JP6807508B1 - Photovoltaic power generator with protection function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a photovoltaic power generation device having a protective function. SOLUTION: The photovoltaic power generation device with a protection function described in the present application includes a main body, the main body is fixedly mounted on the ground, a rotary groove is formed in the main body, and a lower end of the rotary groove is formed. A fixed gear is fixedly installed in the wall, an angle adjusting device is rotatably mounted in the rotating groove, and the photovoltaic power generation device with a protection function described in the present application has a solar irradiation angle. Since the installation angle of the solar panel can be adjusted according to the above, the conversion rate of solar energy can be improved, and in addition, the angle of the reflector can be adjusted by rotating the protective plate to improve the light collection degree, and the protective plate can be used. By wrapping the solar panel in bad weather, you can protect the solar panel and extend the life of the solar panel. [Selection diagram] Fig. 1

Description

The present invention relates to the field of photovoltaic power generation technology, and specifically, is a photovoltaic power generation device having a protection function.

In the conventional photovoltaic power generation device, since the installation angle of the solar panel cannot be adjusted, it is impossible to improve the conversion rate according to the actual irradiation angle of the sun. In addition, since solar panels rely on sunlight, the utilization rate for sunlight decreases when the sunlight is weak or when the irradiation angle of the sunlight shifts. In addition, solar panels are usually installed high up to facilitate the absorption of solar energy, which can be damaged in bad weather and shorten their lifespan. The present invention is an apparatus capable of solving the above problems.

Chinese Patent Application Publication No. 108923741

Conventional photovoltaic power generators have a low conversion rate and do not have a protective device installed on the solar panel, so the solar panel is easily damaged in bad weather.

In order to solve the above problems, the present application designs a solar power generation device with a protective function, and the solar power generation device with a protective function described in the present application includes a main body, and the main body is fixedly mounted on the ground. A rotary groove is formed in the main body, a fixed gear is fixedly installed in the lower end wall of the rotary groove, and an angle adjusting device is rotatably mounted in the rotary groove. The angle adjusting device includes an angle adjusting block, a mounting block is fixedly installed at the upper end of the angle adjusting block, a solar panel is mounted in the mounting block, and the angle adjusting block rotates. Since the angle of the solar panel can be adjusted so that the solar panel is made relative to the irradiation angle of sunlight, the amount of conversion of sunlight is increased, and a storage battery is mounted under the solar panel. Is electrically connected to the solar panel, the solar panel converts solar energy into electric energy and stores it in the storage battery, and the solar panel is formed so that shrinkage grooves are symmetrical in the front-rear direction. A limiting device is installed in the center of the shrinkage groove, the limiting device includes a rotatable limiting plate, protective devices are installed symmetrically on the left and right sides of the solar panel, and the protective device is symmetrical. A reflector is attached to the end face of the protective plate close to the center of symmetry, including a rotatable protective plate, and the reflector improves the conversion rate of sunlight by condensing sunlight on the solar panel. Insert plates are mounted on the front and rear sides of the reflector, and when the insertion plate rotates to reach the inside of the contraction groove, the limiting device is activated, and the insertion plate and the protective plate wrap the solar panel. A power device is installed on the front side of the solar panel, and the power device provides power for the rotation of the protection plate.

The angle adjusting device includes an angle adjusting shaft, the angle adjusting shaft is rotatably mounted in the rotary groove, the angle adjusting block is fixedly mounted in the angle adjusting shaft, and the inside of the angle adjusting block. A meshing rotary groove is formed in, a rotary motor is fixedly installed on the rear end wall of the meshing rotary groove, a rotary shaft is movably mounted on the front end of the rotary motor, and the rotary shaft is meshed. The gears are fixedly installed, and the meshing gear and the fixed gear are in mesh with each other.
When the rotary motor operates, the meshing gear is rotated and the fixed gear does not move, so that the angle adjusting block rotates and further adjusts the inclination angle of the solar panel.

The limited device includes a limited rotary groove, the limited rotary groove communicates with the contraction groove, a limited rotary shaft is rotatably mounted in the limited rotary groove, and a torsion spring is provided in the limited rotary shaft. It is fixedly installed, the limited plate is fixedly mounted on the limited rotation shaft, a hooking groove is formed in the limited rotation plate, and a compression slide is made on the end wall close to the center of symmetry in the limited rotation groove. The groove is formed so as to communicate with the limited rotation groove, a compression slider is slidably installed in the compression slide groove, and the end of the compression slider away from the center of symmetry is a slope, and the compression slider The end close to the center of symmetry and the compression slide groove are fixedly connected by a pressure spring, a contact groove is formed in the compression slider, and a connecting slide is formed in the right end wall of the compression slide groove. The groove is formed so as to communicate with the compression slide groove, a connecting slider is slidably installed in the connecting slide groove, and the left end of the connecting slider is a slope and abuts on the contact groove. A return spring is fixedly installed at the right end of the connecting slider, and a connecting space is installed behind the connecting slide groove so as to communicate with the connecting slide groove, and is connected in the connecting space. The rod is slidably installed, the end of the connecting rod close to the connecting slide groove is fixedly connected to the connecting slider, and the hooking block is fixedly installed at the other end of the connecting rod to be hooked. The limited plate can be locked by extending the left end of the block into the hooking groove.
When the insertion plate rotates into the contraction groove, the compression slider is pushed to move it in opposition, and the hook block is further moved to the right to be separated from the hook block, and the limited plate is elastic of the torsion spring. The solar panel is protected by integrally mounting the left and right protective plates while rotating in opposition due to the restoring force, and the solar panel is stably mounted.

Preferably, a cushioning pad is fixedly installed on the end face of the limited plate close to the center of symmetry, and the cushioning pad protects the protective plate and also has a non-slip function.

The protective device includes a fixed block that is symmetrical in the front-rear direction, a protective rotating shaft is rotatably mounted between the fixed blocks, the protective plate is fixedly mounted on the protective rotating shaft, and the fixing on the front side. An adjustment rotation space is installed in the block, the front end of the protective rotation axis extends into the adjustment rotation space, and a worm wheel is fixedly installed at the front end, and the worm wheel is close to the center of symmetry. The worm meshes with the end, and the worm shaft is fixedly installed in the center of the worm.
When the protective plate is rotated, the angle of the reflector is adjusted to maximize the light intensity, and the protective plate can be opposed to rotate and come into contact with the solar panel to protect the solar panel.

The power unit includes a supply space, a hydraulic cylinder is mounted on the left end wall of the supply space, a telescopic shaft is movably mounted on the right end of the hydraulic cylinder, and the right end of the telescopic shaft is inside the supply space. A moving block is fixedly installed at the right end of the telescopic shaft, a drive motor is fixedly installed in the moving block, and the drive shaft is movably mounted on the drive motor. A drive gear is fixedly installed on the drive shaft, a rotary gear that meshes with the drive gear is installed on the left side of the drive gear, and the rotary gear is fixedly connected to the lower end of the worm shaft. A transmission gear that meshes with the drive gear is installed on the right side of the drive gear, a transmission shaft is fixedly installed in the center of the transmission gear, and a transmission space is installed below the supply space. Both the transmission shaft and the lower end of the worm shaft on the right side extend in the transmission space, and the transmission shaft and the worm shaft are mobilably connected by a transmission belt.
When the drive gear and the rotary gear mesh with each other, the drive motor operates to provide power for the rotation of the protective plate on the left side, and when the drive gear and the transmission gear mesh with each other, the drive motor operates. , Powers the rotation of the protective plate on the right side.

The effect of the present invention is: In the photovoltaic power generation device with the protection function described in the present application, the installation angle of the solar panel can be adjusted according to the irradiation angle of sunlight, so that the conversion rate of solar energy can be improved. There are two reflectors on the left and right in the present invention, and the solar panel absorbs more solar energy by collecting sunlight on the solar panel by the interaction of the reflectors, that is, the present invention has a photoelectric conversion rate when the sunlight is weak. Can be enhanced. In addition, the rotation of the protective plate can adjust the angle of the reflector to improve the light intensity, and the protective plate can protect the solar panel by wrapping the solar panel in bad weather, extending the life of the solar panel.

In order to explain the present invention in detail with reference to FIGS. 1 to 7 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention and is described in the present application. Each direction is the direction when the device is viewed in the same direction as in FIG.

FIG. 1 is a schematic diagram of the overall configuration of the present invention. FIG. 2 is a schematic configuration diagram from the direction AA in FIG. FIG. 3 is a schematic configuration diagram from the BB direction in FIG. FIG. 4 is a schematic configuration diagram from the CC direction in FIG. FIG. 5 is a schematic configuration diagram from the DD direction in FIG. FIG. 6 is a schematic configuration diagram from the EE direction in FIG. FIG. 7 is a schematic configuration diagram from the FF direction in FIG.

The present invention takes up a photovoltaic power generation device having a protective function, is mainly applied to photovoltaic power generation, and the present invention will be described in detail with reference to the drawings below.

The solar power generation device with a protection function described in the present application includes a main body 10, the main body 10 is fixedly mounted on the ground, a rotary groove 12 is formed in the main body 10, and the rotary groove 12 is formed. A fixed gear 11 is fixedly installed in the lower end wall, an angle adjusting device 601 is rotatably mounted in the rotating groove 12, and the angle adjusting device 601 includes an angle adjusting block 14 and the angle. A mounting block 18 is fixedly installed at the upper end of the adjusting block 14, a solar panel 21 is mounted in the mounting block 18, and the angle adjusting block 14 rotates to adjust the angle of the solar panel 21. Since the solar panel 21 can be made relative to the irradiation angle of sunlight, the amount of conversion of sunlight increases, a storage battery 20 is mounted under the solar panel 21, and the storage battery 20 is the solar. Connected to the panel 21 so as to be energized, the solar panel 21 converts solar energy into electric energy and stores it in the storage battery 20, and the solar panel 21 is formed so that the shrinkage grooves 22 are symmetrical in the front-rear direction. A limiting device 602 is installed in the center of the contraction groove 22, the limiting device 602 includes a rotatable limiting plate 46, and protective devices 603 are installed symmetrically on the left and right sides of the solar panel 21. The protective device 603 includes a protective plate 29 that is symmetrical and rotatable, and a reflector 31 is attached to an end surface of the protective plate 29 close to the center of symmetry, and the reflector 31 collects sunlight on the solar panel 21. The conversion rate of sunlight is improved by shining light, and when the insertion plate 30 is mounted on the front and rear sides of the reflector 31 and the insertion plate 30 rotates to reach the inside of the contraction groove 22, the limitation device 602 Operates, and the solar panel 21 is wrapped with the insertion plate 30 and the protective plate 29 to exert a protective action. A power device 604 is installed on the front side of the solar panel 21, and the power device 604 is protected. It provides power for the rotation of the plate 29.

The angle adjusting device 601 includes an angle adjusting shaft 13, the angle adjusting shaft 13 is rotatably mounted in the rotating groove 12, and the angle adjusting block 14 is fixedly mounted on the angle adjusting shaft 13. A meshing rotary groove 15 is formed in the angle adjusting block 14, a rotary motor 17 is fixedly installed on the rear end wall of the meshing rotary groove 15, and a rotary shaft 16 is fixedly installed on the front end of the rotary motor 17. It is mounted so that it can be transmitted, and a meshing gear 19 is fixedly installed on the rotating shaft 16, and the meshing gear 19 and the fixed gear 11 are meshed with each other.
When the rotary motor 17 operates, the meshing gear 19 is rotated and the fixed gear 11 does not move, so that the angle adjusting block 14 rotates and further adjusts the inclination angle of the solar panel 21.

The limited device 602 includes a limited rotary groove 44, the limited rotary groove 44 communicates with the contraction groove 22, and the limited rotary shaft 45 is rotatably mounted in the limited rotary groove 44. A torsion spring 60 is fixedly installed on the 45, the limited plate 46 is fixedly mounted on the limited rotating shaft 45, a hooking groove 48 is formed in the limited plate 46, and the limited rotating groove is formed. A compression slide groove 50 is formed in the end wall close to the center of symmetry in 44 so as to communicate with the limited rotation groove 44, and a compression slider 51 is slidably installed in the compression slide groove 50. The end of the compression slider 51 away from the center of symmetry is a slope, and the end of the compression slider 51 close to the center of symmetry and the compression slide groove 50 are fixedly connected by a pressure spring 52 and inside the compression slider 51. A contact groove 53 is formed in the structure, and a connecting slide groove 55 is formed in the right end wall of the compression slide groove 50 so as to communicate with the compression slide groove 50. The connecting slider 54 is slidably installed, the left end of the connecting slider 54 is a slope, and is in contact with the contact groove 53, and a return spring 56 is fixedly installed at the right end of the connecting slider 54. A connecting space 57 is installed on the rear side of the connecting slide groove 55 so as to communicate with the connecting slide groove 55, and a connecting rod 58 is slidably installed in the connecting space 57. The end close to the connecting slide groove 55 is fixedly connected to the connecting slider 54, the hooking block 49 is fixedly installed at the other end of the connecting rod 58, and the left end of the hooking block 49 is the hooking groove. The limited plate 46 can be locked by extending into the 48.
When the insertion plate 30 rotates in the contraction groove 22, the compression slider 51 is pushed to move it in an opposite manner, and the hook block 49 is further moved to the right to be separated from the hook block 49, and the limited plate 46 is released. The solar panel 21 is protected by integrally mounting the left and right protective plates 29 by rotating in opposition due to the elastic restoring force of the torsion spring 60, and the solar panel 21 is stably mounted.

Advantageously, a cushioning pad 47 is fixedly installed on the end surface of the limited plate 46 close to the center of symmetry, and the cushioning pad 47 protects the protective plate 29 and also has a non-slip function.

The protective device 603 includes a fixed block 23 that is symmetrical in the front-rear direction, a protective rotating shaft 25 is rotatably mounted between the fixed blocks 23, and the protective plate 29 is fixedly mounted on the protective rotating shaft 25. The adjustment rotation space 24 is installed in the fixed block 23 on the front side, the front end of the protective rotation shaft 25 extends into the adjustment rotation space 24, and the worm wheel 26 is fixed at the front end. The worm 27 is installed, and the worm 27 meshes with the end of the worm wheel 26 close to the center of symmetry, and the worm shaft 28 is fixedly installed at the center of the worm 27.
When the protective plate 29 rotates, the angle of the reflector 31 is adjusted to maximize the light intensity, and the protective plate 29 can protect the solar panel 21 by rotating and abutting against each other.

The power device 604 includes a supply space 32, a hydraulic cylinder 34 is mounted on the left end wall of the supply space 32, and a telescopic shaft 35 is movably mounted on the right end of the hydraulic cylinder 34. The right end extends into the supply space 32, a moving block 36 is fixedly installed at the right end of the telescopic shaft 35, and a drive motor 37 is fixedly installed in the moving block 36. A drive shaft 39 is movably mounted on the drive motor 37, a drive gear 38 is fixedly installed on the drive shaft 39, and a rotary gear 33 that meshes with the drive gear 38 is on the left side of the drive gear 38. The rotary gear 33 is fixedly connected to the lower end of the worm shaft 28, and a transmission gear 41 that meshes with the drive gear 38 is installed on the right side of the drive gear 38 and is located at the center of the transmission gear 41. The transmission shaft 40 is fixedly installed, the transmission space 42 is installed below the supply space 32, and the transmission shaft 40 and the lower end of the worm shaft 28 on the right side are both inside the transmission space 42. The transmission shaft 40 and the worm shaft 28 are movably connected by a transmission belt 43.
When the drive gear 38 and the rotary gear 33 mesh with each other, the drive motor 37 operates to provide power for the rotation of the protection plate 29 on the left side, and when the drive gear 38 and the transmission gear 41 mesh with each other. The drive motor 37 operates to provide power for the rotation of the protective plate 29 on the right side.

The procedure for using the present invention will be described in detail below with reference to FIGS. 1 to 7.

First, the left and right protective plates 29 are vertical, the limited plate 46 is vertical, the hook block 49 and the hook groove 48 are connected so as to be inserted, and the torsion spring 60 stores elastic energy.

At the time of power generation, the rotary motor 17 operates, the meshing gear 19 is rotated, the meshing gear 19 rotates the angle adjusting block 14 by the fixed gear 11, and the mounting block 18 rotates in conjunction with the solar irradiation angle. The conversion rate of solar energy is maximized by adjusting the inclination angle of the solar panel 21 accordingly, and the solar panel 21 converts the solar energy into electric energy and stores it in the storage battery 20.
When the sunlight is dispersed or the sunlight is weak, the hydraulic cylinder 34 is activated, the moving block 36 is pulled by the telescopic shaft 35 to move to the left, and the drive gear 38 and the rotary gear 33 mesh with each other to drive the motor. 37 operates to rotate the rotary gear 33, the worm 27 rotates the worm wheel 26, and further rotates the protective plate 29 on the left side to adjust the installation angle of the reflector 31 on the left side, and the hydraulic cylinder 34 operates again. Then, the telescopic shaft 35 pushes the moving block 36 to move to the right, and the drive gear 38 and the transmission gear 41 mesh with each other, the drive motor 37 operates to rotate the transmission gear 41, and the transmission belt 43 protects the right side. By rotating the plate 29, the installation angle of the reflector 31 on the right side is adjusted, and the left and right reflectors 31 cooperate with each other to refract the sunlight and collect it on the solar panel 21 to increase the photoelectric conversion rate of the solar panel 21. Let me
When solar power is not required in bad weather, the drive motor 37 operates to first rotate the right protective plate 29 horizontally, at which time the right insertion plate 30 is located in the shrink groove 22, then the left. The protective plate 29 rotates horizontally, at which time the left insertion plate 30 is located in the shrinkage groove 22 and pushes the compression slider 51 to move opposite, and the connecting slider 54 moves to the right by the connecting rod 58. When the hook block 49 is moved to the right and the left insertion plate 30 is completely positioned in the contraction groove 22, the hook block 49 is separated from the hook groove 48, and the limited plate 46 is the elastic restoring force of the torsion spring 60. By rotating toward the solar panel 21, the protective plate 29 comes into close contact with the solar panel 21 and protects the solar panel 21 from damage caused by bad weather.
When the protective plate 29 returns, the limited plate 46 is pushed and rotated by the rotation of the protective plate 29, and when the hooking groove 48 is relative to the hooking block 49, the hooking block 49 extends into the hooking groove 48. Lock the limited plate 46 with.

According to the above method, the employee in the field can make various modifications according to the working situation within the scope of the present invention.

Claims (6)

Including the main body
The main body is fixedly mounted on the ground, a rotary groove is formed in the main body, a fixed gear is fixedly installed in the lower end wall of the rotary groove, and an angle is formed in the rotary groove. The adjusting device is rotatably mounted, the angle adjusting device includes an angle adjusting block, a mounting block is fixedly installed at the upper end of the angle adjusting block, and a solar panel is mounted in the mounting block. By rotating the angle adjusting block, the angle of the solar panel can be adjusted to make the solar panel relative to the irradiation angle of sunlight, so that the amount of conversion of sunlight increases and the lower side of the solar panel. Is equipped with a storage battery, the storage battery is electrically connected to the solar panel, and the solar panel converts solar energy into electric energy and stores it in the storage battery.
The solar panel is formed so that the shrinkage grooves are symmetrical in the front-rear direction, a limiting device is installed in the center of the shrinkage groove, the limiting device includes a rotatable limiting plate, and on the left and right sides of the solar panel. The protective device is installed so as to be symmetrical, the protective device includes a protective plate that is symmetrical and rotatable, and a reflector is attached to an end face of the protective plate close to the center of symmetry, and the reflector emits sunlight. The conversion rate of sunlight is improved by condensing it on a solar panel, and insertion plates are attached to the front and rear sides of the reflector, and when the insertion plate rotates and reaches the inside of the contraction groove, the limiting device is released. It operates and acts as a protective effect by wrapping the solar panel with the insertion plate and the protective plate, a power device is installed on the front side of the solar panel, and the power device provides power for rotation of the protective plate. A photovoltaic power generation device with a protective function that is characterized by The angle adjusting device includes an angle adjusting shaft.
The angle adjusting shaft is rotatably mounted in the rotary groove, the angle adjusting block is fixedly mounted in the angle adjusting shaft, a meshing rotary groove is formed in the angle adjusting block, and the meshing is formed. A rotary motor is fixedly installed on the rear end wall of the rotary groove, a rotary shaft is movably mounted on the front end of the rotary motor, and a meshing gear is fixedly mounted on the rotary shaft. The solar power generation device with a protection function according to claim 1, wherein the fixed gear and the fixed gear are in mesh with each other. The limiting device includes a limited rotating groove.
The limited rotary groove communicates with the contraction groove, a limited rotary shaft is rotatably mounted in the limited rotary groove, a torsion spring is fixedly installed on the limited rotary shaft, and the limited plate is mounted. It is fixedly mounted on the limited rotation shaft, and a hook groove is formed in the limited plate.
A compression slide groove is formed in the end wall close to the center of symmetry in the limited rotation groove so as to communicate with the limited rotation groove, and a compression slider is slidably installed in the compression slide groove to perform the compression. The end of the slider away from the center of symmetry is a slope, and the end of the compression slider close to the center of symmetry and the compression slide groove are fixedly connected by a pressure spring, and a contact groove is formed in the compression slider. It is formed so that the connecting slide groove communicates with the compression slide groove in the right end wall of the compression slide groove, and the connection slider is slidably installed in the connection slide groove, and the connection is made. The left end of the slider is a slope and is in contact with the contact groove, a return spring is fixedly installed at the right end of the connecting slider, and a connecting space is connected to the connecting slide groove on the rear side of the connecting slide groove. It is installed so as to communicate, and a connecting rod is slidably installed in the connecting space, and the end of the connecting rod close to the connecting slide groove is fixedly connected to the connecting slider, and the connecting rod is fixedly connected. The protection function according to claim 1, wherein a hooking block is fixedly installed at the other end of the hooking block, and the left end of the hooking block can be locked by extending into the hooking groove. Solar power generation equipment. The photovoltaic power generation device with a protective function according to claim 3, wherein a cushioning pad is fixedly installed on an end surface of the limited plate close to the center of symmetry. The protective device includes a fixed block that is symmetrical in the front-rear direction.
A protective rotation shaft is rotatably mounted between the fixed blocks, the protective plate is fixedly mounted on the protective rotation shaft, and an adjustment rotation space is installed in the fixed block on the front side, and the protection is provided. The front end of the rotation axis extends into the adjustment rotation space, and the worm wheel is fixedly installed at the front end, and the worm meshes with the end of the worm wheel close to the center of symmetry, and at the center of the worm. The solar power generation device with a protection function according to claim 1, wherein the worm shaft is fixedly installed. The power unit includes a supply space
A hydraulic cylinder is mounted on the left end wall of the supply space, a telescopic shaft is movably mounted on the right end of the hydraulic cylinder, and the right end of the telescopic shaft extends into the supply space of the telescopic shaft. A moving block is fixedly installed at the right end, a drive motor is fixedly installed in the moving block, a drive shaft is movably mounted on the drive motor, and a drive gear is mounted on the drive shaft. A rotary gear that is fixedly installed and meshes with the drive gear is installed on the left side of the drive gear, the rotary gear is fixedly connected to the lower end of the worm shaft, and the drive is on the right side of the drive gear. A transmission gear that meshes with the gear is installed, and a transmission shaft is fixedly installed in the center of the transmission gear.
A transmission space is installed below the supply space, both the transmission shaft and the lower end of the worm shaft on the right side extend into the transmission space, and the transmission shaft and the worm shaft are transmitted. The photovoltaic power generation device with a protective function according to claim 5, wherein the photovoltaic power generation device is movably connected by a belt.

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