CN210575882U - Battery slicing and arranging mechanism and battery slicing and conveying device - Google Patents

Abstract

The utility model relates to a regular mechanism of battery burst and battery burst conveyor. The cell slicing and arranging mechanism comprises a translation part and an arranging part; the regulating part comprises a mounting plate, a first regulating part and a second regulating part, the mounting plate is mounted on the movable part of the translation part, and the first regulating part and the second regulating part are respectively mounted on the mounting plate; the translation portion drives the mounting panel translation, and first regular piece promotes to treat that the first limit of regular battery burst is regular, and the second regular piece promotes the second limit of battery burst and is regular, and the second limit is two limits that the battery burst is adjacent with first limit. The utility model discloses a translation of translation portion to and then two regular parts that drive regular portion support respectively and lean on two adjacent edges at the battery burst, make the battery burst regular, the preface of being convenient for is handled the battery burst.

Description

Battery slicing and arranging mechanism and battery slicing and conveying device

Technical Field

The utility model relates to a solar cell production facility in photovoltaic field, specifically speaking are regular mechanism of battery burst and battery burst conveyor.

Background

The solar energy shingled cell is formed by arranging and packaging a plurality of shingled cell strings. Each laminated battery string comprises a plurality of battery pieces, a tail bus bar and a head bus bar, wherein the battery pieces are subjected to lamination processing, and the bus bars are additionally arranged at the head and the tail.

When the tile-folded battery string is produced, a large battery piece needs to be broken into small battery pieces by the piece breaking device, and then the battery pieces are conveyed to the lamination device by the battery piece conveying device to be stacked in a tile-folded mode to form the battery piece string.

And directly transferring the plurality of battery slices output by the slice severing device to a battery slice conveying device for conveying. The conventional battery slice conveying device only has a conveying function, a plurality of battery slices are arranged on the battery slice conveying device in an unordered mode and enter a conveying part of a subsequent lamination process irregularly, so that barriers are caused to lamination conveying, and the lamination efficiency of the subsequent lamination device is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the unordered problem of carrying of current battery burst conveyor, provide one kind and can arrange orderly regular mechanism of battery burst with the battery burst to and then provide a battery burst conveyor including the regular mechanism of this battery burst.

The utility model provides a technical scheme of battery burst regular mechanism as follows: a battery slicing and arranging mechanism comprises a translation part and an arranging part; wherein: the regulating part comprises a mounting plate, a first regulating part and a second regulating part, the mounting plate is mounted on the movable part of the translation part, and the first regulating part and the second regulating part are respectively mounted on the mounting plate; the translation portion drives the mounting panel translation, and first regular piece promotes to treat that the first limit of regular battery burst is regular, and the second regular piece promotes the second limit of battery burst and is regular, and the second limit is two limits that the battery burst is adjacent with first limit.

Through the translation of translation portion to and then two regular parts that drive regular portion lean on respectively and lean on two adjacent edges at battery burst, make the battery burst regular, the preface of being convenient for is handled the battery burst.

Further, the second regulating piece comprises a first baffle plate, the first baffle plate is arranged on the mounting plate, and the extending direction of the first baffle plate is parallel to the preset direction of the battery fragments after the second edges of the battery fragments are regulated; the first regulating piece comprises a blocking rod, the blocking rod is arranged on the mounting plate, and the blocking rod pushes the first edge of the cell sub-sheet to be regulated; or the first regulating piece comprises a pair of stop rods, the pair of stop rods are arranged on the mounting plate, and the direction of a straight line where the pair of stop rods are located is perpendicular to the extending direction of the first baffle; alternatively, the first organizing member comprises a second baffle plate, the second baffle plate is mounted on the mounting plate, and the extending direction of the second baffle plate is perpendicular to the extending direction of the first baffle plate.

The regulating part adopts a structure that the stop lever is combined with the baffle, so that the hard contact between the positioning piece and the battery fragment can be avoided, and the battery fragment is prevented from being damaged.

Further, when the first regulating piece adopts a pair of blocking rods, the distance between the two blocking rods is smaller than the side length of the first edge of the battery slicing; when the first regular piece adopts a second baffle, the second baffle is fixedly connected to the first baffle, or a gap exists between the second baffle and the first baffle.

The distance between the two stop rods is smaller than the side length of the first edge of the battery split piece, so that the first edge of the battery split piece is prevented from being simultaneously contacted with the two stop rods, and the positioning reliability is improved.

Furthermore, the number of the first regulating parts is at least two, each first regulating part is perpendicular to the first baffle plate and arranged at intervals, and the distance between every two adjacent first regulating parts is larger than the side length of the second edge of the cell sub-sheet.

Through arranging a plurality of first regular parts, can regulate the polylith battery burst simultaneously, improve regular efficiency.

Furthermore, the moving direction of the movable part of the translation part is intersected with the direction of the first edge and the direction of the second edge of the battery piece to be structured.

The translation part is obliquely crossed with the extending direction of the battery slices to be structured, and the adjustment in two directions can be completed by only adopting one part, so that the structure of the translation part is simplified.

Furthermore, the battery piece separating and arranging mechanism also comprises a lifting part, wherein the fixed part of the translation part is arranged on the movable part of the lifting part, and the lifting part is used for driving the translation part and the arranging part to lift; the translation part and the lifting part respectively adopt cylinders.

The lifting part drives the translation part to lift, so that the regular position of the regular part is lifted, and the arrangement is facilitated; the translation part and the lifting part adopt cylinders, so that the structure is simple, the cost is low, and the installation and the maintenance are convenient.

The utility model provides a battery burst conveyor's technical scheme as follows: a battery slicing and conveying device comprises a conveying belt, a guide frame and a battery slicing and arranging mechanism; wherein: the conveying belt is arranged on the guide frame and used for conveying the battery fragments; the cell slice arranging mechanism is arranged on the guide frame; the translation portion drives the first regulating piece and the second regulating piece of the regulating portion to respectively contact the first edge and the second edge of the battery fragments, so that the battery fragments are arranged neatly.

The battery slicing conveying device is provided with the arranging mechanism, so that the battery slices are arranged orderly, and the next procedure is convenient to process.

Furthermore, the number of the conveying belts is two, the two conveying belts are arranged on the guide frame in parallel and used for synchronously conveying the battery slices.

The conveyer belt sets up to two, makes the transportation of battery burst more steady.

Furthermore, the battery slicing and conveying device also comprises an angle adjusting mechanism; the angle adjusting mechanism is arranged on the guide frame and positioned at the feeding end of the conveying belt and used for adjusting the angle of the feeding end of the conveying belt relative to the horizontal plane.

The height of the feeding end of the conveying belt can be adjusted through the angle adjusting mechanism, and interference with the sheet breaking device is avoided.

Further, the battery slicing and regulating mechanism in the battery slicing and conveying device further comprises a lifting part, and the lifting part drives the translation part to lift, so that the regulating position of the regulating part is higher than the conveying belt.

Be provided with lift portion among the battery burst conveyor, can make regular position of regular portion be higher than the conveyer belt, be convenient for regular.

Drawings

Fig. 1 is a schematic perspective view of a battery slicing and conveying device of the present invention.

Fig. 2 is a schematic perspective view of the angle adjustment mechanism in fig. 1.

Fig. 3 is a schematic perspective view of the cell slice arranging mechanism in fig. 1.

Fig. 4 is a schematic perspective view of another view angle of the cell slice organizing mechanism in fig. 1.

Fig. 5 is a top view of fig. 4.

FIGS. 6-8 are schematic top views of three embodiments of the structured portion of FIG. 3.

Fig. 1 to 8 illustrate a battery piece separating and conveying device 1, a piece severing device 2, a battery piece arranging mechanism 10, a translation unit 11, an arranging unit 12, a mounting plate 121, a first arranging member 122, a stopper 1221, a second baffle 1222, a second arranging member 123, a first baffle 1231, a lifting unit 13, an arrow 14, a conveying belt 20, a transmission motor 21, a guide frame 30, an angle adjusting mechanism 40, an adjusting block 41, an adjusting bolt 42, and a battery piece 100.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

The utility model relates to a fold tile battery cluster production facility, specifically speaking are battery burst conveyor for carrying the battery burst to and be used for carrying out regular battery burst neat organization among this battery burst conveyor.

Fig. 1 shows an alternative embodiment of a battery segment transport apparatus, and fig. 1 is a perspective view of the apparatus. The battery piece separating and conveying device 1 is installed at a discharge end of the piece breaking device 2, the piece breaking device 2 is used for dividing a large battery piece into a plurality of small battery pieces 100, and the battery piece separating and conveying device 1 is used for conveying the battery pieces 100 to the next station. By arranging the arranging mechanism on the battery separating and conveying device 1, the battery separating pieces 100 are arranged orderly, and the next process is convenient to process.

The battery slice conveying device 1 comprises a conveying belt 20, a guiding frame 30 and a battery slice arranging mechanism 10. The conveyer belt 20 is arranged on the guide frame 30 and used for conveying the battery slices; the conveyor belt 20 is driven by a conveyor motor 21. The cell slice arranging mechanism 10 is mounted on the guide frame 30 and is used for arranging the cell slices 100 in order.

Alternatively, the two conveyor belts 20 are installed in parallel on the guide frame 30, and the battery segments 100 are conveyed simultaneously. The two conveying belts 20 are provided, so that the transportation of the battery segments 100 is more stable.

Optionally, the battery segment conveying device 1 further includes an angle adjusting mechanism 40. An angle adjustment mechanism 40 is mounted on the guide frame 30 and is positioned at the feed end of the conveyor belt 20 for adjusting the angle of the feed end of the conveyor belt 20 relative to the horizontal. The height of the feeding end of the conveyer belt 20 can be adjusted by the angle adjusting mechanism 40 to avoid interference with the sheet severing device.

Fig. 2 shows an embodiment of the angle adjustment mechanism 40. The angle adjusting mechanism 40 includes an adjusting block 41 and an adjusting bolt 42, and the adjusting block 41 is mounted on the guide frame 30 through the adjusting bolt 42. The angle of the adjusting block 41 is adjusted by the adjusting bolt 42, so that the structure is simple and the operation is convenient. The adjusting block 41 and the adjusting bolt 42 form an angle adjusting mechanism for adjusting the angle of the conveyer belt 20 relative to the horizontal plane, so as to more conveniently receive the battery segments 100 from the segment severing device 2.

Fig. 3-5 show an alternative embodiment of a cell slice arranging mechanism 10, with fig. 3 being a perspective view from one perspective of the mechanism, fig. 4 being a perspective view from another perspective of the mechanism, and fig. 5 being a top view of the mechanism. The cell slice arranging mechanism 10 includes a translation portion 11 and an arranging portion 12.

The regulating portion 12 includes a mounting plate 121, a first regulating member 122, and a second regulating member 123. The mounting plate 121 is attached to the movable portion of the translation unit 11, and the first and second regulating members 122 and 123 are respectively attached to the mounting plate 121. The translating part 11 drives the mounting plate 121 to translate, and an arrow 14 in fig. 5 indicates a moving direction of the movable portion of the translating part 11. The first regulating part 122 pushes a first edge of the battery split 100 to be regulated for regulation, the second regulating part 123 pushes a second edge of the battery split 100 for regulation, and the second edge and the first edge are two adjacent edges of the battery split 100. As shown, the first side is a long side of the battery segment 100, and the second side is a short side of the battery segment 100.

Through the translation of translation portion 11 to and then drive two regular pieces of regular part 12 and lean on respectively by two adjacent edges of battery piece 100, make battery piece 100 regular, be convenient for the subsequent processing to handle battery piece 100.

Fig. 6-8 are schematic views of three alternative embodiments of the leveling section 12. In these three embodiments, the second regulating member 123 includes a first baffle 1231, the first baffle 1231 is mounted on the mounting plate 121, and the extending direction of the first baffle 1231 is parallel to the preset direction after the second side of the battery piece 100 is regulated.

The first regulation member 122 includes three embodiments.

In a first embodiment shown in fig. 6, the first regulating member 122 includes a blocking rod 1221, the blocking rod 1221 is mounted on the mounting plate 121, and the blocking rod 1221 pushes the first side of the cell segments 100 to be regulated.

In a second embodiment shown in fig. 7, the first regulating member 122 includes a pair of blocking rods 1221, the pair of blocking rods 1221 are mounted on the mounting plate 121, and a direction of a straight line where the pair of blocking rods 1221 are located is perpendicular to an extending direction of the first blocking plate 1231.

Alternatively, when the first regulating member 122 employs a pair of stop rods 1221, the distance between the two stop rods 1221 is smaller than the side length of the first edge of the battery segment 100. The distance between the two stop rods 1221 is smaller than the side length of the first edge of the battery piece 100, so that the first edge of the battery piece 100 is prevented from simultaneously contacting with the two stop rods 1221, and the positioning reliability is improved.

In a third embodiment, shown in fig. 8, the first regulating member 122 comprises a second blocking plate 1222, the second blocking plate 1222 is mounted on the mounting plate 121, and the second blocking plate 1222 extends in a direction perpendicular to the first blocking plate 1231. Alternatively, the second barrier 1222 is fixedly coupled to the first barrier 1231, or spaced apart from the first barrier 1231. Alternatively, a stopper 1221 may be further provided, and the stopper 1221 is installed in the extending direction of the second shutter 1222.

The regulating part 12 adopts a structure that the stop lever 1221 is combined with the baffle, so that the hard contact between the positioning piece and the battery piece can be avoided, and the battery piece 100 can be prevented from being damaged.

Alternatively, as shown in fig. 5, the number of the first regulating members 122 is at least two, each first regulating member 122 is arranged perpendicular to the first baffle 1231 at intervals, and the distance between two adjacent first regulating members 122 is greater than the length of the second side of the battery segment 100. Through arranging a plurality of first regularity pieces 122, can rule polylith battery fragment 100 simultaneously, improve regular efficiency.

Optionally, the moving direction of the movable portion of the translation portion 11 intersects both the direction of the first edge and the direction of the second edge of the battery segment 100 to be structured. The translation part 11 is obliquely intersected with the extending direction of the battery sub-sheets 100 to be regulated, and the adjustment in two directions can be completed by only adopting one part, so that the structure of the translation part 11 is simplified.

Optionally, the battery slice arranging mechanism 10 further includes a lifting part 13, a fixed part of the translating part 11 is installed on a movable part of the lifting part 13, and the lifting part 13 is configured to drive the translating part 11 and the arranging part 12 to lift. When the lifting part 13 is in the lower position, the first regulating member 122 and the second regulating member 123 are lower than the conveying surface of the conveyor belt 20, and the conveying of the battery pieces 100 is not affected; when the cell segments 100 need to be regulated, the lifting unit 13 is lifted, and the first regulating member 122 and the second regulating member 123 regulate the cell segments 100 under the driving of the translation unit 11. The lifting part 13 drives the translation part 11 to lift, so that the regular position of the regular part 12 is higher than the conveying belt 20, and the arrangement is convenient.

Alternatively, the translation unit 11 and the lifting unit 13 may be cylinders. The air cylinder is adopted, so that the structure is simple, the cost is low, and the installation and the maintenance are convenient.

The working process of the application is as follows: as shown in fig. 1, the battery segments 100 after the sheet breaking-off by the sheet breaking-off device 2 are sequentially conveyed to the upper side of the battery segment arranging mechanism 10, the lifting unit 13 drives the translation unit 11 to lift, the translation unit 11 drives the mounting plate 121 to obliquely translate, so that the first arranging member 122 and the second arranging member 123 respectively contact with two sides of the battery segments 100, thereby achieving the purpose of arranging.

The invention has been described above with a certain degree of particularity and detail. It will be understood by those of ordinary skill in the art that the description of the embodiments is merely exemplary and that all changes that may be made without departing from the true spirit and scope of the present invention are intended to be within the scope of the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims (10)

1. A battery slicing and arranging mechanism is characterized by comprising a translation part and an arranging part; wherein:

the regulating part comprises a mounting plate, a first regulating part and a second regulating part, the mounting plate is mounted on the movable part of the translation part, and the first regulating part and the second regulating part are respectively mounted on the mounting plate; the translation portion drives the mounting plate to translate, the first regulating piece pushes a first edge of the cell sub-pieces to be regulated to regulate, the second regulating piece pushes a second edge of the cell sub-pieces to regulate, and the second edge and the first edge are two adjacent edges of the cell sub-pieces.

2. The cell slice organizing mechanism of claim 1 wherein the second organizing member comprises a first baffle plate mounted on the mounting plate, the first baffle plate extending in a direction parallel to a predetermined direction after the second side of the cell slices are organized;

the first regulating piece comprises a blocking rod, the blocking rod is arranged on the mounting plate, and the blocking rod pushes a first edge of the cell sub-sheet to be regulated;

or the first regulating piece comprises a pair of stop rods, the pair of stop rods are arranged on the mounting plate, and the direction of a straight line where the pair of stop rods are located is perpendicular to the extending direction of the first baffle;

or, first regular piece includes a second baffle, the second baffle is installed on the mounting panel, the extending direction of second baffle is perpendicular to the extending direction of first baffle.

3. The cell slice organizing mechanism of claim 2 wherein when a pair of bars are used as the first organizing member, the distance between the bars is less than the length of the first side of the cell slice; when the first regular piece adopts a second baffle, the second baffle is fixedly connected to the first baffle, or a gap is formed between the second baffle and the first baffle.

4. The cell slice organizing mechanism of claim 2 wherein the number of first organizing members is at least two, each first organizing member is spaced perpendicular to the first baffle, and the distance between two adjacent first organizing members is greater than the length of the second side of the cell slice.

5. The battery slice arranging mechanism of claim 1, wherein the moving direction of the movable portion of the translation portion intersects both the direction of the first edge and the direction of the second edge of the battery slices to be arranged.

6. The battery slice organizing mechanism of any one of claims 1-5, further comprising a lifting section, wherein a fixed portion of the translating section is mounted on a movable portion of the lifting section, and the lifting section is configured to move the translating section and the organizing section up and down;

the translation part and the lifting part respectively adopt cylinders.

7. A battery slice conveying device, which is characterized in that the battery slice conveying device comprises a conveying belt, a guide frame and a battery slice arranging mechanism according to any one of claims 1 to 5; wherein:

the conveying belt is arranged on the guide frame and used for conveying the battery pieces;

the cell slice arranging mechanism is arranged on the guide frame; the translation part drives the first regulating piece and the second regulating piece of the regulating part to respectively contact the first edge and the second edge of the battery fragments, so that the battery fragments are arranged neatly.

8. The battery slice conveying device according to claim 7, wherein the number of the conveying belts is two, the two conveying belts are installed on the guiding frame in parallel, and the battery slices are conveyed synchronously.

9. The battery segment conveying device according to claim 7, further comprising an angle adjusting mechanism; the angle adjusting mechanism is installed on the guide frame and located at the feeding end of the conveying belt and used for adjusting the angle of the feeding end of the conveying belt relative to the horizontal plane.

10. The device for conveying battery slices as claimed in claim 7, wherein the battery slice arranging mechanism further comprises a lifting part, a fixed part of the translation part is mounted on a movable part of the lifting part, and the lifting part is used for driving the translation part and the arranging part to lift; the lifting part drives the translation part to lift, so that the regular position of the regular part is higher than the conveying belt.

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