CN111817650A - Novel no girder formula photovoltaic module installing support - Google Patents

Abstract

The invention discloses a novel main-beam-free photovoltaic module mounting bracket which comprises an upright post, wherein the upright post is vertically mounted and used for providing supporting force in the vertical direction for a photovoltaic module; the inclined strut is arranged at an angle with the horizontal direction, and two ends of the inclined strut are fixed on the upright post; the gusset plate is arranged on the upright post, and mounting holes are formed in the upright post at different heights and used for mounting the gusset plate; the gusset plate comprises at least two intersecting planes, one is a fixing surface and the other is an adjusting surface, the photovoltaic assembly is placed on the fixing surface, and the photovoltaic assembly is fixed through a fixing piece. The support structure only comprises 3 main components, namely the upright post, the inclined strut and the gusset plate, is simple and convenient to produce, manufacture, transport and install, and can improve the production efficiency and the installation efficiency of the photovoltaic support system to a great extent.

Description

Novel no girder formula photovoltaic module installing support

Technical Field

The invention belongs to the technical field of photovoltaic modules, and particularly relates to a mounting structure scheme of a single-sided/double-sided framed solar photovoltaic module applied to ground and flat roof mounting scenes.

Background

The existing ground and roof photovoltaic supports basically adopt cross beams and purlins as main bearing structures, are provided with corresponding quantity of stand columns in an auxiliary mode to support the cross beams and the purlins, and are provided with corresponding structures such as inclined struts, brace bars and purlin supports to meet corresponding structural requirements, and the fixing supports are called as traditional fixing supports. The traditional fixing support is widely applied, wherein the specific gravity of the cross beam and the purline accounts for about 70%, the structure is overall complex, and more labor is needed for production, processing, manufacturing and installation.

The existing ground power station has a complex structure, dozens of main parts are required, each part needs to be produced and manufactured independently, and the ground power station is relatively very complex and inconvenient to transport and install.

Disclosure of Invention

The invention aims at the problems, and the important characteristic of the invention is to invent a support structure which only has 3 main components, namely, a vertical column, an inclined strut and a gusset plate, is simple and convenient to produce, transport and install, and can greatly improve the production efficiency and the installation efficiency of a photovoltaic support system.

The invention relates to a novel main-beam-free photovoltaic module mounting bracket, which comprises

The upright post is vertically arranged and used for providing supporting force in the vertical direction for the photovoltaic assembly;

the inclined strut is arranged at an angle with the horizontal direction, and two ends of the inclined strut are fixed on the upright post;

the gusset plate is arranged on the upright post, and mounting holes are formed in the upright post at different heights and used for mounting the gusset plate; the gusset plate comprises at least two intersecting planes, one is a fixing surface and the other is an adjusting surface, the photovoltaic assembly is placed on the fixing surface, and the photovoltaic assembly is fixed through a fixing piece.

Further, the fixing piece is a pressing block which is divided into a middle fixing piece and an edge fixing piece according to the position of the pressing block;

the edge fixing piece is used for fixing a frame of the photovoltaic assembly, and the middle fixing piece is used for fixing frames of two adjacent photovoltaic assemblies.

Furthermore, the edge fixing piece is fixed on the fixing surface and is of a two-stage stepped structure, and a screw for fixing the edge fixing piece is arranged on the plane in the middle of the edge fixing piece;

the uppermost surface of the edge fixing piece is used for pressing the photovoltaic assembly frame.

Furthermore, the middle fixing piece is fixed on the fixing surface and is of a symmetrical structure, the middle part of the middle fixing piece is lower, the two sides of the middle fixing piece are higher, and a plane in the middle of the middle fixing piece is provided with a screw for fixing the middle fixing piece;

the high faces on the two sides of the middle fixing piece are used for pressing the photovoltaic module frames on the left side and the right side of the middle pressing block.

Preferably, at least two limiting devices are arranged on the fixing surface of the fixing part, each limiting device is a semi-rigid protruding elastic sheet and is a protruding structure on the gusset plate, a small gap is formed between a frame and the limiting device when the assembly is installed, when the assembly slides or rotates, the limiting structure can prevent the assembly from sliding and rotating, when a single limiting device acts, the assembly can be placed to slide, and 2 limiting devices act together to prevent the assembly from rotating.

Furthermore, a plurality of elongated holes are formed in the mounting surface of the fixing piece, the fixing piece is matched with the mounting holes in the stand column through the elongated holes, and the fixing piece is fixed on the stand column through bolts.

In the quick installation photovoltaic support without the main beam structure, the stand column is made of C-shaped, rectangular, H-shaped, W-shaped, Z-shaped or I-shaped steel.

Furthermore, two ends of the inclined strut are fixed on two adjacent upright columns, and the installation angles of the inclined strut between the upright columns on the same edge are the same.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention has simple structure, less parts and simple production process; the main parts of the structure are only 3 types of upright columns, inclined struts and gusset plates, the upright columns and the inclined struts have the same cross section, and the integral processing is simple;

2. the support has the advantages of simple structure, high installation efficiency, obvious part difference, no need of specific distinction, capability of realizing quick sorting and quick transportation in place, light weight of single parts of parts, manual installation and no need of hoisting equipment;

3. the angle of the bracket can be adjusted according to the condition of a project, the installation angle of the assembly can be adjusted at will through the gusset plate, the requirements of different areas and project capacity are met, and the adjustment angle is generally in the range of 0-40 degrees;

4. the gusset plate can adjust the angle of the assembly in the north-south direction and also can adjust the angle in the east-west direction, so that the angle of the bracket is a space angle, and the requirements of different positions are met;

5. the upright column can be made of C-type, rectangular, H-type, W-type, Z-type, I-type and other types of steel;

6. the node plates are provided with limiting devices, and the components can be fixed for a short time during installation to prevent the components from sliding off, and meanwhile, the components can be prevented from sliding on the long-term use function;

7. the distance and the angle between the components can be adjusted for the double-sided components, and the projection light and the reflection light are increased, so that the power generation is increased on the back;

8. when the application scene is a flat roof, the height of the upright column can be about 30cm, and when the scene is a ground structure, the height can be adjusted according to actual use requirements.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the present invention will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive labor.

FIG. 1 is a schematic overall structural view of the present invention of a quick-install photovoltaic mount without a main beam structure;

FIG. 2 is a top view of the present invention quick mount photovoltaic mount without a main beam structure;

FIG. 3 is a side view of the present invention quick mount photovoltaic mount without a main beam structure;

FIGS. 4 and 5 are enlarged partial views of the positions of the gusset plates;

FIG. 6 is a schematic view of two intersecting planar structures of a gusset plate;

FIG. 7 is a top plan view of the gusset plate mounting structure;

reference number designations in the drawings: 1: a first upright post; 2: a second upright post; 3: a first diagonal brace; 4: a second diagonal brace; 5: a first gusset plate; 6: a second gusset plate; 7: a photovoltaic module; 8: a middle fixing member; 9: an edge fixture; 10: gusset plate stop device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

The invention relates to a novel main-beam-free photovoltaic module mounting bracket, which is simple in structure, small in number of parts and simple in production and manufacturing process; the main parts of the structure are only 3 types of upright columns, inclined struts and gusset plates, the upright columns and the inclined struts have the same cross section, and the integral processing is simple; specifically, as shown in fig. 1, the photovoltaic support includes:

the upright post is vertically arranged and used for providing supporting force in the vertical direction for the photovoltaic assembly;

the inclined strut is arranged at an angle with the horizontal direction, and two ends of the inclined strut are fixed on the upright post;

the gusset plate is arranged on the upright post, mounting holes are formed in the upright post at different heights and used for mounting the gusset plate, and the gusset plate can be mounted at a height which does not pass through the mounting holes.

As shown in fig. 6, the gusset plate includes at least two intersecting planes, one is a fixing plane and the other is an adjusting plane, the photovoltaic module is placed on the fixing plane, and the photovoltaic module is fixed by a fixing member.

Furthermore, the fixing piece provided by the embodiment is a pressing block, and the pressing block is divided into a middle fixing piece and an edge fixing piece according to the position of the pressing block;

the edge fixing piece is used for fixing a frame of the photovoltaic assembly, and the middle fixing piece is used for fixing frames of two adjacent photovoltaic assemblies.

Furthermore, as shown in fig. 4, the edge fixing member is fixed on the fixing surface and has a two-stage stepped structure, and a screw for fixing the edge fixing member is arranged on a plane in the middle of the edge fixing member;

the uppermost surface of the edge fixing piece is used for pressing the photovoltaic assembly frame.

Furthermore, as shown in fig. 5, the middle fixing member is fixed on the fixing surface, and has a symmetrical structure, the middle part of the middle fixing member is lower, the two sides of the middle fixing member are higher, and the plane in the middle of the middle fixing member is provided with a screw for fixing the middle fixing member;

the high faces on the two sides of the middle fixing piece are used for pressing the photovoltaic module frames on the left side and the right side of the middle pressing block.

The gusset plate can finely adjust the angle according to the requirements of terrain or projects, and the gusset plate with a plane angle only (an included angle with an X axis) and a space angle adjusting gusset plate (a space structure gusset plate forming an included angle with an X axis, a Y axis and a Z axis) are only given on the figure. The angle of the bracket can be adjusted according to the condition of a project, the installation angle of the assembly can be adjusted at will through the gusset plate, the requirements of different areas and project capacity are met, and the adjustment angle is generally in the range of 0-40 degrees; the gusset plate not only can adjust the angle of subassembly north-south direction, also can adjust east-west direction angle, makes the support angle be space angle, satisfies different position demands.

As a preferred choice of this embodiment, on the stationary plane of mounting, be equipped with at least one stop device, stop device is protruding structure on the gusset plate, has little space between its frame and the stop device when the subassembly is installed, and when the subassembly produced and slided or rotated, stop structure can prevent that the subassembly from sliding and rotating, can place the subassembly when single stop device acts on and produce and slide, 2 or more than 2 stop device coactions can prevent that the subassembly from producing rotatoryly. The node plate is provided with a limiting device, the component can be fixed for a short time when being installed, the component is prevented from sliding, and meanwhile, the component can be prevented from sliding in the long-term use function.

Furthermore, a plurality of kidney-shaped holes are formed in the mounting surface of the fixing piece, the fixing piece is matched with the mounting holes in the stand column through the elongated holes, and the fixing piece is fixed on the stand column through bolts, so that the alignment between the pressing sheets is conveniently adjusted.

In the quick installation photovoltaic support without the main beam structure, the stand column is made of C-shaped, rectangular, H-shaped, W-shaped, Z-shaped or I-shaped steel.

Furthermore, two ends of the inclined strut are fixed on two adjacent upright columns, and the installation angles of the inclined strut between the upright columns on the same edge are the same. The one end of bracing is fixed in the upper portion mounting hole of stand, and the other end is fixed in the root of adjacent stand, through bolted connection, and the design of bracing can adjust the distance between the stand, when there is the deviation in the stand distance, also can satisfy operation requirement.

The distance and the angle between the components can be adjusted for the double-sided components, and the projection light and the reflection light are increased, so that the power generation is increased on the back; when the application scene is a flat roof, the height of the upright column can be about 30cm, and when the scene is a ground structure, the height can be adjusted according to actual use requirements.

Example 2

Based on embodiment 1 provides a novel no girder formula photovoltaic module installing support, this embodiment provides this photovoltaic support's assembly method, and first stand and second stand are driven into ground through the pile machine after, the installation bracing, and after the control is whole stable, installation first, second gusset plate (serial number 5 and 6) are adjusted to the required angle of design and height, then the installation subassembly, with the briquetting for the subassembly fixed in on the regulating plate.

The assembly process of this support is convenient, has solved the problem that support spare part is in large quantity and be not convenient for the installation, and spare part is in small quantity, and every is relatively independent, and production preparation, transportation and installation are easy and simple to handle, can to a great extent improve photovoltaic mounting system's production efficiency and installation effectiveness. The parts used in the invention can be quickly disassembled, and can be quickly installed in different places after being disassembled without environmental protection treatment.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (8)

1. Novel no girder formula photovoltaic module installing support, its characterized in that, photovoltaic support includes

The upright post is vertically arranged and used for providing supporting force in the vertical direction for the photovoltaic assembly;

the inclined strut is arranged at an angle with the horizontal direction, and two ends of the inclined strut are fixed on the upright post;

the gusset plate is arranged on the upright post, and mounting holes are formed in the upright post at different heights and used for mounting the gusset plate; the gusset plate comprises at least two intersecting planes, one is a fixing surface and the other is an adjusting surface, the photovoltaic assembly is placed on the fixing surface, and the photovoltaic assembly is fixed through a fixing piece.

2. The novel main beam-free photovoltaic module mounting bracket as recited in claim 1, wherein the fixing member is a pressing block, and the pressing block is divided into a middle fixing member and an edge fixing member according to the position of the pressing block;

the edge fixing piece is used for fixing a frame of the photovoltaic assembly, and the middle fixing piece is used for fixing frames of two adjacent photovoltaic assemblies.

3. The novel main-beam-free photovoltaic module mounting bracket as recited in claim 2, wherein the edge fixing member is fixed on the fixing surface and has a two-stage stepped structure, and a screw for fixing the edge fixing member is arranged on a plane in the middle of the edge fixing member;

the uppermost surface of the edge fixing piece is used for pressing the photovoltaic assembly frame.

4. The novel main-beam-free photovoltaic module mounting bracket as recited in claim 2, wherein the middle fixing member is fixed on the fixing surface, and has a symmetrical structure, the middle part of the middle fixing member is lower, the two sides of the middle fixing member are higher, and a screw for fixing the middle fixing member is arranged on the plane in the middle of the middle fixing member;

the high faces on the two sides of the middle fixing piece are used for pressing the photovoltaic module frames on the left side and the right side of the middle pressing block.

5. The novel main beam-free photovoltaic module mounting bracket as claimed in claim 3 or 4, wherein at least two limiting devices are arranged on the fixing surface of the fixing member, and the limiting devices are semi-rigid raised elastic pieces which are protruding structures on the gusset plate.

6. The novel main beam-free photovoltaic module mounting bracket as recited in claim 3 or 4, wherein a plurality of elongated holes are formed on the mounting surface of the fixing member, the fixing member is matched with the mounting holes on the vertical column through the elongated holes, and the fixing member is fixed on the vertical column through bolts.

7. The novel main beam-free photovoltaic module mounting bracket of any one of claims 1 to 4, wherein the upright is made of C-shaped, rectangular, H-shaped, W-shaped, Z-shaped or I-shaped steel.

8. The novel main beam-free photovoltaic module mounting bracket as recited in claim 7, wherein two ends of the diagonal brace are fixed to two adjacent vertical posts, and the installation angles of the diagonal brace between the vertical posts on the same edge are the same.

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