CN221103244U - Photovoltaic module iron tower installing support - Google Patents

Abstract

The utility model relates to a photovoltaic module iron tower mounting bracket, and belongs to the field of photovoltaic module mounting structures. The mounting bracket of the single photovoltaic module comprises at least two sets of triangular frames and at least two guide rails, the triangular frames are mutually arranged at intervals, the guide rails are erected on the triangular frames, and the single photovoltaic module is mounted on the guide rails; the tripod comprises a bottom beam, inclined struts and inclined beams, the guide rails are fixedly supported on the inclined beams of the plurality of sets of tripod, the guide rails and the inclined beams are spliced into a supporting inclined plane of the photovoltaic module, and the tripod is connected with the angle steel of the tower body through the bottom beam. The utility model has simple structure, convenient installation and operation and stable and reliable bracket.

Description

Photovoltaic module iron tower installing support

Technical Field

The utility model relates to an iron tower mounting bracket of a photovoltaic module.

Background

The installation of the photovoltaic module on the iron tower is beneficial to saving ground resources and becomes one of the research directions of the current photovoltaic industry.

The utility model discloses an iron tower photovoltaic bracket as disclosed in patent publication number CN211183859U, which comprises an upper main beam, purlines, a suspension beam, a lower main beam and a lower chord; the upper main beam, the suspended beam and the lower main beam are mutually parallel in space and are distributed in a triangular shape on the same vertical section; the upper main beam and the lower main beam are respectively and fixedly connected with the side surface of the iron tower, the upper main beam is fixedly connected with the suspension beam through a plurality of purlines, and the suspension beam is fixedly connected with the lower main beam through a plurality of lower chords to form an integral stable structure; and the photovoltaic assembly is fixedly arranged on the purlines.

As disclosed in patent publication number CN215107811U, a photovoltaic power generation device for an iron tower type communication base station is provided with a plurality of iron towers distributed at equal intervals on the iron tower body, the iron towers are fixedly provided with mounting brackets through connecting mechanisms, the mounting brackets are provided with a plurality of photovoltaic panels, and the mounting brackets are provided with a plurality of photovoltaic panels through fixing mechanisms. The installing support includes tripod, horizontal fossil fragments and vertical fossil fragments, and the tripod is provided with a plurality of, and one side of tripod is equipped with the coupling mechanism with the installation of iron tower frame, and the bottom of two tripods is equipped with the connecting rod, is equipped with a plurality of horizontal fossil fragments between two tripods, is equipped with the vertical fossil fragments rather than crisscross setting perpendicularly on the horizontal fossil fragments, forms the mounting groove between vertical fossil fragments and the horizontal fossil fragments, and the photovoltaic board setting is in the mounting groove to it is fixed with horizontal fossil fragments and vertical fossil fragments through fixed establishment.

At present, the installation structure of the photovoltaic module on the iron tower is complex, and the problems of large bracket accessory consumption and complex installation operation exist.

Disclosure of utility model

The utility model provides the photovoltaic module iron tower mounting bracket aiming at the prior art, which is simple in mounting bracket, simple and convenient in mounting operation and stable and reliable in bracket.

The utility model solves the problems by adopting the following technical scheme: the installation support of the photovoltaic module iron tower is arranged on the angle steel of the tower body, the installation support of the single photovoltaic module comprises at least two sets of triangular supports and at least two guide rails, the triangular supports are arranged at intervals, the guide rails are erected on the triangular supports, and the single photovoltaic module is arranged on the guide rails; the tripod comprises a bottom beam, inclined struts and inclined beams, the guide rails are fixedly supported on the inclined beams of the plurality of sets of tripod, the guide rails and the inclined beams are spliced into a supporting inclined plane of the photovoltaic module, and the tripod is connected with the angle steel of the tower body through the bottom beam.

As one of the preferential implementation modes of the application, the bottom beam is connected with the tower body angle steel through two anchor ear pieces, the two anchor ear pieces clamp the tower body angle steel from two sides respectively, and the bottom beam is locked and connected with the anchor ear pieces.

As one of the preferential implementation modes of the application, the anchor ear pieces are L-shaped anchor ear pieces, the angle steel of the tower body is clamped at the corners of the L-shaped anchor ear pieces, and the two anchor ear pieces are mutually locked and connected.

As one of the preferred embodiments of the application, the bottom beam, the diagonal brace and the diagonal beam are mutually and detachably connected to form a tripod (a connecting structure of a bolt, a nut and a screw hole). The bottom beams, the diagonal braces and the diagonal beams are convenient to recycle, and support inclined planes with different angles are formed by mutually combining the bottom beams, the diagonal braces and the diagonal beams with different specifications, so that the purpose of adjusting the inclination angle of the photovoltaic module is achieved.

As one of the preferred embodiments of the application, the cross section of the guide rail is U-shaped, the top of the guide rail is outwards opened, the supporting surface at the bottom of the guide rail is provided with a connecting hole, the inclined beam is reserved with a connecting hole, and the guide rail and the inclined beam are connected by locking a connecting piece (a bolt and a nut) in the connecting hole of the guide rail and the inclined beam.

As one of the preferred embodiments of the present application, the guide rail is provided with a press block provided with a connection hole, the press block is fixed into the top opening of the guide rail by locking a connection piece into the connection hole of the press block, and the press block is provided with a pressing edge for pressing the photovoltaic module. The photovoltaic module is fixed on the guide rail through the pressing block, so that the photovoltaic module is easy and convenient to operate.

Compared with the prior art, the utility model has the advantages that:

the application adopts the tripod to fix the photovoltaic module, so that the photovoltaic module can be installed in an inclined mode.

The tripod is only installed with the tower body angle steel through the bottom beam, so that the installation structure of the tripod on the tower body is simplified, the bottom beam adopts two anchor ear pieces to hold the angle steel from two sides, and the connection reliability of the tripod and the tower body angle steel is improved.

The combination of the U-shaped guide rail and the pressing block provided by the application is also convenient for installing the photovoltaic module, the setting position of the pressing block on the U-shaped guide rail can be flexibly and freely adjusted to adapt to the photovoltaic modules with different specifications, and the pressing block and the U-shaped guide rail are convenient to assemble and disassemble.

Drawings

Fig. 1 is a schematic diagram of installation of a photovoltaic module on angle steel of an iron tower in an embodiment of the utility model;

FIG. 2 is another view of the structure shown in FIG. 1;

FIG. 3 is an enlarged view of section I of FIG. 2;

FIG. 4 is an enlarged view of section II of FIG. 2;

FIG. 5 is an enlarged view of portion III of FIG. 2;

FIG. 6 is an enlarged view of section IV of FIG. 2;

FIG. 7 is a side view of a photovoltaic module mounted on an angle steel of an iron tower according to an embodiment of the present utility model;

In the figure, a tower body angle steel 1, a tripod 2, a guide rail 3, a hoop sheet 4, a pressing block 5, a bottom beam 201, an inclined strut 202 and an inclined beam 203.

Detailed Description

The present utility model is described in further detail below with reference to the accompanying drawings, which are exemplary and intended to be illustrative of the utility model and not to be construed as limiting the utility model. The text description in the embodiment corresponds to the drawings, the description related to the orientation is also based on the drawings, and the description is not to be construed as limiting the protection scope of the utility model.

As shown in fig. 1, the installation support of the photovoltaic module iron tower in the embodiment is installed on an angle steel 1 of a tower body, in particular on a triangle angle steel of the iron tower, the installation support of the single photovoltaic module comprises two sets of triangular supports 2 and two guide rails 3, the triangular supports 2 are arranged at intervals, the guide rails are transversely erected on the two triangular supports 2, and the single photovoltaic module is installed on the two guide rails 3; the tripod 2 comprises a bottom beam 201, a diagonal brace 202 and a diagonal beam 203 which are mutually locked and connected through bolts and nuts. The guide rail 3 is specifically supported on the inclined beam 203 of the tripod, the guide rail 3 and the inclined beam 203 are spliced into a supporting inclined plane of the photovoltaic module, and the bottom beam 201 is fixedly connected with the tower body angle steel 1.

The bottom beam 201 is connected with the tower body angle steel 1 through two L-shaped anchor ear pieces 4, the tower body angle steel 1 is clamped from two sides by the two anchor ear pieces 4 respectively, the tower body angle steel 1 is clamped at the corner of the anchor ear pieces 4, and the two anchor ear pieces 4 are mutually locked and connected through bolts and nuts. The bottom beam 201 is locked and connected with the anchor ear piece 4 through bolts and nuts.

The cross section of guide rail 3 is the U type, and two U type turn-ups are buckled in, and the top of guide rail 3 outwards opens, and guide rail 3 bottom surface sets up a plurality of connecting holes along guide rail length direction, reserves the connecting hole on the sloping 203, realizes the fixed connection of guide rail 3 and sloping 203 through locking into bolt, nut in the connecting hole of guide rail 3 and sloping 203.

Each guide rail 3 is provided with two press blocks 5, each press block 5 is provided with a connecting hole, the press blocks 5 are fixed into the openings of the guide rails 5 by locking connecting pieces (such as bolts and nuts) in the connecting holes of the press blocks 5, and the press blocks 5 are provided with pressing edges for pressing the photovoltaic modules. The single photovoltaic module is fixed on the two guide rails 3 through four pressing blocks 5.

The photovoltaic module iron tower installing support of above-mentioned structure mainly comprises tripod, guide rail, staple bolt piece, briquetting etc. simple structure, with iron tower support simple to operate.

In addition to the above embodiments, the present utility model also includes other embodiments, and all technical solutions that are formed by equivalent transformation or equivalent substitution should fall within the protection scope of the claims of the present utility model.

Claims (6)

1. A photovoltaic module iron tower installing support installs on the body angle steel, its characterized in that: the mounting bracket of the single photovoltaic module comprises at least two sets of triangular frames and at least two guide rails, the triangular frames are mutually arranged at intervals, the guide rails are erected on the triangular frames, and the single photovoltaic module is mounted on the guide rails; the tripod comprises a bottom beam, inclined struts and inclined beams, the guide rails are fixedly supported on the inclined beams of the plurality of sets of tripod, the guide rails and the inclined beams are spliced into a supporting inclined plane of the photovoltaic module, and the tripod is connected with the angle steel of the tower body through the bottom beam.

2. The photovoltaic module pylon mounting bracket of claim 1 wherein: the bottom beam is connected with the tower body angle steel through two anchor ear pieces, the two anchor ear pieces clamp the tower body angle steel from two sides respectively, and the bottom beam is locked and connected with the anchor ear pieces.

3. The photovoltaic module pylon mounting bracket of claim 2 wherein: the anchor ear piece is L type anchor ear piece, and body angle steel card is in the corner of L type anchor ear piece, locking connection each other between two anchor ear pieces.

4. The photovoltaic module pylon mounting bracket of claim 1 wherein: the bottom beam, the diagonal bracing and the diagonal beams are mutually detachably connected to form a tripod.

5. The photovoltaic module pylon mounting bracket of claim 1 wherein: the section of the guide rail is U-shaped, the top of the guide rail is outwards opened, the bottom of the guide rail is provided with a connecting hole, the inclined beam is reserved with the connecting hole, and the guide rail and the inclined beam are connected by locking a connecting piece in the connecting hole of the guide rail and the inclined beam.

6. The photovoltaic module pylon mounting bracket of claim 1 wherein: the guide rail is provided with a pressing block, the pressing block is provided with a connecting hole, the pressing block is fixed into the top opening of the guide rail by locking a connecting piece in the connecting hole of the pressing block, and the pressing block is provided with a pressing edge for pressing the photovoltaic module.