CN216518387U - Wind, light and storage integrated power generation device - Google Patents

Abstract

The utility model provides a wind, light and energy storage integrated power generation device which comprises a support, a plurality of groups of photovoltaic panels, a plurality of photovoltaic panel support frames, a rotating shaft, a bearing, a generator, a conductive slip ring and an energy storage system, wherein the photovoltaic panels are arranged on the support; the photovoltaic panels are respectively arranged on the photovoltaic panel support frames to form a plurality of fan blade structures; the central position of the photovoltaic panel supporting frame is provided with a mounting hole, the photovoltaic panel supporting frame is fixedly arranged on the rotating shaft through the mounting hole, and two ends of the rotating shaft are arranged on the bracket through bearings; one end of the rotating shaft is connected with an input shaft of the generator, and an output circuit of the generator is connected with a grid-connected energy storage system; the rotating shaft is also provided with a conductive slip ring, an output circuit of the photovoltaic panel is connected to the conductive slip ring, and the conductive slip ring is connected to a grid-connected energy storage system through a lead; the energy storage device system is used for gravity-falling power generation and comprises a controller for grid connection and an energy storage unit. The wind, light and energy storage integrated power generation device organically combines wind energy and electric energy together, particularly utilizes the residual time with insufficient light energy, and greatly improves the power generation utilization rate of equipment.

Description

Wind, light and storage integrated power generation device

Technical Field

The utility model relates to the field of clean energy, in particular to a wind-solar-storage integrated power generation device.

Background

With the development and progress of technology, people's daily life is more and more dependent on electricity for maintaining the operation of production life, in addition to the necessities of air, water and food for maintaining life.

The existing power generation mode is mainly thermoelectricity, namely the power generation mode extremely depends on coal-carbon energy, and carbon dioxide is emitted in the power generation process, so that the environment is influenced, and the greenhouse effect is aggravated.

Therefore, the low-carbon and environment-friendly concept is in full-bodied mind, and the development of clean energy is a common pursuit of all mankind. The nations and even the world are promoting the mission of 'carbon neutralization and carbon peak-reaching'.

In order to replace the traditional power generation mode, the popularization, application and support of China are continuously increased in the aspect of solar energy and wind energy utilization. However, the existing solar energy and wind energy power generation generally has the problem of low utilization rate.

Most of the existing solar power stations and wind power stations are concentrated in northwest areas, the areas are wide in land and rare in people, and sunlight and wind energy resources are sufficient, so that the existing solar power stations and wind power stations are the best areas for applying wind power generation and solar power generation, and more solar power stations and wind power stations are also set up in the areas.

The core functional device of solar power generation is a photovoltaic panel, and the current main application means is to fix the photovoltaic panel at the same angle to receive the strongest sunlight at noon for power generation. If the photovoltaic power generation panel works along with the angle of the sun according to the change of the sun in different seasons and different time angles every day, higher conversion efficiency can be exerted. However, the cost is easily increased, and how to utilize the time period with weak sunlight for generating electricity and saving the cost is a technical problem to be solved by the technical personnel in the field.

In order to solve the above problems, people are always seeking an ideal technical solution.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a wind-light-storage integrated power generation device which organically combines wind energy and electric energy, particularly utilizes the residual time with insufficient light energy, greatly improves the power generation utilization rate of equipment and can be changed.

In order to achieve the purpose, the utility model adopts the technical scheme that: a wind-solar-storage integrated power generation device comprises a support, a plurality of groups of photovoltaic panels, a plurality of photovoltaic panel support frames, a rotating shaft, a bearing, a generator and a conductive slip ring;

the photovoltaic panels are respectively arranged on the photovoltaic panel support frames to form a plurality of fan blade structures;

the photovoltaic panel support frame is fixedly arranged on the rotating shaft through the mounting hole, and two ends of the rotating shaft are arranged on the bracket through bearings;

one end of the rotating shaft is connected with an input shaft of the generator, and an output circuit of the generator is connected with the energy storage system;

the rotating shaft is further provided with a conductive slip ring, an output circuit of the photovoltaic panel is connected to the conductive slip ring, and the conductive slip ring is connected to the energy storage system through a lead;

the energy storage system comprises a gravity-fall power generation device, a controller for grid connection and an energy storage unit.

Basically, the photovoltaic panels are distributed on one side or two sides of the photovoltaic panel support frame.

Basically, the number of the photovoltaic panel support frames is at least two, so that two to four-side fan blades are formed.

On the basis, one of the photovoltaic panel support frames is a fixed support, and the other photovoltaic panel support frames can be movable supports; the fixed support is directly fixed with the rotating shaft, the movable support comprises a first angle adjuster arranged in a mounting hole, and the movable support and the rotating shaft are fixedly mounted through the first angle adjuster; the photovoltaic panel width sum on the single flabellum that the fixed bolster corresponds and the photovoltaic panel width sum on the single flabellum that other movable bolsters correspond equals the length of single flabellum, the photovoltaic board on the fixed bolster and the photovoltaic board on each movable bolster mounted position dislocation to after movable bolsters rotate certain angle and fixed bolster coincide, photovoltaic board on the movable bolsters and the photovoltaic board on the fixed bolster constitute a continuous photovoltaic board.

Basically, the support is fixed on the ground through a lifting mechanism.

Basically, the support is including being fixed in the weight gain support body that adopts the setting of high strength material on elevating system top, installing the carousel on the weight gain support body and installing the perpendicular frame on the carousel, the pivot install perpendicular frame top.

Basically, an inclined angle modulation photovoltaic panel is further arranged on the rotary table, the back of the angle modulation photovoltaic panel is hinged with the rotary table through a movable frame, the back of the angle modulation photovoltaic panel is connected to the rotary table through a diagonal bracing telescopic rod, and the highest position of the angle modulation photovoltaic panel in a lifting state is approximately as high as the rotary shaft.

Basically, the movable support is provided with a linear slide rail, the photovoltaic panel on the movable support is installed at the action end of the linear slide rail, the linear slide rail is linked with the first angle adjuster, so that when a fan blade structure is formed, the linear slide rail drives the photovoltaic panel to travel to the farthest end of the movable support, and the linear slide rail drives the photovoltaic panel to travel to a set dislocation position in the process of overlapping action of the movable support and the fixed support.

And a second angle adjuster is arranged on the bracket at the other end of the rotating shaft and connected with the rotating shaft through a clutch device.

Basically, a set of gravity power generation equipment is arranged aiming at the weight increasing frame body, and a gravity energy storage system is formed.

Compared with the prior art, the fan has substantive characteristics and progress, and specifically, the fan organically combines wind energy and light energy, builds a photovoltaic panel into a fan blade shape through a photovoltaic panel support frame, and rotates by matching with the rotating base to face the optimal sunlight or wind direction. The solar energy and the wind energy can be absorbed, and the wind energy is utilized, particularly the characteristic that the light is sufficient in the daytime, particularly at noon, and the wind power is sufficient in the evening or the morning and evening in the daytime is utilized, so that the solar energy and the wind energy are complementary from the aspect of energy utilization efficiency, and the power generation efficiency is improved to the maximum extent.

Furthermore, in order to realize the optimal state of the equipment, the photovoltaic panel support frame is set to be matched with the fixed support and the movable support, and can be adjusted to be in a fan blade shape or a plate shape through the control of the first angle adjuster, and the photovoltaic panel support frame is changed into the fan blade shape when mainly used for wind power generation and is changed into the plate shape when mainly used for photovoltaic power generation.

Further, in order to adjust the front and back, the fan blade and the plate-shaped state can both present the best shape, set up the linear slideway, when becoming the fan blade state, can let the photovoltaic board of each position department remove to the same position of farthest end, form stable fan blade structure, when becoming the plate-shaped, can misplace and spread out, form a whole photovoltaic board.

Furthermore, in order to adapt to the illumination angle, a second angle adjuster is arranged, the angle of the photovoltaic panel in the plate-shaped state can be adjusted, the illumination is utilized to the maximum extent, and the angle adjuster can be loosened through a clutch device, so that the angle adjuster does not influence the use as a wind power generation device.

Furthermore, in order to fully utilize wind energy, the angle-adjusting photovoltaic panel is arranged, and the lower half part of the fan can be blocked after the angle-adjusting photovoltaic panel is lifted, so that wind pressure is generated at the upper end and the lower end of the fan, and the wind power generation effect is better.

Furthermore, a gravity energy storage system is arranged and comprises gravity power generation equipment, such as a combination of a power generator and a gear rack, a combination of a chain and a gear and a power generator and the like, when wind and light exist, the weight increasing frame body is lifted to generate potential energy, and when no wind and light exist, the whole device is descended through the weight increasing lifting support to continue power generation.

Drawings

Fig. 1 is a schematic structural diagram of a wind-solar-storage integrated power generation device in embodiment 1 of the present invention.

Fig. 2 is a schematic structural diagram of a wind-solar-storage integrated power generation device in a retracted state in embodiment 2 of the present invention.

Fig. 3 is a schematic structural diagram of a wind-solar-storage integrated power generation device in embodiment 3 of the present invention.

Fig. 4 is a schematic structural diagram of a wind-solar-storage integrated power generation device in embodiment 2 of the present invention.

In the figure: 1. a support; 2. a photovoltaic panel; 3. a photovoltaic panel support frame; 3-1, fixing a bracket; 3-2, moving the bracket; 3-3. a first angle adjuster; 4. a rotating shaft; 5. a generator; 6. a conductive slip ring; 7. an angle-adjustable photovoltaic panel; 8. bracing a telescopic rod; 9. a lifting mechanism; 10. a second recliner.

Detailed Description

The technical solution of the present invention is further described in detail by the following embodiments.

Example 1

As shown in fig. 1, the wind, light and energy storage integrated power generation device comprises a support 1, a plurality of groups of photovoltaic panels 2, a plurality of photovoltaic panel support frames 3, a rotating shaft 4, a bearing, a power generator 5, a conductive slip ring 6 and an energy storage system;

the photovoltaic panels 2 are respectively arranged on the photovoltaic panel support frames 3 to form a plurality of fan blade structures;

a mounting hole is formed in the center of the photovoltaic panel support frame 3, the photovoltaic panel support frame 3 is fixedly mounted on the rotating shaft 4 through the mounting hole, and two ends of the rotating shaft 4 are mounted on the bracket 1 through bearings;

one end of the rotating shaft 4 is connected with an input shaft of the generator, and an output circuit of the generator is connected with the energy storage and grid connection system;

the rotating shaft 4 is also provided with a conductive slip ring 6, an output circuit of the photovoltaic panel 2 is connected to the conductive slip ring 6, and the conductive slip ring 6 is connected to the energy storage system through a lead; the energy storage system has two types in this embodiment, one type is a controller for grid connection, and the other type is an energy storage unit.

In this embodiment, the photovoltaic panels 2 are distributed on a single surface of the photovoltaic panel support frame 3. In other embodiments, the photovoltaic support frame can be distributed on two sides of the photovoltaic support frame.

The photovoltaic panel support frame 3 includes at least two to form at least four sides flabellum, and the angle of two adjacent flabellums is the same, and in this embodiment, the photovoltaic support frame 3 designs into two, in order to form four flabellums, carries out the principle explanation.

In order to supplement the area of the photovoltaic panel and meet the wind pressure difference during wind power generation, the bracket 1 is also provided with an inclined angle-adjusting photovoltaic panel 7, the inclined angle-adjusting photovoltaic panel inclines to 45-70 degrees towards the rotating shaft when the group of photovoltaic panels are used for wind power generation, the highest position is the rotating shaft position, so that the wind pressure on the upper side and the lower side of the fan is different, and the angle is adjusted to the optimal illumination incident angle when the inclined angle-adjusting photovoltaic panel is used for photovoltaic power generation.

In this embodiment, the wind-solar-energy-storage integrated power generation device with the fan blade structure always appears in a fixed form of a fan, and when the wind-solar-energy-storage integrated power generation device rotates, the photovoltaic panel 2 can also utilize solar energy to generate power, in general, in daytime, especially at noon, the illumination intensity is strongest, the wind power is relatively small, the utilization efficiency of the relatively static photovoltaic panel 2 is highest, and in evening or in the morning and evening of daytime, the wind power is relatively larger, the wind power generation efficiency is highest in rainy weather or windy night, and the wind power generation efficiency are combined to form the simplest wind-solar-energy composite power generation device.

In other embodiments, only two photovoltaic panels 2 may be used, or the other two photovoltaic panels may be fixed brackets, the fan blades are made of other materials, and one of the photovoltaic panels 2 is provided with the light tracking device.

Example 2

As shown in fig. 2 and 4, the present embodiment is different from embodiment 1 in that: one of the two photovoltaic panel support frames 3 is a fixed support 3-1, and the other is a movable support 3-2; the fixed support 3-1 is directly fixed with the rotating shaft 4, the movable support 3-2 comprises a first angle adjuster 3-3 arranged in a mounting hole, and the movable support and the rotating shaft are fixedly mounted through the first angle adjuster; the sum of the width of the photovoltaic panel on the single fan blade corresponding to the fixed support 3-1 and the width of the photovoltaic panel on the single fan blade corresponding to the other movable supports is equal to the length of the single fan blade, the photovoltaic panels on the fixed support and the photovoltaic panels on the movable supports are staggered, so that after the movable supports rotate by a certain angle and overlap with the fixed supports, the photovoltaic panels on the movable supports and the photovoltaic panels on the fixed supports form a continuous photovoltaic panel.

The support 1 is fixed on the ground through the lifting mechanism 9, the overall height can be adjusted, and the support is mainly used for matching angles of wind power and illumination.

And a second angle adjuster 10 is arranged on the bracket at the other end of the rotating shaft 4, and the second angle adjuster is connected with the rotating shaft through a clutch device.

The support 1 comprises a weight increasing frame body 1-1 fixed at the top end of the lifting mechanism 9, a rotary table 1-2 installed on the weight increasing frame body and a vertical frame 1-3 installed on the rotary table, the rotary shaft 4 is installed at the top end of the vertical frame 1-3, the angle adjusting photovoltaic panel 7 is installed on the rotary table 1-2, and the rotary table is provided with a power mechanism and can adjust a horizontal angle to be in butt joint with an illumination angle.

In this embodiment, owing to increased elevating system 9, energy storage system can also use gravity energy storage system, relies on when having wind to have the electricity, risees the support, leans on gravity energy storage to dispose one set of gravity power generation equipment, mainly include the rack of vertical setting, with rack toothing's gear and with gear connection's generator, the generator is installed on the support, through the decline of support, drives the gear and takes place to rotate, and then drives the generator and rotate, realizes the electricity generation.

The working principle is as follows: in this embodiment, the fan blade structures constructed by the photovoltaic panel 2 and the photovoltaic panel support frame 3 are deformable, and can be changed into a fan blade state through the first angle adjuster and a flat plate state.

Example 3

As shown in fig. 3, in order to further enhance the utilization efficiency and performance of the device, a linear slide rail (not shown in the figure) is arranged on the movable support 3-2, the photovoltaic panel on the movable support is mounted at the action end of the linear slide rail, the linear slide rail is linked with the first angle adjuster, so that when the fan blade structure is formed, the linear slide rail drives the photovoltaic panel to travel to the farthest end of the movable support, and in the process of overlapping the movable support and the fixed support, the linear slide rail drives the photovoltaic panel to travel to a set dislocation position.

For the embodiment that the photovoltaic panel on the movable support is immobile, the biggest purpose of this embodiment is to move the photovoltaic panel to the farthest end when forming the flabellum structure, so that the photovoltaic panel positions on each photovoltaic panel support frame are the same, that is, the radius of rotation is the same, and when the fan state is ensured, the dynamic balance of each flabellum is consistent, and the wind energy is received and utilized more efficiently.

Finally, it should be noted that the above examples are only used to illustrate the technical solutions of the present invention and not to limit the same; although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art will understand that: modifications to the specific embodiments of the utility model or equivalent substitutions for parts of the technical features may be made; without departing from the spirit of the present invention, it is intended to cover all aspects of the utility model as defined by the appended claims.

Claims (10)

1. The utility model provides a wind, light store up integrative power generation facility which characterized in that: the photovoltaic panel support comprises a support, a plurality of groups of photovoltaic panels, a plurality of photovoltaic panel support frames, a rotating shaft, a bearing, a generator and a conductive slip ring;

the photovoltaic panels are respectively arranged on the photovoltaic panel support frames to form a plurality of fan blade structures;

the photovoltaic panel support frame is fixedly arranged on the rotating shaft through the mounting hole, and two ends of the rotating shaft are arranged on the bracket through bearings;

one end of the rotating shaft is connected with an input shaft of the generator, and an output circuit of the generator is connected with an energy storage system;

the rotating shaft is further provided with a conductive slip ring, an output circuit of the photovoltaic panel is connected to the conductive slip ring, and the conductive slip ring is connected to the energy storage system through a lead;

the energy storage system comprises a gravity-fall power generation device, a controller for grid connection and an energy storage unit.

2. The wind-solar-storage integrated power generation device of claim 1, wherein: the photovoltaic panels are distributed on one side or two sides of the photovoltaic panel support frame.

3. The wind-solar-storage integrated power generation device according to claim 1 or 2, characterized in that: the number of the photovoltaic panel support frames is at least two, so that two to four-side fan blades are formed.

4. The wind-solar-storage integrated power generation device of claim 2, wherein: one of the photovoltaic panel support frames is a fixed support, and the other photovoltaic panel support frames are movable supports; the fixed support is directly fixed with the rotating shaft, the movable support comprises a first angle adjuster arranged in a mounting hole, and the movable support and the rotating shaft are fixedly mounted through the first angle adjuster; the photovoltaic panel width sum on the single flabellum that the fixed bolster corresponds and the photovoltaic panel width sum on the single flabellum that other movable bolsters correspond equals the length of single flabellum, the photovoltaic board on the fixed bolster and the photovoltaic board on each movable bolster mounted position dislocation to after movable bolsters rotate certain angle and fixed bolster coincide, photovoltaic board on the movable bolsters and the photovoltaic board on the fixed bolster constitute a continuous photovoltaic board.

5. The wind-solar-storage integrated power generation device of claim 4, wherein: the support is fixed on the ground through a lifting mechanism.

6. The wind-solar-storage integrated power generation device of claim 5, wherein: the support is including being fixed in the weight gain support body that adopts high strength material to set up on elevating system top, installing the carousel on the weight gain support body and installing the perpendicular frame on the carousel, the pivot install perpendicular frame top.

7. The wind-solar-storage integrated power generation device of claim 6, wherein: the angle modulation photovoltaic panel is characterized in that an inclined angle modulation photovoltaic panel is further arranged on the rotary table, the bottom end of the angle modulation photovoltaic panel is hinged to the rotary table, the back face of the angle modulation photovoltaic panel is connected to the rotary table through a diagonal bracing telescopic rod, and the highest position of the angle modulation photovoltaic panel in a lifting state is equal to the height of the rotary shaft.

8. The wind-solar-storage integrated power generation device of claim 7, wherein: the photovoltaic panel is arranged at the action end of the linear sliding rail, the linear sliding rail is linked with the first angle adjuster, so that when a fan blade structure is formed, the linear sliding rail drives the photovoltaic panel to move to the farthest end of the movable support, and in the process of overlapping action of the movable support and the fixed support, the linear sliding rail drives the photovoltaic panel to move to a set staggered position.

9. The wind-solar-storage integrated power generation device of claim 8, wherein: and a second angle adjuster is arranged on the bracket at the other end of the rotating shaft and is connected with the rotating shaft through a clutch device.

10. The wind-solar-storage integrated power generation device of claim 9, wherein: and a set of gravity power generation equipment is arranged aiming at the weight increasing frame body to form a gravity energy storage system.

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