CN115733435A

CN115733435A - Photovoltaic generator with strong wind resistance

Info

Publication number: CN115733435A
Application number: CN202310022566.3A
Authority: CN
Inventors: 滕孝满
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-01-08
Filing date: 2023-01-08
Publication date: 2023-03-03

Abstract

The invention belongs to the technical field of photovoltaic power generation, and relates to a photovoltaic generator with strong wind resistance. The invention provides a strong wind-resistant photovoltaic generator which can reduce the contact area of a photovoltaic panel and wind, can avoid wind force, prevent the photovoltaic panel from slowly moving and avoid the photovoltaic panel from being damaged by strong wind. The invention provides a photovoltaic generator with strong wind resistance, which comprises a base, a support, a folding mechanism and a lifting mechanism, wherein the support is arranged at the front part of the base, a photovoltaic component is arranged at the upper part of the support, the folding mechanism and the lifting mechanism are arranged on the base, the folding mechanism is used for folding the photovoltaic component to reduce the contact area of the photovoltaic component and wind, and the lifting mechanism is used for moving the folded photovoltaic component to the base to avoid wind power. Folding mechanism reduces the area of photovoltaic module and wind contact, and elevating system makes the photovoltaic board move down to the base on in order to avoid wind-force, prevents that the photovoltaic board from slowing down, avoids strong wind to damage the photovoltaic board, has solved the problem that the photovoltaic board was destroyed by strong wind.

Description

Photovoltaic generator with strong wind resistance

Technical Field

The invention belongs to the technical field of photovoltaic power generation, and relates to a photovoltaic generator with strong wind resistance.

Background

Photovoltaic power generation is a technology of directly converting light energy into electric energy by using the photovoltaic effect of a semiconductor interface. Photovoltaic generator utilizes the light energy source of sunlight to generate electricity usually, in order to make photovoltaic generator fully receive the sunlight, current photovoltaic generator is placed mostly and is used in spacious place that does not have the shelter from to the photovoltaic board is the slope setting, however, when the big bad weather of wind-force intensity, the wind of horizontal direction can produce powerful thrust to the photovoltaic board, and fixed photovoltaic board is promoted by wind-force for a long time originally, causes the damage easily, thereby reduces life.

For example, patent publication No. CN214315154U and publication No. 20210928 disclose a wind-resistant protection device for a photovoltaic power station, which is provided with a sliding component matching with a first rotating column and an elastic component, so that when the device is blown by a large wind, the windward area is reduced, and the device is stable, after the wind is reduced, the photovoltaic component recovers to the original position due to the action of the elastic component, and this way enables the photovoltaic component to continuously slow down due to the elastic component after being subjected to a certain wind force, which easily causes falling of internal parts (for example, nuts and screws are loosened), thereby causing damage, and failing to actually solve the fundamental technical problem.

According to the defects in the prior art, the photovoltaic generator with strong wind resistance is designed, which can overcome the defects in the prior art, not only can reduce the contact area of the photovoltaic panel and wind, but also can avoid wind power, prevent the photovoltaic panel from slowing down and avoid the photovoltaic panel from being damaged by strong wind.

Disclosure of Invention

The invention aims to overcome the defects that the prior art can be slowly moved continuously after being subjected to a little wind force, internal parts are easy to fall off to cause damage, and the fundamental technical problem cannot be actually solved.

In order to solve the technical problem, the invention provides a photovoltaic generator with strong wind resistance, which comprises a base, a support, a folding mechanism and a lifting mechanism, wherein the support is arranged at the front part of the base, a photovoltaic component is arranged at the upper part of the support, the support is arranged at the inner side of the front part of the base in a sliding manner, the photovoltaic component is movably arranged on the support, the folding mechanism and the lifting mechanism are arranged on the base, the folding mechanism is used for folding the photovoltaic component to reduce the contact area of the photovoltaic component and wind, and the lifting mechanism is used for moving the folded photovoltaic component to the base to avoid wind power.

Preferably, the photovoltaic module comprises two photovoltaic panels hinged to the front side and the rear side of the upper portion of the support respectively, the two photovoltaic panels are in an unfolding state and a folding state, the unfolding state and the folding state are obliquely connected into a straight line, the two photovoltaic panels are suitable for being converted between the unfolding state and the folding state through external force, the photovoltaic panels in the unfolding state are used for normally generating electricity, and the photovoltaic panels in the folding state are used for resisting wind power.

Preferably, folding mechanism is equipped with the slide including slide and electric telescopic handle, the equal slip of rear side of two photovoltaic boards in front and back, and two electric telescopic handle that set up around are installed to the lower part of support, and two electric telescopic handle's piston rod in front and back rotates with two slides in front and back respectively and links to each other, and the slide is suitable for and drives the photovoltaic board and change between the state of expandeing and packing up under electric telescopic handle's drive.

Preferably, the lifting mechanism comprises a guide rod, a screw rod, a rotating rod and air plates, the guide rod is connected to the left side and the right side of the base, the guide rod is sleeved with the support in a sliding mode, the screw rod is rotatably arranged on the right side of the rear portion of the base, the support is in threaded connection with the screw rod, the rotating rod is connected to the upper side of the screw rod, three air plates in spoon shapes are connected to the upper end of the rotating rod, and the three air plates are rotationally symmetrical and evenly arranged at intervals.

Preferably, the folding mechanism further comprises a wind sensor and a controller, the wind sensor is mounted on the photovoltaic panel, and the controller is mounted on the right side of the base and electrically connected with the electric telescopic rod and the wind sensor respectively.

Preferably, the wind power generator further comprises baffles, the left side and the right side of the base are connected with the baffles for resisting wind power, and the baffles protrude towards the direction far away from the base and are used for dispersing impact of the wind power.

Preferably, still including being used for covering the mechanism of covering of aerofoil after the photovoltaic board is packed up, cover the mechanism including carriage, compression spring, protection casing and wedge frame, the lower part sliding sleeve of bull stick is equipped with the carriage, is connected with compression spring between carriage and the bull stick, and the upper portion of carriage is connected with the protection casing that is located directly over the aerofoil, and the upside of right-hand baffle slides and is equipped with the wedge frame that is used for blocking the carriage.

Preferably, still including reset spring, contact lever and wedge pole, be connected with reset spring between wedge frame and the baffle, the front side of wedge frame is connected with the contact lever, and the upper portion right side of support is connected with the wedge pole that is used for extrudeing the contact lever.

Preferably, the photovoltaic panel support further comprises a support rod, and the support rod for supporting the upper photovoltaic panel is connected to the rear side of the upper portion of the support.

Preferably, the shape of the protective cover is circular and streamlined for overcoming the resistance of the wind.

On the basis of overcoming the defects of the prior art, the invention can also achieve the following beneficial effects:

1. folding mechanism reduces the area of photovoltaic module and wind contact, and elevating system makes the photovoltaic board move down to the base on in order to avoid wind-force, prevents that the photovoltaic board from slowing down, avoids strong wind to damage the photovoltaic board, has solved the problem that the photovoltaic board was destroyed by strong wind.

2. When strong wind power comes, the baffle can disperse the impact of the wind power so as to resist the wind power and further achieve the effect of strong wind resistance.

3. The wind plate is protected by the protective cover when the photovoltaic plate is folded, so that the wind plate is prevented from rotating due to continuous wind force, and the phenomenon that the wind plate is always pushed by wind to be damaged is avoided.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a part of the folding mechanism and the lifting mechanism of the present invention.

Fig. 3 is a diagram showing the connection relationship between the support, the photovoltaic panel and the support according to the present invention.

Fig. 4 is a rear view of the present invention.

Fig. 5 is a schematic perspective view of the stand and the lifting mechanism of the present invention.

Fig. 6 is a schematic perspective view of the base and the baffle of the present invention.

Fig. 7 is a partial perspective view of the covering mechanism of the present invention.

Fig. 8 is an enlarged view of the invention at a.

The labels in the figures are: 1-base, 2-bracket, 3-photovoltaic panel, 4-folding mechanism, 41-sliding plate, 42-electric telescopic rod, 43-wind power sensor, 44-controller, 5-lifting mechanism, 51-guide rod, 52-lead screw, 53-rotating rod, 54-wind plate, 6-baffle, 7-covering mechanism, 71-sliding frame, 72-compression spring, 73-protecting cover, 74-wedge frame, 75-reset spring, 8-contact rod, 81-wedge rod and 9-supporting rod.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a photovoltaic generator that anti wind-force is strong, as shown in fig. 1, including base 1, support 2, folding mechanism 4 and elevating system 5, the front portion of base 1 is equipped with support 2, the upper portion of support 2 is equipped with photovoltaic module, support 2 slides and establishes the anterior inboard at base 1, photovoltaic module activity is established on support 2, be equipped with folding mechanism 4 and elevating system 5 on the base 1, folding mechanism 4 is used for packing up photovoltaic module in order to reduce the area of photovoltaic module and wind contact, elevating system 5 is used for moving the photovoltaic module who packs up to base 1 on in order to avoid wind-force.

As shown in fig. 3, the photovoltaic module includes two photovoltaic panels 3 hinged to the front and rear sides of the upper portion of the support 2, respectively, the two photovoltaic panels 3 have an unfolded state in which they are obliquely arranged to be connected in a straight line and a folded state in which they are folded to be perpendicular to each other, and are adapted to be switched between the unfolded state and the folded state by an external force, the photovoltaic panels 3 in the unfolded state are used for normal power generation, and the photovoltaic panels 3 in the folded state are used for resisting wind force.

The working principle is as follows: an operator can apply a corresponding technical scheme in the device to the technology of a photovoltaic generator with strong wind resistance according to specific conditions, initially, the photovoltaic panel 3 is in a normally-generated unfolding state, when the device is required to be used, firstly, when strong wind power comes, the photovoltaic panel 3 is folded and folded through the folding mechanism 4 so as to reduce the contact area of a photovoltaic component and wind, after the photovoltaic panel 3 is folded, the support 2 drives the folded photovoltaic panel 3 to move downwards onto the base 1 through the lifting mechanism 5 so as to avoid the wind power, thereby avoiding the photovoltaic panel 3 from being damaged by the strong wind, solving the problem that the photovoltaic panel 3 is damaged by the strong wind, achieving the effect of strong wind resistance, meanwhile, the lower photovoltaic panel 3 can move downwards into the base 1, the upper photovoltaic panel 3 can move downwards to the top of the base 1, the photovoltaic panel 3 can still normally perform the photovoltaic power generation function through the upper photovoltaic panel 3, and after the strong wind moves backwards, the support 2 drives the photovoltaic panel 3 to move upwards from the base 1 through the lifting mechanism 5, and then the folding mechanism 4 enables the photovoltaic panel 3 to be conveniently and quickly operated so that the photovoltaic panel 3 can be unfolded.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 4, the folding mechanism 4 includes a sliding plate 41 and an electric telescopic rod 42, the sliding plate 41 is slidably disposed on the rear side of the right portion of the front and rear photovoltaic panels 3, two electric telescopic rods 42 which are disposed in the front and rear direction and are perpendicular to each other are mounted on the lower portion of the support 2 in a screw connection manner, piston rods of the front and rear electric telescopic rods 42 are rotatably connected with the front and rear sliding plates 41, and the sliding plates 41 are adapted to drive the photovoltaic panels 3 to be switched between the unfolding state and the folding state under the driving of the electric telescopic rods 42.

As shown in fig. 4 and 5, the lifting mechanism 5 includes guide rods 51, a screw rod 52, a rotating rod 53 and wind plates 54, the guide rods 51 are bolted to the left and right sides of the base 1, wherein the two guide rods 51 are bolted to the left side of the base 1, the guide rod 51 is bolted to the right side of the base 1, the support 2 is slidably sleeved on the guide rods 51, the screw rod 52 is rotatably arranged on the right side of the rear portion of the base 1, the support 2 is in threaded connection with the screw rod 52, the rotating rod 53 is bolted to the upper side of the screw rod 52, three wind plates 54 in the shape of a spoon are welded to the upper end of the rotating rod 53, and the three wind plates 54 are rotationally symmetric and are uniformly spaced.

As shown in fig. 3, the folding mechanism 4 further includes a wind sensor 43 and a controller 44, the wind sensor 43 is installed on the upper portion of the upper photovoltaic panel 3 through a screw connection manner, and the controller 44 electrically connected to the electric telescopic rod 42 and the wind sensor 43 is installed on the right side of the base 1 through a screw connection manner.

Initially, the electric telescopic rod 42 is in an extended state, when strong wind power comes, the wind sensor 43 controls the electric telescopic rod 42 to shorten through the controller 44, the piston rod of the electric telescopic rod 42 can drive the photovoltaic panel 3 to rotate through the sliding plate 41, the sliding plate 41 can slide on the photovoltaic panel 3, so that the photovoltaic panel 3 can be automatically and synchronously packed up when strong wind power comes, the support rod 9 can support the photovoltaic panel 3 above, the stability is improved, meanwhile, the wind panel 54 can be driven by the wind power to drive the screw rod 52 to rotate through the rotating rod 53, the screw rod 52 can drive the support 2 to move downwards, so that the packed photovoltaic module can be automatically and synchronously moved onto the base 1 when strong wind power comes, manual operation of an operator is not needed, the synchronism and automation of the device are improved, then after the strong wind goes back, the screw rod 52 is driven to reversely rotate through the rotating rod 53, the screw rod 52 can drive the support 2 to move upwards to move out of the photovoltaic telescopic rod 3, and then the electric telescopic rod 42 is controlled to extend, the piston rod of the electric telescopic rod 42 can drive the photovoltaic panel 3 to reversely rotate through the sliding plate 3, and the photovoltaic telescopic rod can be unfolded through the photovoltaic panel 3.

Example 3

On the basis of the embodiment 2, as shown in fig. 6, the wind-resistant base further comprises baffles 6, the baffles 6 for resisting wind force are bolted on the left side and the right side of the base 1, and the baffles 6 are protruded in the direction away from the base 1 for dispersing the impact of the wind force.

As shown in fig. 1, 7 and 8, the photovoltaic panel 3 is folded and then covered by a covering mechanism 7 of the wind panel 54, the covering mechanism 7 includes a sliding frame 71, a compression spring 72, a protecting cover 73 and a wedge-shaped frame 74, the sliding frame 71 is slid on the lower portion of the rotating rod 53, the compression spring 72 is connected between the sliding frame 71 and the rotating rod 53, the protecting cover 73 is bolted on the upper portion of the sliding frame 71 and is located right above the wind panel 54, the protecting cover 73 is circular and is of a streamline type for overcoming the resistance of wind, and the wedge-shaped frame 74 for blocking the sliding frame 71 is slid on the upper side of the right baffle plate 6.

As shown in fig. 7, the device further comprises a return spring 75, a contact rod 8 and a wedge rod 81, the return spring 75 is connected between the wedge frame 74 and the baffle 6, the contact rod 8 is bolted to the front side of the wedge frame 74, and the wedge rod 81 for pressing the contact rod 8 is bolted to the right side of the upper part of the bracket 2.

As shown in fig. 3, a support rod 9 is further included, and the upper rear side of the bracket 2 is bolted with the support rod 9 for supporting the upper photovoltaic panel 3.

Initially, the sliding frame 71 is clamped by the wedge frame 74, the compression spring 72 is in a compressed state, when strong wind power comes, the baffle 6 disperses the impact of the wind power to resist the wind power, and further achieves the effect of resisting the strong wind power, then the rotating rod 53 rotates to drive all components arranged thereon to rotate through the sliding frame 71, then when the support 2 is about to drive the photovoltaic panel 3 to move down to the base 1, the support 2 continues to move down to drive the wedge rod 81 to move down to press the contact rod 8 to move forward, the contact rod 8 drives the wedge frame 74 to move forward, the return spring 75 resets, the sliding frame 74 moves forward to release the sliding frame 71, the compression spring 72 resets, the sliding frame 71 moves downward under the action of the return of the compression spring 72 and drives the protective cover 73 to move downward to cover the wind panel 54, thereby preventing the wind panel 54 from continuing to rotate under the wind power, thereby preventing the wind panel 54 from being damaged by being pushed by the wind, then the phenomenon that the wind panel 81 moves upward to release the contact rod 8, the spring 75, the wedge frame 74 continues to move upward to press the sliding frame 71 under the action of the return spring 73, and then the sliding frame 71 moves upward to move again, and then the sliding frame 71 moves away from the return spring 75, thereby moving the sliding frame 71 again, and then the sliding frame 71 again drives the sliding frame 71 to move upward.

The above-mentioned embodiments only express the preferred embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as the limitation of the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a photovoltaic generator that anti wind-force is strong, including base (1) and support (2), the front portion of base (1) is equipped with support (2), the upper portion of support (2) is equipped with photovoltaic module, a serial communication port, still including folding mechanism (4) and elevating system (5), support (2) slide to be established at the anterior inboard of base (1), photovoltaic module activity is established on support (2), be equipped with folding mechanism (4) and elevating system (5) on base (1), folding mechanism (4) are used for packing up photovoltaic module in order to reduce the area of photovoltaic module and wind contact, elevating system (5) are used for moving the photovoltaic module after packing up to base (1) on in order to avoid wind-force.

2. A wind resistant photovoltaic generator as claimed in claim 1, characterized in that the photovoltaic module comprises two photovoltaic panels (3) hinged to the upper front and rear sides of the frame (2), respectively, the two photovoltaic panels (3) having an unfolded state in which they are obliquely arranged in a line and a folded state in which they are folded perpendicular to each other and adapted to be switched between the unfolded state and the folded state by an external force, the photovoltaic panels (3) in the unfolded state being used for normal power generation and the photovoltaic panels (3) in the folded state being used for resisting wind.

3. The wind-resistant photovoltaic generator according to claim 2, wherein the folding mechanism (4) comprises a sliding plate (41) and electric telescopic rods (42), the sliding plate (41) is arranged at the rear side of each of the front photovoltaic panel (3) and the rear photovoltaic panel (3) in a sliding manner, the two electric telescopic rods (42) arranged in the front and the rear are mounted at the lower part of the support (2), piston rods of the front electric telescopic rods (42) and the rear electric telescopic rods (42) are respectively connected with the front sliding plate (41) and the rear sliding plate (41) in a rotating manner, and the sliding plate (41) is suitable for driving the photovoltaic panels (3) to be switched between the unfolded state and the folded state under the driving of the electric telescopic rods (42).

4. The wind-resistant photovoltaic generator according to claim 1, wherein the lifting mechanism (5) comprises a guide rod (51), a screw rod (52), a rotating rod (53) and wind plates (54), the guide rod (51) is connected to the left side and the right side of the base (1), the support (2) is sleeved on the guide rod (51) in a sliding mode, the screw rod (52) is arranged on the right side of the rear portion of the base (1) in a rotating mode, the support (2) is in threaded connection with the screw rod (52), the rotating rod (53) is connected to the upper side of the screw rod (52), three wind plates (54) in a spoon shape are connected to the upper end of the rotating rod (53), and the three wind plates (54) are rotationally symmetrical and are evenly arranged at intervals.

5. The wind-resistant photovoltaic generator according to claim 3, wherein the folding mechanism (4) further comprises a wind sensor (43) and a controller (44), the wind sensor (43) is installed on the photovoltaic panel (3), and the controller (44) electrically connected with the electric telescopic rod (42) and the wind sensor (43) is installed on the right side of the base (1).

6. The wind-resistant photovoltaic generator according to claim 4, further comprising a baffle (6), wherein the baffle (6) for resisting wind force is connected to both the left and right sides of the base (1), and the baffle (6) protrudes in a direction away from the base (1) to disperse the impact of wind force.

7. The wind-resistant photovoltaic generator according to claim 6, further comprising a covering mechanism (7) for covering the wind plate (54) after the photovoltaic plate (3) is retracted, wherein the covering mechanism (7) comprises a sliding frame (71), a compression spring (72), a protective cover (73) and a wedge-shaped frame (74), the sliding frame (71) is arranged on the lower portion of the rotating rod (53) in a sliding manner, the compression spring (72) is connected between the sliding frame (71) and the rotating rod (53), the protective cover (73) located right above the wind plate (54) is connected to the upper portion of the sliding frame (71), and the wedge-shaped frame (74) used for blocking the sliding frame (71) is slidably arranged on the upper side of the right baffle (6).

8. The wind-resistant photovoltaic generator as claimed in claim 7, further comprising a return spring (75), a contact rod (8) and a wedge rod (81), wherein the return spring (75) is connected between the wedge frame (74) and the baffle (6), the contact rod (8) is connected to the front side of the wedge frame (74), and the wedge rod (81) for extruding the contact rod (8) is connected to the right side of the upper portion of the support (2).

9. A wind-resistant photovoltaic generator as claimed in claim 2, characterized by further comprising a support bar (9), the upper rear side of the support frame (2) being connected to the support bar (9) for supporting the upper photovoltaic panel (3).

10. A wind resistant photovoltaic generator as claimed in claim 7, characterized in that the shape of the protective cover (73) is circular and streamlined for overcoming the resistance of the wind.