CN219124131U - Photovoltaic panel mounting structure - Google Patents

Abstract

The utility model discloses a photovoltaic panel mounting structure, which comprises a photovoltaic panel assembly, a supporting piece capable of hinging the photovoltaic panel assembly to the upper end of an external upright post and at least one azimuth angle adjusting piece for dragging the photovoltaic panel assembly to perform azimuth angle deflection, wherein the supporting piece is provided with a plurality of supporting pieces; one end of the azimuth angle adjusting piece is hinged to the photovoltaic panel assembly, and the other end of the azimuth angle adjusting piece is installed on the external upright post; the hinge deflection direction of the azimuth angle adjusting piece and the photovoltaic panel assembly is consistent with the azimuth angle deflection direction of the photovoltaic panel assembly. According to the utility model, the azimuth angle adjusting piece is used for pulling the photovoltaic panel assembly to conduct azimuth angle deflection, the azimuth angle of the photovoltaic panel assembly changes along with the change of the azimuth angle of the sun, the utilization rate of the photovoltaic panel assembly to the sun rays is improved, and the power generation efficiency of the photovoltaic panel assembly is improved.

Description

Photovoltaic panel mounting structure

Technical Field

The utility model relates to the technical field of photovoltaics, in particular to a photovoltaic panel mounting structure.

Background

The current country supports the development of new energy industry, the photovoltaic power generation project is an important development direction, and multiple complementary modes such as agriculture light complementation, fishing light complementation, pasturing light complementation and the like are formed by combining the photovoltaic power generation project with other industries, so that the resource utilization rate is improved; the solar photovoltaic panel installation structure is designed for placing, installing and fixing solar panels in a solar photovoltaic power generation system, most of currently used photovoltaic panel installation structures are fixed angles, azimuth angles of the photovoltaic panel assembly 1 cannot be adjusted along with changes of azimuth angles of the sun, and the photovoltaic panel light energy utilization rate is required to be improved.

Disclosure of Invention

The utility model aims to provide a photovoltaic panel mounting structure so as to solve the problem that the azimuth angle cannot be conveniently adjusted by the existing photovoltaic panel mounting structure.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a photovoltaic panel mounting structure comprises a photovoltaic panel assembly, a support member capable of hinging the photovoltaic panel assembly to the upper end of an external upright post, and at least one azimuth angle adjusting member for dragging the photovoltaic panel assembly to perform azimuth angle deflection; one end of the azimuth angle adjusting piece is hinged to the photovoltaic panel assembly, and the other end of the azimuth angle adjusting piece is installed on the external upright post; the hinge deflection direction of the azimuth angle adjusting piece and the photovoltaic panel assembly is consistent with the azimuth angle deflection direction of the photovoltaic panel assembly.

Preferably, the azimuth angle adjusting member comprises a diagonal bar, one end of the diagonal bar is hinged to the photovoltaic panel assembly, and the diagonal bar can lift and pull the photovoltaic panel assembly to perform azimuth angle deflection.

Preferably, the diagonal brace is mounted to the outer upright via an external fitting; the inclined support rod is any one of an air cylinder, an oil cylinder and an electric telescopic rod.

Preferably, the azimuth angle adjusting piece further comprises a sliding block hinged with the inclined supporting rod, a guide rail matched with the sliding block and a driving piece connected with the sliding block, wherein the guide rail can be installed on an external upright post, and the driving piece drives the sliding block to reciprocate along the guide rail.

Preferably, the guide rail is provided with a mounting part, and the mounting part is connected with an external upright post; or, the photovoltaic panel mounting structure further comprises an external connector, and the external connector is used for connecting the guide rail and the external upright post.

Preferably, at least one of the azimuth angle adjusting members is mounted to the same side of the photovoltaic panel assembly; and/or the opposite sides of the mounting frame are provided with the azimuth angle adjusting parts, and the movement directions of the azimuth angle adjusting parts at different sides are opposite; and/or, one end of the supporting piece is hinged to the photovoltaic panel assembly, and the other end of the supporting piece can be installed on an external upright post; at least one hinged deflection direction of the support piece and the photovoltaic panel assembly is consistent with an azimuth deflection direction of the photovoltaic panel assembly.

Preferably, the top of the supporting piece is hinged with the photovoltaic panel assembly through a ball head; or, the azimuth angle adjusting piece is connected with the photovoltaic panel assembly through a first hinge seat, the first hinge seat is provided with a first hinge part, and the azimuth angle adjusting piece is hinged with the first hinge part.

Preferably, the support piece is hinged with the photovoltaic panel assembly through a ball head; the azimuth angle adjusting piece is connected with the photovoltaic panel assembly through a first hinge seat, the first hinge seat is provided with a first hinge part and a second hinge part, the azimuth angle adjusting piece is hinged with the first hinge part, the photovoltaic panel assembly is hinged with the second hinge part, and the hinge deflection direction of the first hinge part is perpendicular to the hinge deflection direction of the second hinge part.

Preferably, the photovoltaic panel mounting structure further comprises at least one height angle adjusting member, one end of the height angle adjusting member is hinged to the photovoltaic panel assembly, and the other end of the height angle adjusting member can be mounted on the external upright post; the altitude angle adjusting piece pulls the photovoltaic panel assembly to conduct altitude angle deflection.

Preferably, the height angle adjusting piece is connected with the photovoltaic panel assembly through a second hinged support, the second hinged support is provided with a third hinged part and a fourth hinged part, the height angle adjusting piece is hinged with the third hinged part, the photovoltaic panel assembly is hinged with the fourth hinged part, the hinged deflection direction of the third hinged part is perpendicular to the hinged deflection direction of the fourth hinged part, and the hinged deflection direction of the second hinged part is parallel to the hinged deflection direction of the third hinged part; and/or the supporting piece is any one of an air cylinder, an oil cylinder and an electric telescopic rod; or the support piece comprises a first sleeve and a second sleeve axially sleeved at one end part of the first sleeve and at least partially protruding out of the first sleeve, the second sleeve can axially slide along the first sleeve, an elastic piece is arranged in the first sleeve, and the elastic piece props against the second sleeve; and/or at least one of the height angle adjusting members is mounted on the same side of the photovoltaic panel assembly; and/or the opposite sides of the mounting frame are provided with the height angle adjusting parts, and the movement directions of the height angle adjusting parts on different sides are opposite.

Compared with the prior art, the utility model has the beneficial effects that: the photovoltaic panel mounting structure comprises a photovoltaic panel assembly, a supporting piece capable of hinging the photovoltaic panel assembly to the upper end of an external upright post and at least one azimuth angle adjusting piece for pulling the photovoltaic panel assembly to perform azimuth angle deflection, wherein the azimuth angle adjusting piece is used for pulling the photovoltaic panel assembly to perform azimuth angle deflection, the azimuth angle of the photovoltaic panel assembly changes along with the change of the azimuth angle of the sun, the utilization rate of the photovoltaic panel assembly to solar rays is improved, and the power generation efficiency of the photovoltaic panel assembly is improved; in order to ensure the stability of the photovoltaic panel assembly, a supporting piece is arranged to support the photovoltaic panel assembly; in order to ensure that the azimuth deflection of the photovoltaic panel assembly is successfully completed, the hinging deflection direction of the azimuth adjusting piece and the photovoltaic panel assembly is consistent with the azimuth deflection direction of the photovoltaic panel assembly.

Drawings

Fig. 1 is a schematic structural view of a photovoltaic panel mounting structure according to an embodiment of the present utility model;

FIG. 2 is a schematic view of another photovoltaic panel mounting structure according to an embodiment of the present utility model assembled with an external post;

FIG. 3 is an enlarged schematic view of the portion A in FIG. 2;

FIG. 4 is an enlarged schematic view of the portion B of FIG. 2;

FIG. 5 is an enlarged schematic view of the portion C in FIG. 2;

FIG. 6 is a cross-sectional view of a support member according to an embodiment of the present utility model;

FIG. 7 is a schematic view of a photovoltaic panel mounting structure assembled with an external post according to an embodiment of the present utility model;

FIG. 8 is an enlarged schematic view of portion D of FIG. 7;

fig. 9 is a schematic structural diagram of a photovoltaic panel mounting structure assembled with an external post according to another embodiment of the present utility model.

In the figure: 1. a photovoltaic panel assembly; 11. a photovoltaic panel; 12. a mounting frame; 2. a support; 21. a first sleeve; 22. a second sleeve; 23. an elastic member; 24. ball head; 3. an azimuth angle adjusting member; 31. a diagonal support bar; 32. a guide rail; 33. a slide block; 4. an external member; 41. a connection hole; 5. a first hinge support; 51. a first hinge part; 52. a second hinge part; 6. a height angle adjusting member; 7. a second hinge support; 71. a third hinge; 72. a fourth hinge part; 8. a driving member; 9. an outer column; 10. and a mounting part.

Detailed Description

In order to better understand the aspects of the present utility model, the present utility model will be described in further detail with reference to the accompanying drawings and detailed description.

In the present specification, the terms "upper, lower, inner, outer" and the like are established based on the positional relationship shown in the drawings, and the corresponding positional relationship may be changed according to the drawings, so that the terms are not to be construed as absolute limitation of the protection scope; moreover, relational terms such as "first" and "second", and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

Example 1

As shown in fig. 1 and 2, the photovoltaic panel mounting structure provided in this embodiment includes a photovoltaic panel assembly 1, a support member 2 capable of hinging the photovoltaic panel assembly 1 to an upper end of an external column 9, and at least one azimuth angle adjustment member 3 for pulling the photovoltaic panel assembly 1 for azimuth angle deflection; one end of the azimuth angle adjusting piece 3 is hinged to the photovoltaic panel assembly 1, and the other end of the azimuth angle adjusting piece is installed on the external upright post 9; the hinge deflection direction of the azimuth angle adjusting member 3 and the photovoltaic panel assembly 1 is identical to the azimuth angle deflection direction of the photovoltaic panel assembly 1.

Specifically, in the embodiment, the azimuth angle adjusting piece 3 pulls the photovoltaic panel assembly 1 to deflect in azimuth angle, the azimuth angle of the photovoltaic panel assembly 1 changes along with the change of the azimuth angle of the sun, the utilization rate of the photovoltaic panel assembly 1 to the solar rays is improved, and the power generation efficiency of the photovoltaic panel assembly 1 is improved; and in order to secure the stability of the photovoltaic panel assembly 1, a support 2 is provided to support the photovoltaic panel assembly 1; in order to ensure that the azimuth deflection of the photovoltaic panel assembly 1 is successfully completed, the hinging deflection direction of the azimuth adjusting piece 3 and the photovoltaic panel assembly 1 is consistent with the azimuth deflection direction of the photovoltaic panel assembly 1.

Further, the external upright post 9 may be a concrete pile, and the concrete pile is used as a supporting structure for supporting the photovoltaic panel assembly 1, and of course, the external upright post 9 may also be a steel column or other structures, so long as the external upright post can be connected with the photovoltaic panel assembly 1 and is used for supporting the photovoltaic panel assembly 1, and the external upright post is selected according to actual use situations and requirements, and is not limited in particular.

Further, according to the different setting sites (for example, in the south or the north) of the photovoltaic panel assembly 1, different driving programs are set according to the movement track of the sun (for example, in a certain region, the solar azimuth angle position in different time periods in different seasons has a certain rule, and the driving program for the azimuth deflection of the photovoltaic panel assembly 1 is set according to the change rule of the solar azimuth angle position), so that the azimuth angle of the photovoltaic panel assembly 1 is driven to change along with the change of the solar azimuth angle.

Further, the azimuth angle adjusting piece 3 comprises a diagonal bracing rod 31, one end of the diagonal bracing rod 31 is hinged with the photovoltaic panel assembly 1, and the diagonal bracing rod 31 can lift and pull the photovoltaic panel assembly 1 to perform azimuth angle deflection; as shown in fig. 1, the photovoltaic panel assembly 1 is pulled to perform azimuth deflection by lifting or lowering the diagonal support bar 31, the diagonal support bar 31 is lifted to push the photovoltaic panel assembly 1 to deflect in one direction, the diagonal support bar 31 is lowered to pull the photovoltaic panel assembly 1 to deflect in the other direction, and the two deflection directions are opposite.

Further, as shown in fig. 1, the diagonal brace 31 is mounted to the outer column 9 via the outer joint member 4; the inclined support rod 31 is any one of an air cylinder, an oil cylinder and an electric telescopic rod, and the inclined support rod 31 is driven to stretch and retract through a driving program so as to realize lifting driving of azimuth deflection of the photovoltaic panel assembly 1.

Further, at least one azimuth angle adjusting piece 3 is installed on the same side of the photovoltaic panel assembly 1, that is, one azimuth angle adjusting piece 3 can be installed on the same side of the photovoltaic panel assembly 1, in order to improve the stability of azimuth deflection of the photovoltaic panel assembly 1, more than two azimuth angle adjusting pieces 3 can be installed on the same side of the photovoltaic panel assembly 1, and more than two azimuth angle adjusting pieces 3 are distributed at intervals on the same side of the photovoltaic panel assembly 1 and can realize synchronous lifting; the specific number of the azimuth adjusting members 3 may be selected according to practical situations, and is not particularly limited.

Further, in order to further improve the stability of the azimuth deflection of the photovoltaic panel assembly 1, the azimuth adjusting members 3 are mounted on two opposite sides of the photovoltaic panel assembly 1, and the movement directions of the azimuth adjusting members 3 on different sides are opposite.

Further, in order to ensure that the azimuthal deflection of the photovoltaic panel assembly 1 is successfully completed, one end of the supporting member 2 is hinged to the photovoltaic panel assembly 1, and the other end of the supporting member can be mounted on the external upright post 9; at least one hinged deflection direction of the support 2 and the photovoltaic panel assembly 1 is consistent with the azimuth deflection direction of the photovoltaic panel assembly 1; it will be appreciated that the support 2 may also be mounted at one end to the photovoltaic panel assembly 1, the other end of which can be hinged to the external uprights 9, chosen in particular according to the actual circumstances, without being limited thereto.

Further, in order to ensure that the photovoltaic panel mounting structure is connected with the external upright post 9, the photovoltaic panel mounting structure is provided with an external connector 4, one end of a diagonal brace 31 is hinged with the external connector 4, and the hinged deflection direction is consistent with the azimuth deflection direction of the photovoltaic panel assembly 1; wherein, the external connector 4 can be at least one group of anchor ear which is enmeshed with the external upright post 9 and is connected with the anchor ear through the connecting hole 41; of course, the external connection member 4 may have other structures, as long as the connection between the diagonal brace 31 and the external column 9 can be achieved, for example, the external column 9 has an external bolt or an external screw hole, and the external connection member 4 is connected with the external bolt or the external screw hole of the external column 9.

Further, as shown in fig. 2, the other end of the support member 2 may be directly connected to the outer column 4, or the support member 2 may be indirectly connected to the outer column 4, for example, the support member 2 may be connected to the outer column 4 or the diagonal support bar 31.

Further, in order to ensure that the photovoltaic panel assembly 1 can deflect in azimuth, the support 2 is hinged with the photovoltaic panel assembly 1 through a ball head 24; of course, the support member 2 and the photovoltaic panel assembly 1 in this embodiment are not limited to the use of the ball 24, but may be other hinge types, and are not limited herein. The azimuth angle adjusting member 3 is connected with the photovoltaic panel assembly 1 through a first hinge support 5, the first hinge support 5 has a first hinge portion 51, and the azimuth angle adjusting member 3 is hinged with the first hinge portion 51.

Further, as shown in fig. 1, 2 and 7, the photovoltaic panel assembly 1 may be a photovoltaic panel 11 directly, i.e. the photovoltaic panel 11 is directly pulled for azimuth deflection by the azimuth adjuster 3; alternatively, as shown in fig. 9, the photovoltaic panel assembly 1 includes a mounting frame 12, the mounting frame 12 is used for mounting the photovoltaic panel 11, and the azimuth adjuster 3 pulls the mounting frame 12, and then pulls the photovoltaic panel 11 through the mounting frame 12 for azimuth deflection.

Example two

In this embodiment, the same reference numerals are given to the same parts as those of the first embodiment, and the same description is omitted.

Compared with the first embodiment, the photovoltaic panel mounting structure provided by the present embodiment has the following different structural design: the azimuth angle adjusting member 3 has a different structure, as shown in fig. 2-5, the azimuth angle adjusting member 3 further comprises a sliding block 33 hinged with the diagonal bracing bar 31, a guide rail 32 matched with the sliding block 33, and a driving member 8 connected with the sliding block 33, wherein the guide rail 32 can be arranged on the external upright post 9, and the driving member 8 drives the sliding block 33 to reciprocate along the guide rail 32; the driving piece 8 drives the sliding block 33 to reciprocate up and down along the guide rail 32 to drive the inclined support rod 31 to ascend or descend, so that the azimuth deflection of the photovoltaic panel assembly 1 is controlled.

Further, the driving piece 8 can be any one of an air cylinder, an oil cylinder and an electric telescopic rod, and can also be a hoisting mechanism; preferably, as shown in fig. 7, the driving member 8 includes a rotating motor and a ball screw connected to an output end of the rotating motor, the ball screw includes a screw shaft as a guide rail 32 and a screw nut as a slider 33 cooperating with the screw shaft, and the screw shaft is driven to rotate by the rotating motor, so as to drive the screw nut to slide up and down, and further drive the diagonal bar 31 to lift or lower; or, the ball screw comprises a screw shaft and a screw nut matched with the screw shaft as a sliding block 33, the rotating motor is arranged at the top end of the guide rail 32, the guide rail 32 is provided with a chute, the screw shaft is positioned in the chute, and the screw shaft is driven to rotate by the rotating motor, so that the sliding block 33 is driven to slide up and down, and the inclined support rod 31 is driven to ascend or descend; stability of lifting or lowering of the diagonal support bar 31 is improved by the arrangement of the ball screw, and when the rotating motor is stopped, the screw can be always kept at the stop position, so that stability of the photovoltaic panel assembly 1 is improved.

Further, in order to ensure that the photovoltaic panel mounting structure is connected with the external upright 9, the guide rail 32 is provided with a mounting portion 10, and the mounting portion 10 is connected with the external upright 9; the mounting portion 10 may be a mounting hole or a threaded hole or a mounting plate. Or, the photovoltaic panel mounting structure further includes an external connector 4, where the external connector 4 is used to connect the guide rail 32 and the external upright 9, and the external connector 4 may be a hoop, or may be other structures, so long as the connection between the diagonal support bar 31 and the external upright 9 can be achieved, and the photovoltaic panel mounting structure is not specifically limited.

Example III

In this embodiment, the same portions as those in the first and second embodiments are given the same reference numerals, and the same description is omitted.

Compared with the first embodiment and the second embodiment, the photovoltaic panel mounting structure provided in this embodiment has the following different structural design: as shown in fig. 7, in order to further improve the solar ray utilization rate of the photovoltaic panel assembly 1 and improve the power generation efficiency of the photovoltaic panel assembly 1, the photovoltaic panel installation structure further comprises at least one altitude angle adjusting piece 6, in order to ensure that the photovoltaic panel assembly 1 can realize azimuth angle and altitude angle adjustment, and in order to avoid interference of the supporting piece 2 on the altitude angle adjustment of the photovoltaic panel assembly 1, the top of the supporting piece 2 is hinged with the photovoltaic panel assembly 1 through a ball head 24, and the photovoltaic panel assembly 1 can realize azimuth angle deflection and altitude angle deflection relative to the supporting piece 2 through the arrangement of the ball head 24; in order to avoid interference of the azimuth angle adjusting member 3 to the adjustment of the height angle of the photovoltaic panel assembly 1, the azimuth angle adjusting member 3 is connected with the photovoltaic panel assembly 1 through the first hinge support 5, the first hinge support 5 is provided with a first hinge part 51 and a second hinge part 52, the azimuth angle adjusting member 3 is hinged with the first hinge part 51, the photovoltaic panel assembly 1 is hinged with the second hinge part 52, and the hinge deflection direction of the first hinge part 51 is perpendicular to the hinge deflection direction of the second hinge part 52.

Specifically, the altitude angle adjuster 6 has one end hinged to the photovoltaic panel assembly 1 and the other end capable of being mounted to the external column 9; the altitude angle adjusting piece 6 pulls the photovoltaic panel assembly 1 to deflect in an altitude angle; the installation form and the installation structure of the height angle adjusting piece 6 and the external upright post 9 refer to the azimuth angle adjusting piece 3, and are not described herein; the specific driving form and structure of the altitude angle adjuster 6 may also refer to the azimuth angle adjuster 3, and will not be described herein.

Further, in order to ensure that the photovoltaic panel assembly 1 can achieve adjustment of azimuth angle and altitude angle, and in order to avoid interference of the altitude angle adjuster 6 to the azimuth angle adjustment of the photovoltaic panel assembly 1, the altitude angle adjuster 6 is connected with the photovoltaic panel assembly 1 through the second hinge base 7, the second hinge base 7 has a third hinge portion 71 and a fourth hinge portion 72, the altitude angle adjuster 6 is hinged with the third hinge portion 71, the photovoltaic panel assembly 1 is hinged with the fourth hinge portion 72, the hinge deflection direction of the third hinge portion 71 is perpendicular to the hinge deflection direction of the fourth hinge portion 72, and the hinge deflection direction of the second hinge portion 52 is parallel to the hinge deflection direction of the third hinge portion 71.

Further, in order to achieve height adjustment of the photovoltaic panel assembly 1 and improve the general performance of the photovoltaic panel mounting structure, the supporting piece 2 is any one of an air cylinder, an oil cylinder and an electric telescopic rod; or, the support 2 comprises a first sleeve 21 and a second sleeve 22 axially sleeved at one end of the first sleeve 21 and at least partially protruding out of the first sleeve 21, the second sleeve 22 can axially slide along the first sleeve 21, an elastic piece 23 is arranged in the first sleeve 21, and the elastic piece 23 pushes against the second sleeve 22; the elastic member 23 may be a spring, an elastic pad, or the like.

Further, at least one height angle adjuster 6 is mounted on the same side of the photovoltaic panel assembly 1; that is, one height angle adjusting piece 6 may be installed on the same side of the photovoltaic panel assembly 1, and in order to improve the stability of the deflection of the height angle of the photovoltaic panel assembly 1, two or more height angle adjusting pieces 6 may be installed on the same side of the photovoltaic panel assembly 1, and the two or more height angle adjusting pieces 6 are arranged at intervals on the same side of the photovoltaic panel assembly 1, and can realize synchronous lifting; the specific number of the height adjustment members 6 may be selected according to practical situations, and is not particularly limited.

Further, in order to further improve the stability of the deflection of the elevation angle of the photovoltaic panel assembly 1, the elevation angle adjusting members 6 are mounted on opposite sides of the mounting frame, and the movement directions of the elevation angle adjusting members 6 on different sides are opposite.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

Claims (9)

1. The photovoltaic panel mounting structure is characterized by comprising a photovoltaic panel assembly, a supporting piece capable of hinging the photovoltaic panel assembly to the upper end of an external upright post and at least one azimuth angle adjusting piece for pulling the photovoltaic panel assembly to perform azimuth angle deflection;

one end of the azimuth angle adjusting piece is hinged to the photovoltaic panel assembly, and the other end of the azimuth angle adjusting piece is installed on the external upright post; the hinging deflection direction of the azimuth angle adjusting piece and the photovoltaic panel assembly is consistent with the azimuth angle deflection direction of the photovoltaic panel assembly; the support piece is hinged with the photovoltaic panel assembly through a ball head; the photovoltaic panel mounting structure further comprises at least one height angle adjusting piece, one end of the height angle adjusting piece is hinged to the photovoltaic panel assembly, and the other end of the height angle adjusting piece can be mounted on an external upright post; the altitude angle adjusting piece pulls the photovoltaic panel assembly to conduct altitude angle deflection.

2. The photovoltaic panel mounting structure of claim 1, wherein the azimuth angle adjusting member comprises a diagonal bar, one end of the diagonal bar is hinged to the photovoltaic panel assembly, and the diagonal bar can lift and pull the photovoltaic panel assembly for azimuth angle deflection.

3. The photovoltaic panel mounting structure according to claim 2, wherein the diagonal brace is mounted to the external upright via an external connector;

the inclined support rod is any one of an air cylinder, an oil cylinder and an electric telescopic rod.

4. The photovoltaic panel mounting structure according to claim 2, wherein the azimuth angle adjusting member further comprises a slider hinged to the diagonal support bar, a guide rail adapted to the slider, and a driving member connected to the slider, the guide rail being mountable to the external upright, the driving member driving the slider to reciprocate along the guide rail.

5. The photovoltaic panel mounting structure according to claim 4, wherein the guide rail is provided with a mounting portion, the mounting portion being connected to an external column;

or, the photovoltaic panel mounting structure further comprises an external connector, and the external connector is used for connecting the guide rail and the external upright post.

6. The structure according to any one of claims 1 to 5, wherein at least one of the azimuth angle adjusting members is mounted on the same side of the photovoltaic panel assembly;

and/or the photovoltaic panel assembly comprises a mounting frame, wherein the azimuth angle adjusting pieces are mounted on two opposite sides of the mounting frame, and the movement directions of the azimuth angle adjusting pieces on different sides are opposite;

and/or, one end of the supporting piece is hinged to the photovoltaic panel assembly, and the other end of the supporting piece can be installed on an external upright post; at least one hinged deflection direction of the support piece and the photovoltaic panel assembly is consistent with an azimuth deflection direction of the photovoltaic panel assembly.

7. The photovoltaic panel mounting structure of claim 6, wherein the top of the support is hinged to the photovoltaic panel assembly by a ball;

or, the azimuth angle adjusting piece is connected with the photovoltaic panel assembly through a first hinge seat, the first hinge seat is provided with a first hinge part, and the azimuth angle adjusting piece is hinged with the first hinge part.

8. The photovoltaic panel mounting structure according to claim 6, wherein the azimuth angle adjusting member is connected to the photovoltaic panel assembly through a first hinge base having a first hinge portion and a second hinge portion, the azimuth angle adjusting member is hinged to the first hinge portion, the photovoltaic panel assembly is hinged to the second hinge portion, and a hinge deflection direction of the first hinge portion is perpendicular to a hinge deflection direction of the second hinge portion.

9. The photovoltaic panel mounting structure according to claim 8, wherein the height-angle adjusting member is connected to the photovoltaic panel assembly through a second hinge base, the second hinge base has a third hinge portion and a fourth hinge portion, the height-angle adjusting member is hinged to the third hinge portion, the photovoltaic panel assembly is hinged to the fourth hinge portion, a hinge deflection direction of the third hinge portion is perpendicular to a hinge deflection direction of the fourth hinge portion, and the hinge deflection direction of the second hinge portion is parallel to the hinge deflection direction of the third hinge portion;

and/or the supporting piece is any one of an air cylinder, an oil cylinder and an electric telescopic rod;

or the support piece comprises a first sleeve and a second sleeve axially sleeved at one end part of the first sleeve and at least partially protruding out of the first sleeve, the second sleeve can axially slide along the first sleeve, an elastic piece is arranged in the first sleeve, and the elastic piece props against the second sleeve;

and/or at least one of the height angle adjusting members is mounted on the same side of the photovoltaic panel assembly;

and/or the photovoltaic panel assembly comprises a mounting frame, wherein the height angle adjusting parts are mounted on two opposite sides of the mounting frame, and the movement directions of the height angle adjusting parts on different sides are opposite.

Images