CN215697588U - Battery string deviation rectifying and lead cutting device - Google Patents

Abstract

The utility model relates to a battery string deviation rectifying and lead cutting device, which comprises a base, wherein a horizontal moving module is arranged on the base along the length direction, a supporting plate is slidably arranged on the horizontal moving module, a deviation rectifying mechanism is arranged on the supporting plate, and the deviation rectifying mechanism enables the width direction of a battery string on the supporting plate to be aligned; a laser sensor is arranged on a base outside the end head of the horizontal moving module, and the laser sensor is used for sensing the movement of the battery string on the upper supporting plate; a cutter mechanism is arranged at the end part of the base; the battery string on the supporting plate and the battery string on the supporting plate move towards the cutter mechanism through the horizontal moving module, the deviation correcting mechanism ensures that the battery string is aligned relative to the supporting plate, and the moving distance of the battery string is controlled by the induction of the laser sensor, so that the overlong lead on the side surface of the battery string moves into the cutter mechanism, and the overlong part of the lead is cut off by the cutter mechanism; the battery string type-setting machine has the advantages of compact overall structure, convenience in use, good stability, assistance in full automation of the battery string type-setting machine and good practicability.

Description

Battery string deviation rectifying and lead cutting device

Technical Field

The utility model relates to the technical field of battery string typesetting machines, in particular to a battery string deviation rectifying and lead cutting device.

Background

The lead of the battery string is often too long, and the battery string can be used for automatic typesetting of a subsequent typesetting machine after the lead is trimmed; in the prior art, trimming of the battery string leads is troublesome, and due to the fact that the sizes and types of the battery strings are different, the lengths and requirements of the leads are different, so that the trimming and typesetting of the battery string leads become bottleneck processes, and the overall efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The applicant provides a battery string deviation rectifying and lead cutting device with a reasonable structure aiming at the defects in the prior art, so that the automatic cutting of the leads of the battery strings before typesetting is realized, the assistance is realized in efficient and full-automatic typesetting, the use is convenient, reliable and stable, and the assistance is realized in improving the typesetting efficiency.

The technical scheme adopted by the utility model is as follows:

a battery string deviation correcting and lead cutting device comprises a base, wherein a horizontal moving module is arranged on the base along the length direction, a supporting plate is slidably arranged on the horizontal moving module, a deviation correcting mechanism is arranged on the supporting plate, and the deviation correcting mechanism enables the width direction of a battery string on the supporting plate to be aligned; a laser sensor is arranged on a base outside the end head of the horizontal moving module, and the laser sensor is used for sensing the movement of the battery string on the upper supporting plate; the cutter mechanism is installed to base tip.

As a further improvement of the above technical solution:

the horizontal moving module is provided with two supporting plates in a sliding mode, the two supporting plates move independently, and the two supporting plates are respectively provided with a deviation rectifying mechanism; the bases positioned outside the two ends of the horizontal moving module are respectively provided with a laser sensor, and the two laser sensors correspond to the two supporting plates; the number of the cutter mechanisms is also two, and the cutter mechanisms correspond to the supporting plates.

The structure of the deviation rectifying mechanism is as follows: the device comprises a barrier strip fixedly arranged on the long edge of one side of a supporting plate, a moving strip is arranged on the long edge of the other side of the supporting plate, push blocks are arranged on the moving strip at intervals along the length direction, and the push blocks move along the width direction of the supporting plate under the driving of a power mechanism along with the moving strip; the battery string placed on the support plate is positioned between the barrier strip and the push block.

The barrier strip is arranged at the edge of the long edge of the upper surface of the bearing plate, and the moving strip is positioned at the long edge of the lower surface of the bearing plate; the push blocks arranged on the moving strips upwards penetrate through the bearing plate, and grooves which correspond to the push blocks one to one and are used for the push blocks to move are formed in the bearing plate; the push block is of an L-shaped structure, and the vertical arm of the push block penetrates through the groove of the support plate upwards.

The side surface of the moving strip is provided with support blocks at intervals, small sliding blocks are arranged on the support blocks, guide rails corresponding to the support blocks are arranged on the support plates along the width direction, and the small sliding blocks are assembled with the guide rails in a sliding mode; the moving strip is pushed by a power mechanism to move by taking the guide rail as a guide.

The structure of the cutter mechanism is as follows: the cutting device comprises a support fixedly arranged on a base, wherein a back plate and lower cutters are arranged on the support at intervals in the front-back direction, an upper cutter which slides up and down along the back plate is arranged on the front side surface of the back plate, the upper cutter is positioned above the lower cutter, a cutting edge at the bottom of the upper cutter is matched with the lower cutter, and the upper cutter moves up and down under the driving of a lifting mechanism; and a pressing mechanism is also arranged right above the lower cutter and moves up and down along with the upper cutter.

The lifting mechanism has the structure that: the lifting device comprises an air cylinder arranged on the rear side surface of a back plate, wherein the output end of the air cylinder faces upwards, a connecting block is arranged at the end part of the air cylinder, a lifting block is arranged on the front side surface of the connecting block, the lifting block is positioned on the front side surface of the back plate, and the rear side surface of the lifting block and the front side surface of the back plate are in up-and-down sliding connection through the matching of a sliding block and a guide rail; the lower part of the front side surface of the lifting block is provided with an upper cutter, and the upper part of the front side surface of the lifting block is provided with a pressing mechanism.

The structure of the pressing mechanism is as follows: the device comprises a fixed block fixedly arranged on a lifting block, a guide post is arranged by penetrating the fixed block up and down in a sliding manner, a pressing block is fixedly arranged at the bottom of the guide post, and a spring is sleeved on the guide post between the fixed block and the pressing block; the briquetting is located under the cutter directly over, and lower cutter upper surface both ends upwards extend has the vertical arm, and the briquetting is located between two vertical arms.

The support is structurally characterized in that: the blanking device comprises a frame-shaped seat which is communicated front and back, wherein a blanking box is arranged in the frame-shaped seat in a sliding way, the blanking box and the frame-shaped seat are arranged in a drawer type structure, and a limiting strip is arranged at the upper part of the front side surface of the frame-shaped seat; and the top surface of the frame-shaped seat is provided with a charging chute which is positioned under the matching blades of the upper cutter and the lower cutter.

The end part of the support plate facing the cutter mechanism is provided with a long groove, the long groove is arranged along the length direction of the support plate, and the long groove is positioned right above the laser sensor; the laser sensor is installed on the base through the position adjusting mechanism, and the position adjusting mechanism drives the laser sensor to move along the length direction of the long groove.

The utility model has the following beneficial effects:

the automatic cutting device is compact and reasonable in structure and convenient to operate, the support plate and the battery strings on the support plate are moved towards the cutter mechanism through the horizontal moving module, the deviation correcting mechanism ensures that the battery strings are aligned relative to the support plate, the moving distance of the battery strings is controlled by the sensing of the laser sensor, the overlong lead wires on the side surfaces of the battery strings are moved into the cutter mechanism, and the overlong lead wires are cut off by the cutter mechanism, so that the automatic cutting of the overlong lead wires on the side surfaces of the battery strings is realized, the automatic cutting device is stable and reliable, the automatic cutting device is suitable for the use of different types of battery strings, the full automation of the typesetter is effectively assisted, the efficiency is improved, and the practicability is good.

The utility model also comprises the following advantages:

the battery string deviation rectifying and lead cutting device is arranged in the front of the typesetting process, and the battery string deviation rectifying and lead cutting device jointly form automatic production, are compact and reasonable, and can help to shorten the whole beat;

the lower pressing mechanism is in contact with the lead before the upper cutter, and when the cutting edge of the upper cutter is matched with the cutting edge of the lower cutter to cut the lead, the lower pressing mechanism is matched with the lower cutter to compress the lead firstly, so that the stability, reliability and consistency of cutting the lead are guaranteed;

the support plate is provided with the long groove opposite to the laser sensor, so that the laser sensor can sense the battery string through the long groove, particularly the edge of the battery string in the moving process, the cutting length of the lead at the side edge of the battery string is effectively controlled, and the cut lead is consistent in length.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the mounting of the support plate and the laser sensor on the base according to the present invention.

FIG. 3 is a schematic structural diagram of the deviation rectifying mechanism of the present invention.

Fig. 4 is an exploded view of fig. 3.

Fig. 5 is a schematic structural view of the cutter mechanism of the present invention.

Fig. 6 is an exploded view of fig. 5.

Wherein: 1. a base; 2. a cutter mechanism; 3. a laser sensor; 4. a deviation rectifying mechanism; 5. a large slider; 6. a support plate; 7. a horizontal moving module;

21. a support; 22. a lower cutter; 23. a pressing mechanism; 24. a side plate; 25. a lifting block; 26. an upper cutter; 27. a lifting mechanism; 28. a back plate; 29. a blanking box; 211. a limiting strip; 212. a frame-shaped seat; 2111. a charging chute; 221. erecting an arm; 231. a fixed block; 232. a spring; 233. a guide post; 234. briquetting; 271. connecting blocks; 272. a cylinder; 273. a slider; 274. a guide rail;

31. a position adjustment mechanism;

41. blocking strips; 42. a moving bar; 43. a push block; 44. supporting a block; 45. a guide rail; 46. a small slider; 47. a power mechanism;

61. a long groove; 62. a groove; 63. and (4) supporting the base.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 and fig. 3, the battery string deviation rectifying and lead cutting device of the present embodiment includes a base 1, a horizontal moving module 7 is installed on the base 1 along a length direction, a supporting plate 6 is installed on the horizontal moving module 7 in a sliding manner, a deviation rectifying mechanism 4 is installed on the supporting plate 6, and the deviation rectifying mechanism 4 aligns the battery string on the supporting plate 6 in a width direction; the laser sensor 3 is arranged on the base 1 positioned outside the end head of the horizontal moving module 7, and the laser sensor 3 is used for sensing the movement of the battery string on the upper supporting plate 6; the end part of the base 1 is provided with a cutter mechanism 2.

The supporting plate 6 and the battery strings on the supporting plate move towards the cutter mechanism 2 through the horizontal moving module 7, the deviation correcting mechanism 4 ensures that the battery strings are aligned relative to the supporting plate 6, the distance of the battery strings is controlled by the induction of the laser sensor 3, so that the overlong lead wires on the lateral surfaces of the battery strings move to the cutter mechanism 2, and the overlong lead wires are cut off by the cutter mechanism 2, so that the automatic cutting of the overlong lead wires on the lateral surfaces of the battery strings is realized, and the battery string cutting device is suitable for different types of battery strings.

Two supporting plates 6 are slidably mounted on the horizontal moving module 7, the two supporting plates 6 move independently, and the two supporting plates 6 are respectively provided with a deviation rectifying mechanism 4; the laser sensors 3 are arranged on the bases 1 outside the two ends of the horizontal moving module 7, and the two laser sensors 3 correspond to the two support plates 6; the number of the cutter mechanisms 2 is two, and the cutter mechanisms 2 correspond to the support plate 6; through symmetrical double-station arrangement, the novel typesetter can be matched with a subsequent typesetter in a time-saving manner, and the whole efficiency is improved.

As shown in fig. 3 and 4, the structure of the deviation rectifying mechanism 4 is: the device comprises a blocking strip 41 fixedly arranged on the long edge of one side of a supporting plate 6, a moving strip 42 arranged on the long edge of the other side of the supporting plate 6, push blocks 43 arranged on the moving strip 42 at intervals along the length direction, and the push blocks 43 driven by a power mechanism 47 along with the moving strip 42 to move along the width direction of the supporting plate 6; the battery string placed on the support plate 6 is positioned between the barrier strip 41 and the push block 43; the power mechanism 47 is driven by a cylinder, an oil cylinder or a motor assembly through a screw nut for motion conversion.

The barrier strip 41 is arranged at the edge of the long edge of the upper surface of the supporting plate 6, and the moving strip 42 is positioned at the long edge of the lower surface of the supporting plate 6; the pushing block 43 arranged on the moving bar 42 upwards passes through the supporting plate 6, and the supporting plate 6 is provided with grooves 62 which are in one-to-one correspondence with the pushing block 43 and are used for moving the pushing block 43; the push block 43 is of an L-shaped structure, and the vertical arm of the push block 43 passes through the groove 62 of the support plate 6 upwards.

The lateral surface of the moving strip 42 is provided with support blocks 44 at intervals, small slide blocks 46 are arranged on the support blocks 44, guide rails 45 corresponding to the support blocks 44 are arranged on the supporting plate 6 along the width direction, and the small slide blocks 46 are assembled with the guide rails 45 in a sliding way; the moving bar 42 is driven by the power mechanism 47 to move by taking the guide rail 45 as a guide.

As shown in fig. 5 and 6, the cutter mechanism 2 has the following structure: the cutting device comprises a support 21 fixedly arranged on a base 1, a back plate 28 and a lower cutter 22 are arranged on the support 21 at intervals in the front-back direction, an upper cutter 26 which slides up and down along the back plate 28 is arranged on the front side surface of the back plate 28, the upper cutter 26 is positioned above the lower cutter 22, the cutting edge at the bottom of the upper cutter 26 is matched with the lower cutter 22, and the upper cutter 26 moves up and down under the driving of a lifting mechanism 27; a lower pressing mechanism 23 is also arranged right above the lower cutting knife 22, and the lower pressing mechanism 23 moves up and down along with the upper cutting knife 26.

The pressing mechanism 23 is in contact with the lead before the upper cutter 26, and when the cutting edge of the upper cutter 26 is matched with the cutting edge of the lower cutter 22 to cut the lead, the pressing mechanism 23 is matched with the lower cutter 22 to compress the lead firstly, so that the stability, reliability and consistency of cutting the lead are guaranteed.

The side surfaces of two ends of the back plate 28 are symmetrically provided with side plates 24, and the upper cutter 26 and the lower cutter 22 are positioned between the two side plates 24.

The lifting mechanism 27 has the structure: the lifting device comprises a cylinder 272 arranged on the rear side surface of a back plate 28, wherein the output end of the cylinder 272 faces upwards, the end part of the cylinder is provided with a connecting block 271, the front side surface of the connecting block 271 is provided with a lifting block 25, the lifting block 25 is positioned on the front side surface of the back plate 28, and the rear side surface of the lifting block 25 is in up-and-down sliding connection with the front side surface of the back plate 28 through the matching of a sliding block 273 and a guide rail 274; an upper cutter 26 is mounted on the lower portion of the front side surface of the lifting block 25, and a pressing mechanism 23 is mounted on the upper portion of the front side surface of the lifting block 25.

The structure of the pressing mechanism 23 is: the lifting device comprises a fixed block 231 fixedly arranged on a lifting block 25, a guide post 233 is arranged in a sliding manner by penetrating through the fixed block 231 from top to bottom, a pressing block 234 is fixedly arranged at the bottom of the guide post 233, and a spring 232 is sleeved on the guide post 233 between the fixed block 231 and the pressing block 234; the pressing block 234 is located right above the lower cutter 22, the two ends of the upper surface of the lower cutter 22 extend upwards to form the vertical arms 221, and the pressing block 234 is located between the two vertical arms 221.

The support 21 has the structure that: comprises a frame-shaped seat 212 which is through from front to back, a blanking box 29 is arranged in the frame-shaped seat 212 in a sliding way, the blanking box 29 and the frame-shaped seat 212 are arranged in a drawer type structure, and the upper part of the front side surface of the frame-shaped seat 212 is provided with a limit strip 211; the top surface of the frame-shaped seat 212 is provided with a charging chute 2111, and the charging chute 2111 is positioned right below the matching edges of the upper cutter 26 and the lower cutter 22.

The end part of the support plate 6 facing the cutter mechanism 2 is provided with a long groove 61, the long groove 61 is arranged along the length direction of the support plate 6, and the long groove 61 is positioned right above the laser sensor 3; the support plate 6 is provided with a long groove 61 opposite to the laser sensor 3, so that the laser sensor 3 can sense the battery string through the long groove 61, particularly the edge of the battery string in the moving process, thereby effectively controlling the cutting length of the lead at the side edge of the battery string and ensuring that the cut lead is consistent in length;

the laser sensor 3 is mounted on the base 1 through the position adjusting mechanism 31, and the position adjusting mechanism 31 drives the laser sensor 3 to move along the length direction of the long groove 61; position adjustment mechanism 31 includes the motor, has the motor to drive pivoted lead screw, and the vice cover of spiral is equipped with the nut on the lead screw, and laser sensor 3 installs on the nut to the position of adjusting laser sensor 3 through the rotation of motor, thereby be applicable to induction, the use of different battery strings of different categories, especially length, promoted the suitability.

The middle part of the bottom surface of the bearing plate 6 is fixedly provided with a supporting seat 63, the bottom surface of the supporting seat 63 is fixedly provided with a large sliding block 5, and the large sliding block 5 is assembled with the horizontal moving module 7 in a sliding way.

In the utility model, the battery string deviation rectifying and lead cutting device is arranged in the front of the typesetting process to jointly form automatic production, and the device is compact and reasonable and helps to shorten the overall beat.

The working principle of the utility model is as follows:

the external shifting mechanism places the battery string on the supporting plate 6, and the battery string is positioned between the barrier strip 41 and the push block 43;

the horizontal moving module 7 works, and the large slide block 5 drives the supporting plate 6 to move laterally towards the cutter mechanism 2; meanwhile, the power mechanism 47 works, the moving strip 42 is pulled to move towards the direction of the barrier strip 41 by taking the guide rail 45 as a guide, and the pushing blocks 43 which extend out of the grooves 62 upwards move along with the moving strip 42, so that the pushing blocks 43 apply force to the battery strings from the long sides together, and the battery strings are aligned by taking the barrier strip 41 as a side;

in the process that the horizontal moving module 7 drives the supporting plate 6 and the battery string to move laterally, the laser sensor 3 upwards penetrates through the long groove 61 on the supporting plate 6 until the outer edge of the battery string moves to the position above the laser sensor 3 and is sensed by the laser sensor, the laser sensor 3 transmits a signal to an external controller, the external controller controls the distance of the supporting plate 6 to move continuously, and the distance is adjusted according to different requirements of cutting off a lead on the battery string;

with the lateral movement of the battery string and the support plate 6, the lead moves to the upper part of the lower cutter 22 in the cutter mechanism 2;

the cylinder 272 in the lifting mechanism 27 works to pull the connecting block 271 downwards, and the pressing mechanism 23 and the upper cutter 26 move downwards along with the lifting block 25; the pressing block 234 at the bottom of the pressing mechanism 23 is close to and contacts with the lead on the lower cutter 22, and the pressing block 234 and the lower cutter 22 press the lead together; as the cylinder 272 continues to operate, the spring 232 compresses, and the guide post 233 passes upward out of the fixing block 231; the cutting edge below the upper cutter 26 matches the cutting edge of the lower cutter 22, the overlong lead is cut off, and the cut lead falls downwards through the blanking groove 2111 to the blanking box 29.

The automatic cutting device for the overlong leads on the side surfaces of the battery strings is stable and reliable, can effectively assist the full automation of the typesetter, can improve the efficiency, and has good practicability.

The above description is intended to illustrate the present invention and not to limit the present invention, which is defined by the scope of the claims, and may be modified in any manner within the scope of the present invention.

Claims (10)

1. The utility model provides a battery cluster is rectified and lead wire resection device, includes base (1), its characterized in that: a horizontal moving module (7) is installed on the base (1) along the length direction, a supporting plate (6) is installed on the horizontal moving module (7) in a sliding mode, a deviation rectifying mechanism (4) is installed on the supporting plate (6), and the deviation rectifying mechanism (4) enables the width direction of the battery strings on the supporting plate (6) to be aligned; a laser sensor (3) is arranged on the base (1) positioned outside the end head of the horizontal moving module (7), and the laser sensor (3) is used for sensing the movement of the battery string on the upper supporting plate (6); the cutter mechanism (2) is installed at the end part of the base (1).

2. The battery string deviation rectifying and lead cutting device according to claim 1, wherein: the horizontal moving module (7) is provided with two supporting plates (6) in a sliding way, the two supporting plates (6) move independently, and the two supporting plates (6) are respectively provided with a deviation rectifying mechanism (4); the laser sensors (3) are arranged on the bases (1) positioned outside the two ends of the horizontal moving module (7), and the two laser sensors (3) correspond to the two bearing plates (6); the number of the cutter mechanisms (2) is two, and the cutter mechanisms (2) correspond to the support plate (6).

3. The battery string deviation rectifying and lead cutting device according to claim 1, wherein: the structure of the deviation rectifying mechanism (4) is as follows: the device comprises a blocking strip (41) fixedly arranged on the long edge of one side of a supporting plate (6), a moving strip (42) is arranged on the long edge of the other side of the supporting plate (6), push blocks (43) are arranged on the moving strip (42) at intervals along the length direction, and the push blocks (43) move along the width direction of the supporting plate (6) under the driving of a power mechanism (47) along with the moving strip (42); the battery string placed on the support plate (6) is positioned between the barrier strip (41) and the push block (43).

4. The battery string deviation rectifying and lead cutting device according to claim 3, wherein: the barrier strips (41) are arranged at the edges of the long edges of the upper surface of the supporting plate (6), and the moving strips (42) are positioned at the long edges of the lower surface of the supporting plate (6); a push block (43) arranged on the moving strip (42) upwards penetrates through the supporting plate (6), and grooves (62) which correspond to the push blocks (43) one by one and are used for moving the push blocks (43) are formed in the supporting plate (6); the push block (43) is of an L-shaped structure, and the vertical arm of the push block (43) penetrates through the groove (62) of the support plate (6) upwards.

5. The battery string deviation rectifying and lead cutting device according to claim 3, wherein: the side surface of the moving strip (42) is provided with support blocks (44) at intervals, small sliding blocks (46) are arranged on the support blocks (44), guide rails (45) corresponding to the support blocks (44) are arranged on the support plate (6) along the width direction, and the small sliding blocks (46) are assembled with the guide rails (45) in a sliding mode; the moving strip (42) is pushed by a power mechanism (47) to move by taking the guide rail (45) as a guide.

6. The battery string deviation rectifying and lead cutting device according to claim 1, wherein: the structure of the cutter mechanism (2) is as follows: the cutting device comprises a support (21) fixedly arranged on a base (1), a back plate (28) and a lower cutter (22) are arranged on the support (21) at intervals in the front-back direction, an upper cutter (26) which slides up and down along the back plate is arranged on the front side surface of the back plate (28), the upper cutter (26) is positioned above the lower cutter (22), a cutting edge at the bottom of the upper cutter (26) is matched with the lower cutter (22), and the upper cutter (26) moves up and down under the driving of a lifting mechanism (27); a pressing mechanism (23) is further installed right above the lower cutter (22), and the pressing mechanism (23) moves up and down along with the upper cutter (26).

7. The battery string deviation rectifying and lead cutting device according to claim 6, wherein: the lifting mechanism (27) has the structure that: the lifting device comprises an air cylinder (272) arranged on the rear side surface of a back plate (28), wherein the output end of the air cylinder (272) faces upwards, a connecting block (271) is arranged at the end part of the air cylinder (272), a lifting block (25) is arranged on the front side surface of the connecting block (271), the lifting block (25) is positioned on the front side surface of the back plate (28), and the rear side surface of the lifting block (25) is in up-and-down sliding connection with the front side surface of the back plate (28) through the matching of a sliding block (273) -a guide rail (274); an upper cutter (26) is installed on the lower portion of the front side face of the lifting block (25), and a pressing mechanism (23) is installed on the upper portion of the front side face of the lifting block (25).

8. The battery string deviation rectifying and lead cutting device according to claim 7, wherein: the structure of the pressing mechanism (23) is as follows: the lifting device comprises a fixed block (231) fixedly arranged on a lifting block (25), a guide post (233) is installed in a manner of vertically penetrating through the fixed block (231) in a sliding manner, a pressing block (234) is fixedly arranged at the bottom of the guide post (233), and a spring (232) is sleeved on the guide post (233) between the fixed block (231) and the pressing block (234); the pressing block (234) is located right above the lower cutting knife (22), the two ends of the upper surface of the lower cutting knife (22) extend upwards to form vertical arms (221), and the pressing block (234) is located between the two vertical arms (221).

9. The battery string deviation rectifying and lead cutting device according to claim 1, wherein: the support (21) is structurally characterized in that: the blanking device comprises a frame-shaped seat (212) which is through from front to back, wherein a blanking box (29) is assembled in the frame-shaped seat (212) in a sliding way, the blanking box (29) and the frame-shaped seat (212) are installed in a drawer type structure, and a limiting strip (211) is installed on the upper part of the front side surface of the frame-shaped seat (212); a charging chute (2111) is formed in the top surface of the frame-shaped seat (212), and the charging chute (2111) is located right below the matched edges of the upper cutter (26) and the lower cutter (22).

10. The battery string deviation rectifying and lead cutting device according to claim 1, wherein: the end part of the support plate (6) facing the cutter mechanism (2) is provided with a long groove (61), the long groove (61) is arranged along the length direction of the support plate (6), and the long groove (61) is positioned right above the laser sensor (3); the laser sensor (3) is installed on the base (1) through the position adjusting mechanism (31), and the position adjusting mechanism (31) drives the laser sensor (3) to move along the length direction of the long groove (61).

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