CN208873748U - A kind of integrated equipment for solar battery sheet manufacture - Google Patents

Abstract

The utility model discloses a kind of integrated equipment for solar battery sheet manufacture, the equipment of the solar battery sheet manufacture includes dicing device and printing equipment, and the dicing device and the printing equipment are integrally disposed in the integrated equipment.The integrated equipment structure for being used for solar battery sheet manufacture is simple, dicing device and printing equipment is integrally disposed on one device, to reduce the operating procedures such as the absorption and carrying of cell piece between scribing and printing station in solar battery sheet manufacturing process, so that the manufacture efficiency of solar battery sheet can be improved and reduce the breakage of cell piece.

Description

A kind of integrated equipment for solar battery sheet manufacture

Technical field

The utility model relates to cell piece manufacturing technology fields, and in particular to a kind of one for solar battery sheet manufacture Body equipment.

Background technique

With the continuous development of science and technology, photovoltaic power generation is used as a kind of environmentally protective reproducible production of energy mode, It is widely used in daily life and industry, and has pushed the sustainable development of national economy.

Imbrication solar cell module is that distinctive imbrication process is added on common component processing technology plinth, so that single More solar battery sheets can be stacked under plane product, to improve the generated output and stability of component.Imbrication component Appearance changes traditional packaging technology, and component efficiency is made to improve 15%, this is one in component production technology revolutionary Change.

The process flow of existing imbrication component manufacture is generally laser processing, printing, sliver, patch and imbrication baking oven Dry, laser processing generally comprises scribing, ablation, etches, mixes.In the prior art, to the laser processing of cell piece progress, print Brush, sliver, patch and the Kiln seasoned each equipment of imbrication are independently arranged, so that cell piece needs in imbrication component manufacturing process It is converted between each equipment, it is therefore desirable to which manipulator is repeatedly adsorbed and carried to cell piece, and it is raw to will lead to imbrication component in this way The efficiency for producing manufacture reduces, but also will cause the fragment of cell piece.

Utility model content

The purpose of this utility model provides a kind of for solar battery sheet manufacture for the problems of the prior art Integrated equipment.

In order to achieve the above objectives, the technical solution adopted in the utility model is:

The equipment of a kind of integrated equipment for solar battery sheet manufacture, the solar battery sheet manufacture includes scribing Device and printing equipment, the dicing device and the printing equipment are integrally disposed in the integrated equipment.

Preferably, the integrated equipment further include feeding device, scribing and printing before determine what cell piece was positioned Position device and blanking device.

Further, the integrated equipment further includes turntable mechanism, and the turntable mechanism includes rotary table and setting Multiple first workbenches on the rotary table, the rotary table drive each first workbench to turn At least provided with feeding station, positional stations, scribing station, printing station and discharge station, the rotary work on dynamic track Platform can drive each first workbench in the horizontal plane cycle rotation to the feeding station, the positional stations, institute State scribing station, the printing station and the discharge station.

Further, the feeding station and the co-located place of the positional stations.

Further, the printing equipment is arranged in printer's bit positions, and the length of the printing equipment is prolonged It is parallel or perpendicular with the direction of transfer of the blanking device to stretch direction.

Further, the feeding station and the co-located place of the discharge station or the feeding station Angle between the discharge station is 90 degree.

Further, the angle between the feeding station and the discharge station is 180 degree.

A kind of specific embodiment, the rotary table drive and set on the track of each first workbench rotation It is equipped with eight station positions.

A kind of specific embodiment, the rotary table drive and set on the track of each first workbench rotation Station position there are six setting.

A kind of specific embodiment, the rotary table drive and set on the track of each first workbench rotation Station position there are four setting.

Further, the integrated equipment further includes the first transmission module, and first transmission module includes fixed setting Running track and multiple second workbenches and the first driving mechanism that are movably arranged in the running track, described the One driving mechanism can drive each second workbench in the running track along the extending direction of the running track It moves, at least provided with feeding station, positional stations, scribing station, printing on the track of each second workbench operation Station and discharge station, the driving mechanism can drive each second workbench to move in the horizontal plane to the feeding Station, the positional stations, the scribing station, the printing station and the discharge station.

A kind of specific embodiment, the running track are rectilinear orbit, and the transmission module further includes being arranged in parallel in Return trajectory below the rectilinear orbit, first driving mechanism can also drive each second workbench in institute It states and is slided on return trajectory along the length extending direction of the return trajectory, the transmission module further includes each for being operated alone A second working platform overturning enables second workbench to turn between the rectilinear orbit and the return trajectory Second driving mechanism of change place.

Further, the feeding station and the discharge station are located at the both ends of the rectilinear orbit.

Further, second driving mechanism is separately positioned on the both ends of the rectilinear orbit.

A kind of specific embodiment, the running track are elliptic orbit.

Further, the feeding station and the discharge station are located at the both ends of the long axis of the elliptic orbit.

Further, in printer's bit positions, the dicing device is arranged in institute for the printing equipment setting Scribing work bit positions are stated, the length extending direction of the printing equipment and the length extending direction of the dicing device are parallel Setting, and it is perpendicular with the direction of transfer of the blanking conveyer.

Further, first driving mechanism drives each second workbench to move synchronously or described First driving mechanism drives each second workbench respectively self-movement.

Further, the integrated equipment further includes the second transmission module, and second transmission module includes can be horizontal Mobile mobile platform, the third workbench being fixed on the mobile platform and the 4th workbench, third driving Mechanism, the third driving mechanism drive the mobile platform to drive the third workbench and the 4th workbench water Translation is dynamic, is sequentially set with the first station, second station and 3rd station on the track of the mobile platform operation, when described the When three workbenches are in the first work bit positions, the 4th workbench is at the second station position, when When the third workbench is at the second station position, the 4th workbench is in the 3rd station position Place, the integrated equipment further include scribing station and printing station, the scribing station be separately positioned on first station and At the 3rd station position, the printing station is arranged at the second station position.

Further, the integrated equipment further includes feeding station, discharge station and positional stations, the feeding work Position, the discharge station and the positional stations are separately positioned at first station and the 3rd station position.

Further, the printing equipment is arranged in printer's bit positions, and the dicing device is respectively set In two scribing work bit positions, the length extending direction of the printing equipment and the length extension side of the dicing device To parallel setting, and it is perpendicular with the direction of transfer of the blanking conveyer.

Due to the application of the above technical scheme, the utility model has the advantage that this is practical new compared with prior art The integrated equipment structure for solar battery sheet manufacture of type is simple, and dicing device and printing equipment are integrally disposed in one In equipment, to reduce the absorption between scribing and printing station of in solar battery sheet manufacturing process cell piece and remove The operating procedures such as fortune, so that the manufacture efficiency of solar battery sheet can be improved and reduce the breakage of cell piece.

Detailed description of the invention

Attached drawing 1 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 1)；

Attached drawing 2 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 1)；

Attached drawing 3 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 2)；

Attached drawing 4 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 3)；

Attached drawing 5 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 4)；

Attached drawing 6 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 5)；

Attached drawing 7 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 5)；

Attached drawing 8 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 5)；

Attached drawing 9 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 7)；

Attached drawing 10 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 7)；

Attached drawing 11 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 8)；

Attached drawing 12 is the structural schematic diagram (embodiment of the integrated equipment for solar battery sheet manufacture of the utility model 9).

Wherein: 1, feeding device；2, positioning device；3, dicing device；4, printing equipment；5, blanking device；61, work is rotated Make platform；62, the first workbench；7, handling device；81, running track；82, the second workbench；91, mobile platform；92, Three workbenches；93, the 4th workbench.

Specific embodiment

The technical solution of the utility model is further elaborated with reference to the accompanying drawing.

The equipment of solar battery sheet manufacture generally all includes feeding device 1, positioning device 2, dicing device 3, printing dress 4 and blanking device 5 are set, in the application, by feeding device 1, positioning device 2, dicing device 3, printing equipment 4 and blanking device 5 It is integrally disposed in the integrated equipment, cell piece can be reduced in solar battery sheet manufacturing process in this way in scribing and printer Carrying operating procedure between position, so that the manufacture efficiency of solar battery sheet can be improved and reduce the breakage of cell piece.This one Body equipment further includes pedestal (not shown), feeding device 1, positioning device 2, dicing device 3, printing equipment 4 and blanking dress It sets 5 to be respectively provided on the base, feeding device 1, positioning device 2, dicing device 3, printing equipment 4 and blanking device 5 are on the base It can be arranged by following several embodiments:

Embodiment 1

The integrated equipment further includes turntable mechanism, and turntable mechanism includes the rotary work being rotatably arranged on the base Platform 61 and multiple first workbenches 62 being arranged on rotary table 61, rotary table 61 drive each first work flat At least provided with feeding station, positional stations, scribing station, printing station and discharge station on the track that platform 62 rotates, work is rotated Make platform 61 can drive each first workbench 62 in the horizontal plane cycle rotation to feeding station, positional stations, scribing station, Printing station and discharge station.

The vacuum adsorption mechanism for adsorbing cell piece, the first workbench are provided on each first workbench 62 It is provided with vacuum hole on 62 upper surface, can make to generate vacuum at each vacuum hole by vacuum adsorption mechanism, thus by cell piece It is adsorbed on the first workbench 62.

Feeding device 1 is arranged at feeding station position, and positioning device 2 is arranged at positional stations position, dicing device 3 Setting is arranged in printer's bit positions, blanking device 5 in discharge station position in scribing work bit positions, the setting of printing equipment 4 Set place.

The integrated equipment further includes handling device 7, and handling device 7 from feeding device 1 for carrying in place cell piece On the first workbench 62 at the feeding station position, and by cell piece from the first work for being located at blankers' bit positions It is transported on platform 62 on blanking device 5.

In the present embodiment, eight works are provided on the track that rotary table 61 drives each first workbench 62 to rotate Position position, eight station positions are uniformly distributed along the circumferencial direction that rotary table 61 rotates, feeding station and discharge station it Between interval 90 degree be arranged, handling device 7 is provided with two at this time, is separately positioned on feeding station position and discharge station position Place, positional stations and the co-located place of feeding station, printing station are located at the other end being oppositely arranged with feeding station, draw Piece station is arranged between printing station and feeding station and close to feeding station, and the length extending direction of printing equipment is under Expect that the direction of transfer of device 5 is perpendicular, as shown in Figure 1, alternatively, the biography of the length extending direction of printing equipment and blanking device 5 Send direction parallel, as shown in Figure 2.

The workflow of the integrated equipment of the embodiment is as follows:

(1) cell piece from feeding device 1 to feeding station at transmission in place after；

(2) cell piece is transported on the first workbench 62 at feeding station by handling device 7；

(3) positioning device 2 positions the position of cell piece；

(4) rotary table 61 drives the first workbench 62 and cell piece rotation, and cell piece is made to turn to scribing station Place carries out scribing by dicing device 3；

(5) rotary table 61 drives the first workbench 62 and cell piece to continue to rotate, and cell piece is made to turn to printing Printing operation is carried out by printing equipment 4 at station；

(6) rotary table 61 drives the first workbench 62 and cell piece to continue to rotate, and cell piece is made to turn to blanking At station, cell piece is transported on blanking device 5 by handling device 7 from the first workbench 62, is recycled according to this.

Embodiment 2

It is also to be provided with eight on the track that rotary table 61 drives each first workbench 62 to rotate in the present embodiment A station position, eight station positions are uniformly distributed along the circumferencial direction that rotary table 61 rotates, feeding station and blankers 180 degree setting in interval between position, handling device 7 is provided with two at this time, is separately positioned on feeding station position and discharge station At position, positional stations and the co-located place of feeding station, scribing station and printing station are located at feeding station and blanking The same side of diameter where station, scribing station are arranged close to feeding station, and printing station is arranged close to discharge station, remaining with Embodiment 1 is identical, as shown in Figure 3.The workflow of the integrated equipment of the embodiment is also same as Example 1.

Embodiment 3

It is also to be provided with eight on the track that rotary table 61 drives each first workbench 62 to rotate in the present embodiment A station position, eight station positions are uniformly distributed along the circumferencial direction that rotary table 61 rotates, feeding station and blankers The co-located place in position, a handling device 7 is arranged at this time can be realized feeding and blanking operation, positional stations, scribing work Position and printing station are separately positioned on different work bit positions, and set along the circumferencial direction sequence that rotary table 61 rotates It sets, remaining is same as Example 1, as shown in Figure 4.The workflow of the integrated equipment of the embodiment is also same as Example 1.

Embodiment 4

In the present embodiment, there are four works for setting on the track that rotary table 61 drives each first workbench 62 to rotate Position position, four station positions are uniformly distributed along the circumferencial direction that rotary table 61 rotates, feeding station and discharge station it Between interval 90 degree be arranged, handling device 7 is provided with two at this time, is separately positioned on feeding station position and discharge station position Place, positional stations and the co-located place of feeding station, printing station are located at the other end being oppositely arranged with feeding station, draw Piece station is located at the other end being oppositely arranged with discharge station, the transmission of the length extending direction and blanking device 5 of printing equipment Direction is perpendicular, remaining is same as Example 1, as shown in Figure 5.The workflow of the integrated equipment of the embodiment also with embodiment 1 is identical.

Embodiment 5

In the present embodiment, there are four works for setting on the track that rotary table 61 drives each first workbench 62 to rotate Position position, four station positions are uniformly distributed along the circumferencial direction that rotary table 61 rotates, feeding station and discharge station position At same position, at this time be arranged a handling device 7 can be realized feeding and blanking operation, positional stations, scribing station and Printing station is set in sequence in other three work bit positions, and the length extending direction of dicing device, the length of printing equipment are prolonged The direction of transfer for stretching direction and blanking device 5 is homogeneously arranged in parallel, as shown in fig. 6, alternatively, the length extension side of printing equipment It is homogeneously arranged in parallel to the direction of transfer with blanking device 5, and is vertically arranged with the length extending direction of dicing device, such as Fig. 7 The setting parallel with the direction of transfer of blanking device 5 of shown or dicing device length extending direction, and with printing equipment Length extending direction is vertically arranged, as shown in figure 8, remaining is same as Example 1.The workflow of the integrated equipment of the embodiment Also same as Example 1.

Embodiment 6

It is not shown, in the present embodiment, it is arranged on the track that rotary table 61 drives each first workbench 62 to rotate There are six station positions, and six station positions are uniformly distributed along the circumferencial direction that rotary table 61 rotates.Feeding station is under Expect station can co-located place, at this time be arranged a handling device 7 can be realized feeding and blanking operation；Certain feeding work It can also be spaced 90 degree or 180 degree setting between position and discharge station, need to be arranged two handling devices 7 at this time, be respectively set Expect station and blankers' bit positions.Positional stations can be arranged at same position with feeding station, may also be arranged on different At position.The direction of transfer of the length extending direction of dicing device, the length extending direction of printing equipment and blanking device 5 can It is parallel to each other, can also be vertical, remaining is same as Example 1.The workflow of the integrated equipment of the embodiment also with 1 phase of embodiment Together.

Embodiment 7

The integrated equipment further includes the first transmission module, and the first transmission module includes the running track 81 of fixed setting and lives Dynamic multiple second workbenches 82 and the first driving mechanism being arranged in running track 81, the first driving mechanism can drive respectively Extending direction of a second workbench 82 in running track 81 along running track 81 moves, and each second workbench 82 is transported At least provided with feeding station, positional stations, scribing station, printing station and discharge station, the first driving mechanism on capable track Can drive each second workbench 82 move in the horizontal plane to feeding station, positional stations, scribing station, printing station and Discharge station.

The vacuum adsorption mechanism for adsorbing cell piece, the second workbench are provided on each second workbench 82 It is provided with vacuum hole on 82 upper surface, can make to generate vacuum at each vacuum hole by vacuum adsorption mechanism, thus by cell piece It is adsorbed on the second workbench 82.

Feeding device 1 is arranged at feeding station position, and positioning device 2 is arranged at positional stations position, dicing device 3 Setting is arranged in printer's bit positions, blanking device 5 in discharge station position in scribing work bit positions, the setting of printing equipment 4 Set place.

In the embodiment, which also includes handling device 7, and handling device 7 is used for cell piece from feeding device 1 On be transported on the second workbench 82 at feeding station position, and by cell piece from be located at blankers' bit positions The second workbench 82 on be transported on blanking device 5.

In the present embodiment, running track 81 is rectilinear orbit, and the first transmission module further includes being arranged in parallel in rectilinear orbit The return trajectory of lower section, the first driving mechanism can also drive each second workbench 82 on return trajectory along return trajectory Length extending direction sliding.First transmission module further includes overturning for each second workbench 82 to be operated alone so that the The second driving mechanism that two workbenches 82 can shift one's position between rectilinear orbit and return trajectory, the second driving mechanism are set It sets at the both ends of rectilinear orbit.

In this embodiment, the first driving mechanism can drive each second workbench, 82 synchronization action, can also drive each The respective self contained function of a second workbench 82.

In the embodiment, feeding station and discharge station are located at the both ends of rectilinear orbit, and handling device 7 is arranged at this time There are two, be separately positioned on feeding station position and blankers' bit positions, positional stations are co-located with feeding station Place, along the length extending direction of rectilinear orbit, scribing station and printing station be set in sequence in feeding station and discharge station it Between, as shown in Figure 9.

The workflow of the integrated equipment of the embodiment is as follows:

(1) cell piece from feeding device 1 to feeding station at transmission in place after；

(2) cell piece is transported on the second workbench 82 at feeding station by handling device 7；

(3) positioning device 2 positions the position of cell piece；

(4) first driving mechanisms drive the second workbench 82 that cell piece is driven to move horizontally along rectilinear orbit, make battery Piece moves at scribing station and carries out dicing operation by dicing device 3；

(5) first driving mechanisms drive the second workbench 82 that cell piece continuation is driven to move horizontally along rectilinear orbit, make Cell piece moves at printing station and carries out printing operation by printing equipment 4；

(6) first driving mechanisms drive the second workbench 82 that cell piece continuation is driven to move horizontally along rectilinear orbit, make Cell piece moves at discharge station, and cell piece is transported to blanking device 5 from the second workbench 82 by handling device 7 On；

(7) second driving mechanisms drive the second workbench 82 overturning positioned at blankers' bit positions, thus make this Two workbenches 82 are transferred on return trajectory from rectilinear orbit；

The driving of (8) first driving mechanisms is located at the second workbench 82 on return trajectory along the reversed horizontal shifting of return trajectory Dynamic return to is located at feeding station following location directly；

(9) second driving mechanisms drive the second workbench 82 on return trajectory to overturn, to make second work Make platform 82 to be transferred on rectilinear orbit from return trajectory, that is, returns to initial position, such circulate operation.

According to the structure size of the integrated equipment, the first transmission module of multiple groups, such as Figure 10 can be set in the integrated equipment It is shown, in this way, scribing and printing operation can be carried out to multiple cell pieces simultaneously, to improve processing efficiency.

Embodiment 8

In the present embodiment, running track 81 is elliptic orbit, and feeding station and discharge station are located at elliptic orbit The both ends of long axis, handling device 7 is provided with two at this time, is separately positioned on feeding station position and blankers' bit positions, fixed Position station and the co-located place of feeding station, scribing station and printing station are set in sequence in feeding station and discharge station Between, in the embodiment, the length extending direction of dicing device and the parallel setting of the length extending direction of printing equipment, and with The direction of transfer of blanking device 5 is perpendicular, as shown in figure 11.

In this embodiment, initial position is returned to since each second workbench 82 can be run along elliptic orbit, No setting is required return trajectory and the second driving mechanism, remaining is same as Example 6.

The workflow of the integrated equipment of the embodiment is as follows:

(1) cell piece from feeding device 1 to feeding station at transmission in place after；

(2) cell piece is transported on the second workbench 82 at feeding station by handling device 7；

(3) positioning device 2 positions the position of cell piece；

(4) first driving mechanisms drive the second workbench 82 that cell piece is driven to move along elliptic orbit, transport cell piece It moves and dicing operation is carried out by dicing device 3 at scribing station；

(5) first driving mechanisms drive the second workbench 82 that cell piece continuation is driven to move along elliptic orbit, make battery Piece moves at printing station and carries out printing operation by printing equipment 4；

(6) first driving mechanisms drive the second workbench 82 that cell piece continuation is driven to move along elliptic orbit, make battery Piece moves at discharge station, is transported to cell piece on blanking device 5 from the second workbench 82 by handling device 7, Such circulate operation.

Embodiment 9

As shown in figure 12, which further includes the second transmission module, and the second transmission module includes that can move horizontally Mobile platform 91, the third workbench 92 that is fixed on mobile platform 91 and the 4th workbench 93, third driving Mechanism.Third driving mechanism driving mobile platform 91 drives third workbench 92 and the 4th workbench 93 to move horizontally, and moves The first station, second station and 3rd station, the first station and 3rd station are sequentially set on the track that moving platform 91 is run It is scribing station, second station is printing station.When the movement of mobile platform 91 makes third workbench 92 be in the first station When at position, the 4th workbench 93 is at second station position；When third workbench 92 is moved to second station position When place, the 4th workbench 93 is moved at 3rd station position.

The vacuum adsorption mechanism for adsorbing cell piece is provided on third workbench 92 and the 4th workbench 93, It is provided with vacuum hole on the upper surface of third workbench 92 and the 4th workbench 93, can be made by vacuum adsorption mechanism each true Vacuum is generated at emptying aperture, so that cell piece is adsorbed on third workbench 92 and the 4th workbench 93.

The integrated equipment further includes feeding station, positional stations and discharge station, these three stations are also separately positioned on At first station and 3rd station position.

It is respectively arranged with dicing device 3 at two scribing station positions, printer's bit positions are provided with printing equipment 4, Positioning device 2, feeding device 1 and blanking device 5 are also provided at first station and 3rd station position.

In the embodiment, which also includes handling device 7, and handling device 7 is used for cell piece from feeding device 1 On be transported on the third workbench 92 or the 4th workbench 93 at feeding station position, and by cell piece from position It is transported on blanking device 5 on the third workbench 92 or the 4th workbench 93 of blankers' Yu bit positions.

The workflow of the integrated equipment of the embodiment is as follows:

(1) after cell piece transmits in place from feeding device 1 to the first work bit positions；

(2) cell piece is transported on the third workbench 92 at the first station by handling device 7；

(3) after positioning device 2 positions the position of cell piece, scribing behaviour is carried out to cell piece by dicing device 3 Make；During this, printing equipment 4 carries out printing operation to the cell piece on the 4th workbench 93 being located at second station, And this cell piece has already passed through dicing operation；

(4) third driving mechanism driving mobile platform 91 drives third workbench 92 and the 4th workbench 93 and thereon Cell piece move horizontally, so that the third workbench 92 positioned at the first work bit positions is driven the mobile second station position of cell piece Place is set, and the 4th workbench 93 being located at second station position then drives cell piece to be moved at 3rd station position；

(5) printing operation is carried out to the cell piece being located on third workbench 92 by printing equipment 4；Meanwhile passing through Cell piece on 4th workbench 93 is transported on blanking device 5 and spreads out of by handling device 7；Before this, it is located at third work The feeding device 1 of bit positions by cell piece to be processed to transmission at 3rd station position and in place, then pass through again and remove Shipping unit 7 is transported to cell piece to be processed on the feeding device 1 at 3rd station position is located at positioned at 3rd station position On 4th workbench 93 at place, first pass through after positioning device 2 positions the position of cell piece, then pass through dicing device 3 Dicing operation is carried out to cell piece；

(6) third driving mechanism driving mobile platform 91 drives third workbench 92 and the 4th workbench 93 and thereon Cell piece reversely move horizontally, make the third workbench 92 being located at second station position back to the first station position Place, and be located at the 4th workbench 93 at 3rd station position and cell piece is then driven to return at second station position；

(7) cell piece being located on third workbench 92 is transported on blanking device 5 by handling device 7 and is spread out of； Before this, cell piece to be processed has been transmitted to the first work bit positions positioned at the feeding device 1 of the first work bit positions And in place, then cell piece to be processed on the feeding device 1 for being located at the first work bit positions is carried by handling device 7 again To being located on the third workbench 92 of the first work bit positions, first passes through positioning device 2 and the position of cell piece is positioned Afterwards, then by dicing device 3 to cell piece dicing operation is carried out；It is flat to the 4th work is located at by printing equipment 4 during this Cell piece on platform 93 carries out printing operation, such circulate operation.

The above embodiments are only for explaining the technical ideas and features of the present invention, and its object is to allow be familiar with technique Personage can understand the content of the utility model and be implemented, do not limit the protection scope of the present invention, All equivalent change or modifications according to made by the spirit of the present invention essence, should all cover in the protection scope of the utility model It is interior.

Claims (21)

1. a kind of integrated equipment for solar battery sheet manufacture, it is characterised in that: the solar battery sheet manufacture is set Standby includes dicing device and printing equipment, and the dicing device and the printing equipment are integrally disposed in the integrated equipment In.

2. the integrated equipment according to claim 1 for solar battery sheet manufacture, it is characterised in that: described integrally to set Standby further includes feeding device, in scribing and the preceding positioning device positioned to cell piece of printing and blanking device.

3. the integrated equipment according to claim 2 for solar battery sheet manufacture, it is characterised in that: described integrally to set Standby further includes turntable mechanism, the turntable mechanism include rotary table and be arranged on the rotary table multiple first Workbench, the rotary table drive on the track of each first workbench rotation at least provided with feeding station, Positional stations, scribing station, printing station and discharge station, the rotary table can drive each first workbench Cycle rotation is to the feeding station, the positional stations, the scribing station, the printing station and described in the horizontal plane Discharge station.

4. the integrated equipment according to claim 3 for solar battery sheet manufacture, it is characterised in that: the feeding work Position and the co-located place of the positional stations.

5. the integrated equipment according to claim 3 for solar battery sheet manufacture, it is characterised in that: the printing dress It installs in printer's bit positions, the length extending direction of the printing equipment and the direction of transfer of the blanking device It is parallel or perpendicular.

6. the integrated equipment according to claim 3 for solar battery sheet manufacture, it is characterised in that: the feeding work Position is 90 with the angle between the co-located place of the discharge station or the feeding station and the discharge station Degree.

7. the integrated equipment according to claim 3 for solar battery sheet manufacture, it is characterised in that: the feeding work Angle between position and the discharge station is 180 degree.

8. the integrated equipment according to any one of claim 3 ~ 7 for solar battery sheet manufacture, it is characterised in that: Eight station positions are provided on the track that the rotary table drives each first workbench to rotate.

9. the integrated equipment according to any one of claim 3 ~ 7 for solar battery sheet manufacture, it is characterised in that: There are six station positions for setting on the track that the rotary table drives each first workbench to rotate.

10. the integrated equipment according to any one of claim 3 ~ 6 for solar battery sheet manufacture, feature exist In: there are four station positions for setting on the track that the rotary table drives each first workbench rotation.

11. the integrated equipment according to claim 2 for solar battery sheet manufacture, it is characterised in that: the one Equipment further includes the first transmission module, and first transmission module includes the running track of fixed setting and is movably arranged on described Multiple second workbenches and the first driving mechanism in running track, first driving mechanism can drive each described Extending direction of two workbenches in the running track along the running track moves, each second workbench fortune At least provided with feeding station, positional stations, scribing station, printing station and discharge station, the driving mechanism on capable track Each second workbench can be driven to move in the horizontal plane to the feeding station, the positional stations, the scribing Station, the printing station and the discharge station.

12. the integrated equipment according to claim 11 for solar battery sheet manufacture, it is characterised in that: the operation Track is rectilinear orbit, and the transmission module further includes the return trajectory being arranged in parallel in below the rectilinear orbit, described One driving mechanism can also drive each second workbench on the return trajectory along the length of the return trajectory Extending direction sliding, the transmission module further includes making described second for each second working platform overturning to be operated alone Workbench can convert the second driving mechanism of position between the rectilinear orbit and the return trajectory.

13. the integrated equipment according to claim 12 for solar battery sheet manufacture, it is characterised in that: the feeding Station and the discharge station are located at the both ends of the rectilinear orbit.

14. the integrated equipment according to claim 12 for solar battery sheet manufacture, it is characterised in that: described second Driving mechanism is separately positioned on the both ends of the rectilinear orbit.

15. the integrated equipment according to claim 11 for solar battery sheet manufacture, it is characterised in that: the operation Track is elliptic orbit.

16. the integrated equipment according to claim 15 for solar battery sheet manufacture, it is characterised in that: the feeding Station and the discharge station are located at the both ends of the long axis of the elliptic orbit.

17. the integrated equipment according to claim 11 for solar battery sheet manufacture, it is characterised in that: the printing Device setting is in printer's bit positions, and the dicing device setting is in the scribing work bit positions, the printing dress The length extending direction set setting parallel with the length extending direction of the dicing device, and with the blanking conveyer Direction of transfer is perpendicular.

18. the integrated equipment according to claim 11 for solar battery sheet manufacture, it is characterised in that: described first Each second workbench of driving mechanism driving moves synchronously or first driving mechanism driving each described second Workbench respectively self-movement.

19. the integrated equipment according to claim 2 for solar battery sheet manufacture, it is characterised in that: the one Equipment further includes the second transmission module, and second transmission module includes the mobile platform that can be moved horizontally, is fixed at Third workbench and the 4th workbench, third driving mechanism on the mobile platform, the third driving mechanism driving The mobile platform drives the third workbench and the 4th workbench to move horizontally, the mobile platform operation The first station, second station and 3rd station are sequentially set on track, when the third workbench is in first work When bit positions, the 4th workbench is at the second station position, when the third workbench is in described When at second station position, the 4th workbench is at the 3rd station position, and the integrated equipment further includes drawing Piece station and printing station, the scribing station is separately positioned at first station and the 3rd station position, described Printing station is arranged at the second station position.

20. the integrated equipment according to claim 19 for solar battery sheet manufacture, it is characterised in that: the one Equipment further includes feeding station, discharge station and positional stations, the feeding station, the discharge station and the positional stations It is separately positioned at first station and the 3rd station position.

21. the integrated equipment according to claim 19 for solar battery sheet manufacture, it is characterised in that: the printing Device is arranged in printer's bit positions, and the dicing device is separately positioned on two scribing work bit positions, institute The length extending direction for stating printing equipment setting parallel with the length extending direction of the dicing device, and passed with the blanking Send the direction of transfer of device perpendicular.