CN215576294U

CN215576294U - Multi-angle adjustable solar device

Info

Publication number: CN215576294U
Application number: CN202122048365.XU
Authority: CN
Inventors: 卢鹏; 王明乐; 杨勇; 李让
Original assignee: Ningbo Pavales Intelligent Technology Co ltd
Current assignee: Ningbo Pavales Intelligent Technology Co ltd
Priority date: 2021-08-28
Filing date: 2021-08-28
Publication date: 2022-01-18
Anticipated expiration: 2031-08-28

Abstract

The utility model discloses a multi-angle adjustable solar device which comprises a support column and a solar panel assembly, wherein a folding mechanism is connected between the support column and the solar panel assembly, a protective cover which covers the support column is installed on the support column, an object placing table is arranged in the protective cover, an energy storage battery connected with the solar panel assembly is fixedly installed on the object placing table, an inverter, a controller and a driver are also installed in the protective cover, the inverter is connected with the energy storage battery, the controller is connected with the inverter, and the driver is connected with the controller. By adopting the technical scheme, the solar panel assembly of the solar device converts solar energy into electric energy to be stored in the energy storage battery, the electric energy is supplied to the controller through the inverter, the controller controls the folding mechanism and the folding and unfolding mechanism on the support column through the driver to drive the solar panel assembly to adjust the angle, and the solar panel assembly can be matched with various sensors to adjust in real time, so that the solar device is a product with high practicability.

Description

Multi-angle adjustable solar device

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of solar photovoltaic, in particular to a multi-angle adjustable solar device.

[ background of the utility model ]

Most of the existing solar photovoltaic devices can only fix the solar panel at a fixed height and a fixed angle, the angle or the height of the solar panel can not be adjusted according to actual requirements, the adjusting structure of the solar photovoltaic devices with adjustable angles is too simple, the adjusted angles are limited and are not accurate enough, the energy absorption efficiency is low, and therefore improvement is needed.

In order to overcome the problems, a solar device capable of being adjusted in multiple angles is developed.

[ Utility model ] content

In order to achieve the purpose, the utility model adopts the technical scheme that: a multi-angle adjustable solar device comprises a support column and a solar panel assembly, wherein a folding mechanism is connected between the support column and the solar panel assembly, a protective cover which covers the support column is installed on the support column, an object placing table is arranged in the protective cover, an energy storage battery connected with the solar panel assembly is fixedly installed on the object placing table, an inverter, a controller and a driver are also installed in the protective cover, the inverter is connected with the energy storage battery, the controller is connected with the inverter, and the driver is connected with the controller; the folding mechanism comprises a rotary table, a first servo motor, a rotary mechanism, a rotary linkage shaft, two small swing arms, two large swing arms, a first linkage pin, a second linkage pin and a rotary base, wherein the two small swing arms are respectively positioned at the outer sides of left and right side plates of the rotary table, two ends of the rotary linkage shaft respectively penetrate through the rotary table to be in transmission connection with one ends of the two small swing arms, the rotary mechanism is further connected to the rotary linkage shaft, and the rotary mechanism is connected with the first servo motor; the other ends of the two small swing arms are respectively pivoted with one ends of the two large swing arms; the solar panel assembly is mounted on the top surface of the rotary base, two sides of the bottom of the rotary base are provided with vertically downward folded edges, the other ends of the two large swing arms, which are far away from the small swing arm, are respectively located on two sides of one end of the folded edge, two ends of the first linkage pin respectively penetrate through the folded edges to be in transmission connection with the two large swing arms, two sides of the other end of the folded edge are respectively located on the top sides of left and right side plates of the rotary table, and two ends of the second linkage pin respectively penetrate through the rotary table to be in pin joint with the folded edges; the solar panel component comprises a plurality of solar panels and a folding and unfolding mechanism connected with the solar panels, the folding and unfolding mechanism comprises a folding and unfolding motor and a rotating shaft connected with the folding and unfolding motor, the solar panels are sequentially arranged up and down by taking the rotating shaft as an axis, and the rotating shaft is driven by the folding and unfolding motor to rotate by taking the rotating shaft as the axis and drive the solar panels to be sequentially unfolded or folded; still including air velocity transducer, rotation angle sensor, folding angle sensor and photo resistance sensor, air velocity transducer establishes at the pole setting top on one side of the support column, and photo resistance sensor installs on solar panel, rotation angle sensor installs on the revolving platform, folding angle sensor installs on the gyration universal driving shaft, and air velocity transducer, rotation angle sensor, folding angle sensor and photo resistance sensor all are connected with the controller.

In one or more embodiments, a side plate of the rotary table is fixedly provided with a starting limit sensor and a tail end limit sensor in a penetrating manner, and the starting limit sensor and the tail end limit sensor are respectively positioned at the upper side and the lower side of the swinging axis of the small swinging arm.

In one or more embodiments, the joint of the rotary linkage shaft and the small swing arm is provided with a bearing bracket.

In one or more embodiments, the top of the support column is provided with a rotating base, the revolving platform is rotatably and movably mounted on the rotating base, a second servo motor is mounted on one side of the rotating base, the revolving platform is driven by the second servo motor to rotate on the rotating base, and a rotation limiting sensor penetrates through the bottom of the revolving platform.

In one or more embodiments, the first servo motor, the second servo motor and the folding and unfolding motor are all connected with the driver.

In one or more embodiments, the bottom of the supporting column is provided with a positioning plate, and the positioning plate and the side of the supporting column are connected with a reinforcing plate.

In one or more embodiments, the top surface of the first solar panel and the bottom surface of the last solar panel of the plurality of solar panels are provided with a locking piece for limiting the plurality of solar panels on the rotating shaft.

In one or more embodiments, the first encoder and the second encoder are respectively connected to the rotation angle sensor and the folding angle sensor, and both the first encoder and the second encoder are connected to the controller.

In one or more embodiments, the controller is connected to the external smart terminal through wireless devices, including WiFi, ETH, and 4G/5G networks.

Compared with the background technology, the utility model has the following beneficial effects:

by adopting the technical scheme, the solar panel assembly of the solar device converts solar energy into electric energy to be stored in the energy storage battery, the electric energy is supplied to the controller through the inverter, the controller controls the folding mechanism and the folding and unfolding mechanism on the support column through the driver to drive the solar panel assembly to adjust the angle, and the solar panel assembly can be matched with various sensors to adjust in real time, so that the solar device is a product with high practicability.

[ description of the drawings ]

FIG. 1 is a rear view of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a block diagram of the interior of the shield of the present invention;

FIG. 4 is a view showing the solar panel according to the present invention in an unfolded state;

FIG. 5 is a side view of the present invention;

FIG. 6 is a block diagram of the present invention.

[ detailed description ] embodiments

The technical scheme and the beneficial effects of the utility model are clearer and clearer by further describing the specific embodiment of the utility model with the accompanying drawings of the specification. The embodiments described below are exemplary and are intended to be illustrative of the utility model, but are not to be construed as limiting the utility model.

Referring to fig. 1-6, the utility model provides a multi-angle adjustable solar device, which includes a support column 1 and a solar panel assembly 2, a folding mechanism is connected between the support column 1 and the solar panel assembly 2, a protective cover 101 covering the support column 1 is installed on the support column 1, an object placing table 102 is installed in the protective cover 101, an energy storage battery 103 connected with the solar panel assembly 2 is fixedly installed on the object placing table 102, an inverter 104, a controller 105 and a driver 106 are also installed in the protective cover 101, the inverter 104 is connected with the energy storage battery 103, the controller 105 is connected with the inverter 104, and the driver 106 is connected with the controller 105; the folding mechanism comprises a rotary table 3, a first servo motor 4, a rotary mechanism 5, a rotary linkage shaft 6, two small swing arms 7, two large swing arms 8, a first linkage pin 9, a second linkage pin 10 and a rotary base 11, wherein the two small swing arms 7 are respectively positioned at the outer sides of the left side plate and the right side plate of the rotary table 3, two ends of the rotary linkage shaft 6 respectively penetrate through the rotary table 3 to be in transmission connection with one ends of the two small swing arms 7, the rotary linkage shaft 6 is also connected with the rotary mechanism 5, and the rotary mechanism 5 is connected with the first servo motor 4; the other ends of the two small swing arms 7 are respectively pivoted with one ends of the two large swing arms 8; the solar panel assembly 2 is fixedly mounted on the top surface of the rotary base 11, two sides of the bottom of the rotary base 11 are provided with vertically downward folded edges 11a, the other ends of the two large swing arms 8, far away from the small swing arm 7, are respectively positioned on two sides of one end of the folded edge 11a, two ends of the first linkage pin 9 respectively penetrate through the folded edges 11a to be in transmission connection with the two large swing arms 8, two sides of the other end of the folded edge 11a are respectively positioned on the top side parts of the left side plate and the right side plate of the rotary table 3, and two ends of the second linkage pin 10 respectively penetrate through the rotary table 3 and are in pin joint with the folded edges 11 a; the solar panel assembly 2 comprises a plurality of solar panels 21 and a folding and unfolding mechanism connected with the solar panels 21, the folding and unfolding mechanism comprises a folding and unfolding motor 22 and a rotating shaft 23 connected with the folding and unfolding motor 22, the plurality of solar panels 21 are sequentially arranged up and down by taking the rotating shaft 23 as an axis, and the rotating shaft 23 is driven by the folding and unfolding motor 22 to rotate by taking the rotating shaft 23 as the axis and drive the plurality of solar panels 21 to be sequentially unfolded or folded; also comprises a wind speed sensor 24, a rotation angle sensor 25, a folding angle sensor 26 and a photoresistor sensor 27, the wind speed sensor 24 is arranged on the top of the vertical rod 241 beside the support column 1, the photoresistor sensor 27 is arranged on the solar panel 21, the rotation angle sensor 25 is arranged on the rotary table 3, the folding angle sensor 26 is arranged on the rotary linkage shaft 6, the wind speed sensor 24, the rotation angle sensor 25, the folding angle sensor 26 and the photoresistor sensor 27 are all connected with the controller 105, the rotation angle sensor 25 and the folding angle sensor 26 are respectively connected with a first encoder 28 and a second encoder 29, the encoder 28 and the second encoder 29 are both connected with the controller 105, and the controller 105 is connected with an external intelligent terminal through a wireless device, wherein the wireless device comprises WiFi, ETH and a 4G/5G network.

Preferably, a starting limit sensor 12 and a tail end limit sensor 13 are fixedly arranged on a side plate of the revolving platform 3 in a penetrating mode, and the starting limit sensor 12 and the tail end limit sensor 13 are respectively positioned on the upper side and the lower side of the swinging axis of the small swinging arm 7.

Preferably, a bearing bracket 14 is arranged at the joint of the rotary linkage shaft 6 and the small swing arm 7.

Preferably, the top of the support column 1 is provided with a rotating base 15, the revolving platform 3 is rotatably and movably mounted on the rotating base 15, one side of the rotating base 15 is provided with a second servo motor 16, the revolving platform 3 is driven by the second servo motor 16 to rotate on the rotating base 15, and the bottom of the revolving platform 3 is further provided with a rotation limiting sensor 17 in a penetrating manner.

Preferably, the first servo motor 4, the second servo motor 16 and the folding and unfolding motor 22 are all connected with a driver 106.

Preferably, the bottom of the supporting column 1 is provided with a positioning plate 18, and the positioning plate 18 and the side of the supporting column 1 are connected with a reinforcing plate 19.

Preferably, the top surface of the first solar panel 21 and the bottom surface of the last solar panel 21 of the plurality of solar panels 21 are provided with a locking piece 25 for limiting the plurality of solar panels 21 on the rotating shaft 23.

When the folding operation is carried out, the first servo motor 4 drives the rotation linkage shaft 6 to rotate clockwise or anticlockwise through the rotation mechanism 5, two ends of the rotation linkage shaft 6 simultaneously drive the small swing arm 7 to swing clockwise or anticlockwise during rotation, the other end of the small swing arm 7 simultaneously drives the large swing arm 8 to swing together, and the large swing arm 8 also drives the rotation base 11 to swing by taking the second linkage pin 10 as an axis when swinging up and down as the other end of the large swing arm 8 is in transmission connection with the rotation base 11; because the starting limit sensor 12 and the tail end limit sensor 13 are respectively arranged on the upper side and the lower side of the swing axis of the small swing arm 7, the swing angle of the small swing arm 7 can be limited within a certain range, and the solar panel assembly 2 is prevented from colliding with the support column 1 or the folding mechanism due to the overlarge swing angle of the rotary base 11; when solar energy needs to be absorbed, the rotating shaft 23 is driven by the folding and unfolding motor 22 to rotate by taking the rotating shaft as an axis and drive the plurality of solar panels 21 to be unfolded in sequence; the illumination angle changes gradually over time, and after the light source tracking device 24 transmits the light sensation information to the controller 105, the controller 105 inputs an adjustment instruction to the driver 106 to automatically adjust the folding mechanism; the wind speed sensor can detect the wind speed in real time, pre-judges whether the solar panel 21 needs to be folded or not, feeds data back to the inside of the intelligent system in real time, judges whether the solar panel is folded or not by the intelligent system, and when the wind speed is larger than a rated value, the intelligent system can automatically send a folding command to the controller 105 to control the folding and unfolding motor 22 to execute; the intelligent system can analyze and judge the combined data of the rotation angle sensor 25 and the first encoder 28 and the combined data of the folding angle sensor 26 and the second encoder 29, so as to control the first servo motor 4 to swing (the swing angle control range value is 240 ° (-90 ° -130 °)) and the second servo motor 16 to rotate (360 ° can be controlled to realize any direction control) to execute commands; in addition, the intelligent system is also connected with a component recovery main switch 30 and a power output main switch 31, and can control the whole solar device.

In the description of the specification, reference to the description of "one embodiment", "preferably", "an example", "a specific example" or "some examples", etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model, and schematic representations of the terms in this specification do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

With the above structure and principle in mind, those skilled in the art should understand that the present invention is not limited to the above embodiments, and modifications and substitutions based on the known technology in the field are within the scope of the present invention, which should be limited by the claims.

Claims

1. The multi-angle adjustable solar device comprises a support column (1) and a solar panel assembly (2), wherein a folding mechanism is connected between the support column (1) and the solar panel assembly (2), and is characterized in that a protective cover (101) covering the support column (1) is installed on the support column (1), an object placing table (102) is arranged in the protective cover (101), an energy storage battery (103) connected with the solar panel assembly (2) is fixedly installed on the object placing table (102), an inverter (104), a controller (105) and a driver (106) are further installed in the protective cover (101), the inverter (104) is connected with the energy storage battery (103), the controller (105) is connected with the inverter (104), and the driver (106) is connected with the controller (105); the folding mechanism comprises a rotary table (3), a first servo motor (4), a swing mechanism (5), a rotary linkage shaft (6), two small swing arms (7), two large swing arms (8), a first linkage pin (9), a second linkage pin (10) and a rotary base (11), wherein the two small swing arms (7) are respectively positioned at the outer sides of left and right side plates of the rotary table (3), two ends of the rotary linkage shaft (6) respectively penetrate through the rotary table (3) to be in transmission connection with one ends of the two small swing arms (7), the rotary linkage shaft (6) is further connected with the swing mechanism (5), and the swing mechanism (5) is connected with the first servo motor (4); the other ends of the two small swing arms (7) are respectively pivoted with one ends of the two large swing arms (8); the solar panel assembly (2) is fixedly mounted on the top surface of the rotary base (11), two sides of the bottom of the rotary base (11) are provided with vertically downward folded edges (11a), the other ends, far away from the small swing arms (7), of the two large swing arms (8) are respectively located on two sides of one end of each folded edge (11a), two ends of the first linkage pin (9) respectively penetrate through the folded edges (11a) to be in transmission connection with the two large swing arms (8), two sides of the other end of each folded edge (11a) are respectively located on the top side portions of the left side plate and the right side plate of the rotary table (3), and two ends of the second linkage pin (10) respectively penetrate through the rotary table (3) to be in pin joint with the folded edges (11 a); the solar panel component (2) comprises a plurality of solar panels (21) and a folding and unfolding mechanism connected with the solar panels (21), the folding and unfolding mechanism comprises a folding and unfolding motor (22) and a rotating shaft (23) connected with the folding and unfolding motor (22), the solar panels (21) are sequentially arranged from top to bottom by taking the rotating shaft (23) as an axis, and the rotating shaft (23) is driven by the folding and unfolding motor (22) to rotate by taking the rotating shaft (23) as the axis and drive the solar panels (21) to be sequentially unfolded or folded; still include wind speed sensor (24), rotation angle sensor (25), folding angle sensor (26) and photo resistance sensor (27), pole setting (241) top on one side of support column (1) is established in wind speed sensor (24), and photo resistance sensor (27) are installed on solar panel (21), rotation angle sensor (25) are installed on revolving platform (3), install on gyration universal driving shaft (6) folding angle sensor (26), and wind speed sensor (24), rotation angle sensor (25), folding angle sensor (26) and photo resistance sensor (27) all are connected with controller (105).

2. The multi-angle adjustable solar power plant of claim 1, wherein: the side plate of the rotary table (3) is fixedly provided with a starting limit sensor (12) and a tail end limit sensor (13) in a penetrating mode, and the starting limit sensor (12) and the tail end limit sensor (13) are respectively located on the upper side and the lower side of the swing axis of the small swing arm (7).

3. The multi-angle adjustable solar power plant of claim 1, wherein: and a bearing frame (14) is arranged at the joint of the rotary linkage shaft (6) and the small swing arm (7).

4. The multi-angle adjustable solar power plant of claim 1, wherein: the top of support column (1) has rotating base (15), but revolving platform (3) rotation movable mounting is on rotating base (15), and second servo motor (16) are installed to one side of rotating base (15), and revolving platform (3) carry out the rotation activity on rotating base (15) under the drive of second servo motor (16), and rotatory spacing sensor (17) are still worn to be equipped with in the bottom of revolving platform (3).

5. The multi-angle adjustable solar power plant of claim 4, wherein: the first servo motor (4), the second servo motor (16) and the folding and unfolding motor (22) are all connected with a driver (106).

6. The multi-angle adjustable solar power plant of claim 1, wherein: the bottom of support column (1) is equipped with locating plate (18), the lateral part of locating plate (18) and support column (1) is connected with reinforcing plate (19).

7. The multi-angle adjustable solar power plant of claim 1, wherein: the top surface of first solar panel (21) and the bottom surface of last solar panel (21) are equipped with the locking piece of restricting polylith solar panel (21) on pivot (23) in polylith solar panel (21).

8. The multi-angle adjustable solar power plant of claim 1, wherein: the rotation angle sensor (25) and the folding angle sensor (26) are respectively connected with a first encoder (28) and a second encoder (29), and the encoders (28) and the second encoders (29) are both connected with the controller (105).

9. The multi-angle adjustable solar power plant of claim 8, wherein: the controller (105) is connected with an external intelligent terminal through a wireless device, and the wireless device comprises WiFi, ETH and a 4G/5G network.