CN213033415U - Edge-closing shaping mechanism of button cell edge-cutting shaping machine - Google Patents

Abstract

The utility model discloses a button cell side cut make-up machine receive limit integer mechanism, including the integer module, this integer module includes integer cylinder, drive gear, opens box-like clamping jaw, the integer cylinder passes through the rack and the drive gear meshing links to each other, and every group opens box-like clamping jaw has a plurality ofly, and drive gear is connected to one end, and the other end encloses to close and forms a die cavity that is used for button cell to receive limit integer. And (3) placing the button cell into a cavity of the shaping module, and further tightening the multi-petal opening-closing type clamping jaw of the shaping module to shape the periphery of the button cell. The full automation operation of integer process does not need artifical the participation, and the process velocity is fast, and is efficient, and each product processing machinery ization operation, does not receive artifical the influence, and the yield is high.

Description

Edge-closing shaping mechanism of button cell edge-cutting shaping machine

Technical Field

The utility model belongs to the technical field of automation equipment and specifically relates to indicate a receipts limit integer mechanism of button cell side cut make-up machine.

Background

Button cell, also called button cell, refers to the overall dimension like the battery of a little button, and it has the diameter little, and the thickness is thinner characteristics, is generally applied to the true wireless earphone of bluetooth as energy storage battery. The button cell is divided from the appearance, and the equivalent corresponding cell is classified into a cylindrical cell, a square cell, a special-shaped cell and the like. Button cell's structure comprises electric core, outer cladding body, several parts of utmost point ear, adds man-hour, outer cladding body pressfitting is in order to wrap up electric core, and then processes such as banding, die-cut, hem, and button cell processing production on the present market relies on artifical manual completion basically, and workman rows are on the both sides of production line, and every station all needs one to a plurality of workman to be responsible for, and such production mode leads to production efficiency low, and the human cost is too high, and button cell's cost can't reduce. In addition, when workers perform edge sealing and shaping, the pressing force of each worker is different, so that the edge sealing and attaching degrees of the shaped edge sealing are different, and the product quality cannot be unified. Moreover, because the button cell is small in size, a worker can scratch the fingers by trimming the edges of the fingers for a long time, and the risk of breaking the skin of the fingers exists.

Disclosure of Invention

In view of this, the present invention provides a side trimming and shaping mechanism for a button cell side trimming and shaping machine, which further shapes the side of the button cell to make the edge sealing more fit to the side of the cell main body, thereby overcoming the disadvantages of the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a button cell side cut make-up machine receive limit integer mechanism, includes the integer module, this integer module includes integer cylinder, drive gear, opens box-like clamping jaw, the integer cylinder passes through the rack and links to each other with the drive gear meshing, and every group opens box-like clamping jaw has a plurality ofly, and drive gear is connected to one end, and the other end encloses to close and forms a die cavity that is used for button cell to receive the limit integer.

As a preferred scheme, two groups of transmission gears and opening-closing type clamping jaws are provided, a first group of transmission gears are meshed with the shaping cylinder through the racks, and a second group of transmission gears are meshed with the first group of transmission gears; each transmission gear drags a group of opening-closing type clamping jaws.

As a preferred scheme, the opening-closing type clamping jaw is arranged on the clamping jaw base body through a plurality of horizontal guide rods and a plurality of longitudinal guide rods.

As a preferable scheme, the clamping jaw base body is provided with a first part and a second part, the first part and the second part are supported by a plurality of supporting blocks, the first part is provided with through holes allowing the upper ends of the opening-closing clamping jaws to penetrate through and be shifted by the transmission gear, and the second part is provided with limiting holes limiting the moving stroke of the opening-closing clamping jaws.

As a preferable scheme, a plurality of mounting columns are arranged on the first part, mounting holes are arranged on the mounting columns, and two ends of the transverse guide rod and the longitudinal guide rod are fixed in the corresponding mounting holes.

As a preferred scheme, a first sliding groove is formed in the transmission gear, a chassis is arranged below the transmission gear, a second sliding groove is formed in the chassis, a first sliding table and a second sliding table are arranged at the upper end of the opening-closing type clamping jaw, the first sliding table is installed in a matched mode with the first sliding groove, and the second sliding table is installed in a matched mode with the second sliding groove.

As a preferred scheme, the clamping device further comprises a rotating module, and the rotating module is connected with the clamping jaw base body through a connector so as to rotate the whole shaping module.

As a preferred scheme, the device further comprises a pressing module which is connected above the rotating module so as to drive the rotating module and the shaping module to integrally lift.

As a preferred scheme, the device further comprises a horizontal pushing feeding module, wherein the horizontal pushing feeding module is connected with the downward pressing module so as to drive the downward pressing module, the rotating module and the shaping module to integrally and horizontally move.

As a preferred scheme, the button cell trimming device further comprises a push-up module, the push-up module is opposite to the push-up module in the vertical direction during trimming, the push-up module is provided with a push-up cylinder and a push-up head, and when the push-up head pushes the button cell to be machined into a cavity of the trimming module, the trimming module performs lace trimming action

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme, put into the die cavity of integer module with button cell, and then the multi-petal open-close type clamping jaw of integer module tightens up the week edge integer with button cell. The full automation operation of integer process does not need artifical the participation, and the process velocity is fast, and is efficient, and each product processing machinery ization operation, does not receive artifical the influence, and the yield is high.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the edge trimming and shaping mechanism of the embodiment of the present invention installed on a button cell edge trimming and shaping machine.

Fig. 2 is a perspective view of the edge trimming and shaping mechanism and the belt blanking mechanism according to the embodiment of the present invention.

Fig. 3 is a perspective view of the edge trimming and shaping mechanism according to the embodiment of the present invention.

Fig. 4 is another perspective view of the edge trimming and shaping mechanism according to the embodiment of the present invention.

Fig. 5 is an exploded view of the edge trimming mechanism according to the embodiment of the present invention.

Fig. 6 is another exploded view of the trimming mechanism according to the embodiment of the present invention.

Fig. 7 is a schematic view of the open-close type clamping jaw of the embodiment of the invention in an "open" state.

Fig. 8 is a schematic view of the open-close type clamping jaw of the embodiment of the invention in a closed state.

Schematic representation.

The attached drawings indicate the following:

10. shaping module 11 and shaping cylinder

12. Transmission gear 121, first group of transmission gears

122. Second group transmission gear 123 and first sliding chute

13. Open-close type clamping jaw 131 and cavity

132. First slide stage 133 and second slide stage

14. Toothed rack 15, transverse guide

16. Longitudinal guide rod 17 and clamping jaw base

171. First part 172, second part

173. Supporting block 174 and limiting hole

175. Mounting post 176, mounting hole

18. Chassis 181, second chute

20. Rotating module 30 and pressing module

40. Flat push feeding module 50 and upward push module

51. Push-up cylinder 52 and push-up head

60 automatic feeding module 61, belt.

Detailed Description

Referring to fig. 1 to 8, a specific structure of a button cell trimming and shaping mechanism according to a preferred embodiment of the present invention is shown, which includes a shaping module 10, a rotating module 20, a pressing module 30, a horizontal pushing and feeding module 40, and an upward pushing module 50. As shown in fig. 1 and fig. 2, the push-up module 50 is used for pushing the button cell to be processed into the cavity 131 of the shaping module 10, the shaping module 10 performs edge pressing and shaping on the button cell, then the flat push feeding module 40 acts to push the button cell after shaping away from the shaping station, the shaping module 10 is rotated by a set angle in cooperation with the rotation module 20, so that the processed button cell is right above the tab folding station, and then the push-down module 30 is started to descend until two tabs of the button cell are bent to a required pattern. And finally, the button cell with the folded tab is discharged by an automatic belt.

As shown in fig. 5, the shaping module 10 includes a shaping cylinder 11, a transmission gear 12, and a plurality of opening-closing type clamping jaws 13, the shaping cylinder 11 is engaged with the transmission gear 12 through a rack 14, one end of each opening-closing type clamping jaw 13 is connected with the transmission gear 12, and the other end of each opening-closing type clamping jaw is enclosed to form a cavity 131 for edge shaping of the button cell. When the edge sealing device works, the shaping cylinder 11 drives the rack 14, the rack 14 drives the transmission gear 12, and the transmission gear 12 drives the opening-closing type clamping jaw 13 to open and close so as to perform edge sealing and shaping actions on the button cell in the cavity 131, so that the edge sealing can be completely attached to the side surface of the button cell main body after shaping, and the appearance is finished.

In this embodiment, there are two sets of the transmission gears 12 and the opening-closing type clamping jaw 13, the first set of transmission gears 121 is meshed with the shaping cylinder 11 through the rack 14, and the second set of transmission gears 122 is meshed with the first set of transmission gears 121; each transmission gear 12 drags a set of jaws 13 of the openable type. Therefore, two button cells can be shaped at one time, one drive is shared (namely one shaping cylinder 11 is shared), and the working efficiency is doubled.

As shown in fig. 5 and 6, the openable clamping jaw 13 is mounted on the clamping jaw base 17 through a plurality of horizontal transverse guide rods 15 and a plurality of horizontal longitudinal guide rods 16. The main body of each open-close type clamping jaw 13 is slidably arranged on the die direction guide rod and the longitudinal guide rod 16 in a penetrating way, so that each open-close type clamping jaw 13 can only slide along the direction set by the transverse guide rod 15 and the longitudinal guide rod 16, and the purposes of opening and closing are finally realized.

In this embodiment, the jaw housing 17 has a first portion 171 and a second portion 172, the first portion 171 and the second portion 172 are supported by a plurality of supporting blocks 173, the first portion 171 is provided with a through hole for allowing the upper end of each openable jaw 13 to pass through and be moved by the transmission gear 12, the second portion 172 is provided with a limiting hole 174 for limiting the moving stroke of each openable jaw 13, that is, each openable jaw 13 is stopped by the distal end surface of the limiting hole 174 when in the "opened" state. When each of the openable jaws 13 is in the "closed" state, the cavity 131 of the openable jaw 13 is formed in the "o" shape and interferes with itself to achieve the purpose of stopping. In addition, the first portion 171 is provided with a plurality of mounting posts 175, each mounting post 175 is provided with a mounting hole 176, and both ends of the transverse guide rod 15 and the longitudinal guide rod 16 are fixed to the corresponding mounting holes 176, so as to achieve the purpose of horizontal mounting and positioning of the guide rods in all directions.

Furthermore, a first sliding groove 123 is arranged on the transmission gear 12, a chassis 18 is arranged below the transmission gear 12, a second sliding groove 181 is arranged on the chassis 18, a first sliding table 132 and a second sliding table 133 are arranged at the upper end of the opening-closing type clamping jaw 13, the first sliding table 132 is installed in a matching mode with the first sliding groove 123, and the second sliding table 133 is installed in a matching mode with the second sliding groove 181. In this embodiment, the first sliding table 132 is a cylinder, and the second sliding table 133 is an arc-shaped block, so that the first sliding table 132 can be driven with less force, and the second sliding can slide in the second sliding groove 181, which can increase the accuracy of control.

As shown in fig. 7, it is a schematic view of the shaping module 10 of the edge closing and shaping mechanism of the button cell edge cutting and shaping machine when the open-close type clamping jaws 13 are in the "open" state. So that the button cell to be processed can be pushed into this cavity 131. As shown in fig. 8, which is a schematic view of the open-close type clamping jaws 13 of the button cell in a "closed" state, the edge sealing of the button cell can be shaped and compacted to be more attached to the side surface of the cell main body.

In this embodiment, during the shaping process, the shaping module 10 is aligned with the push-up module 50, the push-up module 50 has a push-up cylinder 51 and a push-up head 52, and when the push-up head 52 pushes the button cell to be processed into the cavity 131 of the shaping module 10, the shaping module 10 performs the lace shaping operation. Furthermore, the rotating module 20 is connected to the gripper seat 17 through a connector to rotate the shaping module 10. Thus, the sizing module 10 can be rotated by a certain angle for alignment. And, the pressing module 30 is connected above the rotating module 20 to drive the rotating module 20 and the shaping module 10 to integrally lift. The design of the pressing module 30 can realize the tab folding function of the button cell. The flat push feeding module is connected with the pressing module 30 to drive the pressing module 30, the rotating module 20 and the shaping module 10 to move horizontally.

The utility model discloses a limit shaping mechanism of button cell side cut make-up machine, its whole motion process as follows:

(1) the button cell is placed at the edge-closing shaping station, the push-up module 50 pushes the button cell into the cavity 131 of the shaping module 10, and then the multi-petal opening-closing type clamping jaws 13 of the shaping module 10 are tightened to shape the peripheral edge of the button cell.

(2) The flat push feeding module 40 pushes the whole shaping module 10 to leave the edge-closing shaping station, the whole shaping module 10 moves to the position above a belt 61 of the automatic feeding module 60 (the state at this moment is not just opposite to the tab pressing station), the shaping module 10 is rotated by a set angle by using the rotating module 20, so that a semi-finished product of the button cell is right above the tab pressing station of the belt, then the shaping module 10 is driven to descend by using the pressing module 30, tabs on two sides of the button cell are pressed on the belt, the tabs are bent, finally the opening-closing type clamping jaw 13 is released, and the button cell is placed on the belt to be conveyed and discharged.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a button cell side cut make-up machine receive limit integer mechanism which characterized in that: including integer module (10), this integer module (10) includes integer cylinder (11), drive gear (12), opens box-like clamping jaw (13), integer cylinder (11) link to each other through rack (14) and drive gear (12) meshing, and every group opens box-like clamping jaw (13) has a plurality ofly, and drive gear (12) are connected to one end, and the other end encloses to close and forms one and is used for closing die cavity (131) of limit integer to button cell.

2. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 1, which is characterized in that: two groups of transmission gears (12) and two groups of opening-closing type clamping jaws (13) are arranged, a first group of transmission gears (121) are meshed with the shaping cylinder (11) through a rack (14), and a second group of transmission gears (122) are meshed with the first group of transmission gears (121); each transmission gear (12) drags a group of opening-closing type clamping jaws (13).

3. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 1, which is characterized in that: the opening-closing type clamping jaw (13) is arranged on the clamping jaw base body (17) through a plurality of horizontal guide rods (15) and a plurality of vertical guide rods (16).

4. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 3, which is characterized in that: the clamping jaw base body (17) is provided with a first part (171) and a second part (172), the first part (171) and the second part (172) are supported through a plurality of supporting blocks (173), the first part (171) is provided with a through hole allowing the upper end of each open-close type clamping jaw (13) to pass through and be shifted by the transmission gear (12), and the second part (172) is provided with a limiting hole (174) limiting the moving stroke of each open-close type clamping jaw (13).

5. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 3, which is characterized in that: the first portion (171) is provided with a plurality of mounting columns (175), each mounting column (175) is provided with a mounting hole (176), and the two ends of the transverse guide rod (15) and the longitudinal guide rod (16) are fixed in the corresponding mounting holes (176).

6. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 3, which is characterized in that: the novel clamping jaw is characterized in that a first sliding groove (123) is formed in the transmission gear (12), a chassis (18) is arranged below the transmission gear (12), a second sliding groove (181) is formed in the chassis (18), a first sliding table (132) and a second sliding table (133) are arranged at the upper end of the opening-closing type clamping jaw (13), the first sliding table (132) is installed in a matched mode with the first sliding groove (123), and the second sliding table (133) is installed in a matched mode with the second sliding groove (181).

7. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 3, which is characterized in that: further comprises a rotating module (20), the rotating module (20) is connected with the clamping jaw seat body (17) through a connector so as to rotate the shaping module (10) integrally.

8. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 7, which is characterized in that: further comprises a pressing module (30), wherein the pressing module (30) is connected above the rotating module (20) to drive the rotating module (20) and the shaping module (10) to integrally lift.

9. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 8, which is characterized in that: the device further comprises a horizontal pushing and feeding module (40) which is connected with the lower pressing module (30) so as to drive the lower pressing module (30), the rotating module (20) and the shaping module (10) to integrally and horizontally move.

10. The edge trimming and shaping mechanism of the button cell edge trimming and shaping machine according to claim 7, which is characterized in that: the button cell trimming machine further comprises a push-up module (50), the trimming module (10) is opposite to the push-up module (50) up and down during trimming, the push-up module (50) is provided with a push-up cylinder (51) and a push-up head (52), and when the push-up head (52) pushes a button cell to be processed into a cavity (131) of the trimming module (10), the trimming module (10) performs lace trimming.

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