CN210469162U

CN210469162U - Combined type power station

Info

Publication number: CN210469162U
Application number: CN201921023679.0U
Authority: CN
Inventors: 郑世威
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-07-03
Filing date: 2019-07-03
Publication date: 2020-05-05
Anticipated expiration: 2029-07-03

Abstract

The utility model relates to the field of renewable energy power generation equipment, in particular to a combined power station, which comprises a wind power generation component, a solar power generation component, a tidal power generation component, a connecting pipe, a fixed floating layer and a master controller which are connected in sequence from top to bottom; the solar power generation assembly comprises a floating plate floating on the water surface, a solar panel is laid on the upper end face of the floating plate, the center of the upper end face of a circular plate formed by the floating plate is provided with the wind power generation assembly, the center of the lower end face of the circular plate formed by the floating plate is provided with the connecting pipe, the lower end part of the connecting pipe is connected with the upper end face of a fixed floating layer, the side edge of the floating plate is provided with a cable extending underwater, the lower end part of the cable is connected with the tidal power generation assembly, so that the composite power station can comprehensively utilize solar energy, wind energy and tidal energy to generate power on the sea surface, the power generation efficiency is improved, and the composite power station can continuously generate power in working time.

Description

Combined type power station

Technical Field

The utility model relates to a renewable energy power generation equipment field, in particular to combined type power station.

Background

With the development of renewable energy power generation equipment, common renewable energy sources such as solar energy, wind energy and tidal energy are widely used, power generation equipment developed according to different energy sources is used in different geographic environments, for example, a solar power station is generally located at a position with long sunshine time and high altitude, a wind power station is generally located on a plain with a wide terrain, and a tidal power station is generally located in a coastal area, but a single power station is limited in use, for example, the solar power station can only generate power in the daytime, the wind power station can only generate power when wind power is high, and the renewable energy power station can cause waste of resources occupied by equipment and maintenance cost when power cannot be generated, and a power station capable of being used in rivers, lakes, deserts and flat lands is needed at present.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem of providing a combined type power station that can continuously generate electricity.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a combined power station comprises a wind power generation assembly, a solar power generation assembly, a tidal power generation assembly, a connecting pipe, a fixed floating layer and a master controller which are sequentially connected from top to bottom;

the solar power generation assembly comprises a floating plate, the floating plate floats on the water surface, a solar panel is laid on the upper end face of the floating plate, more than two floating plates are uniformly distributed along the circumference to form a circular plate, the center of the upper end face of the circular plate is provided with the wind power generation assembly, the wind power generation assembly comprises a first cylindrical part, fan blades and a rotating shaft, the first cylindrical part is vertically arranged at the center of the upper end face of the floating plate, the fan blades are arranged around the rotating shaft, the rotating shaft is arranged in the first cylindrical part and is coaxial with the first cylindrical part, a master controller is arranged at the center of the inner part of the circular plate, the connecting pipe is arranged at the center of the lower end face of the circular plate, the lower end part of the connecting pipe is connected with the upper end face of the fixed floating layer, and a cable vertically extending underwater is arranged on the side edge of the floating plate, the lower end part of the cable is connected with the tidal power generation assembly;

the solar energy and tidal power generation combined water-proof fixed floating layer is characterized in that a wind power storage battery, a spectrum storage battery and a tidal power storage battery are arranged in the waterproof fixed floating layer, and the wind power generation assembly, the solar power generation assembly and the tidal power generation assembly are respectively connected with the wind power storage battery, the spectrum storage battery and the tidal power storage battery in a one-to-one correspondence mode through the master controller and the connecting pipes.

Further, the wind power generation assembly further comprises a wind power generator; the wind power generation assembly further comprises a wind power generator; the upper end of the first cylindrical part is in a horn shape, spiral grains towards the bottom of the first cylindrical part are arranged on the inner surface of the side wall of the horn shape, the radius of the first cylindrical part from the top end to the bottom end is gradually reduced, the wind driven generator is fixedly arranged at the opening of the bottom end of the first cylindrical part, the bottom end of the rotating shaft is fixedly connected with the upper end face of the wind driven generator, the rotating shaft is coaxially arranged with the first cylindrical part, the fan blades comprise more than two blades with the same rotating angle, the two fan blades are respectively and fixedly connected with the upper end of the rotating shaft and the middle of the rotating shaft, and the first cylindrical part, the fan blades, the rotating shaft and the wind driven generator form a first wind power.

Further, be equipped with on the circumference lateral wall of the tubaeform upper end of first cylinder spare and gather the energy reflector, wind power generation subassembly still includes second cylinder spare, the one end of second cylinder spare is tubaeform opening, four the other end evenly distributed of second cylinder spare with on the circumference surface of the lower part of first cylinder spare, the axis of second cylinder spare is 45 degrees settings with the axis of first cylinder spare, gather energy reflector, second cylinder spare and aerogenerator constitute second wind power system.

Furthermore, the floating plate is made of plastic, the floating plate can rotate along the axis of the floating plate perpendicular to the rotating shaft, and the first solar power generation system consists of a solar panel and a master controller; be equipped with on the circumference lateral wall of the tubaeform upper end of first cylinder spare and gather ability reflector, the heat pipe of the vertical setting of evenly distributed on the surface of first cylinder spare, the inside of kickboard is equipped with deposits heat and steam generation device, the inside of kickboard is equipped with the cavity, the inside hot water, the hot oil or the steam that account for the third of cavity volume that is equipped with of cavity, the center department of plectane still is equipped with turbo generator, be equipped with cooling system in the fixed showy layer, cooling system includes cold water or air conditioning cooling pond, second solar electric system is gathered ability reflector, heat pipe, deposit heat and steam generation device, cooling system and turbo generator and constitutes.

Further, the floating plate of the solar power generation module is rotatable within a range of 0 to 180 degrees along an axis of the floating plate itself perpendicular to the rotation shaft.

Further, the tidal power generation assembly further comprises a tidal power generator, the tidal power generator comprises an ellipsoidal shell and a core matched with the shell, a plurality of spiral protrusions facing the same direction are arranged on the outer surface of the ellipsoidal shell, the ellipsoidal shell can be wound around the core and can be turned over relatively in 360 degrees along the ellipsoidal shell, the ellipsoidal section of the ellipsoidal shell is vertically long, the ellipsoidal shell is divided into a first shell and a second shell which are symmetrical along the ellipsoidal section by a vertical ellipsoidal section, the N poles of more than two magnets are arranged on the inner surface of the first shell, the distance between the N poles of two adjacent magnets is equal, the distances between the S poles of more than two magnets and the S poles of two adjacent magnets are equal on the inner surface of the second shell, the N poles of the magnets and the S poles of the magnets are symmetrically distributed along the vertical axis of the ellipsoidal shell, the core is an ellipsoidal coil, two end parts of the ellipsoidal coil are vertically and upwards respectively connected with the two cables, the bottom end of each cable is connected with the top end of the tidal generator, more than two tidal generators are symmetrically distributed relative to the center of the rotating shaft, and the tidal generators are connected with the tidal storage battery through the connecting pipes.

Further, on the ellipsoidal shell inner face of the tidal power generator in the tidal power generation assembly, adjacent two the arc center angle that the interval distance of first recess corresponds on the plane at the wide place of ellipsoidal shell is 45 degrees, the ellipsoid type coil that the core formed for a wire bending, set up the first recess that distributes on the length direction of following ellipsoid type coil more than two on the surface of ellipsoid type coil, the internal surface of shell with be equipped with the rubber spheroid between the first recess of ellipsoid type coil, so that ellipsoid type shell can round the core is along the relative upset of 360 degrees on the ellipsoidal shell.

Further, waterproof fixed cursory layer is the hemisphere, hemisphere face up and hemisphere face down, the bottom fixed connection of semicircle plane and connecting pipe and semicircle plane are coaxial with the connecting pipe, the one end fixed connection of hemisphere face and steel cable, the other end of steel cable is equipped with the anchor hook of being connected with the bottom.

Further, fixed floating layer includes upper strata and lower floor, the upper strata on fixed floating layer is for holding the cavity of wind-force battery, spectrum battery and morning and evening tides battery, the lower floor on fixed floating layer is floating system, and floating system includes water storage storehouse and drainage device, the lower terminal surface in water storage storehouse is equipped with exit.

Furthermore, the combined type power station is suitable for rivers, lakes, seas, lands and deserts, the lands and the deserts do not have water conservancy energy sources, so that the tidal power generator assembly is unloaded, and the combined type power station generates power on the lands and the deserts by utilizing the wind energy power generation assembly and the solar energy power generation assembly.

The beneficial effects of the utility model reside in that: in the combined power station, a new connection combination mode of the wind power generation assembly, the solar power generation assembly and the tidal power generation assembly is formed by arranging the wind power generation assembly, the solar power generation assembly, the tidal power generation assembly, the connecting pipe and the fixed floating layer which are sequentially connected from top to bottom, so that the combined power station can comprehensively utilize solar energy, wind energy and tidal power to generate electricity on the sea surface, the power generation efficiency is improved, meanwhile, the combined power station can continuously generate electricity during the working time, and the combined power station can be suitable for multiple types of rivers, lakes, seas, deserts, flat lands and the like.

Drawings

Fig. 1 is a schematic view of a combined power plant according to the present invention;

fig. 2 shows a top view of a combined power plant according to the invention;

fig. 3 is a schematic view of a wind power generation assembly of a compound power station according to the present invention;

fig. 4 is a schematic cross-sectional view of an ellipsoidal housing of a composite power station according to the present invention;

fig. 5 is a schematic view of an ellipsoidal housing of a composite power station according to the present invention;

fig. 6 is a schematic view of an ellipsoidal coil of a composite power station according to the present invention;

description of reference numerals:

1. a wind power generation assembly; 10. a wind power generator; 11. a first cylindrical member; 12. a fan blade; 13. a rotating shaft; 14. a second cylindrical member; 15. a heat conducting pipe; 2. a solar power generation module; 20. a master controller;

21. a floating plate; 22. a solar panel; 3. a tidal power generation assembly; 30. a tidal power generator; 31. an ellipsoidal shell; 310. a spiral protrusion; 311. the N pole of the magnet; 312. the S pole of the magnet; 32. an ellipsoidal coil; 321. a first groove; 33. a rubber sphere; 4. a connecting pipe; 5. fixing the floating layer; 6. a cable; 7. an energy-gathering reflector.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 6, a composite power station of the present invention includes a wind power generation assembly, a solar power generation assembly, a tidal power generation assembly, a connection pipe, a fixed floating layer and a master controller, which are connected in sequence from top to bottom;

From the above description, the beneficial effects of the present invention are: in the combined power station, a new connection combination mode of the wind power generation assembly, the solar power generation assembly and the tidal power generation assembly is formed by arranging the wind power generation assembly, the solar power generation assembly, the tidal power generation assembly, the connecting pipe, the fixed floating layer and the master controller, so that the combined power station can comprehensively utilize solar energy, wind energy and tidal power to generate power on the sea surface, the power generation efficiency is improved, meanwhile, the combined power station can continuously generate power during the working time, and the combined power station can be suitable for multiple types of rivers, lakes, seas, deserts, flat lands and the like.

As can be seen from the above description, in the first wind system, the upper end of the first cylindrical member is set to be in a horn shape, the inner surface of the side wall of the horn shape is provided with spiral lines oriented to the bottom of the first cylindrical member, the radius of the first cylindrical member from the top end to the bottom end is gradually reduced, natural wind is absorbed from the upper end of the first cylindrical member, a vortex is formed in the first cylindrical member along the thread, the fan blade is driven to rotate, so as to drive the rotating shaft to rotate, the wind driven generator generates electricity, and the main controller charges the wind energy storage battery by the current generated by the wind driven generator through the connecting pipe.

As can be seen from the above description, in the second wind system, the second cylindrical member is disposed on the circumferential outer surface of the lower portion of the first cylindrical member, one end of the second cylindrical member is a horn-shaped opening, so that the lower portion of the first cylindrical member can absorb cold air, the outer side wall of the upper end of the first cylindrical member is provided with an energy-gathering reflector, the solar energy is received, so that the temperature of the air at the upper end of the first cylindrical member rises, and the hot air at the upper end of the first cylindrical member and the cold air at the lower portion of the first cylindrical member form backflow in the first cylindrical member, so as to drive the fan blades to rotate, so that the wind driven generator generates electricity, and the electricity generation efficiency of the.

As can be seen from the above description, in the first solar power generation system, the solar panel is arranged on the floating plate, so that the solar panel receives sunlight on the water surface to generate current, the current is charged to the spectrum storage battery through the connecting pipe by the master controller, the floating plate can rotate along the axis of the floating plate perpendicular to the rotating shaft, the angle of receiving the sunlight on the floating plate can be adjusted along with the rising and falling of the sun in one day, and the horn-shaped upper end of the first cylindrical member is provided with the energy-gathering reflector, so that the sunlight is reflected to the solar panel on the upper end surface of the floating plate, and the sunlight is received and utilized secondarily, thereby improving the utilization rate of solar power generation; in the second solar power generation system, the energy-collecting reflector absorbs solar energy to raise the temperature of the energy-collecting reflector, high temperature is conducted to the heat storage and steam generation device through the heat conduction pipe, hot water, hot oil or hot gas occupying one third of the volume of the cavity is heated to generate steam, a turbine generator is driven to generate power through traditional thermodynamic cycle, the hot water, the hot oil or the hot gas carries out heat exchange with the interior of the cooling system through the connecting pipe, the temperature of a medium is reduced, and therefore the cycle is completed, and therefore the second solar power generation system can absorb heat to generate power.

As can be seen from the above description, when the floating plate rotates in the range of 0 to 180 degrees along the axis of the floating plate itself perpendicular to the rotation axis, a part of the solar panel always faces upward of the water, receiving the sunlight, so that the solar panel receives the solar energy to the maximum extent.

As can be seen from the above description, by providing the N-pole and S-pole of the magnet on the inner surface of the ellipsoidal housing, the core inside the ellipsoidal housing is an ellipsoidal coil, the ellipsoidal shell can be relatively flipped around the ellipsoidal coil along 360 degrees of the ellipsoidal shell, the utility model discloses a tidal power generation device, including ellipsoid type shell, the surface of ellipsoid type shell is equipped with a plurality of spiral archs towards the same direction of orientation, and ellipsoid type shell is under tidal current' S effect, and tidal current drives ellipsoid type shell and moves towards spiral bellied direction, and the continuous 360 degrees upsets along ellipsoid type shell makes the magnetic induction line that the N utmost point and the S utmost point on the shell formed and ellipsoid type coil take place relative displacement, and ellipsoid type coil cutting magnetic induction line produces electric current on the coil, and tidal power generation machine passes through the cable transmission with the electric current that produces arrive on the kickboard, and the main controller charges.

From the above description, through the first grooves distributed along the length direction of the ellipsoidal coil are arranged on the outer surface of the ellipsoidal coil, and the rubber ball is arranged between the inner surface of the housing and the first grooves of the ellipsoidal coil, the ellipsoidal housing can turn around the ellipsoidal coil along 360 degrees of the ellipsoidal housing, so that the tidal generator generates electricity.

From the above-mentioned description can know, waterproof fixed cursory layer is the hemisphere, and the semicircle plane of hemisphere up and hemisphere face down make the hemisphere have the ability of come-up in aqueous, and the hemisphere face of hemisphere is connected with the steel cable, and the anchor catch of rethread steel cable is fixed at the bottom to make combined type power station can not drift along with the rivers.

From the above description, the lower layer of the fixed floating layer is a floating system, the floating system comprises a water storage bin and a drainage device, the lower end surface of the water storage bin is provided with an inlet and an outlet, when the depth of the fixed floating layer in water needs to be adjusted, the inlet and the outlet on the lower end surface of the water storage bin are opened, water enters the water storage bin, the fixed floating layer can descend, and the drainage device discharges water from the inlet and the outlet, so that the fixed floating layer can ascend.

Referring to fig. 1 to 6, a first embodiment of the present invention is:

a combined power station comprises a wind power generation assembly 1, a solar power generation assembly 2, a tidal power generation assembly 3, a connecting pipe 4, a fixed floating layer 5 and a master controller 20 which are sequentially connected from top to bottom;

the solar power generation assembly 2 comprises a floating plate 21, the floating plate 21 floats on the water surface, a solar panel 22 is laid on the upper end surface of the floating plate 21, more than two circular plates are formed by uniformly distributing the floating plate 21 along the circumference, the center of the upper end surface of the floating plate 21 is provided with the wind power generation assembly 1, the wind power generation assembly 1 comprises a first cylindrical part 11, a fan blade 12 and a rotating shaft 13, the first cylindrical body is vertically arranged at the center of the upper end surface of the floating plate 21, the fan blade 12 is arranged around the rotating shaft 13, the rotating shaft 13 is arranged inside the first cylindrical part 11 and the rotating shaft 13 is coaxial with the first cylindrical part 11, the center of the lower end surface of the floating plate 21 is provided with a connecting pipe 4, the lower end part of the connecting pipe 4 is connected with the upper end surface of the fixed floating layer 5, the connecting pipe 4 is a stainless steel pipe, the center of the floating plate 21 and the center of the floating fixed layer are positioned on the same axis through the connecting pipe 4, the side edge of the floating plate 21 is provided with a cable 6 which extends vertically underwater, the outer surface of the cable 6 is wrapped with a steel cable, the steel cable plays a role in supporting and protecting the cable 6, and the lower end part of the cable 6 is connected with the tidal power generation assembly 3;

the waterproof fixed floating layer 5 is internally provided with a wind power storage battery, a spectrum storage battery and a tidal power storage battery, and the wind power generation assembly 1, the solar power generation assembly 2 and the tidal power generation assembly 3 are respectively connected with the wind power storage battery, the spectrum storage battery and the tidal power storage battery in a one-to-one correspondence manner through the connecting pipes 4.

The wind power generation assembly 1 further comprises a wind power generator 10; the wind power generation assembly 1 further comprises a wind power generator 10; the upper end of the first cylindrical part 11 is in a horn shape, spiral grains towards the bottom of the first cylindrical part 11 are arranged on the inner surface of the side wall of the horn shape, so that the first cylindrical part 11 guides the airflow at the upper part to the lower part, the radius of the first cylindrical part 11 from the top end to the bottom end is gradually reduced, the wind driven generator 10 is fixedly arranged at an opening at the bottom end of the first cylindrical part 11, the bottom end of the rotating shaft 13 is fixedly connected with the upper end surface of the wind driven generator 10, the rotating shaft 13 is coaxially arranged with the first cylindrical part 11, the fan blades 12 comprise more than two blades with the same rotating angle, the two fan blades 12 are respectively and fixedly connected with the upper end of the rotating shaft 13 and the middle part of the rotating shaft 13, and the first cylindrical part 11, the fan blades 12, the rotating shaft 13 and the wind driven generator 10 form a first; in a first wind power system, the upper end of a first cylindrical part 11 is arranged to be horn-shaped, spiral grains towards the bottom of the first cylindrical part 11 are arranged on the inner surface of the side wall of the horn-shaped part, the radius of the first cylindrical part 11 from the top end to the bottom end is gradually reduced, natural wind is absorbed from the upper end of the first cylindrical part 11, a vortex is formed in the first cylindrical part along threads, a fan blade 12 is driven to rotate, a rotating shaft 13 is driven to rotate, the wind driven generator 10 is driven to generate power, and the master controller 20 charges the wind energy storage battery by enabling the wind driven generator 10 to generate current through a connecting pipe 4.

The energy-gathering reflector 7 is arranged on the circumferential outer side wall of the horn-shaped upper end of the first cylinder 11, the wind power generation assembly 1 further comprises a second cylinder 14, one end of the second cylinder 14 is a horn-shaped opening, the other ends of the four second cylinders 14 are uniformly distributed on the circumferential outer surface of the lower portion of the first cylinder 11, the axis of the second cylinder 14 and the axis of the first cylinder 11 are arranged at an angle of 45 degrees, and the first cylinder 11, the energy-gathering reflector 7, the second cylinder 14 and the wind power generator 10 form a second wind power system; in the second wind power system, the second cylindrical member 14 is arranged on the circumferential outer surface of the lower part of the first cylindrical member 11, one end of the second cylindrical member 14 is a horn-shaped opening, so that the lower part of the first cylindrical member 11 can absorb cold air, the outer side wall of the upper end of the first cylindrical member 11 is provided with an energy-gathering reflector 7, the solar energy is received, the temperature of the air at the upper end of the first cylindrical member 11 is increased, the hot air at the upper end of the first cylindrical member 11 and the cold air at the lower section form backflow in the first cylindrical member 11, so that the fan blades 12 are driven to rotate, the wind driven generator 10 generates electricity, and the electricity generation efficiency of the wind driven generator is further improved.

The floating plate 21 is made of plastic, the floating plate 21 can rotate in a range of 0-180 degrees along the axis of the floating plate perpendicular to the rotating shaft 13, and the first solar power generation system is composed of a solar panel 22 and a master controller 20; the solar energy power generation system comprises a first cylindrical part, a second cylindrical part and a third cylindrical part, wherein the outer side wall of the circumference of the upper end of the first cylindrical part in the shape of a horn is provided with an energy-gathering reflector 7, the outer surface of the first cylindrical part is uniformly provided with heat conducting pipes 15 which are vertically arranged, the inner part of a floating plate is provided with a heat storage and steam generation device, the inner part of the floating plate is provided with a cavity, the inner part of the cavity is provided with hot water, hot oil or hot gas which accounts for one third of the volume of the cavity, the center of the circular plate is also provided with a turbine generator, a cooling system is arranged in the fixed floating layer and comprises a cold water or cold air cooling pool, and the second solar power generation system consists of the energy-gathering;

in the first solar power generation system, the solar panel 22 is arranged on the floating plate 21, so that the solar panel 22 receives sunlight on the water surface to generate current, the general controller 20 charges the spectrum storage battery through the connecting pipe, the floating plate 21 can rotate along the axis of the floating plate 21 perpendicular to the rotating shaft, the angle of receiving the sunlight can be adjusted on the floating plate 21 along with the rising and falling of the sun in one day, and the horn-shaped upper end of the first cylindrical piece is provided with the energy-gathering reflector 7, so that the sunlight is reflected to the solar panel 22 on the upper end surface of the floating plate to be received and utilized secondarily, and the utilization rate of solar power generation is improved; in the second solar power generation system, the energy-collecting reflector 7 absorbs solar energy to raise the temperature of the energy-collecting reflector, high temperature is conducted to the heat storage and steam generation device through the heat conduction pipe 15, hot water, hot oil or hot gas which occupies one third of the volume of the cavity is heated to generate steam, a turbonator is driven to generate power through the traditional thermodynamic cycle, the hot water, the hot oil or the hot gas carries out heat exchange with the inside of the cooling system through the connecting pipe 4, the temperature of a medium is reduced, and therefore the cycle is completed, and therefore the second solar power generation system can absorb heat and store the heat, and can generate power at night.

The tidal power generation assembly 3 further comprises a tidal power generator 30, the tidal power generator 30 comprises an ellipsoidal shell 31 and a core matched with the shell, as shown in fig. 5, a plurality of spiral protrusions 310 facing the same direction are arranged on the outer surface of the ellipsoidal shell, tidal current drives the ellipsoidal shell to move towards the direction of the spiral protrusions 310, the ellipsoidal shell 31 can turn around the core along the ellipsoidal shell 31 within 360 degrees, the elliptical cross section of the ellipsoidal shell 31 is vertically arranged, the ellipsoidal shell 31 is divided into a first shell and a second shell which are symmetrical along the ellipsoidal cross section by a vertical ellipsoidal cross section, as shown in fig. 4, the N poles 311 of more than two magnets are arranged on the inner surface of the first shell, the distance between the N poles 311 of two adjacent magnets is equal, the S poles 312 of more than two magnets are arranged on the inner surface of the second shell, and the distance between the S poles 312 of two adjacent magnets is equal, the N pole 311 of the magnet and the S pole 312 of the magnet are symmetrically distributed along the vertical axis of the ellipsoidal shell 31, the core is an ellipsoidal coil 32, two end parts of the ellipsoidal coil 32 are respectively connected with the two cables 6 vertically upwards, the bottom end of each cable 6 is connected with the top end of the tidal power generator 30, more than two tidal power generators 30 are symmetrically distributed relative to the center of the rotating shaft 13, and the tidal power generators 30 are connected with the tidal storage battery through the connecting pipes 4;

the power generation principle of the tidal power generation assembly 3 is as follows: under the action of tidal current, the ellipsoidal shell 31 is continuously turned over along 360 degrees of the ellipsoidal shell 31, so that a magnetic induction line formed by an N pole and an S pole on the shell and the ellipsoidal coil 32 are relatively displaced, the ellipsoidal coil 32 cuts the magnetic induction line to generate current on the coil, the tidal generator 30 transmits the generated current to the floating plate 21 through the cable 6, and the main controller 20 charges a tidal storage battery through the connecting pipe 4 by the current generated by the tidal generator 30.

On the inner surface of the ellipsoidal shell 31 of the tidal power generator 30 in the tidal power generation assembly 3, the distance between two adjacent first grooves 321 is 45 degrees at the arc center angle corresponding to the plane where the width of the ellipsoidal shell 31 is located, as shown in fig. 6, the core is an ellipsoidal coil 32 formed by bending one conducting wire, the outer surface of the ellipsoidal coil 32 is provided with more than two first grooves 321 distributed along the length direction of the ellipsoidal coil 32, and a rubber sphere 33 is arranged between the inner surface of the shell and the first grooves 321 of the ellipsoidal coil 32, so that the ellipsoidal shell 31 can be relatively turned around the core along the ellipsoidal shell by 360 degrees; the first grooves 321 distributed along the length direction of the ellipsoidal coil 32 are formed in the outer surface of the ellipsoidal coil 32, and the rubber ball 33 is arranged between the inner surface of the housing and the first grooves 321 of the ellipsoidal coil 32, so that the ellipsoidal housing 31 can turn around the ellipsoidal coil 32 along 360 degrees of the ellipsoidal housing 31, and the tidal power generator 30 generates power.

Waterproof fixed cursory layer 5 is the semicircle spheroid, semicircle spheroid's semicircle plane up and semicircle face down make the semicircle spheroid have the ability of come-up in aqueous, semicircle plane and the bottom fixed connection of connecting pipe 4 and semicircle plane are coaxial with connecting pipe 4, the one end fixed connection of semicircle sphere and steel cable, the other end of steel cable is equipped with the anchor hook of being connected with the bottom to make the combined type power station can not drift along with the rivers.

The fixed floating layer 5 comprises an upper layer and a lower layer, the upper layer of the fixed floating layer 5 is a chamber for accommodating the wind power storage battery, the spectrum storage battery and the tide storage battery, the lower layer of the fixed floating layer 5 is a floating system, the floating system comprises a water storage bin and a drainage device, and an inlet and an outlet are formed in the lower end face of the water storage bin; when the depth of the fixed floating layer 5 in water needs to be adjusted, an inlet and an outlet on the lower end surface of the water storage bin are opened, water enters the water storage bin, the fixed floating layer 5 can descend, and the water is discharged from the inlet and the outlet by the drainage device, so that the fixed floating layer 5 can ascend.

The combined type power station is suitable for rivers, lakes, seas, lands and deserts, and the lands and the deserts do not have water conservancy energy sources, so that the tidal power generator assembly is unloaded, and the combined type power station generates power on the lands and the deserts by utilizing the wind power generation assembly and the solar power generation assembly.

To sum up, the utility model provides a solar energy power generation device which comprises a wind energy power generation component, a solar energy power generation component, a tidal power generation component, a connecting pipe, a fixed floating layer and a master controller which are connected in sequence from top to bottom; natural wind in the wind power generation assembly enters from the horn-shaped upper end of the first cylindrical part and drives the fan blades to rotate so as to generate power, sunlight in the solar power generation assembly irradiates on the solar panel on the upper end face of the floating plate, the floating plate can adjust the position for receiving solar energy so as to generate solar power, tidal current in the tidal power generation assembly drives the shell and the core of the tidal power generator to do relative rotation motion, so that the coil cuts the magnetic induction lines to generate current, and the tidal power generation is performed; the novel connection combination mode of the wind power generation assembly, the solar power generation assembly and the tidal power generation assembly is formed, so that the composite power station can comprehensively utilize solar energy, wind energy and tidal power to generate power on the sea surface, the power generation efficiency is improved, meanwhile, the composite power station can continuously generate power in the working time, and the power station can be suitable for various types such as rivers, lakes, seas, deserts, flat lands and the like.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims

1. A composite power station is characterized by comprising a wind power generation assembly, a solar power generation assembly, a tidal power generation assembly, a connecting pipe, a fixed floating layer and a master controller which are sequentially connected from top to bottom;

the fixed floating layer is internally provided with a wind power storage battery, a spectrum storage battery and a tide storage battery, and the wind power generation assembly, the solar power generation assembly and the tide power generation assembly are respectively connected with the wind power storage battery, the spectrum storage battery and the tide storage battery in a one-to-one correspondence manner through the master controller and the connecting pipes.

2. The compound power plant of claim 1, wherein the wind power generation assembly further comprises a wind power generator; the upper end of the first cylindrical part is in a horn shape, spiral grains towards the bottom of the first cylindrical part are arranged on the inner surface of the side wall of the horn shape, the radius of the first cylindrical part from the top end to the bottom end is gradually reduced, the wind driven generator is fixedly arranged at the opening of the bottom end of the first cylindrical part, the bottom end of the rotating shaft is fixedly connected with the upper end face of the wind driven generator, the rotating shaft is coaxially arranged with the first cylindrical part, the fan blades comprise more than two blades with the same rotating angle, the two fan blades are respectively and fixedly connected with the upper end of the rotating shaft and the middle of the rotating shaft, and the first cylindrical part, the fan blades, the rotating shaft and the wind driven generator form a first wind power.

3. The composite power plant according to claim 2, wherein the first cylindrical member is provided with energy-concentrating reflectors on a circumferential outer side wall of a trumpet-shaped upper end, the wind power generation assembly further comprises a second cylindrical member, one end of the second cylindrical member is provided with a trumpet-shaped opening, the other ends of the four second cylindrical members are uniformly distributed on a circumferential outer surface of a lower portion of the first cylindrical member, an axis of the second cylindrical member is arranged at an angle of 45 degrees with an axis of the first cylindrical member, and the first cylindrical member, the energy-concentrating reflectors, the second cylindrical member and the wind power generator form a second wind power system.

4. The hybrid power plant according to claim 1, characterized in that the floating plate is made of plastic and is rotatable along its own axis perpendicular to the rotation axis, and the solar power generation assembly comprises a first solar power generation system and a second solar power generation system, the first solar power generation system being composed of a solar panel and a master controller; be equipped with on the circumference lateral wall of the tubaeform upper end of first cylinder spare and gather ability reflector, the heat pipe of the vertical setting of evenly distributed on the surface of first cylinder spare, the inside of kickboard is equipped with deposits heat and steam generation device, the inside of kickboard is equipped with the cavity, the inside hot water, the hot oil or the steam that account for the third of cavity volume that is equipped with of cavity, the center department of plectane still is equipped with turbo generator, be equipped with cooling system in the fixed showy layer, cooling system includes cold water or air conditioning cooling pond, second solar electric system is gathered ability reflector, heat pipe, deposit heat and steam generation device, cooling system and turbo generator and constitutes.

5. The compound power plant of claim 4, characterized in that the floating plate of the solar power assembly is rotatable in the range of 0 to 180 degrees along the axis of the floating plate itself perpendicular to the rotation shaft.

6. The composite power plant of claim 1, wherein the tidal power module further comprises a tidal power generator, the tidal power generator comprises an ellipsoidal shell and a core adapted to the shell, the outer surface of the ellipsoidal shell is provided with a plurality of spiral protrusions facing the same direction, the ellipsoidal shell can be turned around the core 360 degrees relative to the ellipsoidal shell, the ellipsoidal shell has a vertically long elliptical cross section, the ellipsoidal shell is divided into a first shell and a second shell symmetrical to each other along the ellipsoidal cross section by a vertical ellipsoidal cross section, the inner surface of the first shell is provided with N poles of two or more magnets and the distance between the N poles of two adjacent magnets is equal, the inner surface of the second shell is provided with S poles of two or more magnets and the distance between the S poles of two adjacent magnets is equal, the N pole of the magnet and the S pole of the magnet are symmetrically distributed along the vertical axis of the ellipsoidal shell, the core is an ellipsoidal coil, two end parts of the ellipsoidal coil are vertically and upwards connected with the two cables respectively, the bottom end of each cable is connected with the top end of the tidal power generator, and the tidal power generators are symmetrically distributed relative to the center of the rotating shaft.

7. The composite power station of claim 6, wherein the first grooves are disposed on the outer surface of the ellipsoidal coil, the distance between two adjacent first grooves is 45 degrees relative to the plane of the ellipsoidal shell, the core is an ellipsoidal coil formed by bending a conductive wire, the outer surface of the ellipsoidal coil is disposed with two or more first grooves disposed on the outer surface of the ellipsoidal coil, and a rubber ball is disposed between the inner surface of the housing and the first grooves of the ellipsoidal coil, so that the ellipsoidal shell can be relatively turned around the core along the ellipsoidal shell by 360 degrees.

8. The compound power plant according to claim 1, characterized in that the fixed buoyant layer is a semi-sphere with its semi-circular plane facing upwards and semi-circular plane facing downwards, the semi-circular plane being fixedly connected to the bottom end of the connecting pipe and the semi-circular plane being coaxial with the connecting pipe, the semi-circular sphere being fixedly connected to one end of a steel cable, the other end of the steel cable being provided with an anchor hook connected to the water bottom.

9. The combined power plant of claim 1, wherein the fixed buoyant layer comprises an upper layer and a lower layer, the upper layer of the fixed buoyant layer is a chamber for accommodating the wind power storage battery, the spectrum storage battery and the tide storage battery, the lower layer of the fixed buoyant layer is a floating system, the floating system comprises a water storage bin and a drainage device, and the lower end surface of the water storage bin is provided with an inlet and an outlet.