CN221531364U

CN221531364U - Adjusting bracket of solar panel

Info

Publication number: CN221531364U
Application number: CN202323012648.4U
Authority: CN
Inventors: 姚伟利; 姚少华; 姚春华; 朱壮壮; 田超; 陶开龙; 童新园; 韩孟飞; 孙皓阳
Original assignee: Anhui Lingcarbon Energy Technology Co ltd
Current assignee: Anhui Lingcarbon Energy Technology Co ltd
Priority date: 2023-11-08
Filing date: 2023-11-08
Publication date: 2024-08-13
Anticipated expiration: 2033-11-08

Abstract

The utility model relates to the field of solar panels and discloses an adjusting bracket of a solar panel, which comprises a movable plate, wherein two sliding blocks are fixed on the bottom surface of the movable plate, sliding rails are detachably arranged below the sliding blocks, the sliding rails are in sliding clamping connection with the sliding blocks, two support columns are fixed on the top surface of the movable plate, a rotating hole is formed in one side of each support column, an installing plate is arranged between the two support columns in a turnover mode, rotating columns are respectively fixed on two sides of the installing plate, the rotating columns are rotatably arranged with the rotating holes, and a solar panel body is fixed on the top surface of the installing plate. In the utility model, if the terrain of the installation site or the nearby environment changes along with the time, a user can push the movable plate to move on the sliding rail, so that the installation position of the solar panel body can be changed, and the solar panel body can be moved to a proper environment for working.

Description

Adjusting bracket of solar panel

Technical Field

The utility model relates to the technical field of solar panels, in particular to an adjusting bracket of a solar panel.

Background

The solar panel can convert sunlight into electric energy, the solar panel is supported by the support, and the solar photovoltaic support is a special support for placing, installing and fixing the solar panel design in a solar photovoltaic power generation system, and is generally made of aluminum alloy and stainless steel.

According to publication No.: CN218976613U, a solar panel support with adjustable, including support frame and setting plate, the upside of support frame is fixed with the setting plate, and the top of setting plate is provided with the mounting panel, the upside of setting plate is provided with adjustment mechanism, and adjustment mechanism is including first spout, spacing screw rod and slider, first spout has been seted up to the upside of setting plate, the inboard of first spout passes through the both ends swing joint of bearing and spacing screw rod, and first spout and slider slip butt joint, the inside of slider runs through there is spacing screw rod, and the one end of spacing screw rod is fixed with the handle.

In the scheme, when the height adjustment is needed, the support frame is fixed with the ground; the solar panel has a certain disadvantage in that the service life of the solar panel is 25 years or longer, the position of the support frame cannot be changed in the period of time, the nearby environment can be changed, and the situation that the solar panel cannot work normally due to the shadow of the tree can occur.

Disclosure of utility model

The utility model aims to provide an adjusting bracket for a solar panel, which is used for solving the problem that the solar panel cannot work normally due to the fact that the shadow of a tree can shield the solar panel when the surrounding environment is changed.

In order to achieve the above object, the present utility model adopts the following technical scheme: the utility model provides a solar panel's regulation support, includes the fly leaf, the bottom surface of fly leaf is fixed with two sliding blocks, the detachable below of sliding block is provided with the slide rail, slide rail and sliding block slip joint, the top surface of fly leaf is fixed with two support columns, the rotation hole has been seted up to one side of support column, two the upset is provided with the mounting panel between the support column, the both sides of mounting panel are fixed with the rotation post respectively, rotation post and rotation hole rotate the setting, the top surface of mounting panel is fixed with the solar panel body.

Preferably, two positioning grooves are formed in one side of the sliding rail, and two positioning columns are fixed to the other side of the sliding rail.

Preferably, the top surface of fly leaf is fixed with two pneumatic cylinders, the bottom surface of mounting panel is fixed with a plurality of connecting plate, a plurality of two of them connecting plate are a set of, every group be fixed with the slide bar between the connecting plate, the top surface of fly leaf is provided with the PLC controller, pneumatic cylinder and PLC controller electric connection.

Preferably, the holding groove has been seted up on the top of pneumatic cylinder telescopic link, the inside upset of holding groove is provided with the upset board, the socket hole has been seted up to one side of upset board, socket hole and slide bar slip grafting.

Preferably, two rotating columns are respectively fixed on two sides of the turnover plate, rotating holes are respectively formed in two sides of the inside of the accommodating groove, and the rotating holes are in rotary insertion connection with the rotating columns.

Preferably, two penetrating holes are respectively formed in two sides of the sliding rail, thread grooves are respectively formed in two sides of the sliding block, a limit bolt penetrates through the inside of the penetrating holes, and one end of the limit bolt penetrates through the penetrating holes and is in threaded connection with the thread grooves.

Compared with the prior art, the adjusting bracket of the solar panel adopting the technical scheme has the following beneficial effects:

1. Before the solar panel body is installed, a user firstly lays a sliding rail on the ground, in the process of laying the sliding rail, in order to increase the length of the sliding rail, the user can splice two sections of sliding rails together, in the process, a positioning column at one end of one sliding rail can slide into a positioning groove at one end of the other sliding rail, the position between the two sliding rails can be fixed, then the user can install a movable plate above the sliding rail and slide a sliding block into the sliding rail, after the installation of the solar panel body is completed, if the topography of an installation place or the nearby environment changes, the user can push the movable plate to move on the sliding rail along with the time, and the installation position of the solar panel body can be changed, so that the solar panel body can move to a proper environment for working;

2. In order to better receive sunlight, engineers write specific programs according to the longitude and latitude of the installation point and the change of illumination, the special programs are used for controlling the work of the hydraulic cylinder, and along with the work of the hydraulic cylinder, the extended telescopic rod can push the installation plate to turn around the rotary column as a circle center, so that the angle of the solar panel body can be changed when the installation plate is pushed to move, and the solar panel body can better receive sunlight;

3. After the position of the solar panel body is determined, a user can rotate the limit bolt inside the penetrating hole, the screwed limit bolt can enter the inside of the thread groove, and the position of the sliding block inside the sliding rail can be fixed, so that the stability of the position of the solar panel body is improved.

Drawings

Fig. 1 is a perspective view of an embodiment.

Fig. 2 is a split schematic of an embodiment.

Fig. 3 is an exploded view of an embodiment of a slider.

Fig. 4 is an exploded view of an embodiment of the flip plate.

In the figure: 1. a movable plate; 2. a support column; 3. a mounting plate; 4. rotating the column; 5. a rotation hole; 6. a solar panel body; 7. a sliding block; 8. a slide rail; 9. a positioning groove; 10. positioning columns; 11. a hydraulic cylinder; 12. a connecting plate; 13. a slide bar; 14. a receiving groove; 15. a turnover plate; 16. a rotation hole; 17. a spin column; 18. a socket hole; 19. a penetrating hole; 20. a limit bolt; 21. a thread groove.

Detailed Description

The preferred embodiments of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, fig. 2 and fig. 3, an adjusting bracket for a solar panel comprises a movable plate 1, two sliding blocks 7 are fixed on the bottom surface of the movable plate 1, sliding rails 8 are detachably arranged below the sliding blocks 7, the sliding rails 8 are in sliding connection with the sliding blocks 7, two supporting columns 2 are fixed on the top surface of the movable plate 1, a rotating hole 5 is formed in one side of each supporting column 2, an installing plate 3 is arranged between the two supporting columns 2 in a turnover mode, rotating columns 4 are respectively fixed on two sides of the installing plate 3, the rotating columns 4 and the rotating holes 5 are rotatably arranged, a solar panel body 6 is fixed on the top surface of the installing plate 3, two locating grooves 9 are formed in one side of each sliding rail 8 and two locating columns 10 are fixed on the other side of each sliding rail 8.

In use, before installing the solar panel body 6, a user lays the sliding rail 8 on the ground, in the process of laying the sliding rail 8, in order to increase the length of the sliding rail 8, the user can splice two sections of sliding rails 8 together, in the process, the positioning post 10 at one end of one sliding rail 8 slides into the positioning groove 9 at one end of the other sliding rail 8, so that the position between the two sliding rails 8 can be fixed, then the user can install the movable plate 1 above the sliding rail 8 and slide the sliding block 7 into the sliding rail 8, after the installation of the solar panel body 6 is completed, as time passes, if the topography of the installation site or the nearby environment changes, the user can push the movable plate 1 to move on the sliding rail 8, and the installation position of the solar panel body 6 can be changed, so that the solar panel body 6 can be moved to a proper environment for working.

As shown in fig. 1, fig. 2 and fig. 4, two hydraulic cylinders 11 are fixed on the top surface of the movable plate 1, the hydraulic cylinders 11 are of the existing structure, not described in detail herein, a plurality of connecting plates 12 are fixed on the bottom surface of the mounting plate 3, two connecting plates 12 are in a group, a sliding rod 13 is fixed between each group of connecting plates 12, a PLC controller is arranged on the top surface of the movable plate 1, the hydraulic cylinders 11 are electrically connected with the PLC controller, a containing groove 14 is arranged on the top end of a telescopic rod of each hydraulic cylinder 11, a turnover plate 15 is arranged in the containing groove 14 in a turnover manner, a sleeve hole 18 is arranged on one side of the turnover plate 15, the sleeve hole 18 is in sliding connection with the sliding rod 13, two rotary columns 17 are respectively fixed on two sides of the turnover plate 15, rotary holes 16 are respectively arranged on two sides of the inside of the containing groove 14, and the rotary holes 16 are in rotary connection with the rotary columns 17.

In use, in order to better receive sunlight by the solar panel body 6, engineers write specific programs according to the longitude and latitude of the installation point and the change of illumination, the specific programs are used for controlling the work of the hydraulic cylinder 11, and along with the work of the hydraulic cylinder 11, the extended telescopic rod can push the installation plate 3 to turn around the rotary column 4 as a circle center, so that the angle of the solar panel body 6 can be changed when the installation plate 3 is pushed to move, and the solar panel body 6 can better receive sunlight.

As shown in fig. 3, two penetrating holes 19 are respectively formed on two sides of the sliding rail 8, thread grooves 21 are respectively formed on two sides of the sliding block 7, a limit bolt 20 penetrates through the inside of the penetrating holes 19, the limit bolt 20 is of a conventional structure, details are omitted here, and one end of the limit bolt 20 penetrates through the penetrating holes 19 and is in threaded connection with the thread grooves 21.

In use, after determining the position of the solar panel body 6, the user rotates the limit bolt 20 inside the penetrating hole 19, and the screwed limit bolt 20 enters the inside of the thread groove 21, so that the position of the sliding block 7 inside the sliding rail 8 can be fixed, and the stability of the position of the solar panel body 6 is increased.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. The utility model provides an adjust support of solar panel, includes fly leaf (1), its characterized in that, the bottom surface of fly leaf (1) is fixed with two sliding blocks (7), the below detachable of sliding block (7) is provided with slide rail (8), slide rail (8) and sliding block (7) slip joint, the top surface of fly leaf (1) is fixed with two support columns (2), rotation hole (5) have been seted up to one side of support column (2), two upset is provided with mounting panel (3) between support column (2), the both sides of mounting panel (3) are fixed with rotation post (4) respectively, rotation post (4) rotate with rotation hole (5) and set up, the top surface of mounting panel (3) is fixed with solar panel body (6).

2. The solar panel adjustment bracket of claim 1, wherein: two positioning grooves (9) are formed in one side of the sliding rail (8), and two positioning columns (10) are fixed on the other side of the sliding rail (8).

3. The solar panel adjustment bracket of claim 1, wherein: the hydraulic cylinder is characterized in that two hydraulic cylinders (11) are fixed on the top surface of the movable plate (1), a plurality of connecting plates (12) are fixed on the bottom surface of the mounting plate (3), two connecting plates (12) are a group, sliding rods (13) are fixed between each group of connecting plates (12), a PLC (programmable logic controller) is arranged on the top surface of the movable plate (1), and the hydraulic cylinders (11) are electrically connected with the PLC.

4. A solar panel adjustment bracket according to claim 3, characterized in that: the telescopic rod of the hydraulic cylinder (11) is characterized in that an accommodating groove (14) is formed in the top end of the telescopic rod of the hydraulic cylinder (11), a turnover plate (15) is arranged in the accommodating groove (14) in a turnover mode, a sleeve joint hole (18) is formed in one side of the turnover plate (15), and the sleeve joint hole (18) is in sliding insertion connection with the sliding rod (13).

5. The solar panel adjustment bracket of claim 4, wherein: two rotary columns (17) are respectively fixed on two sides of the turnover plate (15), rotary holes (16) are respectively formed in two sides of the inside of the accommodating groove (14), and the rotary holes (16) are in rotary plug connection with the rotary columns (17).

6. The solar panel adjustment bracket of claim 1, wherein: two penetrating holes (19) are respectively formed in two sides of the sliding rail (8), thread grooves (21) are respectively formed in two sides of the sliding block (7), limiting bolts (20) penetrate through the inside of the penetrating holes (19), and one ends of the limiting bolts (20) penetrate through the penetrating holes (19) and are in threaded connection with the thread grooves (21).