CN219627633U - Angle-adjustable solar photovoltaic panel supporting mechanism - Google Patents

Abstract

The utility model discloses an angle-adjustable solar photovoltaic panel supporting mechanism, which comprises: the prefabricated reinforced concrete buttress, the upright post, the first adaptor, the diagonal bracing and the third adaptor. The upright post is provided with a plurality of first connecting holes. The first adapter piece is provided with at least two second connecting holes, the first connecting piece can move along the upright post to adjust the position, and the fastener can pass through the first connecting holes to be connected with the second connecting holes so as to fix the first adapter piece. One end of the diagonal brace is hinged to the first adapter, and the other end of the diagonal brace is hinged to the second adapter, and the second adapter is used for being connected with the photovoltaic panel support keel. And the third adapter piece is hinged to one end of the upright post, which is away from the precast reinforced concrete buttress, and is used for connecting the photovoltaic panel support keel. According to the angle-adjustable solar photovoltaic panel supporting mechanism, the diagonal braces can be connected to the first connecting holes at different height positions on the upright posts through the first connecting pieces, so that the inclination angle of the solar photovoltaic panel is adjusted, and the solar energy conversion efficiency is improved.

Description

Angle-adjustable solar photovoltaic panel supporting mechanism

Technical Field

The utility model relates to the technical field of solar photovoltaic panel supports, in particular to a solar photovoltaic panel supporting mechanism with an adjustable angle.

Background

With the rapid development of new energy industry, solar energy is used as a low-carbon renewable energy source, can be used for free, does not need transportation, and has no pollution to the environment. Compared with the conventional energy, the solar photovoltaic panel is convenient to use and low in cost, and the solar photovoltaic panel is used for directly converting solar energy into electric energy, supplying power for electric equipment or transmitting the electric energy to a power grid, so that the requirement of the current society for electric energy is met. The solar photovoltaic panel support is a support mechanism for supporting the solar panel in the solar photovoltaic power generation system, most of solar photovoltaic panel supports in the prior art are fixed frames, and the angle cannot be adjusted, namely, each position has fixed geometric dimension and angle, so that the angle cannot be adjusted after the solar photovoltaic panel is installed. However, as the installation positions of the solar photovoltaic panels are different, and the rotation, revolution and sunlight incidence angle of the earth are always changed, the orientation of the solar photovoltaic panels cannot be adjusted, so that the solar energy conversion rate is not high, and the structure of the fixing frame body limits the effective utilization rate of the solar photovoltaic panels for power generation.

In view of this, the present utility model has been made.

Disclosure of Invention

The utility model provides a solar photovoltaic panel supporting mechanism with an adjustable angle.

The utility model adopts the following technical scheme:

an angularly adjustable solar photovoltaic panel support mechanism comprising:

prefabricating reinforced concrete buttresses;

the upright posts are connected to the precast reinforced concrete buttresses, a plurality of first connecting holes are formed in the upright posts, and the first connecting holes are sequentially arranged at intervals along the height direction of the upright posts;

the first connecting piece is provided with at least two second connecting holes, the first connecting piece can move along the upright post to adjust the position, and the fastener can pass through the first connecting holes to be connected with the second connecting holes so as to fix the first connecting piece;

one end of the diagonal brace is hinged to the first adapter, and the other end of the diagonal brace is hinged to the second adapter, and the second adapter is used for connecting with the photovoltaic panel supporting keel;

and the third adapter piece is hinged to one end of the upright post, which is away from the precast reinforced concrete buttress, and is used for connecting the photovoltaic panel support keel.

Optionally, the first adapter comprises an attaching wall and two triangular side walls, and the two triangular side walls are respectively and vertically connected to two sides of the attaching wall;

each second connecting hole is formed in the bonding wall;

the inclined strut end extends to between the two triangular side walls, and the inclined strut is connected to the two triangular side walls through a rotating shaft.

Optionally, a rotating shaft connecting hole is arranged at a corner of one side of the triangular side wall, which is away from the attaching wall, and the rotating shaft penetrates through the rotating shaft connecting hole;

two second connecting holes are formed in the attaching wall and are respectively close to the other two corners of the triangular side wall.

Optionally, the upright post comprises a first main board body and first side board bodies positioned at two sides of the first main board body;

a concave cavity is formed between the first main board body and the two first side board bodies;

the first main board body is attached to the attaching wall;

the fastener comprises a bolt and a nut, the stud of the bolt penetrates through the first connecting hole and the second connecting hole, the nut of the bolt is limited in the concave cavity, the nut is in threaded connection with the stud, and the nut is limited on one surface of the attaching wall, which is away from the upright post.

Optionally, the first connecting hole and the second connecting hole are elongated holes, and the first connecting hole and the second connecting hole extend along the length direction of the upright post.

Optionally, the solar photovoltaic panel supporting mechanism with the adjustable angle comprises a fourth adapter, and an embedded part is arranged on the precast reinforced concrete buttress;

the fourth adapter is connected to the embedded part;

the upright is detachably connected to the fourth adapter.

Optionally, the embedded part comprises a cap body and a column body;

the cap body is buried in the precast reinforced concrete buttress;

the column body extends out of the precast reinforced concrete buttress;

the fourth adapter is connected to the column.

Optionally, the fourth adaptor comprises a plate body and a support, and the support is vertically connected to the plate body;

the plate body is provided with a through hole;

the column body penetrates through the through hole and is provided with external threads;

the nut is connected to the stud in a threaded manner to fix the plate body between the nut and the precast reinforced concrete buttress.

Optionally, the support is provided with a second main board body and two second side board bodies, and the two second side board bodies are arranged on two sides of the second main board body;

a caulking groove is formed between the second main board body and the second side board body;

the end part of the upright post is inserted into the caulking groove, and the upright post is connected with the second main board body through a fastener.

Optionally, a third connecting hole is formed in the second main board body;

the third connecting hole is a strip hole and extends along the direction vertical to the plate body;

the fastener penetrates through the third connecting hole and the corresponding first connecting hole to connect and fix the upright post and the support.

By adopting the technical scheme, the utility model has the following beneficial effects:

according to the angle-adjustable solar photovoltaic panel supporting mechanism, the diagonal braces are connected to the first connecting holes at different positions on the upright post through the first adapter, so that the solar photovoltaic panels on the diagonal braces show different angle orientations, and the solar energy conversion efficiency is improved.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. It is evident that the drawings in the following description are only examples, from which other drawings can be obtained by a person skilled in the art without the inventive effort. In the drawings:

fig. 1 is a schematic structural diagram of an angle-adjustable solar photovoltaic panel supporting mechanism provided by the utility model;

FIG. 2 is a cross-sectional view of an angularly adjustable solar photovoltaic panel support mechanism provided by the present utility model;

fig. 3 is a schematic structural view of an upright post of the angle-adjustable solar photovoltaic panel supporting mechanism provided by the utility model;

fig. 4 is a schematic structural view of a first adaptor of the angle-adjustable solar photovoltaic panel supporting mechanism provided by the utility model;

fig. 5 is a schematic structural diagram of a fourth adaptor of the angle-adjustable solar photovoltaic panel supporting mechanism provided by the utility model.

In the drawing, a precast reinforced concrete buttress 1, an embedded part 11, a cap 111, a column 112, a column 2, a first main board 21, a first connecting hole 211, a first side board 22, a first adapter 3, a fitting wall 31, a second connecting hole 311, a triangular side wall 32, a rotating shaft connecting hole 321, a second adapter 4, a third adapter 5, a fourth adapter 6, a board 61, a through hole 611, a support 62, a second main board 622, a third connecting hole 6211, a second side board 621, a diagonal brace 7, a photovoltaic board supporting keel 8, a rotating shaft a, a bolt b, and a nut c.

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model, but are not intended to limit the scope of the present utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or component referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 5, an embodiment of the present utility model provides an angle-adjustable solar photovoltaic panel supporting mechanism, including: the prefabricated reinforced concrete buttress 1, the upright post 2, the first adapter 3, the diagonal bracing 7 and the third adapter 5. The upright post 2 is connected to the precast reinforced concrete buttress 1, a plurality of first connecting holes 211 are formed in the upright post 2, and the first connecting holes 211 are sequentially arranged at intervals along the height direction of the upright post 2. The first adapter 3 has at least two second connection holes 311, the first connector can move along the column 2 to adjust the position, and the fastener can pass through the first connection holes 211 to be connected to the second connection holes 311 to fix the first adapter 3. One end of the diagonal bracing 7 is hinged to the first adapter 3, the other end of the diagonal bracing 7 is hinged to the second adapter 4, and the second adapter 4 is used for being connected with the photovoltaic panel supporting keel 8. The third adaptor 5 is hinged to one end of the upright 2, which is away from the precast reinforced concrete pier 1, and the third adaptor 5 is used for connecting with a photovoltaic panel supporting keel 8. According to the angle-adjustable solar photovoltaic panel supporting mechanism, the diagonal braces 7 are connected to the first connecting holes 211 at different positions on the upright posts 2 through the first adapter 3, so that the solar photovoltaic panels on the diagonal braces exhibit different angle orientations, and the solar energy conversion efficiency is improved.

As shown in fig. 4, the first adaptor 3 includes an attaching wall 31 and two triangular side walls 32, the two triangular side walls 32 are respectively and vertically connected to two sides of the attaching wall 31, each second connecting hole 311 is formed in the attaching wall 31, the end of the diagonal brace 7 extends between the two triangular side walls 32, and the diagonal brace 7 is connected to the two triangular side walls 32 through a rotating shaft a. The rotating shaft a enables the diagonal bracing 7 to be rotatably connected with the first rotating member 3, so that the angle change between the upright post 2 and the diagonal bracing 7 can be conveniently adapted.

The corner of one side of the triangle side wall 32, which is away from the attachment wall 31, is provided with a rotating shaft connecting hole 321, a rotating shaft a penetrates through the rotating shaft connecting hole 321, the attachment wall 31 is provided with two second connecting holes 311, and the two second connecting holes 311 are respectively close to the other two corners of the triangle side wall 32. The attaching wall 31 is a flat plate body 61, which is convenient to attach to the upright post 2.

As shown in fig. 2, it should be noted that the first adaptor 3, the second adaptor 4 and the third adaptor 5 have the same structure, so that the movable adaptor connection between the upright 2 and the photovoltaic panel support keel 8, between the upright 2 and the diagonal brace 7, and between the diagonal brace 7 and the keel is facilitated, and the arrangement of the same structure enables the support mechanism of the utility model to use fewer types of accessories, have simpler structure, and the first adaptor 3, the second adaptor 4 and the third adaptor 5 can be mutually universal, so that the installation is more convenient and the cost is low.

As shown in fig. 3, the upright post 2 includes a first main board body 21 and first side board bodies 22 located at both sides of the first main board body 21, a cavity is formed between the first main board body 21 and the two first side board bodies 22, and the first main board body 21 is attached to the attaching wall 31. The fastener includes bolt b and nut c, and the double-screw bolt of bolt b runs through first connecting hole 211 and second connecting hole 311, and the nut of bolt b is spacing in the cavity, and nut c threaded connection is in the double-screw bolt, and nut c is spacing in the one side that the wall 31 deviates from stand 2 of laminating. When installing stand 2 and bracing 7, adjust the angle that solar photovoltaic panel needs on photovoltaic board supports fossil fragments 8 earlier, find suitable first connecting hole 211's position on stand 2, then make the laminating wall 31 of first adaptor 3 laminate with first mainboard body 21 mutually, use bolt b's body of rod to run through first connecting hole 211 and second connecting hole 311 in proper order, bolt b's nut is spacing in the cavity, nut c threaded connection is in the double-screw bolt, nut c is spacing in the one side that the laminating wall 31 deviates from stand 2. The angle of the panel on the keel is changed by adjusting the position of the first connecting hole 211 between the diagonal brace 7 and the upright post 2, so that the conversion efficiency of solar energy is improved.

As shown in fig. 1 and 3, the first connection hole 211 and the second connection hole 311 are elongated holes, and the first connection hole 211 and the second connection hole 311 extend along the length direction of the pillar 2. When the angle of the panel needs to be finely adjusted, the high and low positions of the first adapter piece 3 can be adjusted in the same long strip-shaped hole, so that the angle fine adjustment of the photovoltaic panel is realized, and when the angle adjustment of the panel with a larger angle is needed, the hole replacement adjustment can be performed.

In one possible embodiment, as shown in fig. 1, the solar photovoltaic panel supporting mechanism with adjustable angle includes a fourth adaptor 6, an embedded part 11 is disposed on the precast reinforced concrete pier 1, the fourth adaptor 6 is connected to the embedded part 11, and the upright post 2 is detachably connected to the fourth adaptor 6. The embedded part 11 is partially exposed in structure, so that the fourth adaptor 6 can be conveniently connected at a later stage, the embedded part 11 can be omitted, and the fourth adaptor 6 can be connected in the precast reinforced concrete buttress 1 by means of later-stage expansion bolts b.

As shown in fig. 2, the embedded part 11 comprises a cap 111 and a column 112, the cap 111 is buried in the precast reinforced concrete pier 1, the column 112 extends out of the precast reinforced concrete pier 1, and the fourth adapter 6 is connected to the column 112. The embedded part 11 can be a bolt, the cap body is embedded in the precast reinforced concrete buttress 1, and a part of the column 112 is exposed, so that the nut can be conveniently used for fixing the fourth adapter 6.

The fourth adapter 6 comprises a plate body 61 and a support 62, the support 62 is vertically connected to the plate body 61, a through hole 611 is formed in the plate body 61, a column 112 is arranged through the through hole 611, the column 112 is provided with external threads, and a nut is connected to a stud in a threaded manner to fix the plate body 61 between the nut and the precast reinforced concrete pier 1. The plate body 61 and the support 62 may be integrally formed as a single piece, and the single piece has good structural stability, and may be welded and fixed, and the welding and fixing operation is simple.

As shown in fig. 5, the support 62 has a second main board body 622 and two second side board bodies 621, the two second side board bodies 621 are disposed on two sides of the second main board body 622, a caulking groove is formed between the second main board body 622 and the second side board body 621, the end of the upright post 2 is inserted into the caulking groove, and the upright post 2 and the second main board body 622 are connected by a fastener. It should be noted that the width of the first main board body 21 of the upright post 2 is smaller than the width of the second main board body 622 of the support 62, so that the end of the upright post 2 is just inserted into the caulking groove, so that the outer surface of the first main board body 21 and the inner surface of the second main board body 622 are attached to each other, and the connection is facilitated by using a fastener.

As shown in fig. 5, a third connecting hole 6211 is provided on the second main board 622, the third connecting hole 6211 is a long strip hole, the third connecting hole 6211 extends along the direction perpendicular to the board 61, and a fastener penetrates through the third connecting hole 6211 and the corresponding first connecting hole 211 to connect and fix the upright post 2 and the support 62. When the fourth adaptor 6 is mounted on the upright 2, the first main board 21 is attached to the second main board 622 on the support 62, so that the column 112 of the bolt b sequentially penetrates through the first connecting hole 211 and the third connecting hole 6211, and then the nut c is screwed to the column 112, so as to connect and fix the first main board 21 and the second main board 622.

It should be noted that the solar photovoltaic panel supporting mechanism with adjustable angle in the utility model can be made of steel or aluminum alloy, the material strength and the component size can be determined according to the weight of the solar photovoltaic panel, the photovoltaic panel supporting keel 8 is used for directly supporting the solar panel, the lower upright post 2 is rotatably used for supporting the photovoltaic panel supporting keel 8 through the third adapter 5, the lower end of the upright post 2 is fixed on a concrete pier through the fourth adapter 6, one end of the diagonal brace 7 is movably connected on the upright post 2 through the first adapter 3, the other end of the diagonal brace 7 is movably supported by the photovoltaic panel supporting keel 8 through the second adapter 4, and a stable triangular structure is formed among the upright post 2, the diagonal brace 7 and the photovoltaic panel supporting keel 8. The upright posts 2 are sequentially provided with a plurality of strip-shaped first connecting holes 211 at intervals along the height direction, and when different positions of the upright posts 2 and the diagonal braces 7 are connected, different photovoltaic panel supporting keels 8 are supported at different angles, so that solar photovoltaic panels on the upright posts can show different angles, and higher solar energy conversion efficiency is pursued.

The solar photovoltaic panel supporting mechanism with the adjustable angle can adapt to the orientations of solar photovoltaic panels in different latitude positions and different periods in the same year at the same latitude position, the connection of different positions corresponds to different supporting angles, and the solar photovoltaic panels on the photovoltaic panel supporting keels 8 can show different orientation angles so as to achieve the highest solar energy conversion efficiency.

The present utility model is not limited to the above embodiments, but is capable of being modified or varied in all ways within the scope of the appended claims.

Claims (10)

1. An angularly adjustable solar photovoltaic panel supporting mechanism, characterized in that includes:

prefabricating reinforced concrete buttresses;

the upright posts are connected to the precast reinforced concrete buttresses, a plurality of first connecting holes are formed in the upright posts, and the first connecting holes are sequentially arranged at intervals along the height direction of the upright posts;

the first connecting piece is provided with at least two second connecting holes, the first connecting piece can move along the upright post to adjust the position, and the fastener can pass through the first connecting holes to be connected with the second connecting holes so as to fix the first connecting piece;

one end of the diagonal brace is hinged to the first adapter, and the other end of the diagonal brace is hinged to the second adapter, and the second adapter is used for connecting with the photovoltaic panel supporting keel;

and the third adapter piece is hinged to one end of the upright post, which is away from the precast reinforced concrete buttress, and is used for connecting the photovoltaic panel support keel.

2. The angle-adjustable solar photovoltaic panel supporting mechanism according to claim 1, wherein the first adapter comprises an attaching wall and two triangular side walls, and the two triangular side walls are respectively and vertically connected to two sides of the attaching wall;

each second connecting hole is formed in the bonding wall;

the inclined strut end extends to between the two triangular side walls, and the inclined strut is connected to the two triangular side walls through a rotating shaft.

3. The solar photovoltaic panel supporting mechanism with adjustable angle according to claim 2, wherein a rotating shaft connecting hole is arranged at the corner of one side of the triangular side wall away from the attaching wall, and the rotating shaft penetrates through the rotating shaft connecting hole;

two second connecting holes are formed in the attaching wall and are respectively close to the other two corners of the triangular side wall.

4. The angle-adjustable solar photovoltaic panel support mechanism of claim 3, wherein the upright comprises a first main plate body and first side plate bodies positioned on both sides of the first main plate body;

a concave cavity is formed between the first main board body and the two first side board bodies;

the first main board body is attached to the attaching wall;

the fastener comprises a bolt and a nut, the stud of the bolt penetrates through the first connecting hole and the second connecting hole, the nut of the bolt is limited in the concave cavity, the nut is in threaded connection with the stud, and the nut is limited on one surface of the attaching wall, which is away from the upright post.

5. The adjustable angle solar photovoltaic panel support mechanism of claim 4, wherein the first and second connection holes are elongated holes, and the first and second connection holes extend along a length of the post.

6. The adjustable angle solar photovoltaic panel support mechanism of claim 5, comprising a fourth adaptor, wherein an embedded part is arranged on the precast reinforced concrete pier;

the fourth adapter is connected to the embedded part;

the upright is detachably connected to the fourth adapter.

7. The adjustable angle solar photovoltaic panel support mechanism of claim 6, wherein the embedment comprises a cap and a post;

the cap body is buried in the precast reinforced concrete buttress;

the column body extends out of the precast reinforced concrete buttress;

the fourth adapter is connected to the column.

8. The adjustable angle solar photovoltaic panel support mechanism of claim 7, wherein the fourth adaptor comprises a plate body and a support, the support being vertically connected to the plate body;

the plate body is provided with a through hole;

the column body penetrates through the through hole and is provided with external threads;

the nut is connected to the stud in a threaded manner to fix the plate body between the nut and the precast reinforced concrete buttress.

9. The angle-adjustable solar photovoltaic panel supporting mechanism according to claim 8, wherein the support is provided with a second main board body and two second side board bodies, and the two second side board bodies are arranged on two sides of the second main board body;

a caulking groove is formed between the second main board body and the second side board body;

the end part of the upright post is inserted into the caulking groove, and the upright post is connected with the second main board body through a fastener.

10. The angle-adjustable solar photovoltaic panel supporting mechanism according to claim 9, wherein a third connecting hole is formed in the second main plate body;

the third connecting hole is a strip hole and extends along the direction vertical to the plate body;

the fastener penetrates through the third connecting hole and the corresponding first connecting hole to connect and fix the upright post and the support.