CN207876612U - Photovoltaic solar cell component quickly transmits material path and frame loader - Google Patents

Abstract

Photovoltaic solar cell component quickly transmits material path and frame loader belongs to the transmission technique field of automated production equipment, and in particular to a kind of photovoltaic solar cell component quickly transmits material path and solar cell module frame loader.The utility model provides compact-sized, a saving equipment occupation space, high degree of automation, and function action is coordinated, is reliable, and module encapsulation techniques beat can reach the quick transmission material path and solar cell module frame loader of 20 seconds/part.The quick transmission material path of the utility model, includes the material path holder being connected with elevating mechanism, synchronous belt conveying mechanism is provided on material path holder, it is characterised in that：It is provided on the band body of synchronous belt conveying mechanism and the matched clamp assemblies of solar cell module outer profile.

Description

Photovoltaic solar cell component quickly transmits material path and frame loader

Technical field

The utility model belongs to the transmission technique field of automated production equipment, and in particular to a kind of photovoltaic solar cell Component quickly transmits material path and solar cell module frame loader.

Background technology

Currently, solar cell module encapsulates automatic production line, has been widely used to encapsulate in solar cell module and make Make industry.It realizes high-efficient automatic, accelerates productive temp, shorten manufacturing time, improve production efficiency, it has also become in industry strongly The target of pursuit.

Packaging technology after lamination of solar battery components is most important link in production line.It is also to determine production line The key factor of beat.The productive temp of conventional frame loader is mostly in 30 seconds/part or so.When preceding working procedure is by solar battery group Part（Solar panel）, after being transported to the position that frames up of frame loader, its technique that frames up is completed in a series of actions that frame up through frame loader. Later, transmission material path rises, and component is transferred out frame loader.The biography of the transmission mechanism and frame loader itself of frame loader neighbouring device Conveying road forms end to end, continous way arrangement mode.In this section of transmission process, although the charging and discharging transmission of component are dynamic Make single, but occupy 10 seconds~15 seconds time, is entirely to frame up the 40%~50% of technique beat.Since component is floating is placed on On conveyer belt, if improving the speed of transmission belt simply, component will be slided or even be fallen off on a moving belt.Also there are a small number of factories Family uses six-joint robot grabbing assembly, until completing the process that entirely frames up, not only equipment input cost is very high for this method, accounts for Ground area is big, and can not significantly improve productivity, limits popularization and application.

In solar cell module encapsulates automatic production line, the test equipment and some of the electrical parameters such as EL, IV are normal Rule equipment equally exists the problem of delaying production technology beat because feeding and discharging time is long.Auxiliary time of delivery still occupies Entire testing time（Beat）40%~50%, it is same to become the bottleneck for improving production capacity, restrict production efficiency.

Invention content

The utility model provides compact-sized, a saving equipment occupation space, the degree of automation aiming at the above problem Height, function action are coordinated, are reliable, and module encapsulation techniques beat can reach the quick transmission material path and solar cell of 20 seconds/part Component frame loader.

In order to realize the above-mentioned purpose of the utility model, the utility model adopts the following technical solution, this utility model Quick transmission material path, include the material path holder being connected with elevating mechanism, synchronous belt conveying mechanism be provided on material path holder, It is characterized in that：It is provided on the band body of synchronous belt conveying mechanism and the matched clamp assemblies of solar cell module outer profile.

A kind of preferred embodiment of material path is quickly transmitted as this utility model, the clamp assemblies include being set to band body The upper and matched fixture block group of solar cell module outer profile.

The utility model uses the frame loader of above-mentioned quick transmission material path, including frame loader, the both sides of frame loader to set respectively It is equipped with loading bay and discharge pedestal, it is characterised in that：The front end of the synchronous belt conveying mechanism is located in loading bay, synchronous belt conveying The middle part of mechanism is located in frame loader, and the rear portion of synchronous belt conveying mechanism is located in discharge pedestal.

As a kind of preferred embodiment of this utility model frame loader, solar cell module is provided on the loading bay Normalizing device；After the solar cell module normalizing device reforms to solar cell module, the sun on loading bay can be made The position of energy battery component is corresponding with the position of the clamp assemblies.

It is corresponding on the band body of the synchronous belt conveying mechanism as another preferred embodiment of this utility model frame loader Loading bay is provided with the first clamp assemblies, with the second clamp assemblies are provided with corresponding to frame loader on body, described first is clamped The distance between fixture block group of component is corresponding with the outer profile for the solar cell module for not organizing frame；Second clamp assemblies The distance between fixture block group it is corresponding with the outer profile of solar cell module after group frame.

The beneficial effects of the utility model：1, after using the utility model, frame loader is realized for the first time and is completed in 20 seconds One working cycles, is greatly improved the working efficiency of existing frame loader.

2, the quick transmission material path of the utility model can be used for the tests of the EL in photovoltaic solar cell subassembly line, IV In the technological equipments such as detection, insulation voltage-withstand test, in terms of improving production efficiency, there is effect same with frame loader.

3, the utility model provides a kind of solution that component of simple structure and low cost, reliable for operation quickly transmits Scheme.In photovoltaic module production line, labor productivity can be increased substantially, production cost is effectively reduced.Description of the drawings

Fig. 1 is the structural schematic diagram that this utility model quickly transmits material path.

Fig. 2 is the partial enlarged view of Fig. 1.

Fig. 3 is structural schematic diagram of the utility model using the quickly frame loader of transmission material path.

Fig. 4 is the feed entrance point schematic diagram of the utility model.

Fig. 5 is the unloading position schematic diagram of the utility model.

1 it is band body in attached drawing, 2 be clamp assemblies, 3 be elevating mechanism, 4 be material path holder, 5 is synchronous belt conveying mechanism, 6 For quickly transmit material path, 7 be mounting plate, 8 be guide runner, 9 be guide rail, 10 be loading bay, 11 be normalizing device, 12 to frame up Machine, 13 be discharge pedestal, 14 be do not organize the solar cell module of frame, 15 be the first clamp assemblies, 16 be solar energy after group frame Battery component, 17 are the second clamp assemblies.

Specific implementation mode

The quick transmission material path of this utility model, includes the material path holder 4 being connected with elevating mechanism 3, on material path holder 4 It is provided with synchronous belt conveying mechanism 5, it is characterised in that：It is provided on the band body 1 of synchronous belt conveying mechanism 5 and solar battery group The matched clamp assemblies of part outer profile 2.

A kind of preferred embodiment of material path is quickly transmitted as the utility model, the clamp assemblies 2 include being set to band body 1 The upper and matched fixture block group of solar cell module outer profile.

1 bottom of band body is provided with guide runner 8, guide runner 8 and the guide rail 9 on material path holder 4 by mounting plate 7 It matches；Fixture block in fixture block group is set on the mounting plate 7.

This utility model uses the frame loader of above-mentioned quick transmission material path, including 12 structure of frame loader, 12 structure of frame loader Both sides are respectively arranged with loading bay 10 and discharge pedestal 13, it is characterised in that：The front end of the synchronous belt conveying mechanism 5 is located at charging In platform 10, the middle part of synchronous belt conveying mechanism 5 is located in frame loader 12, and the rear portion of synchronous belt conveying mechanism 5 is located at discharge pedestal 13 It is interior.

As a kind of preferred embodiment of the utility model frame loader, solar cell module is provided on the loading bay 10 Normalizing device 11；After the solar cell module normalizing device 11 reforms to solar cell module, it can make on loading bay 10 Solar cell module position it is corresponding with the position of the clamp assemblies 2.

It is corresponding on the band body 1 of the synchronous belt conveying mechanism 5 as another preferred embodiment of the utility model frame loader Loading bay 10 is provided with the first clamp assemblies 15, frame loader 12 is provided with the second clamp assemblies 17 on band body 1, it is described The distance between fixture block group of first clamp assemblies 15 is corresponding with the outer profile of solar cell module 14 of frame is not organized；It is described The distance between fixture block group of second clamp assemblies 17 is corresponding with the outer profile of solar cell module 16 after group frame.

Illustrate the one-off process of the utility model frame loader below in conjunction with the accompanying drawings：As shown in figure 3, solar energy after lamination Battery component is transferred to the front end of quickly transmission material path 6 by loading bay 10（Feeding position）, quickly transmission material path 6 is in down at this time Decrease is set.And it is reformed by the normalizing device 11 on loading bay 10.Quickly transmission material path 6 rises under the promotion of elevating mechanism 3 It rises, the quick transmission material path 6 of rise is higher than loading bay 10 and discharge pedestal 13, and solar cell module is withstood on synchronous belt conveyer On the band body 1 of structure 5.Synchronous belt conveying mechanism 5 is by the first clamp assemblies 15 by the solar-electricity for not organizing frame at loading bay 10 Pond component 14 is clamped and is moved at frame loader 12；Meanwhile synchronous belt conveying mechanism 5 by frame loader 12 group frame after the sun Energy battery component 16 is clamped and is moved at discharge pedestal 13.Quickly transmission material path 6 declines, and is detached from component, while by two kinds of components It has been individually positioned on frame loader 12 and discharge pedestal 13.While frame loader 12 is framed up, synchronous belt conveying mechanism 5 inverts, Drive band body 1 that first clamp assemblies 15 and the second clamp assemblies 17 are returned to initial position.Complete a working cycles.

It is understood that above with respect to the specific descriptions of the utility model, it is merely to illustrate the utility model and is not It is limited to technical solution described in the utility model embodiment, it will be understood by those of ordinary skill in the art that, it still can be with It modifies to the utility model or equivalent replacement, to reach identical technique effect；Needs are used as long as meeting, all in this reality Within novel protection domain.

Claims (6)

1. photovoltaic solar cell component quickly transmits material path, including with elevating mechanism（3）Connected material path holder（4）, material path Holder（4）On be provided with synchronous belt conveying mechanism（5）, it is characterised in that：Synchronous belt conveying mechanism（5）Band body（1）Upper setting Have and the matched clamp assemblies of solar cell module outer profile（2）.

2. photovoltaic solar cell component according to claim 1 quickly transmits material path, it is characterised in that：The clamping group Part（2）Including being set to band body（1）The upper and matched fixture block group of solar cell module outer profile.

3. photovoltaic solar cell component according to claim 1 quickly transmits material path, it is characterised in that：The band body （1）Bottom passes through mounting plate（7）It is provided with guide runner（8）, guide runner（8）With material path holder（4）On guide rail（9）Match It closes；Fixture block in fixture block group is set to the mounting plate（7）On.

4. a kind of frame loader using any one quick transmission material path as described in claims 1 to 3, including frame loader（12） Structure, frame loader（12）The both sides of structure are respectively arranged with loading bay（10）And discharge pedestal（13）, it is characterised in that：The synchronous belt is defeated Send mechanism（5）Front end be located at loading bay（10）It is interior, synchronous belt conveying mechanism（5）Middle part be located at frame loader（12）It is interior, it is synchronous Band conveying mechanism（5）Rear portion be located at discharge pedestal（13）It is interior.

5. frame loader according to claim 4, it is characterised in that：The loading bay（10）On be provided with solar battery group Part normalizing device（11）；The solar cell module normalizing device（11）After reforming to solar cell module, charging can be made Platform（10）On solar cell module position and the clamp assemblies（2）Position it is corresponding.

6. frame loader according to claim 4, it is characterised in that：The synchronous belt conveying mechanism（5）Band body（1）Upper phase It should be in loading bay（10）It is provided with the first clamp assemblies（15）, band body（1）It is upper to correspond to frame loader（12）It is provided with the second clamping Component（17）, first clamp assemblies（15）The distance between fixture block group and the solar cell module of not organizing frame（14）'s Outer profile is corresponding；Second clamp assemblies（17）The distance between fixture block group and the solar cell module after group frame （16）Outer profile it is corresponding.