetary speed increasing mechanism, the planetary speed increasing mechanism comprises a housing, an input shaft, a planet carrier and an output shaft, the housing is a cylindrical shell structure which is provided with an inner cavity and is coaxially arranged with the rotating shaft, the housing/the generator are fixedly arranged in the installation shell, the input shaft/the output shaft are coaxially arranged with the rotating shaft, the input shaft/the output shaft are coaxially and movably arranged on the housing and can axially rotate around the input shaft, the power input end of the input shaft is positioned above the housing and coaxially and fixedly connected with the rotating shaft, the power output end of the input shaft is positioned in the housing, the planet carrier is coaxially fixed at the power output end of the input shaft, the power input end of the output shaft is positioned in the housing, and the power output end of the output shaft is positioned below the housing and coaxially and fixedly connected with the rotor of the generator;
one side of the planet carrier facing the output shaft is provided with a third gear shaft which is axially parallel to the axial direction of the input shaft, and the third gear shaft is provided with three groups in an array manner along the circumferential direction of the input shaft;
the planetary speed increasing mechanism further comprises a fixed gear ring, a sun gear and three planetary gears, the fixed gear ring is coaxially fixed in the housing, the sun gear is coaxially fixed at the power input end of the output shaft, the planetary gears are coaxially and movably mounted outside the gear shaft III and can axially rotate around the planetary gears, the planetary gears are correspondingly provided with three groups, the sun gear is meshed with the planetary gears, and the planetary gears are meshed with the fixed gear ring.
10. The method for generating power by using ocean wave energy and wind energy in a double mode according to claim 1, wherein the top end of the rotating shaft extends to be located right above the mounting shell, and the top end of the rotating shaft is coaxially provided with the vertical axis spiral wind power generation fan blade.
Technical Field
The invention relates to the field of power generation, in particular to a power generation method by utilizing ocean energy.
Background
In the century that 21 st century is called as ocean, in the face of the problems that world population is rapidly expanded, land resources are gradually exhausted, environmental conditions are continuously worsened and the like, it is gradually becoming common knowledge to ocean to ask for clean renewable energy, ocean energy is renewable energy stored in seawater, generalized ocean energy includes various types such as offshore wind energy, offshore solar energy, wave energy, tidal energy, ocean current energy, temperature difference energy, salt difference energy and the like, the reserves are huge, the distribution is wide, wherein wave energy is ocean energy which is distributed most widely, the wave energy is almost not limited by places, the energy flux density is high, the characteristics of no intermittence, small influence by day, night and season and the like are provided, the ocean renewable energy is one of ocean renewable energy with higher practical and commercial degrees, in the prior art, a power generation device utilizing ocean wave energy is in hard connection with the sea bottom and is easy to be impacted by waves, therefore, the inventor designs a power generation device utilizing ocean energy, the wind power generation device can utilize ocean wave energy and ocean wind energy to generate electricity, ocean energy is utilized to the maximum extent, and meanwhile, the shock absorption protection component capable of protecting the power generation device is arranged, so that the power generation device can be prevented from being damaged when the wind waves are too large.
Disclosure of Invention
In order to overcome the defects of the prior art, the invention aims to provide a power generation method by using ocean energy, which simultaneously uses ocean wave energy and ocean wind energy to generate power, further improves the power generation efficiency of a generator and maximally utilizes the ocean energy.
In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.
A method for generating power by using ocean wave energy and wind energy doubly comprises the following steps:
s1: the sea surface waves and makes the wind wave power generation device fluctuate up and down;
the wind wave power generation device comprises a floating body, an installation shell, a wave energy conversion mechanism, a planetary speed increasing mechanism and a power generator, wherein the floating body floats on the water surface and is also fixedly installed at the top end of an installation frame body;
the wave energy conversion mechanism comprises a transmission member and a conversion member, the transmission member is arranged in the installation shell and comprises an installation support and a rotating shaft, the installation support is fixedly installed in the installation shell, the axial direction of the rotating shaft is vertical to the water surface, and the rotating shaft is movably installed on the installation support and can rotate around the axial direction of the rotating shaft;
the conversion component comprises a first gear shaft, a second gear shaft, an input bevel gear, a transmission bevel gear, an output bevel gear, a connecting rod, a connecting support and a floating ball, wherein the first gear shaft/the second gear shaft is axially parallel to the water surface and movably arranged on the mounting support and can rotate around the self axial direction, the second gear shaft is arranged between the first gear shaft and the rotating shaft, a one-way rotating component is arranged between the input bevel gear and the first gear shaft, the input bevel gear is arranged outside the first gear shaft through the one-way rotating component, the transmission bevel gear is coaxially fixed outside the second gear shaft, the output bevel gear is coaxially fixed outside the rotating shaft, the input bevel gear is meshed with the transmission bevel gear, the transmission bevel gear is meshed with the output bevel gear, the one-way rotating component is used for enabling the input bevel gear, the connecting bracket is fixedly arranged outside the first gear shaft, the floating ball floats on the water surface, one end of the connecting rod is fixedly connected with the connecting bracket, the other end of the connecting rod penetrates through the sealing element and then is fixedly connected with the floating ball, and four groups of conversion components are arranged in an array manner along the circumferential direction of the rotating shaft;
when the sea surface waves, the waves can enable the floating ball to fluctuate up and down, the floating ball fluctuates up and down and pulls the first gear shaft to rotate around the self axial direction through the connecting rod/the connecting support, the first gear shaft rotates and finally pulls the rotating shaft to rotate around the self axial direction through the input bevel gear, the transmission bevel gear and the output bevel gear, and in the process, the one-way rotating component enables the rotating shaft to always rotate in accordance with the rotation direction of a rotor when a generator generates electricity;
s2: the planetary speed increasing mechanism is positioned below the rotating shaft, the generator is positioned below the planetary speed increasing mechanism, an input part of the planetary speed increasing mechanism is coaxially and fixedly connected with the rotating shaft, and an output part of the planetary speed increasing mechanism is coaxially and fixedly connected with a rotor of the generator;
the rotating shaft rotates and transmits power to an input part of the planetary speed increasing mechanism, the power is output to a rotor of the generator through an output part of the planetary speed increasing mechanism, the power generated by the rotation of the rotating shaft is subjected to speed increasing treatment through the planetary speed increasing mechanism and then transmitted to the generator, and the rotation of the rotor of the generator is to generate electricity by utilizing ocean wave energy;
s3: the top end of the rotating shaft extends to be positioned right above the mounting shell, and the top end of the rotating shaft is coaxially provided with a vertical axis spiral wind power generation fan blade;
in the process that the generator generates electricity by using ocean wave energy, ocean wind energy which appears along with waves simultaneously drives the rotating shaft to rotate in the same direction as the rotor during the electricity generation work of the generator through the vertical shaft spiral wind power generation fan blades, the rotating shaft rotates and drives the rotor of the generator to rotate, and the generator generates electricity by using the ocean wind energy.
As a further improvement of the present solution.
The mounting frame body comprises inserting columns and mounting columns, the inserting columns are vertically arranged and fixed at the bottom of the water, and sliding grooves are coaxially formed in the top ends of the inserting columns;
one end of the mounting column is coaxially positioned in the chute, the other end of the mounting column is positioned above the inserting column and is provided with a mounting seat, the mounting column and the chute arranged at the top end of the inserting column form sliding guide fit, and the wind wave power generation device is mounted on the mounting seat;
a damping protection component is arranged between the inserting column and the mounting column, a guide bracket is fixedly arranged on the outer circular surface of the inserting column, a fixing bracket is fixedly arranged on the outer circular surface of the mounting column, and the fixing bracket is close to the top end of the mounting column;
the damping protection component comprises a guide rod, a damping spring I and a damping spring II, the guide rod is vertically arranged, the top end of the guide rod is fixedly connected with the fixed support, the bottom end of the guide rod penetrates through the guide support and is positioned below the guide support, the bottom end of the guide rod is also provided with a contact step, and the guide rod and the guide support form sliding guide fit;
the damping spring is sleeved outside the part of the guide rod between the guide bracket and the fixed bracket, and the damping spring is sleeved outside the part of the guide rod between the abutting step and the guide rod;
four groups of shock absorption protection components are arranged in an array along the circumferential direction of the inserted columns.
As a further improvement of the present solution.
The floating body is fixedly arranged on the mounting seat;
the two ends of the guide hole along the guide direction are provided with supporting steps which are positioned at the position of the guide hole close to the hole opening of the inner cavity of the mounting shell, and the sealing element comprises a sealing plate and a sealing gasket;
the sealing plate is fixedly arranged at an orifice of the guide hole, which is deviated from the inner cavity of the mounting shell, and the sealing plate and the guide hole form sealed fit, the sealing plate is also provided with a guide hole which is communicated with the guide hole, and the guide direction of the guide hole is parallel to the guide direction of the guide hole;
the sealing gasket is arranged in the guide hole and positioned in the area between the sealing plate and the supporting step, the area between the sealing plate and the supporting step and the sealing gasket form sealed sliding guide fit, and the sealing gasket is also provided with a connecting hole which is communicated with the guide hole/the guide hole;
one end of the connecting rod is fixedly connected with the connecting bracket, the other end of the connecting rod penetrates through the guide hole/connecting hole/guide hole and then is fixedly connected with the floating ball, the connecting rod is fixedly connected with the connecting hole, and the connecting rod and the guide hole/guide hole form sliding guide fit.
As a further improvement of the present solution.
The unidirectional rotating component comprises a mounting sleeve, a ratchet wheel, a pawl and a unidirectional spring, the mounting sleeve is coaxially and fixedly sleeved outside the first gear shaft, and the mounting sleeve can be divided into two parts along the axial direction of the mounting sleeve and is respectively a mounting section and a hinge section;
the ratchet wheel is of a circular cylinder structure with an opening at one end and a closed end, the closed end of the ratchet wheel is coaxially provided with a mounting hole, a bearing is arranged in the mounting hole, the ratchet wheel is movably mounted outside the mounting section of the mounting sleeve through the bearing arranged in the mounting hole, the hinged section of the mounting sleeve is positioned in the ratchet wheel, and the opening end of the ratchet wheel is matched with and provided with an end cover in an annular structure;
the ratchet of the ratchet wheel is arranged on the wall of the cavity of the ratchet wheel, one end of the pawl is hinged with the hinged section of the mounting sleeve, the core wire of the hinged shaft is parallel to the axial direction of the first gear shaft, the other end of the pawl is inserted into the ratchet of the ratchet wheel, one end of the one-way spring is connected with the hinged section of the mounting sleeve, the other end of the one-way spring is connected with the side face, facing the mounting sleeve, of the pawl, and the elastic force of the one-way spring drives the;
the input helical gear is coaxially fixed outside the ratchet wheel, and the ratchet wheel, the pawl and the one-way spring are matched to drive the input helical gear to rotate in one direction and finally drive the rotating shaft to rotate in accordance with the rotation direction of the generator during power generation.
As a further improvement of the present solution.
The planetary speed increasing mechanism is positioned below the rotating shaft, the generator is positioned below the planetary speed increasing mechanism, the planetary speed increasing mechanism comprises a housing, an input shaft, a planet carrier and an output shaft, the housing is a cylindrical shell structure which is provided with an inner cavity and is coaxially arranged with the rotating shaft, the housing/the generator are fixedly arranged in the installation shell, the input shaft/the output shaft are coaxially arranged with the rotating shaft, the input shaft/the output shaft are coaxially and movably arranged on the housing and can rotate around the self axial direction, the power input end of the input shaft is positioned above the housing and is coaxially and fixedly connected with the rotating shaft, the power output end is positioned in the housing, the planet carrier is coaxially fixed at the power output end of the input shaft, the power input end of the output shaft is positioned in the housing, and the power output end is positioned;
one side of the planet carrier facing the output shaft is provided with a third gear shaft which is axially parallel to the axial direction of the input shaft, and the third gear shaft is provided with three groups in an array manner along the circumferential direction of the input shaft;
the planetary speed increasing mechanism further comprises a fixed gear ring, a sun gear and three planetary gears, the fixed gear ring is coaxially fixed in the housing, the sun gear is coaxially fixed at the power input end of the output shaft, the planetary gears are coaxially and movably mounted outside the gear shaft III and can axially rotate around the planetary gears, the planetary gears are correspondingly provided with three groups, the sun gear is meshed with the planetary gears, and the planetary gears are meshed with the fixed gear ring.
As a further improvement of the present solution.
The top end of the rotating shaft extends to be positioned right above the mounting shell, and the top end of the rotating shaft is coaxially provided with a vertical axis spiral wind power generation fan blade.
Compared with the prior art, the invention has the advantages that the invention simultaneously utilizes ocean wave energy and ocean wind energy to generate electricity, thereby further improving the generating efficiency of the generator and maximally utilizing ocean energy; the wave energy conversion mechanism floats on the water surface, and can generate electricity by utilizing wave energy regardless of the size of sea surface waves, so that the utilization rate of the wave energy is higher; the existence of the unidirectional rotating component enables the rotating shaft to always rotate in accordance with the rotation direction of the rotor when the generator generates electricity, the influence of fluctuation of waves is avoided, and the working efficiency of the generator is better; if the wind waves are too large, the damping protection component arranged on the mounting frame body can counteract partial wave energy/wind energy through the matching of the damping springs I/II in the process that the wind wave power generation device generates power by utilizing ocean wave energy/wind energy, so that the wind wave power generation device is not damaged.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of the mounting frame body of the present invention.
Fig. 3 is a schematic structural diagram of the wind wave power generation device of the present invention.
Fig. 4 is a schematic structural diagram of the wind wave power generation device of the present invention.
Fig. 5 is a schematic view of the internal structure of the wind wave power generation device of the present invention.
Fig. 6 is a cross-sectional view of the mounting housing of the present invention.
Fig. 7 is a schematic structural diagram of the wave energy conversion mechanism of the present invention.
Fig. 8 is a view showing the engagement of the switching member and the transmission member of the present invention.
FIG. 9 is a view showing the engagement between an input helical gear and a unidirectional rotating member according to the present invention,
Fig. 10 is a schematic structural view of a unidirectional rotating member of the present invention.
FIG. 11 is a view showing the combination of the rotating shaft, the planetary speed-increasing mechanism and the generator according to the present invention.
Fig. 12 is a schematic view of the internal structure of the planetary speed increasing mechanism of the present invention.
Detailed Description
A method for generating power by using ocean wave energy and wind energy doubly comprises the following steps:
s1: the sea surface waves and makes the wind wave
the wind wave
the wave
the conversion component comprises a first gear shaft, a second gear shaft, an
when the sea surface waves, the
s2: the planetary speed-increasing
the rotating
s3: the top end of the
in the process that the
The invention simultaneously utilizes ocean wave energy and ocean wind energy to generate electricity, and has the advantages of further improving the generating efficiency of the generator and maximally utilizing ocean energy; the wave energy conversion mechanism floats on the water surface, and can generate electricity by utilizing wave energy regardless of the size of sea surface waves, so that the utilization rate of the wave energy is higher; the existence of the unidirectional rotating component enables the rotating shaft to always rotate in accordance with the rotation direction of the rotor when the generator generates electricity, the influence of fluctuation of waves is avoided, and the working efficiency of the generator is better; if the wind waves are too large, the damping protection component arranged on the mounting frame body can counteract partial wave energy/wind energy through the matching of the damping springs I/II in the process that the wind wave power generation device generates power by utilizing ocean wave energy/wind energy, so that the wind wave power generation device is not damaged.
A wind-wave double-power sea surface fixed power station comprises an
One end of the mounting
A shock-absorbing protection member is arranged between the inserting
The shock attenuation protection component include guide bar, damping
The first damping
Preferably, the shock absorbing protection members are arranged in four groups in a circumferential array of the insert posts 110.
In the process that the wind wave
The wind wave
The outer circle surface of the mounting
The two ends of the guide hole along the guide direction are provided with support steps, the support steps are positioned at the hole of the guide hole close to the inner cavity of the mounting
The sealing plate 221 is fixedly installed at an opening of the guide hole, which is far away from the inner cavity of the
The sealing gasket 222 is arranged in the guide hole and is positioned in the area between the sealing plate 221 and the supporting step, the area between the sealing plate 221 and the supporting step and the sealing gasket 222 form sealed sliding guide fit, and the sealing gasket 222 is also provided with a connecting hole communicated with the guide hole/the guide hole.
The wave
The transmission member is arranged in the
The conversion component comprises a first gear shaft and a second gear shaft, the axial directions of the first gear shaft and the second gear shaft are parallel to the water surface, the first gear shaft and the second gear shaft are movably arranged on the mounting bracket and can rotate around the axial direction of the first gear shaft and the second gear shaft, and the second gear shaft is arranged between the first gear shaft and the
The converting member further includes an
The conversion component further comprises a connecting
The converting members are arranged in four groups in an array along the circumferential direction of the
When the sea surface waves, the waves can make the floating
More specifically, in the process that the conversion member utilizes the up-and-down fluctuation of ocean waves to convert the wave energy into mechanical energy for driving the
The one-
The ratchet of
The
The planetary speed-increasing
One side of the
The planetary
The
Preferably, in order to effectively utilize the ocean wind energy generated by the waves and further improve the power generation efficiency, the top end of the
In actual operation, when the sea surface waves, the waves can make the floating
the
in the process of generating power by using ocean wave energy, ocean wind energy generated along with waves simultaneously drives the
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