CN203839398U - Adhesive tape pasting device for photovoltaic assembly - Google Patents

Abstract

The utility model discloses an adhesive tape pasting device for a photovoltaic assembly. The adhesive tape pasting device comprises a fixation frame, a slide rail and a mechanical arm. The fixation frame is arranged at a predetermined height above the transmission line of the photovoltaic assembly; the slide rail is arranged at the lower side of the fixation frame; and the mechanical arm is hoisted on the slide rail and can slide along the slide rail. The tail end of the mechanical arm is provided with a clamping portion and a pressing block, wherein the clamping portion and the pressing block are in parallel arrangement in the swinging direction of the mechanical arm. In the production process of the photovoltaic assembly, after a laying machine lays cell strings tidy, the adhesive tape pasting device can be used to fix the cell strings. When the cell strings are being fixed, firstly, the mechanical arm is utilized to position, then, adhesive tapes are placed through the clamping portion, and after that, the pressing block carries out pressing. In this process, the pressing block presses each adhesive tape with the same strength, so that the subfissure of each cell piece due to uneven strength is not caused; and by utilizing the adhesive tape pasting device to fix the cell strings, not only the malposition and shifting of the cell strings can be prevented, but also the breaking rate of the photovoltaic assembly is reduced.

Description

A kind of adhesive tape sticking device for photovoltaic module

Technical field

The utility model relates to photovoltaic technology field, particularly relates to a kind of adhesive tape sticking device for photovoltaic module.

Background technology

Photovoltaic module is the core in solar power system, can convert solar energy into electrical energy, or be sent in storage battery and store, or promote loaded work piece.

Photovoltaic module utilizes glass plate, backboard and EVA packaged battery sheet, first with convergent belt, cell piece is connected into battery strings, battery strings is laid between backboard and glass plate, between battery strings and backboard, place respectively EVA between battery strings and glass plate.After each layer lays, put into laminating machine, first vacuumize air in assembly is extracted out, then heating makes EVA fusing so that battery strings, glass plate and backboard are bonded together, and can take out photovoltaic module after cooling.

EVA has good pliability, impact resistance, packaged battery sheet, the useful life that can improve photovoltaic module.While laying successively by toughened glass, EVA, battery strings, EVA, backboard stacked piling up in order.Battery strings in photovoltaic module need to meet must structural configuration and designing requirement, in laid processes, prevent battery strings dislocation skew.

At present, the step of laying in production is that the first step, manually lays glass plate; Second step, manually lays EVA; The 3rd step, laying machine is placed in battery strings on EVA automatically; The 4th step, artificial pasted with high temperature-resistant adhesive tape, self-contained battery string; The 5th step, lays second layer EVA; The 6th step, manually lays backboard.

For cell piece pasted with high temperature-resistant adhesive tape, can self-contained battery string, avoid battery strings dislocation skew, still, adhesive tape is hand paste, dynamics is uncontrollable, dynamics during stickup is inhomogeneous easily causes that cell piece is hidden to be split, and produces the not visible invisible crack of naked eyes, will affect the performance of cell piece, cell piece can not normally be used, become defective item.

Therefore, how avoiding in laid processes, due to hidden the splitting of the inhomogeneous cell piece causing of dynamics of artificial Continuous pressing device for stereo-pattern, is that those skilled in the art are badly in need of the technical problem solving.

Utility model content

The purpose of this utility model is to provide a kind of adhesive tape sticking device for photovoltaic module, and the dynamics of this adhesive tape sticking device Continuous pressing device for stereo-pattern is even, can not cause that cell piece is hidden to split, and reduces fragment rate, improves rate of finished products.

In order to realize above-mentioned technical purpose, the utility model provides a kind of adhesive tape sticking device for photovoltaic module, comprises fixed mount, slide rail and mechanical arm; Described fixed mount is located at the predetermined height of the transmission line top of photovoltaic module, and described slide rail is located at the downside of described fixed mount, and described mechanical arm is lifted on described slide rail and can slides along described slide rail; The end of described mechanical arm is provided with clamping part and briquetting, and described clamping part and described briquetting are set up in parallel on the swaying direction of described mechanical arm.

Preferably, described mechanical arm comprises slip joint arm and swing joint arm, and the upper end of described slip joint arm coordinates with described slide rail, the hinged described swing joint arm in lower end, and described clamping part and described briquetting are located at the end of described swing joint arm.

Preferably, when described mechanical arm swings to linear state, described clamping part does not contact described photovoltaic module, and described briquetting can contact described photovoltaic module.

Preferably, described briquetting is block rubber.

Preferably, also comprise cutting machine for adhesive tape, can automatically cut adhesive tape, described cutting machine for adhesive tape is lifted on described fixed mount downside, and is positioned at the end of described slide rail.

Preferably, also comprise controller, described controller can be controlled the gripping action of described clamping part, can also control described mechanical arm and slides and swing.

Preferably, many crisscross settings of described slide rail, described mechanical arm can vertically move or transverse shifting along described slide rail.

Preferably, many described slide rails are set up in parallel, and on every described slide rail, are equipped with described mechanical arm, and the end of every described slide rail is equipped with described cutting machine for adhesive tape.

The adhesive tape sticking device for photovoltaic module that the utility model provides, comprises fixed mount, slide rail and mechanical arm; Fixed mount is located at the predetermined height of the transmission line top of photovoltaic module, and slide rail is located at the downside of fixed mount, and mechanical arm is lifted on slide rail and can slides along slide rail; The end of mechanical arm is provided with clamping part and briquetting, and clamping part and briquetting are set up in parallel on the swaying direction of mechanical arm.

In the production process of photovoltaic module, laying machine can be used the adhesive tape sticking device in the application to fix battery strings after battery strings is put neatly.Rear side at laying machine arranges adhesive tape sticking device, and assembly moves on transmission line, while being positioned at laying machine downside, lays battery strings, then along transmission line, moves to the downside of adhesive tape sticking device.

Mechanical arm along slide rail slide into battery strings treat fixed position directly over, first make mechanical arm to a side oscillation at briquetting place, clamping part captures a joint adhesive tape; Then, swing mechanical arm and be in line, the height of fixed mount makes clamping part can not touch battery strings, and still, adhesive tape can touch battery strings, and briquetting also can touch battery strings, now unclamps adhesive tape, and adhesive tape is placed to the fixed position for the treatment of of battery strings; Make afterwards mechanical arm swing to opposite side, briquetting can slip over and press adhesive tape at adhesive tape upside.

During self-contained battery string, each adhesive tape can be pasted by the way, first by mechanical arm, is located, then by clamping part, place adhesive tape, by briquetting, pressed afterwards, in this process, the dynamics that briquetting is pressed each adhesive tape is identical, can not cause because dynamics is inhomogeneous that cell piece is hidden to split.Use this adhesive tape sticking device self-contained battery string, both avoided the dislocation skew of battery strings, reduced again the fragment rate of photovoltaic module.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of embodiment of adhesive tape sticking device for photovoltaic module provided by the utility model;

Fig. 2 is the local enlarged diagram of A portion in Fig. 1.

Wherein, in Fig. 1 and Fig. 2, the corresponding relation between Reference numeral and component names is as follows:

Fixed mount 1; Slide rail 2; Mechanical arm 3; Clamping part 31; Briquetting 32; Cutting machine for adhesive tape 4; Photovoltaic module 5; Transmission line 6; Adhesive tape 7; Controller 8.

Embodiment

Core of the present utility model is to provide a kind of adhesive tape sticking device for photovoltaic module, and the dynamics of this adhesive tape sticking device Continuous pressing device for stereo-pattern is even, can not cause that cell piece is hidden to split, and reduces fragment rate, improves rate of finished products.

In order to make those skilled in the art person understand better the utility model scheme, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Please refer to Fig. 1 and Fig. 2, Fig. 1 is the structural representation of a kind of embodiment of adhesive tape sticking device for photovoltaic module provided by the utility model, and Fig. 2 is the local enlarged diagram of A portion in Fig. 1.

In a kind of concrete execution mode, the utility model provides a kind of adhesive tape sticking device for photovoltaic module, comprises fixed mount 1, slide rail 2 and mechanical arm 3; Fixed mount 1 is located at the predetermined height of transmission line 6 tops of photovoltaic module 5, and slide rail 2 is located at the downside of fixed mount 1, and mechanical arm 3 is lifted on slide rail 2 and can slides along slide rail 2; The end of mechanical arm 3 is provided with clamping part 31 and briquetting 32, and clamping part 31 and briquetting 32 are set up in parallel on the swaying direction of mechanical arm 3.

In the production process of photovoltaic module 5, at the rear side of laying machine, adhesive tape sticking device is set, laying machine by battery strings put neat after, can use this adhesive tape sticking device to fix battery strings.Assembly moves on transmission line, while being positioned at laying machine below, lays battery strings, then along transmission line, moves to the below of adhesive tape sticking device.

Mechanical arm 3 along slide rail 2 slide into battery strings treat fixed position directly over, first make mechanical arm 3 to a side oscillation at briquetting 32 places, clamping part 31 captures joint adhesive tapes 7; Then, swing mechanical arm 3 and be in line, the height of fixed mount 1 makes clamping part 31 can not touch battery strings, but adhesive tape 7 can touch battery strings, briquetting 32 also can touch battery strings, now unclamp adhesive tape 7, adhesive tape 7 is placed to the fixed position for the treatment of of battery strings; Make afterwards mechanical arm 3 swing to opposite side, briquetting 32 can slip over and press adhesive tape 7 at adhesive tape 7 upsides.

During self-contained battery string, each adhesive tape 7 can be pasted by the way, first by mechanical arm 3, is located, then by clamping part 31, place adhesive tape, by briquetting 32, pressed afterwards, in this process, the dynamics that briquetting 32 is pressed each adhesive tape is identical, can not cause because dynamics is inhomogeneous that cell piece is hidden to split.Use this adhesive tape sticking device self-contained battery string, both avoided the dislocation skew of battery strings, reduced again the fragment rate of photovoltaic module.

Concrete, mechanical arm 3 comprises slip joint arm and swing joint arm, the upper end of slip joint arm coordinates with slide rail 2, and lower end hinged swing joint arm, clamping part 31 and briquetting 32 are located at the end that swings joint arm.

Slip joint arm coordinates with slide rail 2, can on slide rail 2, slide, the position of positioning mechanical arm 3, during Continuous pressing device for stereo-pattern, make mechanical arm 3 be positioned at battery strings treat fixed position directly over, mechanical arm 3 is positioned.

Swinging joint arm can be single-unit arm, can be also single oil cylinder, and during for single oil cylinder, it is hinged successively that each saves arm, and clamping part 31 and briquetting 32 are set up in parallel on the swaying direction that swings joint arm.In accompanying drawing 1, swing joint arm and comprise two joint joint arms.

A kind of preferred embodiment in, when mechanical arm 3 swings to linear state, clamping part 31 does not contact photovoltaic module 5, briquetting 32 can contact photovoltaic module 5.

Fixed mount 1 is arranged on the predetermined height of transmission line 6 tops, this predetermined altitude is when mechanical arm 3 swings to linear state, make clamping part 31 be positioned at the top of photovoltaic module 5, very near with the distance of photovoltaic module 5, but can not touch photovoltaic module 5, the adhesive tape 7 of clamping part 31 clampings just can contact photovoltaic module 5, adhesive tape 7 can be placed on and treat on fixed position; Meanwhile, this predetermined altitude makes briquetting 32 just can contact photovoltaic module 5, when briquetting 32 slips on adhesive tape 7, can make adhesive tape 7 firm pastings, can not apply excessive power to battery strings again, and can when pressing, apply identical power at every turn.

Concrete, briquetting 32 is block rubber.Block rubber has enough toughness and elasticity, is that elasticity is pressed while pressing adhesive tape 7, while pressing adhesive tape 7, can not damage battery strings.

In the respective embodiments described above, adhesive tape sticking device also comprises cutting machine for adhesive tape 4, can automatically cut adhesive tape 7, and cutting machine for adhesive tape 4 is lifted on fixed mount 1 downside, and is positioned at the end of slide rail 2.

Cutting machine for adhesive tape 4 is preferably positioned at the end of briquetting 32 place one wood side-guides 2, mechanical arm 3 moves to the position near slide rail 2 ends along slide rail 2, then to the curving at briquetting 32 places, clamping part 31 can capture the adhesive tape 7 that cutting machine for adhesive tape 4 cuts, and then move to and treat fixed position, Continuous pressing device for stereo-pattern.

A kind of preferred embodiment in, that can realize mechanical arm 3 by automatic control gets adhesive tape 7, location, Continuous pressing device for stereo-pattern 7, realizes the automatic adhesion of adhesive tape 7, accelerates stickup speed, speed production operation.

Concrete, adhesive tape sticking device also comprises controller 8, controller 8 can be controlled the gripping action of clamping part 31, can also control mechanical arm 3 and slides and swing.

Mechanical arm 3 is got after adhesive tape 7, according to the fixed position for the treatment of on photovoltaic module 5, by the position of controller 8 positioning mechanical arms 8, then swings and is in line, and places adhesive tape 7, continues to swing briquetting 32 and presses adhesive tape 7, has completed once and has pasted.Then continue to get adhesive tape 7, to next position Continuous pressing device for stereo-pattern 7, the process of whole Continuous pressing device for stereo-pattern 7 can realize automation.

Further in execution mode, this adhesive tape sticking device can many crisscross settings of slide rail 2, and mechanical arm 3 can vertically move or transverse shifting along slide rail 2.

Slide rail 2 can be according to the model layout of photovoltaic module 5, and preferably, the structure of slide rail 2 can be photovoltaic module 5 Continuous pressing device for stereo-pattern of various models, for example, can be the arranged in form of six row 12 row.Mechanical arm 3 along crisscross slide rail 2 vertically move, transverse shifting, each that can arrive photovoltaic module 5 treated fixed position.

In another kind of further execution mode, this adhesive tape sticking device can be set up in parallel by many slide rails 2, on every slide rail 2, is equipped with mechanical arm 3, and the end of every slide rail 2 is equipped with cutting machine for adhesive tape 4.

A plurality of mechanical arms 3 are Continuous pressing device for stereo-pattern 7 simultaneously, and each mechanical arm 3 is responsible for pasting a line, can further accelerate stickup speed, and each mechanical arm 3 can be controlled by same controller 8, also can controller 8 be set respectively for each mechanical arm 3.

Above the adhesive tape sticking device for photovoltaic module provided by the utility model is described in detail.Applied specific case herein principle of the present utility model and execution mode are set forth, the explanation of above embodiment is just for helping to understand method of the present utility model and core concept thereof.Should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model principle, can also carry out some improvement and modification to the utility model, these improvement and modification also fall in the protection range of the utility model claim.

Claims (8)

1. for an adhesive tape sticking device for photovoltaic module, it is characterized in that, comprise fixed mount (1), slide rail (2) and mechanical arm (3); Described fixed mount (1) is located at the predetermined height of transmission line (6) top of photovoltaic module (5), described slide rail (2) is located at the downside of described fixed mount (1), and described mechanical arm (3) is lifted on described slide rail (2) above and can slides along described slide rail (2); The end of described mechanical arm (3) is provided with clamping part (31) and briquetting (32), and described clamping part (31) and described briquetting (32) are set up in parallel on the swaying direction of described mechanical arm (3).

2. the adhesive tape sticking device for photovoltaic module as claimed in claim 1, it is characterized in that, described mechanical arm (3) comprises slip joint arm and swings joint arm, the upper end of described slip joint arm coordinates with described slide rail (2), the hinged described swing joint arm in lower end, described clamping part (31) and described briquetting (32) are located at the end of described swing joint arm.

3. the adhesive tape sticking device for photovoltaic module as claimed in claim 2, it is characterized in that, when described mechanical arm (3) swings to linear state, described clamping part (31) does not contact described photovoltaic module (5), and described briquetting (32) can contact described photovoltaic module (5).

4. the adhesive tape sticking device for photovoltaic module as claimed in claim 3, is characterized in that, described briquetting (32) is block rubber.

5. the adhesive tape sticking device for photovoltaic module as described in claim 1 to 4 any one, it is characterized in that, also comprise cutting machine for adhesive tape (4), can automatically cut adhesive tape (7), described cutting machine for adhesive tape (4) is lifted on described fixed mount (1) downside, and is positioned at the end of described slide rail (2).

6. the adhesive tape sticking device for photovoltaic module as claimed in claim 5, it is characterized in that, also comprise controller (8), described controller (8) can be controlled the gripping action of described clamping part (31), can also control described mechanical arm (3) and slides and swing.

7. the adhesive tape sticking device for photovoltaic module as claimed in claim 6, is characterized in that, the crisscross setting of many described slide rails (2), and described mechanical arm (3) can vertically move or transverse shifting along described slide rail (2).

8. the adhesive tape sticking device for photovoltaic module as claimed in claim 6, it is characterized in that, many described slide rails (2) are set up in parallel, on every described slide rail (2), be equipped with described mechanical arm (3), the end of every described slide rail (2) is equipped with described cutting machine for adhesive tape (4).