CN206542370U - A kind of three axle photovoltaic devices - Google Patents

Abstract

The utility model provides a three-axis photovoltaic device, which includes a solar panel, and also includes a lifting motor, a main bracket and a lifting bracket, the lifting motor is fixed on the main bracket, and the lifting bracket is slidingly connected with the main bracket , the lifting motor drives the lifting bracket to move up and down relative to the main bracket, and the solar panel is fixed on the top of the lifting bracket. The solar panels are driven up and down by the lifting motor and the lifting bracket, so that the height of the solar panels can be adjusted, which can improve the utilization rate of solar energy and improve the wind resistance performance.

Description

A three-axis photovoltaic device

technical field

The utility model relates to the technical field of photovoltaic devices, in particular to a three-axis photovoltaic device.

Background technique

Existing photovoltaic devices can only achieve a two-axis design, so that the solar panel has a light-following effect in a certain height direction. This method has the following two problems: 1. The height of the solar panel is fixed, and the height cannot be adjusted according to the direction of the sun. 2. If there is a strong wind passing by, the solar panel at a high position is easily broken by the wind, causing damage.

Utility model content

The technical problem to be solved by the utility model is: to provide a three-axis photovoltaic device, so that the solar panel can be adjusted in the height direction, improve the ability to follow light, improve the utilization rate of solar energy, and improve the wind resistance.

In order to solve the above technical problems, the technical solution adopted by the utility model is:

A three-axis photovoltaic device, including a solar panel, and also includes a lifting motor, a main support and a lifting support, the lifting motor is fixed on the main support, the lifting support is slidingly connected with the main support, and the lifting motor The lifting bracket is driven to move up and down relative to the main bracket, and the solar panel is fixed on the top of the lifting bracket.

Further, it also includes a ball screw and a screw slider, the output shaft of the lifting motor is connected to one end of the ball screw, the screw slider is engaged with the ball screw, and the lifting bracket is connected to one end of the ball screw. The screw rod slider is connected.

Further, a bevel gear assembly is also included, the bevel gear assembly includes a pair of bevel gears meshing with each other, the lifting motor is placed horizontally, and the lifting motor is connected to one end of the ball screw through the bevel gear assembly.

Further, a horizontal rotation motor is also included, the horizontal rotation motor is fixed on the top of the lifting support, and the solar panel is connected to the output shaft of the horizontal rotation motor.

Further, a vertical rotation motor is also included, the vertical rotation motor is connected to the output shaft of the horizontal rotation motor, and the solar panel is connected to the output shaft of the vertical rotation motor.

Further, it also includes a photovoltaic panel support, the output shaft of the vertical rotation motor is connected to the photovoltaic panel support, and the solar panel is fixed on the photovoltaic panel support.

Further, a wind speed and direction sensor is also included, and the wind speed and direction sensor is installed on the top of the solar panel.

Further, a solar tracking sensor is also included, and the solar tracking sensor is installed on the top of the solar panel.

Further, a base is also included, and the main support is fixed on the base.

Further, a control cabinet is also included, and the control cabinet is fixed on the main support.

The beneficial effect of the utility model is that: the solar panel is fixed on the top of the lifting bracket, the lifting motor electric lifting bracket performs lifting movement, the lifting bracket is slidably set relative to the main bracket, the main bracket plays a guiding role in the lifting of the lifting bracket, and the structure is reasonable and stable , the lifting bracket can be automatically lifted, and the height of the solar panel can be adjusted, so that the solar panel has a stronger light-following performance and improves the utilization rate of solar energy. At the same time, the solar panel can be lowered to a lower position to improve the efficiency of the photovoltaic device Wind resistance.

Description of drawings

FIG. 1 is a schematic structural diagram of a three-axis photovoltaic device according to an embodiment of the present invention.

Label description:

1. Solar panel; 2. Lifting motor; 3. Main support; 4. Lifting support; 5. Horizontal rotation motor; 6. Vertical rotation motor; 7. Photovoltaic panel support; 8. Wind speed and direction sensor; 9. Solar tracking sensor; 10. Base; 11. Control cabinet.

detailed description

In order to describe the technical content, the achieved purpose and the effect of the present utility model in detail, the following will be described in conjunction with the embodiments and accompanying drawings.

The most critical idea of the utility model is: fix the solar panel on the top of the lifting bracket, and use the lifting motor to drive the lifting bracket up and down, so that the solar panel can be raised and lowered, thereby improving the utilization rate of solar energy and improving the wind resistance.

Please refer to Figure 1, the utility model provides a three-axis photovoltaic device, including a solar panel 1, and also includes a lifting motor 2, a main support 3 and a lifting support 4, the lifting motor 2 is fixed on the main support 3, The lifting bracket 4 is slidingly connected with the main bracket 3, the lifting motor 2 drives the lifting bracket 4 to move up and down relative to the main bracket 3, and the solar panel 1 is fixed on the top of the lifting bracket 4 .

Further, it also includes a ball screw and a screw slider, the output shaft of the lifting motor 2 is connected to one end of the ball screw, the screw slider is engaged with the ball screw, and the lifting bracket 4 is connected with the screw mandrel slider.

It can be seen from the above description that the lifting motor 2 drives the lifting bracket 4 to perform lifting movement through the ball screw and the screw slider assembly, and the structure is reasonable and stable, and the precision is high.

Further, it also includes a bevel gear assembly, the bevel gear assembly includes a pair of bevel gears meshing with each other, the lifting motor 2 is placed horizontally, and the lifting motor 2 is connected to one end of the ball screw through the bevel gear assembly. connect.

It can be seen from the above description that the lifting bracket 4 and the ball screw are arranged vertically, the output shaft of the lifting motor 2 is arranged horizontally, and the output shaft of the lifting motor 2 is connected with the ball screw through a pair of intermeshing bevel gears, the structure is reasonable and stable .

Further, a horizontal rotation motor 5 is also included, and the horizontal rotation motor 5 is fixed on the top of the lifting support 4 , and the solar panel 1 is connected to the output shaft of the horizontal rotation motor 5 .

It can be known from the above description that the horizontal rotation motor 5 shell drives the solar panel 1 to rotate in the horizontal plane, so as to improve the light tracking performance of the solar panel 1 .

Further, a vertical rotation motor 6 is also included, the vertical rotation motor 6 is connected to the output shaft of the horizontal rotation motor 5 , and the solar panel 1 is connected to the output shaft of the vertical rotation motor 6 .

It can be known from the above description that the vertical rotation motor 6 drives the solar panel 1 to rotate in the vertical plane, so as to improve the light tracking performance of the solar panel 1 .

Further, it also includes a photovoltaic panel support 7 , the output shaft of the vertical rotation motor 6 is connected to the photovoltaic panel support 7 , and the solar panel 1 is fixed on the photovoltaic panel support 7 .

It can be seen from the above description that the vertical rotation motor 6 is connected to the solar panel 1 through the photovoltaic panel support 7, which improves the structural stability of the solar panel 1 and the structural stability of the photovoltaic device.

Further, a wind speed and direction sensor 8 is also included, and the wind speed and direction sensor 8 is installed on the top of the solar panel 1 .

It can be seen from the above description that the wind speed and direction sensor 8 can detect the direction and speed of the wind, so as to change the height and orientation of the solar panel 1 in the case of strong wind, realize automatic adjustment, and improve the wind resistance of the photovoltaic device.

Further, a solar tracking sensor 9 is also included, and the solar tracking sensor 9 is installed on the top of the solar panel 1 .

It can be seen from the above description that the solar tracking sensor 9 can track the direction and angle of the sun, so as to adjust the height and orientation of the solar panel 1 at any time, and improve the utilization rate of solar energy of the photovoltaic device.

Further, a base 10 is also included, and the main support 3 is fixed on the base 10 .

It can be seen from the above description that the main support 3 is fixed on the base 10 to make the structure stable.

Further, a control cabinet 11 is also included, and the control cabinet 11 is fixed on the main support 3 .

It can be seen from the above description that the electrical part of the photovoltaic device is installed in the control cabinet 11 , and the control cabinet 11 is installed on the main support 3 to facilitate maintenance by personnel.

Please refer to Fig. 1, embodiment one of the present utility model is:

A three-axis photovoltaic device, including a solar panel 1, also includes a lifting motor 2, a main bracket 3, a lifting bracket 4, a ball screw, a screw slider, and a bevel gear assembly, and the lifting motor 2 is fixed on the main bracket 3, the lifting bracket 4 is slidingly connected with the main bracket 3, the lifting motor 2 drives the lifting bracket 4 to perform lifting movement relative to the main bracket 3, and the solar panel 1 is fixed on the lifting bracket 4; the lifting motor 2 is placed horizontally, the bevel gear assembly includes a pair of bevel gears meshing with each other, the output shaft of the lifting motor 2 is connected with one end of the ball screw through the bevel gear assembly, The screw slider is engaged with the ball screw, and the lifting bracket 4 is connected with the screw slider.

Please refer to Fig. 1, embodiment two of the present utility model is:

A three-axis photovoltaic device, on the basis of Embodiment 1, further includes a horizontal rotation motor 5, a vertical rotation motor 6, a photovoltaic panel support 7, and a base 10, and the horizontal rotation motor 5 is fixed on the top of the lifting support 4 , the vertical rotation motor 6 is connected to the output shaft of the horizontal rotation motor 5, the output shaft of the vertical rotation motor 6 is connected to the photovoltaic panel support 7, and the solar panel 1 is fixed on the photovoltaic panel support 7 , the main bracket 3 is fixed on the base 10 .

Please refer to Fig. 1, embodiment three of the present utility model is:

A three-axis photovoltaic device, on the basis of Embodiment 1 or 2, further includes a wind speed and direction sensor 8, a solar tracking sensor 9, and a control cabinet 11, and the wind speed and direction sensor 8 is installed on the top of the solar panel 1, so The solar tracking sensor 9 is installed on the top of the solar panel 1, the cables of the wind speed and direction sensor 8 and the solar tracking sensor 9 are all connected to the control cabinet 11, and the control cabinet 11 is fixed on the main support 3 on.

During use, the wind speed and direction sensor 8 detects wind speed and wind direction in real time, and the solar tracking sensor 9 detects the direction and angle of the sun in real time, and the photovoltaic device automatically adjusts the angle of the solar panel 1 with a horizontal rotation motor 5 and a vertical rotation motor 6 according to the direction and angle of the sun , and use the lifting motor 2 to adjust the height of the solar panels 1, so that multiple rows of solar panels 1 can be set at different heights to avoid mutual influence, or the sunlight can be directly covered on the solar panels 1 at different times of the day, improving the impact on the solar panels. Utilization of solar energy; when the wind is strong, the lifting motor 2 can lower the height of the solar panel 1, and adjust the solar panel 1 to be parallel to the wind direction according to the wind direction, so as to avoid placing the solar panel 1 against the wind and effectively reduce the solar energy. The wind force can improve the wind resistance performance of photovoltaic devices.

In summary, the three-axis photovoltaic device provided by the utility model detects the wind speed and wind direction through the wind speed and direction sensor 8, detects the orientation of the sun through the solar tracking sensor 9, and adjusts the position of the solar panel 1 through the lifting motor 2 and the lifting bracket 4. Height, through the horizontal rotation motor 5 and the vertical rotation motor 6 to make the solar panel 1 automatically face the sun, and also through the lifting motor 2, the horizontal rotation motor 5 and the vertical rotation motor 6 to adjust the attitude of the solar panel 1 in windy weather, the photovoltaic The device can track the sun in three directions in space, and also has strong wind resistance.

The above is only an embodiment of the utility model, and does not limit the patent scope of the utility model. All equivalent transformations made by using the utility model specification and accompanying drawings, or directly or indirectly used in related technical fields, are all the same. The theory is included in the patent protection scope of the present utility model.

Claims (10)

1. A three-axis photovoltaic device, comprising a solar panel, is characterized in that it also includes a lifting motor, a main support and a lifting support, the lifting motor is fixed on the main support, and the lifting support slides with the main support connected, the lifting motor drives the lifting bracket to move up and down relative to the main bracket, and the solar panel is fixed on the top of the lifting bracket. 2. The three-axis photovoltaic device according to claim 1, further comprising a ball screw and a screw slider, the output shaft of the lifting motor is connected to one end of the ball screw, the screw The slider is engaged with the ball screw, and the lifting bracket is connected with the slider of the screw. 3. The three-axis photovoltaic device according to claim 2, further comprising a bevel gear assembly, the bevel gear assembly including a pair of bevel gears meshing with each other, the lifting motor is placed horizontally, and the lifting motor passes through The bevel gear assembly is connected with one end of the ball screw. 4. The three-axis photovoltaic device according to claim 1, further comprising a horizontal rotation motor, the horizontal rotation motor is fixed on the top of the lifting bracket, and the output of the solar panel and the horizontal rotation motor shaft connection. 5. The three-axis photovoltaic device according to claim 4, further comprising a vertical rotation motor, the vertical rotation motor is connected to the output shaft of the horizontal rotation motor, and the solar panel is connected to the vertical rotation motor output shaft connection. 6. The three-axis photovoltaic device according to claim 5, further comprising a photovoltaic panel support, the output shaft of the vertical rotation motor is connected to the photovoltaic panel support, and the solar panel is fixed on the photovoltaic panel on the stand. 7. The three-axis photovoltaic device according to claim 1, further comprising a wind speed and direction sensor installed on the top of the solar panel. 8. The three-axis photovoltaic device according to claim 1 or 7, further comprising a solar tracking sensor installed on the top of the solar panel. 9. The three-axis photovoltaic device according to claim 1, further comprising a base on which the main support is fixed. 10. The three-axis photovoltaic device according to claim 1, further comprising a control cabinet fixed on the main support.