CN203381306U - Laminating tool for double-glass solar battery modules - Google Patents

Abstract

The utility model discloses a laminating tool for double-glass solar battery modules. The laminating tool comprises two longitudinal pad bars and two transversal pad bars, wherein two ends of each transversal pad bar are respectively connected with the longitudinal pad bars in a buckled mode, and grooves are formed in the two longitudinal pad bars and/or the transversal pad bars. Thus, as the grooves are formed in the longitudinal pad bars and/or the transversal pad bars, the qualified rate of lamination is increased, and the laminating tool can be arranged around solar battery modules with different sizes. Meanwhile, the longitudinal pad bars and the transversal pad bars adopt bakelites, and the height of the bakelites is the same with those of the solar battery modules, so that the qualified rate of lamination is increased.

Description

The lamination frock of a kind of pair of glass solar module

Technical field

The utility model relates to field of solar energy, relates in particular to the lamination frock of a kind of pair of glass solar module.

Background technology

Along with conventional energy resource consume excessively and people more and more higher to the requirement of living environment, the exploitation solar energy become countries in the world be devoted to research problem.

Preparation technology's flow process of existing solar module is: sorting, single weldering, series welding, lamination and general assembly.Wherein the process of lamination will directly affect the final mass of product.Due in the process of lamination, assembly is subject to the pressure of laminating machine, and concentrates at edge's formation stress of assembly, and the problem of discontinuity easily occurs.Therefore, when assembly is placed in laminating machine and carries out lamination, the assembly edge is as figure below, and the stress direction of edge is multidirectional, and side force will cause edge glass and deform, thereby affect the quality of laminating technology.

Documents CN201010616342.8, disclose a kind of laminating method for solar module.Comprise the steps: that (1) lay and be not stained with cloth at the warm table of laminating machine; (2) stacked good semi-products solar module is placed on to not being stained with on cloth of described warm table; (3) surrounding at described semi-products solar module encloses 4 filler strips, and the distance that each filler strip leaves semi-products solar module edge is 10-20mm; (4) then described semi-products solar module and above filler strip laying be not stained with cloth; (5) finally in the laminating machine chamber, vacuumized, heated, pressurizeing is integral, and obtains solar module.By being set, shares filler strip the pressure at solar module edge.

Yet, this way relatively is applicable to BIPV(Building Integrated PV BIPV), BIPV(Building Integrated PV BIPV) thickness of monolithic glass is generally 4mm, 6mm, 8mm, 10mm, warpage deformation is not obvious, insensitive for the spacing of surrounding edge and laminate.If, but what adopt is standardization glass, its thickness is generally 2mm, 2.5mm, 3.0mm, 3.2mm, need to control the distance of periphery and assembly at 5mm, and error is in 2mm, and encapsulating material wherein is more responsive for vacuumizing step.

Therefore, need badly a kind ofly in lamination process, can solve the lamination tool component of the edge pressure-bearing problem of normal glass assembly.

The utility model content

The purpose of this utility model is to propose the lamination frock of a kind of pair of glass solar module, comprise two vertical filler strips and at least one horizontal filler strip, the two ends of described horizontal filler strip are slidably connected with two described vertical filler strips respectively, and two described vertical filler strips and/or described horizontal filler strip are provided with groove.So, by vertically on filler strip and/or horizontal filler strip, offering groove, improved the qualification rate of lamination, and can enclose the solar module of different size.

The purpose of this utility model is also to propose the lamination frock of a kind of pair of glass solar module, vertical filler strip is set to bakelite with horizontal filler strip and height is identical with solar module, make the solar module edge stressed evenly, improved the qualification rate of lamination.

For reaching this purpose, the utility model by the following technical solutions:

The lamination frock 10 of two glass solar modules, comprise two vertical filler strips and two horizontal filler strips, the two ends of described horizontal filler strip respectively with two described vertical filler strip engagement connections, two described vertical filler strips and/or described horizontal filler strip are provided with groove.

Preferably, described vertical filler strip comprises first vertical filler strip 210 and second vertical filler strip 220, described horizontal filler strip comprises the first horizontal filler strip 110 and the second horizontal filler strip 120, described first vertical filler strip 210 and described second vertical filler strip 220 are equipped with groove, the two ends of the described first horizontal filler strip 110 respectively with first vertical 210 and second vertical 220 engagement connections, and the two ends of the described second horizontal filler strip 120 respectively with first vertical filler strip 210 and second vertical filler strip 220 engagement connections to form framework, be around in the surrounding of solar module.

Preferably, described first vertical filler strip 210 and described second vertical filler strip 220 also are provided with protuberance, and the two ends of the described first horizontal filler strip 110 and the described second horizontal filler strip 120 are provided with groove and/or protuberance.

Preferably, the height of described first vertical filler strip 210, described second vertical filler strip 220, the described first horizontal filler strip 110 and the described second horizontal filler strip 120 equals the height of lamination described solar module before.

Preferably, the upper surface of first vertical filler strip 210 and second vertical filler strip 220 is horizontal top surface and has the inclined-plane that is tilted to downward-extension from horizontal top surface, and described groove is arranged on described first vertical filler strip 210 and described second vertical filler strip 220 side away from inclined-plane.

Preferably, the two ends of described first vertical filler strip 210 and described second vertical filler strip 220 are equipped with connecting portion, in order to extend the length of vertical filler strip.

Preferably, described first vertical filler strip 210 also is provided with adjustment part and the adjustment plate 240 be connected with described adjustment part with described second vertical filler strip 220, and the height of first vertical filler strip 210 and second vertical filler strip 220 can be stretched to change in described adjustment part.

Preferably, described adjustment part in the vertical direction is arranged at intervals with draw-in groove 231, in order to adjust the height of described first vertical filler strip 210 and described second vertical filler strip 220.

The lamination frock of two glass solar modules that the utility model provides, by vertically on filler strip and/or horizontal filler strip, offering groove, be conducive to the carrying out vacuumized, improved the qualification rate of lamination, and can be around in the solar module surrounding of different size; Vertical filler strip is set to bakelite and highly identical with solar module with horizontal filler strip simultaneously, makes the solar module edge stressed evenly, further promotes the qualification rate of lamination.

The accompanying drawing explanation

Fig. 1 is the plan structure schematic diagram of the lamination frock of two glass solar modules of providing of the utility model specific embodiment one;

Fig. 2 be two glass solar modules of providing of the utility model specific embodiment one the lamination frock face structural representation;

Fig. 3 is the second horizontal filler strip structure schematic diagram that the utility model specific embodiment one provides;

Fig. 4 is vertical filler strip structure schematic diagram that the utility model specific embodiment three provides.

Wherein, in figure 10, the lamination frock of two glass solar modules; 20, treat the solar module of lamination; 30, be not stained with cloth; 110, the first horizontal filler strip; 111, the first protuberance; 120, the second horizontal filler strip; 121, the second protuberance; 210, first vertical filler strip; 211, the first groove; 220, second vertical filler strip; 221, the second groove; 230, adjustment block; 231, draw-in groove; 240, adjust plate.

The specific embodiment

Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Further illustrate the technical solution of the utility model below in conjunction with accompanying drawing and by the specific embodiment.

Embodiment one

As Fig. 1 to Fig. 3, wherein Fig. 1 is the plan structure schematic diagram of the lamination frock of two glass solar modules of providing of the utility model specific embodiment one; Fig. 2 be two glass solar modules of providing of the utility model specific embodiment one the lamination frock face structural representation; Fig. 3 is the second horizontal filler strip structure schematic diagram that the utility model specific embodiment one provides.The lamination frock 10 of a kind of pair of glass solar module of the utility model better embodiment one, comprise two vertical filler strips and two horizontal filler strips, laterally the two ends of filler strip respectively with two vertical filler strip engagement connections, two vertical filler strips and/or laterally filler strip be provided with groove.

Be understandable that, two vertical filler strips comprise first vertical filler strip 210 and second vertical filler strip 220, laterally filler strip comprises that the first horizontal filler strip 110 and the vertical filler strip 210 of the second horizontal filler strip 120, the first are provided with the vertical filler strip 220 of the first groove 211, the second and are provided with the second groove 221.The two ends of the first horizontal filler strip 110 respectively with the two ends of first vertical filler strip 210 and second vertical filler strip 220 engagement connections and the second horizontal filler strip 120 respectively with first vertical filler strip 210 and second vertical filler strip 220 engagement connections to form framework, be around in the surrounding of solar module, and the direction that the first horizontal filler strip 110 and the second horizontal filler strip 120 extend at the second groove 221 of the first groove 211 of first vertical filler strip 210 and second vertical filler strip 220 moves.In addition, can, according to the needs of practical application, also can on first vertical filler strip 210 and second vertical filler strip 220, protuberance be set, and groove be set in order to engage with vertical filler strip at the first horizontal filler strip 110 and the second horizontal filler strip 120.

Wherein, vertical filler strip the 220, the first horizontal filler strip 110 of first vertical filler strip 210, second and the second horizontal filler strip 120 are the bakelite material, mutually enclose into a framework, and are placed on and are not stained with on cloth 30.Solar module before lamination is contained in framework and is not stained with in the space of cloth 30 formations, and the height of solar module equates with the height of framework, the height of vertical filler strip the 220, the first horizontal filler strip 110 of first vertical filler strip 210, second and the second horizontal filler strip 120 equates with the height of the solar module 20 for the treatment of lamination.

See Fig. 2, second vertical filler strip 220 is arranged on around the solar module 20 for the treatment of lamination again, and it is spaced apart 5mm, and error is in 2mm.Treat that in second vertical filler strip 220 correspondences a side of the solar module 20 of lamination is provided with the second groove 221, be equipped with one deck at second vertical filler strip 220 with the upper surface for the treatment of the solar module 20 of lamination and be not stained with cloth 30.When laminating machine is vacuumized, due to the existence of the second groove 221, make vacuum be more prone to; The upper surface of first vertical filler strip 210 and second vertical filler strip 220 is horizontal top surface and has the inclined-plane that is tilted to downward-extension from horizontal top surface, and the second groove 221 is arranged on first vertical filler strip 210 and second vertical filler strip 220 side away from inclined-plane.In addition when laminating machine is exerted pressure, due to the second vertical filler strip 220 with treat that the solar module 20 of lamination is highly equal, make both seamlessly transit at adjoiner, the second vertical filler strip 220 that is positioned at solar module 20 1 sides for the treatment of lamination has absorbed horizontal pressure, make solar module 20 edges for the treatment of lamination stressed evenly.In addition, first vertical filler strip 210 and second vertical filler strip 220 are provided with a horizontal top surface and are tilted to the inclined-plane of downward-extension from horizontal top surface, horizontal top surface and solar module flush, not being stained with cloth 30 is attached on horizontal top surface and inclined-plane, in lamination process, the setting on inclined-plane can make first vertical filler strip 210 and second vertical filler strip 220 bear component in the horizontal direction, make to treat that the solar module 20 of lamination is more firm in lamination process with first vertical filler strip 210 and second vertical filler strip 220 of surrounding, can not produce the phenomenon of outside skew, simultaneously, also can better protect the edge of first vertical filler strip 210 and second vertical filler strip 220 not to be subject to crushing.

The lamination frock 10 of two glass solar modules that the utility model provides, by on first vertical filler strip 210 and second vertical filler strip 220, offering the first groove 211 and the second groove 221, make the process of " lamination " be more prone to, improved the qualification rate of lamination; The two ends of the first horizontal filler strip 110 and the second horizontal filler strip 120 can engage with first vertical filler strip 210 and second vertical filler strip 220 simultaneously, and can move in the direction of the first groove 211 and the second groove 221 extensions; In addition first vertical filler strip 210, second horizontal filler strip 110 of vertical filler strip 220 first and the second horizontal filler strip 120 are set to bakelite material and highly identical with the solar module 20 for the treatment of lamination, make solar module 20 edges for the treatment of lamination stressed evenly, further improved the qualification rate of lamination process.

Embodiment two

In this embodiment, on the basis of embodiment one, at an end of first vertical filler strip 210 and second vertical filler strip 220, depressed part is set, the other end arranges projection.So, can be by a plurality of first vertical filler strip 210 is end to end, and a plurality of second vertical filler strip 220 is end to end, increase the moving range of the first horizontal filler strip 110 and the second horizontal filler strip 120, enlarged the frame area that vertical filler strip the 220, the first horizontal filler strip 110 of first vertical filler strip 210, second and the second horizontal filler strip 120 surround mutually.Making once can a plurality of solar module of while lamination.

Be understandable that, the two ends of first vertical filler strip 210 and second vertical filler strip 220 can arrange other connecting portions, on the direction that the first groove 211 that can be thereon with the length that realizes first vertical filler strip 210 and second vertical filler strip 220 and the second groove 221 extend, increase.

So, can further expand the frame area that vertical filler strip the 220, the first horizontal filler strip 110 of first vertical filler strip 210, second encloses mutually with the second horizontal filler strip 120, improve the efficiency of lamination.

Embodiment tri-

In this embodiment, on embodiment one or two basis, be provided with adjustment block 230 in first vertical filler strip 210 and second vertical filler strip 220, this adjustment block 230 can be passed through to regulate and the height of segmentation change first vertical filler strip 210 and second vertical filler strip 220.As shown in Figure 4, Fig. 4 is vertical filler strip structure schematic diagram that the utility model specific embodiment three provides.A side in adjustment block 230 is provided with five draw-in grooves 231, adjusts plate 240 and can snap in or exit draw-in groove 231 by horizontal movement.So by adjusting plate 240, snap in the height that different draw-in groove 231 changes first vertical filler strip 210 and second vertical filler strip 220.Be understandable that, draw-in groove 231 and adjustment plate 240 adopt rigid plastics, in order to increase the ability of lamination.

Because the thickness of levels glass can be for multiple.For example, levels is respectively " 2.0,2.0 ", " 2.0,2.5 ", " 2.5,2.5 ", " 2.5,3.2 " and " 3.2,2.5 " (mm) etc.Draw-in groove 231 is set to three, and the distance at interval is respectively " 0.5,0.5,0.7 " (mm).

Be understandable that, adjustment block 230 also can be set to conveyor screw, by rotating handles, changes the length that conveyor screw stretches out.For example, often revolve the handle that turns around, conveyor screw stretches out or retraction 0.1mm, and then changes the height of vertical filler strip.

So, by control, be arranged on the adjustment block 230 in first vertical filler strip 210 and the second vertical filler strip 220, and change the height of first vertical filler strip 210 and second vertical filler strip 220, so the adaptation differing heights treat the lamination solar module.Expanded the range of application of the lamination frock 10 of two glass solar modules.The first horizontal filler strip 110 and the second horizontal filler strip 120 can adopt similar structures to realize the adjustment of height, do not repeat them here.

The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in scope of patent protection of the present utility model.

Claims (8)

1. the lamination frock (10) of two glass solar modules, it is characterized in that: comprise two vertical filler strips and two horizontal filler strips, the two ends of described horizontal filler strip respectively with two described vertical filler strip engagement connections, two described vertical filler strips and/or described horizontal filler strip are provided with groove.

2. the lamination frock (10) of as claimed in claim 1 pair of glass solar module, it is characterized in that: described vertical filler strip comprises first vertical filler strip (210) and second vertical filler strip (220), described horizontal filler strip comprises the first horizontal filler strip (110) and the second horizontal filler strip (120), described first vertical filler strip (210) and described second vertical filler strip (220) are equipped with groove, the two ends of the described first horizontal filler strip (110) respectively with first vertical filler strip (210) and second vertical filler strip (220) engagement connection, and the two ends of the described second horizontal filler strip (120) respectively with first vertical filler strip (210) and second vertical filler strip (220) engagement connection to form framework, be around in the surrounding of solar module.

3. the lamination frock (10) of as claimed in claim 2 pair of glass solar module, it is characterized in that: described first vertical filler strip (210) and described second vertical filler strip (220) also are provided with protuberance, and the two ends of the described first horizontal filler strip (110) and the described second horizontal filler strip (120) are provided with groove and/or protuberance.

4. the lamination frock (10) of as claimed in claim 3 pair of glass solar module is characterized in that: the height of described first vertical filler strip (210), described second vertical filler strip (220), the described first horizontal filler strip (110) and the described second horizontal filler strip (120) equals the height of the described solar module before lamination.

5. the lamination frock (10) of as claimed in claim 4 pair of glass solar module, it is characterized in that: the upper surface of first vertical filler strip (210) and second vertical filler strip (220) is horizontal top surface and has the inclined-plane that is tilted to downward-extension from horizontal top surface, and described groove is arranged on described first vertical filler strip (210) and described second vertical filler strip (220) side away from inclined-plane.

6. the lamination frock (10) of as claimed in claim 5 pair of glass solar module, it is characterized in that: the two ends of described first vertical filler strip (210) and described second vertical filler strip (220) are equipped with connecting portion, in order to extend the length of vertical filler strip.

7. the lamination frock (10) of as claimed in claim 6 pair of glass solar module, it is characterized in that: described first vertical filler strip (210) also is provided with adjustment part and the adjustment plate (240) be connected with described adjustment part with described second vertical filler strip (220), and the height of first vertical filler strip (210) and second vertical filler strip (220) can be stretched to change in described adjustment part.

8. the lamination frock (10) of as claimed in claim 7 pair of glass solar module, it is characterized in that: described adjustment part in the vertical direction is arranged at intervals with draw-in groove (231), in order to adjust the height of described first vertical filler strip (210) and described second vertical filler strip (220).

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