CN217027808U - Waterproof type BIPV support component that installation accuracy is high - Google Patents

Abstract

The utility model relates to the technical field of photovoltaic systems, in particular to a waterproof BIPV (building integrated photovoltaics) support component with high installation precision, which comprises: the photovoltaic module comprises a left frame, a right frame is arranged on one side of the left frame, a middle frame is arranged between the right frame and the left frame, a wire groove and a transverse groove are arranged between the left frame and the middle frame, the wire groove is positioned at the bottom end of the transverse groove, an angle iron is arranged between the wire groove and the transverse groove, and photovoltaic modules are arranged on the wire groove and the transverse groove; the water guide groove is arranged on the left frame, the right frame and the middle frame, folded edges are arranged on the left frame, the right frame and the middle frame, and convex buckles are arranged at the tops of the left frame, the right frame and the middle frame. The utility model relates to a method for modular installation, which aims to solve the problem of low installation speed of a BIPV bracket; the front and back installation and the left and right installation of the frame module are connected in a lap joint mode and then fixed on the purline through the pressing block, so that the mode of installing scattered support members one by one is changed, and the installation process is simplified.

Description

Waterproof type BIPV support component that installation accuracy is high

Technical Field

The utility model relates to the technical field of photovoltaic systems, in particular to a waterproof BIPV support component with high installation precision.

Background

With the development of the solar energy electronic industry, a solar energy photovoltaic module array capable of being comprehensively utilized appears. The photovoltaic system is divided into an independent system, a grid-connected system and a hybrid system, and the technology is mainly applied to a steel structure roof and replaces a photovoltaic system of a profiled metal plate. The photovoltaic system that installs on current steel construction roofing and replace profiled sheet metal mainly adopts the mode of scattered support component at the shelf location. The mounting mode has the problems that assembly of scattered support components needs to be carried out on a hollow steel structure roof truss, construction is complicated, and mounting speed is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a waterproof BIPV support component with high installation precision, which aims to solve the problems that assembly of scattered support components in the background art needs to be carried out on a hollow steel structure roof truss, construction is complicated and installation speed is slow.

In order to achieve the purpose, the utility model provides the following technical scheme: a waterproof BIPV support member with high installation accuracy, comprising:

the photovoltaic module comprises a left frame, a right frame is arranged on one side of the left frame, a middle frame is arranged between the right frame and the left frame, a wire groove and a transverse groove are arranged between the left frame and the middle frame, the wire groove is positioned at the bottom end of the transverse groove, an angle iron is arranged between the wire groove and the transverse groove, and photovoltaic modules are arranged on the wire groove and the transverse groove;

the water guide groove is arranged on the left frame, the right frame and the middle frame, folded edges are arranged on the left frame, the right frame and the middle frame, and convex buckles are arranged at the tops of the left frame, the right frame and the middle frame.

Preferably, the left frame is in lap joint with the right frame through a buckle, and the left frame and the right frame are in threaded connection with the transverse groove through angle irons and folded edges.

Preferably, the wire casing and the transverse groove are perpendicular to each other, and the wire casing is in threaded connection with the transverse groove through the angle iron.

Preferably, the buckle is further provided with:

the pressing strip is arranged at the top end of the buckle, the lower surfaces of the two horizontal wings of the pressing strip are provided with waterproof rubber strips, and the pressing strip is fixedly connected with the top of the left frame, the top of the right frame and the top of the middle frame through the buckle respectively.

Preferably, the bead is further provided with:

clamping structure, it is installed the top of layering, and clamping structure includes half left piece, tongue-and-groove, half right piece, tenon and fixing bolt, the tongue-and-groove has been seted up on half left piece being close to half right piece's the lateral wall, half right piece is close to and is equipped with the tenon on the lateral wall of half left piece, the back of tongue-and-groove is provided with fixing bolt.

Preferably, the left half piece is in joggle joint with the right half piece through a mortise and a tenon, and the left half piece is in threaded connection with the right half piece through a fixing bolt.

Preferably, the cross slot is shallow U-shaped in cross section, horizontal folding edges are arranged inwards at the end parts of the two wings, the wire slot is L-shaped in cross section, the horizontal folding edges are arranged at the end parts of the vertical wings, and the vertical folding edges are arranged at the end parts of the horizontal wings.

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

in order to solve the problem of installation accuracy of the BIPV bracket, the utility model adopts a method of a frame module; the sizes, hole positions and the like of the support members are standardized, then assembled into a basic frame module, and then modularized installation is carried out, so that the problems of low precision and large error caused by installation of scattered support members are solved; the modules are overlapped and fixed without considering the precision problem.

The utility model relates to a method for modular installation, which aims to solve the problem of low installation speed of a BIPV bracket; the front and back installation and the left and right installation of the frame module are connected in a lap joint mode and then fixed on the purline through the pressing block, so that the mode of installing scattered support members one by one is changed, and the installation process is simplified.

In order to solve the problem of water leakage of the BIPV roof, the utility model adopts a mode of directly discharging the surface of the whole assembly; a waterproof rubber strip is arranged between the assemblies; even if partial rainwater permeates from the gap, the rainwater can be drained from the grooves of the middle frame and the side frame.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a connection structure of the frame and the clamping structure according to the present invention;

FIG. 3 is a schematic view of the connection structure of the left frame and the right frame of the present invention;

FIG. 4 is a schematic view of the connection structure of the wire groove and the transverse groove of the present invention;

FIG. 5 is a schematic view of a clamping structure according to the present invention.

In the figure: 1. a left frame; 2. a right frame; 3. a middle frame; 4. a wire slot; 5. a transverse groove; 6. layering; 7. A clamping structure; 701. a left half piece; 702. mortises; 703. a right half piece; 704. a tenon; 705. fixing the bolt; 8. angle iron; 9. a photovoltaic module; 10. a waterproof rubber strip; 11. buckling; 12. folding edges; 13. A water chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, a waterproof BIPV support structure with high installation accuracy includes: a left frame 1, a right frame 2 is arranged on one side of the left frame 1, a middle frame 3 is arranged between the right frame 2 and the left frame 1, a wire groove 4 and a transverse groove 5 are arranged between the left frame 1 and the middle frame 3, the wire groove 4 is positioned at the bottom end of the transverse groove 5, an angle iron 8 is arranged between the wire groove 4 and the transverse groove 5, the wire groove 4 and the transverse groove 5 are mutually vertical, the wire groove 4 is in threaded connection with the transverse groove 5 through the angle iron 8, a photovoltaic component 9 and a water guiding groove 13 are arranged on the wire groove 4 and the transverse groove 5, the left frame 1, the right frame 2 and the middle frame 3 are respectively provided with a folded edge 12, the left frame 1 and the right frame 2 are both in threaded connection with the transverse groove 5 through the angle iron 8 and the folded edge 12, the top parts of the left frame 1, the right frame 2 and the middle frame 3 are provided with a convex buckle 11, the left frame 1 is in lap joint with the right frame 2 through the buckles 11, the frame modules are installed rapidly in a frame module mode, the frame modules are installed in the front and back direction and in the left and right direction and connected in a lap joint mode, then the frame modules are fixed on the purlines through pressing blocks, the mode that the frame modules are installed in scattered support members one by one is changed, and the installation process is simplified.

As shown in fig. 1, 3 and 5, a waterproof BIPV support member with high installation accuracy includes: the pressing strips 6 are arranged at the top ends of the buckles 11, the lower surfaces of two horizontal wings of the pressing strips 6 are provided with waterproof rubber strips 10, the pressing strips 6 are respectively fixedly connected with the tops of the left frame 1, the right frame 2 and the middle frame 3 through the buckles 11, and the problem of water leakage of the BIPV roof is solved in a mode that the surfaces of all the components are arranged in a straight line; a waterproof rubber strip 10 is arranged between the components; even if partial rainwater permeates from the gap, the rainwater can be drained from the grooves of the middle frame 3 and the side frame, the clamping structure 7 is arranged at the top of the pressing strip 6, the clamping structure 7 comprises a left half piece 701, a mortise 702, a right half piece 703, a tenon 704 and a fixing bolt 705, the mortise 702 is arranged on the side wall of the left half piece 701 close to the right half piece 703, the tenon 704 is arranged on the side wall of the right half piece 703 close to the left half piece 701, the fixing bolt 705 is arranged on the back surface of the mortise 702, the left half piece 701 is in tenon joint with the right half piece 703 through the mortise 702 and the tenon 704, the left half piece 701 is in threaded connection with the right half piece 703 through the fixing bolt 705, the cross section of the transverse groove 5 is in a shallow U shape, horizontal folding edges 12 are inwards arranged at the end parts of two wings, the cross section of the wire casing 4 is in an L shape, the horizontal folding edges 12 are arranged at the end parts of the vertical wings, and the installation accuracy of the BIPV bracket is achieved, the method adopts a frame module to solve the problem; the sizes, hole positions and the like of the support members are standardized, then assembled into a basic frame module, and then modularized installation is carried out, so that the problems of low precision and large error caused by installation of scattered support members are solved; the modules are overlapped and fixed without considering the precision problem.

The working principle is as follows: firstly, when the BIPV bracket component is used, a frame module is formed by combining a left frame 1, a right frame 2, a middle frame 3, a wire groove 4, a transverse groove 5 and a pressing strip 6 through an angle iron 8 and a clamping structure 7, water guide grooves 13 are respectively arranged on the left frame 1, the right frame 2 and the middle frame 3, water is drained through the water guide grooves 13, horizontal folding edges 12 are arranged on the left frame 1, the right frame 2 and the middle frame 3, the installation can be conveniently carried out, the components can be connected together by installing the angle iron 8 and a bolt on the horizontal folding edges 12, convex buckles 11 are arranged at the tops of the left frame 1, the right frame 2 and the middle frame 3, the left frame 1, the right frame 2 and the pressing strip 6 can be buckled together and fastened by the clamping structure 7, a left half sheet 701 and a right half sheet 703 are respectively attached to the left frame 1 and the right frame 2, tenons 704 are embedded into the mortises 702 and screwed by fixing bolts 705, the tops of the left frame 1, the right frame 2 and the middle frame 3 are fixed, and the photovoltaic module 9 is fixed on the left frame 1, the right frame 2 and the middle frame 3 through the pressing strips 6 and the clamping structures 7; 5 cross-sections of cross slot are shallow U type, and inwards set up horizontal hem 12 at both wing tip, through horizontal hem 12, angle bar 8, the bolt is fixed cross slot 5 at left side frame 1, right frame 2, center 3, on the wire casing 4, the wire casing 4 cross-section is the L type, perpendicular wing tip sets up horizontal hem 12, horizontal wing tip sets up perpendicular hem 12, through horizontal hem 12, angle bar 8, the bolt can be installed wire casing 4 on cross slot 5, make things convenient for the arrangement and the receipts of wire to deposit, waterproof rubber strip 10 of laminating can play waterproof effect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A waterproof type BIPV support component that installation accuracy is high, characterized by includes:

the photovoltaic module comprises a left frame (1), wherein a right frame (2) is arranged on one side of the left frame (1), a middle frame (3) is arranged between the right frame (2) and the left frame (1), a wire groove (4) and a transverse groove (5) are arranged between the left frame (1) and the middle frame (3), the wire groove (4) is located at the bottom end of the transverse groove (5), an angle iron (8) is arranged between the wire groove (4) and the transverse groove (5), and photovoltaic modules (9) are arranged on the wire groove (4) and the transverse groove (5);

the water guide groove (13) is formed in the left frame (1), the right frame (2) and the middle frame (3), folded edges (12) are arranged on the left frame (1), the right frame (2) and the middle frame (3), and convex buckles (11) are arranged at the tops of the left frame (1), the right frame (2) and the middle frame (3).

2. The waterproof BIPV support component with high installation accuracy according to claim 1, wherein the left frame (1) is in lap joint with the right frame (2) through a buckle (11), and the left frame (1) and the right frame (2) are in threaded connection with the transverse groove (5) through an angle iron (8) and a folded edge (12).

3. The waterproof BIPV bracket component with high installation accuracy according to claim 1, wherein the wire groove (4) and the transverse groove (5) are perpendicular to each other, and the wire groove (4) is in threaded connection with the transverse groove (5) through an angle iron (8).

4. The waterproof BIPV bracket assembly with high installation accuracy as claimed in claim 1, wherein the buckle (11) is further provided with:

the pressing strip (6) is arranged at the top end of the buckle (11), the lower surfaces of two horizontal wings of the pressing strip (6) are provided with waterproof rubber strips (10), and the pressing strip (6) is fixedly connected with the tops of the left frame (1), the right frame (2) and the middle frame (3) through the buckle (11) respectively.

5. The waterproof BIPV support structure with high installation accuracy as claimed in claim 4, wherein the press strip (6) is further provided with:

clamping structure (7), it is installed the top of layering (6), and clamping structure (7) include left half (701), tongue-and-groove (702), right half (703), tenon (704) and fixing bolt (705), tongue-and-groove (702) have been seted up on the lateral wall that left half (701) are close to right half (703), be equipped with tenon (704) on the lateral wall that right half (703) are close to left half (701), the back of tongue-and-groove (702) is provided with fixing bolt (705).

6. The waterproof BIPV bracket assembly with high installation accuracy as claimed in claim 5, wherein the left half piece (701) is joggled with the right half piece (703) through a mortise (702), a tenon (704) and a tenon connection (703), and the left half piece (701) is in threaded connection with the right half piece (703) through a fixing bolt (705).

7. The waterproof BIPV bracket component with high installation accuracy as claimed in claim 1, wherein the cross slot (5) is shallow U-shaped in cross section, horizontal folded edges are arranged inwards at the end parts of the two wings, the cross section of the wire slot (4) is L-shaped, the horizontal folded edge is arranged at the end part of the vertical wing, and the vertical folded edge is arranged at the end part of the horizontal wing.

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