CN220544933U

CN220544933U - Assembled photovoltaic support

Info

Publication number: CN220544933U
Application number: CN202322213857.9U
Authority: CN
Inventors: 陈明
Original assignee: Guohong Tianjin New Energy Technology Co ltd
Current assignee: Guohong Tianjin New Energy Technology Co ltd
Priority date: 2023-08-17
Filing date: 2023-08-17
Publication date: 2024-02-27
Anticipated expiration: 2033-08-17

Abstract

The utility model relates to an assembled photovoltaic bracket. The device comprises two groups of mounting sectional materials which are arranged in parallel, wherein guide I-beams which extend along the length direction of the mounting sectional materials are fixedly connected to each mounting sectional material, a plurality of groups of bracket structures which are arranged in parallel are arranged between the two groups of guide I-beams in a crossing manner, and clamping structures which are connected with the two groups of guide I-beams in a sliding manner and can be locked in position are arranged at the lower end parts of the bracket structures; each bracket structure is provided with an installation inclined plane; two groups of telescopic supporting plates are connected to each support structure in a telescopic manner, and the telescopic direction of each telescopic supporting plate is parallel to the installation inclined plane; and a locking structure for locking the positions of the telescopic supporting plates is arranged between each telescopic supporting plate and the bracket structure. The photovoltaic panel assembly device is reasonable in structural design, convenient to assemble and disassemble, convenient to transport and transfer, and high in universality, and is suitable for installation and use of photovoltaic panels with different sizes.

Description

Assembled photovoltaic support

Technical Field

The utility model belongs to the technical field of photovoltaic supports, and particularly relates to an assembled photovoltaic support.

Background

Solar energy is an inexhaustible clean energy source for human beings, and in order to effectively utilize the energy source, human beings manufacture solar panels (also called photovoltaic panels) by using photoelectric technology, and form a photovoltaic power generation system by using the solar panels.

In the use of photovoltaic panel, need connect fixedly it, and then guarantee photovoltaic panel's stability in the use to make its function obtain the biggest performance. Accordingly, in the installation of the photovoltaic panel, a corresponding photovoltaic panel bracket is required.

The traditional photovoltaic bracket is mostly formed by welding and fixedly connecting metal materials, and when the bracket is used, the bracket cannot be adjusted, has certain limitation, can only be used for installing photovoltaic panels with certain sizes, and has poor universality; moreover, the photovoltaic bracket is relatively large in volume, inconvenient to detach and install and inconvenient to transport.

Disclosure of Invention

The utility model provides an assembled photovoltaic bracket which is reasonable in structural design, convenient to assemble and disassemble and high in universality, and solves the technical problems in the prior art.

The utility model adopts the technical proposal for solving the technical problems in the prior art that: the assembled photovoltaic bracket comprises two groups of installation sectional materials which are arranged in parallel, each installation sectional material is fixedly connected with guide I-steel which extends along the length direction of the installation sectional material, a plurality of groups of bracket structures which are arranged in parallel are arranged between the two groups of guide I-steel in a crossing way, and the lower end part of each bracket structure is provided with a clamping structure which is connected with the two groups of guide I-steel in a sliding way and can be locked in position; each bracket structure is provided with an installation inclined plane; two groups of telescopic supporting plates are connected to each support structure in a telescopic manner, and the telescopic direction of each telescopic supporting plate is parallel to the installation inclined plane; and a locking structure for locking the positions of the telescopic supporting plates is arranged between each telescopic supporting plate and the bracket structure.

The utility model has the advantages and positive effects that: the utility model provides an assembled photovoltaic bracket, which can obliquely install a photovoltaic panel by arranging a bracket structure with an installation inclined plane, so that the photovoltaic panel can conveniently utilize solar energy to generate electricity; in addition, as each bracket structure is self-formed into a unit, the disassembly, the assembly, the transfer and the transportation in the construction process are convenient; by arranging the mounting section bar, the photovoltaic bracket is convenient to mount with the ground or stone piers; the clamping structure and the guide I-steel can be matched in a positioning and sliding manner, so that the position of the support structure can be adjusted along the length direction of the guide I-steel, and the photovoltaic support is further enabled to adapt to the size of the photovoltaic panel in the length direction; the width of the support structure on the installation inclined plane can be adjusted by arranging the telescopic support plate capable of telescopic movement, so that the size of the photovoltaic panel to be installed is adapted to the width direction, and the universality of the photovoltaic support is improved; because the mounting mode of holding structure and direction I-steel is the sliding connection that the position can be locked, dismouting that can be quick is convenient for follow-up change position or other reasons dismantle the demand, and the flexibility is strong and be favorable to shortening construction cycle, and the practicality is strong.

Preferably: the clamping structure comprises two groups of clamping pieces with grooves, wherein the clamping pieces with grooves are symmetrically arranged, the opposite surfaces of the clamping pieces with grooves are respectively provided with a mounting chute, and the two mounting chutes jointly act to form a T-shaped chute matched with the guide I-steel; the locking connecting piece is used for locking and connecting the clamping structure, the support structure and the guide I-steel.

Preferably: the bracket structure comprises a high supporting rod and a low supporting rod which are arranged in parallel, and the high supporting rod and the low supporting rod are respectively connected with the two groups of clamping structures; the upper parts of the high support rod and the low support rod are provided with inclined support plates connected with the high support rod and the low support rod, and the installation inclined plane is formed on the top surface of the inclined support plates and used for installing the photovoltaic panel; the support rod adapter is used for respectively installing the inclined support plates on the high support rod and the low support rod.

Preferably: the bracket structure also comprises a second inclined strut connected between the high strut and the inclined support plate and a first inclined strut arranged between the low strut and the inclined support plate.

Preferably: the telescopic supporting plate is arranged in a sliding groove formed in the inclined supporting plate along the length direction of the inclined supporting plate in a sliding way; the locking structure comprises a locking strip-shaped hole formed in the telescopic supporting plate along the length direction of the telescopic supporting plate, and further comprises a counter bore formed in the inclined supporting plate and corresponding to the locking strip-shaped hole, and the telescopic supporting plate and the inclined supporting plate are in locking connection through screws and locking nuts penetrating through the counter bore and the locking strip-shaped hole.

Preferably: the stone pier comprises a stone pier body and is characterized by further comprising a plurality of groups of stone piers for installing two groups of installation profiles.

Drawings

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

fig. 2 is a schematic perspective view of the clamping structure and the bracket structure in the present utility model.

In the figure: 1. installing a section bar; 2. guiding I-steel; 3. a clamping structure; 3-1, locking the connector; 3-2, clamping piece with groove; 3-3, installing a chute; 4. a support structure; 4-1, high struts; 4-2, a support rod adapter; 4-3, supporting the supporting plate obliquely; 4-4, low support rod; 4-5, a first inclined strut; 4-6, a second inclined strut; 5. a telescopic supporting plate; 6. locking the strip-shaped hole; 7. a mounting inclined plane; 8. stone piers.

Detailed Description

For a further understanding of the utility model, its features and advantages, the following examples are set forth in detail:

referring to fig. 1, the assembled photovoltaic bracket of the utility model comprises two groups of installation profiles 1 which are arranged in parallel, guide i-beams 2 which extend along the length direction of the installation profiles 1 are fixedly connected on each installation profile 1, in order to increase the counterweight of the photovoltaic bracket and prevent the bracket from being blown down in windy weather, the assembled photovoltaic bracket further comprises a plurality of groups of stone piers 8 which are used for installing the two groups of installation profiles 1, in order to facilitate installation, installation screws are buried on the stone piers 8, the installation screws are provided with installation through holes which are arranged corresponding to the installation screws, in the actual assembly process, the installation screws are penetrated in the installation through holes which are arranged on the installation profiles 1, and the installation profiles 1 and the stone piers 8 are detachably connected through locking nuts which are screwed on the screws, in the actual assembly process, in order to save time, the guide i-beams 2 and the installation profiles 1 can be preassembled before entering an installation site, thereby ensuring that the installation site can be installed after the installation site is transported to the bracket site, and shortening the construction and installation period.

In order to mount and support the photovoltaic panel, this embodiment further includes a plurality of groups of support structures 4 that span between two groups of guide I-steel 2, and the plurality of groups of support structures 4 set up side by side, all are provided with the installation inclined plane 7 on each support structure 4, and at actual installation, the photovoltaic panel is installed on the installation inclined plane 7 that above-mentioned. For easy to assemble, all be provided with a plurality of installation blocks on each supporting structure 4, all offered the bar hole on each installation block, photovoltaic panel is connected with supporting structure 4 through wearing to establish downthehole screw and lock nut of foretell bar.

In order to improve the universality of the photovoltaic bracket, the photovoltaic bracket can adapt to the installation operation of photovoltaic panels with different sizes, and as shown in fig. 1, the embodiment further comprises a clamping structure 3 which is installed at the lower end part of each bracket structure 4, is in sliding connection with two groups of guide I-steel 2 and can be locked in position. Referring further to fig. 2, the clamping structure 3 includes two sets of clamping members 3-2 with grooves symmetrically arranged, and two mounting sliding grooves 3-3 are respectively formed on opposite surfaces of the two clamping members 3-2 with grooves, and the two mounting sliding grooves 3-3 cooperate to form a T-shaped sliding groove adapted to the guiding i-steel 2. The clamping structure 3 further comprises a locking connecting piece 3-1 for locking and connecting the clamping structure 3, the support structure 4 and the guide I-steel 2.

Further, the locking connector 3-1 includes at least two sets of bolts penetrating through the through holes formed in the lower end portion of the bracket structure 4, mounting holes for penetrating through the bolts are formed in each grooved clamping piece 3-2, and the grooved clamping pieces 3-2 and the bracket structure 4 are locked and connected by locking nuts screwed on the bolts; the locking connecting piece 3-1 further comprises mounting screws penetrating through holes formed in the two groups of grooved clamping pieces 3-2, locking nuts used for connecting the two groups of grooved clamping pieces 3-2 are screwed on the mounting screws, each clamping structure 3 and the corresponding support structure 4 can be stably connected through the arrangement, the clamping structure 3 can be conveniently and slidably penetrated on the guide I-steel 2 through the arrangement, namely, before installation, the bolts and the locking nuts screwed on the mounting screws are unscrewed, the distance between the two groups of grooved clamping pieces 3-2 is slightly increased, the T-shaped sliding grooves formed by the two groups of grooved clamping pieces 3-2 are not required to be accurately aligned by the guide I-steel 2, and the purpose that the clamping structure 3 is slidably penetrated on the guide I-steel 2 can be achieved.

In order to lock the relative positions of the clamping structure 3 and the guide I-steel 2, the locking connection 3-1 further comprises a tightening screw which is screwed longitudinally on the grooved clamp 3-2. When the position of the support structure 4 is required to be fixed, the jacking screw is screwed downwards, so that the lower end part of the jacking screw is in jacking contact with the top surface of the guide I-steel 2, and when the position of the support structure 4 is required to be adjusted, the jacking screw is only required to be unscrewed, so that the lower end part of the jacking screw is separated from contact with the top surface of the guide I-steel 2, and the support structure 4 can be pushed to move along the guide I-steel 2.

Through setting up and pressing from both sides and holding structure 3, can follow the length direction of direction I-steel 2 and adjust the position of support structure 4, and then make the photovoltaic support adapt to the size of photovoltaic panel on length direction.

As shown in fig. 2, in the present embodiment, the bracket structure 4 includes a high strut 4-1 and a low strut 4-4 arranged in parallel, the high strut 4-1 and the low strut 4-4 are respectively connected with two groups of clamping structures 3, that is, two groups of grooved clamps 3-2 in one clamping structure 3 are connected with the lower end portion of the high strut 4-1, and two groups of grooved clamps 3-2 in the other clamping structure 3 are connected with the lower end portion of the low strut 4-4. The upper parts of the high support rod 4-1 and the low support rod 4-4 are provided with an inclined support plate 4-3 connected with the high support rod and the low support rod, and an installation inclined plane 7 is formed on the top surface of the inclined support plate 4-3 and used for installing a photovoltaic panel. The bracket structure 4 further comprises a support rod adapter 4-2 for respectively installing the inclined support supporting plate 4-3 on the high support rod 4-1 and the low support rod 4-4, three installation through holes are formed in the support rod adapter 4-2, and the inclined support supporting plate 4-3 is connected with the corresponding support rod through screws penetrating through the three installation through holes.

In order to improve the stability of the support structure 4 and avoid deformation of the support structure 4 after long-term use, the support structure 4 further comprises a second diagonal strut 4-6 connected between the high strut 4-1 and the diagonal support pallet 4-3 and a first diagonal strut 4-5 mounted between the low strut 4-4 and the diagonal support pallet 4-3. Further, the facing surfaces of the high supporting rod 4-1 and the low supporting rod 4-4 are welded and fixedly connected with a single-lug plate, and the bottom surface of the inclined supporting plate 4-3 is also welded and fixedly connected with the single-lug plate. Wherein, two ends of the first inclined strut 4-5 are respectively connected with an ear plate arranged on the lower strut 4-4 and an ear plate arranged on the inclined support plate 4-3; two ends of the second inclined supporting rod 4-6 are respectively connected with an ear plate arranged on the high supporting rod 4-1 and an ear plate arranged on the inclined supporting plate 4-3.

As shown in fig. 1 and 2, in order to adapt to the size of the photovoltaic panel in the width direction, two groups of telescopic supporting plates 5 are telescopically connected to each supporting frame structure 4, that is, a sliding groove is formed in the center of the inclined supporting plate 4-3 along the length direction of the inclined supporting plate, and the two groups of telescopic supporting plates 5 are slidably arranged in the sliding groove. The outer end parts of the telescopic supporting plates 5 are provided with stop blocks for stopping and limiting the photovoltaic panel, so that the slipping of the photovoltaic panel is avoided. The telescopic direction of the telescopic support plate 5 is parallel to the mounting ramp 7, and a locking structure for locking the position of the telescopic support plate 5 is arranged between each telescopic support plate 5 and the bracket structure 4.

The locking structure comprises a locking strip-shaped hole 6 which is formed in the telescopic supporting plate 5 and is formed in the length direction of the telescopic supporting plate, and further comprises a counter bore which is formed in the inclined supporting plate 4-3 and is arranged corresponding to the locking strip-shaped hole 6, and the telescopic supporting plate 5 and the inclined supporting plate 4-3 are in locking connection through screws and locking nuts which are arranged in the counter bore and the locking strip-shaped hole 6 in a penetrating mode.

The working process comprises the following steps:

before entering an installation site, preassembling the guide I-steel 2 and the installation section bars 1, mounting all clamping structures 3 and all telescopic supporting plates 5 on a bracket structure 4 in advance, and transferring the preassembled structures to the installation construction site; placing each stone pier 8 at a proper position of an installation construction site, and installing each installation profile 1 on the stone piers 8 which are distributed in parallel through bolts and locking nuts;

the bolts in the locking connecting pieces 3-1 and the locking nuts screwed on the mounting bolts are unscrewed, so that the distance between the two groups of clamping pieces 3-2 with the grooves is slightly increased, each clamping structure 3 is conveniently and slidably penetrated on the corresponding guide I-steel 2, the locking nuts screwed on the bolts and the mounting bolts are screwed, and the parallel mounting of the multiple groups of bracket structures 4 is realized; the position of each support structure 4 on the direction I-steel 2 is adjusted according to the length of the photovoltaic panel to be installed to utilize the tight screw in top to lock the position of each clamp structure 3, adjust the flexible length of each flexible layer board 5 according to the width of the photovoltaic panel to be installed, and then make the photovoltaic support can be applicable to the installation of the photovoltaic panel of equidimension, improved the commonality of photovoltaic support.

Claims

1. An assembled photovoltaic support, characterized by: the novel steel structure comprises two groups of mounting sectional materials (1) which are arranged in parallel, wherein each mounting sectional material (1) is fixedly connected with guide I-steel (2) which extends along the length direction of the mounting sectional material, a plurality of groups of bracket structures (4) which are arranged in parallel are arranged between the two groups of guide I-steel (2) in a crossing manner, and the lower end part of each bracket structure (4) is provided with a clamping structure (3) which is connected with the two groups of guide I-steel (2) in a sliding manner and can be locked in position; each bracket structure (4) is provided with an installation inclined plane (7); two groups of telescopic supporting plates (5) are connected to each support structure (4) in a telescopic manner, and the telescopic direction of each telescopic supporting plate (5) is parallel to the installation inclined plane (7); locking structures for locking the positions of the telescopic supporting plates (5) are arranged between the telescopic supporting plates (5) and the support structures (4).

2. The fabricated photovoltaic bracket of claim 1, wherein: the clamping structure (3) comprises two groups of clamping pieces (3-2) with grooves, which are symmetrically arranged, mounting sliding grooves (3-3) are formed in opposite surfaces of each clamping piece (3-2) with grooves, and the two mounting sliding grooves (3-3) jointly act to form a T-shaped sliding groove matched with the guide I-steel (2); the locking device also comprises a locking connecting piece (3-1) which is used for locking and connecting the clamping structure (3), the bracket structure (4) and the guide I-steel (2).

3. The fabricated photovoltaic bracket of claim 1, wherein: the bracket structure (4) comprises a high supporting rod (4-1) and a low supporting rod (4-4) which are arranged in parallel, and the high supporting rod (4-1) and the low supporting rod (4-4) are respectively connected with the two groups of clamping structures (3); the upper parts of the high supporting rod (4-1) and the low supporting rod (4-4) are provided with inclined supporting plates (4-3) connected with the high supporting rod and the low supporting rod, and an installation inclined plane (7) is formed on the top surface of the inclined supporting plates (4-3) and used for installing a photovoltaic panel; the support rod adapter (4-2) is used for respectively installing the inclined support plate (4-3) on the upper support rod (4-1) and the lower support rod (4-4).

4. The fabricated photovoltaic bracket of claim 3, wherein: the bracket structure (4) also comprises a second inclined strut (4-6) connected between the high strut (4-1) and the inclined support plate (4-3) and a first inclined strut (4-5) arranged between the low strut (4-4) and the inclined support plate (4-3).

5. The fabricated photovoltaic bracket of claim 1, wherein: the telescopic supporting plate (5) is arranged in a sliding groove formed in the inclined supporting plate (4-3) along the length direction of the inclined supporting plate in a sliding way; the locking structure comprises a locking strip-shaped hole (6) which is formed in the telescopic supporting plate (5) and is formed in the length direction of the telescopic supporting plate, and further comprises a counter bore which is formed in the inclined supporting plate (4-3) and is arranged corresponding to the locking strip-shaped hole (6), and the telescopic supporting plate (5) and the inclined supporting plate (4-3) are in locking connection through screws and locking nuts which are arranged in the counter bore and the locking strip-shaped hole (6) in a penetrating mode.

6. The fabricated photovoltaic bracket of claim 1, wherein: the stone pier (8) is used for installing two groups of installation profiles (1).