CN219068122U - Photovoltaic bracket for communication tower base station - Google Patents

Abstract

A photovoltaic bracket for a communication tower base station comprises a longitudinal girder, a transverse girder, a support short column and a support long column; a square frame structure is formed between the longitudinal girder and the transverse girder; the front end of the longitudinal girder is connected with the upper end of the supporting short column through a first connecting plate; the lower end of the supporting short column is connected with a forward hinged support or a lateral hinged support; the rear end of the longitudinal girder is connected with the upper end of the long support column through a second connecting plate, the upper end of the long support column is connected with the longitudinal girder, and the lower end of the long support column is connected with the lateral hinge support; the transverse supporting member is respectively provided with a first hinge support and a second hinge support, and the first hinge support and the second hinge support are respectively connected with the second connecting plate. The utility model overcomes the defects of the prior art, forms effective support for the photovoltaic bracket through the original iron tower structure and the enclosing wall, fully utilizes the space between the iron tower and the enclosing wall of the base station to maximize the photovoltaic laying area, and simultaneously reduces the load of the newly added photovoltaic bracket on the original iron tower structure so that the whole structure meets the safety requirement.

Description

Photovoltaic bracket for communication tower base station

Technical Field

The utility model relates to the field of communication, in particular to a photovoltaic cell mounting bracket for a communication tower base station, and specifically relates to a photovoltaic bracket for a communication tower base station.

Background

In the prior art, an iron tower base station photovoltaic support scheme adopts a floor stand scheme or a machine room roof support scheme, and the floor stand scheme is limited by the problem that the original occupied area of a base station is difficult to meet the requirement of a photovoltaic laying area, and the machine room roof support scheme is limited by the problem that the iron tower shields a machine room below the iron tower to influence the photovoltaic power generation efficiency. In addition, if the scheme of directly arranging the cantilever bracket on the iron tower is adopted, the cantilever distance is larger, and potential safety hazards can be generated for the original iron tower structure.

For example, CN2017209663752 discloses a split photovoltaic bracket comprising a post, a baseboard, a first connector and a second connector. The stand bottom is equipped with first mounting hole. The baseboard is provided with a second mounting hole and a third mounting hole. The second mounting holes are arranged corresponding to the first mounting holes. The skirting board passes through the first mounting hole through the first connecting piece, and the second mounting hole links to each other with the stand is fixed. The floor board can be quickly and fixedly arranged at the bottom end of the upright post through the first connecting piece, and can be quickly and fixedly arranged on the ground or a floor slab through the second connecting piece, so that the upright post can be prevented from shaking. However, the floor stand scheme is limited by the original occupied area of the base station, so that the problem that the photovoltaic laying area requirement is difficult to meet is solved.

And a photovoltaic bracket for a communication tower disclosed in CN2018115813296 patent comprises a plurality of vertical beams arranged in parallel, an upper main beam and a lower main beam, wherein the upper main beam on the upper side penetrates through the upper end of each vertical beam, the lower main beam on the lower side penetrates through the lower end of each vertical beam, and the main beams are detachably connected with the main rod of the communication tower through a connecting component. The scheme is that the overhanging support is directly arranged on the iron tower, but the overhanging distance is large, so that potential safety hazards can be generated for the safety of the original iron tower structure.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the photovoltaic bracket for the communication iron tower base station, which overcomes the defects of the prior art, has reasonable design, forms effective support for the photovoltaic bracket by using the original iron tower structure and the enclosing wall structure, fully utilizes the space between the iron tower and the base station enclosing wall to maximize the photovoltaic laying area, and simultaneously reduces the load of the newly added photovoltaic bracket on the original iron tower structure so that the whole structure meets the safety requirement.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the photovoltaic bracket for the communication tower base station comprises a plurality of longitudinal girders, a plurality of transverse girders, a plurality of support short columns and two support long columns, wherein the longitudinal girders and the transverse girders are mutually and vertically connected through bolts; a square frame structure is formed by assembling a plurality of longitudinal girders and a plurality of transverse girders, and a photovoltaic panel is fixedly arranged on the upper surface of the square frame;

the support short columns are the same in number and correspond to the longitudinal girders one by one, the lower surfaces of the front ends of the longitudinal girders are provided with first connecting plates, the upper ends of the support short columns are provided with first top connecting plates, and the first top connecting plates are connected with the first connecting plates through bolts; the lower end of the supporting short column is provided with a first bottom connecting plate which is connected with the forward hinged support or the lateral hinged support through bolts; the forward hinged support is fixedly arranged on the front inner wall of the enclosing wall through an expansion bolt, and the lateral hinged support is fixedly arranged on the side inner wall of the enclosing wall through an expansion bolt;

the rear ends of the longitudinal girders are respectively provided with a second connecting plate, the upper ends of the long supporting columns are provided with second top connecting plates, the two long supporting columns respectively correspond to the longitudinal girders positioned at the left end and the right end of the square frame, the second top connecting plates are connected with the second connecting plates through bolts, the lower ends of the long supporting columns are provided with second bottom connecting plates, and the second bottom connecting plates are connected with the lateral hinged supports through bolts;

the rear end positions of the longitudinal girders positioned in the middle of the square frame correspond to the positions of the transverse supporting members of the communication iron tower, the two ends of each transverse supporting member are provided with first hinge supports, the middle of each transverse supporting member is provided with a plurality of second hinge supports, and the first hinge supports and the second hinge supports are connected with the second connecting plates through bolts respectively.

Preferably, the first hinge support includes an L-shaped outer clamping plate and an L-shaped inner clamping plate, the L-shaped outer clamping plate and the L-shaped inner clamping plate are respectively clamped on the outer surface and the inner surface of the end part of the transverse supporting member, the L-shaped outer clamping plate and the L-shaped inner clamping plate are connected through bolts, a third connecting plate is arranged in the middle of the L-shaped inner clamping plate, and the third connecting plate is connected with the second connecting plate through bolts.

Preferably, the second hinge support comprises an outer flat plate and two L-shaped clamping plates, the outer flat plate is positioned on the upper surface of the transverse supporting member, the two L-shaped clamping plates are respectively positioned on the front side and the rear side of the lower surface of the transverse supporting member, and the outer flat plate and the two L-shaped clamping plates are mutually connected through bolts so that the transverse supporting member is clamped between the outer flat plate and the two L-shaped clamping plates; a fourth connecting plate is arranged in the middle of the L-shaped clamping plate positioned on the front side of the lower surface of the transverse supporting member and is connected with the second connecting plate through bolts.

Preferably, two adjacent support short columns are connected with each other through an inclined support rod.

The utility model provides a photovoltaic bracket for a communication tower base station. The beneficial effects are as follows: the photovoltaic support is effectively supported by the aid of the original iron tower transverse supporting members and the enclosing walls of the communication iron tower base station, one end of the photovoltaic support is directly connected to the transverse supporting members in a hinged mode, the other end of the photovoltaic support is connected with the supporting short columns arranged on the enclosing walls through hinge supports, and the photovoltaic support is lifted and arranged to be away from the ground by a certain height in the air without arranging a large number of support supporting members. Meanwhile, the inclination angle of the photovoltaic panel frame can be adjusted by adjusting the height and the position of the supporting short column arranged on the enclosing wall. And the whole support can flexibly adjust and adapt to the size of the internal space of the communication tower base station, and a newly added support base is not needed, so that the installation and arrangement efficiency of the photovoltaic support is improved while the space of the communication tower base station is fully utilized, and the structural safety requirement is met.

Drawings

In order to more clearly illustrate the utility model or the technical solutions in the prior art, the drawings used in the description of the prior art will be briefly described below.

FIG. 1 is a schematic view of the mounting structure of the present utility model;

FIG. 2 is a schematic elevational view of the present utility model;

FIG. 3 is a schematic view of the back structure of the present utility model;

FIG. 4 is a schematic view of the structure of the longitudinal main beam and the support post of the present utility model;

FIG. 5 is a schematic view of the structure of the longitudinal main beams and the support long columns of the present utility model;

FIG. 6 is a schematic view of the structure of the support post and forward hinge support of the present utility model;

FIG. 7 is a schematic view of the structure of the support column and the lateral hinge support of the present utility model;

FIG. 8 is a schematic view of the structure of the first hinge bracket of the present utility model;

FIG. 9 is a schematic view of a second hinge bracket according to the present utility model;

the reference numerals in the figures illustrate:

1. a longitudinal girder; 2. a transverse girder; 3. a support stub; 4. supporting the long column; 5. a first connection plate; 6. a first top connection plate; 7. a first bottom connection plate; 8. a forward hinged support; 9. a lateral hinged support; 10. a second connecting plate; 11. a second bottom connection plate; 12. a lateral support member; 13. a first hinge support; 14. a second hinge support; 15. a diagonal support bar; 16. a second top connection plate; 131. an L-shaped outer clamping plate; 132. an L-shaped inner clamping plate; 133. a third connecting plate; 141. an outer plate; 142. an L-shaped clamping plate; 143. and a fourth connecting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings.

1-9, a photovoltaic bracket for a communication tower base station comprises a plurality of longitudinal girders 1, a plurality of transverse girders 2, a plurality of support short columns 3 and two support long columns 4, wherein the longitudinal girders 1 and the transverse girders 2 are mutually and vertically connected through bolts; a plurality of longitudinal girders 1 and a plurality of transverse girders 2 are assembled to form a square frame structure, and the upper surface of the square frame can be fixedly paved with a photovoltaic panel in a bolt connection or clamping piece fastening mode;

the support short columns 3 are the same as the longitudinal girders 1 in number and correspond to each other one by one, the lower surfaces of the front ends of the longitudinal girders 1 are provided with first connecting plates 5, the upper ends of the support short columns 3 are provided with first top connecting plates 6, and the first top connecting plates 6 are connected with the first connecting plates 5 through bolts; the lower end of the supporting short column 3 is provided with a first bottom connecting plate 7, and the first bottom connecting plate 7 is connected with a forward hinged support 8 or a lateral hinged support 9 through bolts; the forward hinged support 8 is fixedly arranged on the front inner wall of the enclosing wall through an expansion bolt, and the lateral hinged support 9 is fixedly arranged on the side inner wall of the enclosing wall through an expansion bolt;

the rear ends of the longitudinal girders 1 are respectively provided with a second connecting plate 10, the upper ends of the long support columns 4 are provided with second top connecting plates 16, the two long support columns 4 respectively correspond to the longitudinal girders 1 positioned at the left end and the right end of the square frame, the second top connecting plates 16 are connected with the second connecting plates 10 through bolts, the lower ends of the long support columns 4 are provided with second bottom connecting plates 11, and the second bottom connecting plates 11 are connected with the lateral hinged supports 9 through bolts;

the rear end positions of the longitudinal girders 1 positioned in the middle of the square frame correspond to the positions of the transverse supporting members 12 of the communication tower, the first hinge supports 13 are arranged at the two ends of the transverse supporting members 12, a plurality of second hinge supports 14 are arranged in the middle of the transverse supporting members 12, and the first hinge supports 13 and the second hinge supports 14 are respectively connected with the second connecting plates 10 through bolts.

Working principle:

when the assembly is carried out, the first hinge support 13 and the second hinge support 14 are firstly arranged on the transverse supporting member 12 at the appointed height position on the south-facing tower surface of the original communication base station iron tower, then the second connecting plate 10 at one end of the middle longitudinal girder 1 is respectively connected with the corresponding first hinge support 13 and second hinge support 14 through bolts, and the longitudinal girder 1 can rotate and adjust around the central axis of the bolts; the first connecting plate 5 at the other end of the longitudinal girder 1 is connected with the first top connecting plates 6 at the upper ends of the supporting short columns 3 through bolts, and the inclined angles of the supporting short columns 3 and the longitudinal girder 1 are adjusted through up-and-down movement, so that the supporting short columns 3 are connected with the forward hinged supports 8 through the first bottom connecting plates 7 after being vertical to the ground; then the forward hinged support 8 is fixed on the side wall opposite to the tower surface of the iron tower through an expansion bolt; the installation of the middle longitudinal girder 1 and the supporting short column 3 connected with the same is completed according to the above flow.

Then the two sides of each longitudinal girder 1 in the middle part are connected with the transverse girders 2 through bolts, and the longitudinal girders 1 on the two sides are installed; one end of the longitudinal girder 1 at the left side and the right side is connected with a second top connecting plate 16 at the upper end of the support long column 4 through a second connecting plate 10, and the other end is connected with a first bottom connecting plate 7 at the top of the corresponding support short column 3 through a first connecting plate 5; and then the support short column 3, the support long column 4 and the inclination angle of the longitudinal girder 1 are adjusted through up-and-down movement, so that after the support short column 3 and the support long column 4 are vertical to the ground, a lateral hinge support 9 is respectively arranged at the lower parts of the support short column 3 and the support long column 4 through a first bottom connecting plate 7 and a second bottom connecting plate 11, and the lateral hinge support 9 is fixed on the side wall of the iron tower through expansion bolts. The installation is completed.

According to the utility model, the photovoltaic bracket is effectively supported by the original iron tower transverse supporting member 12 and the enclosing wall of the communication iron tower base station, one end of the photovoltaic bracket is directly connected to the transverse supporting member 12 in a hinged manner, the other end of the photovoltaic bracket is connected with the supporting short column 3 arranged on the enclosing wall through the hinged support, and the photovoltaic bracket is lifted and arranged in the air with a certain height away from the ground without arranging a large number of bracket supporting members. Meanwhile, the inclination angle of the photovoltaic panel frame can be adjusted by adjusting the height and the position of the supporting short column arranged on the enclosing wall so as to adapt to illumination angles of different areas. And the whole support can flexibly adjust and adapt to the size of the internal space of the communication tower base station, and a newly added support base is not needed, so that the installation and arrangement efficiency of the photovoltaic support is improved while the space of the communication tower base station is fully utilized, and the structural safety requirement is met.

In the second embodiment, as a further preferable aspect of the first embodiment, the first hinge support 13 includes an L-shaped outer clamping plate 131 and an L-shaped inner clamping plate 132, the L-shaped outer clamping plate 131 and the L-shaped inner clamping plate 132 are respectively clamped on the outer surface and the inner surface of the end portion of the lateral support member 12, the L-shaped outer clamping plate 131 and the L-shaped inner clamping plate 132 are connected through bolts, a third connecting plate 133 is disposed between the L-shaped inner clamping plate 132, and the third connecting plate 133 is connected with the second connecting plate 10 through bolts.

The L-shaped outer clamping plate 131 and the L-shaped inner clamping plate 132 are matched with each other and are tightly held on the transverse supporting member 12 of the original iron tower in a bolt fastening mode; and the adjustment of the position of the adjacent two longitudinal girders 1 can be accomplished by sliding along the transverse support members 12 to adjust the spacing between the adjacent first hinge supports 13.

In the third embodiment, as a further preferable aspect of the first embodiment, the second hinge support 14 includes an outer plate 141 and two L-shaped clamping plates 142, the outer plate 141 is located on the upper surface of the lateral support member 12, the two L-shaped clamping plates 142 are respectively located on the front and rear sides of the lower surface of the lateral support member 12, and the outer plate 141 and the two L-shaped clamping plates 142 are connected to each other by bolts, so that the lateral support member 12 is clamped between the outer plate 141 and the two L-shaped clamping plates 142; a fourth connection plate 143 is provided in the middle of the L-shaped clamping plate 142 located at the front side of the lower surface of the lateral support member 12, and the fourth connection plate 143 is connected to the second connection plate 10 by bolts.

During assembly, the outer flat plate 141 can be placed at a designated position on the upper surface of the transverse supporting member 12, two L-shaped clamping plates 142 are respectively attached to the front side and the rear side of the lower surface of the transverse supporting member 12, and the second hinge support 14 is tightly held on the transverse supporting member 12 of the original iron tower in a bolt fastening mode; and the position of the second hinge support 14 can be adaptively adjusted as required.

In the fourth embodiment, as a further preferable mode of the first embodiment, the adjacent two support posts 3 are connected to each other by the diagonal support bar 15. After the assembly is completed, two diagonal support rods 15 are installed between two adjacent support short columns 3 in an X-shaped structure; to further ensure the stability of the photovoltaic bracket.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (4)

1. A photovoltaic support for communication tower basic station, its characterized in that: the vertical girders (1) are vertically connected with the transverse girders (2) through bolts; a square frame structure is formed by assembling a plurality of longitudinal girders (1) and a plurality of transverse girders (2), and a photovoltaic panel is fixedly arranged on the upper surface of the square frame;

the support short columns (3) are the same as the longitudinal main beams (1) in number and correspond to each other one by one, first connecting plates (5) are arranged on the lower surfaces of the front ends of the longitudinal main beams (1), first top connecting plates (6) are arranged at the upper ends of the support short columns (3), and the first top connecting plates (6) are connected with the first connecting plates (5) through bolts; the lower end of the supporting short column (3) is provided with a first bottom connecting plate (7), and the first bottom connecting plate (7) is connected with a forward hinged support (8) or a lateral hinged support (9) through bolts; the forward hinged support (8) is fixedly arranged on the front inner wall of the enclosing wall through an expansion bolt, and the lateral hinged support (9) is fixedly arranged on the side inner wall of the enclosing wall through an expansion bolt;

the rear ends of the longitudinal girders (1) are respectively provided with a second connecting plate (10), the upper ends of the support long columns (4) are provided with second top connecting plates (16), the two support long columns (4) respectively correspond to the longitudinal girders (1) positioned at the left end and the right end of the square frame, the second top connecting plates (16) are connected with the second connecting plates (10) through bolts, the lower ends of the support long columns (4) are provided with second bottom connecting plates (11), and the second bottom connecting plates (11) are connected with the lateral hinge supports (9) through bolts;

the rear end positions of the longitudinal girders (1) positioned in the middle of the square frame correspond to the positions of the transverse supporting members (12) of the communication tower, the first hinge supports (13) are arranged at the two ends of the transverse supporting members (12), a plurality of second hinge supports (14) are arranged in the middle of the transverse supporting members (12), and the first hinge supports (13) and the second hinge supports (14) are connected with the second connecting plates (10) through bolts respectively.

2. A photovoltaic bracket for a pylon base station according to claim 1, wherein: the first hinge support (13) comprises an L-shaped outer clamping plate (131) and an L-shaped inner clamping plate (132), the L-shaped outer clamping plate (131) and the L-shaped inner clamping plate (132) are respectively clamped on the outer surface and the inner surface of the end part of the transverse supporting member (12), the L-shaped outer clamping plate (131) and the L-shaped inner clamping plate (132) are connected through bolts, a third connecting plate (133) is arranged in the middle of the L-shaped inner clamping plate (132), and the third connecting plate (133) is connected with the second connecting plate (10) through bolts.

3. A photovoltaic bracket for a pylon base station according to claim 1, wherein: the second hinge support (14) comprises an outer flat plate (141) and two L-shaped clamping plates (142), the outer flat plate (141) is positioned on the upper surface of the transverse supporting member (12), the two L-shaped clamping plates (142) are respectively positioned on the front side and the rear side of the lower surface of the transverse supporting member (12), the outer flat plate (141) and the two L-shaped clamping plates (142) are mutually connected through bolts, and the transverse supporting member (12) is clamped between the outer flat plate (141) and the two L-shaped clamping plates (142); a fourth connecting plate (143) is arranged in the middle of an L-shaped clamping plate (142) positioned at the front side of the lower surface of the transverse supporting member (12), and the fourth connecting plate (143) is connected with the second connecting plate (10) through bolts.

4. A photovoltaic bracket for a pylon base station according to claim 1, wherein: two adjacent support short columns (3) are connected with each other through an inclined support rod (15).

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