CN219918822U - Efficient solar energy collecting, generating and transmitting mechanism - Google Patents

Abstract

The utility model discloses a high-efficiency solar energy collecting, generating and transmitting mechanism which comprises a plurality of solar cells and a base, wherein fixed frames are arranged on the outer sides of the solar cells, adjacent fixed frames are connected through connecting blocks, an installation block is arranged at the top of the base, a storage battery is arranged in the installation block, a rotating block is rotatably connected to the top of the installation block, the top of the rotating block is connected with the fixed frames, the solar cells are rotatably connected with the fixed frames, and the rotating axis of the solar cells is mutually perpendicular to the rotating axis of the rotating block. All the fixing frames and the solar cells can be driven to rotate along the rotating shaft through the extension and the shortening of the two first push rods, so that the elevation angle of the solar cells is adjusted, and the solar cells can keep higher power generation efficiency; the motor intermittently drives the solar cell to rotate along the connecting shaft through the connecting shaft, so that the solar cell can be directly irradiated by the sun all the time in the rising and falling process of the sun, and the solar cell can further maintain higher power generation efficiency.

Description

Efficient solar energy collecting, generating and transmitting mechanism

Technical Field

The utility model belongs to the technical field of solar power generation devices, and particularly relates to a high-efficiency solar energy collecting, generating and transmitting mechanism.

Background

Solar photovoltaic power generation refers to a power generation mode in which light energy is directly converted into electric energy without a thermal process. The method comprises photovoltaic power generation, photochemical power generation, photo-induced power generation and photo-biological power generation. Photovoltaic power generation is a direct power generation mode which utilizes solar-level semiconductor electronic devices to effectively absorb solar radiation energy and convert the solar radiation energy into electric energy, and is the mainstream of current solar power generation.

The patent with the publication number of CN210536342U discloses a solar power generation device, which comprises a base, a DC-AC inverter, a storage battery, an LED lamp, a solar cell panel, a control cabinet, a solar controller, a photosensitive sensor, a rotating electrical machine and reflective glass, wherein the base is positioned at the bottom end of the whole device, a stand column is arranged at the upper end of the base, a control box is arranged on one side of the stand column, the DC-AC inverter is arranged at the other side of the stand column, the storage battery is arranged at the upper end of the DC-AC inverter, the control cabinet is arranged on one side of the stand column, the rotating electrical machine is arranged at the inner side of the stand column, the photosensitive sensor is arranged at the upper end of the rotating electrical machine, a solar controller is arranged at the two sides of the stand column, a lamp frame is arranged at the inner side of the lamp, a rotating rod is arranged at the top of the stand column, and one end of the rotating rod is connected with the solar cell panel. The solar panel absorbs solar light energy, the solar energy is converted into electric energy and stored in a storage unit in the storage battery, a protective sleeve is arranged to protect equipment such as a control box and a control cabinet, a solar controller is arranged, the solar controller mainly plays a role in controlling the working state of the device and protecting the storage battery from overcharge, if the temperature difference is large, the solar controller also has a temperature compensation function, a DC-AC inverter is arranged to convert direct current in the storage battery into alternating current, a photosensitive sensor is arranged, and the photosensitive sensor can sense the strongest point of sunlight at different times, and the rotating motor drives the stand column to rotate the solar panel to a position opposite to the sunlight so as to keep stronger power generation capacity and improve the energy utilization rate.

The solar energy can be converted into electric energy through the solar cell, but the solar cell can only be driven to rotate through the upright post, the angle between the solar cell and the upright post cannot be changed, namely the elevation angle of the solar cell cannot be changed, the direct solar point can move between the return lines in the north and the south in different seasons, and if the elevation angle of the solar cell is not changed, the efficiency of the solar cell can be reduced in a specific time; the inverter is utilized to convert direct current into alternating current for transmission, certain electric energy is lost in the transmission process, and when a vehicle is charged, the alternating current is also required to be converted into direct current, so that the efficiency of the whole power generation equipment is reduced.

Accordingly, an object of the present utility model is to solve the problems of how to increase the power generation efficiency of a solar cell and reduce the transmission loss.

Disclosure of Invention

The utility model aims to provide a high-efficiency solar energy collecting, generating and transmitting mechanism which is used for solving the problems in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a high-efficient solar energy collection electricity generation transmission device, includes a plurality of solar cell and base, and the solar cell outside is equipped with fixed frame, connects through the connecting block between the adjacent fixed frame, and the base top is equipped with the installation piece, and the inside battery that is equipped with of installation piece, installation piece top rotate and are connected with the dwang, and the dwang top is connected with fixed frame, and solar cell rotates with fixed frame to be connected, and solar cell's rotation axis and the rotation axis mutually perpendicular of dwang.

Specifically, the motor is installed at fixed frame edge, and motor housing and fixed frame fixed connection, the output of motor pass through connecting axle and solar cell fixed connection.

Specifically, the equal fixedly connected with limiting plate in connecting block both sides, the spacing groove has been seted up to the level on the fixed frame, and the limiting plate can be inserted at the spacing inslot, has seted up the screw hole on the limiting plate, and the screw hole is equipped with the bolt, and the vertical logical groove of having seted up on the fixed frame, the bolt runs through the fixed frame through logical groove.

Specifically, the rotating block bottom is provided with a rotating shaft, two ends of the rotating shaft are respectively connected with two mounting plates in a rotating mode, the bottom of each mounting plate is fixedly connected with the top of each mounting block, and the side edge of the rotating shaft is fixedly connected with the bottom of each rotating block.

Specifically, the installation piece top is equipped with two first push rods, and first push rod top rotates with the turning block to be connected, and first push rod bottom rotates with the installation piece to be connected, and two first push rods are located the pivot both sides respectively.

Specifically, the installation piece both sides all are equipped with first head and the second head that charges, and first head and the second head that charges all are connected with the battery.

Specifically, a plurality of kerve have been seted up to the base bottom, and the inside top fixedly connected with second push rod of kerve, gyro wheel is installed to second push rod bottom.

The beneficial effects are that:

1. the utility model relates to a high-efficiency solar energy collecting, generating and transmitting mechanism, which comprises the following components: all the fixing frames and the solar cells can be driven to rotate along the rotating shaft through the extension and the shortening of the two first push rods, so that the elevation angle of the solar cells is adjusted, the solar cells can receive more sunlight, and the higher power generation efficiency can be kept; when the sun rises and falls, the motor intermittently drives the solar cell to rotate along the connecting shaft through the connecting shaft, so that the solar cell can be directly irradiated by the sun all the time in the rising and falling process, the elevation angle of the solar cell is adjusted through the first push rod, the motor drives the solar cell to rotate, and the solar cell further keeps higher power generation efficiency.

2. The utility model relates to a high-efficiency solar energy collecting, generating and transmitting mechanism, which comprises the following components: the DC-DC converter is used for changing current, so that the storage battery can directly charge the electric vehicle, the electricity generated by the solar battery is directly transmitted to a load through the controller, the storage battery and the DC-DC converter, direct current is not required to be converted into alternating current and then transmitted, the vehicle is directly used near the solar battery, the transmission distance is greatly reduced, the loss is reduced, the efficiency of power generation equipment is avoided, the electricity generated by the solar battery is directly used, a circuit is not required to be buried underground, and the cost is reduced.

Drawings

Fig. 1 is a schematic perspective view of the whole structure of the present utility model.

Fig. 2 is a schematic diagram of a first charging head according to the present utility model.

Fig. 3 is an enlarged view of fig. 3 at a in accordance with the present utility model.

Fig. 4 is a schematic view of the position of the battery according to the present utility model.

Fig. 5 is a schematic structural view of the mounting block of the present utility model.

In the figure: 1. a solar cell; 2. a fixed frame; 3. a mounting block; 4. a base; 5. a rotating block; 6. a rotating shaft; 7. a mounting plate; 8. a first push rod; 9. a motor; 10. a first charging head; 11. a second charging head; 12. a storage battery; 13. a bottom groove; 14. a second push rod; 15. a roller; 16. a connecting block; 17. a limiting plate; 18. a threaded hole; 19. a bolt; 20. and a limit groove.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model.

Examples:

as shown in fig. 1-5, the present embodiment provides a high efficiency solar energy collection, power generation and transmission mechanism; the solar energy power generation device comprises a plurality of solar cells 1 and a base 4, wherein fixed frames 2 are arranged on the outer sides of the solar cells 1, adjacent fixed frames 2 are connected through connecting blocks 16, a mounting block 3 is arranged at the top of the base 4, a storage battery 12 is arranged in the mounting block 3, a rotating block 5 is rotatably connected to the top of the mounting block 3, the top of the rotating block 5 is connected with the fixed frames 2, the solar cells 1 are rotatably connected with the fixed frames 2, the rotation axes of the solar cells 1 and the rotation axes of the rotating block 5 are mutually perpendicular, a motor 9 is arranged at the edge of the fixed frames 2, a motor 9 shell is fixedly connected with the fixed frames 2, and the output end of the motor 9 is fixedly connected with the solar cells 1 through a connecting shaft; one first push rod 8 is extended, the other first push rod 8 is shortened to drive the rotating block 5 to rotate along the rotating shaft 6, and the rotating block 5 drives all the fixed frames 2 and the solar cells 1 to rotate along the rotating shaft 6, so that the elevation angle of the solar cells 1 is adjusted, the solar cells 1 can receive more sunlight, and higher power generation efficiency can be maintained; when the sun rises and falls, the motor 9 intermittently drives the solar cell 1 to rotate along the connecting shaft through the connecting shaft, so that the solar cell 1 can be directly irradiated by the sun all the time in the rising and falling process, the elevation angle of the solar cell 1 is adjusted through the first push rod 8, the motor 9 drives the solar cell 1 to rotate, and the solar cell 1 is further enabled to keep higher power generation efficiency.

Specifically, limiting plates 17 are fixedly connected to two sides of the connecting block 16, limiting grooves 20 are horizontally formed in the fixed frame 2, the limiting plates 17 can be inserted into the limiting grooves 20, threaded holes 18 are formed in the limiting plates 17, bolts 19 are arranged in the threaded holes 18, through grooves are vertically formed in the fixed frame 2, and the bolts 19 penetrate through the fixed frame 2 through the through grooves; the limit groove 20 on the fixed frame 2 is matched with the limit plate 17 to limit the fixed frame 2, so that all the fixed frames 2 are kept on the same plane, the fixed frame 2 is convenient to install, the number of the fixed frames 2 and the solar cells 1 can be increased and reduced according to the use condition of the storage battery 12, and the solar cells 1 are increased in places with high electricity demand so as to meet the use demand.

Specifically, the rotating block 5 bottom is equipped with pivot 6, and pivot 6 both ends rotate with two mounting panels 7 respectively and are connected, mounting panel 7 bottom and mounting block 3 top fixed connection, pivot 6 side and rotating block 5 bottom fixed connection, mounting block 3 top are equipped with two first push rods 8, and first push rod 8 top rotates with rotating block 5 to be connected, and first push rod 8 bottom rotates with mounting block 3 to be connected, and two first push rods 8 are located the pivot 6 both sides respectively.

Specifically, the first charging head 10 and the second charging head 11 are arranged on two sides of the mounting block 3, the first charging head 10 and the second charging head 11 are connected with the storage battery 12, electricity generated by the solar battery 1 is directly transmitted to a load through the controller, the storage battery 12 and the DC-DC converter, direct current is not required to be converted into alternating current to be transmitted, and the vehicle is directly used near the solar battery 1, so that the transmission distance is greatly reduced, the loss is reduced, the efficiency of power generation equipment is reduced, electricity generated by the solar battery 1 is directly used, a circuit is not required to be buried underground, and the cost is reduced.

Specifically, the bottom of the base 4 is provided with a plurality of bottom grooves 13, the top end inside the bottom groove 13 is fixedly connected with a second push rod 14, and the bottom of the second push rod 14 is provided with a roller 15; when the solar cell 1 is shielded, the second push rod 14 stretches to push the roller 15 downwards, so that the roller 15 contacts with the ground, the base 4 is supported, then the base 4 is pushed, the base 4 and the solar cell 1 can be moved, the solar cell 1 is prevented from being shielded, after the solar cell 1 moves to a preset position, the second push rod 14 contracts, the bottom of the base 4 contacts with the ground, and the base 4 is kept stable.

Working principle: when the solar energy generating device is used, equipment is placed at a preset position, one first push rod 8 stretches, the other first push rod 8 shortens and can drive the rotating block 5 to rotate along the rotating shaft 6, and the rotating block 5 drives all the fixed frames 2 and the solar cells 1 to rotate along the rotating shaft 6, so that the elevation angle of the solar cells 1 is adjusted, and the elevation angle of the solar cells 1 is adjusted according to the position of the sun in different seasons, so that the solar cells 1 can receive more sunlight and can keep higher generating efficiency;

when the sun rises and falls, the motor 9 intermittently drives the solar cell 1 to rotate along the connecting shaft through the connecting shaft, so that the solar cell 1 can be directly irradiated by the sun all the time in the rising and falling process, the elevation angle of the solar cell 1 is adjusted through the first push rod 8, the motor 9 drives the solar cell 1 to rotate, and the solar cell 1 is further enabled to keep higher power generation efficiency.

When the solar cell 1 is shielded, the second push rod 14 stretches to push the roller 15 downwards, so that the roller 15 contacts with the ground, the base 4 is supported, then the base 4 is pushed, the base 4 and the solar cell 1 can be moved, the solar cell 1 is prevented from being shielded, after the solar cell 1 moves to a preset position, the second push rod 14 contracts, the bottom of the base 4 contacts with the ground, and the base 4 is kept stable.

The solar cell 1 can move, so that the solar cell 1 can be placed at various positions, such as roadsides, open parking lots and the like, a DC-DC converter is arranged between the first charging head 10 and the storage battery 12 and between the second charging head 11 and the storage battery 12 and is used for changing current, so that the storage battery 12 can directly charge an electric vehicle, a controller is arranged between the storage battery 12 and the solar cell 1, electricity generated by the solar cell 1 is directly transmitted to a load through the controller, the storage battery 12 and the DC-DC converter, direct current is not required to be converted into alternating current and then transmitted, and the vehicle is directly used near the solar cell 1, so that the transmission distance is greatly reduced, loss is reduced, the efficiency of power generation equipment is avoided, electricity generated by directly using the solar cell 1 is not required to be buried in the ground, and the cost is reduced.

The user can use the mobile phone to inquire the residual electric quantity of the storage battery 12 through the background system, and can also see the use conditions of the first charging head 10 and the second charging head 11, so as to charge at the corresponding positions.

The limit groove 20 on the fixed frame 2 is matched with the limit plate 17 to limit the fixed frame 2, so that all the fixed frames 2 are kept on the same plane, the fixed frame 2 is convenient to install, the number of the fixed frames 2 and the solar cells 1 can be increased and reduced according to the use condition of the storage battery 12, and the solar cells 1 are increased in places with high electricity demand so as to meet the use demand.

The foregoing description is only of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides a high-efficient solar energy collection electricity generation transmission device, includes a plurality of solar cell (1) and base (4), its characterized in that: solar cell (1) outside is equipped with fixed frame (2), connects through connecting block (16) between adjacent fixed frame (2), and base (4) top is equipped with installation piece (3), and inside battery (12) that are equipped with of installation piece (3), installation piece (3) top rotate and are connected with rotating block (5), and rotating block (5) top is connected with fixed frame (2), and solar cell (1) rotate with fixed frame (2) to be connected, and the rotation axis of solar cell (1) is mutually perpendicular with the rotation axis of rotating block (5).

2. A high efficiency solar energy harvesting, power generation and transmission mechanism as defined by claim 1 wherein: the solar cell is characterized in that a motor (9) is arranged at the edge of the fixed frame (2), a shell of the motor (9) is fixedly connected with the fixed frame (2), and the output end of the motor (9) is fixedly connected with the solar cell (1) through a connecting shaft.

3. A high efficiency solar energy harvesting, power generation and transmission mechanism as defined by claim 2 wherein: limiting plates (17) are fixedly connected to two sides of the connecting block (16), limiting grooves (20) are horizontally formed in the fixing frame (2), the limiting plates (17) can be inserted into the limiting grooves (20), threaded holes (18) are formed in the limiting plates (17), bolts (19) are arranged in the threaded holes (18), through grooves are vertically formed in the fixing frame (2), and the bolts (19) penetrate through the fixing frame (2) through the through grooves.

4. A high efficiency solar energy harvesting, power generation and transmission mechanism as defined by claim 1 wherein: the bottom of the rotating block (5) is provided with a rotating shaft (6), two ends of the rotating shaft (6) are respectively connected with two mounting plates (7) in a rotating mode, the bottoms of the mounting plates (7) are fixedly connected with the tops of the mounting blocks (3), and the side edges of the rotating shaft (6) are fixedly connected with the bottoms of the rotating block (5).

5. The efficient solar energy collection, power generation and transmission mechanism according to claim 4, wherein: the top of the installation block (3) is provided with two first push rods (8), the top of each first push rod (8) is rotationally connected with the corresponding rotating block (5), the bottom of each first push rod (8) is rotationally connected with the corresponding installation block (3), and the two first push rods (8) are respectively located on two sides of the corresponding rotating shaft (6).

6. A high efficiency solar energy harvesting, power generation and transmission mechanism as defined by claim 1 wherein: the mounting block (3) both sides all are equipped with first head (10) and the second head (11) that charges, and first head (10) and the second head (11) that charges all are connected with battery (12).

7. A high efficiency solar energy harvesting, power generation and transmission mechanism as defined by claim 1 wherein: a plurality of bottom slots (13) are formed in the bottom of the base (4), a second push rod (14) is fixedly connected to the top end inside the bottom slots (13), and rollers (15) are installed at the bottoms of the second push rods (14).