CN206179881U - No frame photovoltaic module - Google Patents

Abstract

The utility model discloses a no frame photovoltaic module, be in including photovoltaic layer casting die and two at least even settings the supplementary supporting beam at the photovoltaic layer casting die back, supplementary supporting beam with it is fixed that the photovoltaic layer casting die passes through the tie coat, the axis with the long limit of photovoltaic layer casting die is parallel, supplementary supporting beam's both ends surpass the minor face of photovoltaic layer casting die is provided with the installation through -hole, and passes through installation through -hole and system's leg joint, supplementary supporting beam's longitudinal section is fonts nearly. No frame photovoltaic module, fixed with system's leg joint through evenly set up two piece at least supplementary supporting beam at the photovoltaic layer casting die back, supplementary supporting beam's longitudinal section is fonts nearly, can make frameless subassembly atress more even, effectively improves the feasibility and the stability of the installation of frameless subassembly, simple structure, simple to operate, low in manufacturing cost.

Description

A kind of Rimless photovoltaic module

Technical field

The utility model is related to photovoltaic module manufacturing technology field, more particularly to a kind of Rimless photovoltaic module.

Background technology

It is continuously increased with energy crisis, the continuous aggravation of environmental pollution and to energy demand, the development of new energy Constantly accelerating, proportion is also being continuously increased.And collect the share of the photovoltaic cell for occupying suitable proportion as new energy Also due to the continuous progress of science and technology, the rapid decrease of comprehensive electric generating cost, are being continuously increased.

Common in current photovoltaic cell is crystal silicon solar photovoltaic module, mainly there is two kinds：There is frame photovoltaic module With Rimless photovoltaic module.There is frame photovoltaic module structure to be followed successively by protecgulum glass sheet-upper strata encapsulating material-battery from top to bottom Piece-lower floor's encapsulating material-backboard, it is laminated as assembling aluminum alloy frame after laminate；Rimless component refers mainly to solar double-glass assemblies (also including the general components without frame), its structure is followed successively by protecgulum glass sheet-upper strata encapsulating material-battery from top to bottom Piece-lower floor's encapsulating material-bonnet glass sheet (or backboard).

Comparatively, frame photovoltaic module installs aluminum alloy frame additional due to needing, cost and technology difficulty all can be relative It is higher, and rimless photovoltaic module can save corresponding frame up equipment and excessive glue problem due to eliminating aluminum alloy frame, consequently also, Hardening time and cleaning difficulty are saved simultaneously, largely save the costs such as material, artificial, equipment and transport.

And it is different from the structure of the two, cause the difference of mounting means.It is different from framed photovoltaic module, at present, for nothing Frame component is provided with a variety of modes, mainly there is following three kinds：Rimless photovoltaic module is mainly installed using pressing block type, Ji Jiangwu Frame component is placed in the middle of aluminum briquetting, and then with fastened by screw, this kind of mounting means is not only cumbersome, and tight with screw Solid process in, once firmly it is excessive will result in glass rupture；Second is the rear beam module installed for Rimless component； The third is that fixed section bar is set on the backboard back side of component layer laminate, such as installs crossbeam in 90 ° of the U-shaped of turning clockwise Deng.

Utility model content

The purpose of this utility model there is provided a kind of Rimless photovoltaic module, and simple structure, technology difficulty are low, and component is received Power is uniform, and stability is high.

In order to solve the above technical problems, the utility model embodiment provides a kind of Rimless photovoltaic module, including photovoltaic Laminate and at least two Auxiliary support crossbeams for being uniformly arranged on the photovoltaic laminate back side, the Auxiliary support crossbeam with The photovoltaic laminate is fixed by tack coat, and axis is parallel with the side long of the photovoltaic laminate, the Auxiliary support crossbeam Two ends beyond the short side of the photovoltaic laminate, be provided with installation through-hole, and connect by the installation through-hole and system frame Connect, the longitudinal section of the Auxiliary support crossbeam is several fonts.

Wherein, the tack coat is layer of silica gel or double faced adhesive tape belt.

Wherein, at least two Auxiliary support crossbeams are evenly distributed on the photovoltaic laminate back side.

Wherein, the two ends of the Auxiliary support crossbeam are more than or equal to the spacing of the short side of the nearest photovoltaic laminate 50mm。

Wherein, the installation through-hole and the distance of nearest one end of the Auxiliary support crossbeam are 25mm~30mm.

Wherein, a few fonts include the left horizontal top, left arc side, horizontal bottom edge, the right side that are from left to right sequentially connected Arc side and right horizontal top.

Wherein, the left horizontal top, the width of the right horizontal top are 20mm~25mm.

Wherein, the width of the horizontal bottom edge is 22mm~25mm.

Wherein, the difference in height 18mm~22mm of the left horizontal top, the right horizontal top and the horizontal bottom edge.

Wherein, the thickness of the Auxiliary support crossbeam is 1.9mm~2.1mm.

Wherein, the installation through-hole and the spacing on the side long of the photovoltaic laminate are 226mm~266mm.

The Rimless photovoltaic module that the utility model embodiment is provided, compared with prior art, with advantages below：

The Rimless photovoltaic module that the utility model embodiment is provided, including photovoltaic laminate and at least two are uniformly arranged In the Auxiliary support crossbeam at the photovoltaic laminate back side, the Auxiliary support crossbeam passes through tack coat with the photovoltaic laminate Fixed, axis is parallel with the side long of the photovoltaic laminate, and the two ends of the Auxiliary support crossbeam exceed the photovoltaic laminate Short side, be provided with installation through-hole, and be connected with system frame by the installation through-hole, the vertical of the Auxiliary support crossbeam cuts Face is several fonts.

The Rimless photovoltaic module, by the photovoltaic laminate back side set at least two Auxiliary support crossbeams and be System support is connected, and the longitudinal section of Auxiliary support crossbeam is several fonts, enables to rimless component to be more uniformly stressed, and is had Effect improves the feasibility and stability of the installation of rimless component, and simple structure is easy for installation, low cost of manufacture.

Brief description of the drawings

In order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art, below will be to embodiment Or the accompanying drawing to be used needed for description of the prior art is briefly described, it should be apparent that, drawings in the following description are these Some embodiments of utility model, for those of ordinary skill in the art, on the premise of not paying creative work, also Other accompanying drawings can be obtained according to these accompanying drawings.

A kind of upward view knot of the specific embodiment of the Rimless photovoltaic module that Fig. 1 is provided for the utility model embodiment Structure schematic diagram；

A kind of front view knot of the specific embodiment of the Rimless photovoltaic module that Fig. 2 is provided for the utility model embodiment Structure schematic diagram.

Specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment for being obtained, belongs to the scope of the utility model protection.

Refer to Fig. 1~Fig. 2, a kind of specific reality of the Rimless photovoltaic module that Fig. 1 is provided for the utility model embodiment That applies mode looks up figure structure schematic representation；The one kind for the Rimless photovoltaic module that Fig. 2 is provided for the utility model embodiment is specific The front view structural representation of implementation method.

In a kind of specific embodiment, the Rimless photovoltaic module, including photovoltaic laminate 10 and at least two are The even Auxiliary support crossbeam 20 for being arranged on the back side of the photovoltaic laminate 10, the Auxiliary support crossbeam 20 is laminated with the photovoltaic Part 10 is fixed by tack coat 30, and axis is parallel with the side long of the photovoltaic laminate 10, and the two of the Auxiliary support crossbeam 20 End is provided with installation through-hole 21 beyond the short side of the photovoltaic laminate 10, and by the installation through-hole 21 and system frame Connection, the longitudinal section of the Auxiliary support crossbeam 20 is several fonts.

The Rimless photovoltaic module, at least two Auxiliary support crossbeams are uniformly arranged by the back side of photovoltaic laminate 10 20 are connected with system frame, and the longitudinal section of Auxiliary support crossbeam 20 is several fonts, enables to rimless component stress more Plus it is uniform, effectively improve the feasibility and stability of the installation of rimless component, the simple structure of Auxiliary support crossbeam 20, installation side Just, low cost of manufacture.

As long as it is pointed out that being typically uniformly arranged two Auxiliary support crossbeams 20 i.e. at the back side of photovoltaic laminate 10 Can, if it find that structural strength or bonding strength can not meet requirement, can suitably increase the quantity of Auxiliary support crossbeam 20, The utility model is not specifically limited to the quantity of the Auxiliary support crossbeam 20.

Auxiliary support crossbeam 20 is fixed with photovoltaic laminate 10 by tack coat 30, and tack coat 30 plays fixed and buffering Effect, tack coat 30 is generally double faced adhesive tape belt, or epoxide-resin glue etc., the utility model to the species of tack coat 30 and Thickness is not specifically limited.

And it is single in actual installation process, at least Auxiliary support crossbeam 20 is relatively to be difficult to ensure card component stress balance, one As at least two Auxiliary support crossbeams 20 be evenly distributed on the back side of the photovoltaic laminate 10.If the face that photovoltaic lamination adds When product is smaller, two Auxiliary support crossbeams 20 are generally used, if the area of photovoltaic laminate 10 is larger, and two auxiliary When helping the fixed effect of support beam 20 not reach fixing intensity requirement, it is possible to use more Auxiliary support crossbeams 20, uniformly It is arranged on the back side of photovoltaic laminate 10.

And set in the position of photovoltaic laminate 10 for Auxiliary support crossbeam 20, the utility model is not specifically limited, The two ends of the general Auxiliary support crossbeam 20 are more than or equal to 50mm with the spacing of the short side of the nearest photovoltaic laminate 10.

It is that Auxiliary support crossbeam 20 is set into axis is parallel with the short side of photovoltaic laminate 10 in the utility model, so Can there will be more contacts area with photovoltaic lamination, increase attachment structure intensity, reduce the installation difficulty of component, improve component Security and stability.

And the effect of installation through-hole 21 is that Auxiliary support crossbeam 20 is connected with system frame, using nut and installation through-hole T-shaped screw in 21 system frames for rushing across installation through-hole 21, the installation through-hole 21 is with the Auxiliary support crossbeam 20 most The distance of near one end is 25mm~30mm.

In the utility model, peace is typically just set on the part of photovoltaic laminate 10 in Auxiliary support crossbeam 20 Dress through hole 21 is connected with system frame.By force analysis, it is also possible to set at other positions of Auxiliary support crossbeam 20 and installed Through hole 21, as long as installation through-hole 21 is arranged on the position of best stress.For example at the middle part of Auxiliary support crossbeam 20 Double Punch.

And also must be not necessarily single hole in the installation through-hole 21 of the one end of Auxiliary support crossbeam 20 in the utility model, Needed or stress needs if installing, it is also possible to which diplopore or more through hole is set, and the utility model is not made specifically to this Limit.

In a kind of specific embodiment, several fonts include the left horizontal top, the left side that are from left to right sequentially connected Arc while, horizontal bottom edge, right arc while and right horizontal top.

In the utility model, Auxiliary support crossbeam 20 can also be other shapes for several fonts, such as in left level Side, horizontal bottom edge, right horizontal top, and left horizontal top, the straight flange or hypotenuse of horizontal bottom edge connection, and horizontal bottom edge, You Shui The straight flange or hypotenuse of flat top connection.And in the utility model, for the buffering increased and between photovoltaic laminate 10, use Arc-shaped side connects left horizontal top, horizontal bottom edge, right horizontal top.Curvature of the utility model to left arc in, right arc and Camber line trend is not specifically limited, and it is horizontal that the camber line trend corresponding curvature circle-center that can be left arc in, right arc points to Auxiliary support Beam 20, or away from Auxiliary support crossbeam 20.Generally point to Auxiliary support crossbeam 20, so bear pressure it is excessive when energy Reduce the probability for damaging.

The width of left horizontal top and right horizontal top is typically equal, the left horizontal top, the right horizontal top Width is 20mm~25mm.

The left horizontal top, the difference in height 18mm~22mm of the right horizontal top and the horizontal bottom edge.

In the utility model, Auxiliary support crossbeam 20 is laminated by its right horizontal top, left horizontal top and photovoltaic The connection of part 10.

The width of horizontal bottom edge is 22mm~25mm, and general value is 25mm.

To ensure that the Auxiliary support crossbeam 20 has enough mechanical strengths, the thickness of the Auxiliary support crossbeam 20 is general It is 1.9mm~2.1mm.

This makes it possible to the structural strength for ensureing whole Auxiliary support crossbeam 20, it is ensured that can have and enough bear energy Power.

In one embodiment, the installation through-hole 21 and the spacing on the side long of the photovoltaic laminate 10 are 226mm ~266mm.

It is pointed out that the photovoltaic group of the standard during dimensional parameters of above-mentioned Auxiliary support crossbeam 20 suitable for commonly using Part, the dimensional parameters of photovoltaic laminate 10 if necessary to install change, or center of gravity etc. changes, or peace Dress environment is special, and there is the wind of fixed wind direction the position that such as component is installed, can suitably adjust the position of Auxiliary support crossbeam 20 And size.

The utility model is not specifically limited to the material of Auxiliary support crossbeam 20.

In sum, the Rimless photovoltaic module that the utility model embodiment is provided, is carried on the back by being arranged on photovoltaic laminate Auxiliary support crossbeam and the system frame in face are connected, and the longitudinal section of Auxiliary support crossbeam is several fonts, enables to nothing Frame component is more uniformly stressed, and effectively improves the feasibility and stability of the installation of rimless component, and simple structure is easy for installation, Low cost of manufacture.

Rimless photovoltaic module provided by the utility model is described in detail above.It is used herein specifically Individual example is set forth to principle of the present utility model and implementation method, and the explanation of above example is only intended to help and understands this The method and its core concept of utility model.It should be pointed out that for those skilled in the art, not departing from On the premise of the utility model principle, some improvement and modification can also be carried out to the utility model, these improve and modify Fall into the utility model scope of the claims.

Claims (10)

1. a kind of Rimless photovoltaic module, it is characterised in that including photovoltaic laminate and at least two are uniformly arranged on the light The Auxiliary support crossbeam at the volt laminate back side, the Auxiliary support crossbeam is fixed with the photovoltaic laminate by tack coat, axle Line is parallel with the side long of the photovoltaic laminate, and the two ends of the Auxiliary support crossbeam exceed the short side of the photovoltaic laminate, Installation through-hole is provided with, and is connected with system frame by the installation through-hole, the longitudinal section of the Auxiliary support crossbeam is for Several fonts.

2. Rimless photovoltaic module as claimed in claim 1, it is characterised in that the tack coat is layer of silica gel or two-sided tape Layer.

3. Rimless photovoltaic module as claimed in claim 2, it is characterised in that the two ends of the Auxiliary support crossbeam with it is nearest The spacing of the short side of the photovoltaic laminate is more than or equal to 50mm.

4. Rimless photovoltaic module as claimed in claim 3, it is characterised in that the installation through-hole and the Auxiliary support crossbeam Nearest one end distance be 25mm~30mm.

5. Rimless photovoltaic module as claimed in claim 4, it is characterised in that several fonts include from left to right connecting successively The left horizontal top that connects, left arc while, horizontal bottom edge, right arc while and right horizontal top.

6. Rimless photovoltaic module as claimed in claim 5, it is characterised in that the left horizontal top and/or the right level The width of top is 20mm~25mm.

7. Rimless photovoltaic module as claimed in claim 6, it is characterised in that the width of the horizontal bottom edge be 22mm~ 25mm。

8. Rimless photovoltaic module as claimed in claim 7, it is characterised in that the left horizontal top, the right horizontal top With the difference in height 18mm~22mm of the horizontal bottom edge.

9. Rimless photovoltaic module as claimed in claim 8, it is characterised in that the thickness of the Auxiliary support crossbeam is 1.9mm ~2.1mm.

10. the Rimless photovoltaic module as described in claim 1-9 any one, it is characterised in that the installation through-hole with it is described The spacing on the side long of photovoltaic laminate is 226mm~266mm.