CN113246369A - Button cell inlays moulds equipment - Google Patents

Abstract

The invention relates to the technical field of film coating, and discloses button cell plastic embedding equipment which comprises a base and a plastic embedding mold assembly, wherein the plastic embedding mold assembly comprises an upper mold and a lower mold, one side of the base is provided with an injection molding machine, the other side of the base is provided with a material box for storing button cells, a straight vibrator for orderly arranging button cell plastic embedding covers is arranged in the material box, a track mechanism for collecting the button cell plastic embedding covers according to preset arrangement is arranged at a discharge plate of the straight vibrator, a long sliding table mechanism for extracting the plastic embedding covers in the track mechanism is arranged at one side of the track mechanism, a push plate mechanism for conveying the button cell plastic embedding covers in the long sliding table mechanism to a position between the upper mold and the lower mold is arranged between the plastic embedding mold assembly and the long sliding table mechanism, and a gripper mechanism for gripping finished product plastic embedding covers in the plastic embedding mold assembly is arranged at one side of the plastic embedding mold assembly. This equipment need not operating personnel and inlays the button cell and mould the lid and place and inlay the mould subassembly in, improves the efficiency of inlaying and moulding, improves production efficiency.

Description

Button cell inlays moulds equipment

Technical Field

The invention relates to the technical field, in particular to button cell plastic embedding equipment.

Background

Button cells are a common cell type and are in great demand, but because of the small size, the size and the positioning of assembly elements are strict, and currently, in the production process of the cells, the edge of a negative cell shell needs to be subjected to injection molding so as to protect the cells.

The Chinese patent with the publication number of CN210805923U discloses a button cell negative electrode shell injection molding glue forming device, which comprises a mold feeding jig for moving a negative electrode cell shell to be processed and a glue injection device for injection molding on the edge of the negative electrode cell shell, wherein the glue injection device comprises a glue injection mechanism, a mold closing mechanism and an ejection mechanism, the glue injection mechanism is arranged on the upper part of the mold closing mechanism, the ejection mechanism is arranged beside the mold closing mechanism, the mold feeding jig is of an upper double layer and a lower double layer, slide rails are arranged at the edges of two sides of the lower layer in parallel, and slide blocks matched with the slide rails at the edges of two sides of the lower layer are arranged at the edges of two sides of the upper layer in parallel.

Among the above-mentioned technical scheme button cell inlay the in-process of moulding, need artifically place button cell in the mould according to predetermined range, button cell is less, and artifical difficult operation, therefore inlay the inefficiency of moulding, influence production efficiency.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide button cell plastic embedding equipment.

The technical purpose of the invention is realized by the following technical scheme: a button cell plastic inlaying device comprises a base and an inlaying mold component arranged on the base, wherein the inlaying mold component comprises an upper mold and a lower mold, an injection molding machine for injecting the plastic embedding mold assembly is arranged on one side of the base, a material box for storing the button battery is arranged on one side of the base, a straight vibration device for orderly arranging the button cells is arranged in the feed box, a discharge plate of the straight vibration device extends out of the feed box, a track mechanism for collecting the button batteries according to preset arrangement is arranged at the discharge plate of the straight vibrator, one side of the track mechanism is provided with a long sliding table mechanism for extracting the button cell in the track mechanism, a push plate mechanism for conveying the button cell in the long sliding table mechanism to the position between the upper die and the lower die is arranged between the insert die assembly and the long sliding table mechanism, and a gripper mechanism for gripping the button battery in the plastic set-in mould assembly is arranged on one side of the plastic set-in mould assembly.

The invention is further arranged in a way that the track mechanism comprises a first mounting frame fixed on the base, a product positioning plate arranged on the first mounting frame in a sliding way, a cover plate fixed on the product positioning plate and a first air cylinder fixed on the first mounting frame, wherein the first air cylinder is used for driving the product positioning plate to move between the long sliding table mechanism and the discharge plate of the linear vibrator, and the product positioning plate is used for orderly arranging and collecting button batteries flowing out of the linear vibrator.

The invention is further arranged in that the long sliding table mechanism comprises a second mounting frame fixed on the base, a second sliding seat assembly arranged on the second mounting frame in a sliding manner, and a second air cylinder arranged on the second mounting frame, wherein the second air cylinder is used for driving the sliding seat assembly to move between the upper part of the product positioning plate and one side of the injection molding die assembly, and the sliding seat assembly is provided with a plurality of suction nozzles distributed according to button batteries on the product positioning plate.

The push plate mechanism further comprises a third mounting frame fixed on the machine base, a material receiving positioning plate arranged on the third mounting frame in a sliding mode, and a third air cylinder arranged on the third mounting frame, wherein the third air cylinder is used for driving the material receiving positioning plate to move between an upper die and a lower die, a plurality of discharging holes distributed according to suction nozzles in the sliding seat assembly are formed in the material receiving positioning plate, and the discharging holes are semicircular.

The invention is further arranged in that the gripper mechanism comprises a fourth mounting frame fixed on one side of the base far away from the push plate mechanism, a sliding module arranged on the fourth mounting frame, a connecting seat fixed on a sliding block in the sliding module, a sliding table cylinder arranged on the connecting seat, a fixed plate fixed on the sliding table cylinder and a sucking disc fixed on the fixed plate, wherein the sliding table cylinder is used for driving the sucking disc to move up and down above the lower die, and the sliding module is used for driving the connecting seat to enter and exit the insert molding die assembly.

The invention further provides that the suckers are provided with a plurality of suckers and correspond to the upper parts of the button batteries in the plastic injection mould assembly.

The invention is further arranged that the slip module is positioned between the bin and the insert molding die assembly, and the injection molding machine is positioned on the side of the insert molding die assembly away from the bin.

The invention is further arranged that a material guide plate is arranged on one side of the insert molding die assembly close to the gripper mechanism, and the material guide plate is positioned below the sucker in a state that the sucker extends out of the insert molding die assembly.

In conclusion, the invention has the following beneficial effects:

1. in the scheme, the button cell plastic-inlaid cover in the material box can be orderly conveyed to a product positioning plate of the track mechanism by using the direct vibration device, then the product positioning plate is conveyed to the long sliding table mechanism by the track mechanism, a suction nozzle in the long sliding table mechanism sucks the button cell insert plastic cover on the product positioning plate, the button cell is conveyed to the material receiving positioning plate of the push plate mechanism by the long sliding table mechanism, the push plate mechanism conveys the material receiving positioning plate to a position between the upper die and the lower die, after the material receiving positioning plate is conveyed into the plastic injection mold assembly, the upper mold and the lower mold are buckled, the injection molding machine performs injection molding, further, the button cell can be coated, and finally the coated button cell is taken out by the gripper mechanism, therefore, an operator does not need to place the button cell in the insert molding die assembly, manpower is saved, insert molding efficiency is improved, and production efficiency is further improved;

2. this scheme is provided with a plurality of sucking disc, is favorable to improving the adsorption efficiency of tongs subassembly to guarantee the stable mould subassembly of moulding of shifting out of button cell after the tectorial membrane.

Drawings

FIG. 1 is a schematic view of the overall structure of a molding apparatus according to an embodiment of the present invention;

FIG. 2 is a principal schematic view of the configuration of the track mechanism of FIG. 1;

FIG. 3 is a bottom view of the track mechanism of FIG. 2;

fig. 4 is a main view illustrating the configuration of the long slide mechanism in fig. 1;

FIG. 5 is a principal schematic view of the configuration of the carriage assembly of FIG. 4;

FIG. 6 is a principal schematic view of the construction of the pusher mechanism of FIG. 1;

fig. 7 is a main view illustrating the configuration of the gripper mechanism in fig. 1.

In the figure: 100. a machine base; 200. an insert molding die assembly; 201. an upper die; 202. a lower die; 1. a material box; 2. a straight vibration device; 3. a track mechanism; 31. a first mounting frame; 311. a base plate; 312. a vertical plate; 313. a support beam; 314. a buffer seat I; 32. a product positioning plate; 33. a cover plate; 34. a first cylinder; 35. a top plate; 361. a first sliding block; 362. a first slide rail; 37. a saddle groove; 38. a proximity sensor; 4. a long sliding table mechanism; 41. a second mounting frame; 42. a carriage assembly; 4201. a suction nozzle fixing seat; 4202. a traveler; 4203. a limiting seat; 421. a suction nozzle; 43. a second air cylinder; 44. a drag chain seat; 45. a drag chain I; 46. a buffer seat; 461. a second buffer; 47. a third buffer seat; 471. a third buffer; 481. a second sliding block; 482. a second slide rail; 483. a guide rail plate; 5. a push plate mechanism; 51. mounting frame III; 52. a material receiving positioning plate; 521. a discharge hole; 53. a third air cylinder; 541. a third sliding block; 542. a third slide rail; 55. connecting blocks; 551. ejecting the head; 56. a support leg; 57. a hydraulic buffer; 6. a gripper mechanism; 61. mounting frame IV; 62. a sliding module; 63. a connecting seat; 64. a sliding table cylinder; 65. a fixing plate; 66. a suction cup; 67. a tow chain II; 7. an injection molding machine; 8. a material guide plate.

Detailed Description

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

As shown in fig. 1, a button cell insert molding device comprises a base 100, an insert molding die assembly 200, an injection molding machine 7, a bin 1, a straight vibrator 2, a track mechanism 3, a long sliding table mechanism 4, a push plate mechanism 5 and a gripper mechanism 6, wherein the bin 1 is positioned at one side of the base 100, the insert molding die assembly 200 is fixed on the base 100 and is close to a discharge port of the bin 1, the insert molding die assembly 200 comprises an upper die 201 and a lower die 202, and the injection molding machine 7 is positioned at one side of the insert molding die assembly 200 far away from the bin 1.

Referring to fig. 1 and 2, a storage plastic cover for button cells is arranged in a material box 1, and a straight vibrator 2 is used for orderly arranging the button cells in the material box 1 on a discharge plate. The track mechanism 3 is used for collecting button cells in the linear vibrator 2 according to preset arrangement, the track mechanism 3 comprises a first mounting frame 31 fixed on the base 100, a product positioning plate 32 slidably arranged on the first mounting frame 31, a cover plate 33 fixed on the product positioning plate 32 and a first cylinder 34 fixed on the first mounting frame 31, the first mounting frame 31 comprises a base plate 311 fixed on the base 100 and vertical plates 312 fixed on two sides of the base plate 311, one side of the base plate 311 far away from the vertical plates 312 is fixedly connected with a support beam 313, the support beam 313 is provided with two sides symmetrically arranged on the end part of the base plate 311, a first buffer seat 314 is fixedly connected between the bottom surfaces of the support beams 313 on two sides, a top plate 35 is connected between a telescopic rod of the first cylinder 34 and the product bottom plate 32, a first slider 361 and a first slide rail 362 are arranged between the product positioning plate 32 and the, the product positioning plate 32 is arranged in the sliding seat slot 37 in a sliding mode, a proximity sensor 38 is fixedly connected to the bottom of the product positioning plate 32, the proximity sensor 38 is used for frequently moving the product positioning plate 32, the first cylinder 34 is used for driving the product positioning plate 32 to move between the long sliding table mechanism 4 and the discharging plate of the linear vibrator 2, and the product positioning plate 32 is used for orderly arranging and collecting button cell plastic embedded covers flowing out of the linear vibrator 2.

Referring to fig. 1 and 3, the long sliding table mechanism 4 is used for extracting a button cell insert plastic cover on a positioning plate in the rail mechanism 3, the long sliding table mechanism 4 includes a second mounting frame 41 fixed on the base 100, a second slide seat assembly 42 slidably disposed on the second mounting frame 41, and a second air cylinder 43 mounted on the second mounting frame 41, one side of the second mounting frame 41 away from the second slide seat assembly 42 is fixedly connected with a drag chain seat 44, a first drag chain 45 is disposed on the drag chain seat 44, one end of the second mounting frame 41 away from the second air cylinder 43 is fixedly connected with a second buffer seat 46, a second buffer 461 is mounted on the second buffer seat 46, a third buffer seat 47 is mounted at the bottom of the second air cylinder 43 of the second mounting frame 41, a third buffer 471 is mounted on the third buffer seat 47, a second sliding block 481 and a second sliding rail 482 for sliding the second slide seat assembly 42 are disposed on the second mounting frame 41, a guide rail plate 483 is fixedly connected between the second slide seat assembly 42 and the sliding block 481, the slider assembly 42 comprises nozzle fixing seats 4201 arranged on the guide rail plate 483, sliding columns 4202 arranged between the nozzle fixing seats 4201 in a penetrating mode, and limiting seats 4203 arranged between the nozzle fixing seats 4201, a second air cylinder 43 is used for driving the slider assembly 42 to move between the upper portion of the product positioning plate 32 and one side of the insert molding die assembly 200, and a plurality of nozzles 421 arranged according to insert molding covers of button cells on the product positioning plate 32 are arranged on the slider assembly 42.

Referring to fig. 1 and 4, the push plate mechanism 5 is used for conveying the button cell in the long sliding table mechanism 4 to a position between the upper die 201 and the lower die 202, the push plate mechanism 5 includes a third mounting frame 51 fixed on the base 100, a material receiving positioning plate 52 slidably disposed on the third mounting frame 51, and a third air cylinder 53 mounted on the third mounting frame 51, the third mounting frame 51 is provided with a third slider 541 and a third slide rail 542 for sliding the material receiving positioning plate 52 on the third mounting frame 51, the third air cylinder 53 is used for driving the material receiving positioning plate 52 to move to a position between the upper die 201 and the lower die 202, an end of an expansion link of the third air cylinder 53 is fixedly connected with a connecting block 55, one side of the connecting block 55 close to the material receiving positioning plate 52 is fixedly connected with a top 551, the material receiving positioning plate 52 is provided with a plurality of material discharging holes 521 arranged according to suction nozzles 421 in the slide block assembly 42, the material discharging holes 521 are semicircular, one end of the third mounting frame 51 far away from the third air cylinder 53 is fixedly connected with a support leg 56, and a hydraulic buffer 57 is fixedly connected to one end of the mounting bracket III 51 close to the air cylinder III 53.

Referring to fig. 1 and 5, the gripper mechanism 6 is used for gripping the button cell coated in the insert molding die assembly 200, the gripper mechanism 6 includes a fourth mounting bracket 61 fixed on one side of the base 100 away from the push plate mechanism 5, a sliding module 62 mounted on the fourth mounting bracket 61, a connecting seat 63 fixed on a slider in the sliding module 62, a sliding table cylinder 64 mounted on the connecting seat 63, a fixing plate 65 fixed on the sliding table cylinder 64, a suction cup 66 fixed on the fixing plate 65, a second drag chain 67 is arranged on one side of the fourth mounting bracket 61, the sliding table cylinder 64 is used for driving the suction cup 66 to move up and down above the lower die 202, and the sliding module 62 is used for driving the connecting seat 63 to enter and exit the insert molding die assembly 200. The suction cups 66 are provided in a plurality and correspond to the upper side of each button cell in the insert molding die assembly 200. The slide module 62 is located between the magazine 1 and the insert molding assembly 200, and the injection molding machine 7 is located on the side of the insert molding assembly 200 away from the magazine 1. A material guiding plate 8 is arranged on one side of the insert molding mold assembly 200 close to the gripper mechanism 6, and the material guiding plate 8 is positioned below the suction cup 66 in a state of extending out of the insert molding mold assembly 200.

The use principle of the embodiment is as follows: the button cell in the feed box 1 is orderly conveyed to a product positioning plate 32 of a track mechanism 3 by a straight vibrator 2, then the product positioning plate 32 is conveyed to a long sliding table mechanism 4 by the track mechanism 3, the button cell on the product positioning plate 32 is sucked by a suction nozzle 421 in the long sliding table mechanism 4, the button cell is conveyed to a material receiving positioning plate 52 of a push plate mechanism 5 by the long sliding table mechanism 4, the push plate mechanism 5 conveys the material receiving positioning plate 52 to a position between an upper die 201 and a lower die 202, after the material receiving positioning plate 52 is conveyed to an insert molding die assembly 200, the upper die 201 and the lower die 202 are buckled, an injection molding machine 7 performs injection molding, further the button cell can be coated, and finally, the coated button cell is taken out to a material guide plate 8 by a gripper mechanism 6.

According to the invention, an operator does not need to place the button cell in the insert molding die assembly 200, so that the labor is saved, the insert molding efficiency is improved, and the production efficiency is further improved.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. The utility model provides a button cell equipment of moulding setting, includes frame (100) and sets up moulding mould subassembly (200) on frame (100), moulding mould subassembly (200) include top die (201) and bed die (202), one side of frame (100) is provided with to moulding injection molding machine (7) that moulding mould subassembly (200) were moulded plastics, characterized by: a feed box (1) for storing button cells is arranged on one side of the base (100), a straight vibrator (2) for orderly arranging the button cells is arranged in the feed box (1), the discharge plate of the rectilinear vibration device (2) extends out of the material box (1), a track mechanism (3) for collecting the plastic-embedded covers according to preset arrangement is arranged at the discharge plate of the rectilinear vibration device (2), one side of the track mechanism (3) is provided with a long sliding table mechanism (4) for extracting a button cell plastic-inlaid cover in the track mechanism (3), a push plate mechanism (5) for conveying the button cell in the long sliding table mechanism (4) to the position between the upper die (201) and the lower die (202) is arranged between the insert die assembly (200) and the long sliding table mechanism (4), and a gripper mechanism (6) for gripping the button cell insert plastic cover in the insert plastic mould component (200) is arranged on one side of the insert plastic mould component (200).

2. The button cell insert molding device according to claim 1, wherein: track mechanism (3) including being fixed in mounting bracket (31) on frame (100), slide and set up product locating plate (32) on mounting bracket (31), be fixed in apron (33) on product locating plate (32), be fixed in cylinder (34) on mounting bracket (31), cylinder (34) are used for the drive product locating plate (32) remove between long slip table mechanism (4) and straight oscillator (2) play flitch, product locating plate (32) are used for arranging in order and collect the button cell that straight oscillator (2) flow inlays and moulds the lid.

3. The button cell insert molding device according to claim 2, wherein: long slip table mechanism (4) including being fixed in mounting bracket two (41), slide on frame (100) set up slide subassembly (42) on mounting bracket two (41), install cylinder two (43) on mounting bracket two (41), cylinder two (43) are used for the drive slide subassembly (42) are in product locating plate (32) top with remove between one side of moulding utensil subassembly (200), be provided with on slide subassembly (42) and press a plurality of suction nozzle (421) that button cell arranged on product locating plate (32).

4. The button cell insert molding device according to claim 3, wherein: push pedal mechanism (5) including be fixed in mounting bracket three (51) on frame (100), slide and set up material receiving positioning plate (52) on mounting bracket three (51), install cylinder three (53) on mounting bracket three (51), cylinder three (53) are used for the drive material receiving positioning plate (52) remove to between supreme mould (201) and bed die (202), set up a plurality of on material receiving positioning plate (52) according to blowing hole (521) that suction nozzle (421) were arranged in slide subassembly (42), blowing hole (521) are the semicircle form.

5. The button cell insert molding device according to claim 1, wherein: tongs mechanism (6) including being fixed in frame (100) keep away from four (61) of mounting bracket of push pedal mechanism (5) one side, install sliding module (62) on four (61) of mounting bracket, be fixed in connecting seat (63) on the slider in sliding module (62), install slip table cylinder (64) on connecting seat (63), be fixed in fixed plate (65) on slip table cylinder (64), be fixed in sucking disc (66) on fixed plate (65), slip table cylinder (64) are used for the drive sucking disc (66) are in lower mould (202) top reciprocates, sliding module (62) are used for the drive connecting seat (63) business turn over moulding utensil subassembly (200).

6. The button cell insert molding device according to claim 5, wherein: the sucking discs (66) are provided with a plurality of sucking discs and correspond to the upper parts of the button cell insert molding covers in the insert molding mold assembly (200).

7. The button cell insert molding device according to claim 5, wherein: the sliding module (62) is located between the material box (1) and the injection molding module assembly (200), and the injection molding machine (7) is located on one side, away from the material box (1), of the injection molding module assembly (200).

8. The button cell insert molding device according to claim 5, wherein: one side of the insert molding die assembly (200) close to the gripper mechanism (6) is provided with a material guide plate (8), and the material guide plate (8) is positioned below the suction disc (66) in a state of extending out of the insert molding die assembly (200).

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