CN111532788A - Power generation glass assembly convenient to stack and assembling method thereof - Google Patents

Abstract

The invention discloses a power generation glass assembly convenient for stacking and an assembling method thereof, wherein the assembly comprises a power generation glass body and a back rail fixed on the back of the power generation glass; the back rail comprises two long rails and two short rails, and the long rails and the short rails are spliced into a rectangle; the long rail is rectangular in cross section, a stacking part extending out of the long rail body is arranged on the bottom surface of the long rail, and a groove matched with the stacking part is formed in the top of the long rail. Utilize stack portion to increase the clearance between subassembly and the subassembly, lead to being crushed after avoiding generating electricity glass body and adjacent frame contact, utilize recess and stack portion to fix a position simultaneously, make things convenient for the pile, make its pile back difficult slip.

Description

Power generation glass assembly convenient to stack and assembling method thereof

Technical Field

The present invention relates to a power generating glass assembly, and more particularly to a power generating glass assembly that is easy to stack, and to a method for assembling the same.

Background

In recent years, the research direction of solar cells is high conversion efficiency, low cost, and high stability. Therefore, thin film solar cells represented by cadmium telluride thin film solar cells, which are the most easily manufactured among solar cells and thus have been the fastest in commercialization, have attracted much attention and have been researched and tested by many organizations and companies.

In the installation of present jumbo size solar energy dual glass assembly, traditional briquetting formula mounting structure can't satisfy 2400 pa's mechanical load strength, simultaneously, thereby the large size dual glass assembly very easy landing in the in-process of pile damages, and its packing transportation is all very inconvenient.

Disclosure of Invention

In view of the above, the present invention provides a power generation glass assembly and an assembling method thereof, which can withstand greater pressure and facilitate stacking.

In order to solve the technical problems, the technical scheme of the invention is as follows: a power generation glass assembly convenient for stacking comprises a power generation glass body and a back rail fixed on the back of the power generation glass; the back rail comprises two long rails and two short rails, and the long rails and the short rails are spliced into a rectangle; the long rail is rectangular in cross section, a stacking part extending out of the long rail body is arranged on the bottom surface of the long rail, and a groove matched with the stacking part is formed in the top of the long rail. Utilize stack portion to increase the clearance between subassembly and the subassembly, lead to being crushed after avoiding generating electricity glass body and adjacent frame contact, utilize recess and stack portion to fix a position simultaneously, make things convenient for the pile, make its pile back difficult slip.

As a modification, the stacking portion has a rectangular shape, and the height thereof is greater than the depth of the groove. The rectangle is comparatively firm, and the degree of depth that stack portion height is greater than the recess can raise the intermittent type of adjacent subassembly in the pile.

As an improvement, the long rail and the short rail are both provided with axial corner brace clamping grooves and also comprise L-shaped corner braces; the two ends of the angle code are respectively clamped in the angle code clamping grooves of the long rail and the short rail to connect the long rail and the short rail. The long and short rails are connected by utilizing the corner connectors, so that welding is avoided, and the process steps are reduced.

Preferably, the short rail has a rectangular cross section. The positioning and the supporting are finished by the long rail, and the short rail is in a conventional shape, so that the material is saved and the cost is reduced.

As a modification, the stacking part is of an inverted T-shaped structure, and the height of the stacking part is greater than the depth of the groove; the short rail and the long rail have the same structure. The long and short rails are of the same structure, so that the support is more stable.

Preferably, double-sided adhesive tapes are laid on the top surfaces of the long rail and the short rail at intervals, structural adhesive is coated on the edge of the bottom of the power generation glass body at intervals, and the positions of the structural adhesive and the double-sided adhesive are staggered. The double-faced adhesive tape and the structural adhesive are used for staggered bonding, so that the bonding stability of the power generation glass body and the frame is improved.

The invention also provides a method for assembling the power generation glass assembly convenient for stacking, which comprises the following steps:

A. assembling the back rail; splicing the two long rails and the two short rails into a rectangular frame;

B. the top surface of the frame is pasted with double-sided adhesive tapes at intervals, and the edge of the bottom of the power generation glass body is coated with structural adhesive at intervals; the position of the structural adhesive is staggered with that of the double-sided adhesive;

C. and attaching the frame to the bottom of the power generation glass body.

As an improvement, in the step C, the power generation glass body is firstly turned over to make the bottom of the power generation glass body upward, and then the assembled frame is attached to the power generation glass body.

Preferably, in the step C, the frame is attached to the power generation glass body, pressed for 30 seconds and left standing for 2 hours.

The invention has the advantages that: the power generation glass assembly with the structure avoids the contact of the power generation glass body and the adjacent frame in stacking through the gap between the too high assemblies of the stacking part, so that the power generation glass is not easily crushed by the frame, the number of stacked layers is increased, and the power generation glass assembly is convenient to store and transport. Meanwhile, the stacking part and the groove are matched to play a role in positioning, the assembly is not prone to sliding off after stacking, the stacking stability is improved, and the stacking height is increased. The groove not only can be used as a locating slot for stacking, but also can be used as a locating slot during installation, thereby achieving two purposes at one stroke.

Drawings

Fig. 1 is a bottom view of the present invention.

Fig. 2 is a sectional view of embodiment 1 of the present invention.

FIG. 3 is a schematic view of component stacking.

Fig. 4 is a sectional view of the long and short rails in example 2.

Fig. 5 is a sectional view of the long and short rails in example 3.

The labels in the figure are: 1 power generation glass body, 2 long rails, 3 short rails, 4 terminal boxes, 5 stacking parts, 6 corner brace clamping grooves, 7 grooves and 8 corner braces.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present invention, the present invention will be further described in detail with reference to the following embodiments.

As shown in fig. 1-5, the invention comprises a power generation glass body 1 and a back rail fixed on the back of the power generation glass; the back rail comprises two long rails 2 and two short rails 3, and the long rails 2 and the short rails 3 are spliced into a rectangle; the section of the long rail 2 is rectangular, the bottom surface of the long rail is provided with a stacking part 5 extending out of the body of the long rail 2, and the top of the long rail is provided with a groove 7 matched with the stacking part 5.

Example 1 as shown in fig. 2, the stacking portion 5 has a rectangular shape with a height greater than the depth of the groove 7. The long rail 2 and the short rail 3 are both provided with an axial angle code clamping groove 6 and also comprise an L-shaped angle code 8; the two ends of the angle code 8 are respectively clamped in the angle code clamping grooves 6 of the long rail 2 and the short rail 3 to connect the long rail 2 and the short rail 3. The short rail 3 is rectangular in cross section.

The long rail 2, the short rail 3 and the stacking section 5 are hollow for weight reduction and material saving.

Embodiment 2 is different from embodiment 1 in that the stacking part 5 has an inverted T-shaped structure with a height greater than the depth of the groove 7, as shown in fig. 4. The short rail 3 is of the same construction as the long rail 2, i.e. the short rail 3 is also provided with a stacking section 5 and a groove 7. The corner brace clamping groove 6 is communicated with the lightening hole.

Embodiment 3 is different from embodiment 2 in that the corner brace groove 6 is separated from the lightening hole, as shown in fig. 5.

The invention also provides a method for assembling the power generation glass assembly, which comprises the following steps:

A. assembling the back rail; splicing the two long rails and the two short rails into a rectangular frame;

B. the top surface of the frame is pasted with double-sided adhesive tapes at intervals, and the edge of the bottom of the power generation glass body is coated with structural adhesive at intervals; the position of the structural adhesive is staggered with that of the double-sided adhesive;

C. and attaching the frame to the bottom of the power generation glass body. Firstly, the power generation glass body is turned over to enable the bottom of the power generation glass body to face upwards, and then the assembled frame is attached to the power generation glass body. The frame is pasted on the power generation glass body, pressed for 30 seconds and kept stand for 2 hours.

The above is only a preferred embodiment of the present invention, and it should be noted that the above preferred embodiment should not be considered as limiting the present invention, and the protection scope of the present invention should be subject to the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the spirit and scope of the invention, and these modifications and adaptations should be considered within the scope of the invention.

Claims (9)

1. A power generation glass assembly convenient for stacking comprises a power generation glass body and a back rail fixed on the back of the power generation glass; the method is characterized in that: the back rail comprises two long rails and two short rails, and the long rails and the short rails are spliced into a rectangle; the long rail is rectangular in cross section, a stacking part extending out of the long rail body is arranged on the bottom surface of the long rail, and a groove matched with the stacking part is formed in the top of the long rail.

2. A power generating glass unit for ease of stacking as claimed in claim 1 wherein: the stacking part is rectangular, and the height of the stacking part is larger than the depth of the groove.

3. A power generating glass unit for ease of stacking as claimed in claim 1 wherein: the long rail and the short rail are both provided with axial angle code clamping grooves and also comprise L-shaped angle codes; the two ends of the angle code are respectively clamped in the angle code clamping grooves of the long rail and the short rail to connect the long rail and the short rail.

4. A power generating glass unit for ease of stacking as claimed in claim 1 wherein: the section of the short rail is rectangular.

5. A power generating glass unit for ease of stacking as claimed in claim 1 wherein: the stacking part is of an inverted T-shaped structure, and the height of the stacking part is greater than the depth of the groove; the short rail and the long rail have the same structure.

6. A power generating glass unit for ease of stacking as claimed in claim 1 wherein: double-sided adhesive tapes are laid on the top surfaces of the long rail and the short rail at intervals, structural adhesive is coated on the edge of the bottom of the power generation glass body at intervals, and the positions of the structural adhesive and the double-sided adhesive are staggered.

7. A method of assembling the power generating glass assembly for ease of stacking of claim 1, comprising the steps of:

A. assembling the back rail; splicing the two long rails and the two short rails into a rectangular frame;

B. the top surface of the frame is pasted with double-sided adhesive tapes at intervals, and the edge of the bottom of the power generation glass body is coated with structural adhesive at intervals; the position of the structural adhesive is staggered with that of the double-sided adhesive;

C. and attaching the frame to the bottom of the power generation glass body.

8. A method of assembling a power generating glass unit for ease of stacking as claimed in claim 7 wherein: and C, firstly, overturning the power generation glass body to enable the bottom of the power generation glass body to face upwards, and then attaching the assembled frame to the power generation glass body.

9. A method of assembling a power generating glass unit for ease of stacking as claimed in claim 7 wherein: and C, attaching the frame to the power generation glass body, pressing for 30 seconds and standing for 2 hours.

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