CN218878570U - Automatic mould feeding mechanism that connects of power lithium cell - Google Patents

Abstract

The utility model relates to the technical field of power lithium battery processing, in particular to an automatic die connecting and feeding mechanism for a power lithium battery, which comprises a transverse conveying plate, wherein a sliding groove is formed in the transverse conveying plate along the length direction, a material connecting platform is arranged in the sliding groove, a guide rail is arranged on the transverse conveying plate along the length direction, and a sliding seat is slidably arranged on the guide rail; the material receiving platform comprises a supporting plate and a material receiving plate, the material receiving plate is provided with a plurality of adsorption holes, the adsorption holes are provided with sucker pieces for adsorbing the aluminum films, and the material receiving plate is also provided with a positioning groove along the length direction; when the aluminum film is required to be connected with the material, the material connecting table slides along the guide rail of the transverse conveying plate, so that the sliding stability and the accuracy are better, after the material connecting table slides to a specified position, the material connecting table moves longitudinally, the material connecting plate is used for connecting the aluminum film, the aluminum film is arranged on the material connecting plate through the positioning groove and the double positioning of the sucker piece, and when the transverse conveying plate is transferred, the aluminum film cannot shift and offset, the subsequent wrapping and rolling quality is ensured, the double-shaft linkage can be realized, and the production efficiency is improved.

Description

Automatic mould feeding mechanism that connects of power lithium cell

Technical Field

The utility model relates to a lithium battery machining technical field especially relates to automatic mould feeding mechanism that connects of power lithium cell.

Background

At present, most lithium battery manufacturers rely on purchasing single production equipment to form a lithium battery production line for lithium battery production, but still mainly adopt semi-automatic equipment and single-machine automatic equipment. In addition, a series of key process technical problems still exist in the aspects of safety, consistency, quality control, large-scale manufacturing process and the like of the manufacturing process of the power lithium battery in China to be urgently solved. Therefore, the key common technology restricting the batch and scale manufacturing of the power lithium battery is broken through, the key manufacturing equipment and the automatic production line of the power lithium battery with the independent intellectual property rights of China are researched and developed, and the key manufacturing equipment and the automatic production line have important strategic significance for developing new energy, electric vehicles, high-end equipment manufacturing and other strategic emerging industries of China.

In the production line of the power lithium battery, after the battery is welded, the battery needs to be matched with an aluminum film, the battery is sealed by an aluminum-plastic film after being assembled to form the battery, and the aluminum-plastic film plays a role in protecting contents. Therefore, the aluminum film needs to be positioned and then transferred to a specified position to be matched with the battery for wrapping; the precision is more general when transferring with the blowing in current aluminum film battery, and the aluminium membrane is lamellar structure, shifts easily when transferring, leads to follow-up easy deviation that appears when cooperating with the battery, influences the quality of package book.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a power lithium cell connects mould feeding mechanism automatically to prior art's not enough.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the automatic die connecting and feeding mechanism for the power lithium battery comprises a transverse conveying plate, wherein a sliding groove is formed in the transverse conveying plate along the length direction, a material receiving table for transferring an aluminum film is arranged on the sliding groove in a reciprocating manner, more than one guide rail is arranged on the transverse conveying plate along the length direction, and a sliding seat for supporting the material receiving table is slidably arranged on the guide rail; connect the material platform to include the backup pad and can install the flitch that connects at the backup pad top with longitudinal movement, connect the flitch to have seted up a plurality of absorption holes, adsorb the hole and install and carry out absorbent sucking disc spare to the aluminium membrane, connect the flitch still to have seted up the constant head tank along length direction.

And further: the quantity of guided way is more than two to arrange respectively in the sliding tray both sides, two adjacent guided ways are parallel to each other, and the sliding seat is connected in the backup pad bottom.

Further: the transverse conveying plate is further provided with a transverse driving piece which drives the supporting plate to reciprocate along the length direction of the guide rail along the length direction, and the material receiving platform further comprises a longitudinal driving piece which drives the material receiving plate to longitudinally move in the vertical direction.

Further: the transverse driving member comprises a transverse screw rod piece arranged in parallel to the guide rail, a transverse screw sleeve seat is nested on the transverse screw rod piece, and the transverse screw sleeve seat is connected with the supporting plate.

And further: and the two ends of the transverse screw rod piece are respectively provided with a transverse bearing seat, the outer side of one transverse bearing seat is provided with a transverse stepping motor in transmission connection with the transverse screw rod piece, and the transverse screw sleeve seat is provided with a transverse connecting block connected with the supporting plate.

And further: the longitudinal driving piece comprises a bottom lifting plate arranged below the transverse conveying plate, a longitudinal screw rod piece is installed on the bottom lifting plate, the top of the longitudinal screw rod piece penetrates through the supporting plate to be connected with the material receiving plate, and a longitudinal screw sleeve seat in transmission connection with the longitudinal screw rod piece is installed on the supporting plate.

Further: connect flitch bottom to be provided with the support frame, the top lifter plate is installed to the support frame bottom, and vertical bearing frame is installed respectively to top lifter plate and bottom lifter plate, and vertical lead screw spare both ends are installed respectively between top lifter plate and bottom lifter plate.

Further: the bottom lifting plate is provided with a bottom servo motor which is in transmission connection with the longitudinal screw rod piece, a plurality of guide rods are further arranged between the top lifting plate and the bottom lifting plate, and the support plate is provided with a guide sleeve for the guide rods to slide through.

Further: still install bottom stop device between top lifter plate and the bottom lifter plate, bottom stop device includes vertical mounting bar, and vertical mounting groove has been seted up along length direction to vertical mounting bar, and slidable mounting has a plurality of bottom distance sensors on vertical mounting groove, and the backup pad is installed and is responded to the piece with bottom distance sensor complex bottom.

Further: horizontal mounting bar is installed to one of them lateral wall extension degree direction of horizontal transport board, and horizontal mounting groove has been seted up along length direction to horizontal mounting bar, and slidable mounting has a plurality of top distance sensor on the horizontal mounting groove, and the backup pad is installed and is responded to the piece with top distance sensor complex top.

The utility model has the advantages that: when the aluminum film is required to be connected with the material, the material connecting table slides along the guide rail of the transverse conveying plate, so that the sliding stability and the accuracy are better, after the material connecting table slides to a specified position, the material connecting table moves longitudinally, the material connecting plate is used for connecting the aluminum film, the aluminum film is arranged on the material connecting plate through the positioning groove and the double positioning of the sucker piece, and when the transverse conveying plate is transferred, the aluminum film cannot shift and offset, the subsequent wrapping and rolling quality is ensured, the double-shaft linkage can be realized, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an automatic mold receiving and feeding mechanism.

Fig. 2 is a schematic structural view of the transverse driving member connected with the receiving platform.

Fig. 3 is a schematic structural view of the connection between the longitudinal driving member and the receiving platform.

The reference numerals include:

1-transverse conveying plate,

11-sliding groove, 12-guide rail, 13-sliding seat, 14-transverse mounting bar, 15-transverse mounting groove,

16-top distance sensor, 17-top induction block,

2-a material receiving platform,

21-material receiving plate, 22-supporting frame, 23-adsorption hole, 24-sucking disk piece, 25-positioning groove, 26-supporting plate, 3-transverse driving piece,

31-transverse screw rod piece, 32-transverse screw sleeve seat, 33-transverse bearing seat, 34-transverse stepping motor,

35-transverse connecting block,

4-longitudinal driving member,

41-top lifting plate, 42-bottom lifting plate, 43-longitudinal screw rod piece, 44-longitudinal screw sleeve seat,

45-longitudinal bearing seat, 46-guide rod, 47-guide sleeve, 48-bottom servo motor,

5-a bottom limiting device,

51-longitudinal mounting strip, 52-longitudinal mounting groove, 53-bottom distance sensor and 54-bottom sensing block.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, the automatic die receiving and feeding mechanism for a power lithium battery comprises a transverse conveying plate 1, wherein a sliding groove 11 is formed in the transverse conveying plate 1 along the length direction, guide rails 12 are distributed and installed on two sides of the sliding groove 11, the two guide rails 12 are parallel to each other, a material receiving table 2 for transferring an aluminum film is arranged on the sliding groove 11 in a reciprocating manner, the material receiving table 2 comprises a supporting plate 26 and a material receiving plate 21 which is installed on the top of the supporting plate 26 in a longitudinally movable manner, a sliding seat 13 is installed on each guide rail 12 in a sliding manner, and the sliding seat 13 is connected to the bottom of the supporting plate 26, so that the supporting plate 26 on which the material receiving plate 21 is installed can move back and forth along the guide rails 12, and the automatic die receiving and feeding mechanism is high in moving stability and accuracy and is not prone to shifting.

The material receiving plate 21 is provided with a plurality of adsorption holes 23, the adsorption holes 23 are provided with sucking disc pieces 24 for adsorbing the aluminum films, and the material receiving plate 21 is also provided with positioning grooves 25 along the length direction; after sliding to the assigned position, connect material platform 2 longitudinal movement for connect flitch 21 to connect the material to the aluminium membrane, the aluminium membrane passes through the dual location of constant head tank 25 and sucking disc spare 24 and puts on connecing flitch 21, when horizontal delivery board 1 is transferred, can not shift, can not the off-set, guarantees subsequent package volume quality, but the biax linkage improves production efficiency.

Specifically, horizontal conveying board 1 has still arranged along length direction and has driven backup pad 26 along the horizontal driving piece 3 of guided way 12 length direction reciprocating motion, and horizontal driving piece 3 includes the horizontal screw member 31 that is arranged parallel to guided way 12, and horizontal screw member 31 nests there is horizontal screw socket seat 32, and horizontal screw socket seat 32 is connected with backup pad 26. The two ends of the transverse wire rod piece 31 are respectively provided with a transverse bearing seat 33, the outer side of one transverse bearing seat 33 is provided with a transverse stepping motor 34 in transmission connection with the transverse wire rod piece 31, and the transverse screw sleeve seat 32 is provided with a transverse connecting block 35 connected with the supporting plate 26.

In this embodiment, the transverse screw rod member 31 is driven by the transverse stepping motor 34 to rotate, so that the transverse screw sleeve seat 32 continuously moves along the length direction of the guide rail 12, and the transverse screw sleeve seat 32 drives the support plate 26 of the receiving platform 2 to connect through the transverse connecting block 35, so as to drive the support plate 26 to slide left and right along the sliding groove 11; is a stepping motor driving structure; the conveying control is accurate, and the driving efficiency is high.

The receiving platform 2 further comprises a longitudinal driving part 4 for driving the receiving plate 21 to longitudinally move in the vertical direction, the longitudinal driving part 4 comprises a bottom lifting plate 42 arranged below the transverse conveying plate 1, a longitudinal wire rod piece 43 is installed on the bottom lifting plate 42, the top of the longitudinal wire rod piece 43 penetrates through the supporting plate 26 to be connected with the receiving plate 21, and a longitudinal screw sleeve seat 44 in transmission connection with the longitudinal wire rod piece 43 is installed on the supporting plate 26. The bottom of the material receiving plate 21 is provided with a support frame 22, the bottom of the support frame 22 is provided with a top lifting plate 41, the top lifting plate 41 and the bottom lifting plate 42 are respectively provided with a longitudinal bearing seat 45, and two ends of a longitudinal wire rod 43 are respectively arranged between the top lifting plate 41 and the bottom lifting plate 42. The bottom lifting plate 42 is provided with a bottom servo motor 48 in transmission connection with the longitudinal wire rod piece 43, a plurality of guide rods 46 are further arranged between the top lifting plate 41 and the bottom lifting plate 42, and the support plate 26 is provided with guide sleeves 47 for the guide rods 46 to slide through.

In this embodiment, the bottom servo motor 48 drives the longitudinal wire rod 43 to rotate, the longitudinal screw sleeve seat 44 on the support plate 26 is in threaded fit with the longitudinal wire rod 43, the support plate 26 is fixed in the vertical direction, so that the longitudinal wire rod 43 can move in the vertical direction, during movement, the top lifting plate 41 and the bottom lifting plate 42 move simultaneously, and the guide rod 46 installed between the top lifting plate 41 and the bottom lifting plate 42 is in sliding fit with the guide sleeve 47 on the support plate 26, so that the receiving plate 21 located at the top of the support plate 26 can move longitudinally. The vertical lifting is driven by a servo motor, the lifting conveying control is accurate, and the driving efficiency is high.

Still install bottom stop device 5 between top lifter plate 41 and the bottom lifter plate 42, stop device includes vertical mounting bar 51, vertical mounting groove 52 has been seted up along length direction to vertical mounting bar 51, slidable mounting has a plurality of bottom distance sensor 53 on vertical mounting groove 52, bottom distance sensor 53 can be according to the height that connects flitch 21 to go up and down, adjust two bottom distance sensor 53's interval, backup pad 26 install with bottom distance sensor 53 complex bottom response piece 54. The bottom distance sensor 53 is an existing PM-45-U type miniature photoelectric sensor, the bottom distance sensor 53 is in signal connection with the bottom servo motor 48, and when the bottom sensing block 54 on the supporting plate 26 senses the bottom distance sensor 53, the bottom servo motor 48 stops working temporarily, so that the limiting of the material receiving table 2 during lifting can be guaranteed, the motion stroke cannot exceed the range, and the material receiving and transferring precision is not influenced.

A transverse mounting bar 14 is mounted on one side wall of the transverse conveying plate 1 in the extension direction, a transverse mounting groove 15 is formed in the transverse mounting bar 14 in the length direction, a plurality of top distance sensors 16 are slidably mounted on the transverse mounting groove 15, the top distance sensors 16 can adjust the distance between the two top distance sensors 16 according to the transverse moving distance of a supporting plate 26, and a top sensing block 17 matched with the top distance sensors 16 is mounted on the supporting plate 26; the top distance sensor 16 is an existing PM-45-U type micro photoelectric sensor.

When the induction block on the supporting plate 26 senses with the bottom distance sensor 53, the transverse stepping motor 34 stops working, so that the position of the material receiving platform 2 in transverse material receiving and receiving can be ensured, the motion stroke can not exceed the range, and the material receiving and transferring precision can not be influenced.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the effectiveness of the prior art and provide a practical product.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. Automatic mould feeding mechanism that connects of power lithium cell, including horizontal delivery board, the sliding tray has been seted up along length direction to horizontal delivery board, and reciprocating motion is provided with the material platform that connects that transfers the aluminium membrane on the sliding tray, its characterized in that: the transverse conveying plate is provided with more than one guide rail along the length direction, and the guide rail is provided with a sliding seat which is supported by the material platform in a sliding manner; connect the material platform to include the backup pad and can install the flitch that connects at the backup pad top with longitudinal movement, connect the flitch to have seted up a plurality of absorption holes, adsorb the hole and install and carry out absorbent sucking disc spare to the aluminium membrane, connect the flitch still to have seted up the constant head tank along length direction.

2. The automatic die receiving and feeding mechanism for the power lithium battery as claimed in claim 1, wherein: the quantity of guided way is more than two to arrange respectively in the sliding tray both sides, two adjacent guided ways are parallel to each other, and the sliding seat is connected in the backup pad bottom.

3. The automatic die receiving and feeding mechanism for the power lithium battery as claimed in claim 2, wherein: the horizontal conveying plate is further provided with a horizontal driving piece which drives the supporting plate to reciprocate along the length direction of the guide rail along the length direction, and the material receiving platform further comprises a longitudinal driving piece which drives the material receiving plate to longitudinally move in the vertical direction.

4. The automatic die receiving and feeding mechanism for the power lithium battery as claimed in claim 3, wherein: the transverse driving member comprises a transverse screw rod piece arranged in parallel to the guide rail, a transverse screw sleeve seat is nested on the transverse screw rod piece, and the transverse screw sleeve seat is connected with the supporting plate.

5. The automatic die receiving and feeding mechanism for the power lithium battery as claimed in claim 4, wherein: and the two ends of the transverse screw rod piece are respectively provided with a transverse bearing seat, the outer side of one transverse bearing seat is provided with a transverse stepping motor in transmission connection with the transverse screw rod piece, and the transverse threaded sleeve seat is provided with a transverse connecting block connected with the supporting plate.

6. The automatic die connecting and feeding mechanism for the power lithium battery as claimed in claim 3, wherein: the longitudinal driving piece comprises a bottom lifting plate arranged below the transverse conveying plate, a longitudinal screw rod piece is installed on the bottom lifting plate, the top of the longitudinal screw rod piece penetrates through the supporting plate to be connected with the material receiving plate, and a longitudinal screw sleeve seat in transmission connection with the longitudinal screw rod piece is installed on the supporting plate.

7. The automatic die receiving and feeding mechanism for the power lithium battery as claimed in claim 6, wherein: the material receiving plate is characterized in that a support frame is arranged at the bottom of the material receiving plate, a top lifting plate is installed at the bottom of the support frame, longitudinal bearing seats are installed on the top lifting plate and the bottom lifting plate respectively, and two ends of a longitudinal screw rod piece are installed between the top lifting plate and the bottom lifting plate respectively.

8. The automatic die connecting and feeding mechanism for the power lithium battery as claimed in claim 7, wherein: the bottom lifter plate is provided with a bottom servo motor in transmission connection with the longitudinal screw rod piece, a plurality of guide rods are further arranged between the top lifter plate and the bottom lifter plate, and guide sleeves for the guide rods to slide through are arranged on the support plate.

9. The automatic die connecting and feeding mechanism for the power lithium battery as claimed in claim 8, wherein: still install bottom stop device between top lifter plate and the bottom lifter plate, bottom stop device includes vertical mounting bar, and vertical mounting groove has been seted up along length direction to vertical mounting bar, and slidable mounting has a plurality of bottom distance sensors on vertical mounting groove, and the backup pad is installed with bottom distance sensor complex bottom response piece.

10. The automatic die receiving and feeding mechanism for the power lithium battery as claimed in claim 1, wherein: horizontal mounting bar is installed to one of them lateral wall extension degree direction of horizontal delivery board, and horizontal mounting groove has been seted up along length direction to horizontal mounting bar, and slidable mounting has a plurality of top distance sensor on the horizontal mounting groove, and the backup pad is installed and is responded to the piece with top distance sensor complex top.

Images