CN220570474U - Portable and foldable photovoltaic bracket - Google Patents

Abstract

The utility model relates to a portable foldable photovoltaic bracket which comprises two groups of leg assemblies arranged in parallel, wherein each group of leg assemblies comprises a base supporting tube, one end of the base supporting tube is hinged with the bottom end of a diagonal bracing fixing tube, the other end of the base supporting tube is hinged with the bottom end of a diagonal bracing fixing tube, a diagonal bracing telescopic tube is arranged in the diagonal bracing fixing tube in a sliding manner, and the top of the diagonal bracing telescopic tube is detachably connected to the diagonal bracing; a first connecting square pipe and a second connecting square pipe which are arranged in parallel are arranged between the two base support pipes, and two ends of the first connecting square pipe and two ends of the second connecting square pipe are respectively connected with the base support pipes through bolt kits; the upper portion of sloping is equipped with upper portion briquetting, and the bottom is equipped with the bottom briquetting, and photovoltaic module passes through bottom briquetting and upper portion briquetting and installs on the sloping. The utility model can be suitable for installing components with various specifications; the bottom connecting rod can be additionally provided with a hook, and is suitable for installation of scenes such as enclosing walls, guardrails and the like.

Description

Portable and foldable photovoltaic bracket

Technical Field

The utility model relates to the technical field of photovoltaic supports, in particular to a portable foldable photovoltaic support.

Background

In the existing photovoltaic bracket industry, the types of photovoltaic brackets are various and widely applied to various scenes, but at present, no photovoltaic bracket suitable for more user scenes exists. The existing photovoltaic support is large in number of parts, high in material and processing cost, incapable of achieving convenience in quick installation and movement, inconvenient in package and transportation, high in transportation and installation cost, single in applicable scene, certain in requirement on installation position in a traditional fixing support, incapable of being applied to quick installation in multiple scenes and multiple specifications on site, and high in installation cost of the whole support system.

Referring to chinese patent CN103780200B, a foldable photovoltaic bracket is disclosed, including the mounting panel that is used for fixed solar cell panel, connect backup pad and the baffle in the mounting panel below, the upper surface of mounting panel is used for adorning solar cell panel, and the below left and right sides of mounting panel is provided with the backup pad that supports the mounting panel respectively, and the front and back both ends that lie in the backup pad on the lower surface of mounting panel are provided with the backup pad mount pad respectively. Although folding adjustments may be achieved at an angle, they are not applicable in other different scenarios, for ground-mounted scenarios.

Therefore, the portable foldable photovoltaic bracket is provided, and the use requirements of the foldable bracket are met aiming at different use scenes and different personalized custom designs of the photovoltaic bracket.

Disclosure of Invention

The utility model aims to overcome the defects and provide the portable foldable photovoltaic bracket which is applicable to the installation of scenes such as ground, guardrails, wall surfaces and the like.

The purpose of the utility model is realized in the following way:

the portable foldable photovoltaic bracket comprises two groups of leg assemblies which are arranged in parallel, wherein each group of leg assemblies comprises a base supporting tube, one end of the base supporting tube is hinged with the bottom end of a diagonal bracing fixing tube, the other end of the base supporting tube is hinged with the bottom end of a diagonal bracing fixing tube, a diagonal bracing telescopic tube is arranged in the diagonal bracing fixing tube in a sliding manner, and the top of the diagonal bracing telescopic tube is detachably connected to the diagonal bracing;

a first connecting square pipe and a second connecting square pipe which are arranged in parallel are arranged between the two base support pipes, the first connecting square pipe and the second connecting square pipe are respectively and vertically connected with the base support pipes, and two ends of the first connecting square pipe and two ends of the second connecting square pipe are respectively connected with the base support pipes through bolt kits; the photovoltaic modules are arranged on the two inclined beams, the upper parts of the inclined beams are provided with upper pressing blocks, the bottoms of the inclined beams are provided with bottom pressing blocks, and the photovoltaic modules are arranged on the inclined beams through the bottom pressing blocks and the upper pressing blocks.

Further, angle scale marks are arranged on the surface of the inclined strut telescopic pipe, and the inclination angle of the inclined beam is adjusted through the telescopic operation of the inclined strut telescopic pipe.

Further, two ends of the first connecting square tube are respectively connected with a hook component, and the first connecting square tube is hung on the railing through the hook component.

Further, the second connecting square tube is provided with a left pressing plate assembly and a right pressing plate assembly, and the left pressing plate assembly and the right pressing plate assembly are fixed on the railing through the pressing plate assemblies.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The photovoltaic folding bracket is in a folding state when packaged and transported, so that the transportation space is saved, the photovoltaic folding bracket can be used only by stretching when in use, and the installation efficiency is improved.

(2) The angle of the photovoltaic folding bracket is adjustable, so that the photovoltaic folding bracket can receive the radiation of sunlight at the maximum angle, and the utilization rate of the photovoltaic panel to the sunlight is improved.

(3) The photovoltaic folding bracket has the advantages of simple and practical structure, less number of parts and capability of saving materials and processing cost.

(4) The photovoltaic folding bracket does not require a fixed position for the installation position, and hooks can be additionally arranged to realize the installation of scenes such as railings.

(5) The photovoltaic folding bracket is made of high-strength anodic aluminum alloy and stainless steel, so that the high durability of the device is greatly improved, and the quality of the photovoltaic bracket is ensured.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of the leg assembly of the present utility model in a collapsed state.

Fig. 3 is a schematic view of the working state of the present utility model.

Fig. 4 is a right side view of fig. 3.

Fig. 5 is a schematic view of the application of the present utility model to a railing.

Fig. 6 is a schematic view of the hook assembly of fig. 5.

FIG. 7 is a schematic view of the platen assembly of FIG. 5.

Wherein:

the base stay tube 1, bracing fixed tube 2, bracing flexible pipe 3, first connecting square pipe 4, second connecting square pipe 5, sloping 6, bottom briquetting 7, upper portion briquetting 8, couple subassembly 9, clamp plate subassembly 10.

Detailed Description

In order to better understand the technical solution of the present utility model, the following detailed description will be made with reference to the accompanying drawings. It should be understood that the following embodiments are not intended to limit the embodiments of the present utility model, but are merely examples of embodiments that may be employed by the present utility model. It should be noted that, the description herein of the positional relationship of the components, such as the component a being located above the component B, is based on the description of the relative positions of the components in the drawings, and is not intended to limit the actual positional relationship of the components.

Example 1

Referring to fig. 1-4, fig. 1 depicts a schematic structural view of a portable, foldable photovoltaic module. As shown in the figure, the portable foldable photovoltaic bracket comprises two groups of leg assemblies which are arranged in parallel, each group of leg assemblies comprises a base support tube 1, one end of the base support tube 1 is hinged with the bottom end of a diagonal support fixing tube 2, the other end of the base support tube is hinged with the bottom end of a diagonal beam 6, a diagonal support telescopic tube 3 is arranged in the diagonal support fixing tube 2 in a sliding manner, the diagonal support telescopic tube 3 stretches in the diagonal support fixing tube 2, and the top of the diagonal support telescopic tube 3 is detachably connected to the diagonal beam 6 through bolts.

The two base support pipes 1 are provided with a first connecting square pipe 4 and a second connecting square pipe 5 which are arranged in parallel, the first connecting square pipe 4 and the second connecting square pipe 5 are respectively and vertically connected with the base support pipes 1, and two ends of the first connecting square pipe 4 and the second connecting square pipe 5 are respectively connected with the base support pipes 1 through bolt kits.

The photovoltaic modules are arranged on the two inclined beams 6, an upper pressing block 8 is arranged on the upper portion of the inclined beam 6, a bottom pressing block 7 is arranged on the bottom of the inclined beam, and the photovoltaic modules are arranged on the inclined beam 6 through the bottom pressing block 7 and the upper pressing block 8.

The surface of the inclined strut telescopic pipe 3 is provided with angle scale marks, and the inclination angle of the inclined beam 6 is adjusted through the expansion and contraction of the inclined strut telescopic pipe 3.

Referring to fig. 5-7, when applied to a railing, two ends of the first connecting square tube 4 are respectively connected with a hook assembly 9, the first connecting square tube is hung on the railing through the hook assembly 9, the second connecting square tube 5 is provided with a left pressing plate assembly 10 and a right pressing plate assembly 10, and the second connecting square tube is fixed on the railing through the pressing plate assemblies 10.

The hook assembly 9 comprises a hook body and a connecting rod, the hook body is hung on the cross rod of the railing, a connecting hole is formed in the hook body, the connecting rod penetrates through the connecting hole to penetrate through the hook body, and two ends of the connecting rod are fixed through nuts, so that the hook body is fixed on the cross rod of the railing.

The pressing plate assembly 10 comprises a pressing plate and two connecting rods, wherein a long groove is formed in the pressing plate, the two connecting rods penetrate through the long groove, the pressing plate and the second connecting square tube 5 are respectively arranged on two sides of a railing, the pressing plate is arranged on a vertical rod of the railing, the two connecting rods are arranged on two sides of the vertical rod, one end of each connecting rod is fixed on the second connecting square tube 5, and the other end of each connecting rod is fixed on the pressing plate through a nut.

Working principle:

the utility model relates to a portable foldable photovoltaic bracket, which comprises a base support tube 1, wherein one side of the base support tube 1 is connected with an inclined strut fixing tube 2 through a bolt, the other side of the base support tube is connected with an inclined beam 6 through a bolt, the inclined strut fixing tube 2 is connected with an inclined strut telescopic tube 3 through a bolt and a sliding block, the surface of the inclined strut telescopic tube 3 is provided with angle scale marks, and the inclined strut telescopic tube is connected with the inclined beam 6 through a bolt, so that the assembly of a single group of supporting legs is completed through the connection; two groups of supporting legs which are assembled are taken, 4M 8x55 bolt sets are used for assembling the two connecting square tubes 4 and 5 at the bottom and the supporting legs, then a bottom pressing block 7 is firstly installed on the oblique beam to screw bolts into holes in the supporting legs, the assemblies are ensured not to slide down, then after the positions of the assemblies on the support are well adjusted, an upper pressing block 8 is installed to ensure that the bolts are in the holes of the supporting legs, and finally the pressing block bolts are locked until the installation is completed. If the hanger is required to be installed on a railing, the hanger 9 is taken out and is connected with the first connecting square tube 4 at the bottom through bolts, and the bracket is hung on the railing and is fixed with the railing through the pressing plate assembly 10.

The support leg is fixed by the two inclined strut pipes with the same size through bolts, the angle is adjustable, and the angle can be conveniently and manually adjusted according to different illumination conditions in seasons; the bottom mounting pressing block is adjustable, so that the device can be suitable for mounting components with various specifications; the bottom connecting rod can be additionally provided with a hook, and is suitable for installation of scenes such as enclosing walls, guardrails and the like.

The system bracket provided by the utility model consists of bracket accessories such as the aluminum guide rail, the side pressing blocks, the stainless steel hinge head and the like, has a simple and practical structure, is small in number of parts, can save materials and processing cost, and has the advantages that the bracket support leg part is foldable, so that the whole bracket system has the advantages of saving the installation cost and facilitating the quick installation on site.

The support is made of high-strength anodic aluminum alloy and stainless steel, so that the high durability of equipment is greatly improved, the quality of the photovoltaic support is ensured, and the support has the advantages of corrosion resistance, attractive appearance, easiness in installation and rust resistance.

The foregoing is merely a specific application example of the present utility model, and the protection scope of the present utility model is not limited in any way. All technical schemes formed by equivalent transformation or equivalent substitution fall within the protection scope of the utility model.

Claims (4)

1. A portable, foldable photovoltaic bracket, characterized in that: the telescopic support comprises two groups of support leg assemblies which are arranged in parallel, wherein each group of support leg assemblies comprises a base support tube (1), one end of the base support tube (1) is hinged with the bottom end of a diagonal bracing fixing tube (2), the other end of the base support tube is hinged with the bottom end of a diagonal bracing fixing tube (6), a diagonal bracing telescopic tube (3) is arranged in the diagonal bracing fixing tube (2) in a sliding mode, and the top of the diagonal bracing telescopic tube (3) is detachably connected to the diagonal bracing fixing tube (6);

a first connecting square pipe (4) and a second connecting square pipe (5) which are arranged in parallel are arranged between the two base support pipes (1), the first connecting square pipe (4) and the second connecting square pipe (5) are respectively and vertically connected with the base support pipes (1), and two ends of the first connecting square pipe (4) and the second connecting square pipe (5) are respectively connected with the base support pipes (1) through bolt kits; the photovoltaic module is arranged on the two inclined beams (6), an upper pressing block (8) is arranged on the upper portion of the inclined beam (6), a bottom pressing block (7) is arranged at the bottom of the inclined beam, and the photovoltaic module is arranged on the inclined beam (6) through the bottom pressing block (7) and the upper pressing block (8).

2. A portable, foldable photovoltaic bracket according to claim 1, characterized in that: the surface of the inclined strut telescopic pipe (3) is provided with angle scale marks, and the inclination angle of the inclined beam (6) is adjusted through the expansion and contraction of the inclined strut telescopic pipe (3).

3. A portable, foldable photovoltaic bracket according to claim 1, characterized in that: two ends of the first connecting square tube (4) are respectively connected with a hook component (9), and the first connecting square tube is hung on the railing through the hook component (9).

4. A portable, foldable photovoltaic bracket according to claim 1, characterized in that: the second connecting square tube (5) is provided with a left pressing plate assembly and a right pressing plate assembly (10), and the second connecting square tube is fixed on the railing through the pressing plate assemblies (10).