CN204316424U

CN204316424U - A kind of photovoltaic module

Info

Publication number: CN204316424U
Application number: CN201420833558.3U
Authority: CN
Inventors: 崔标; 印冰; 刘林华
Original assignee: WUXI DEXIN SOLAR POWER CO Ltd
Current assignee: WUXI DEXIN SOLAR POWER CO Ltd
Priority date: 2014-12-24
Filing date: 2014-12-24
Publication date: 2015-05-06
Anticipated expiration: 2024-12-24

Abstract

The utility model discloses a kind of photovoltaic module, comprise laminate, be arranged on the frame of laminate periphery, and crossbeam, the integrated carrying ability of assembly is ensure that when reducing module frame height; This shape of peripheral frame adopts cavity and semi-circular structure design, improves the bearing capacity of section bar at Impact direction; This frame design adopts lower height design (<30mm), can reduce the packed and transported cost of assembly 15%; This beam design adopts waling and semi-circular reinforcement to improve the intensity of crossbeam; The connection of frame and crossbeam adopts new construction, is not only convenient to assembly installation but also can reduces the hidden danger brought at this place.

Description

A kind of photovoltaic module

Technical field

The utility model relates to area of solar cell, particularly a kind of photovoltaic module.

Background technology

The periphery of general lamination part of solar cell is provided with frame, is used for strengthening component strength, black box edge, and photovoltaic module is rack-mount by frame.In addition, some assembly is also provided with brace summer at opaco, is used for strengthening component strength.

But existing module frame and beam design exist following problem: 1, existing module frame profile structure is more single, and designs unreasonable, beam structure is coordinated to be difficult to install; 2, existing module frame height is too high, and one drags packing case package component negligible amounts, and assembly cost of transportation is higher; 3, existing assembly beam design is identical in each face, and stress surface and non-stress face do not have emphasis; 4, the assembly of existing band beam structure is when installing crossbeam, and screw head is given prominence at component external, produces and easily hurts other assemblies in packaging process; 5, existing band transverse beam assembly is installed, and screw is arranged on assembly side, inconvenient operation in module production process.

Summary of the invention

Goal of the invention: for problems of the prior art, the utility model devises a kind of photovoltaic module, its frame and beam strength high, and rational in infrastructure, be convenient to carry out crossbeam installation.

Technical scheme: a kind of photovoltaic module, comprise laminate, be arranged on the frame of laminate periphery, and crossbeam, described frame comprises approximately parallel frame upper wall, frame mesospore, frame lower wall and support edge, and perpendicular to the frame inwall of frame upper wall and frame outer wall; Described crossbeam comprises two the crossbeam cross walls be parallel to each other, and perpendicular to two beam side walls of crossbeam cross wall; Described crossbeam is placed on support edge, is connected with frame by self-tapping screw, is convenient to pile line operation.

The horizontal plane at place, described support edge is higher than the horizontal plane at frame lower wall place, the distance of support edge and frame lower wall is not less than the length of screw, after crossbeam is installed, crossbeam and screw can not exceed frame lower wall surface, decrease the scuffing in assembly Production and Packaging installation process and interference.

The height of described frame is not more than 30mm.

Be provided with the waling being parallel to frame inwall in the inner die cavity of the frame that described frame mesospore, frame lower wall, frame inwall and frame outer wall are formed, the two ends of this waling are connected with frame mesospore and frame lower wall respectively; Inner for frame die cavity is divided into two rectangular cavity by described waling, and be provided with two semicircle reinforcements in the rectangular cavity corresponding with frame outer wall symmetrically, the two ends of described semicircle reinforcement are connected with waling and frame outer wall respectively.

The one side of described crossbeam cross wall is provided with groove, and the degree of depth of this groove is greater than the thickness of nut, gives prominence to outside crossbeam transverse arm for avoiding nut.

Be provided with the contrary semicircle reinforcement of both direction symmetrically in the inner die cavity of crossbeam of described two crossbeam transverse arms and two beam side wall formations, between two semicircle reinforcements, be provided with the waling parallel with beam side wall; The two ends of described semicircle reinforcement are connected with same crossbeam transverse arm respectively; The two ends of described waling are connected with two semicircle reinforcements respectively, and its extended line is by two centers of circle.

Beneficial effect: the photovoltaic module that the utility model provides, ensure that the integrated carrying ability of assembly when reducing module frame height; This shape of peripheral frame adopts cavity and semi-circular structure design, improves the bearing capacity of section bar at Impact direction; This frame design adopts lower height design (<30mm), can reduce the packed and transported cost of assembly 15%; This beam design adopts waling and semi-circular reinforcement to improve the intensity of crossbeam; The connection of frame and crossbeam adopts new construction, is not only convenient to assembly installation but also can reduces the hidden danger brought at this place.

Accompanying drawing explanation

Fig. 1 is border structure schematic diagram of the present utility model;

Fig. 2 is beam structure schematic diagram of the present utility model;

Fig. 3 is the scheme of installation of frame of the present utility model and crossbeam.

Embodiment

Below in conjunction with specific embodiment, illustrate the present invention further, these embodiments should be understood only be not used in for illustration of the present invention and limit the scope of the invention, after having read the present invention, those skilled in the art have all fallen within the application's claims limited range to various equivalents of the present invention.

The frame 13 of photovoltaic module as shown in Figure 1, comprises approximately parallel frame upper wall 1, frame mesospore 2, frame lower wall 3, and perpendicular to the frame inwall 5 of frame upper wall and frame outer wall 6; Described frame mesospore 2, frame lower wall 3, frame inwall 5 and frame outer wall 6 form the inner die cavity of frame, and be provided with the waling 7 being parallel to frame inwall therein, the two ends of this waling 7 are connected with frame mesospore 2 and frame lower wall 3 respectively; Inner for frame die cavity is divided into two rectangular cavity by described waling 7, and be provided with two semicircle reinforcements 8 in the rectangular cavity corresponding with frame outer wall 6 symmetrically, the two ends of described semicircle reinforcement 8 are connected with waling 7 and frame outer wall 6 respectively; Described frame inwall 5 is provided with support edge 4 on the position higher than frame lower wall 3 horizontal plane, and this support edge 4 and the distance h1 of frame lower wall 3 are not less than the length of screw; Described frame upper wall 1 is not more than 30mm to the distance h2 of lower wall 3.

The crossbeam 14 of photovoltaic module as shown in Figure 2, comprises two the crossbeam cross walls 9 be parallel to each other, and perpendicular to two beam side walls 10 of crossbeam cross wall, above each several part forms the inner die cavity of crossbeam; Be provided with the contrary semicircle reinforcement 11 of both direction symmetrically in the inner die cavity of described crossbeam, the two ends of semicircle reinforcement 11 are connected with same crossbeam transverse arm 9 respectively; Be provided with the waling 12 parallel with beam side wall 10 between described two semicircle reinforcements 11, the two ends of waling 12 are connected with two semicircle reinforcements 11 respectively, and its extended line is by two centers of circle; The one side of one of them crossbeam cross wall 12 is provided with groove, and the degree of depth of this groove is greater than the thickness of nut.

As shown in Figure 3, photovoltaic module production process middle cross beam 14 is placed on the support edge 4 of frame 13 according to the position of regulation, carries out installation locking, be convenient to pile line operation by self-tapping screw 15 at module backside; After installation, crossbeam 14 and screw 15 can not exceed frame lower wall surface, and nut is embedded in the groove of crossbeam transverse arm 9, decrease the scuffing in assembly Production and Packaging installation process and interference.

Claims

1. a photovoltaic module, comprises laminate, is arranged on the frame of laminate periphery, and crossbeam, and described frame comprises approximately parallel frame upper wall, frame mesospore, frame lower wall and support edge, and perpendicular to the frame inwall of frame upper wall and frame outer wall; Described crossbeam comprises two the crossbeam cross walls be parallel to each other, and perpendicular to two beam side walls of crossbeam cross wall, it is characterized in that: described crossbeam is placed on support edge, is connected with frame by self-tapping screw.

2. photovoltaic module according to claim 1, is characterized in that: the horizontal plane at place, described support edge is higher than the horizontal plane at frame lower wall place, and the distance of support edge and frame lower wall is not less than the length of screw.

3. photovoltaic module according to claim 1, is characterized in that: the height of described frame is not more than 30mm.

4. photovoltaic module according to claim 1, it is characterized in that: be provided with the waling being parallel to frame inwall in the inner die cavity of the frame that described frame mesospore, frame lower wall, frame inwall and frame outer wall are formed, the two ends of this waling are connected with frame mesospore and frame lower wall respectively; Inner for frame die cavity is divided into two rectangular cavity by described waling, and be provided with two semicircle reinforcements in the rectangular cavity corresponding with frame outer wall symmetrically, the two ends of described semicircle reinforcement are connected with waling and frame outer wall respectively.

5. photovoltaic module according to claim 1, is characterized in that: the one side of described crossbeam cross wall is provided with groove, and the degree of depth of this groove is greater than the thickness of nut.

6. photovoltaic module according to claim 1, it is characterized in that: be provided with the contrary semicircle reinforcement of both direction symmetrically in the inner die cavity of crossbeam of described two crossbeam transverse arms and two beam side wall formations, between two semicircle reinforcements, be provided with the waling parallel with beam side wall; The two ends of described semicircle reinforcement are connected with same crossbeam transverse arm respectively; The two ends of described waling are connected with two semicircle reinforcements respectively, and its extended line is by two centers of circle.