CN111092593A

CN111092593A - Multi-angle adjusting mechanism of solar panel component

Info

Publication number: CN111092593A
Application number: CN201911410673.3A
Authority: CN
Inventors: 潘周林; 刘江军; 韩翠云
Original assignee: Jieshou Gufeng Photovoltaic Technology Co Ltd
Current assignee: Jieshou Gufeng Photovoltaic Technology Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-05-01

Abstract

The invention discloses a multi-angle adjusting mechanism of a solar panel assembly, and relates to the technical field of solar panels. The invention comprises the following steps: the solar panel assembly comprises a fixing pile, a first supporting structure, a second supporting structure and a solar panel assembly; the first support structure comprises a first U-shaped frame and a first arc-shaped sliding rod; the second supporting structure comprises a second U-shaped frame and a second arc-shaped sliding rod; the top ends of the two side walls of the first U-shaped frame and the top ends of the two side walls of the second U-shaped frame are connected with the bottom of the solar panel through the rotating connecting structure. The stepping motor drives the first gear to rotate so as to drive the first arc-shaped sliding rod to rotate; or the second gear wheel is driven to rotate by the second stepping motor so as to drive the second arc-shaped sliding rod to rotate, so that the vertical transverse and longitudinal angles of the phase position of the solar panel component are adjusted, the solar panel can be ensured to adapt to sunlight with different irradiation angles, and the utilization rate of solar energy is improved; is convenient and practical.

Description

Multi-angle adjusting mechanism of solar panel component

Technical Field

The invention belongs to the technical field of solar panels, and particularly relates to a multi-angle adjusting mechanism of a solar panel assembly.

Background

The sustainable development concept is taken as an important reference point in energy development; solar power generation, that is, photovoltaic power generation, is widely used as a mature sustainable energy source in industrial energy and daily life; in the photovoltaic power generation process, solar energy is collected through a solar panel component and then converted into electric energy to be applied. The efficiency of solar energy absorption of the solar panel plays a crucial role in the utilization rate of light energy.

The solar panel and the direct solar angle play an important role in the conversion of the solar energy efficiency of the solar panel; when solar energy is directly irradiated on the solar panel, the collection efficiency is higher. However, in the process of rising and falling in west of the east of the sun every day, the solar panel fixedly installed cannot ensure that sunlight can directly irradiate the solar panel at any time.

Therefore, a supporting device capable of adjusting the vertical angle between the horizontal direction and the vertical direction is needed to ensure that the sunlight directly irradiates the solar panel, so as to improve the absorption and utilization rate of the solar panel for the solar energy.

Disclosure of Invention

The invention aims to provide a multi-angle adjusting mechanism of a solar panel component, which drives a first gear to rotate through a stepping motor so as to drive a first arc-shaped sliding rod to rotate; or the second gear wheel is driven to rotate through the second stepping motor so as to drive the second arc-shaped sliding rod to rotate, so that the vertical transverse and longitudinal angles of the phase part of the solar panel component can be adjusted, and the problem that sunlight can not be directly irradiated onto the solar panel in any time period in the prior art is solved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a multi-angle adjusting mechanism of a solar panel component, which comprises: the solar panel assembly comprises a fixing pile, a first supporting structure, a second supporting structure and a solar panel assembly;

the first support structure comprises a first U-shaped frame and a first arc-shaped sliding rod; two ends of an arc-shaped channel formed in the inner side surface of the first arc-shaped slide rod are provided with first arc-shaped racks; a first arc-shaped sliding hole is formed between the first arc-shaped rack and the first arc-shaped sliding rod; the top ends of two side walls of the first U-shaped frame are provided with first rectangular grooves; the first gear is rotatably arranged between two side walls of the first rectangular groove; the first gear is meshed with the outer teeth of the first arc-shaped rack; a rotating shaft of the first gear penetrates through two side walls of the first rectangular groove; one end of a rotating shaft of the first gear is fixedly connected with the first stepping motor;

the second support structure comprises a second U-shaped frame and a second arc-shaped sliding rod; two ends of an arc-shaped channel formed in the inner side surface of the second arc-shaped slide rod are provided with second arc-shaped racks; a second arc-shaped sliding hole is formed between the second arc-shaped rack and the second arc-shaped sliding rod; a second rectangular groove is formed in the top ends of two side walls of the second U-shaped frame; the second gear is rotatably arranged between two side walls of the second rectangular groove; the second gear is meshed with the outer teeth of the second arc-shaped rack; a rotating shaft of the second gear penetrates through two side walls of the second rectangular groove; one end of a rotating shaft of the second gear is fixedly connected with the second stepping motor;

the first U-shaped frame is vertically connected with the second U-shaped frame and then fixed at the top end of the fixing pile; the top ends of the two side walls of the first U-shaped frame and the top ends of the two side walls of the second U-shaped frame are connected with the bottom of the solar panel through the rotating connecting structure.

Preferably, a first channel and a second channel which are mutually and vertically communicated are formed at the top end of the fixing pile; the depth of the first channel is greater than that of the second channel; the bottom beam of the first U-shaped frame is arranged in the first channel in a matching manner; the bottom beam of the first U-shaped frame is matched and arranged in a third rectangular groove formed in the lower bottom surface of the bottom beam of the second U-shaped frame; and the bottom beam of the second U-shaped frame is arranged in the second channel in a matching way.

Preferably, the first arc-shaped rack is matched in a sliding manner in the second arc-shaped sliding hole; and a second arc-shaped sliding rod corresponding to the second arc-shaped rack is matched in the first arc-shaped sliding hole in a sliding manner.

Preferably, the rotary connecting structure comprises a ball body connected to the top ends of the two side walls of the first U-shaped frame or the top ends of the two side walls of the second U-shaped frame through a vertical shaft; the solar panel component also comprises a spherical groove structure for fixing the bottom of the solar panel component; the spherical groove structure comprises a first fixed block with a bottom provided with a semi-spherical groove and two second fixed blocks with two side surfaces provided with arc-shaped notches; the sphere is rotatably matched in a spherical groove formed by the hemispherical groove and the two arc-shaped notches.

One aspect of the present invention has the following advantageous effects:

1. the stepping motor drives the first gear to rotate so as to drive the first arc-shaped sliding rod to rotate; or the second gear wheel is driven to rotate by the second stepping motor so as to drive the second arc-shaped sliding rod to rotate, so that the vertical transverse and longitudinal angles of the phase position of the solar panel component are adjusted, the solar panel can be ensured to adapt to sunlight with different irradiation angles, and the utilization rate of solar energy is improved; is convenient and practical.

2. When the invention is used, the first arc-shaped rack is matched in the second arc-shaped sliding hole in a sliding way; the second arc-shaped sliding rod corresponding to the second arc-shaped rack is matched in the first arc-shaped sliding hole in a sliding mode, so that the first supporting structure and the second supporting structure cannot be influenced by each other when rotating respectively, and the effect of adjusting the horizontal angle and the longitudinal angle of the solar panel in a vertical mode is achieved.

3. The top ends of the two side walls of the first U-shaped frame and the top ends of the two side walls of the second U-shaped frame are connected with the bottom of the solar panel through the rotary connecting structure, and the solar panel is used for adjusting the transverse and longitudinal angles of the solar panel component in a vertical way.

4. The invention can arrange the vertical transverse and longitudinal angle adjusting mechanisms at the phase in a matrix; a plurality of vertical transverse and longitudinal angle adjusting mechanisms positioned at the same column are connected with two adjacent first gears through connecting rods; therefore, the solar panel components positioned in the same row are driven by only one first stepping motor; the angle adjustment can be realized; the cost is saved, and the adjustment is convenient; the same transverse and longitudinal angle adjusting structures which are positioned at a plurality of vertical phases in the same row can also be connected with two adjacent second gears through connecting rods; therefore, the solar panel components in the same row are driven by only one second stepping motor; the angle adjustment is realized in lessons saving, and the device is convenient and practical.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a multi-angle adjusting mechanism of a solar panel assembly according to the present invention;

FIG. 2 is a schematic structural diagram of a first supporting structure of a multi-angle adjusting mechanism of a solar panel assembly according to the present invention;

FIG. 3 is an enlarged view of C in FIG. 2;

FIG. 4 is a schematic structural diagram of a second supporting structure of the multi-angle adjusting mechanism of a solar panel assembly according to the present invention;

FIG. 5 is an enlarged view of A in FIG. 4;

FIG. 6 is a schematic structural diagram of a solar panel module and a rotary connection structure in the multi-angle adjusting mechanism for a solar panel module according to the present invention;

FIG. 7 is an enlarged view of B in FIG. 6;

fig. 8 is a schematic structural view of a spud pile according to the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-a fixed pile, 11-a first channel, 12-a second channel, 21-a first U-shaped frame, 22-a first arc-shaped sliding rod, 23-a first arc-shaped rack, 24-a first arc-shaped sliding hole, 25-a first rectangular groove, 251-a first gear, 26-a first stepping motor, 31-a second U-shaped frame, 311-a third rectangular groove, 32-a second arc-shaped sliding rod, 33-a second arc-shaped rack, 34-a second arc-shaped sliding hole, 35-a second rectangular groove, 351-a second gear, 36-a second stepping motor, 4-a solar panel component, 51-a vertical shaft, 52-a sphere, 53-a first fixed block, 531-a semi-sphere, 54-a fixed block and 541-an arc-shaped notch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "open," "upper," "middle," "length," "inner," and the like are used in an orientation or positional relationship for convenience in describing the present invention and for simplicity of description, and do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Referring to fig. 1, the present invention is a multi-angle adjusting mechanism for a solar panel assembly, comprising: the solar panel assembly comprises a fixing pile 1, a first supporting structure, a second supporting structure and a solar panel assembly 4; the first supporting structure comprises a first U-shaped frame 21 and a first arc-shaped sliding rod 22;

referring to fig. 2-3, a first arc-shaped rack 23 is mounted at two ends of an arc-shaped channel formed on the inner side surface of the first arc-shaped slide bar 22; a first arc-shaped sliding hole 24 is formed between the first arc-shaped rack 23 and the first arc-shaped sliding rod 22; the top ends of two side walls of the first U-shaped frame 21 are provided with first rectangular grooves 25; a first gear 251 rotatably installed between both side walls of the first rectangular groove 25; the first gear 251 is meshed with the external teeth of the first arc-shaped rack 23; a rotating shaft of the first gear 251 passes through two side walls of the first rectangular groove 25; one end of the rotating shaft of the first gear 251 is fixedly connected with the first stepping motor 26; in actual use, the first gear 251 is driven to rotate by the first stepping motor 26; the first gear 251 further drives the first arc-shaped sliding rod 22 to rotate, so that the angle of the solar panel assembly 4 is adjusted, and the solar panel assembly is convenient and practical;

referring to fig. 4-5, the second supporting structure includes a second U-shaped frame 31 and a second arc-shaped sliding rod 32; two ends of an arc-shaped channel arranged on the inner side surface of the second arc-shaped slide rod 32 are provided with second arc-shaped racks 33; a second arc-shaped sliding hole 34 is formed between the second arc-shaped rack 33 and the second arc-shaped sliding rod 32; the top ends of two side walls of the second U-shaped frame 31 are provided with second rectangular grooves 35; a second gear 351 rotatably mounted between both side walls of the second rectangular groove 35; the second gear 351 is meshed with the external teeth of the second arc-shaped rack 33; the rotating shaft of the second gear 351 passes through two side walls of the second rectangular groove 35; one end of the rotating shaft of the second gear 351 is fixedly connected with the second stepping motor 36; when the solar panel module is actually used, the second gear 361 is driven to rotate by the second stepping motor 36, and the second gear 361 further drives the second arc-shaped slide rod 32 to rotate, so that the angle of the solar panel module 4 is adjusted, and the solar panel module is convenient and practical; the first U-shaped frame 21 is vertically connected with the second U-shaped frame 31 and then fixed at the top end of the fixing pile 1; the top ends of the two side walls of the first U-shaped frame 21 and the top ends of the two side walls of the second U-shaped frame 31 are connected with the bottom of the solar panel 4 through a rotating connection structure.

Referring to fig. 1, 4 and 8, a first channel 11 and a second channel 12 are formed at the top end of the fixing pile 1 and are vertically communicated with each other; the depth of the first channel 11 is greater than that of the second channel 12; the bottom beam of the first U-shaped frame 21 is matched and arranged in the first channel 11; the bottom beam of the first U-shaped frame 21 is arranged in a third rectangular groove 311 formed in the lower bottom surface of the bottom beam of the second U-shaped frame 31 in a matching manner; the bottom beam of the second U-shaped frame 31 is matched and arranged in the second channel 12; in actual use, the joint of the bottom beam of the first U-shaped frame 21 and the bottom beam of the second U-shaped frame 31 is fastened through screws; meanwhile, in order to ensure stable fixation, the bottom beam of the first U-shaped frame 21 is fixed on the ground of the first channel 11 by screws; the bottom beam of the second U-shaped frame 31 is fixed to the bottom surface of the second channel 12 by screws.

Referring to fig. 1, 2 and 4, the first arc-shaped rack 23 is matched in the second arc-shaped sliding hole 34 in a sliding manner; the second arc-shaped sliding rod 32 corresponding to the second arc-shaped rack 33 is matched in the first arc-shaped sliding hole 24 in a sliding way; when the device is actually used, one end of each of the first arc-shaped rack 23 and the second arc-shaped rack 33 is hinged to one end of the arc-shaped channel, and the other end of each of the first arc-shaped rack and the second arc-shaped rack is detachably fixed to the other end of the arc-shaped channel through a screw; when the first and second support structures are assembled, the detachable ends of the first and second arc-

shaped racks

23 and 33 are opened; then, the second arc slide bar 32 is placed in the arc channel of the first arc slide bar 22, then the detachable end of the first arc rack 23 is fixed, and then the detachable end of the second arc rack 33 is fixed, so as to realize the sliding matching of the first arc rack 23 in the second arc slide hole 34.

Referring to fig. 6 and 7, the rotary connection structure includes balls 52 connected to the top ends of the two side walls of the first U-shaped frame 21 or the top ends of the two side walls of the second U-shaped frame 31 through vertical shafts 51; the solar panel component also comprises a spherical groove structure for fixing the bottom of the solar panel component 4; the spherical groove structure comprises a first fixed block 53 with a bottom provided with a semi-spherical groove 531 and a second fixed block 54 with two side surfaces provided with arc-shaped notches 541; the ball 52 is rotatably matched in the spherical groove formed by the hemispherical groove 531 and the two arc-shaped notches 541; in practical use, the vertical shaft 51 can be rotatably mounted on the top ends of the two side walls of the first U-shaped frame 21 or the top ends of the two side walls of the second U-shaped frame 31 through bearings; the ball 52 is fitted in the hemispherical groove 531 of the bottom surface of the first fixing block 53; the openings of the arc-shaped notches 541 of the two second fixing blocks 54 are oppositely arranged and correspond to the hemispherical grooves 531 to form spherical grooves, the ball 52 is just rotatably matched and arranged in the spherical grooves, and the first fixing block 53 and the two second fixing blocks 54 are fixed through screws;

when the solar panel assembly is actually used, the first support structure and the second support structure which are perpendicular to each other are fixed on the fixing pile 1 and are used for supporting the solar panel assembly 4; when the solar panel assembly is used, the stepping motor 26 drives the first arc-shaped sliding rod 22 to rotate or the second stepping motor 22 drives the second arc-shaped sliding rod 26 to rotate, so that the vertical transverse and longitudinal angles of the phase position of the solar panel assembly 4 are adjusted, the solar panel can be ensured to adapt to sunlight with different irradiation angles, and the utilization rate of solar energy is improved; is convenient and practical;

in addition, if a large number of vertical horizontal and vertical angle adjusting mechanisms are practical in practice, the vertical horizontal and vertical angle adjusting mechanisms at the same phase can be arranged in a matrix; a plurality of vertical transverse and longitudinal angle adjusting mechanisms positioned at the same column are connected with two adjacent first gears 251 through connecting rods; thus, the solar panel components in the same row are driven by only one first stepping motor 26; the angle adjustment can be realized; the cost is saved, and the adjustment is convenient; the same transverse and longitudinal angle adjusting structures which are positioned at a plurality of vertical positions in the same row can also be connected with two adjacent second gears 351 through connecting rods; thus, the solar panel components in the same row are driven by only one second stepping motor 36; the angle adjustment is realized in lessons saving, and the device is convenient and practical.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean 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 invention. In this specification, the schematic representations of the terms used above 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.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a solar panel assembly's multi-angle adjustment mechanism which characterized in that includes: the solar panel assembly comprises a fixing pile (1), a first supporting structure, a second supporting structure and a solar panel assembly (4);

the first supporting structure comprises a first U-shaped frame (21) and a first arc-shaped sliding rod (22); two ends of an arc-shaped channel arranged on the inner side surface of the first arc-shaped sliding rod (22) are provided with first arc-shaped racks (23); a first arc-shaped sliding hole (24) is formed between the first arc-shaped rack (23) and the first arc-shaped sliding rod (22); the top ends of two side walls of the first U-shaped frame (21) are provided with first rectangular grooves (25); a first gear (251) rotatably mounted between two side walls of the first rectangular groove (25); the first gear (251) is in meshed connection with the external teeth of the first arc-shaped rack (23); the rotating shaft of the first gear (251) penetrates through two side walls of the first rectangular groove (25); one end of a rotating shaft of the first gear (251) is fixedly connected with a first stepping motor (26);

the second supporting structure comprises a second U-shaped frame (31) and a second arc-shaped sliding rod (32); two ends of an arc-shaped channel arranged on the inner side surface of the second arc-shaped slide rod (32) are provided with second arc-shaped racks (33); a second arc-shaped sliding hole (24) is formed between the second arc-shaped rack (33) and the second arc-shaped sliding rod (32); a second rectangular groove (35) is formed in the top end of each of two side walls of the second U-shaped frame (31); a second gear (351) rotatably mounted between two side walls of the second rectangular groove (35); the second gear (351) is in meshed connection with the external teeth of the second arc-shaped rack (33); the rotating shaft of the second gear (351) penetrates through two side walls of the second rectangular groove (35); one end of a rotating shaft of the second gear (351) is fixedly connected with the second stepping motor (36);

the first U-shaped frame (21) is vertically connected with the second U-shaped frame (31) and then fixed to the top end of the fixing pile (1); the top ends of two side walls of the first U-shaped frame (21) and the top ends of two side walls of the second U-shaped frame (31) are connected with the bottom of the solar panel (4) through a rotating connection structure.

2. The multi-angle adjusting mechanism of a solar panel assembly according to claim 1, wherein the top end of the fixing pile (1) is provided with a first channel (11) and a second channel (12) which are vertically communicated with each other; the depth of the first channel (11) is greater than that of the second channel (12); the bottom beam of the first U-shaped frame (21) is matched and installed in the first channel (11); the bottom beam of the first U-shaped frame (21) is arranged in a third rectangular groove (311) formed in the lower bottom surface of the bottom beam of the second U-shaped frame (31) in a matching manner; the bottom beam of the second U-shaped frame (31) is matched and installed in the second channel (12).

3. The multi-angle adjustment mechanism of a solar panel assembly according to claim 1 or 2, wherein the first arc-shaped rack (23) is slidably fitted in the second arc-shaped sliding hole (24); a second arc-shaped sliding rod (32) corresponding to the second arc-shaped rack (33) is matched in the first arc-shaped sliding hole (24) in a sliding mode.

4. The multi-angle adjusting mechanism of solar panel assembly as claimed in claim 1, wherein the rotational connecting structure comprises a ball (52) connected to the top ends of the two side walls of the first U-shaped frame (21) or the top ends of the two side walls of the second U-shaped frame (31) through a vertical shaft (51);

the solar panel component also comprises a spherical groove structure for fixing the bottom of the solar panel component (4); the spherical groove structure comprises a first fixed block (53) with a hemispherical groove (531) at the bottom and a second fixed block (54) with arc-shaped notches (541) on two side surfaces; the ball (52) is rotatably matched in a spherical groove formed by the hemispherical groove (531) and the two arc-shaped notches (541).