CN209913770U - Mounting structure of dual glass assembly - Google Patents

Abstract

The utility model provides a dual glass assembly's mounting structure, including subassembly body, subassembly frame and briquetting, the subassembly frame is including the installation frame that is located subassembly body both sides and length more than or equal to subassembly body side respectively, the installation frame is including bearing splenium and installation department, the installation department has the storage gluey groove that is used for inserting the mounting groove of establishing subassembly body side and is used for holding sealed glue, just store up gluey groove communicate in the mounting groove, the bearing splenium is connected in one side that the mounting groove was kept away from to the installation department, the briquetting is connected bear splenium department. The utility model discloses earlier install the subassembly in subassembly frame department, install the subassembly frame through the briquetting again, make the pressure of briquetting apply in subassembly frame department, reduce the subassembly glass atress, avoid subassembly glass to explode the piece because of the atress.

Description

Mounting structure of dual glass assembly

Technical Field

The utility model belongs to the technical field of photovoltaic module, especially, relate to a dual glass assembly's mounting structure.

Background

Photovoltaic dual glass assembly need will fix at the project place when putting into use, because the characteristic of photovoltaic dual glass assembly adopts the glass briquetting to carry out the subassembly fixed in the trade at present, this kind of mounting means that adopts the glass briquetting to carry out the subassembly fixed has certain risk when using, mainly has:

1. in the glass fixing area, glass explosion is caused due to the influence of stress;

2. when the assembly is installed, two persons are needed to fix the assembly, and the two persons fix the glass pressing block 5, so that labor waste is caused.

In addition, as shown in fig. 1, the glass pressing block 5 is divided into three sections for component fixing, and when the glass pressing block is installed, a customized tool needs to be used for position positioning, so that the positioning is complex and the operation time is long.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a dual glass assembly's mounting structure.

In order to achieve the purpose, the utility model provides a mounting structure of dual glass assembly, including subassembly body, subassembly frame and briquetting, the subassembly frame is including the installation frame that is located subassembly body both sides and length more than or equal to subassembly body side respectively, the installation frame is including holding splenium and installation department, the installation department has the storage gluey groove that is used for inserting the mounting groove of establishing subassembly body side and is used for holding sealed glue, just store up gluey groove communicate in the mounting groove, the pressure-bearing portion is connected in the installation department and is kept away from one side of mounting groove, the briquetting is connected hold splenium department.

Through above-mentioned technical scheme, install the subassembly in subassembly frame department earlier, install the subassembly frame through the briquetting again, make the pressure of briquetting apply in subassembly frame department, reduce the subassembly glass atress, avoid subassembly glass to explode the piece because of the atress.

In foretell dual glass assembly's mounting structure, store up gluey groove and be located the top or the below of mounting groove, just store up gluey groove and mounting groove and all follow the one end axial extension of installation frame to the other end of installation frame.

Through above-mentioned technical scheme, can fill whole mounting groove through directly beating to storing up gluey groove department and glue to with subassembly side and subassembly frame reciprocal anchorage.

In the installation structure of the double-glass assembly, the width of the installation frame is 20-30mm, and the depth of the installation groove is 8-12 mm.

In foretell dual glass assembly's mounting structure, the mounting groove tank bottom has the amplification portion of cross section crescent to make mounting groove tank bottom height is greater than the mounting groove notch height, just the corner of mounting groove is the fillet structure.

In foretell dual glass assembly's mounting structure, the bearing portion is the rectangle structure that has axial cavity groove, just installation department and bearing portion are the integrated into one piece structure, the briquetting contacts in the upper surface of bearing portion, and will the lower surface of bearing portion compresses tightly in installation position department.

In the above-mentioned mounting structure of dual glass assembly, the length of installation frame equals the length of subassembly body side.

Through above-mentioned technical scheme, simplify the installation work, need not fix a position, directly insert the mounting groove with subassembly body side, then flush both sides can.

In the mounting structure of the dual-glass assembly, the pressing block is provided with at least one side edge part used for pressing the lower end face of the mounting frame at the mounting position, the side edge part extends downwards to form an extending part, the lower end of the extending part extends to one side far away from the side edge part to form a bottom edge part, and a through hole used for fixing the pressing block at the mounting position is formed in the bottom edge part.

In the above-mentioned mounting structure of dual glass assembly, the briquetting includes middling pressure and limit pressure, the limit is pressed and is had a side portion, the middling pressure has two symmetrical side portions that set up, and the base portion that the limit was pressed extends to one side of keeping away from side portion by the extension lower extreme and obtains, and the base portion both ends of middling pressure are connected respectively in the lower extreme of the extension of two.

In the above mounting structure of the dual glass assembly, one surface of the side edge part contacting the mounting frame has a saw-toothed structure.

Through above-mentioned technical scheme, through improving the joint strength and the connection stability between the installation frame and the briquetting between the improvement of frictional force between the two.

Compared with the prior art, the utility model has the advantages of it is following: 1. the assembly is installed by using an installation frame with the length consistent with that of the assembly body, and the pressing block is directly fixed on the installation frame to install the assembly, so that the pressing block is prevented from directly contacting with the glass stressed post-explosion member; 2. when the assembly is installed, the length of the installation frame is consistent with that of the assembly, so that the side of the assembly can be directly inserted into the installation groove, special position positioning is not needed, the installation process is simplified, and the installation efficiency is improved.

Drawings

FIG. 1 is a schematic view of a prior art mounting structure for a dual glass assembly;

FIG. 2 is a schematic view of the installation structure of the dual glass assembly of the present invention;

fig. 3 is a side view of the mounting bezel of the present invention;

fig. 4 is a schematic diagram of the connection between the medium voltage and the frame of the assembly according to the present invention.

In the figure, the assembly body 1; a component frame 2; briquetting 3; side edge portions 31; an extension 32; a bottom edge portion 33; a via 34; a saw-tooth like structure 35; installing a frame 4; a pressure receiving portion 41; an axial hollow slot 411; a mounting portion 42; a mounting groove 421; a glue storage tank 422; an amplification part 423.

Detailed Description

As shown in fig. 2, the embodiment discloses a mounting structure of a dual-glass assembly, which includes an assembly body 1, an assembly frame 2 and a pressing block 3, wherein the assembly frame 2 includes mounting frames 4 respectively located at two sides of the assembly body 1 and having a length greater than or equal to that of the side edge of the assembly body 1, and it is preferable that the length of the mounting frames 4 is equal to that of the side edge of the assembly body 1. So that the two ends of the mounting rim 4 can be flush with the two ends of the assembly body 1.

As shown in fig. 3, the mounting frame 4 includes a pressure-bearing portion 41 and a mounting portion 42, and the mounting portion 42 has a mounting groove 421 for inserting the side edge of the component body 1 and a glue storage groove 422 for containing a sealant. Specifically, the glue storage tank 422 is located above the mounting groove 421 and the glue storage tank 422 is communicated with the mounting groove 421. The glue storage groove 422 and the mounting groove 421 both axially extend from one end of the mounting frame 4 to the other end of the mounting frame 4.

Install the side of group body 1 in mounting groove 421, then use the machine of glue of beating to squeeze into sealed glue storage tank 422 in, sealed glue will be followed storage tank 422 and permeated to mounting groove 421, sealed glue will fill promptly and store up all vacant positions of glue storage tank 422 and mounting groove 421, place the solidification back subassembly side and just can fix in mounting groove 421 department, sealed glue can use the sealed glue of silicone structure.

Further, the pressure receiving portion 41 is connected to the mounting portion 42 on a side away from the mounting groove 421, and the pressure block 3 is connected to the pressure receiving portion 41. The width of the mounting frame 4 is 20-30mm, the depth of the mounting groove 421 is 8-12mm, for example, the width of the mounting frame 4 is 22mm, the depth of the mounting groove 421 is 10mm, the width of the pressing part 41 is 12mm, and the width of the side of the mounting groove 421 clamping assembly body 1 is 10 mm. The height of the notch of the mounting groove 421 can be equal to or slightly less than the thickness of the component body 1, so that after the mounting, the notch of the mounting groove can be in close contact with the upper surface and the lower surface of the component body 1, and the mounting strength is improved. And the height of the bottom of the mounting groove 421 is greater than the height of the notch of the mounting groove 421, so that the upper and lower sides of the bottom of the groove can be filled with enough sealant to improve the connection strength.

Specifically, the mounting groove 421 tank bottom has the increase portion 423 of cross section crescent to make the mounting groove tank bottom height be greater than the mounting groove notch height, and the corner of mounting groove 421 is fillet structure, can avoid the installation department 42 to cause pressure injury to the subassembly through using fillet structure.

Further, the pressure receiving portion 41 has a rectangular structure with an axial hollow groove 411, and the mounting portion 42 and the pressure receiving portion 41 are integrally formed. The mounting frame 4 can be made of a magnesium-aluminum-zinc plated plate or an aluminum profile. The pressing block 3 contacts the upper surface of the pressure-receiving portion 41 and presses the lower surface of the pressure-receiving portion 41 and the lower surface of the mounting portion 42 against a mounting location, such as the upper surface of a purlin. Here, the acting force of the pressing block 3 mainly acts on the bearing part 41, and the assembly body 1 is installed on the installation part 42, so that the pressure of the pressing block 3 does not cause large pressure to the assembly, and the problem that the glass on the surface of the assembly explodes due to the large pressure does not occur.

Further, as shown in fig. 4, the pressing block 3 has at least one side portion 31 for pressing the lower end surface of the mounting frame 4 to the mounting position, the side portion 31 extends downward to form an extension portion 32, the lower end of the extension portion 32 extends to a side away from the side portion 31 to form a bottom portion 33, and the bottom portion 33 is provided with a through hole 34 for fixing the pressing block 3 to the mounting position. In particular, the pressing block 3 herein may be referred to as a middle press or a side press, the side press having one side portion 31, the middle press having two symmetrically disposed side portions 31, and the middle press structure being as shown in fig. 4. The side-pressed bottom edge part 33 is extended from the lower end of the extension part 32 to the side far from the side edge part 31, and both ends of the side-pressed bottom edge part 33 are respectively connected with the lower ends of the two extension parts 32. The middle pressure is used between two adjacent modules, and the side pressure is used at the module positioned at one side.

Preferably, the side edge 31 has a saw-toothed structure on the side contacting the mounting frame 4, so as to increase the friction between the pressing block and the mounting frame and thus the connection strength between the pressing block and the mounting frame.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the assembly body 1 is used more herein; a component frame 2; briquetting 3; installing a frame 4; a pressure receiving portion 41; a mounting portion 42; a mounting groove 421; a glue storage tank 422; an axial hollow slot 411; side edge portions 31; an extension 32; a bottom edge portion 33; a via 34; etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (9)

1. The utility model provides a mounting structure of dual glass assembly, includes subassembly body (1), subassembly frame (2) and briquetting (3), its characterized in that, subassembly frame (2) is including installation frame (4) that are located subassembly body (1) both sides and length more than or equal to subassembly body (1) side respectively, installation frame (4) are including bearing portion (41) and installation department (42), installation department (42) have be used for inserting mounting groove (421) of establishing subassembly body (1) side and be used for holding sealed storage gluey groove (422), just store up gluey groove (422) communicate in mounting groove (421), bearing portion (41) are connected in one side that mounting groove (421) were kept away from in installation department (42), briquetting (3) are connected bearing portion (41) department.

2. The mounting structure of the dual glass assembly according to claim 1, wherein the glue storage groove (422) is located above or below the mounting groove (421), and both the glue storage groove (422) and the mounting groove (421) axially extend from one end of the mounting frame (4) to the other end of the mounting frame (4).

3. The mounting structure of the dual glass assembly according to claim 2, wherein the width of the mounting frame (4) is 20-30mm, and the depth of the mounting groove (421) is 8-12 mm.

4. The mounting structure of the dual glass assembly of claim 3, wherein the bottom of the mounting groove (421) has an enlarged portion (423) with a gradually increasing cross section, so that the height of the bottom of the mounting groove (421) is greater than the height of the notch of the mounting groove (421), and corners of the mounting groove (421) are rounded structures.

5. The mounting structure of the dual glass assembly according to claim 4, wherein the bearing portion (41) has a rectangular structure with an axial hollow groove (411), the mounting portion (42) and the bearing portion (41) are integrally formed, and the pressing block (3) contacts with an upper surface of the bearing portion (41) and presses a lower surface of the bearing portion (41) at the mounting position.

6. The mounting structure of a dual glass assembly according to claim 5, characterized in that the length of the mounting frame (4) is equal to the length of the side of the assembly body (1).

7. The mounting structure of the dual glass assembly according to any one of claims 1-6, wherein the press block (3) has at least one side portion (31) for pressing the lower end surface of the mounting frame (4) at the mounting position, the side portion (31) has an extension portion (32) extending downward, the lower end of the extension portion (32) has a bottom portion (33) extending to the side away from the side portion (31), and the bottom portion (33) has a through hole (34) for fixing the press block (3) at the mounting position.

8. The mounting structure of a dual glass assembly according to claim 7, wherein the pressing block (3) comprises a middle press and a side press, the side press has a side edge part (31), the middle press has two symmetrically arranged side edge parts (31), a bottom edge part (33) of the side press extends from the lower end of the extension part (32) to the side far away from the side edge part (31), and both ends of the middle press bottom edge part (33) are respectively connected to the lower ends of the two extension parts (32).

9. The mounting structure of a dual glass assembly according to claim 8, characterized in that the side edge portion (31) has a serrated structure (35) on the side contacting the mounting bezel (4).

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