CN210272406U - Solar cell string typesetting equipment - Google Patents

Abstract

The utility model discloses a solar cell cluster typesetting equipment, including the frame, install in the frame and just make the platform and typeset the platform, be provided with the type setting portal frame above the type setting platform, should make the type setting portal frame can follow the X axle direction and remove, install the type setting manipulator on the type setting portal frame, should make the type setting manipulator be used for snatching the battery cluster of accomplishing and just making the battery cluster and arrange this battery cluster on the type setting platform. The solar cell string typesetting equipment is not only suitable for typesetting of half cell strings, but also suitable for typesetting of whole cell strings, is also suitable for typesetting of cell strings which are arranged along the X-axis direction and the Y-axis direction, has wide application range, realizes multiple purposes, has high automation degree, high typesetting position precision and typesetting consistency, and greatly improves the typesetting efficiency and effect of the solar cell strings.

Description

Solar cell string typesetting equipment

Technical Field

The utility model belongs to solar cell production field, concretely relates to solar cell cluster typesetting equipment.

Background

In the production process of the solar cell, the solar cell strings need to be typeset so as to facilitate the welding of the bus bars, the conventional solar cell string typesetting machine can only put the solar cell strings along one direction, and the typesetting of products with different arrangement directions of the solar cell strings needs two different devices, so that the production cost is high; in addition, the conventional solar cell string typesetting machine is only suitable for typesetting of the whole-piece type cell string and cannot be applied to half cell strings, and typesetting is performed after the two half cell strings are spliced manually, so that the splicing effect of the half cell strings is poor.

With the improvement of automation degree of a solar cell module production line, the existing typesetting machine can not meet production requirements gradually, so that typesetting equipment which is suitable for typesetting of cell strings in different arrangement directions and suitable for half cell strings and whole cell strings is imperative.

SUMMERY OF THE UTILITY MODEL

In view of the deficiencies in the prior art, the utility model provides a solar cell cluster typesetting equipment.

The utility model discloses a technical scheme be: provides a solar cell string typesetting device, which comprises a frame, wherein a correcting platform and a typesetting platform are arranged on the frame,

the righting platform is used for righting half battery strings and whole battery strings on the righting platform, and the typesetting platform is used for arranging the battery strings which are righted;

the battery string arranging device comprises a type-setting platform, a type-setting portal frame, a type-setting manipulator and a battery string arranging device, wherein the type-setting portal frame is arranged above the type-setting platform and can move along the X-axis direction, the type-setting manipulator is installed on the type-setting portal frame and used for grabbing battery strings after being corrected and arranging the battery strings on the type-setting platform, and the type-setting manipulator can move along the Y-axis direction.

As the improvement to the scheme, the reforming platform comprises at least two groups of reforming assemblies arranged side by side, each group of reforming assemblies can be provided with a whole battery string, each group of reforming assemblies comprises a first reforming plate and a second reforming plate arranged side by side, the first reforming plate and the second reforming plate can be respectively provided with a half battery string, and the second reforming plate can move along the X-axis direction and the Y-axis direction to correct the position of the whole battery string or the half battery string.

As an improvement to the above scheme, the reforming platform comprises two groups of reforming assemblies, the two groups of reforming assemblies are arranged side by side from front to back, a first reforming plate and a second reforming plate of each group of reforming assemblies are arranged side by side from left to right, and the second reforming plates of the two groups of reforming assemblies are arranged in an opposite angle; when two groups of the righting assemblies are respectively provided with one integral battery string, the second righting plate of one group of the righting assemblies moves along the X-axis direction and the Y-axis direction relative to the first righting plate of the other group of the righting assemblies so as to correct the position of the integral battery string; when two battery string half pieces are respectively placed on the two groups of the righting assemblies, the second righting plate of one group of the righting assemblies moves along the X-axis direction and the Y-axis direction relative to the first righting plate of the group of the righting assemblies so as to correct the positions of the battery string half pieces.

As an improvement to the above scheme, the correcting assembly further comprises an X-axis displacement mechanism and a Y-axis displacement mechanism, wherein the X-axis displacement mechanism and the Y-axis displacement mechanism are connected with the second correcting plate and can respectively drive the second correcting plate to move along the X-axis direction and the Y-axis direction;

the X-axis displacement mechanism comprises a positioning block connected to the side wall of the second correcting plate, and the positioning block is connected with the cam mechanism; the Y-axis displacement mechanism comprises a screw rod assembly, and a second correcting plate is connected to a screw rod nut.

As an improvement to the above scheme, the type-setting manipulator comprises a Y-axis translation mechanism and a rotation mechanism, wherein the Y-axis translation mechanism is connected to the type-setting gantry and can move along the Y-axis direction; the rotating mechanism is rotationally connected to the Y-axis translation mechanism; a sucker group is arranged at the bottom of the rotating mechanism and is used for sucking the battery string which is completely restored; the rotating mechanism can drive the sucker group to rotate by a preset angle;

this sucking disc group is provided with at least two sets ofly, and every sucking disc group is including the first sucking disc group and the second sucking disc group that set up side by side, and every sucking disc group can correspond and absorb a whole piece formula battery cluster, and this first sucking disc group, second sucking disc group can absorb a battery cluster half piece respectively.

As an improvement to the scheme, the material taking portal frame is arranged on the frame and can move along the X-axis direction, and the material taking manipulator is arranged on the material taking portal frame and used for grabbing the battery strings to be corrected and placing the battery strings on the correcting platform.

As an improvement to the above scheme, the material taking manipulator comprises a rotating mechanism and a material taking sucker group connected to the rotating mechanism, wherein the material taking sucker group is used for sucking a battery string to be restored, and the rotating mechanism can drive the material taking sucker group to rotate by a preset angle;

should get material sucking disc group and be provided with at least two sets ofly, every group gets material sucking disc group including the left sucking disc group and the right sucking disc group that set up side by side, and every group gets material sucking disc group and can correspond and absorb a whole piece formula battery cluster, and this left sucking disc group, right sucking disc group can absorb a battery cluster half piece respectively.

As an improvement to the above scheme, the solar cell string typesetting equipment further comprises a feeding mechanism, wherein the feeding mechanism comprises a translation component and a material platform connected to the translation component; the battery string to be corrected is arranged on the material platform, and the translation assembly can drive the material platform and the battery string to be corrected to move to the position below the material taking manipulator, so that the material taking manipulator can grab the battery string.

Has the advantages that: the utility model provides a solar cell cluster typesetting equipment, not only applicable in the half typesetting of battery cluster, still applicable in the typesetting of whole piece formula battery cluster, and be applicable to the battery cluster typesetting of arranging along X axle direction, Y axle direction simultaneously, the range of application is wide, has realized a tractor serves several purposes, and degree of automation is high, and typesetting position precision and typesetting uniformity are high, has improved the efficiency and the effect of typesetting of solar cell cluster by a wide margin.

Drawings

Fig. 1 is a schematic structural diagram of a solar cell string typesetting apparatus in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a reforming platform in an embodiment of the present application;

FIGS. 3 and 4 are schematic structural views of a centering assembly in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a typesetting manipulator in the embodiment of the present application;

FIG. 6 is a schematic diagram of a material extraction robot according to an embodiment of the present disclosure;

fig. 7 is a schematic illustration of the position of a battery string half grasped by the take-out robot.

Detailed Description

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

The utility model provides a solar cell cluster typesetting equipment, please refer to fig. 1, fig. 1 shows in the embodiment of the utility model provides an in the structure of solar cell cluster typesetting equipment, solar cell cluster typesetting equipment includes frame 10, installs on frame 10 and reforms platform 20 and typeset platform 30, typeset platform 30 is used for arranging the battery cluster.

The correcting platform 20 is used for correcting the half/whole battery strings on the battery string, and correcting the positions of the half/whole battery strings so as to ensure the precision of the space between the battery strings to be typeset, improve the typesetting consistency, and further improve the processing efficiency and the product quality of the subsequent process.

In this embodiment, the layout platform 30 is used to arrange the battery strings whose positions are corrected by the restoring platform 20.

Referring to fig. 2, fig. 2 shows a structure of the reforming platform 20 according to an embodiment of the present invention, the reforming platform 20 includes at least two sets of reforming assemblies 21, the embodiment takes two sets of reforming assemblies 21 as an example for illustration, the two sets of reforming assemblies 21 are installed side by side in front and at back on a substrate 22, and the substrate 22 is installed on the frame 10.

Note that, the front-back direction described herein refers to the X-axis direction, and the left-right direction described herein refers to the Y-axis direction; the X-axis direction described herein refers to the long direction of the gantry 10, and the Y-axis direction described herein refers to the wide direction of the gantry 10.

Each group of the righting assemblies 21 can be provided with an integral battery string, each group of the righting assemblies 21 comprises a first righting plate 211 and a second righting plate 212 which are arranged side by side from left to right, the first righting plate 211 and the second righting plate 212 can be respectively provided with a battery string half, and the second righting plate 212 can move along the X-axis direction and the Y-axis direction to correct the position of the integral battery string or the battery string half.

Each group of the righting assemblies 21 comprises a first righting plate 211 and a second righting plate 212 which are arranged side by side from left to right, the first righting plate 211 and the second righting plate 212 can be respectively provided with a battery string and a half, and the second righting plates 212 of the two groups of the righting assemblies are arranged diagonally.

Specifically, when two groups of righting assemblies are respectively provided with one integral battery string, the second righting plate of one group of righting assemblies moves along the X-axis direction and the Y-axis direction relative to the first righting plate of the other group of righting assemblies so as to correct the position of the integral battery string; when two half battery strings are respectively placed on the two groups of the righting assemblies, the second righting plate of one group of the righting assemblies moves along the X-axis direction and the Y-axis direction relative to the first righting plate of the group of the righting assemblies so as to correct the positions of the half battery strings, and the relative positions of the two half battery strings meet the requirements of the whole battery string.

Further, the aligning assembly 21 further includes an X-axis displacement mechanism 23 and a Y-axis displacement mechanism 24, please refer to fig. 3 and 4, where fig. 3 and 4 respectively show the top and bottom structures of the aligning assembly 21, and the X-axis displacement mechanism 23 and the Y-axis displacement mechanism 24 are connected to the second aligning plate 212 to respectively drive the second aligning plate 212 to move along the X-axis direction and the Y-axis direction.

When the battery strings to be corrected are of a whole piece type, each battery string is placed on one group of correcting assemblies 21, and the X-axis displacement mechanism 23 and the Y-axis displacement mechanism 24 of the latter two groups of correcting assemblies 21 respectively drive the corresponding second correcting plates 212 to move along the X-axis direction and the Y-axis direction relative to the first correcting plates 211 of the other group of correcting assemblies so as to correct the positions of the two whole piece type battery strings on the two groups of correcting assemblies 21; when the battery string to be restored is a half-piece type, each battery string is placed on one restoring plate, two battery string half-pieces placed on the first restoring plate 211 and the second restoring plate 212 of each group of restoring assemblies 21 form a group, and the X-axis displacement mechanism 23 and the Y-axis displacement mechanism 24 of each group of restoring assemblies 21 respectively drive the corresponding second restoring plate 212 to move along the X-axis direction and the Y-axis direction relative to the first restoring plate 211 of the group of restoring assemblies, so as to correct the relative positions of the two battery string half-pieces on each group of restoring assemblies 21, and enable the battery string to be spliced into a whole-piece type battery string.

With continued reference to fig. 3 and 4, in the present embodiment, the X-axis displacement mechanism 23 includes a positioning block 230 fixedly connected to an inner side wall of the second centering plate 212 extending along the Y-axis direction, and the positioning block 230 protrudes above a top surface of the second centering plate 212 and can be used to limit a position of the battery string placed on each set of centering assemblies 21.

Further, the positioning block 230 is connected to a cam mechanism, the cam mechanism includes a driving motor 231, a cam shaft 232 and a cam 233 connected to the cam shaft 232, a rim of the cam 233 abuts against the positioning block 230, and the driving motor 231 drives the cam shaft 232 and the cam 233 to rotate by a predetermined angle, so that the positioning block 230 drives the second correcting plate 212 to move by a predetermined distance along the X-axis direction.

In one embodiment, the cam mechanism further includes a connecting plate 234, the connecting plate 234 is fixedly connected to an inner sidewall of the second centering plate 212 extending along the Y-axis direction, the positioning block 230 is fixedly mounted on the connecting plate 234, and a rim of the cam 233 abuts on the connecting plate 234.

In this embodiment, the Y-axis displacement mechanism 24 includes a screw assembly, the second correcting plate 212 is connected to a screw nut, the length direction of the screw is arranged to extend along the Y-axis direction, and the motor drives the screw to rotate and convert into linear motion of the screw nut, so as to drive the second correcting plate 212 to move along the Y-axis direction.

Preferably, the second aligning plate 212 is connected to auxiliary guide rails extending in the X-axis direction and the Y-axis direction, and when the X-axis displacement mechanism 23 and the Y-axis displacement mechanism 24 drive the second aligning plate 212 to move in the X-axis direction and the Y-axis direction, the second aligning plate 212 slides along the X-axis direction auxiliary guide rails and the Y-axis direction auxiliary guide rails, respectively.

In one embodiment, the inner side wall of the first centering plate 211 extending along the Y-axis direction is also provided with a positioning block, which is used for cooperating with the positioning block 230 on the same group of centering assemblies to define the position of the battery string placed on each group of centering assemblies 21; meanwhile, the positioning block on one set of the righting assembly is in contact with the positioning block 230 on the other set of the righting assembly, and when the positioning block 230 moves along the X-axis direction, the positioning block and the first righting plate 211 are driven to synchronously move along the X-axis direction, so as to correct the position of the battery string in the X-axis direction.

In one embodiment, the first aligning plate 211 is also connected with a Y-axis displacement mechanism, the Y-axis displacement mechanism is configured to drive the first aligning plate 211 to move along the Y-axis direction, when the battery string to be aligned is an integral battery, the Y-axis displacement mechanism connected to the first aligning plate 211 in the same group of aligning assemblies and the Y-axis displacement mechanism connected to the second aligning plate 212 operate synchronously, and the first aligning plate 211 and the second aligning plate 212 move synchronously along the Y-axis direction, so as to correct the position of the integral battery string in the Y-axis direction. It will be appreciated that when the cell string to be normalized is half-chip, the Y-axis displacement mechanism connected to the first correcting plate 211 and the Y-axis displacement mechanism connected to the second correcting plate 212 in the same set of correcting assemblies are not operated synchronously, or the Y-axis displacement mechanism connected to the first correcting plate 211 is not operated.

It is understood that in other embodiments, the X-axis displacement mechanism and the Y-axis displacement mechanism may be configured as other displacement mechanisms in the prior art, such as a linear motor guide mechanism, a rack and pinion mechanism, and the like.

Referring to fig. 1, in the present embodiment, a layout gantry 40 is disposed above the layout platform 30, the layout gantry 40 is movable along the X-axis direction, and a layout manipulator 41 is mounted on the layout gantry 40, and the layout manipulator 41 is configured to grab the battery string that is completely straightened by the straightening platform 20 and arrange the battery string on the layout platform 30. The layout robot 41 is movable in the X-axis direction along with the layout gantry 40 to approach or separate from the reforming platform 20, and arranges the reformed battery strings on the layout platform 30 in the X-axis direction.

Further, the layout portal frame 40 is connected to the frame 10, a guide rail 101 extending along the X-axis direction is disposed on the frame 10, the layout portal frame 40 is slidably connected to the guide rail 101 through a slider, and the layout portal frame 40 can be driven by a cylinder or a motor to move on the guide rail 101 along the X-axis direction.

Referring to fig. 5, fig. 5 shows the structure of the type-setting manipulator 41 in the embodiment of the present invention, the type-setting manipulator 41 includes a Y-axis translation mechanism 411 and a rotation mechanism 412, wherein the Y-axis translation mechanism 411 is connected to the type-setting portal frame 40 and can move along the Y-axis direction, and when the type-setting portal frame 40 moves along the X-axis direction, the Y-axis translation mechanism 411 moves along the X-axis direction at the same time; the rotating mechanism 412 is rotatably connected to the Y-axis translating mechanism 411, and when the Y-axis translating mechanism 411 moves along the Y-axis direction, the rotating mechanism 412 moves along the Y-axis direction at the same time; a sucker group 413 is installed at the bottom of the rotating mechanism 412, the sucker group 413 is used for sucking the battery string after being straightened, and the rotating mechanism 412 can drive the sucker group 413 to rotate for a preset angle.

Specifically, a guide rail 401 extending along the Y-axis direction is arranged on the layout portal frame 40, the Y-axis translation mechanism 411 is slidably connected to the guide rail 401 through a slider, and the Y-axis translation mechanism can be driven by an air cylinder or a motor to move on the guide rail 401 along the Y-axis direction; the rotating mechanism 412 can be driven by a motor or a rotating cylinder to rotate, so as to drive the sucker group 413 and the battery string which is subjected to the correction to rotate by a predetermined angle. The rotating mechanism 412 is driven by a motor or a rotating cylinder to rotate around its center.

The sucker groups 413 and the reforming component 21 on the reforming platform 20 are arranged correspondingly, in this embodiment, the sucker groups 413 are arranged in two groups, and each sucker group 413 is used for sucking one whole battery string or two half battery strings.

In this embodiment, the type-setting manipulator 41 is further adapted to arrange the battery strings on the type-setting platform 30 along the Y-axis direction, and specifically, after the sucker group 413 grabs the battery strings that are completely set by the setting platform 20, the rotating mechanism 412 drives the battery strings to rotate 90 °, and then the Y-axis translation mechanism drives the battery strings to arrange on the type-setting platform 30 along the Y-axis direction.

In one embodiment, the typesetting manipulator 41 further includes a lifting mechanism, the lifting mechanism is connected to the Y-axis translation mechanism 411, the rotating mechanism 412 is connected to the lifting mechanism, and the lifting mechanism can be driven by a motor or an air cylinder to move up and down to drive the suction cup set 413 to move up and down, so as to complete the actions of grabbing the battery strings and arranging the battery strings.

To sum up, the solar cell string typesetting equipment provided by the utility model is not only suitable for the typesetting of half cell strings, but also suitable for the typesetting of whole cell strings, and is also suitable for the typesetting of cell strings arranged along the X-axis direction and the Y-axis direction, and the application range is wide; the half-piece and whole-piece battery strings of the battery string are subjected to position correction by the correcting platform 20, so that the typesetting position precision is high, the typesetting consistency is high, the multiple purposes of one machine are realized, and the automation degree is high; and the solar cell string typesetting equipment performs typesetting by taking the two cell strings as a unit, thereby greatly improving the typesetting efficiency and effect of the solar cell strings.

In this embodiment, a material taking gantry 50 is further installed on the frame 10, the material taking gantry 50 can move along the X-axis direction, a material taking manipulator 51 is installed on the material taking gantry 50, and the material taking manipulator 51 is used for grabbing a battery string to be normalized and placing the battery string on the normalization platform 20. The material taking manipulator 51 can move along with the material taking gantry 50 along the X-axis direction to get away from or close to the reforming platform 20 so as to grab the battery string to be reformed and place the battery string on the reforming platform 20.

Further, should get material portal frame 50 and connect on this frame 10, be provided with the guide rail 101 that extends along the X axle direction on this frame 10, should get material portal frame 50 and pass through slider sliding connection on this guide rail 101, should get material portal frame 50 and can be moved along the X axle direction on this guide rail 101 by cylinder or motor drive.

Referring to fig. 6, fig. 6 shows a structure of the material taking manipulator 51 according to an embodiment of the present invention, the material taking manipulator 51 includes a rotating mechanism 511 and a material taking sucker group 512 connected to the rotating mechanism 511, the rotating mechanism 511 can drive the material taking sucker group 512 to rotate by a predetermined angle, and the material taking sucker group 512 is used for sucking a battery string to be restored. The rotating mechanism 511 is connected to the reclaiming gantry 50, and when the reclaiming gantry 50 moves along the X-axis direction, the rotating mechanism 511 moves along the X-axis direction at the same time.

The rotating mechanism 511 can be driven by a motor or a rotating cylinder to rotate so as to drive the material taking sucker group 512 to rotate the battery string for a predetermined angle. The rotating mechanism 511 is rotated around its center by a motor or a rotating cylinder.

The material taking sucker group 512 and the reforming component 21 on the reforming platform 20 are arranged correspondingly, in the embodiment, the material taking sucker group 512 is arranged in two groups side by side, and each group of material taking sucker group 512 can correspondingly absorb one whole battery string or two half battery strings.

Further, each group of material taking sucker group 512 comprises a left sucker group 5121 and a right sucker group 5122 which are arranged side by side, and the left sucker group 5121 and the right sucker group 5122 can respectively suck a half cell string.

Referring to fig. 7, fig. 7 is a schematic position diagram of a battery string half piece captured by the material fetching manipulator 51, in this embodiment, when the battery string to be normalized is a battery string half piece, the material fetching step of the material fetching manipulator 51 is as follows:

(1) in the two groups of material taking sucker groups 512, a left sucker group 5121 of the first group of material taking sucker group and a right sucker group 5122 of the second group of material taking sucker group respectively suck a battery string half piece A, D;

(2) the rotating mechanism 511 drives the two material taking sucker groups 512 to rotate 180 degrees;

(3) a right sucker group 5122 of the first group of material taking sucker group and a left sucker group 5121 of the second group of material taking sucker group respectively suck a battery string half piece C, B;

(4) the material taking gantry 50 drives two sets of material taking sucker groups and two sets of battery string halves A/C, B/D to move along the X-axis direction on the guide rail 101, move to the reforming platform 20, and place the two sets of battery string halves on the reforming platform 20.

In the step (2), the material taking sucker group 512 rotates 180 degrees, so that the polarities of the half battery string A, D sucked by the left sucker group 5121 of the first group of material taking sucker group and the right sucker group 5122 of the second group of material taking sucker group in the step (1) are matched with the polarities of the half battery string C, B sucked by the right sucker group 5122 of the first group of material taking sucker group and the left sucker group 5121 of the second group of material taking sucker group in the step (3), and the typesetting efficiency of the half battery string is further improved.

It can be understood that, when the battery string to be restored is a whole-chip battery string, two sets of material taking sucker groups 512 respectively grab a whole-chip battery string, and the material taking portal frame 50 drives two sets of material taking sucker groups 512 and two sets of whole-chip battery strings to move along the X-axis direction on the guide rail 101, move to the position of the restoring platform 20, and place two sets of whole-chip battery strings on the restoring platform 20.

In one embodiment, the material taking manipulator 51 further includes a lifting mechanism, the lifting mechanism is connected to the material taking gantry 50, the rotating mechanism 511 is connected to the lifting mechanism, and the lifting mechanism can be driven by a motor or an air cylinder to move up and down to drive the material taking sucker set 512 to move up and down, so as to complete the actions of grabbing the battery string and placing the battery string.

With reference to fig. 1, the solar cell string typesetting apparatus further includes a feeding mechanism 60, the feeding mechanism 60 is used for conveying the cell strings to be reformed to the material taking manipulator 51, the feeding mechanism 60 includes a translation assembly 61 and a material table 62 connected to the translation assembly 61; the battery string to be normalized is placed on the material table 62, and the translation assembly 61 can drive the material table 62 and the battery string to be normalized to move to the lower side of the material taking manipulator 51, so that the material taking manipulator 51 can grab the battery string to be normalized.

In this embodiment, the feeding mechanism 60 is disposed at a side portion of the rack 10, the translation assembly 61 can drive the material platform 62 and the battery string to be normalized to move along the Y-axis direction, and move to a position below the material taking manipulator 51, and then the material taking manipulator 51 captures the battery string disposed on the material platform 62. The translation assembly 61 can be driven by a motor or a cylinder to move along the Y-axis direction.

Further, two feeding mechanisms 60 are arranged on two sides of the rack 10, the translation assemblies 61 of the two feeding mechanisms 60 operate alternately, and the two feeding mechanisms 60 alternately convey the battery strings to be normalized to the lower part of the material taking manipulator 51. Specifically, when the feeding mechanism 60 disposed on one side of the rack 10 moves to the position below the material taking manipulator 51 along the Y-axis direction, and after the transportation of the battery string to be restored is completed, the feeding mechanism 60 is away from the material taking manipulator 51 along the Y-axis direction, at this time, the feeding mechanism 60 disposed on the other side of the rack 10 is close to the material taking manipulator 51 along the Y-axis direction, so as to transport the battery string to be restored to the position below the material taking manipulator 51.

Two these feeding mechanism 60 transport in turn and wait to reform transform the battery cluster, have realized waiting to reform transform the battery cluster and transport and the continuous operation who snatchs, improved the utility model discloses solar cell cluster typesetting equipment's typesetting efficiency.

In one embodiment, the feeding mechanism 60 further comprises a rotating assembly connected to the translating assembly 61 and movable with the translating assembly 61 along the Y-axis direction, and the material table 62 is connected to the rotating assembly. The translation assembly 61 drives the material platform 62 and the battery strings to be restored to move below the material taking manipulator 51, and before the material taking manipulator 51 runs, the rotation assembly can drive the material platform 62 to rotate by a preset angle, so that the arrangement direction of the battery strings to be restored on the material platform 62 is consistent with the arrangement direction of the material taking sucker group 512. It is understood that in other embodiments, the material taking chuck set 512 may be arranged in the same direction as the arrangement direction of the cells to be normalized on the material table 62 by rotating the material taking manipulator 51 by the predetermined angle.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (8)

1. A solar cell string typesetting device comprises a frame, and is characterized in that a correcting platform and a typesetting platform are arranged on the frame, wherein,

the righting platform is used for righting half battery strings and whole battery strings on the righting platform, and the typesetting platform is used for arranging the battery strings which are righted;

the battery string arranging device comprises a type-setting platform, a type-setting portal frame, a type-setting manipulator and a battery string arranging device, wherein the type-setting portal frame is arranged above the type-setting platform and can move along the X-axis direction, the type-setting manipulator is installed on the type-setting portal frame and used for grabbing battery strings after being corrected and arranging the battery strings on the type-setting platform, and the type-setting manipulator can move along the Y-axis direction.

2. The solar cell string typesetting device according to claim 1, wherein the reforming platform comprises at least two groups of reforming assemblies arranged side by side, each group of reforming assemblies can be provided with a whole cell string, each group of reforming assemblies comprises a first reforming plate and a second reforming plate arranged side by side, the first reforming plate and the second reforming plate can be respectively provided with a half cell string, and the second reforming plate can move along the X-axis direction and the Y-axis direction to correct the position of the whole cell string or the half cell string.

3. The solar cell string composition device according to claim 2, wherein the reforming platform comprises two sets of reforming assemblies, the two sets of reforming assemblies are arranged side by side in front and back, the first reforming plate and the second reforming plate of each set of reforming assemblies are arranged side by side in left and right, and the second reforming plate of the two sets of reforming assemblies is arranged diagonally; when two groups of the righting assemblies are respectively provided with one integral battery string, the second righting plate of one group of the righting assemblies moves along the X-axis direction and the Y-axis direction relative to the first righting plate of the other group of the righting assemblies so as to correct the position of the integral battery string; when two battery string half pieces are respectively placed on the two groups of the righting assemblies, the second righting plate of one group of the righting assemblies moves along the X-axis direction and the Y-axis direction relative to the first righting plate of the group of the righting assemblies so as to correct the positions of the battery string half pieces.

4. The solar cell string typesetting device according to claim 2, wherein the reforming assembly further comprises an X-axis displacement mechanism and a Y-axis displacement mechanism, the X-axis displacement mechanism and the Y-axis displacement mechanism are connected with the second reforming plate and can respectively drive the second reforming plate to move along the X-axis direction and the Y-axis direction;

the X-axis displacement mechanism comprises a positioning block connected to the side wall of the second correcting plate, and the positioning block is connected with the cam mechanism; the Y-axis displacement mechanism comprises a screw rod assembly, and a second correcting plate is connected to a screw rod nut.

5. The solar cell string typesetting apparatus according to claim 1, wherein the typesetting manipulator comprises a Y-axis translation mechanism and a rotation mechanism, wherein the Y-axis translation mechanism is connected to the typesetting gantry and can move along the Y-axis direction; the rotating mechanism is rotationally connected to the Y-axis translation mechanism; a sucker group is arranged at the bottom of the rotating mechanism and is used for sucking the battery string which is completely restored; the rotating mechanism can drive the sucker group to rotate by a preset angle;

this sucking disc group is provided with at least two sets ofly, and every sucking disc group is including the first sucking disc group and the second sucking disc group that set up side by side, and every sucking disc group can correspond and absorb a whole piece formula battery cluster, and this first sucking disc group, second sucking disc group can absorb a battery cluster half piece respectively.

6. The solar cell string typesetting apparatus according to claim 1, wherein a material taking gantry is mounted on the frame, the material taking gantry is movable along the X-axis direction, and a material taking manipulator is mounted on the material taking gantry, and the material taking manipulator is used for grabbing the cell string to be reformed and placing the cell string on the reforming platform.

7. The solar cell string typesetting equipment according to claim 6, wherein the material taking manipulator comprises a rotating mechanism and a material taking sucker group connected to the rotating mechanism, the material taking sucker group is used for sucking the cell strings to be straightened, and the rotating mechanism can drive the material taking sucker group to rotate by a preset angle;

should get material sucking disc group and be provided with at least two sets ofly, every group gets material sucking disc group including the left sucking disc group and the right sucking disc group that set up side by side, and every group gets material sucking disc group and can correspond and absorb a whole piece formula battery cluster, and this left sucking disc group, right sucking disc group can absorb a battery cluster half piece respectively.

8. The solar cell string typesetting device according to claim 6, further comprising a feeding mechanism, wherein the feeding mechanism comprises a translation component and a material platform connected to the translation component; the battery string to be corrected is arranged on the material platform, and the translation assembly can drive the material platform and the battery string to be corrected to move to the position below the material taking manipulator, so that the material taking manipulator can grab the battery string.

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