CN217123769U - Button cell moulds automatic feeding machine with inlaying - Google Patents

Abstract

The utility model discloses a button cell moulds automatic feeding machine with inlaying, it includes: the injection molding machine, set up in the injection molding machine side and be used for the automatic vibration feed mechanism who sees off the battery, set up in vibration feed mechanism one side and be used for arranging the location pendulum material device of battery, set up in location pendulum material device side and be used for sending the battery into the material loading pusher in the injection molding machine and be used for with the battery from location pendulum material device transfer to the material loading manipulator in the material loading pusher, be provided with the first locating hole that is used for fixing a position the battery with the same of die cavity quantity in the injection molding machine in the material loading pusher. Adopt vibration feed mechanism to arrange the battery one by one and send to the location pendulum material device in, snatch by the material loading manipulator with the orderly battery of pendulum material device and shift to material loading pusher in, send the battery of whole board into the injection molding machine through material loading pusher and mould plastics, replace artifical material loading from this, promote efficiency greatly, labour saving and time saving to there is not the potential safety hazard.

Description

Button cell moulds automatic feeding machine with inlaying

The technical field is as follows:

the utility model relates to a button cell automated production field refers in particular to a button cell is with inlaying automatic feeding machine of moulding.

Background art:

button cells (button cells) are also called button cells, and refer to cells having an outer dimension like a small button, generally having a larger diameter and a smaller thickness (compared to cylindrical cells such as AA 5 in the market). The button cell is classified from the appearance, and the same corresponding cell is classified into a cylindrical cell, a square cell and a special-shaped cell.

Because button cell volume is less relatively, and it is very inconvenient to feed material location in the production course of working, generally adopts in the tradition to put into the mould of injection molding machine with the battery by hand, and in order to improve the efficiency of moulding plastics, generally has a plurality of die cavity on the mould of injection molding machine, therefore needs the manual work to load the battery many times, leads to inefficiency, and intensity of labour is big, also has great potential safety hazard in putting into the mould with the battery by hand moreover.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide a button cell is with inlaying automatic feeding machine of moulding.

In order to solve the technical problem, the utility model discloses a following technical scheme: the utility model provides a button cell moulds automatic feeding machine with inlaying, includes: the injection molding machine, set up in the injection molding machine side is used for the automatic vibration feed mechanism who sees off the battery, set up in vibration feed mechanism one side is used for arranging the location of battery is put the material device, set up in location is put the material device side and be used for with the battery is sent into material loading pusher in the injection molding machine and is used for with the battery is followed location is put the material device and is shifted to the material loading manipulator in the material loading pusher, be provided with in the material loading pusher with die cavity quantity is the same and is used for the location in the injection molding machine the first locating hole of battery.

Furthermore, in the above technical scheme, the feeding manipulator includes a first support frame spanning over the positioning material placing device and the feeding pushing device, a first Y-axis moving module arranged on the first support frame, a first Z-axis moving module arranged on the first Y-axis moving module, a plurality of first material taking suction claws arranged on the first Z-axis moving module and used for grabbing the battery, and a first driving device used for driving the first material taking suction claws to approach or separate from each other, and the first Y-axis moving module is vertically arranged above the positioning material placing device and the feeding pushing device.

Furthermore, in the above technical scheme, a plurality of guide rods for supporting and installing the first material taking suction claws are arranged on the first Z-axis moving module, the first material taking suction claws are movably installed on the guide rods, and a floating connecting piece for enabling the first material taking suction claws to be equidistantly unfolded is arranged between every two first material taking suction claws.

Furthermore, in the above technical solution, the floating connecting member is a bolt, one end of the bolt is connected to the previous first material taking suction claw, the other end of the bolt penetrates through the first material taking suction claw, each first material taking suction claw is provided with a counter bore for limiting the bolt to float at equal intervals, and the counter bores on two adjacent first material taking suction claws are staggered and not collinear; the first Z-axis moving module is further provided with a first supporting plate for mounting the guide rod, and the first driving device is connected with one of the first material taking suction claws.

Furthermore, among the above-mentioned technical scheme, the location pendulum material device including with vibration feed mechanism dock and be used for accepting the pendulum material locating plate of battery, set up in pendulum material locating plate below first liftout device, lid close install in it is convenient for to open to put on the material locating plate and can counterpoint the material manipulator snatchs the removable cover of battery and be used for the drive removable cover with pendulum material locating plate dislocation lid closes or the second drive arrangement who opens to counterpoint, be provided with on the pendulum material locating plate and be used for the location the first constant head tank of battery, be provided with on the removable cover can with the first opening that the constant head tank was opened.

Further, among the above-mentioned technical scheme, vibration feed mechanism is including the automatic discharge the vibration dish of battery, set up in vibration dish exit is used for connecting put the row's of material locating plate material groove and set up in be used for on arranging the material groove with the battery pushes away first trachea of first locating slot is interior, the exit of vibration dish is provided with and is used for the screening the selection material groove of battery, the shaping is used for distinguishing on the selection material groove positive and negative first selection material breach of battery, first selection material breach side still is provided with the second selection material breach, just the second is selected material breach department and still is installed the material blocking blend stop.

Furthermore, in the above technical solution, the first material ejecting device is disposed at the bottom of the first positioning groove, a fixed cover plate covering the first positioning groove is further disposed on one side of the material placing positioning plate close to the material discharging groove, and a first air nozzle aligned with the first positioning groove is disposed on the fixed cover plate; first air cock with still be provided with between the first gas blowing pipe to the second gas blowing pipe of blowing in the first constant head tank, just first gas blowing pipe with the equal slope orientation of second gas blowing pipe first constant head tank sets up, first air cock perpendicular orientation first constant head tank.

Furthermore, in the above technical scheme, the discharge groove is provided with two side by side, the material placing positioning plate is correspondingly provided with two first positioning grooves, the movable cover plate is correspondingly provided with two first openings, the first material taking suction claw is provided with two rows of corresponding first air nozzles side by side, and the fixed cover plate is correspondingly provided with two first air nozzles.

Furthermore, in the above technical scheme, the feeding pusher includes a first X-axis moving module disposed at one end of the feeding manipulator, a material leaking plate disposed on the first X-axis moving module and capable of extending into the injection molding machine, a positioning jig slidably mounted on the material leaking plate and used for receiving the battery, and a third driving device used for driving the positioning jig to move relative to the material leaking plate so as to discharge the battery, wherein the positioning jig is provided with a plurality of first positioning holes arranged in a matrix, and the material leaking plate is formed with a plurality of material leaking holes capable of being aligned with the first positioning holes.

Furthermore, in the above technical solution, the first X-axis moving module includes a first slide rail vertically disposed on one side of the injection molding machine, a first sliding seat disposed on the first slide rail, a supporting cantilever mounted on the first sliding seat and used for supporting the material leaking plate, and a fourth driving device used for driving the first sliding seat to move along the first slide rail, the material leaking plate is provided with a second slide rail used for supporting the positioning fixture to move, and the second slide rail is located on two sides of the material leaking hole.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses in adopt vibration feed mechanism to arrange the battery one by one and send to location pendulum material device in, snatch by material loading manipulator with the orderly battery of pendulum material device and shift to material loading pusher, send the battery of whole board into the injection molding machine through material loading pusher and mould plastics, replace artifical material loading from this, promote efficiency greatly, labour saving and time saving to there is not the potential safety hazard.

Description of the drawings:

fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the loading manipulator in the present invention;

fig. 3 is a reference diagram of the loading manipulator and the positioning material placing device used in cooperation;

fig. 4 is a perspective view of the middle positioning material placing device of the present invention;

fig. 5 is a perspective view of the vibration feeding mechanism of the present invention;

fig. 6 is a perspective view of the middle feeding pushing device of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1 to 6, an automatic plastic-inlaid feeding machine for button cells comprises: injection molding machine 1, set up in 1 side of injection molding machine is used for the automatic vibration feed mechanism 2 that sends out battery 10, set up in vibration feed mechanism 2 one side is used for arranging battery 10's location pendulum material device 3, set up in 3 sides of location pendulum material device are used for with battery 10 sends into material loading pusher 4 in the injection molding machine 1 and be used for with battery 10 follows material loading manipulator 5 in the location pendulum material device 3 shifts to material loading pusher 4, be provided with in the material loading pusher 4 with the same and location of cavity quantity in 1 mould of injection molding machine first locating hole 431 of battery 10. Adopt vibration feed mechanism 2 to arrange battery 10 one by one and send to location pendulum material device 3 in, snatch by material loading manipulator 5 with pendulum material device 3 neatly arranged battery 10 and shift to material loading pusher 4, send into injection molding machine 1 through material loading pusher 4 battery 10 of whole board and mould plastics, replace artifical material loading from this, promote efficiency greatly, labour saving and time saving to there is not the potential safety hazard.

The feeding manipulator 5 comprises a first support frame 51, a first Y-axis moving module 52, a first Z-axis moving module 53, a plurality of first material taking suction claws 54 and a first driving device 55, wherein the first support frame 51 is arranged above the positioning material placing device 3 and the feeding pushing device 4 in a crossing mode, the first Y-axis moving module 52 is arranged on the first support frame 51, the first Z-axis moving module 53 is arranged on the first Y-axis moving module 52, the first material taking suction claws 54 are arranged on the first Z-axis moving module 53 and used for grabbing the batteries 10, the first driving device 55 is used for driving the first material taking suction claws 54 to mutually approach or separate, and the first Y-axis moving module 52 is vertically arranged above the positioning material placing device 3 and the feeding pushing device 4.

The first Z-axis moving module 53 is provided with a plurality of guide rods 56 for supporting and mounting the first material taking suction claws 54, the first material taking suction claws 54 are movably mounted on the guide rods 56, and a floating connecting member 57 for enabling the first material taking suction claws 54 to be equidistantly unfolded is arranged between every two first material taking suction claws 54.

The floating connecting piece 57 is a bolt, one end of the bolt is connected with the previous first material taking suction claw 54, the other end of the bolt penetrates through the first material taking suction claw 54, each first material taking suction claw 54 is provided with a counter bore 541 for limiting the bolt to float at equal intervals, and the counter bores 541 on two adjacent first material taking suction claws 54 are staggered and not collinear; the first Z-axis moving module 53 is further provided with a first supporting plate 58 for mounting the guide rod 56, and the first driving device 55 is connected to one of the first material taking suction claws 54. When the first driving device 55 pushes the first material taking suction claws 54 to approach each other, one end of the floating connecting piece 57 can float and extend, so that the first material taking suction claws 54 can approach each other without being blocked; when the first driving device 55 pulls the first pickup claws 54 to be separated from each other, since the floating connection member 57 connects the two first pickup claws 54, the two first pickup claws 54 are separated to define a distance therebetween, so that the first pickup claws 54 on the side where the first driving device 55 is pulled can be replaced by the floating connection member 57 to completely separate the plurality of first pickup claws 54, thereby realizing equidistant separation between the plurality of first pickup claws 54.

Adopt and arrange on first Z axle removes module 53 and set up a plurality of first material suction claw 54 of getting for material loading manipulator 5 can snatch a plurality of batteries 10 simultaneously, promote handling efficiency, and set up on first Z axle removes module 53 and be used for driving first material suction claw 54 and draw close each other and the first drive arrangement 55 of interval separation, can make battery 10 pack into material loading pusher 4 back interval separately, with the first locating hole 431 of matching interval distribution, make the battery 10 that gets into in injection molding machine 1 separate alone. Secondly, adopt floating connection spare 57 to take every two first material to inhale claw 54 and float and link together for first drive arrangement 55 can enough drive first material to inhale claw 54 and draw close each other and snatch the battery 10 smoothly from battery feeding module 2, can drive first material again and inhale claw 54 interval separation and accurately correspond the battery 10 and put into material loading pusher's 4 first registration hole 431.

The first Y-axis moving module 52 includes two third guide rails 521 arranged in parallel on the first support frame 51, a third sliding seat 522 slidably mounted on the third guide rails 521 and driving the first Z-axis moving module 53 to move, a first pulley set 523 arranged between the two third guide rails 521 and used for driving the third sliding seat 522 to move along the third guide rails 521, and a third motor 524 used for driving the first pulley set 523 to work, and the first Z-axis moving module 53 is mounted on the third sliding seat 522.

The first Z-axis moving module 53 includes a supporting vertical plate 531 vertically installed on the third sliding seat 522, two fourth guide rails 532 vertically installed on the supporting vertical plate 531 in parallel, a fourth sliding seat 534 slidably installed on the fourth guide rails 532 and configured to drive the first material taking suction claw 54 to move up and down, and an air cylinder 535 installed at the upper end of the supporting vertical plate 531 and configured to drive the fourth sliding seat 534 to move along the fourth guide rails 532, and buffer devices 536 on two sides of the fourth sliding seat 534 and configured to prevent the fourth sliding seat 522 from being impacted.

The location pendulum material device 3 including with vibration feed mechanism 2 docks and is used for accepting the pendulum material locating plate 31 of battery 10, set up in pendulum material locating plate 31 below first liftout device 32, lid close install in it is convenient to can counterpoint open on the pendulum material locating plate 31 material loading manipulator 5 snatchs the removable cover 33 of battery 10 and be used for the drive removable cover 33 with pendulum material locating plate 31 dislocation lid closes or the second drive arrangement 34 of opening of counterpointing, be provided with on the pendulum material locating plate 31 and be used for the location the first constant head tank 311 of battery 10, be provided with on the removable cover 33 can with the first opening 331 that first constant head tank 311 was opened.

Vibration feed mechanism 2 is including the automatic discharge vibration dish 21 of battery 10, set up in vibration dish 21 exit is used for connecting row material tank 22 of pendulum material locating plate 31 and set up in row material tank 22 is last and be used for with battery 10 pushes into first gas blower 23 in first locating slot 311, the exit of vibration dish 21 is provided with and is used for the screening the selection material tank 24 of battery 10, the shaping is useful for distinguishing on the selection material tank 24 the first selection material breach 241 that battery 10 is just anti-reverse, first selection material breach 241 side still is provided with second selection material breach 242, just material blocking blend stop 25 is still installed in second selection material breach 242 department.

The first material ejecting device 32 is arranged at the bottom of the first positioning groove 311, a fixed cover plate 35 which covers the first positioning groove 311 is further arranged on one side, close to the discharge groove 22, of the material placing positioning plate 31, and a first air nozzle 36 which is aligned with the first positioning groove 311 is arranged on the fixed cover plate 35; a second air blowing pipe 26 blowing air into the first positioning groove 311 is further arranged between the first air nozzle 36 and the first air blowing pipe 23, the first air blowing pipe 23 and the second air blowing pipe 26 are inclined towards the first positioning groove 311, and the first air nozzle 36 vertically faces the first positioning groove 311. The first air nozzle 36 and the first air blowing pipe 23 are connected to the same air source, and when the battery 10 in the first positioning groove 311 is fully arranged, the first air nozzle 36 blows air into the first positioning groove 311 to reduce the air pressure in the first air blowing pipe 23, so as to intercept the battery 10 sent out later.

Two discharge grooves 22 are arranged in parallel, two first positioning grooves 311 are correspondingly arranged on the material placing positioning plate 31, two first openings 331 are correspondingly arranged on the movable cover plate 33, two corresponding rows of first material taking suction claws 54 are correspondingly arranged in parallel, and two first air nozzles 36 are correspondingly arranged on the fixed cover plate 35. In an embodiment, the number of the first material taking suction claws 54 is equal to the number of the two rows of the first positioning holes 431 on the positioning fixture 43, so that the two rows of the first positioning holes 431 of the positioning fixture 43 can be filled with the number of the batteries 10 that can be taken by the feeding manipulator 5 at a time, so that the first X-axis moving module 41 in the feeding and pushing device 4 can drive the positioning fixture 43 to move step by the distance of the two rows of the first positioning holes 431 to cooperate with the feeding manipulator 5 to quickly load the batteries 10. Every two first material taking suction claws 54 are connected by two floating connecting pieces 57, so that the stability is improved.

The feeding pushing device 4 comprises a first X-axis moving module 41 arranged at one end of a feeding manipulator 5, a material leaking plate 42 arranged on the first X-axis moving module 41 and capable of extending into the injection molding machine 1, a positioning jig 43 slidably mounted on the material leaking plate 42 and used for bearing the battery 10, and a third driving device 44 used for driving the positioning jig 43 to move relative to the material leaking plate 42 to discharge the battery 10, wherein a plurality of first positioning holes 431 arranged in a matrix are formed in the positioning jig 43, and a plurality of material leaking holes 421 capable of being aligned with the first positioning holes 431 are formed in the material leaking plate 42.

The first X-axis moving module 41 includes a first slide rail 411 vertically disposed on one side of the injection molding machine 1, a first slide seat 412 disposed on the first slide rail 411, a supporting cantilever 413 mounted on the first slide seat 412 and used for supporting the material leaking plate 42, and a fourth driving device 414 used for driving the first slide seat 412 to move along the first slide rail 411, wherein a second slide rail for supporting the positioning fixture 43 to move is disposed on the material leaking plate 42, and the second slide rail is located on two sides of the material leaking hole 421. The fourth driving device 414 is a lead screw motor module.

To sum up, in the operation of the present invention, the vibrating feeding mechanism 2 sends the batteries 10 out to the discharge groove 22 one by one along the material selecting groove 24, and blows the batteries 10 in the two discharge grooves 22 to the first positioning groove 311 in the positioning material placing device 3 one by one through the first air blowing pipe 23; further, when the number of the arranged batteries 10 in the first positioning slot 311 reaches a set value, the second driving device 34 pushes the first opening 331 on the movable cover plate 33 to correspond to the first positioning slot 311, the first material taking suction claw 54 penetrates through the first opening 331 to extend into the first positioning slot 311 to grab the batteries, and the first positioning device 32 is matched to push the batteries 10 out of the first positioning slot 311; further, the first Z-axis moving module 53 raises the first material taking suction claw 54, the first Y-axis moving module 52 drives the first material taking suction claw 54 to move above the feeding and pushing device 4, meanwhile, the first driving device 55 pushes the first material taking suction claw 54 to spread out to generate a gap, and the first Z-axis moving module 53 drives the first material taking suction claw 54 to descend to place the battery 10 into the first positioning hole 431 in the positioning fixture 43; further, the first X-axis moving module 41 drives the positioning jig 43 to move forward by the distance of two rows of the first positioning holes 431, and the feeding manipulator 5 again picks up a batch of batteries 10 from the material placing device 3 and places the batteries into the remaining first positioning holes 431; further, the first X-axis moving module 41 drives the positioning jig 43 to extend into the injection molding machine 1 and align with the mold in the injection molding machine 1, and then the fourth driving device 414 pushes the positioning jig 43 to move, so that the first positioning hole 431 aligns with the material leaking hole 421 on the material leaking plate 42, and the battery 10 falls into the mold cavity of the injection molding machine 1 from the first positioning hole 431, thereby completing the loading of the battery 10; and finally, after the injection molding machine 1 finishes plastic embedding, ejecting the battery 10 out of the mold cavity by a second ejection device in the inner bottom mold of the injection molding machine 1, blowing the battery 10 out of the injection molding machine 1 through blowing, and finally finishing discharging.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a button cell moulds automatic feeding machine with inlaying which characterized in that includes: injection molding machine (1), set up in injection molding machine (1) side is used for the automatic vibration feed mechanism (2) of seeing off battery (10), set up in vibration feed mechanism (2) one side is used for arranging location pendulum material device (3) of battery (10), set up in location pendulum material device (3) side is used for with battery (10) are sent into material loading pusher (4) in injection molding machine (1) and be used for with battery (10) are followed location pendulum material device (3) transfer material loading manipulator (5) in material loading pusher (4), be provided with in material loading pusher (4) with the same and location of mould cavity quantity in injection molding machine (1) first locating hole (431) of battery (10).

2. The automatic plastic-inlaid feeding machine for the button batteries according to claim 1, is characterized in that: the feeding manipulator (5) comprises a first support frame (51) arranged above the positioning material placing device (3) and the feeding pushing device (4) in a crossing mode, a first Y-axis moving module (52) arranged on the first support frame (51), a first Z-axis moving module (53) arranged on the first Y-axis moving module (52), and a plurality of first driving devices (55) which are arranged on the first Z-axis moving module (53) and used for grabbing the first material taking and sucking claws (54) of the batteries (10) and used for driving the first material taking and sucking claws (54) to be close to or separate from each other, wherein the first Y-axis moving module (52) is vertically arranged above the positioning material placing device (3) and the feeding pushing device (4).

3. The button cell is with inlaying plastics automatic feeding machine of claim 2 characterized in that: the first Z-axis moving module (53) is provided with a plurality of guide rods (56) used for supporting and installing the first material taking suction claws (54), the first material taking suction claws (54) are movably installed on the guide rods (56), and floating connecting pieces (57) used for enabling the first material taking suction claws (54) to be equidistantly unfolded are arranged between every two first material taking suction claws (54).

4. The automatic plastic-inlaid feeding machine for the button batteries according to claim 3, is characterized in that: the floating connecting piece (57) is a bolt, one end of the bolt is connected with the previous first material taking suction claw (54), the other end of the bolt penetrates through the first material taking suction claws (54), each first material taking suction claw (54) is provided with a counter bore (541) used for limiting the bolt to float at equal intervals, and the counter bores (541) on two adjacent first material taking suction claws (54) are staggered and not collinear; the first Z-axis moving module (53) is also provided with a first supporting plate (58) for mounting the guide rod (56), and the first driving device (55) is connected with one of the first material taking suction claws (54).

5. The button cell is with inlaying plastics automatic feeding machine of claim 2 characterized in that: location pendulum material device (3) including with vibration feed mechanism (2) butt joint is used for accepting pendulum material locating plate (31), set up in pendulum material locating plate (31) below first liftout device (32), lid close install in it is convenient to open to put on the material locating plate (31) and can counterpoint pendulum material locating plate (31) material loading manipulator (5) snatch movable cover plate (33) of battery (10) and be used for the drive movable cover plate (33) with pendulum material locating plate (31) dislocation lid closes or counterpoint second drive arrangement (34) of opening, be provided with on pendulum material locating plate (31) and be used for the location first constant head tank (311) of battery (10), be provided with on movable cover plate (33) can with first opening (331) that constant head tank (311) were opened.

6. The automatic plastic-inlaid feeding machine for the button batteries according to claim 5, is characterized in that: vibration feed mechanism (2) including the automatic discharge vibration dish (21), set up in vibration dish (21) exit is used for connecting arrange material groove (22) of pendulum material locating plate (31) and set up in arrange on material groove (22) and be used for with battery (10) push first blowpipe (23) in first locating groove (311), the exit of vibration dish (21) is provided with and is used for the screening the material selection groove (24) of battery (10), the shaping has and is used for distinguishing on material selection groove (24) battery (10) positive and negative first material selection breach (241), first material selection breach (241) side still is provided with second material selection breach (242), just second material selection breach (242) department still installs and blocks material blend stop (25).

7. The automatic plastic-inlaid feeding machine for the button batteries according to claim 6, is characterized in that: the first material ejecting device (32) is arranged at the bottom of the first positioning groove (311), a fixed cover plate (35) covering the first positioning groove (311) is further arranged on one side, close to the discharge groove (22), of the material placing positioning plate (31), and a first air nozzle (36) aligned with the first positioning groove (311) is arranged on the fixed cover plate (35); first air cock (36) with still be provided with between first air blowing pipe (23) to second air blowing pipe (26) of blowing in first constant head tank (311), just first air blowing pipe (23) with second air blowing pipe (26) all inclines towards first constant head tank (311) sets up, first air cock (36) vertical orientation first constant head tank (311).

8. The automatic plastic-inlaid feeding machine for the button batteries according to claim 7, is characterized in that: arrange material groove (22) and be provided with two side by side, it is provided with two to correspond on pendulum material locating plate (31) first locating slot (311), it is provided with two to correspond on removable cover (33) first opening (331), first material of getting is inhaled claw (54) and is provided with two rows of correspondences side by side, it is provided with two to correspond on fixed apron (35) first air cock (36).

9. The automatic plastic-inlaid feeding machine for the button batteries according to any one of claims 1-8, characterized in that: the feeding pushing device (4) comprises a first X-axis moving module (41) arranged at one end of a feeding manipulator (5), a material leaking plate (42) arranged on the first X-axis moving module (41) and capable of extending into the injection molding machine (1), a third driving device (44) slidably mounted on the material leaking plate (42) and used for bearing a battery (10), and a positioning jig (43) used for driving the positioning jig (43) to move relative to the material leaking plate (42) so as to discharge the battery (10), wherein a plurality of first positioning holes (431) are arranged in a matrix form and are formed in the positioning jig (43), and a plurality of material leaking holes (421) capable of being aligned with the first positioning holes (431) are formed in the material leaking plate (42).

10. The button cell is with inlaying plastics automatic feeding machine of claim 9, characterized in that: the first X-axis moving module (41) comprises a first sliding rail (411) vertically arranged on one side of the injection molding machine (1), a first sliding seat (412) arranged on the first sliding rail (411), a supporting cantilever (413) arranged on the first sliding seat (412) and used for supporting the material leaking plate (42) and a fourth driving device (414) used for driving the first sliding seat (412) to move along the first sliding rail (411), wherein a second sliding rail used for supporting the positioning jig (43) to move is arranged on the material leaking plate (42), and the second sliding rail is positioned on two sides of the material leaking hole (421).

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