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CN-122009606-A - Sorting mechanism for flexible multi-variety button battery packaging

CN122009606ACN 122009606 ACN122009606 ACN 122009606ACN-122009606-A

Abstract

The invention discloses a flexible sorting mechanism for packaging multiple types of button cells, which comprises a rotary disc, wherein a plurality of arranging molds used for arranging the button cells are arranged on the rotary disc in an annular array manner, a plurality of group sorting mechanisms corresponding to the arranging molds are arranged on the outer side of the rotary disc, the sorting mechanism comprises a plurality of cell guiding mechanisms which are linearly arranged and a feeding manipulator used for arranging the button cells on the upper side of the cell guiding mechanisms, a conveying belt mechanism used for transporting the arranged button cells is arranged on the lower side of the cell guiding mechanisms, multiple different types of button cells are orderly moved into the cell positioning grooves through the arrangement of multiple groups of cell guiding mechanisms, the button cells in the cell positioning grooves are synchronously moved into the arranging molds through electric sucking discs, and the packaging work of the button cells in twelve types can be realized by combining the multiple groups of sorting structures.

Inventors

  • WANG SUQIN
  • RONG JIANFENG
  • YE FANGYU

Assignees

  • 浙江野马电池股份有限公司

Dates

Publication Date
20260512
Application Date
20260213

Claims (8)

  1. 1. The sorting mechanism for the flexible multi-variety button battery packaging is characterized by comprising a rotary disc (3), wherein a plurality of arranging molds (2) used for arranging button batteries are arranged on the rotary disc (3) in an annular array mode, a plurality of group sorting mechanisms corresponding to the arranging molds (2) are arranged on the outer side of the rotary disc (3), the sorting mechanism comprises a plurality of battery guiding mechanisms (6) which are linearly arranged and a feeding manipulator (9) used for arranging the button batteries on the upper side of the battery guiding mechanisms (6), a conveying belt mechanism (5) used for conveying the arranged button batteries is arranged on the lower side of the battery guiding mechanisms (6), and a transferring mechanism (8) used for sequentially arranging the button batteries on the arranging molds (2) is arranged at one end, close to the rotary disc (3), of the conveying belt (5).
  2. 2. The flexible multi-variety button cell packaging sorting mechanism according to claim 1, wherein the cell guiding mechanism (6) comprises a supporting platform (7) arranged on one side of the rotating disc (3), a plurality of equally-spaced uniformly-distributed mounting frame plates (601) are fixedly arranged on the supporting platform (7), guide plates (602) are fixedly arranged on the upper sides of the mounting frame plates (601), guide grooves (610) are formed in the upper surfaces of the guide plates (602), transparent observing plates (609) are further arranged on the upper portions of the guide grooves (610), and conveying belt structures (611) are further arranged at the upper ends of the mounting frame plates (601).
  3. 3. The flexible multi-variety button cell packaging sorting mechanism according to claim 2, wherein a track plate (607) is further arranged at the lower part of the mounting frame plate (601), a plurality of tracks (605) for transporting button cells are further arranged on the track plate (607), an outlet connecting end (606) is arranged at the outlet of the tracks (605), a sliding rod (603) which is connected to the surface of the mounting frame plate (601) in a sliding manner is further arranged between the track plate (607) and the guide plate (602), the sliding rod (603) can only slide left and right, a vibrating plate (604) is fixedly arranged on the upper side of the sliding rod, a connecting channel (612) for communicating the tracks (605) with the guide groove (610) is arranged on the vibrating plate (604), and a telescopic cylinder (608) for driving the vibrating plate (604) to reciprocate so that the button cells slide down smoothly is further arranged on the mounting frame plate (601).
  4. 4. The flexible multi-variety button cell packaging sorting mechanism according to claim 3, wherein the conveying belt mechanism (5) comprises a conveying belt (501) arranged on the supporting platform (7), an inlet connection end (502) connected with the outlet connection end (606) is arranged on the upper side of the conveying belt (501), a limit track frame (503) is connected to the other side of the inlet connection end (502), a platen (505) fixedly arranged on the supporting platform (7) is arranged on the other side of the limit track frame (503), and a cell positioning groove (504) used for placing button cells and waiting for the transfer mechanism (8) to suck and transport is arranged in the upper surface of the platen (505).
  5. 5. The flexible sorting mechanism for multi-variety button cell packages according to claim 3 or 4, wherein the transferring mechanism (8) comprises a supporting frame plate (801), two sliding rails (803) are arranged on the upper side of the supporting frame plate (801), a transverse plate (812) is penetrated through and connected with the sliding rails (803), a lifting cylinder (805) is fixedly arranged on the transverse plate (812), a connecting frame (804) is connected to the other side of the lifting cylinder (805), a mounting plate (807) is fixedly arranged at the lower end of the connecting frame (804), a threaded shaft (813) is further rotatably arranged on the supporting frame plate (801), the threaded shaft (813) is driven by a motor unit (802), and the threaded shaft (813) penetrates through and is connected with one end of the transverse plate (812) in a threaded manner.
  6. 6. The flexible multi-variety button cell packaging sorting mechanism according to claim 5, wherein a first connecting portion (809) is fixedly arranged on the lower side of the mounting plate (807), a control cylinder (808) is further arranged on the mounting plate (807), a second connecting portion (811) is connected to the other side of the control cylinder (808), and a plurality of electric sucking discs (810) are arranged on the lower sides of the first connecting portion (809) and the second connecting portion (811).
  7. 7. The flexible multi-variety button cell packaging sorting mechanism according to claim 1, wherein a feeding sucker is arranged on the feeding manipulator (9), and the feeding sucker adsorbs and transports button cells which are uniformly distributed to the upper side of the cell guiding mechanism (6).
  8. 8. The sorting mechanism for flexible multi-variety button cell packages according to claim 5, wherein the rotating disc (3) and the supporting frame plate (801) are mounted on a bracket (1).

Description

Sorting mechanism for flexible multi-variety button battery packaging Technical Field The invention relates to the field of button battery packaging, in particular to a sorting mechanism for flexible multi-variety button battery packaging. Background Button cells are also called button cells, and refer to cells with external dimensions like those of a small button, generally have larger diameter and thinner thickness (compared with columnar cells such as 5 AA cells in the market), and the button cells divide the cells from the external dimensions, and the cells corresponding to the button cells are classified into columnar cells, square cells and special-shaped cells; When the button cells are packaged, the button cells with various different sizes are sometimes required to be put in, if the button cells are packaged manually, the efficiency is very low, the labor cost is high, most of the current automatic battery packaging equipment can only package button cells with fixed products and quantity, and the packaged products of the batteries cannot be adjusted in real time according to the actual demands of customers. Disclosure of Invention In order to overcome the defects in the prior art, the invention provides a flexible sorting mechanism for multi-variety button battery packaging, which sequentially moves a plurality of different types of button batteries into a battery positioning groove through arranging a plurality of groups of battery guiding mechanisms, synchronously moves the button batteries in the battery positioning groove into a loading and arranging mold through an electric sucking disc, and can realize the packaging work of the button batteries in twelve varieties by combining with a plurality of groups of sorting structures. Technical proposal The utility model provides a flexible many varieties button cell packing is with sorting mechanism, includes rotatory disc, rotatory disc is last annular array be provided with a plurality of be used for placing button cell's dress row mould, rotatory disc's outside be provided with a plurality of group sorting mechanism that the dress row mould corresponds, sorting mechanism includes a plurality of battery guiding mechanism that the straight line was arranged and is used for placing button cell in the feeding manipulator of battery guiding mechanism upside, battery guiding mechanism's downside is provided with and is used for transporting the conveyer belt mechanism of the button cell of arranging, the conveyer belt be close to rotatory disc's one end be provided with be used for with button cell place in proper order in dress row mould's transfer mechanism, dress row mould is put into before entering into sorting mechanism place battery package shell, feeding manipulator is put into button cell when on the battery guiding mechanism, through battery guiding mechanism arranges the button cell in order, after arranging through conveyer belt mechanism carries to be close to rotatory disc place button cell's one end, then through the transfer mechanism with button cell that arranges and arrange the button cell is packed on the package shell after arranging. Further, the battery guiding mechanism comprises a supporting platform arranged on one side of the rotating disc, a plurality of equidistant evenly distributed mounting frame plates are fixedly arranged on the supporting platform, guide plates are fixedly arranged on the upper sides of the mounting frame plates, guiding grooves are formed in the upper surfaces of the guide plates, transparent observing plates are further arranged on the upper portions of the guiding grooves, and a conveying belt structure is further arranged at the upper ends of the mounting frame plates. Further, the lower part of installing the frame plate still is provided with the track board, still be provided with a plurality of track that is used for transporting button cell on the track board, orbital exit is provided with the exit linkage, the track board with still be provided with sliding connection in between the guide board the slide bar on installing the frame plate surface, the slide bar only can side-to-side slide and the upside has set firmly the vibrating plate, be provided with on the vibrating plate and be used for the intercommunication the track with the connecting channel of guide slot, still be provided with on the installing the frame plate and be used for driving the vibrating plate reciprocating motion is the flexible cylinder of button cell smooth gliding. Further, the conveyer belt mechanism is including set up in conveyer belt on the supporting platform, the upside of conveyer belt be provided with the access connection end that the exit linkage end is connected, the opposite side of access connection end is connected with spacing track frame, the opposite side of spacing track frame be provided with set firmly in the platen on the supporting platform, be provided with in the platen upper surface and be us