CN216938176U - Pin shaping and cutting device - Google Patents

Abstract

The utility model relates to the technical field of electronic component processing, in particular to a pin shaping and cutting device. The pin shaping and cutting device of the utility model comprises: the feeding mechanism comprises at least one feeding box, the feeding box is in an inclined state relative to the horizontal plane, the discharging end of the feeding box can be aligned with the feeding end of the shaping cutting table, and the shaping cutting table is in an inclined state relative to the horizontal plane; two sides of the shaping and cutting table are respectively and symmetrically provided with at least one shaping and cutting mechanism; the receiving mechanism comprises at least one receiving box, the receiving box is in an inclined state relative to the horizontal plane, and the feeding end of the receiving box can be aligned with the discharging end of the shaping cutting table. The pin shaping and cutting device can realize continuous operation of automatic feeding, automatic shaping and cutting and automatic material receiving, and improves the production efficiency.

Description

Pin shaping and cutting device

Technical Field

The utility model relates to the technical field of electronic component processing, in particular to a pin shaping and cutting device.

Background

An Intelligent Power Module (IPM) is one of highly integrated components, and plays an important role in electronic circuit boards. However, most of the IPMs have long pins, and the pins are not necessarily perpendicular to the upper surface of the IPM, and therefore cannot be well fixed on the circuit board, which causes circuit board failure and the like.

In the existing production operation, manual operation is performed by workers, so that the pins are required to be touched when being cut, the cutting lengths are different, and the pins are not perpendicular to the upper surface of the intelligent power module when being molded, so that inferior-quality products or waste products are generated. Meanwhile, the manual operation of workers has low processing efficiency and high labor cost, and cannot meet the production requirements of enterprises.

Therefore, an IPM device integrating foot cutting, shaping and pipe loading is urgently needed to replace manual production.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides a pin reshaping and cutting device which is used for realizing the continuous operation of automatic feeding, automatic reshaping and cutting and automatic material receiving of electronic components, optimizing the existing manual mode, improving the production efficiency and meeting the production requirements of enterprises.

The pin shaping and cutting device of the utility model comprises: a shaping and cutting table, a shaping and cutting mechanism, a feeding mechanism and a receiving mechanism,

the feeding mechanism comprises at least one feeding box, the feeding box is in an inclined state relative to a horizontal plane, and the discharging end of the feeding box can be aligned with the feeding end of the shaping cutting table, so that the materials in the feeding box can slide onto the shaping cutting table under the action of gravity;

the shaping cutting table is inclined relative to the horizontal plane, so that the materials can slide from the feeding end to the discharging end of the shaping cutting table along the extending direction of the shaping cutting table;

at least one shaping and cutting mechanism is symmetrically arranged on each of two sides of the shaping and cutting table respectively so as to shape and cut pins of the materials passing through the shaping and cutting table;

the material receiving mechanism comprises at least one material receiving box, the material receiving box is in an inclined state relative to the horizontal plane, and the feeding end of the material receiving box can be aligned with the discharging end of the shaping and cutting table, so that the shaped and cut materials can slide into the material receiving box under the action of gravity to be collected.

In one embodiment, the feeding mechanism further comprises a first driving mechanism, the first driving mechanism comprises a first motor, a first lead screw and a first tray for bearing the feeding box,

a rotating shaft of the first motor is connected with one end of the first lead screw, the bottom of the first tray is connected with the first lead screw,

the first motor drives the first lead screw to rotate so as to drive the first tray and the upper material box borne on the first tray to move along the extending direction vertical to the shaping and cutting table.

In one embodiment, the material collecting mechanism further comprises a second driving mechanism, the second driving mechanism comprises a second motor, a second lead screw and a second tray for bearing the material collecting box,

the rotating shaft of the second motor is connected with one end of the second screw rod, the bottom of the second tray is connected with the second screw rod,

the second motor drives the second lead screw to rotate so as to drive the second tray and the material collecting box borne on the second tray to move along the extending direction vertical to the shaping and cutting table.

In one embodiment, the plastic cutting mechanism comprises: a sizing die, a cutter and a third driving mechanism,

the cutter is arranged on the bottom surface of the shaping die, and the third driving mechanism drives the shaping die and the cutter to move towards the direction close to the shaping and cutting table, so that the shaping die and the cutter impact pins of materials on the shaping and cutting table, and the shaping and cutting of the pins of the materials are realized.

In one embodiment, the device further comprises a feeding mechanism,

the feeding mechanism comprises at least one rotatable roller arranged above the shaping and cutting table, the rollers are sequentially arranged along the extending direction of the cutting table, the rollers are used for stopping the materials at preset positions of the shaping and cutting table so as to shape and cut pins of the materials, and the rollers can drive the materials to move along the extending direction of the shaping and cutting table at preset speed through rotation.

In one embodiment, the feeding mechanism comprises a fourth driving mechanism, the fourth driving mechanism comprises a fourth motor and a driving wheel arranged on a rotating shaft of the fourth motor, and the driving wheel is connected with the rotating shaft of the roller through a transmission assembly so as to drive the roller to rotate.

In one embodiment, the discharge end of the shaping and cutting table is provided with an expander and a fifth driving mechanism,

when the feeding end of the material collecting box is aligned with the discharging end of the shaping and cutting table, the fifth driving mechanism drives the expander to enter the feeding end of the material collecting box and expand the expander.

In one embodiment, the feed end and the discharge end of the shaping and cutting table are respectively provided with a material blocking detection sensor for detecting material blocking faults.

In one embodiment, the outfeed end of the truing and cutting table is provided with a counting sensor.

In one embodiment, the automatic material collecting and cutting device further comprises a rack, a mounting plane is arranged at the top of the rack, the mounting plane is inclined relative to the horizontal plane, and the feeding mechanism, the shaping and cutting table, the material collecting mechanism and the shaping and cutting mechanism are all arranged on the mounting plane.

Compared with the prior art, the utility model has the advantages that: according to the automatic material feeding, shaping and cutting device, the material feeding box, the shaping and cutting table and the material receiving box are arranged obliquely relative to the horizontal plane, so that materials can automatically slide to the shaping and cutting table from the material feeding box under the action of gravity to shape and cut pins of the materials, and the shaped and cut materials can automatically slide into the material receiving box under the action of gravity to be collected, so that continuous operation of automatic material feeding, automatic shaping and cutting and automatic material receiving is realized, the existing manual mode is optimized, the production efficiency is improved, and the production requirements of enterprises are met.

Drawings

The utility model will be described in more detail hereinafter on the basis of embodiments and with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of a pin reshaping and cutting device according to the present invention;

FIG. 2 is a top view of the pin reshaping and cutting device of the present invention (protective cover not shown);

FIG. 3 is an enlarged partial view of the area of the reforming cutting station of the present invention.

Reference numerals:

1. a frame; 2. a feeding mechanism; 3. shaping and cutting table; 4. a shaping and cutting mechanism;

5. a material receiving mechanism; 6. a feeding mechanism; 7. material preparation;

11. a mounting plane; 12. a protective cover; 13. a control system;

31. a dilator; 32. a jamming detection sensor; 33. a counting sensor;

21. feeding a material box; 22. a first motor; 23. a first lead screw; 24. a first tray;

41. shaping the die; 42. a cutter; 43. a third drive mechanism;

51. a material receiving box; 52. a second motor; 53. a second lead screw; 54. a second tray;

61. and a roller.

Detailed Description

The utility model will be further explained with reference to the drawings. The descriptions of "above", "below", etc. mentioned in the present invention are defined by referring to the direction of gravity, the direction of gravity is below, the opposite direction is above, similarly, the top is above, the bottom is below, which is also only for the sake of clarity, and is not used to limit the implementable scope of the present invention, and the change or adjustment of the relative relationship thereof can be regarded as the implementable scope of the present invention without substantial technical change.

As shown in fig. 1-3, the pin reshaping and cutting device of the present invention comprises: a shaping and cutting table 3, a shaping and cutting mechanism 4, a feeding mechanism 2 and a receiving mechanism 5. Wherein, the feeding mechanism 2 comprises at least one feeding box 21, the feeding box 21 is in an inclined state relative to the horizontal plane and the discharging end of the feeding box 21 can be aligned with the feeding end of the shaping cutting table 3, so that the material 7 in the feeding box 21 can slide to the shaping cutting table 3 under the action of gravity. The shaping and cutting table 3 is inclined relative to the horizontal plane so that the material 7 can slide from the feed end to the discharge end of the shaping and cutting table 3 in the extension direction thereof. At least one shaping and cutting mechanism 4 is symmetrically arranged on each of two sides of the shaping and cutting table 3 to shape and cut pins of the material 7 passing through the shaping and cutting table 3. The material receiving mechanism 5 comprises at least one material receiving box 51, the material receiving box 51 is in an inclined state relative to the horizontal plane, and the feeding end of the material receiving box 51 can be aligned with the discharging end of the shaping and cutting table 3, so that the materials 7 after shaping and cutting slide into the material receiving box 51 under the action of gravity to be collected.

The material 7 in the utility model is an electronic component to be shaped and cut, such as an intelligent power module.

In the utility model, the feeding box 21, the shaping and cutting table 3 and the material receiving box 51 are all obliquely arranged relative to the horizontal plane, so that the materials 7 can automatically slide to the shaping and cutting table 3 from the feeding box 21 under the action of gravity to shape and cut pins of the materials, and the shaped and cut materials 7 can be collected in the automatic sliding collecting box under the action of gravity, thereby realizing the continuous operation of automatic feeding, automatic shaping and cutting and automatic material receiving, optimizing the existing manual mode, improving the production efficiency and meeting the production requirements of enterprises.

In one embodiment, the feeding mechanism 2 further comprises a first driving mechanism including a first motor 22, a first lead screw 23 and a first tray 24 for carrying the feeding cartridge 21. The rotating shaft of the first motor 22 is connected with one end of the first lead screw 23, and the bottom of the tray is connected on the first lead screw 23. Wherein, the first motor 22 drives the first lead screw 23 to rotate so as to drive the first tray 24 and the upper material box 21 carried thereon to move along the extending direction vertical to the shaping and cutting table 3.

In particular, as shown in fig. 1, the first tray 24 is able to carry a plurality of magazines 21, each magazine 21 being elongated, each magazine 21 being able to contain a plurality of materials 7, for example 20, inside it.

When the first driving mechanism conveys the corresponding feeding box 21 to the position aligned with the feeding end of the shaping and cutting table 3, the action is stopped, and after the materials 7 in the feeding box 21 sequentially and completely enter the shaping and cutting table 3 for shaping and cutting, the next feeding box 21 is pushed to the position aligned with the feeding end of the shaping and cutting table 3 so as to perform automatic feeding.

It should be noted that the first lead screw 23 includes a first lead screw and a first nut screwed on the first lead screw 23, and the bottom of the first tray 24 is fixedly connected to the first nut, so that the rotation of the rotating shaft of the first motor 22 is converted into the movement of the first tray 24 along the direction perpendicular to the extending direction of the shaping and cutting table 3.

Further preferably, first guide rails are respectively arranged on (upper and lower) two sides of the first lead screw 23, first sliders are arranged on the first guide rails, and the (upper and lower) two sides of the bottom of the first tray 24 are respectively connected to the corresponding first sliders. Wherein the first guide rail is arranged to function as a support and guide for the first tray 24.

In one embodiment, the receiving mechanism 5 further comprises a second driving mechanism including a second motor 52, a second lead screw 53 and a second tray 54 for carrying the receiving magazine 51. The rotating shaft of the second motor 52 is connected with one end of a second lead screw 53, and the bottom of the tray is in threaded connection with the second lead screw 53. Wherein, the second motor 52 drives the second screw 53 to rotate so as to drive the tray and the material receiving box 51 carried thereon to move along the extending direction perpendicular to the shaping and cutting table 3.

Specifically, as shown in fig. 1 and 2, the second tray 54 can carry a plurality of the material receiving boxes 51, each material receiving box 51 is long-shaped, and each material receiving box 51 can accommodate a plurality of materials 7, for example, 20.

When the second driving mechanism conveys the corresponding material receiving box 51 to the position aligned with the discharge end of the shaping and cutting table 3, the action is stopped, and after the material receiving box 51 is filled with the materials 7, the next material receiving box 51 is pushed to the position aligned with the discharge end of the shaping and cutting table 3, so as to automatically receive the materials.

It should be noted that the second lead screw 53 includes a second lead screw and a second nut screwed on the second lead screw 53, and the bottom of the second tray 54 is fixedly connected with the second nut, so that the rotation of the rotating shaft of the first motor 22 is converted into the movement of the first tray along the direction perpendicular to the extending direction of the shaping and cutting table 3.

Further preferably, the second lead screw 53 is provided with second guide rails on both sides (upper and lower), the second guide rails are provided with second sliders thereon, and the second tray 54 is connected to the corresponding second sliders on both sides (upper and lower). Wherein a second guide rail is provided to support and guide the second tray 54.

In one embodiment, the plastic cutting mechanism 4 includes: a sizing die 41, a cutting blade 42 and a third drive mechanism 43. The cutter 42 is arranged on the bottom surface of the shaping die 41, and the third driving mechanism 43 drives the shaping die 41 and the cutter 42 to move towards the direction close to the shaping and cutting table 3, so that the shaping die 41 and the cutter 42 strike the pins of the material 7 on the shaping and cutting table 3, and the shaping and cutting of the pins of the material 7 are realized.

When the material 7 moves to the preset position of the shaping and cutting table 3, the shaping die 41 shapes the pin of the material 7 by impacting the pin, even if the pin of the material 7 is vertical to the top surface of the material 7; the cutter 42 cuts the pin of the material 7 by hitting the pin. The shaping die 41 and the cutter 42 simultaneously impact the pins of the material 7 on the shaping and cutting table 3 to realize shaping and cutting of the pins of the material 7, so that the pins of the material 7 are perpendicular to the top of the material 7, and the lengths of the pins of the material 7 are consistent.

Wherein, two sides of the shaping and cutting table 3 are planes, and the surface of the shaping die 41 opposite to the shaping and cutting table 3 is a plane.

Specifically, as shown in fig. 3, the third driving mechanism 43 is a telescopic cylinder, which drives the shaping die 41 and the cutting knife 42 to strike the pins of the material 7 through the extension of the telescopic rod thereof.

Preferably, a plurality of (at least two) shaping cutting mechanisms 4 are symmetrically arranged on both sides of the shaping cutting table 3, as shown in fig. 2, three shaping cutting mechanisms 4 are symmetrically arranged on both sides of the shaping cutting table 3, and each set of symmetrical shaping cutting mechanisms 4 can correspondingly cut off pins with different lengths, so as to meet the product requirements of different pin lengths. Typically, only one set of form cutting mechanisms 4 is required for each product form cutting operation.

Further, mounting tables for mounting the shaping die 41 and the cutter 42 are symmetrically arranged on two sides of the shaping and cutting table 3 respectively, so that the shaping die 41 and the cutter 42 have a certain height. Meanwhile, the sizing die 41 and the cutting knife 42 are movably arranged on the mounting table, and the third driving mechanism 43 can drive the sizing die 41 and the cutting knife 42 to strike the pins of the material 7. Meanwhile, a return member, such as a spring member, is provided on the mounting table for bringing the sizing die 41 and the cutter 42 to their initial positions (positions where the pins of the material 7 are not hit). The returning component drives the pin of the material 7 to return to the initial position after the shaping die 41 and the cutter 42 finish shaping and cutting the pin of the material 7, so as to wait for shaping and cutting the pin of the next material 7.

In one embodiment, the pin reshaping and cutting device further comprises a feeding mechanism 6. The feeding mechanism 6 comprises at least one rotatable roller 61 arranged above the shaping and cutting table 3, the roller 61 is sequentially arranged along the extending direction of the cutting table, the roller 61 is used for enabling the material 7 to stop at the preset position of the shaping and cutting table 3 to shape and cut the pins of the material 7, and the roller 61 can drive the material 7 to move along the extending direction of the shaping and cutting table 3 at a preset speed through rotation.

Wherein, when material 7 slides to plastic cutting table 3 on, the slip velocity of material 7 can receive the restriction of the continuous gyro wheel 61 of its top to control its slip velocity and drop to predetermined speed, make material 7 stop plastic cutting table 3's preset position department simultaneously and cut with the pin to material 7 and carry out the plastic, thereby prevent that material 7 slip velocity is too fast to lead to plastic cutting mechanism 4 can't carry out the condition emergence of plastic cutting operation to its pin.

Specifically, the feeding mechanism 6 includes a fourth driving mechanism, the fourth driving mechanism includes a fourth motor and a driving wheel disposed on a rotating shaft of the fourth motor, and the driving wheel is connected to the rotating shaft of the roller 61 through a transmission assembly to drive the roller 61 to rotate.

Wherein, realize the transmission between drive wheel and a plurality of gyro wheels 61 through the transmission subassembly and be connected, convert the rotation of the pivot of fourth motor into the synchronous revolution of a plurality of gyro wheels 61. In particular, the above-mentioned transmission assembly may be a conveyor belt or a chain.

In one embodiment, the outfeed end of the reforming cutting station 3 is provided with an expander 31 and a fifth drive mechanism. When the feeding end of the material receiving box 51 is aligned with the discharging end of the shaping and cutting table 3, the fifth driving mechanism drives the expander 31 to enter the feeding end of the material receiving box 51 and expand the expander.

In this embodiment, the discharge end of the shaping and cutting table 3 is opened by arranging the expander 31 to expand the feed end of the material receiving box 51, so that the materials 7 after shaping and cutting can be more easily slid into the material receiving box 51 under the action of gravity to be collected.

The fifth driving mechanism may be a telescopic cylinder to drive the expander 31 to extend or retract along the extending direction of the material receiving box 51, so that the expander 31 enters the feeding end of the material receiving box 51 and expands or leaves the feeding end of the material receiving box 51.

Preferably, the feed end and the discharge end of the shaping and cutting table 3 are respectively provided with a material jamming detection sensor 32 for detecting material jamming faults. In other words, the material blocking detection sensors 32 at the feeding end and the discharging end of the shaping and cutting table 3 are respectively used for detecting the fault conditions of the feeding material blocking and the discharging material blocking of the material 7, so that an operator can timely find and remove the fault conditions of the device, and the material 7 and the device are prevented from being damaged.

The detection sensor is connected to the control system 13. When the material 7 is blocked at the feed end or the discharge end of the shaping and cutting table 3, the corresponding material blocking detection sensor 32 detects that the material blocking is abnormal, the abnormal condition is fed back to the control system 13, and the abnormal condition is reported to an operator through a display screen of the control system 13, and after the operator breaks down, the device can continue to operate, so that the material 7 or the device is prevented from being damaged due to the material blocking fault.

Preferably, the outfeed end of the truing and cutting table 3 is provided with a counting sensor 33. The counting sensor 33 can check the number of the materials 7 which are shaped and cut, and determine whether the current material receiving box 51 is full of the materials 7, and the material receiving box 51 needs to be switched to. The number of counts of the count sensor 33 may be set to be less than or equal to the maximum capacity of the material receiving box 51. For example, when the capacity of the material receiving box 51 is 20 pieces of the material 7, and the counting sensor 33 counts to 20, the current material receiving box 51 is switched to allow the next material receiving box 51 to collect the material 7, and the counting sensor 33 restarts counting.

In one embodiment, the shaping and cutting machine further comprises a machine frame 1, wherein a mounting plane 11 is arranged at the top of the machine frame 1, the mounting plane 11 is inclined relative to the horizontal plane, and the feeding mechanism 2, the shaping and cutting table 3, the material receiving mechanism 5 and the shaping and cutting mechanism 4 are arranged on the mounting plane 11.

Wherein, the mounting plane 11 of the frame 1 is used for providing mounting positions of the feeding mechanism 2, the shaping and cutting table 3, the receiving mechanism 5 and the shaping and cutting mechanism 4. The mounting plane 11 is inclined with respect to the horizontal plane so that the material supply box 21 of the material supply mechanism 2, the shaping and cutting table 3, and the material receiving box 51 of the material receiving mechanism 5 can be inclined with respect to the horizontal plane. Preferably, the inclination angles of the feeding box 21, the shaping and cutting table 3 and the collecting box 51 are all the same as the inclination angle of the installation plane 11.

Furthermore, the feed mechanism 6 can be fixed on the mounting plane 11 of the machine frame 1 by means of corresponding mounting brackets, so that the feed mechanism 6 is arranged above the shaping and cutting table 3.

Preferably, as shown in fig. 1, the outside of the shaping and cutting table 3, the shaping and cutting mechanism 4, and the feeding mechanism 6 is provided with a protective cover 12 to prevent the cut-off pins from splashing. Wherein the protective hood 12 may be configured to be transparent so that an operator can observe the operation of each mechanism through the protective hood 12.

The terms "first", "second", "third", "fourth" and "fifth" used in the present invention are also defined for convenience of description.

While the utility model has been described with reference to a preferred embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the technical features mentioned in the embodiments can be combined in any way as long as there is no structural conflict. It is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a pin plastic cutting device which characterized in that includes: a shaping and cutting table, a shaping and cutting mechanism, a feeding mechanism and a receiving mechanism,

the feeding mechanism comprises at least one feeding box, the feeding box is in an inclined state relative to a horizontal plane, and the discharging end of the feeding box can be aligned with the feeding end of the shaping cutting table, so that the materials in the feeding box can slide onto the shaping cutting table under the action of gravity;

the shaping cutting table is inclined relative to the horizontal plane, so that the materials can slide from the feeding end to the discharging end of the shaping cutting table along the extending direction of the shaping cutting table;

at least one shaping and cutting mechanism is symmetrically arranged on each of two sides of the shaping and cutting table respectively so as to shape and cut pins of the materials passing through the shaping and cutting table;

the material receiving mechanism comprises at least one material receiving box, the material receiving box is in an inclined state relative to the horizontal plane, and the feeding end of the material receiving box can be aligned with the discharging end of the shaping and cutting table, so that the shaped and cut materials can slide into the material receiving box under the action of gravity to be collected.

2. The pin reshaping and cutting device according to claim 1, wherein the feeding mechanism further comprises a first driving mechanism, the first driving mechanism comprises a first motor, a first lead screw and a first tray for carrying the feeding box,

a rotating shaft of the first motor is connected with one end of the first lead screw, the bottom of the first tray is connected with the first lead screw,

the first motor drives the first lead screw to rotate so as to drive the first tray and the upper material box borne on the first tray to move along the extending direction vertical to the shaping and cutting table.

3. The pin reshaping and cutting device according to claim 1 or 2, wherein the material collecting mechanism further comprises a second driving mechanism, the second driving mechanism comprises a second motor, a second lead screw and a second tray for carrying the material collecting box,

the rotating shaft of the second motor is connected with one end of the second screw rod, the bottom of the second tray is connected with the second screw rod,

the second motor drives the second lead screw to rotate so as to drive the second tray and the material collecting box borne on the second tray to move along the extending direction vertical to the shaping and cutting table.

4. The pin reshaping and cutting device according to claim 1 or 2, wherein the reshaping and cutting mechanism comprises: a sizing die, a cutter and a third driving mechanism,

the cutter is arranged on the bottom surface of the shaping die, and the third driving mechanism drives the shaping die and the cutter to move towards the direction close to the shaping and cutting table, so that the shaping die and the cutter impact pins of materials on the shaping and cutting table, and the shaping and cutting of the pins of the materials are realized.

5. The pin reshaping and cutting device according to claim 1 or 2, further comprising a feeding mechanism,

the feeding mechanism comprises at least one rotatable roller arranged above the shaping and cutting table, the rollers are sequentially arranged along the extending direction of the cutting table, the rollers are used for stopping the materials at preset positions of the shaping and cutting table so as to shape and cut pins of the materials, and the rollers can drive the materials to move along the extending direction of the shaping and cutting table at preset speed through rotation.

6. The pin reshaping and cutting device according to claim 5, wherein the feeding mechanism comprises a fourth driving mechanism, the fourth driving mechanism comprises a fourth motor and a driving wheel arranged on a rotating shaft of the fourth motor, and the driving wheel is connected with the rotating shaft of the roller through a transmission assembly so as to drive the roller to rotate.

7. The pin reshaping and cutting device according to claim 1 or 2, wherein the discharge end of the reshaping and cutting table is provided with an expander and a fifth driving mechanism,

when the feeding end of the material collecting box is aligned with the discharging end of the shaping and cutting table, the fifth driving mechanism drives the expander to enter the feeding end of the material collecting box and expand the expander.

8. The pin reshaping and cutting device according to claim 1 or 2, wherein the feeding end and the discharging end of the reshaping and cutting table are respectively provided with a jamming detection sensor for detecting jamming faults.

9. The pin reshaping and cutting device according to claim 1 or 2, wherein the discharge end of the reshaping and cutting table is provided with a counting sensor.

10. The pin reshaping and cutting device according to claim 1 or 2, further comprising a frame, wherein a mounting plane is arranged at the top of the frame, the mounting plane is inclined relative to a horizontal plane, and the feeding mechanism, the reshaping and cutting table, the receiving mechanism and the reshaping and cutting mechanism are all arranged on the mounting plane.

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