CN218123504U - Bevel gear transmission forming mechanism and device suitable for winding battery cell - Google Patents

Abstract

The utility model belongs to the technical field of battery cell forming equipment, in particular to a bevel gear transmission forming mechanism suitable for winding a battery cell, which comprises a forming mechanism mounting seat; the pole piece rolling assembly is arranged on the forming mechanism mounting seat and used for rolling the pole piece, so that the pole piece rolling assembly is tightly attached to the battery cell, and the purpose of transmission rotation forming is realized through the rotation of the battery cell; and the pole lug forming assemblies are in meshing transmission connection with the pole piece rolling assemblies through bevel gears, are respectively arranged on two sides of the forming mechanism mounting seat and are used for performing roll forming on the pole lugs extending out of two ends of the pole piece. The utility model provides a bevel gear transmission forming mechanism suitable for convolute electric core not only can effectual improvement electric core's production efficiency, can effectively guarantee the quality after the whole shaping of electric core moreover. The utility model also provides an use this bevel gear drive forming mechanism's bevel gear drive forming device.

Description

Bevel gear transmission forming mechanism and device suitable for winding battery cell

Technical Field

The utility model belongs to the technical field of electric core former, concretely relates to bevel gear transmission forming mechanism, device suitable for convolute electric core.

Background

The winding electric core is generally formed by winding a pole piece with a pole lug; in the prior art, the forming of the electrode lug is generally carried out after the pole piece is wound, different procedures are required for processing, the time for changing the production line of the battery cell is increased, the production efficiency of the battery cell is reduced, and the battery cell formed preliminarily after winding is easy to loosen or deform in the transferring process, so that the quality of the battery cell after integral forming is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the not enough of prior art, the utility model provides a bevel gear transmission forming mechanism suitable for coiling electric core carries out the contour machining of utmost point ear simultaneously to the pole piece of coiling in-process through utmost point ear shaping subassembly, not only can save in the electric core production process long when the line change between different processes, the production efficiency of effectual improvement electric core, can effectually avoid electric core in addition because of the loose and deformation that the line changed and caused to guarantee the quality behind the whole shaping of electric core. In addition, this bevel gear transmission forming mechanism still rolls through pole piece roll-in subassembly to the electric core of coiling in-process, can further effectually prevent that electric core from taking place loosely at the fashioned in-process to further the holistic shaping quality of effectual improvement electric core. The utility model also provides a bevel gear transmission forming device suitable for coiling electric core utilizes the aforesaid to carry out roll-in fashioned bevel gear transmission forming mechanism to pole piece and utmost point ear simultaneously to and the equipment of drive guiding mechanism forms, and the shaping processing of completion electric core and utmost point ear that can automize, the quality of electric core production is guaranteed to the efficiency of effectual improvement electric core production.

The utility model discloses the technological effect that will reach realizes through following technical scheme:

the utility model discloses a bevel gear transmission forming mechanism suitable for winding an electric core, which comprises a forming mechanism mounting seat; the pole piece rolling assembly is arranged on the forming mechanism mounting seat and used for rolling the pole piece so that the pole piece rolling assembly is tightly attached to the battery cell, the purpose of transmission rotation forming is achieved through the rotation of the battery cell, and the loosening of the wound and formed battery cell can be further prevented; and the pole lug forming assemblies are in meshed transmission connection with the pole piece rolling assemblies through bevel gears and are respectively arranged on two sides of the forming mechanism mounting seat and are used for performing roll forming on the pole lugs extending out of two ends of the pole pieces.

As one of them preferred scheme, pole piece roll-in subassembly formula pole piece roll-in subassembly as an organic whole is located including dividing on forming mechanism mount pad both sides, be used for the subassembly mounting panel of subassembly integral erection joint, erect in between the subassembly mounting panel, be used for carrying out the roller of roll-in to the pole piece to and coaxial branch locate on the roller both ends, be used for with the first conical gear that utmost point ear forming component meshing transmission is connected.

As a preferred scheme, the pole piece rolling assembly is a split pole piece rolling assembly, and comprises a first pole piece rolling unit and a second pole piece rolling unit which are movably arranged on two sides of the mounting seat of the forming mechanism respectively.

As one of the preferable schemes, the first pole piece rolling unit and the second pole piece rolling unit are respectively including locating on the forming mechanism mounting seat, a rolling mounting frame for integral installation and connection of the units, a roller wheel arranged on the rolling mounting frame and used for rolling the pole pieces, and a first bevel gear coaxially arranged with the roller wheel and used for being meshed with the pole lug forming assembly for transmission connection.

As a preferred scheme, the tab forming assembly comprises a first tab forming unit and a second tab forming unit which are movably arranged on two sides of the forming mechanism mounting seat and are in meshed transmission connection with the pole piece rolling assembly through bevel gears.

As an optimal scheme, first utmost point ear shaping unit and second utmost point ear shaping unit are all including locating forming mechanism mount pad or on the pole piece roll-in subassembly, be used for the shaping pivot of unit monolithic union coupling installation, with the coaxial setting of shaping pivot, be used for with the second conical gear that pole piece roll-in subassembly meshing transmission is connected, and with the coaxial setting of shaping pivot, be used for carrying out roll-in fashioned utmost point ear shaping round platform to the utmost point ear that extends on the pole piece both ends.

As a preferable scheme, the large diameter end of the tab forming circular truncated cone is adjacent to one side of the second conical gear, and the small diameter end of the tab forming circular truncated cone is far away from one side of the second conical gear.

The bevel gear transmission forming device suitable for winding the battery cell comprises a driving guide mechanism used for providing a power source for winding and forming the battery cell; and the bevel gear transmission forming mechanism is connected to the driving guide mechanism and is used for simultaneously rolling and forming the pole piece and the pole lug of the winding battery cell.

As a preferable scheme, the driving guide mechanism includes a driving mechanism mounting plate, a forming driving member mounted on the driving mechanism mounting plate, a driving connecting block connected to the end of the forming driving member and used for the bevel gear transmission forming mechanism to be mounted and connected, and a linkage guide assembly arranged between the driving mechanism mounting plate and the driving connecting block and used for guiding the motion of the bevel gear transmission forming mechanism.

As a preferable scheme, the linkage guide assembly comprises a first linkage guide unit and a second linkage guide unit which are symmetrically arranged on two sides of the forming driving piece;

the first linkage guide unit and the second linkage guide unit both comprise one end and are connected with the driving connecting block, the other end of the first linkage guide unit and the second linkage guide unit are movably arranged on the linkage guide rod on the driving mechanism mounting plate in a penetrating mode, and the linkage guide rod is sleeved with an elastic reset piece, wherein the elastic reset piece is abutted to the driving connecting block respectively, and the two ends of the linkage guide rod are arranged outside the linkage guide rod.

To sum up, the utility model discloses at least, following useful part has:

1. the utility model discloses in be applicable to the bevel gear transmission forming mechanism of coiling electric core, come to carry out the contour machining of utmost point ear simultaneously to the pole piece of coiling in-process through utmost point ear shaping subassembly, not only can save during the line change between different processes in electric core production process, the production efficiency of effectual improvement electric core, can effectually avoid electric core loose and deformation because of the line change leads to the fact moreover to guarantee the quality after the whole shaping of electric core.

2. The utility model discloses in be applicable to the bevel gear transmission forming mechanism of coiling electric core, come to carry out the roll-in to the electric core of coiling in-process through pole piece roll-in subassembly, can further effectually prevent that electric core from taking place loosely at fashioned in-process to further the holistic shaping quality of effectual improvement electric core.

3. The utility model discloses in be applicable to the bevel gear transmission forming device of coiling electric core, utilize the aforesaid to carry out roll-in fashioned bevel gear transmission forming mechanism to pole piece and utmost point ear simultaneously to and the equipment of drive guiding mechanism forms, the shaping processing of completion electric core and utmost point ear that can automize, the quality of electric core production is guaranteed to the efficiency of effectual improvement electric core production.

Drawings

Fig. 1 is a schematic view of the overall structure of a bevel gear transmission molding mechanism (an integrated pole piece rolling assembly) suitable for winding a battery cell in the embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic diagram of the overall structure of the bevel gear transmission forming mechanism (split pole piece rolling assembly) suitable for winding the electrical core in the embodiment of the present invention;

fig. 4 is a schematic structural diagram of the first pole piece rolling unit and the second pole piece rolling unit in the embodiment of the present invention;

fig. 5 is a schematic view of the overall structure of the bevel gear transmission forming device suitable for winding the battery cell in the embodiment of the present invention;

fig. 6 is a schematic structural view of a driving guide mechanism in an embodiment of the present invention;

fig. 7 is a partial enlarged view at B in fig. 6.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention will be combined to clearly and completely describe the technical solutions of the embodiments of the present invention. The described embodiments are some, but not all embodiments of the invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be noted that the terms "first", "second", "third", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

Example 1:

referring to fig. 1, the bevel gear transmission forming mechanism 10 suitable for winding the battery cell in the embodiment includes a forming mechanism mounting base 100, a pole piece rolling assembly 200 disposed on the forming mechanism mounting base 100, and tab forming assemblies 300 respectively disposed on two sides of the forming mechanism mounting base 100 and connected to the pole piece rolling assembly 200 in a bevel gear engagement transmission manner; the forming mechanism mounting base 100 is used for mounting and connecting various parts of the mechanism, the pole piece rolling assembly 200 is used for rolling pole pieces, so that the pole piece rolling assembly 200 is tightly attached to a battery cell, the purpose of transmission rotation forming is achieved through rotation of the battery cell, and the battery cell formed by winding can be further prevented from loosening; the tab forming assembly 300 is used for roll forming tabs extending from both ends of the tab.

Preferably, pole piece roll-in subassembly 200 is integral type pole piece roll-in subassembly, and its concrete structure includes that the branch locates on forming mechanism mount 100 both sides, is used for subassembly whole erection joint and realizes the subassembly whole position adjustment's subassembly mounting panel 210, erects between subassembly mounting panel 210, is used for carrying out the roller 220 of rolling to the pole piece to and coaxial branch locate on the both ends of roller 220, be used for with utmost point ear forming component 300 meshing transmission connection's first conical gear 230.

Preferably, the tab forming assembly 300 comprises a first tab forming unit 310 and a second tab forming unit 320 which are movably arranged on two sides of the forming mechanism mounting base 100 and are in meshed transmission connection with the pole piece rolling assembly 200 through bevel gears; the first tab forming unit 310 and the second tab forming unit 320 can be adaptively adjusted according to the heights of the battery cells, so as to meet the production requirements of the battery cells with different sizes and effectively improve the overall compatibility of the bevel gear transmission forming mechanism 10. Referring to fig. 2, the first tab forming unit 310 and the second tab forming unit 320 each include a forming spindle 301 disposed on the forming mechanism mounting base 100 or the pole piece rolling assembly 200 for integrally connecting and mounting the units, a second bevel gear 302 disposed coaxially with the forming spindle 301 and engaged with the first bevel gear 230 for driving connection, and a tab forming circular truncated cone 303 disposed coaxially with the forming spindle 301 and configured for roll forming tabs extending from two ends of the pole piece. Preferably, the tab forming round platform 303 has a large diameter end adjacent to the second conical gear 302 side and a small diameter end away from the second conical gear 302 side.

When the pole piece is wound, the roller shaft 220 is pressed against the pole piece to roll the pole piece, so that the pole piece can be effectively prevented from being loosened in the winding process; second conical gear 302 is connected with the first conical gear 230 meshing transmission with the coaxial setting of roller 220, at roller 220 pivoted in-process, also can rotate thereupon to drive and set up with second conical gear 302 is coaxial, carry out contour machining simultaneously to the utmost point ear that extends on the utmost point piece both ends with utmost point ear shaping round platform 303 that utmost point ear corresponds the setting, in order to save pole piece and utmost point ear the line time of trading on different processes or stations, effectual holistic shaping efficiency of improvement electric core and shaping quality.

Example 2:

referring to fig. 3, a bevel gear transmission forming mechanism 10 suitable for winding a battery cell in the present embodiment is the same as that in embodiment 1, and includes a forming mechanism mounting base 100, a pole piece rolling assembly 200 disposed on the forming mechanism mounting base 100, and tab forming assemblies 300 respectively disposed on two sides of the forming mechanism mounting base 100 and connected to the pole piece rolling assembly 200 in a bevel gear engagement transmission manner; the main differences lie in that:

the pole piece rolling assembly 200 in this embodiment is a split pole piece rolling assembly, and the specific structure thereof includes a first pole piece rolling unit 200a and a second pole piece rolling unit 200b which are movably disposed on two sides of the forming mechanism mounting base 100; the distance between the first pole piece rolling unit 200a and the second pole piece rolling unit 200b can be adjusted adaptively according to the height of the battery cell, so that the production requirements of battery cells with different sizes are met, and the overall compatibility of the bevel gear transmission forming mechanism 10 is further effectively improved. Referring to fig. 4, each of the first pole piece rolling unit 200a and the second pole piece rolling unit 200b includes a rolling mounting frame 210' disposed on the forming mechanism mounting base 100 for integrally mounting and connecting the units, a roller 220' disposed on the rolling mounting frame 210' for rolling the pole pieces, and a first bevel gear 230' disposed coaxially with the roller 220' and engaged with the second bevel gear 302 for driving connection.

When the pole piece is wound, the roller 220' is pressed against the pole piece to roll the pole piece, so that the pole piece can be effectively prevented from being loosened in the winding process; second conical gear 302 meshes the transmission with the coaxial first conical gear 230' who sets up with running roller 220' and is connected, at running roller 220' pivoted in-process, also can rotate thereupon to drive and set up with second conical gear 302 is coaxial, carry out contour machining simultaneously to the utmost point ear that extends on the utmost point piece both ends with utmost point ear shaping round platform 303 that utmost point ear corresponds the setting, in order to save pole piece and utmost point ear line changing time on different processes or stations, effectual holistic shaping efficiency of improvement electric core and shaping quality.

In the embodiment, the bevel gear transmission forming mechanism 10, the pole piece rolling assembly 200 and the tab forming assembly 300 can be adaptively adjusted according to the size of the battery cell, so that the production requirements of the battery cells with different sizes can be effectively met, and the overall compatibility of the bevel gear transmission forming mechanism 10 is effectively improved.

Example 3:

referring to fig. 5, the bevel gear transmission forming device for winding battery cell of the present invention includes a driving guide mechanism 20, and a bevel gear transmission forming mechanism 10 connected to the driving guide mechanism 20 as in embodiment 1 or 2; the driving guide mechanism 20 is used to provide a power source for winding and molding the battery cell, and the bevel gear transmission molding mechanism 10 is used to simultaneously roll and mold the pole pieces and the tabs of the wound battery cell.

Referring to fig. 6, the driving guide mechanism 20 includes a driving mechanism mounting plate 400, a forming driving member 500 mounted on the driving mechanism mounting plate 400, a driving connecting block 600 connected to the end of the forming driving member 500 for mounting the bevel gear transmission forming mechanism 10, and a linkage guide assembly 700 disposed between the driving mechanism mounting plate 400 and the driving connecting block 600 for guiding the movement of the bevel gear transmission forming mechanism 10. Preferably, the linkage guide assembly 700 includes a first linkage guide unit 710 and a second linkage guide unit 720 symmetrically disposed on both sides of the forming driving member 500, which can effectively improve the stability of the driving of the bevel gear transmission forming mechanism 10 by the driving guide mechanism 20 as a whole; specifically, each of the first linkage guide unit 710 and the second linkage guide unit 720 includes a linkage guide rod 701 having one end connected to the driving connection block 600 and the other end movably penetrating through the driving mechanism mounting plate 400, and an elastic reset member 702 sleeved outside the linkage guide rod 701 and having two ends respectively abutting against the driving mechanism mounting plate 400 and the driving connection block 600, as shown in fig. 7; the elastic reset piece 702 can generate a reset reverse acting force for the pole piece rolling assembly 200 and the driving connecting block 600, so that the forming assembly at the front section is ensured to be always tightly attached to the surface of the battery core coil.

The initial state of the forming driving element 500 is retracted, when the pole piece is wound into a cell, the forming driving element 500 extends out to drive the bevel gear transmission forming mechanism 10 to extend forward, the roller shaft 220 or the roller 220 'is tightly attached to the outer side cylindrical surface of the cell, and the tab forming circular table 303 is close to the end surfaces of the two sides of the cell, the roller shaft 220, the first bevel gear 230 and the roller 220' which are coaxially arranged with the roller shaft and the first bevel gear 230 and the roller 220 'which are coaxially arranged with the roller shaft rotate along with the cell, so as to drive the second bevel gear 302 which is meshed with the first bevel gear 230 or the first bevel gear 230' to rotate, and the tab forming circular table 303 which is coaxially arranged with the second bevel gear 302 rotates synchronously, so as to realize tab forming in the rolling range of the tab forming circular table 303; after the tab forming of one cell is completed, the forming driving member 500 is restored to the initial retraction state under the action of the air pressure of the forming driving member.

According to the technical scheme of above-mentioned embodiment, the utility model provides a bevel gear transmission forming mechanism suitable for convolute electric core not only can effectual improvement electric core's production efficiency, can effectively guarantee the quality after the whole shaping of electric core moreover. The utility model also provides an use this bevel gear transmission forming mechanism's bevel gear transmission forming device, production efficiency and the shaping quality that equally can effectual improvement electric core.

In the description of the present invention, it is to be understood that the terms indicating orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the equipment or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present disclosure, unless otherwise expressly stated or limited, the first feature may comprise both the first and second features directly contacting each other, and also may comprise the first and second features not being directly contacting each other but being in contact with each other by means of further features between them. Also, the first feature being above, on or above the second feature includes the first feature being directly above and obliquely above the second feature, or merely means that the first feature is at a higher level than the second feature. A first feature that underlies, and underlies a second feature includes a first feature that is directly under and obliquely under a second feature, or simply means that the first feature is at a lesser level than the second feature.

While the invention has been described in conjunction with the specific embodiments set forth above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, it is intended to embrace all such alternatives, modifications, and variations that fall within the spirit and scope of the appended claims.

Claims (10)

1. The utility model provides a bevel gear drive forming mechanism suitable for coiling electricity core which characterized in that includes:

a forming mechanism mounting seat;

the pole piece rolling assembly is arranged on the forming mechanism mounting seat and used for rolling the pole piece, so that the pole piece rolling assembly is tightly attached to the battery cell, and the purpose of transmission rotation forming is realized through the rotation of the battery cell;

and the pole lug forming assemblies are in meshed transmission connection with the pole piece rolling assemblies through bevel gears and are respectively arranged on two sides of the forming mechanism mounting seat and are used for performing roll forming on the pole lugs extending out of two ends of the pole pieces.

2. The bevel gear transmission forming mechanism according to claim 1, wherein the pole piece rolling assembly is an integrated pole piece rolling assembly, and comprises component mounting plates which are respectively arranged on two sides of the forming mechanism mounting seat and used for integral mounting and connection of the components, a roll shaft which is erected between the component mounting plates and used for rolling the pole piece, and first bevel gears which are coaxially arranged on two ends of the roll shaft and used for being meshed and connected with the lug forming assembly in a transmission manner.

3. The bevel gear transmission forming mechanism according to claim 1 wherein the pole piece rolling assembly is a split pole piece rolling assembly comprising a first pole piece rolling unit and a second pole piece rolling unit movably disposed on either side of the forming mechanism mounting base.

4. The bevel gear transmission forming mechanism according to claim 3, wherein the first pole piece rolling unit and the second pole piece rolling unit each comprise a rolling mounting frame arranged on the forming mechanism mounting seat and used for integrally mounting and connecting the units, a roller arranged on the rolling mounting frame and used for rolling the pole pieces, and a first bevel gear coaxially arranged with the roller and used for being meshed and in transmission connection with the pole lug forming assembly.

5. The bevel gear drive forming mechanism according to claim 1 wherein said tab forming assemblies comprise a first tab forming unit and a second tab forming unit movably disposed on each side of said forming mechanism mounting base and drivingly connected to said pole piece roller assemblies by bevel gear engagement.

6. The bevel gear transmission forming mechanism according to claim 5, wherein the first tab forming unit and the second tab forming unit each include a forming shaft for integrally connecting and mounting the unit, a second bevel gear coaxially disposed with the forming shaft and for engaging and driving the tab rolling assembly, and a tab forming circular table coaxially disposed with the forming shaft and for roll forming tabs extending from both ends of the tab.

7. The bevel gear transmission forming mechanism according to claim 6 wherein said tab forming bosses have a major diameter end adjacent to said second bevel gear and a minor diameter end distal from said second bevel gear.

8. The utility model provides a bevel gear transmission forming device suitable for coiling electricity core which characterized in that includes:

the driving guide mechanism is used for providing a power source for winding and forming the battery cell;

and the bevel gear transmission forming mechanism as claimed in any one of claims 1 to 7, connected to the driving guide mechanism, for performing roll forming on the pole pieces and the tabs of the wound battery cell simultaneously.

9. The bevel gear transmission forming apparatus according to claim 8, wherein the drive guide mechanism includes a drive mechanism mounting plate, a forming drive member mounted on the drive mechanism mounting plate, a drive connecting block connected to a distal end of the forming drive member for mounting connection of the bevel gear transmission forming mechanism, and a link guide member provided between the drive mechanism mounting plate and the drive connecting block for guiding movement of the bevel gear transmission forming mechanism.

10. The bevel gear transmission forming apparatus of claim 9 wherein the linkage guide assembly comprises a first linkage guide unit and a second linkage guide unit symmetrically disposed on both sides of the forming driving member;

the first linkage guide unit and the second linkage guide unit both comprise one end and are connected with the driving connecting block, the other end of the first linkage guide unit and the second linkage guide unit are movably arranged on the linkage guide rod on the driving mechanism mounting plate in a penetrating mode, and the linkage guide rod is sleeved with an elastic reset piece, wherein the elastic reset piece is abutted to the driving connecting block respectively, and the two ends of the linkage guide rod are arranged outside the linkage guide rod.

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