CN210518199U - Closely-spliced solar component splicing structure - Google Patents

Abstract

The utility model relates to a closely spliced solar energy component assembly structure, it adopts a brand-new mounting and guide rail (or square tube) to fix, so that through the mounting can closely fix four corners of solar energy component with one or four corners of adjacent solar energy component, replace original medium pressure, side pressure and internal pressure piece, enable all solar energy components to be spliced into a whole, and there is a mounting support fixed under each solar energy component corner, make the crimping between the solar energy components firm, not influenced by wind pressure, shock-resistant, difficult not hard up; after silica gel or structural glue is coated on adjacent frames of the solar components and then the adjacent frames are assembled into a plane, the solar components can be tightly gapless, and are effectively rain-proof and water seepage-proof, and rainwater is guided to a lower part through the plane formed by the components.

Description

Closely-spliced solar component splicing structure

Technical Field

The utility model relates to a structure is assembled to solar energy component of inseparable concatenation belongs to solar energy support component and assembles technical field.

Background

In the installation process of a solar power station, sometimes a plurality of users require to assemble a rain-proof roof by solar components so as to be used for garages, car sheds and the like, or roofs, and the rain-proof roof can play the roles of preventing water seepage and rain leakage after a sealing strip is added, so that the rain water is prevented from leaking below.

The traditional method for assembling the rain roof by the components is various, and most of the conventional methods are that the solar components are normally arranged on a bracket, fixed by middle pressure and edge pressure, and then added with adhesive tapes and sealing strips to form a waterproof roof. Or an inner pressing piece (or other fixing pieces) is used for tightly fixing two assemblies which are adjacent left and right, and glue is applied to the periphery of the assemblies, so that a waterproof roof is formed, and other methods such as a water guide groove are adopted. However, these methods have certain drawbacks. By adopting the rubber strip and the sealing strip, the rubber strip is easy to fall off or loosen after being vibrated, thereby forming water leakage. By adopting the inner pressure piece method, although two adjacent blocks are fixed by the inner pressure pieces, only two sides of the assembly are fixed, and the two adjacent blocks naturally touch together and are not fixed, so that water leakage can be formed due to vibration or frame deformation. The use of the flume approach may be costly and may have certain strength issues due to the use of aluminum materials.

Disclosure of Invention

An object of the utility model is to overcome above-mentioned not enough, provide and can avoid appearing the gap between the subassembly completely, avoid infiltration, hourglass rain, simultaneously can anti-seismic. Deformation-resistant, high-strength and low-cost structure of closely spliced solar modules.

The purpose of the utility model is realized like this:

a closely spliced solar component splicing structure comprises a plurality of solar components which are spliced together transversely and longitudinally, each solar component is provided with an aluminum frame, the bottom of each solar component is provided with a plurality of rows of guide rails which are arranged in parallel, a fixing part is arranged below four corners of each solar component, the adjacent four corners of the solar components which are adjacent in front, back, left and right share one fixing part, the fixing parts are evenly divided into four parts, each part except corners forming a plane is closely matched with the frame on one corner of the solar component, the fixing parts and the frames are directly fixed through self-tapping nails and screws, an inner pressing plate can be used for closely pressing the lower edge of the aluminum frame of the component onto the fixing parts, each fixing part comprises a bottom plate, the upper section and the lower section of each side of the bottom plate are bent inwards by 90 degrees to form a U-shaped fixing piece, one or two U-shaped fixing pieces are positioned on two sides of the bottom plate, the U-shaped fixing piece is used for clamping the guide rail to firmly fix the fixing piece and the guide rail.

The fixing piece is provided with a through hole and can be fixed with the frame by a self-tapping screw or a screw.

The lower frame of the component frame is pressed by the inner pressing plate, the screw penetrates through the inner pressing plate and the fixing piece, then the screw is tightened, and the component frame and the fixing piece are tightly fixed through the inner pressing plate.

And silica gel or structural adhesive is coated on the frames of the adjacent solar modules during assembly.

The utility model relates to a structure is assembled to solar energy component of inseparable concatenation has following advantage:

the tightly spliced solar component splicing structure adopts a brand new fixing piece and a guide rail (or a square pipe) for fixing, so that four corners (except four corners of a formed whole plane) of all solar components can be tightly matched with one or four corners of an adjacent solar component through the brand new fixing piece, original medium pressure, side pressure and inner pressure plates are replaced, all solar components can be spliced into a whole, and the fixing piece is arranged below each four corner of each solar component for supporting and fixing, so that the solar components are firmly crimped, are not influenced by wind pressure, are vibration-resistant and are not easy to loosen; after silica gel is coated on each component frame when the solar components are assembled into a roof, the solar components can be closely spliced, so that the roof can effectively prevent rain and seepage, and rainwater is guided downwards along the component surface.

Drawings

Fig. 1 is the utility model relates to a closely the structure schematic diagram of the structure is assembled to solar energy component of concatenation.

Fig. 2 is a schematic structural diagram of the middle fixing member of the present invention.

Fig. 3 is a connection diagram of the middle fixing member and the guide rail according to the present invention.

Fig. 4 is a schematic view of the middle assembly frame and the fixing member of the present invention fixed by the inner pressing plate.

In the figure: solar energy component 1, frame 2, guide rail 3, mounting 4, bottom plate 4.1, stationary dog 4.2, interior clamp plate 5.

Detailed Description

Referring to fig. 1 to 4, the utility model relates to a closely spliced solar module assembly structure, which comprises a plurality of solar modules 1 which are transversely and longitudinally spliced together, each solar module 1 is provided with an aluminum frame 2, silica gel or structural adhesive is coated on the frame 2, a plurality of rows of guide rails 3 which are arranged in parallel are arranged at the bottom of each solar module 1, the guide rails 3 can be replaced by square pipes, fixing parts 4 are arranged at the bottoms of four corners of each solar module 1, the corners of the solar modules which are adjacent to each other in a front-back and left-right direction share one fixing part 4, the fixing parts 4 are evenly divided into four parts, each part is closely matched with the frame 2 on one corner of the solar modules, a plurality of through holes are arranged on the fixing parts 4, the frames and the fixing parts can be fixed by selecting a plurality of methods, can be directly fixed with the frames 2 from bottom to top by self-tapping nails, and can also be fixed by, in addition, the lower frame of the frame 2 can be pressed by the inner pressing plate 5, and then the solar module 1 and the fixing piece 4 are fixed by screws after the screws penetrate through the inner pressing plate 5 and the holes on the fixing piece 4.

The fixing piece 4 comprises a bottom plate 4.1, the upper section and the lower section of the two sides of the bottom plate 4.1 are bent inwards by 90 degrees to form a U-shaped fixing piece 4.2, as shown in figure 2, the two U-shaped fixing pieces 4.2 are positioned on the two sides of the bottom plate 4.1, the inside of the U-shaped fixing piece 4.2 is used for clamping the guide rail 3, so that the guide rail 3 is positioned, and after the fixing pieces 4.2 clamp the guide rail 3, the fixing pieces 4.2 can be fixed with the guide rail 3 by screws, electric welding or self-tapping nails, so that the frame 2, the guide rail 3 and the fixing piece 4 can be fixed together on the next step.

Therefore, four corners of the solar assembly can be tightly fixed with the corners of the adjacent solar assembly through the fixing pieces, the original middle pressure, side pressure or internal pressure piece is replaced, all the solar assemblies can be connected into a whole, and the fixing pieces are arranged below the corners of each solar assembly for supporting and fixing, so that the solar assemblies are firmly pressed and connected, are not influenced by wind pressure, are vibration-resistant and are not easy to loosen; after the solar component frames are coated with silica gel or structural glue and assembled into a roof, the solar components can be tightly gapless, and can effectively prevent rain and seepage, and rainwater can be guided downwards along the plane of the components.

Claims (4)

1. The utility model provides a structure is assembled to solar energy component of inseparable concatenation which characterized in that: the solar energy assembly comprises a plurality of solar energy assemblies which are spliced together transversely and longitudinally, each solar energy assembly is provided with an aluminum frame, the bottom of each solar energy assembly is provided with a plurality of rows of guide rails which are arranged in parallel, fixing parts are arranged below four corners of each solar energy assembly, the four corners of the solar energy assemblies which are adjacent in a front-back, left-right direction share one fixing part, the fixing parts are evenly divided into four parts, each part is tightly matched with the frame on one corner of one solar energy assembly except the corner which forms a plane, the fixing parts and the frames are directly fixed through self-tapping nails and screws, an inner pressing plate can also be used, the lower edge of the aluminum frame of the assembly is tightly pressed on the fixing parts, each fixing part comprises a bottom plate, the upper section and the lower section which form two sides of the bottom plate are inwards bent by 90 degrees to form a U-shaped fixing piece, and one or, the U-shaped fixing piece is used for clamping the guide rail to firmly fix the fixing piece and the guide rail.

2. The close-coupled solar module assembly structure of claim 1, wherein: the fixing piece is provided with a through hole and can be fixed with the frame by a self-tapping screw or a screw.

3. The close-coupled solar module assembly structure of claim 1, wherein: the lower frame of the component frame is pressed by the inner pressing plate, the screw penetrates through the inner pressing plate and the fixing piece, then the screw is tightened, and the component frame and the fixing piece are tightly fixed through the inner pressing plate.

4. The close-coupled solar module assembly structure of claim 1, wherein: and silica gel or structural adhesive is coated on the frames of the adjacent solar modules during assembly.

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