CN220401633U - Through-flow type vertical axis wind-solar generator - Google Patents

Abstract

The utility model discloses a through-flow type vertical axis wind-solar generator, which relates to the technical field of power generation equipment and comprises a rotating end head, a first shaft sleeve and a second shaft sleeve, wherein the rotating end head is rotationally connected to the first shaft sleeve, rotating blades are distributed on the outer wall of the rotating end head, the through-flow type vertical axis wind-solar generator further comprises a photovoltaic power generation box, the photovoltaic power generation box is positioned between the first shaft sleeve and the second shaft sleeve and is used for photovoltaic power generation, and the first shaft sleeve and the second shaft sleeve are respectively in an integrated structure with the top and the bottom of the photovoltaic power generation box. According to the generator provided by the utility model, the vertical axis wind motor and the photovoltaic power generation are combined, two different power generation modes are realized through wind power and light energy, and corresponding power generation modes can be selected according to different conditions, so that the problem of limitation of wind power generation caused by too small wind power is avoided.

Description

Through-flow type vertical axis wind-solar generator

Technical Field

The utility model relates to the technical field of power generation equipment, in particular to a through-flow type vertical axis wind-solar generator.

Background

The existing wind driven generator is mainly divided into a horizontal axis wind driven generator and a vertical axis wind driven generator, for the horizontal axis wind driven generator, the position of a rotating blade is fixed, so that the rotating blade is limited by wind direction, and for the vertical axis wind driven generator, the vertical axis wind driven generator has the advantages that the rotating blade is not influenced by wind direction, and meanwhile, the structure is simple, and the gyroscopic force of a wind wheel to wind is reduced.

For the wind driven generator, wind drives the blades to rotate, and is connected with related power generation equipment through the rotating shaft, and electric energy is converted by mechanical energy, so that power generation is realized, therefore, wind power is taken as a power source, the power generation efficiency depends on the magnitude of wind power, when the wind power is smaller, the rotation speed of the blades is lower or the rotation is not generated, the generated power is too little and the condition that the power cannot be generated is caused, and the wind driven generator cannot always maintain the power generation state due to the dependence of the wind power, so that the problem of limitation of power generation of a machine body is caused.

Disclosure of Invention

The present utility model has been made in view of the above-described problems with the conventional wind power generator.

Therefore, the utility model aims to provide a through-flow type vertical axis wind-light generator, which solves the problem that the wind-light generator is limited by wind power to cause generation limitation.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model provides a through-flow type vertical axis wind-solar generator, includes rotation end, first axle sleeve and second axle sleeve, rotation end rotates to be connected on first axle sleeve, it has rotor blade to rotate on the outer wall of end to distribute, still includes the photovoltaic power generation case, is located between first axle sleeve and the second axle sleeve for photovoltaic power generation, first axle sleeve and second axle sleeve are integrated structure with the top and the bottom of photovoltaic power generation case respectively, the four-end rotation of photovoltaic power generation case is connected with the carrier plate, the gomphosis has the photovoltaic board in the carrier plate, the four-end of the inside topside of photovoltaic power generation case is provided with the carrier plate regulating box, be equipped with the wire reel in the carrier plate regulating box, the line body link on the wire reel runs through carrier plate regulating box and is connected with the carrier plate, the axis of rotation, axis one end is connected with rotation end, and the other end runs through first axle sleeve, photovoltaic power generation case and second axle sleeve in proper order and the organism in the ground base for the transmission of mechanical energy when rotor blade moves.

Preferably, the axial flow blades are arranged on the shaft body penetrating through the inside of the photovoltaic power generation box, and the axial flow blades and the outer wall of the rotating shaft are of an integrated structure and are uniformly distributed according to the outer wall of the rotating shaft.

Preferably, the four ends in the bottom of photovoltaic power generation case are provided with limit baffle, limit baffle is integrated with photovoltaic power generation case, be fixed with the magnetic sheet on limit baffle's the junction surface, the support plate is made by the metal material, and is connected with the magnetic sheet absorption.

Preferably, the two sides of the carrier plate are provided with ring buckles, the ring buckles are locked and fixed with the wire body connecting ends of the wire spool, and one end of the carrier plate opposite to the rotating connecting ends is in a conical structure.

Preferably, the carrier plate regulating box is internally provided with a wire groove and an equipment groove, a motor is fixed in the equipment groove, the wire groove is provided with two wire reels, the wire reels are rotationally connected in the two wire grooves, the two wire reels in the wire grooves are fixedly connected through a shaft rod, and the driving end of the motor is connected with the wire reels in one of the two wire grooves.

Preferably, a control box is arranged at the bottom of one end of the carrier plate adjusting box, motor control equipment is arranged in the control box, and the motor control equipment is connected with a motor.

In the technical scheme, the utility model has the technical effects and advantages that:

1. according to the generator, the vertical axis wind motor and the photovoltaic power generation are combined, two different power generation modes are realized through wind power and light energy, and corresponding power generation modes can be selected according to different conditions, so that the problem that the wind power generation limitation is caused due to the fact that the wind power generator is limited by wind power is solved.

2. The photovoltaic power generation part of the generator integrally adopts a box body connecting structure, and the photovoltaic panel is unfolded and stored through the carrier plate with four ends capable of being telescopic, so that the photovoltaic panel can be effectively protected in special weather while photovoltaic power generation is realized.

3. The photovoltaic power generation part and the wind power generation part of the generator are independent two power generation structures, the two power generation structures are not mutually influenced, after the photovoltaic panel is unfolded, the carrier plate is in a flat state, wind power can penetrate through the box body, resistance can not be generated on the whole equipment, and meanwhile, the penetrated wind power can drive the axial flow blades on the rotating shaft in the box body to rotate, so that an auxiliary effect is provided for wind power generation.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a block diagram of the wind-solar generator of the present utility model;

FIG. 2 is a block diagram of a photovoltaic power generation box of the present utility model;

FIG. 3 is a diagram of a rotary shaft connection structure of the present utility model;

FIG. 4 is an external view of the carrier plate adjusting box of the present utility model;

fig. 5 is a diagram showing an internal structure of the carrier plate adjusting box of the present utility model.

Reference numerals illustrate:

1. rotating the end head; 2. a photovoltaic power generation box; 3. a first sleeve; 4. a second sleeve; 5. a limit baffle; 6. a rotating shaft; 7. a carrier plate; 8. a photovoltaic panel; 9. axial flow blades; 10. a carrier plate adjusting box; 11. a control box; 12. a wire slot; 13. an equipment tank; 14. a motor; 15. and a wire spool.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

The embodiment of the utility model discloses a through-flow type vertical axis wind-solar generator.

The utility model provides a through-flow type vertical axis wind-solar generator as shown in figures 1-5, which comprises a rotating end head 1, a first shaft sleeve 3 and a second shaft sleeve 4;

wherein it also relates to the photovoltaic power generation box 2 and the rotating shaft 6;

the rotary end head 1 is rotationally connected to the first shaft sleeve 3, and rotary blades are distributed on the outer wall of the rotary end head 1;

secondly, the photovoltaic power generation box 2 is positioned between the first shaft sleeve 3 and the second shaft sleeve 4, the first shaft sleeve 3 and the second shaft sleeve 4 are respectively in an integrated structure with the top and the bottom of the photovoltaic power generation box 2, the four ends of the photovoltaic power generation box 2 are rotationally connected with the carrier plates 7, the photovoltaic plates 8 are embedded in the carrier plates 7, the four ends of the top side inside the photovoltaic power generation box 2 are provided with carrier plate adjusting boxes 10, a wire spool 15 is arranged in each carrier plate adjusting box 10, and wire body connecting ends on the wire spools 15 penetrate through the carrier plate adjusting boxes 10 and are connected with the carrier plates 7;

one end of a rotating shaft 6 of the rotating shaft 6 is connected with the rotating end head 1, and the other end sequentially penetrates through the first shaft sleeve 3, the photovoltaic power generation box 2 and the second shaft sleeve 4 to be connected with a machine body in the ground base;

in summary, the operation of the wind power generator and the photovoltaic power generator can be divided into different application situations, and the specific description is as follows;

in the first scenario, during sunny days, a motor 14 in a carrier plate adjusting box 10 is started through a control end of the ground, the motor 14 realizes the expansion of four-end carrier plates 7 of a photovoltaic power generation box 2 by paying off a wire reel 15, after the flat arrangement, a photovoltaic plate 8 on the carrier plate 7 generates power through illumination, and the power is stored through power collecting equipment on the ground, at the moment, wind power drives a rotating blade on a rotating end to rotate, meanwhile, the wind power also penetrates through the photovoltaic power generation box 2, the rotating shaft 6 is assisted to rotate through an axial flow blade 9, and the mechanical energy and the electric energy are converted through a generator body on the ground;

in the second scenario, in the cloudy day, the carrier plate 7 is in a storage state to provide protection for the photovoltaic plate 8, and meanwhile, the stored carrier plate 7 cannot influence the rotation of the rotating end head 1;

according to the above description, for the control of the expansion and the storage of the carrier plate 7, in this case, the control end is used for manual control, and a light sensor can be installed on the photovoltaic power generation box 2, and an automatic execution control system is installed in the control box 11, so that automatic control is realized;

in order to adapt to the rotation process of the rotating end, as shown in fig. 2 and 3, specifically, an axial flow blade 9 is arranged on a shaft body penetrating through the inside of the photovoltaic power generation box 2 of the rotating shaft 6, and the axial flow blade 9 and the outer wall of the rotating shaft 6 are in an integrated structure and are uniformly distributed according to the outer wall of the rotating shaft 6;

based on the above, further explanation, when the carrier plates 7 of the photovoltaic power generation box 2 are unfolded at the same time, the box body is in a opposite-passing structure, so that wind can pass through and circulate, and when wind power drives the rotating blades to rotate, the wind passing through the box body can drive the axial flow blades 9 to rotate, so that an auxiliary effect is provided for the rotation of the rotating blades;

meanwhile, in order to ensure the integral limit of the unfolded carrier plate, as shown in fig. 1 and 2, limit baffles 5 are arranged at the four ends of the bottom of the photovoltaic power generation box 2, the limit baffles 5 and the photovoltaic power generation box 2 are in an integrated structure, magnetic sheets are fixed on the connecting surface of the limit baffles 5, and the carrier plate 7 is made of metal materials and is in adsorption connection with the magnetic sheets;

specifically, the limit baffle 5 provides bearing for the carrier plate 7, so that the carrier plate 7 is in a horizontal state after being unfolded, the ventilation of wind force is facilitated, and the carrier plate 7 is required to be limited, so that the limit and the stability of the carrier plate 7 after being unfolded are ensured by adopting magnetic adsorption limit in the structure;

it should be noted that, the force generated by the motor 14 driving the wire spool 15 is greater than the acting force generated by the adsorption of the carrier plate 7, and for the model of the motor 14, only the corresponding power motor is required to be met;

the two sides of the carrier plate 7 are provided with the buckles, the buckles are locked and fixed with the wire connecting ends of the wire reel 15, as shown in fig. 2, the opposite ends of the rotating connecting ends of the carrier plate 7 are in a conical structure, the buckles realize the connection of the carrier plate 7 and the wire winding, the carrier plate 7 is convenient to unfold and store, the conical structure is matched with the carrier plate which is in a horizontal state after unfolding, wind can be split, and resistance generated by the carrier plate 7 is reduced;

in order to realize the unfolding and the storage of the carrier plate, referring to fig. 4 and 5, a wire groove 12 and an equipment groove 13 are arranged in the carrier plate adjusting box 10, a motor 14 is fixed in the equipment groove 13, two wire grooves 12 are arranged, a wire spool 15 is rotationally connected in the two wire grooves 12, the wire spools 15 in the two wire grooves 12 are fixedly connected through a shaft rod, and a driving end of the motor 14 is connected with the wire spool 15 in one of the two wire grooves 12;

furthermore, the two wire reels 15 need to realize synchronous transmission, so that the carrier plate 7 can be unfolded and stored, and the synchronism of the wire winding transmission and the uniformity of the stress of the carrier plate are effectively ensured;

in the aspect of motor control, specifically, a control box 11 is arranged at the bottom of one end of a carrier plate adjusting box 10, motor control equipment is arranged in the control box 11, and the motor control equipment is connected with a motor;

it should be noted that, the rotating shaft 6 will penetrate through the second shaft sleeve 4, as shown in fig. 2 and 3, the shaft diameter of the rotating shaft 6 will be smaller than that of the shaft sleeve, so that a line penetrating gap will be generated between the shaft sleeve and the shaft body, meanwhile, as shown in fig. 2, a corresponding through hole is formed in the bottom surface of the photovoltaic power generation box 2, the through hole is opposite to the gap, one end of the line connected with the photovoltaic panel 8 will be fixed on the photovoltaic panel 8, the other end of the line connected with the photovoltaic panel 8 is connected with the electric power collecting device on the ground through the through hole, the line of the motor control device will be distributed along the inner wall of the supporting seat at four ends of the photovoltaic power generation box 2 and fixed, and also the line located in the second shaft sleeve 4 will be fixed on the inner wall of the shaft sleeve, and a certain length is reserved for the line connected with the photovoltaic panel 8, so that the photovoltaic panel 8 can be unfolded and stored conveniently.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. The utility model provides a through-flow type vertical axis wind-solar generator, includes rotation end (1), first axle sleeve (3) and second axle sleeve (4), rotation end (1) rotate and connect on first axle sleeve (3), it has rotor blade to distribute on the outer wall of rotation end (1), its characterized in that still includes:

the photovoltaic power generation box (2) is positioned between the first shaft sleeve (3) and the second shaft sleeve (4) and is used for photovoltaic power generation, the first shaft sleeve (3) and the second shaft sleeve (4) are respectively in an integrated structure with the top and the bottom of the photovoltaic power generation box (2), the carrier plate (7) is rotationally connected with the four ends of the photovoltaic power generation box (2), the photovoltaic plate (8) is embedded in the carrier plate (7), the carrier plate regulating box (10) is arranged at the four ends of the top side inside the photovoltaic power generation box (2), the winding reel (15) is arranged in the carrier plate regulating box (10), and the wire connecting end on the winding reel (15) penetrates through the carrier plate regulating box (10) and is connected with the carrier plate (7);

the rotating shaft (6), axis of rotation (6) one end is connected with rotating end (1), and the other end runs through first axle sleeve (3), photovoltaic power generation case (2) and second axle sleeve (4) in proper order and is connected with the organism in the ground base for when rotor blade moves, the transmission of mechanical energy.

2. The through-flow type vertical-axis wind-solar generator according to claim 1, wherein the rotating shaft (6) is provided with axial flow blades (9) on a shaft body penetrating through the photovoltaic power generation box (2), and the axial flow blades (9) and the outer wall of the rotating shaft (6) are of an integrated structure and are uniformly distributed according to the outer wall of the rotating shaft (6).

3. The through-flow type vertical axis wind-solar generator according to claim 1, wherein a limit baffle (5) is arranged at the bottom four ends of the photovoltaic power generation box (2), the limit baffle (5) and the photovoltaic power generation box (2) are of an integrated structure, magnetic sheets are fixed on the connecting surface of the limit baffle (5), and the carrier plate (7) is made of metal materials and is in adsorption connection with the magnetic sheets.

4. The through-flow type vertical-axis wind-solar generator according to claim 1, wherein the two sides of the carrier plate (7) are provided with ring buckles, the ring buckles are locked and fixed with the wire body connecting end of the wire spool (15), and one end of the carrier plate (7) opposite to the rotating connecting end is in a conical structure.

5. The through-flow type vertical-axis wind-solar generator according to claim 1, wherein a wire groove (12) and an equipment groove (13) are formed in the carrier plate adjusting box (10), a motor (14) is fixed in the equipment groove (13), two wire grooves (12) are formed in the wire groove (12), wire reels (15) are rotationally connected in the two wire grooves (12), the wire reels (15) in the two wire grooves (12) are fixedly connected through a shaft rod, and a driving end of the motor (14) is connected with the wire reels (15) in one of the two wire grooves (12).

6. The through-flow type vertical-axis wind-solar generator according to claim 1, wherein a control box (11) is arranged at the bottom of one end of the carrier plate adjusting box (10), motor control equipment is arranged in the control box (11), and the motor control equipment is connected with a motor.