CN211648365U

CN211648365U - Novel small three-dimensional solar energy, wind energy and water energy power generation device

Info

Publication number: CN211648365U
Application number: CN201922444446.4U
Authority: CN
Inventors: 贾瓦德; 陈建明
Original assignee: Xuzhou University of Technology
Current assignee: Xuzhou University of Technology
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-10-09
Anticipated expiration: 2029-12-30

Abstract

The utility model discloses a novel small three-dimensional solar, wind and water power generation device, which comprises a hydroelectric generation set, a wind power generation set, a solar power generation set and a power transmission and transformation device, wherein the hydroelectric generation set comprises a hydroelectric generator, a motor frame, turbine blades and a fairing, the wind power generation set comprises a fan mounting seat and a wind power generator, the solar power generation set comprises a solar power generation panel and a rotating disc, the hydroelectric generation set can adjust the position of the solar power generation panel according to the height of a water level, the angle of the solar power generation set can be adjusted according to different directions, so that the solar power generation panel can receive enough sunlight, then the electric power of each power generation set is input into a storage battery through each rectifier, and the electric energy in the storage battery can be output to a user house through an inverter, the device is simple and practical, is convenient to install and transport, and can meet the power generation requirements of various terrains simultaneously, can effectively help people in remote areas to generate electric energy by utilizing natural resources, and improve life.

Description

Novel small three-dimensional solar energy, wind energy and water energy power generation device

Technical Field

The utility model relates to an electric power system specifically is a novel small-size three-dimensional solar energy, wind energy and hydroenergy power generation facility.

Background

In remote hilly areas, high altitude areas and nearby rivers and canal flows are often fast, which allows for constant air (wind) flow. It is also known that solar energy can be harvested during the day. This creates a unique opportunity to harvest the energy of these three natural forces on the bank to generate electricity. The invention provides a small three-dimensional power generation device based on solar energy, wind energy and water energy, which takes the fact as the research focus. In addition to the above benefits, the device is also very useful in remote areas of the world, which are often difficult to power from the national grid due to remote distances and terrain difficulties.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a novel small three-dimensional solar, wind and water power generation device is provided aiming at the defects of the prior art, which comprises a hydroelectric generation set, a wind power generation set, a solar power generation set and a power transmission and transformation device, wherein the hydroelectric generation set comprises a hydroelectric generator, a motor frame, turbine blades and a fairing, the hydroelectric generator is provided with a rotating shaft, the top end of the rotating shaft is provided with the turbine blades, the hydroelectric generator is fixed on the upper surface of the motor frame through screws, the side surface of the motor frame is provided with a fairing installation seat, the fairing installation seat is provided with the fairing, the fairing is in a horn shape, the top end of the rotating shaft passes through the fairing installation seat and extends into the fairing, the turbine blades can rotate in the fairing without obstacles, the lower surface of the motor frame is provided with a positioning sleeve, the positioning sleeve is provided with a, a plurality of second positioning through holes are axially formed in the equipment positioning rod, first positioning screws are arranged in the first positioning through holes and the second positioning through holes, a mounting boss is arranged on the side surface, parallel to the rotating shaft, of the motor frame, a fan mounting bracket is arranged on the mounting boss, the fan mounting bracket is shaped like a Chinese character ji, and a wind power generation set is arranged on the fan mounting bracket;

the wind power generation set comprises a fan mounting seat and a wind power generator, wherein a fixing bottom plate is arranged at the bottom of the fan mounting seat, the fixing bottom plate and a fan mounting bracket are fixed together through a fastening screw, a fan rotating shaft is arranged at the top end of the fan mounting seat, the wind power generator is mounted on the fan rotating shaft, a rotating bottom plate is arranged on the fan mounting seat at a position far away from the fan rotating shaft, a plurality of first positioning pin holes are formed in the rotating bottom plate, the first positioning pin holes are uniformly distributed around the central axis of the fan mounting seat, and the rotating bottom plate is provided with a;

the solar power generation set comprises a solar power generation plate and a rotating disc, wherein rotating bosses are symmetrically arranged on the side surface of the solar power generation plate, second positioning pin holes are formed in the middle positions of the rotating bosses, rotating through holes are formed in the positions, far away from the solar power generation plate, of the rotating bosses, 2 positioning bosses and 2 solar panel rotating shafts are symmetrically arranged on the rotating disc along the axis, third positioning pin holes are formed in the positioning bosses, square positioning bosses are arranged at the top ends of the solar panel rotating shafts, fixing threaded holes are formed in the square positioning bosses, fixing discs are arranged on the square positioning bosses, a plurality of fourth positioning pin holes are uniformly distributed in the fixing discs along the axis, the solar panel rotating shafts are in rotating fit with the rotating through holes, first positioning pins are arranged in the first positioning pin holes and the third positioning pin holes, second positioning pins are arranged in the second positioning pin holes and;

the solar photovoltaic power generation system comprises a photovoltaic power generation set, a first rectifier, a second rectifier, a solar power generation set, a storage battery, a power transmission line, a first rectifier, a second rectifier, a third rectifier, a storage battery input end, a storage battery output end, an inverter output end and a user power grid.

In the technical scheme, a hydroelectric generation set is arranged in a river, the hydroelectric generation set is fixed in the river by four equipment positioning rods on an electric rack, the position of a first positioning screw rod can be adjusted according to the water level of the river, the hydroelectric generation set is ensured to be in a proper water level, a fairing on the hydroelectric generation set is in a horn shape and is fixed on a fairing mounting seat by screws, a turbine blade is arranged on a rotating shaft of the hydroelectric generator, the turbine blade is positioned in the fairing and is close to a water outlet, and water flow in the river can push the turbine blade to drive the hydroelectric generator to rotate so as to generate electric energy, specifically, the water flow enters from a large opening of the fairing and flows out from a small opening of the fairing, and the fairing can increase the water flow speed at the turbine blade so as to increase the rotating speed of the rotating shaft as much as possible so as to generate more electric energy, in addition, a wind power generation set is arranged on the fan mounting bracket; in the wind power generation set, a wind driven generator is arranged on a fan rotating shaft on a fan mounting seat and can rotate along with the wind direction, so that the wind driven generator can generate more electric energy; the solar power generation set comprises a solar power generation panel and a rotating disc, wherein a third positioning pin hole is formed in the rotating disc, the rotating disc can freely rotate on a rotating bottom plate, specific positions are determined through a first positioning pin arranged in the first positioning pin hole and the third positioning pin hole, a rotating boss is arranged on the solar power generation panel, a rotating through hole is formed in the rotating boss, the rotating through hole is matched with a solar panel rotating shaft on the rotating disc, so that the solar power generation panel can freely rotate around the solar panel rotating shaft, and the positions can be determined through a second positioning pin arranged in the second positioning pin hole and a second positioning pin arranged in the fourth positioning pin hole, so that the solar power generation panel can always receive sufficient sunlight; in addition, electric energy generated by the hydroelectric generation set and the wind generation set is alternating current, the electric energy is converted into direct current after being processed by the first rectifier and the second rectifier and is led into the storage battery for storage, the electric energy generated by the solar power generation set is direct current, the direct current is low in voltage and low in current, the direct current is not beneficial to direct use, the electric energy is processed by the third rectifier and boosted and then can be led into the storage battery for storage, the current in the storage battery is processed by the inverter and then is converted into alternating current, and the alternating current can be connected into a user power grid for household appliances such as;

the utility model discloses the technical scheme who further injects is:

the rib plate is arranged on the motor frame and can be used for enhancing the connection strength between the motor frame and the rectification mounting base;

the utility model has the advantages that: the hydroelectric generation set is arranged in a river, the hydroelectric generation set is fixed in the river by four equipment positioning rods on an electric rack, the position of a first positioning screw rod can be adjusted according to the water level of the river, the hydroelectric generation set is ensured to be in a proper water level, a fairing on the hydroelectric generation set is horn-shaped and is fixed on a fairing mounting seat by screws, a rotating shaft of the hydroelectric generator is provided with turbine blades, the turbine blades are positioned in the fairing and are close to a water flow outlet, water flow in the river can push the turbine blades to drive the hydroelectric generator to rotate, so as to generate electric energy, particularly, the water flow enters from a large opening of the fairing and flows out from a small opening of the fairing, and the fairing can increase the water flow speed at the turbine blades, so that the rotating speed of the rotating shaft is increased as much as possible, so as to generate more electric energy, in addition, the fan mounting bracket is provided with a wind power generation set; in the wind power generation set, a wind driven generator is arranged on a fan rotating shaft on a fan mounting seat and can rotate along with the wind direction, so that the wind driven generator can generate more electric energy; the solar power generation set comprises a solar power generation panel and a rotating disc, wherein a third positioning pin hole is formed in the rotating disc, the rotating disc can freely rotate on a rotating bottom plate, specific positions are determined through a first positioning pin arranged in the first positioning pin hole and the third positioning pin hole, a rotating boss is arranged on the solar power generation panel, a rotating through hole is formed in the rotating boss, the rotating through hole is matched with a solar panel rotating shaft on the rotating disc, so that the solar power generation panel can freely rotate around the solar panel rotating shaft, and the positions can be determined through a second positioning pin arranged in the second positioning pin hole and a second positioning pin arranged in the fourth positioning pin hole, so that the solar power generation panel can always receive sufficient sunlight; in addition, electric energy generated by the hydroelectric generation set and the wind generation set is alternating current, the electric energy is converted into direct current after being processed by the first rectifier and the second rectifier and is led into the storage battery for storage, the electric energy generated by the solar generation set is direct current, the direct current is low in voltage and low in current, the electric energy is not beneficial to direct use, the electric energy is processed by the third rectifier and can be led into the storage battery for storage, the current in the storage battery is converted into alternating current after being processed by the inverter, the alternating current can be connected into a user power grid for household appliances such as lamps and televisions, in addition, the motor frame is provided with the rib plates, and the rib plates can be used for enhancing the.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a front view of the present invention;

fig. 3 is a side view of the present invention;

FIG. 4 is a schematic view of a hydraulic power generation set of the present invention;

fig. 5 is a top view of the hydroelectric power generation set of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 4 at I;

FIG. 7 is a schematic structural view of a wind power generation set;

FIG. 8 is a side view of a wind power generation unit;

3 FIG. 3 9 3 is 3 a 3 schematic 3 view 3 taken 3 at 3 A 3- 3 A 3 of 3 FIG. 3 8 3; 3

FIG. 10 is a schematic view of a solar power generation set;

FIG. 11 is a side view of a solar power generation stack;

FIG. 12 is a top view of a solar power generation stack;

FIG. 13 is an enlarged view of a portion of FIG. 10 at II;

FIG. 14 is a schematic view at B-B of FIG. 11;

FIG. 15 is a schematic view at C-C of FIG. 14;

FIG. 16 is an enlarged view of a portion of FIG. 12 at III;

fig. 17 is a schematic diagram of the circuit structure of the device of the present invention;

wherein: 1-hydroelectric generator, 1-1-rotating shaft, 2-motor frame, 2-1-rectifying mounting seat, 2-2-positioning sleeve, 2-2-1-first positioning through hole, 2-3-mounting boss, 3-turbine blade, 4-rectifying cover, 5-fan mounting bracket, 6-ribbed plate, 7-equipment positioning rod, 7-1-second positioning through hole, 8-first positioning screw, 9-fan mounting seat, 9-1-fixed bottom plate, 9-2-rotating bottom plate, 9-2-1-first positioning pin hole, 9-3-fan rotating shaft, 10-wind driven generator, 11-solar power generation plate, 11-1-rotating boss, 2-wind driven generator, 6-ribbed plate, 7-equipment positioning rod, 9-1-second positioning through hole, 9-first positioning screw, 9-fan mounting seat, 9-2-rotating bottom plate, 11-1-1-second positioning pin hole, 11-1-2-rotating through hole, 12-rotating disc, 12-1-positioning boss, 12-2-solar panel rotating shaft, 12-2-1-square positioning boss, 12-2-2-fixing threaded hole, 12-3-third positioning pin hole, 13-first positioning pin, 14-fixing disc, 14-1-fourth positioning pin hole, 15-fixing screw, 16-second positioning pin, 17-first rectifier, 18-second rectifier, 19-third rectifier, 20-power transmission line, 21-storage battery and 22-inverter.

Detailed Description

The present invention will be explained in further detail below;

example 1

The embodiment provides a novel small three-dimensional solar, wind and water power generation device, which comprises a hydroelectric generation set, a wind power generation set, a solar power generation set and a power transmission and transformation device, wherein the hydroelectric generation set comprises a hydroelectric generator 1, a motor frame 2, turbine blades 3 and a fairing 4, the hydroelectric generator 1 is provided with a rotating shaft 1-1, the top end of the rotating shaft 1-1 is provided with the turbine blades 3, the hydroelectric generator 1 is fixed on the upper surface of the motor frame 2 through screws, the side surface of the motor frame 2 is provided with a fairing mounting seat 2-1, the fairing mounting seat 2-1 is provided with the fairing 4, the fairing 4 is in a horn shape, the top end of the rotating shaft 1-1 penetrates through the fairing mounting seat 2-1 and extends into the fairing 4, the turbine blades 3 can rotate in the fairing 4 without obstacles, the lower surface of the motor frame 2 is provided with a positioning, a first positioning through hole 2-2-1 is formed in the positioning sleeve 2-2, an equipment positioning rod 7 is arranged in the positioning sleeve 2-2, a plurality of second positioning through holes 7-1 are axially formed in the equipment positioning rod 7, a first positioning screw 8 is arranged in each of the first positioning through holes 2-2-1 and the second positioning through holes 7-1, a mounting boss 2-3 is arranged on the side surface, parallel to the rotating shaft 1-1, of the motor frame 2, a fan mounting bracket 5 is arranged on the mounting boss 2-3, the fan mounting bracket 5 is in a shape like a Chinese character 'ji', and a wind power generation set is arranged on the fan mounting bracket 5;

the wind power generation set comprises a fan mounting seat 9 and a wind power generator 10, wherein a fixed bottom plate 9-1 is arranged at the bottom of the fan mounting seat 9, the fixed bottom plate 9-1 and a fan mounting bracket 5 are fixed together through fastening screws, a fan rotating shaft 9-3 is arranged at the top end of the fan mounting seat 9, the wind power generator 10 is arranged on the fan rotating shaft 9-3, a rotating bottom plate 9-2 is arranged at a position, far away from the fan rotating shaft 9-3, on the fan mounting seat 9, a plurality of first positioning pin holes 9-2-1 are formed in the rotating bottom plate 9-2, the first positioning pin holes 9-2-1 are uniformly distributed around the central axis of the fan mounting seat 9, and a solar power generation set is arranged on the rotating bottom plate 9;

the solar power generation set comprises a solar power generation plate 11 and a rotating disc 12, wherein a rotating boss 11-1 is symmetrically arranged on the side surface of the solar power generation plate 11, a second positioning pin hole 11-1-1 is arranged at the middle position on the rotating boss 11-1, a rotating through hole 11-1-2 is arranged at the position, far away from the solar power generation plate 11, of the rotating boss 11-1, 2 positioning bosses 12-1 and 2 solar panel rotating shafts 12-2 are symmetrically arranged on the rotating disc 12 along the axis, a third positioning pin hole 12-3 is arranged on the positioning boss 12-1, a square positioning boss 12-2-1 is arranged at the top end of the solar panel rotating shaft 12-2, a fixed threaded hole 12-2-2 is arranged on the square positioning boss 12-2-1, and a fixed disc 14 is arranged on the square positioning boss 12-2-, a plurality of fourth positioning pin holes 14-1 are uniformly distributed on the fixed disc 14 along the axis, the solar panel rotating shaft 12-2 is in rotating fit with the rotating through hole 11-1-2, a first positioning pin 13 is arranged in the first positioning pin hole 9-2-1 and the third positioning pin hole 12-3, a second positioning pin 16 is arranged in the second positioning pin hole 11-1-1 and the fourth positioning pin hole 14-1, and a fixing screw 15 is arranged in the fixing threaded hole 12-2-2;

the hydroelectric generation set is connected with the input end of a first rectifier 17 through a power transmission line 20, the wind power generation set is connected with the input end of a second rectifier 18 through the power transmission line 20, the solar generation set is connected with the input end of a third rectifier 19 through the power transmission line 20, the output ends of the first rectifier 17, the second rectifier 18 and the third rectifier 19 are connected with the input end of a storage battery 21 through the power transmission line 20, the output end of the storage battery 21 is connected with the input end of an inverter 22 through the power transmission line 20, and the output end of the inverter 22 is connected with a user;

the motor frame 2 is provided with a ribbed plate 6 which can be used for enhancing the connection strength between the motor frame and the rectification mounting base.

The working process of the embodiment:

an installer firstly fixes the hydroelectric generator on a motor frame, then fixes a fairing on a fairing installation seat, then installs the turbine blades on a rotating shaft, then fixes a fan installation support on the motor frame, then passes through a fan rotating installation seat and places the rotating disc on a rotating bottom plate, fixes the relative position of the rotating disc and the rotating bottom plate through a first positioning pin, then matches and installs a solar panel rotating shaft and a rotating through hole on a solar panel, then installs the fixed disc, determines the rotating angle of the solar panel around the solar panel rotating shaft by using a second positioning pin, then installs a wind driven generator on the fan rotating shaft, then fixes the fan installation seat and the fan installation support together through a screw rod, then determines the water level, determines a first positioning through hole to be used on an equipment positioning rod, and then sleeves a positioning sleeve on the motor frame into the equipment positioning rod, and fixing the position by using a first positioning screw, then placing the hydroelectric generator into water and fixing the hydroelectric generator on a riverbed through an equipment positioning rod, finally connecting each power generation set with the input end of a corresponding rectifier by using a power transmission line, then connecting the output end of each rectifier to the input end of a storage battery by using the power transmission line, then connecting the output end of the storage battery with the input end of an inverter, and connecting the output end of the inverter with a user power grid.

Above embodiment only is for explaining the utility model discloses a technical thought can not be injectd with this the utility model discloses a protection scope, all according to the utility model provides a technical thought, any change of doing on technical scheme basis all falls into the utility model discloses within the protection scope.

Claims

1. The utility model provides a novel small-size three-dimensional solar energy, wind energy and hydroenergy power generation facility, includes hydroelectric power generation group, wind power generation group, solar energy power generation group and power transmission and transformation device and constitutes its characterized in that: the hydroelectric generation set comprises a hydroelectric generator (1), a motor frame (2), turbine blades (3) and a fairing (4), wherein a rotating shaft (1-1) is arranged on the hydroelectric generator (1), the turbine blades (3) are arranged at the top end of the rotating shaft (1-1), the hydroelectric generator (1) is fixed on the upper surface of the motor frame (2) through screws, a fairing mounting seat (2-1) is arranged on the side surface of the motor frame (2), the fairing (4) is arranged on the fairing mounting seat (2-1), the fairing (4) is horn-shaped, the top end of the rotating shaft (1-1) penetrates through the fairing mounting seat (2-1) and extends into the fairing (4), the turbine blades (3) can rotate in the fairing (4) without obstacles, a positioning sleeve (2-2) is arranged on the lower surface of the motor frame (2), a first positioning through hole (2-2-1) is formed in the positioning sleeve (2-2), an equipment positioning rod (7) is arranged in the positioning sleeve (2-2), a plurality of second positioning through holes (7-1) are formed in the equipment positioning rod (7) along the axial direction, a first positioning screw (8) is arranged in each of the first positioning through holes (2-2-1) and the second positioning through holes (7-1), a mounting boss (2-3) is arranged on the side face, parallel to the rotating shaft (1-1), of the motor frame (2), a fan mounting support (5) is arranged on the mounting boss (2-3), the fan mounting support (5) is in a shape like a Chinese character 'ji', and a wind power generation set is arranged on the fan mounting support (5);

the wind power generation set comprises a fan mounting seat (9) and a wind power generator (10), a fixed bottom plate (9-1) is arranged at the bottom of the fan mounting seat (9), the fixed bottom plate (9-1) and a fan mounting bracket (5) are fixed together through fastening screws, a fan rotating shaft (9-3) is arranged at the top end of the fan mounting seat (9), the wind power generator (10) is mounted on the fan rotating shaft (9-3), a rotating bottom plate (9-2) is arranged at a position, far away from the fan rotating shaft (9-3), on the fan mounting seat (9), a plurality of first positioning pin holes (9-2-1) are formed in the rotating bottom plate (9-2), and the first positioning pin holes (9-2-1) are uniformly distributed around the central axis of the fan mounting seat (9), a solar power generation set is arranged on the rotating bottom plate (9-2);

the solar power generation set comprises a solar power generation panel (11) and a rotating disc (12), wherein a rotating boss (11-1) is symmetrically arranged on the side face of the solar power generation panel (11), a second positioning pin hole (11-1-1) is formed in the middle position of the rotating boss (11-1), a rotating through hole (11-1-2) is formed in the position, far away from the solar power generation panel (11), of the rotating boss (11-1), 2 positioning bosses (12-1) and 2 solar panel rotating shafts (12-2) are symmetrically arranged on the rotating disc (12) along the axis, a third positioning pin hole (12-3) is formed in the positioning boss (12-1), a square positioning boss (12-2-1) is arranged at the top end of the solar panel rotating shaft (12-2), and a fixed threaded hole (12-2-1) is formed in the square positioning boss (12-2-1) -2), a fixing disc (14) is arranged on the square positioning boss (12-2-1), a plurality of fourth positioning pin holes (14-1) are uniformly distributed on the fixing disc (14) along the axis, the solar panel rotating shaft (12-2) is in rotating fit with the rotating through hole (11-1-2), a first positioning pin (13) is arranged in the first positioning pin hole (9-2-1) and the third positioning pin hole (12-3), a second positioning pin (16) is arranged in the second positioning pin hole (11-1-1) and the fourth positioning pin hole (14-1), and a fixing screw (15) is arranged in the fixing threaded hole (12-2-2);

the solar photovoltaic power generation system is characterized in that the hydroelectric generation set is connected with the input end of a first rectifier (17) through a power transmission line (20), the wind power generation set is connected with the input end of a second rectifier (18) through the power transmission line (20), the solar power generation set is connected with the input end of a third rectifier (19) through the power transmission line (20), the output ends of the first rectifier (17), the second rectifier (18) and the third rectifier (19) are connected with the input end of a storage battery (21) through the power transmission line (20), the output end of the storage battery (21) is connected with the input end of an inverter (22) through the power transmission line (20), and the output end of the inverter (22) is connected into a user power.

2. The new compact three-dimensional solar, wind and hydro-energy power plant according to claim 1, characterized by: and a rib plate (6) is arranged on the motor frame (2).