CN207353220U - A kind of photovoltaic module transmits system of reforming - Google Patents

Abstract

It the utility model is related to a kind of photovoltaic module and transmit system of reforming, including rectangular frame, it is arranged in the middle part of the rectangular frame and is used for transmission the transmission mechanism of photovoltaic module and is arranged in the rectangular frame and is set positioned at photovoltaic module surrounding with the mechanism that reforms for photovoltaic module of reforming, the mechanism that reforms parallel to the side of the rectangular frame.The utility model can realize the automatic transmission of photovoltaic module, reform automatically, avoid error caused by worker's manual operation, and can improve production efficiency, save cost of labor.

Description

A kind of photovoltaic module transmits system of reforming

Technical field

The utility model belongs to photovoltaic module production field, and in particular to a kind of photovoltaic module transmits system of reforming.

Background technology

At present, with the high speed development of photovoltaic industry, especially great attention of the various countries to new energy development, green cleaning energy Source --- solar energy.Therefore, application of the photovoltaic module in people live gradually increases, and pole is provided for the Working Life of people Big facility, while also benefit is created for enterprise.The composition structure of photovoltaic module generally comprises glass plate, cell piece and the back of the body Plate.Production procedure for photovoltaic module generally comprises following steps：

First step monolithic welds：By the mutual latticing of welding of battery film (applying tin copper strips), prepare for the series connection of cell piece；

Second step Series connection welding：Cell piece is subjected to series connection by mutual latticing according to certain amount and forms battery strings；

Welding and lamination between 3rd step battery strings：Battery strings are linked together by convergent belt, to continue Circuit connects, while is protected cell piece with glass plate, EVA adhesive film, TPT backboards；

4th step is laminated：By cell piece and glass plate, EVA adhesive film, TPT backboards in certain temperature, pressure and vacuum bar Bonding is merged under part；

5th step frames up：With aluminium frame protective glass, it is easily installed at the same time；

6th step is cleaned：Ensure component facade；

7th step electric performance test：The insulation performance and generated output of test suite；

Last packaging and storage.

Wherein, mutual latticing and convergent belt belong to photovoltaic welding belt, and mutual latticing is used for the connection between monolithic battery piece, and converges Stream band is used for the connection between the battery strings that cell piece is formed by connecting.For the welding between battery strings, it is necessary to first by convergent belt It is welded in a battery strings on the interconnection belt of the cell piece at both ends, another battery is then welded on by convergent belt again Make two battery strings connections on the interconnection belt of the cell piece of the end of string.By convergent belt into the process welded in battery strings, It is currently that battery strings are placed on workbench by worker manually, and manually lifts battery strings from following glass plate, then will confluence Band is put into below the cell piece of end (convergent belt is located between the glass plate below cell piece and cell piece), is finally welded again Connect, since the position degree of battery strings cannot be guaranteed, the relative position between convergent belt and cell piece cannot be guaranteed, it is difficult to ensure that weldering Quality is connect, and whole process is all manually completed by worker, and cost of labor is higher, and production efficiency can not ensure.

The information for being disclosed in the utility model background section is merely intended to deepen the general background to the utility model The understanding of technology, and be not construed as recognizing or imply the information structure in any form by those skilled in the art public affairs The prior art known.

Utility model content

The purpose of this utility model is to provide a kind of photovoltaic module to transmit system of reforming, and the utility model can realize light Volt component is transmitted, reformed automatically automatically, cell piece lift is stitched and convergent belt pressing function, be ensure that the welding quality of convergent belt, is contracted The short sawn timber production cycle, and the waste of human resources can be effectively reduced, reduce cost of labor.

The purpose of this utility model is achieved through the following technical solutions：

A kind of transmission of photovoltaic module is reformed system, including rectangular frame, is arranged in the middle part of the rectangular frame and is used for transmission The transmission mechanism of photovoltaic module and it is arranged in the rectangular frame and is located at photovoltaic module surrounding returning with photovoltaic module of reforming Positive mechanism, the mechanism that reforms are set parallel to the side of the rectangular frame.

Preferably, the transmission mechanism includes a plurality of conveyer belt, and a plurality of conveyer belt is applied in the rectangular frame Between two opposite sides.

Preferably, the mechanism that reforms reforms mechanism and the lateral mechanism that reforms including forward direction, and the forward direction mechanism that reforms is set Put and be arranged on institute perpendicular to the both sides of the transmission direction of the transmission mechanism, the lateral mechanism that reforms in the rectangular frame State the both sides of the interior transmission direction perpendicular to the transmission mechanism of rectangular frame.

Preferably, the forward direction mechanism that reforms including the first forward direction reforms mechanism and the second forward direction is reformed mechanism, and described One forward direction reforms mechanism and second forward direction is reformed, and mechanism is separately positioned in the rectangular frame perpendicular to the transmission side To both sides, first forward direction reforms mechanism and second forward direction is reformed, and mechanism includes bar of reforming, and described first just To reform mechanism and second forward direction reform mechanism by respective bar of reforming in the direction parallel to the transmission direction Upper limit photovoltaic module.

Preferably, first forward direction reform mechanism include by cylinder drive can vertical lifting simultaneously being capable of horizontal shifting Dynamic first is reformed bar.

Preferably, second forward direction mechanism that reforms includes the second of vertical lifting reforming gear by being capable of for cylinder driving Bar.

Preferably, the both sides in the rectangular frame parallel to the transmission direction are respectively arranged with the lateral machine of reforming Structure, the lateral mechanism that reforms include the reform plate that can be moved horizontally driven by cylinder and are connected in the reform plate Bar of reforming, the lateral mechanism that reforms is by bar of reforming in the direction upper limit photovoltaic group perpendicular to the transmission direction Part.

Further, the lateral mechanism that reforms further comprises multiple suctions for holding the cell piece in photovoltaic module Disk, the multiple sucker are connected to above the reform plate and on the suspension that can be moved up and down.

Preferably, the suspension includes being used for connecting the crossbeam and L-shaped connecting rod of the multiple sucker, in the reform plate Vertical pedestal is connected with perpendicular to the both sides of the transmission direction, the vertical pedestal is slidably connected with the L-shaped connecting rod, institute State L-shaped connecting rod bottom and be connected with cylinder.

Further, the lateral mechanism that reforms further comprises multiple tablettings for pressing convergent belt, the tabletting By the connection of respective contiguous block on the rotary shaft, the rotation axis is driven and rotation by being connected to the convolution cylinder of its end Turn.

The beneficial effects of the utility model are：

It can realize the automatic transmission of photovoltaic module, reform automatically, avoid error caused by worker's manual operation, and can To improve production efficiency, cost of labor is saved；And can realize cell piece lift seam, convergent belt pressing function, it ensure that convergent belt Welding quality.

Brief description of the drawings

Fig. 1 transmits the top view for system of reforming for the photovoltaic module described in the utility model embodiment；

Fig. 2 is the structure diagram of the transmission mechanism described in the utility model embodiment；

Fig. 3 is that the first forward direction described in the utility model embodiment is reformed the structure diagram of mechanism；

Fig. 4 is that the second forward direction described in the utility model embodiment is reformed the structure diagram of mechanism；

Fig. 5 is the structure diagram of the lateral mechanism that reforms described in the utility model embodiment.

Description of reference numerals：

1. rectangular frame；2. transmission mechanism；3. conveyer belt；4. driving pulley；5. transmission shaft；6. motor；7. first is positive Reform mechanism；The mechanism 8. the second forward direction is reformed；9. the first cylinder；10. the second cylinder；11. first reforms bar connecting plate；12. First reforms bar；13. the 3rd cylinder；14. second reforms bar connecting plate；15. second reforms bar；16. lateral machine of reforming Structure；17. reform plate；18. the 3rd reforms bar；19. reform plate slide；20. sucker；21. crossbeam；22.L shape connecting rods；It is 23. perpendicular Straight feet seat；24. tabletting；25. contiguous block；26. rotation axis；27. stent.

Embodiment

With reference to specific embodiment and respective drawings, the utility model is described in further detail.

It is to be appreciated that appended attached drawing is drawn with being not drawn to, and merely to the basic principle of explanation the utility model Various features the suitably simplified technique of painting.The specific design feature of the utility model disclosed herein includes for example specific ruler Very little, direction, position and shape will be determined partly by the specific environment to be applied and used.

In appended multiple attached drawings, same or equivalent component (element) is indexed with identical reference numeral.

As shown in Figure 1, the photovoltaic module transmission described in the utility model embodiment is reformed system, including rectangular frame 1, set Put and be used for transmission the transmission mechanism 2 of photovoltaic module at the middle part of rectangular frame 1 and be arranged in rectangular frame 1 and be located at photovoltaic module With the mechanism that reforms for photovoltaic module of reforming, the mechanism that reforms is set surrounding parallel to the side of rectangular frame 1.The mechanism that reforms is from photovoltaic Four sides of component are spacing to photovoltaic module to reform.In addition, the size for the mechanism that reforms can be adjusted according to the size of photovoltaic module It is whole.

As shown in Fig. 2, in this example, transmission mechanism 2 includes four conveyer belts 3；The quantity of conveyer belt is not limited to four, can be with The bar number of conveyer belt 3 is determined according to the size of photovoltaic module, such as can be 2-3 bars or 5-8 bars.In the defeated of transmission mechanism 2 Enter to hold conveyer belt 3 to be connected to by respective driving pulley 4 on transmission shaft 5, transmission shaft 5 is connected with motor 6, is driven by motor 6 Dynamic conveyer belt 3, conveyer belt 3 are supported by stent 27, and conveyer belt 3 is applied between two opposite sides of rectangular frame 1.

In this example, the mechanism that reforms reforms mechanism and the lateral mechanism that reforms including forward direction, and the forward direction mechanism that reforms is arranged on rectangle Perpendicular to the both sides of the transmission direction of transmission mechanism in frame, the mechanism that laterally reforms is arranged in rectangular frame perpendicular to the biography The both sides of the transmission direction of transfer mechanism.Forward direction is reformed, and (opposite side is perpendicular to transmission for an opposite side of the spacing photovoltaic module of mechanism Band), another opposite side of the spacing photovoltaic module of the mechanism that laterally reforms (opposite side is parallel to conveyer belt).

Shown as shown in Figure 1, Figure 3 and Figure 4, the forward direction mechanism that reforms reforms machine including the first forward direction 7 and second forward direction of mechanism of reforming Structure 8, the first forward direction 7 and second forward direction of mechanism mechanism 8 that reforms that reforms are separately positioned in rectangular frame 1 perpendicular to transmission direction Both sides, the first forward direction 7 and second forward direction of mechanism mechanism 8 that reforms that reforms include reforming bar, and the first forward direction is reformed mechanism 7 and the Two forward directions reform mechanism 8 by respective bar of reforming in the direction upper limit photovoltaic module parallel to transmission direction.First just It is arranged on the input terminal side of transmission mechanism 2 to the mechanism 7 that reforms, the second forward direction mechanism 8 that reforms is arranged on 2 output terminal of transmission mechanism Side.

Specifically, the first forward direction reform mechanism 7 be arranged in 2 input terminal side of transmission mechanism rectangular frame 1 side On frame, reform mechanism 7 equipped with two the first forward directions in this example, one of them first forward direction mechanism 7 that reforms is located at first transmission Between band and Article 2 conveyer belt, another first forward direction mechanism 7 that reforms is arranged on Article 3 conveyer belt and Article 4 conveyer belt Between, the first forward direction mechanism 7 that reforms includes the first cylinder 9, the second cylinder 10, the first bar connecting plate 11 and first of reforming and reforms Bar 12, the cylinder body of the first cylinder 9 are connected with the frame of rectangular frame 1, the cylinder of the piston rod of the first cylinder 9 and the second cylinder 10 Body connects, and the piston rod of the second cylinder 10 is connected with the first bar connecting plate 11 of reforming, and the first bar 12 of reforming is connected to first To reform on bar connecting plate 11, the piston rod of the first cylinder 9 moves horizontally, and the piston rod of the second cylinder 10 does vertical and straight movement, That is, the first cylinder 9 is responsible for the first movement for reforming 12 horizontal direction of bar, the second cylinder 10 is responsible for first and reforms bar The lifting of 12 vertical directions.

Specifically, the second forward direction reform mechanism 8 be connected close to transmission mechanism 2 output terminal side rectangular frame 1 On tie-beam, reform mechanism 8 equipped with second forward direction in this example, the second forward direction reform mechanism 8 be located at Article 2 conveyer belt with Between Article 3 conveyer belt, the second forward direction mechanism 8 that reforms includes the 3rd cylinder 13, second reforms bar connecting plate 14 and two the Two reform bar 15, and the 3rd cylinder 13 is connected on tie-beam, and the piston rod of the 3rd cylinder 13 and second is reformed bar connecting plate 14 connections, two second bars 15 of reforming are connected to the second both ends for reforming bar connecting plate 14, the work of the 3rd cylinder 13 Stopper rod does vertical and straight movement, that is to say, that the 3rd cylinder 13 is responsible for the second lifting for reforming bar 15.

First forward direction, 7 and second forward direction of mechanism of reforming reforms mechanism 8 in the direction upper limit photovoltaic parallel to transmission direction Component.Photovoltaic module transmission before, the second forward direction reform mechanism 8 the 3rd cylinder 13 piston rod stretch out make two second to return Positive bar 15 rises, photovoltaic module enter transmission mechanism 2 by conveyer belt 3 be transported to second reform bar 15 position and by second Bar 15 of reforming blocks and stops conveying, and then the first the second cylinder 10 for reforming mechanism 7 rises the first bar 12 of reforming, and One cylinder 9 is reformed bar 12 to the direction Level Promoting first close to photovoltaic module, is reformed bar 12 and photovoltaic group until first The edge of part offsets, in this way, just reforming photovoltaic module is spacing in the first bar 12 and second of reforming between bar 15 so that light Volt component is reformed on the direction parallel to direction of transfer.

As shown in figure 5, in this example, the both sides in rectangular frame 1 parallel to the transmission direction are set respectively laterally reforms Mechanism 16, two are laterally reformed mechanism 16 in the direction upper limit photovoltaic module perpendicular to transmission direction, the mechanism that laterally reforms 16 Including the reform plate 17 that can be moved horizontally driven by cylinder (not shown) and the be connected in reform plate 17 the 3rd Reform bar 18, be equipped with rectangular frame 1 close to the position of first conveyer belt and Article 4 conveyer belt perpendicular to conveyer belt Reform plate slide 19, reform plate 17 is slidably connected on reform plate slide 19, thus reform plate 17 can drive it is whole lateral The mechanism that reforms 16 moves horizontally on the direction perpendicular to transmission direction.3rd reform bar 18 be connected to it is close in reform plate 17 The side of photovoltaic module, photovoltaic module are returned by the first forward direction 7 and second forward direction of mechanism mechanism 8 that reforms that reforms in one offside After just, two lateral mechanisms 16 that reform are moved to close to the directions of photovoltaic modulies, are reformed bar 18 and photovoltaic module until the 3rd Edge offset, in this way, two lateral mechanisms 16 that reform can reform bar 18 in photovoltaic module by the respective 3rd The spacing photovoltaic module of another offside so that photovoltaic module is reformed on the direction perpendicular to direction of transfer.

In this way, photovoltaic module is spacing by the mechanism that reforms of surrounding, and reform mechanism, the second forward direction of the first forward direction is reformed Four side frames that mechanism and two lateral mechanisms that reform are respectively parallel to rectangular frame are set, it is ensured that their position Degree, allow first reform bar, second reform bar and the 3rd bar of reforming surrounds a square, it is ensured that photovoltaic group Part is reformed.

Further, as shown in figure 5, in this example, the mechanism that laterally reforms 16 further comprises being used to hold in photovoltaic module Cell piece multiple suckers 20, multiple suckers 20 are connected to above reform plate 17 and on the suspension that can be moved up and down. It is responsible for a battery strings by six battery strings, two of which sucker for one group in photovoltaic module, that is to say, that be connected with suspension Six groups of suckers (12 suckers).Suspension includes being used for connecting the crossbeam 21 and L-shaped connecting rod 22 of multiple suckers 20, in reform plate 17 Vertical pedestal 23 is connected with perpendicular to the both sides of transmission direction, vertical pedestal 23 is equipped with upright slide rail, and L-shaped connecting rod 22 is slided It is connected on the upright slide rail of vertical pedestal 23,22 bottom of L-shaped connecting rod is connected with lifting cylinder (not shown).Work as photovoltaic After component is reformed, suspension drives sucker 20 to decline, and the cell piece at battery strings both ends is held and is lifted, and realizes the lift seam of cell piece, Then convergent belt can be placed between cell piece and glass plate, standard is done in the welding for convergent belt and the mutual latticing at cell piece edge It is standby.

Further, as shown in figure 5, in this example, the mechanism that laterally reforms 16 further comprises for pushing down the more of convergent belt A tabletting 24, tabletting 24 are connected in rotation axis 26 by respective contiguous block 25, and rotation axis 26 is by being connected to its end Convolution cylinder drives and rotates, and convolution cylinder is connected in reform plate 17, and one end of rotation axis is connected with convolution cylinder, the other end It is connected with the slave unit being connected in reform plate, rotation axis is positioned at the 3rd rear side for reforming bar.Tabletting position shown in Fig. 5 The operating position of tabletting is set to, i.e. the position of convergent belt is pushed down in tabletting, and rotation axis rotates 180 degree counterclockwise after the completion of welding, pressure Piece returns to initial position (off-position).

Photovoltaic module described in the present embodiment transmits the course of work for system of reforming：Before photovoltaic module transmission, second Forward direction reform mechanism 8 the 3rd cylinder 13 piston rod stretch out two second bars 15 of reforming is increased, photovoltaic module enter pass Transfer mechanism 2 by conveyer belt 3 be transported to second reform bar 15 position and blocked by the second bar 15 of reforming and stopped conveying, so The first the second cylinder 10 for reforming mechanism 7 rises the first bar 12 of reforming afterwards, and the first cylinder 9 is to close to the direction of photovoltaic module Level Promoting first is reformed bar 12, bar 12 is reformed and the edge of photovoltaic module offsets until first, in this way, just by photovoltaic group Part is spacing to reform between bar 15 in the first bar 12 and second of reforming so that photovoltaic module is in the direction parallel to direction of transfer On reform；Photovoltaic module is reformed by the first forward direction 7 and second forward direction of mechanism mechanism 8 that reforms that reforms in one offside Afterwards, two lateral mechanisms 16 that reform are moved to close to the directions of photovoltaic modulies, are reformed bar 18 and photovoltaic module until the 3rd Edge offsets, in this way, two lateral mechanisms 16 that reform can reform bar 18 in the another of photovoltaic module by the respective 3rd The spacing photovoltaic module of an outer offside so that photovoltaic module is reformed on the direction perpendicular to direction of transfer；In this way, photovoltaic Component is spacing by the mechanism that reforms of surrounding.After photovoltaic module is reformed, suspension drives sucker 20 to decline, by battery strings both ends Cell piece, which is held, to be lifted, and realizes the lift seam of cell piece, then convergent belt can be placed between cell piece and glass plate, for confluence The welding of band and the mutual latticing at cell piece edge is prepared；Tabletting 24 rotates to operating position, pressing convergent belt, then bonding machine Structure (not in such a system) welds the mutual latticing of convergent belt and cell piece, after the completion of welding, all mechanism returns of reforming, Photovoltaic module spreads out of the system.

The utility model can realize the automatic transmission of photovoltaic module, reform automatically, avoid worker's manual operation from being brought Error, and production efficiency can be improved, save cost of labor；And can realize cell piece lift seam, convergent belt pressing function, protect The welding quality of convergent belt is demonstrate,proved.

The description above presented to the specific illustrative embodiment of the utility model is in order at the purpose of illustration and description. Description above is not intended to become milli exhaustively, is not intended to the utility model is limited to disclosed accurate shape Formula, it is clear that many change and variations are all possible according to the above instruction.Selection illustrative embodiments and be described be for The certain principles and its practical application of the utility model are explained, so that others skilled in the art can be realized simultaneously Utilize the various illustrative embodiments and its various selection forms and modification of the utility model.The scope of the utility model It is intended to be limited by the appended claims and its equivalents.

Claims (10)

1. The system 1. a kind of photovoltaic module transmission is reformed, it is characterised in that including rectangular frame, be arranged in the middle part of the rectangular frame It is used for transmission the transmission mechanism of photovoltaic module and is arranged in the rectangular frame and positioned at photovoltaic module surrounding with photovoltaic of reforming The mechanism that reforms of component, the mechanism that reforms are set parallel to the side of the rectangular frame.
2. The system 2. photovoltaic module transmission according to claim 1 is reformed, it is characterised in that the transmission mechanism includes a plurality of Conveyer belt, a plurality of conveyer belt are applied between two opposite sides of the rectangular frame.
3. The system 3. photovoltaic module transmission according to claim 1 is reformed, it is characterised in that the mechanism that reforms includes forward direction The mechanism that reforms and the lateral mechanism that reforms, the forward direction mechanism that reforms are arranged in the rectangular frame perpendicular to the transmission mechanism Transmission direction both sides, the lateral mechanism that reforms is arranged in the rectangular frame perpendicular to the transmission of the transmission mechanism The both sides in direction.
4. The system 4. photovoltaic module according to claim 3 transmission is reformed, it is characterised in that the forward direction mechanism that reforms includes Mechanism that first forward direction reforms mechanism and the second forward direction is reformed, mechanism that first forward direction reforms mechanism and second forward direction is reformed It is separately positioned in the rectangular frame perpendicular to the both sides of the transmission direction, first forward direction is reformed mechanism and described the The two forward directions mechanism that reforms includes reforming bar, and mechanism that first forward direction reforms mechanism and second forward direction is reformed passes through each From bar of reforming in the direction upper limit photovoltaic module parallel to the transmission direction.
5. The system 5. photovoltaic module according to claim 4 transmission is reformed, it is characterised in that first forward direction is reformed mechanism Including by cylinder drive being capable of first reforming bar of can simultaneously moving horizontally of vertical lifting.
6. The system 6. photovoltaic module according to claim 4 transmission is reformed, it is characterised in that second forward direction is reformed mechanism The second of vertical lifting reform bar including being capable of of being driven by cylinder.
7. The system 7. photovoltaic module according to claim 3 transmission is reformed, it is characterised in that in the rectangular frame parallel to The both sides of the transmission direction are respectively arranged with the lateral mechanism that reforms, and the lateral mechanism that reforms includes driving by cylinder The reform plate that can be moved horizontally and the bar of reforming that is connected in the reform plate, it is described laterally to reform mechanism by reforming Bar is in the direction upper limit photovoltaic module perpendicular to the transmission direction.
8. The system 8. photovoltaic module according to claim 7 transmission is reformed, it is characterised in that the lateral mechanism that reforms is into one Step includes being used for the multiple suckers for holding the cell piece in photovoltaic module, and the multiple sucker is connected in the reform plate In side and the suspension that can be moved up and down.
9. The system 9. photovoltaic module transmission according to claim 8 is reformed, it is characterised in that the suspension includes being used to connect The crossbeam and L-shaped connecting rod of the multiple sucker, are connected with vertically perpendicular to the both sides of the transmission direction in the reform plate Pedestal, the vertical pedestal are slidably connected with the L-shaped connecting rod, and the L-shaped connecting rod bottom is connected with cylinder.
10. The system 10. photovoltaic module according to claim 9 transmission is reformed, it is characterised in that it is described it is lateral reform mechanism into One step includes multiple tablettings for pressing convergent belt, and the tabletting is connected on the rotary shaft by respective contiguous block, described Rotation axis is driven and rotation by being connected to the convolution cylinder of its end.