CN217798698U - Automatic guillootine of inductance coils - Google Patents

Abstract

The utility model discloses an automatic guillootine of inductance coils, including coil tablet feed mechanism for carry coil tablet in proper order to cut the lead wire mechanism and the tablet transport mechanism on inhale the material transport mechanism, cut the lead wire mechanism, tablet transport mechanism inhales material balance mechanism, be used for transferring the charging tray in proper order to balance station and charging tray unloading station's charging tray transport mechanism, and charging tray unloading mechanism. The utility model discloses an automatic feeding operation of coil tablet can be realized to coil tablet feed mechanism, inhale the automatic operation of transferring that material transport mechanism and tablet transfer mechanism can realize the coil tablet, cut the automation that lead wire mechanism can realize the coil lead wire and cut the operation, inhale the automatic balance operation that material balance mechanism can realize the coil tablet, the automatic pay-off operation of charging tray can be realized to charging tray transfer mechanism, the automatic unloading operation of charging tray can be realized to charging tray unloading mechanism, the utility model provides high production efficiency can guarantee production quality.

Description

Automatic guillootine of inductance coils

Technical Field

The utility model relates to a technical field of automation equipment, more specifically say, relate to an automatic guillootine of inductance coils.

Background

In inductance coil's production line, need cut and shift to the coil tablet that will cut on each inductance coil's the lead wire on the coil tablet on the charging tray, however, all adopt the staff to cut and the staff carries the coil tablet in the inductance coil production line now, and the staff operation is comparatively troublesome time-consuming, and production efficiency is low, and production quality is difficult to guarantee, is unfavorable for production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned defect among the prior art, provide an inductance coils automatic guillootine.

In order to realize the purpose, the utility model provides an automatic guillootine of inductance coils, including the coil tablet feed mechanism that is used for coil tablet material loading, be used for absorbing the coil tablet and carry the coil tablet in proper order to cut the material handling mechanism on lead wire mechanism and the tablet transfer mechanism, be used for cutting the lead wire mechanism that cuts of coil lead wire, a tablet transfer mechanism for transferring the coil tablet to the material loading station of absorbing material balance mechanism, be used for absorbing the coil tablet and carrying the coil tablet to the material tray inhale material balance mechanism on the charging tray, a charging tray transfer mechanism for transferring the charging tray in proper order to balance station and charging tray unloading station, and a charging tray unloading mechanism for the charging tray unloading, it is located one side of cutting the lead wire mechanism to inhale material handling mechanism, coil tablet feed mechanism is located the material loading station of inhaling material handling mechanism, charging tray mechanism is located and inhales material balance mechanism below, charging tray mechanism is located the one end of transfer mechanism, material tablet transfer mechanism is located between the material loading station of inhaling material handling mechanism and the material balance station of material tray mechanism.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model has the advantages of simple structure, novel, and reasonable design, coil material piece feed mechanism is provided, inhale material transport mechanism, cut lead wire mechanism, tablet transfer mechanism, inhale material balance mechanism, charging tray transfer mechanism and charging tray unloading mechanism, wherein, coil material piece feed mechanism can realize the automatic material loading operation of coil material piece, inhale the automatic operation of transferring that material transport mechanism and tablet transfer mechanism can realize the coil material piece, cut the automation that lead wire mechanism can realize the coil lead wire and cut the operation, inhale the automatic balance operation that material balance mechanism can realize the coil material piece, charging tray transfer mechanism can realize the automatic pay-off operation of charging tray, charging tray unloading mechanism can realize the automatic unloading operation of charging tray, the utility model discloses an degree of automation is high, has replaced the manual operation, has improved production efficiency, can guarantee production quality, can satisfy the large-scale production demand of enterprise.

2. The utility model discloses still be provided with plastic mechanism and charging tray feed mechanism, plastic mechanism is used for flattening the coil tablet in order to carry out the plastic to it to realize the automatic plastic operation that flattens of coil tablet, charging tray feed mechanism can realize the automatic material loading operation of charging tray.

3. The utility model discloses a coil tablet feed mechanism includes tablet shedder, carrier unloader and closing device, and tablet shedder can realize the automatic drawing of patterns operation of coil tablet, and the automatic unloading operation of tablet carrier can be realized to the carrier unloader, and closing device can realize the automatic operation that compresses tightly of tablet carrier.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a first schematic structural diagram provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram ii provided in the embodiment of the present invention;

fig. 3 is a top view provided by an embodiment of the present invention;

fig. 4 is a first schematic structural diagram of a feeding portion of a coil web according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a coil material piece loading portion according to an embodiment of the present invention (a material piece carrier is hidden);

fig. 6 is a second schematic structural view of a feeding portion of a coil web according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a carrier blanking device according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a suction transporting mechanism provided in an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a wire cutting mechanism according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a lower die according to an embodiment of the present invention;

fig. 11 is a schematic bottom structure view of an upper die provided in an embodiment of the present invention;

fig. 12 is a schematic structural view of a material sheet transfer mechanism according to an embodiment of the present invention;

fig. 13 is a schematic structural diagram of a shaping mechanism provided in an embodiment of the present invention;

fig. 14 is a schematic structural view of a material sucking and placing plate mechanism provided by the embodiment of the present invention;

fig. 15 is a schematic structural diagram of a material sucking swing disc mechanism, a material disc feeding mechanism and a material disc discharging mechanism provided by the embodiment of the present invention;

fig. 16 is a schematic structural diagram of a tray feeding mechanism, a tray transfer mechanism and a tray discharging mechanism provided in the embodiment of the present invention;

fig. 17 is a top view of the tray feeding mechanism, the tray transfer mechanism, and the tray discharging mechanism provided in the embodiment of the present invention;

fig. 18 is a schematic structural view of a first supporting block and a supporting block translation driving device according to an embodiment of the present invention;

fig. 19 is a schematic structural view of the first support block and the support block translation driving device provided in the embodiment of the present invention (the fixed block is hidden);

figure 20 is a cross-sectional view of a first support block according to an embodiment of the present invention;

fig. 21 is a schematic structural view of a material tray feeding device provided in an embodiment of the present invention;

fig. 22 is a schematic structural diagram of a tray jacking device provided in an embodiment of the present invention;

figure 23 is a cross sectional view of a second support block according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 to 23, an embodiment of the present invention provides an automatic cutting machine for inductance coils, including a frame 10, a coil sheet feeding mechanism 1 for feeding coil sheets, a suction material conveying mechanism 2 for sucking coil sheets and conveying the coil sheets to a cutting wire mechanism 3 and a sheet conveying mechanism 4 in sequence, a cutting wire mechanism 3 for cutting coil wires, a sheet conveying mechanism 4 for conveying the coil sheets to a feeding station of the suction material placing mechanism 5, a shaping mechanism 7 for flattening the coil sheets to shape the coil sheets, a suction material placing mechanism 5 for sucking coil sheets and conveying the coil sheets to a charging tray, a charging tray feeding mechanism 68 for charging trays, a charging tray conveying mechanism 63 for conveying the charging trays to a placing tray station and a charging tray discharging station in sequence, and a charging tray conveying mechanism 69 for discharging the charging trays, and the structures and the working principles thereof will be explained below.

The wire cutting mechanism 3 is installed on the top of the rack 10, preferably, the wire cutting mechanism may include a wire cutting support 36, an upper die 31, a cutting knife 32, an upper die lifting drive device 33, a lower die 34 and a lower die translation drive device 35, wherein the lower die translation drive device 35 may include a lower die translation cylinder 351 and a lower die translation sliding table 352, the lower die translation sliding table 352 may be installed on the wire cutting support 36 in a translation manner, the lower die translation cylinder 351 is horizontally arranged and is in transmission connection with the lower die translation sliding table 352, the lower die 34 is installed on the top of the lower die translation sliding table 342, the lower die translation drive device 35 can drive the lower die 34 to horizontally move, the top of the lower die 34 is provided with a positioning structure 341 for positioning a coil sheet and a cutting groove 342 for allowing the cutting knife 32 to be inserted into a downward position corresponding to a wire guiding position of a coil, the positioning structure may be provided as a second positioning column, the upper die lifting drive device 33 is provided as an upper die lifting cylinder, the upper die lifting cylinder is installed on the top of the wire cutting support 36 downward, the upper die 31 is located above a translation path of the lower die 34 and is connected with an output shaft of the upper die lifting cylinder, and the cutting knife 32 is installed on the bottom of the upper die 31.

The suction transporting mechanism 2 is mounted on one side of the wire cutting support 36.

As shown in fig. 8, the suction material carrying mechanism 2 may include a rodless cylinder 21, a translational plate 22, first suction nozzles 23, and first suction nozzle lifting cylinders 24, wherein the rodless cylinder 21 is transversely arranged, the translational plate 22 is installed on a translational portion of the rodless cylinder 21, the first suction nozzle lifting cylinders 24 are provided with two sets and installed downward on two sides of the front surface of the translational plate 22, respectively, and the first suction nozzles 23 are provided with two sets and connected to output shafts of the respective first suction nozzle lifting cylinders 24, respectively.

The coil material sheet feeding mechanism 1 is located at a feeding station of the suction material conveying mechanism 2.

Specifically, coil tablet feed mechanism 1 can be including the pan feeding location platform 11 that is used for the tablet carrier input location, a tablet shedder 12 for the tablet drawing of patterns, a carrier unloader 13 that is used for shifting out the tablet carrier from pan feeding location platform 11 and a closing device 14 that is used for compressing tightly the tablet carrier when the tablet drawing of patterns, the top of pan feeding location platform 11 is equipped with the constant head tank that supplies tablet carrier location to place, tablet shedder 12 is located pan feeding location platform 11 below, carrier unloader 13 is located pan feeding location platform 11 top, closing device 14 is located pan feeding location platform 11 side.

Specifically, the sheet demolding device 12 may include a demolding thimble 121 and a thimble lifting cylinder 122, the demolding thimble 121 is provided with a plurality of pieces and is longitudinally arranged, the demolding thimble 121 is in transmission connection with the thimble lifting cylinder 122, and the thimble lifting cylinder 122 can drive the demolding thimble 121 to ascend, so that the demolding thimble 121 upwardly passes through the feeding positioning table 11 and the sheet carrier and then extends out of the top of the sheet carrier.

As shown in fig. 7, the carrier discharging device 13 may include a carrier discharging translation module 131, a carrier discharging lifting cylinder 132, a clamping finger cylinder 133 and a clamping block 134, wherein the carrier discharging translation module 131 is horizontally disposed, the carrier discharging lifting cylinder 132 is disposed downward and connected to a translation portion of the carrier discharging translation module 131, the clamping finger cylinder 133 is disposed downward and connected to an output shaft of the carrier discharging lifting cylinder 132, and two clamping blocks 134 are disposed and respectively mounted on two translation portions of the clamping finger cylinder 133.

The pressing device 14 may include a pressing rod 141, a pressing rod lifting cylinder 142 and a pressing rod translation cylinder 143, the pressing rod translation cylinder 143 is horizontally disposed, the pressing rod lifting cylinder 142 is disposed upward and connected with an output shaft of the pressing rod translation cylinder 143, and the pressing rods 141 are respectively longitudinally disposed and connected with an output shaft of the pressing rod lifting cylinder 142.

As shown in fig. 14, the material sucking and placing mechanism 5 may include a carrying and translating module 51, a second suction nozzle 52 and a second suction nozzle lifting cylinder 53, wherein the carrying and translating module 51 is horizontally arranged, the second suction nozzle lifting cylinder 53 is arranged downward and connected to a translating portion of the carrying and translating module 51, and the second suction nozzle 52 is provided with a plurality of output shafts connected to the second suction nozzle lifting cylinder 53.

The material sheet transferring mechanism 4 is arranged at the top of the frame 10 and is positioned between a blanking station of the material sucking and conveying mechanism 2 and a loading station of the material sucking and placing plate mechanism 5.

As shown in fig. 12, the web transfer mechanism 4 may include a transfer translation module 41 and a discharge table 42, the transfer translation module 41 being horizontally disposed, the discharge table 42 being mounted on a translation portion of the transfer translation module 41, and a first positioning column 421 for positioning the coil web being provided on the top of the discharge table 42.

The shaping mechanism 7 is positioned above the material sheet transfer mechanism 4 and between the suction material conveying mechanism 2 and the suction material swinging tray mechanism 5. The shaping mechanism 7 may include a shaping pressing plate 71 and a pressing plate lifting driving device 72, the pressing plate lifting driving device 72 may be a pressing plate lifting cylinder, and the top of the shaping pressing plate 71 is connected to an output shaft of the pressing plate lifting cylinder.

The material tray transfer mechanism 63 is positioned below the material sucking and placing mechanism 5, the material tray discharging mechanism 69 is positioned at one end of the material tray transfer mechanism 63, and the material tray feeding mechanism 68 is positioned at the other end of the material tray transfer mechanism 63.

In this embodiment, the tray feeding mechanism 68 may include a tray feeding rack 61 and a tray feeding device 62 for conveying the trays output from the tray feeding rack 61 onto the tray transfer mechanism 63, and the tray feeding device 62 is disposed below the discharging position of the tray feeding rack 61.

Specifically, the tray feeding frame 61 may include two first tray limiting seats 611, two first supporting blocks 612 and two supporting block translation driving devices 613, the two first tray limiting seats 611 are arranged at intervals, the supporting block translation driving devices 613 are installed at outer sides of the corresponding first tray limiting seats 611, the first supporting blocks 612 are in transmission connection with the corresponding supporting block translation driving devices 613, and the supporting block translation driving devices 613 can drive the corresponding first supporting blocks 612 to translate, so that one end of the first supporting block 612 passes through the first tray limiting seats 611 and then extends into the inner sides of the first tray limiting seats 611, or one end of the first supporting block 612 exits from the inner sides of the first tray limiting seats 611.

As shown in fig. 18 and 19, the bearing block translation driving device 613 may include a lifting block 6131, a lifting block lifting cylinder 6132, a fixing block 6133, and a transverse shaft 6134, where the lifting block 6131 is disposed through the fixing block 6133 in a liftable manner, the first bearing block 612 is disposed transversely through the fixing block 6133 and the lifting block 6131, two sides of the fixing block 6133 are disposed through the transverse moving guide holes 6135, two sides of the lifting block 6131 are disposed through the lifting guide holes 6136, the transverse shaft 6134 is disposed through the first bearing block 612 and is perpendicular to the first bearing block 612, and two ends of the transverse shaft 6134 penetrate through the transverse moving guide holes 6135 and the lifting guide holes 6136 respectively corresponding thereto.

As shown in fig. 21, the tray feeding device 62 may include two feeding supporting plates 621 and a feeding lifting driving device 622, the two feeding supporting plates 621 are disposed at intervals, bottoms of the two feeding supporting plates 621 are both in transmission connection with the feeding lifting driving device 622 and are driven by the feeding lifting driving device 622 to lift, wherein the feeding lifting driving device 622 may adopt any lifting driving device (such as a lifting cylinder) on the market, but this embodiment does not relate to the improvement in this aspect, and is not described herein again.

In this embodiment, the tray blanking mechanism 69 may include a tray receiving frame 64 and a tray jacking device 65 for jacking the tray onto the tray receiving frame 64, and the tray jacking device 65 is disposed below the emptying portion of the tray receiving frame 64.

The tray receiving frame 64 may include two second tray limiting seats 641 and second supporting blocks 642, the second tray limiting seats 641 are arranged at intervals, the outer sides of the two second tray limiting seats 641 are provided with mounting blocks 643, the lower ends of the second supporting blocks 642 are rotatably mounted on the respective corresponding mounting blocks 643 through transverse rotating shafts 644 respectively, the inner side of the upper end of each second supporting block 642 penetrates through the second tray limiting seat 641 and then extends into the inner side of the second tray limiting seat 641, a horizontally arranged spring 645 perpendicular to the transverse rotating shafts 644 is arranged between the outer side of the upper end of each second supporting block 642 and the inner wall of each mounting block 643, and the inner side of each second supporting block 642 is provided with an inclined surface 646 inclined from bottom to top to the inner side of the second tray limiting seat 641.

The tray jacking device 65 can include jacking supporting plate 651 and jacking drive arrangement 652, jacking supporting plate 651 is equipped with two and interval arrangement, jacking drive arrangement 652 is connected and drives its lift with two jacking supporting plate 651 transmissions, and wherein, jacking drive arrangement 652 can adopt common lift drive arrangement (like lift cylinder) on the market, but this embodiment does not relate to the improvement in this respect, no longer gives details here.

In this embodiment, the tray transfer mechanism 63 may include a translation support plate 631 and a translation driving module 632, the translation driving module 632 is horizontally disposed, and the translation support plate 631 is mounted on a translation portion of the translation driving module 632.

The working principle of the utility model is as follows:

when the coil material sheet feeding and conveying mechanism is used, a material sheet carrier loaded with coil material sheets moves to a feeding positioning table, a pressing device presses one side of the carrier, then a material sheet demoulding device jacks up the coil material sheets to enable the coil material sheets to be separated from the material sheet carrier, an absorbing and conveying mechanism conveys the coil material sheets to a lower die and a material sheet conveying mechanism of a wire cutting mechanism in sequence, the carrier unloading device takes an empty carrier away from the feeding positioning table so that a next material sheet carrier can enter the feeding positioning table, after the coil material sheets are placed on the lower die, a lower die translation driving device drives the lower die to translate so that the lower die moves to be below an upper die, an upper die lifting driving device drives the upper die to descend and be matched with the lower die, a punching knife is used for cutting coil leads of the coil material sheets, the lower die moves to reset after cutting is finished, after the coil material sheets are placed on the material sheet conveying mechanism, the material sheet conveying mechanism drives the material sheets to move to be below a shaping mechanism, a shaping pressing plate descends and presses the material sheets to shape and flatten the coil material sheets, and then the coil material sheets are conveyed to a feeding station of the absorbing and conveying mechanism.

Before the work, the empty charging tray is stacked on the charging tray feeding frame, the first bearing block holds the empty charging tray, when the empty charging tray needs to be output, the charging tray plate rises to hold the empty charging tray, then the first bearing block retracts and exits from the inner side of the first charging tray limiting seat, then the charging lifting driving device drives the charging tray plate to descend by the height of one charging tray, the first bearing block extends out and holds two sides of the penultimate empty charging tray, then the charging tray plate descends again, so that the empty charging tray arranged at the lowest layer on the charging tray plate is placed on the translation supporting plate, the translation driving module drives the translation supporting plate to move transversely to the discharging station of the material sucking and placing mechanism, inhale material balance mechanism and constantly put the charging tray with the coil tablet of having cut the lead wire this moment, after the charging tray was full, the translation layer board drives the charging tray sideslip to the blowing position below that the charging tray received the work or material rest again, jacking drive arrangement drives the jacking layer board and rises, make the jacking layer board hold the charging tray and drive the charging tray and rise to and contact with second bearing piece, in-process charging tray can force second bearing piece toward the swing outward, make the inboard position withdrawal of second bearing piece, second bearing piece stretches out because the effect of spring and the interior pendulum after the charging tray rises to being higher than second bearing piece, second bearing piece can bear the bottom of holding the charging tray this moment, make the charging tray stack on the charging tray receives the work or material rest.

To sum up, the utility model has the advantages of it is following:

1. the utility model has the advantages of simple structure, the novelty, reasonable in design, coil material piece feed mechanism is provided with, inhale material handling mechanism, cut lead wire mechanism, tablet transfer mechanism, inhale material balance mechanism, charging tray transfer mechanism and charging tray unloading mechanism, wherein, coil material piece feed mechanism can realize the automatic material loading operation of coil material piece, inhale the automatic operation of transferring that material handling mechanism and tablet transfer mechanism can realize the coil material piece, cut lead wire mechanism can realize the automatic operation of cutting of coil lead wire, inhale the automatic balance operation that material balance mechanism can realize the coil material piece, charging tray transfer mechanism can realize the automatic pay-off operation of charging tray, charging tray unloading mechanism can realize the automatic unloading operation of charging tray, the utility model discloses a degree of automation is high, has replaced the manual operation, has improved production efficiency, can guarantee production quality, can satisfy the large-scale production demand of enterprise.

2. The utility model discloses still be provided with plastic mechanism and charging tray feed mechanism, plastic mechanism is used for flattening the coil tablet in order to carry out the plastic to it to realize the automatic plastic operation that flattens of coil tablet, charging tray feed mechanism can realize the automatic material loading operation of charging tray.

3. The utility model discloses a coil tablet feed mechanism includes tablet shedder, carrier unloader and closing device, and tablet shedder can realize the automatic drawing of patterns operation of coil tablet, and the automatic unloading operation of tablet carrier can be realized to the carrier unloader, and closing device can realize the automatic operation that compresses tightly of tablet carrier.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic guillootine of inductance coils which characterized in that: including coil tablet feed mechanism (1) that is used for coil tablet material loading, be used for absorbing coil tablet and carry coil tablet in proper order to inhale material handling mechanism (2) on cutting lead wire mechanism (3) and tablet transfer mechanism (4), be used for cutting the cutting lead wire mechanism (3) of coil lead wire, be used for transferring coil tablet to tablet transfer mechanism (4) of the material loading station of inhaling material balance mechanism (5), be used for absorbing coil tablet and carry coil tablet to inhaling material balance mechanism (5) on the charging tray, be used for transferring charging tray transfer mechanism (63) of balance station and charging tray unloading station in proper order to the charging tray, and be used for charging tray unloading mechanism (69) of charging tray unloading, it is located one side of cutting lead wire mechanism (3) to inhale material handling mechanism (2), coil tablet feed mechanism (1) is located the material loading station of inhaling material handling mechanism (2), transfer mechanism (63) is located inhales material balance mechanism (5) below, unloading mechanism (69) is located the one end of transfer mechanism (63), charging tray loading mechanism (4) is located between the material handling mechanism (5) of inhaling material balance station.

2. The automatic guillootine of inductance coil of claim 1, characterized in that: coil tablet feed mechanism (1) is including pan feeding location platform (11) that is used for tablet carrier input location for tablet shedder (12) of tablet drawing of patterns and be used for carrier unloader (13) that shifts out tablet carrier from pan feeding location platform (11), the top of pan feeding location platform (11) is equipped with the constant head tank that supplies tablet carrier location to place, tablet shedder (12) are located pan feeding location platform (11) below, carrier unloader (13) are located pan feeding location platform (11) top.

3. The automatic guillootine of inductance coil of claim 2, characterized in that: the coil material sheet feeding mechanism (1) further comprises a pressing device (14) used for pressing the material sheet carrier during material sheet demoulding, and the pressing device (14) is located on the side edge of the feeding positioning table (11).

4. The automatic guillotine for inductance coils according to claim 1, wherein: the material sucking and carrying mechanism (2) is provided with two material sucking parts.

5. The automatic guillotine for inductance coils according to claim 1, wherein: the material sucking and carrying mechanism (2) comprises rodless cylinders (21), a translation plate (22), first suction nozzles (23) and first suction nozzle lifting cylinders (24), wherein the rodless cylinders (21) are transversely arranged, the translation plate (22) is installed on the translation part of the rodless cylinders (21), the two first suction nozzle lifting cylinders (24) are respectively installed on two sides of the front face of the translation plate (22) downwards, and the first suction nozzles (23) are provided with two groups and are respectively connected with output shafts of the corresponding first suction nozzle lifting cylinders (24);

the material sucking and placing mechanism (5) comprises a carrying translation module (51), a second suction nozzle (52) and a second suction nozzle lifting cylinder (53), the carrying translation module (51) is horizontally arranged, the second suction nozzle lifting cylinder (53) is downwards arranged and connected with the translation part of the carrying translation module (51), and the second suction nozzle (52) is provided with a plurality of parts which are respectively connected with the output shaft of the second suction nozzle lifting cylinder (53);

the coil material sheet transfer mechanism (4) comprises a transfer translation module (41) and a discharging platform (42), wherein the transfer translation module (41) is horizontally arranged, the discharging platform (42) is installed on a translation position of the transfer translation module (41), and a first positioning column (421) for positioning a coil material sheet is arranged at the top of the discharging platform (42).

6. The automatic guillootine of inductance coil of claim 1, characterized in that: cut lead wire mechanism (3) including last mould (31), die-cut sword (32), go up mould lift drive (33), lower mould (34) and lower mould translation drive (35), lower mould translation drive (35) are connected and can drive lower mould (34) horizontal migration with lower mould (34) transmission, the top of lower mould (34) is equipped with location structure (341) that are used for the location of coil tablet and is used for supplying die-cut sword (32) decline male position respectively with the corresponding die-cut groove (342) in lead wire position of coil, it is located the translation route top of lower mould (34) to go up mould (31), it is connected with last mould (31) transmission to go up mould lift drive (33), die-cut sword (32) are installed respectively in last mould (31) bottom.

7. The automatic guillootine of inductance coil of claim 1, characterized in that: the coil material piece flattening device is characterized by further comprising a shaping mechanism (7) used for flattening the coil material piece to shape the coil material piece, wherein the shaping mechanism (7) is located above the material piece transferring mechanism (4) and located between the material sucking and conveying mechanism (2) and the material sucking and placing disc mechanism (5).

8. The automatic guillootine of inductance coil of claim 1, characterized in that: the automatic feeding device also comprises a tray feeding mechanism (68) for feeding trays, wherein the tray feeding mechanism (68) is positioned at the other end of the tray transfer mechanism (63).

9. The automatic guillotine for inductance coils according to claim 8, wherein: the material tray feeding mechanism (68) comprises a material tray feeding frame (61) and a material tray feeding device (62) used for conveying a material tray output by the material tray feeding frame (61) to the material tray transfer mechanism (63), and the material tray feeding device (62) is arranged below a discharging position of the material tray feeding frame (61).

10. The automatic guillootine of inductance coil of claim 1, characterized in that: the charging tray blanking mechanism (69) comprises a charging tray receiving frame (64) and a charging tray jacking device (65) used for jacking the charging tray to the charging tray receiving frame (64), wherein the charging tray jacking device (65) is arranged below the discharging part of the charging tray receiving frame (64).

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