CN211191787U - Pencil material loading shearing mechanism - Google Patents

Abstract

The utility model discloses a pencil material loading shearing mechanism, including aligning gear, vertical alignment mechanism, horizontal alignment mechanism, guy wire mechanism and shearing mechanism, guy wire mechanism sets up on first backup pad, still be provided with shearing mechanism in the first backup pad, the top of guy wire mechanism is provided with the riser, install vertical alignment mechanism and horizontal alignment mechanism on the riser, the one end of vertical alignment mechanism is provided with aligning gear. The utility model relates to a pencil material loading shearing mechanism is provided with adjusting device, can adjust the alignment clearance between gyro wheel and the lower gyro wheel through adjusting device according to different diameter pencil to can be applicable to the pencil of different diameters.

Description

Pencil material loading shearing mechanism

Technical Field

The utility model relates to a pencil material loading shearing mechanism.

Background

The electronic wire harness is widely applied to signal transmission or power connection of computers, household appliances, communication equipment and digital equipment, and terminals are pressed at two ends of the wire harness for connection between a flat cable and a flat cable connecting piece, so that the assembly of the electronic equipment is facilitated, and the reliability of signal transmission and connection between circuit boards inside the electronic equipment or the electronic equipment can be ensured. At present, the shearing of the wire harness is manually completed, the mode ensures that the time of the whole processing process is longer, the production efficiency is restricted, and the yield of the wire harness is influenced because the operation mode of each person is different in the operation process. Therefore, a wire harness feeding and shearing device is urgently needed.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the above-mentioned prior art, the utility model aims to provide a pencil material loading shearing mechanism.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a pencil material loading shearing mechanism, includes aligning gear, vertical alignment mechanism, horizontal alignment mechanism, guy wire mechanism and shears the mechanism, guy wire mechanism sets up on first backup pad, still be provided with shears the mechanism in the first backup pad, the top of guy wire mechanism is provided with the riser, install vertical alignment mechanism and horizontal alignment mechanism on the riser, the one end of vertical alignment mechanism is provided with aligning gear.

Preferably, the correction mechanism includes the riser down, install a first gyro wheel and two first gyro wheels down on the side of riser down, one first gyro wheel and two first gyro wheels set up in a staggered manner, the riser is fixed in first support column upper end down, the bottom mounting of first support column is on first support column base.

Preferably, the vertical straightening mechanism comprises an upper guide plate and a lower guide plate which are arranged in parallel relatively, two first guide shafts are mounted on the lower guide plate, the upper ends of the two first guide shafts penetrate through the upper guide plate through first shaft sleeves, an upper side plate is fixed on the side surface of the upper guide plate, a plurality of second upper rollers are arranged on the side surface of the upper side plate at intervals along the horizontal direction, a first adjusting rod is mounted on the upper guide plate, the top end of the first adjusting rod penetrates through a first adjusting sleeve to be hinged with one end of a curved rod, the other end of the curved rod is hinged with a handle, the handle is hinged on one ear plate of a support, a first adjusting sleeve is mounted on the other ear plate of the support, the support is fixed on the vertical plate, the vertical plate is fixed on the top of an upper vertical plate, the lower guide plate is transversely fixed on the side surface of the upper vertical plate, and the upper vertical plate is fixed on the upper end of a first, the bottom end of the first support column is fixed on the first support column base.

Preferably, a lower side plate is fixed to the side face of the lower guide plate, a plurality of second lower rollers are arranged on the side face of the lower side plate at intervals along the horizontal direction, and the second upper rollers and the second lower rollers are arranged in a staggered mode.

Preferably, horizontal alignment mechanism includes adjusting device, the left diaphragm and the right diaphragm that set up side by side, the side at last riser is fixed to the right diaphragm, the upper surface of right diaphragm is equipped with a plurality of right gyro wheels along the horizontal direction interval, the upper surface of left diaphragm is equipped with a plurality of left gyro wheels along the horizontal direction interval, right gyro wheel and the crisscross setting of left gyro wheel, the lower fixed surface of left diaphragm has the left side board, wear to be equipped with two second guiding axles, two through the secondary shaft cover on the left side board the right-hand member of second guiding axle is fixed on last riser.

Preferably, adjusting device includes that the second adjusts pole and U-shaped board, the one end that the second was adjusted the pole is fixed on the left side board, the second is adjusted the pole other end and is passed second adjusting sleeve pipe, stopper in proper order and articulated with the one end of Y shape handle, second adjusting sleeve pipe and stopper fixed connection, Y shape handle cross section is L font, and it is equipped with long slab and short slab, the both sides of U-shaped board are fixed with the second backup pad respectively, the one end of second backup pad articulates on the turning of long slab and short slab junction, the other end of second backup pad articulates on the stopper.

Preferably, the wire drawing mechanism includes the base, the base includes first bottom plate and sets up the curb plate at first bottom plate both ends, two be provided with first lead screw between the curb plate, the both ends of first lead screw are rotationally installed respectively on the board of both sides, the cover is equipped with first screw-nut on the first lead screw, first screw-nut's both sides are provided with first slider, first slider slides and sets up on first slide rail, first movable plate is installed at first screw-nut's top, install the support on the first movable plate, install the third backup pad on the support, install first pneumatic finger in the third backup pad.

Preferably, the shearing mechanism includes the second bottom plate, the other end at first backup pad is fixed to the second bottom plate, two parallel arrangement's second slide rail is installed to the one end on the second bottom plate, it is provided with the second slider to slide on the second slide rail, install the second movable plate on the second slider, install the support frame on the second movable plate, second movable plate mid-mounting has the bearing frame, the one end of bearing frame outwards extends has first extension board, one side of first extension board is provided with the bottom knife, be provided with the bearing in the bearing frame, install the pivot on the bearing, the pivot is connected with second screw drive, the cover is equipped with second screw-nut on the second screw, the one end of second screw-nut outwards extends has the second extension board, one side of second extension board is provided with the blade.

Preferably, a third bottom plate is installed at the top of the support frame, a driving belt wheel and a driven belt wheel are arranged on the third bottom plate, the driving belt wheel is connected with the driven belt wheel through a transmission belt, the driven belt wheel is installed on a driven shaft, the driven shaft penetrates through the third bottom plate to be connected with a second lead screw, the driving belt wheel is installed on a driving shaft, the driving shaft penetrates through the third bottom plate to be connected with an output shaft of a second servo motor, and the second servo motor is fixed on the lower surface of the third bottom plate.

Compared with the prior art, the utility model discloses a pencil material loading shearing mechanism, the pencil loops through correction mechanism, vertical alignment mechanism and horizontal alignment mechanism and corrects, and the stay wire mechanism straightens the pencil operation after correcting, and shearing mechanism shears the pencil to realize the material loading of pencil and cut, reduced the amount of labour, improved production efficiency, reduced manufacturing cost; the utility model discloses be provided with adjusting device, can adjust the alignment clearance between gyro wheel and the lower gyro wheel through adjusting device according to different diameter pencil to can be applicable to the pencil of different diameters.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:

fig. 1 is a schematic structural view of a wire harness feeding and shearing device of the present invention;

fig. 2 is a schematic structural view of a vertical straightening mechanism in the present invention;

fig. 3 is a schematic structural view of a transverse straightening mechanism in the present invention;

fig. 4 is a schematic structural diagram of an adjusting device in the present invention;

fig. 5 is a schematic structural view of a wire pulling mechanism in the present invention;

fig. 6 is a schematic structural view of the shearing mechanism of the present invention.

In the figure: 1. a correction mechanism; 101. a lower vertical plate; 102. a first upper roller; 103. a first lower roller; 104. a first support column; 105. a first support column base; 2. a vertical straightening mechanism; 201. an upper guide plate; 202. a lower guide plate; 203. a first guide shaft; 204. a first bushing; 205. an upper side plate; 206. A second upper roller; 207. a first adjusting lever; 208. a first adjustment sleeve; 209. a curved bar; 210. a handle; 211. a support; 212. a vertical plate; 213. a lower side plate; 214. a second lower roller; 3. a transverse straightening mechanism; 301. a left cross plate; 302. a right cross plate; 303. a right roller; 304. a left roller; 305. a left side plate; 306. a second shaft sleeve; 307. a second guide shaft; 308. a second adjusting lever; 309. a U-shaped plate; 310. A second adjustment sleeve; 311. a limiting block; 312. a Y-shaped handle; 313. a first support plate; 4. a wire pulling mechanism; 401. a first base plate; 402. a side plate; 403. a first lead screw; 404. a first lead screw nut; 405. a first slider; 406. a first slide rail; 407. a first moving plate; 408. a support; 409. a second support plate; 410. a first pneumatic finger; 411. a first servo motor; 412. a fixing plate; 413. a second pneumatic finger; 5. a shearing mechanism; 501. a second base plate; 502. a second slide rail; 503. a second slider; 504. a second moving plate; 505. a support frame; 506. a bearing seat; 507. a first extension plate; 508. A lower blade; 509. a bearing; 510. a rotating shaft; 511. a second lead screw; 512. a second feed screw nut; 513. A second extension plate; 514. an upper blade; 515. a third support plate; 516. a driving pulley; 517. a driven pulley; 518. a transmission belt; 519. a driven shaft; 520. a drive shaft; 521. a second servo motor; 522. A cylinder; 6. an upper vertical plate; 7. a fourth support plate; 701. a second support column; 702. a second support column base.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-6, the utility model provides a technical scheme is a pencil material loading shearing mechanism, including aligning gear 1, vertical alignment mechanism 2, horizontal alignment mechanism 3, wire drawing mechanism 4 and shearing mechanism 5, wire drawing mechanism 4 sets up on first backup pad 7, still be provided with shearing mechanism 5 on the first backup pad 7, wire drawing mechanism 4's top is provided with riser 6, install vertical alignment mechanism 2 and horizontal alignment mechanism 3 on the riser 6, vertical alignment mechanism 2's one end is provided with aligning gear 1, vertical alignment mechanism 2, horizontal alignment mechanism 3, wire drawing mechanism 4 and shearing mechanism 5 are connected with the P L C controller respectively, the P L C controller controls aligning gear 1, vertical alignment mechanism 2, horizontal alignment mechanism 3, wire drawing mechanism 4 and shearing mechanism 5 work.

The straightening mechanism 1 in this embodiment includes a lower riser 101, a first upper roller 102 and two first lower rollers 103 are installed on a side surface of the lower riser 101, one first upper roller 102 and two first lower rollers 103 are disposed in a staggered manner, a straightening gap through which a wire harness can pass is formed between the first upper roller 102 and the first lower rollers 103, when the wire harness passes through the first upper roller 102 and the first lower rollers 103, the wire harness is closely attached to the first upper roller 102 and the first lower rollers 103, and the first upper roller 102 and the first lower rollers 103 disposed in a staggered manner squeeze the wire harness as if the wire harness is cold-rolled multiple times by two rows of rollers, so as to achieve straightening of the wire harness, the lower riser 101 is fixed to an upper end of a first support column 104, and a bottom end of the first support column 104 is fixed to a first support column base 105.

The vertical straightening mechanism 2 in this embodiment includes an upper guide plate 201 and a lower guide plate 202 which are arranged in parallel, two first guide shafts 203 are installed on the lower guide plate 202, the upper ends of the two first guide shafts 203 are inserted into the upper guide plate 201 through a first shaft sleeve 204, an upper side plate 205 is fixed on the side surface of the upper guide plate 201, a plurality of second upper rollers 206 are arranged on the side surface of the upper side plate 205 at intervals along the horizontal direction, a first adjusting rod 207 is installed on the upper guide plate 201, the top end of the first adjusting rod 207 passes through a first adjusting sleeve 208 and is hinged with one end of a curved rod 209, the other end of the curved rod 209 is hinged with a handle 210, the handle 210 is hinged on one ear plate of a support 211, a first adjusting sleeve 208 is installed on the other ear plate of the support 211, the support 211 is fixed on a vertical plate 212, the vertical plate 212 is fixed on the top of an upper vertical plate 6, the lower guide plate 202 is transversely fixed on the side surface of the upper vertical plate 6, the upper vertical plate 6 is fixed at the upper end of the first support column 104, and the bottom end of the first support column 104 is fixed on the first support column base 105. Through adjusting handle 210, make first adjusting sleeve 208 stretch out or retract, first adjusting sleeve 208 promotes upper deflector 201 and top plate 205 and moves for top plate 205 is kept away from or is close to lower plate 213, thereby can control the distance between top plate 205 and the lower plate 213 through adjusting handle 210, and then can adjust the vertical alignment clearance between second upper roller 206 and the second lower roller 214 according to the pencil of different diameters, can be applicable to the pencil of different diameters.

In this embodiment, a lower plate 213 is fixed to a side surface of the lower guide plate 202, a plurality of second lower rollers 214 are arranged on the side surface of the lower plate 213 at intervals along the horizontal direction, the second upper rollers 206 and the second lower rollers 214 are arranged in a staggered manner, a vertical alignment gap through which a wire harness can pass is formed between the second upper rollers 206 and the second lower rollers 214, when the wire harness passes through the second upper rollers 206 and the second lower rollers 214, the wire harness is tightly attached to the second upper rollers 206 and the second lower rollers 214, and the staggered second upper rollers 206 and the second lower rollers 214 extrude the wire harness just like the wire harness is cold-rolled for multiple times by two rows of rollers, so that the vertical flatness of the wire harness is corrected.

In this embodiment, a vertical straightening mechanism 2 is disposed at one end of the upper vertical plate 6, a horizontal straightening mechanism 3 is disposed at the other end of the upper vertical plate 6, the horizontal straightening mechanism 3 includes an adjusting device, a left horizontal plate 301 and a right horizontal plate 302 disposed side by side, the right horizontal plate 302 is fixed on the side of the upper vertical plate 6, a plurality of right rollers 303 are disposed on the upper surface of the right horizontal plate 302 at intervals along the horizontal direction, a plurality of left rollers 304 are disposed on the upper surface of the left horizontal plate 301 at intervals along the horizontal direction, the right rollers 303 and the left rollers 304 are disposed in a staggered manner, a horizontal straightening gap through which a wire harness can pass is formed between the right rollers 303 and the left rollers 304, when the wire harness passes through the right rollers 303 and the left rollers 304, the wire harness is closely attached to the right rollers 303 and the left rollers 304, the right rollers 303 and the left rollers 304 disposed in a staggered manner that the wire harness, therefore, the horizontal flatness of the wiring harness is corrected, a left side plate 305 is fixed on the lower surface of the left transverse plate 301, two second guide shafts 307 penetrate through the left side plate 305 through a second shaft sleeve 306, and the right ends of the two second guide shafts 307 are fixed on the upper vertical plate 6.

The adjusting device in this embodiment includes a second adjusting rod 308 and a U-shaped plate 309, one end of the second adjusting rod 308 is fixed on the left side plate 305, the other end of the second adjusting rod 308 sequentially passes through a second adjusting sleeve 310 and a limiting block 311 and is hinged to one end of a Y-shaped handle 312, the second adjusting sleeve 310 is fixedly connected to the limiting block 311, the sleeve 310 penetrates through the upper vertical plate 6, the cross section of the Y-shaped handle 312 is L-shaped and is provided with a long plate and a short plate, two sides of the U-shaped plate 309 are respectively fixed with a second supporting plate 313, one end of the second supporting plate 313 is hinged to a corner at the connection of the long plate and the short plate, and the other end of the second supporting plate 313 is hinged to the limiting block 311, the second adjusting rod 308 is extended or retracted by adjusting the Y-shaped handle 312, the second adjusting rod 308 pushes the left side plate 305 and the left transverse plate 301 to move, so that the left transverse plate 301 is far away from or close to the right transverse plate 302, and thus the distance between the left transverse plate 301 and the transverse gap 304 between the left transverse plate 302 can be adjusted according to wire harnesses and the wire harnesses can be aligned.

The wire drawing mechanism in this embodiment includes a base, the base includes a first bottom plate 401 and side plates 402 arranged at two ends of the first bottom plate 401, a first lead screw 403 is arranged between the two side plates 402, two ends of the first lead screw 403 are respectively rotatably arranged on the two side plates 402, a first lead screw nut 404 is sleeved on the first lead screw 403, first sliders 405 are arranged at two sides of the first lead screw nut 404, the first sliders 405 are slidably arranged on first sliding rails 406, the first sliding rails 406 are fixed at two sides of the base and are arranged in parallel with the first lead screw 403, a first moving plate 407 is arranged at the top of the first lead screw nut 404, a support 408 is arranged on the first moving plate 407, a third support plate 409 is arranged on the support 408, and a first pneumatic finger 410 is arranged on the third support plate 409.

In this embodiment, one end of the first lead screw 403 is connected to an output shaft of a first servo motor 411 through a coupling, and the first servo motor 411 is fixed to the side plate 402.

In this embodiment, the base is fixed at one end of a first supporting plate 7, four second supporting columns 701 are arranged at the bottom of the first supporting plate 7, and the bottom of each second supporting column 701 is installed on a second supporting column base 702.

The wire pulling mechanism in this embodiment further includes a fixing plate 412 and a second pneumatic finger 413, the fixing plate 412 is fixed on one side surface of the right cross plate 302, and the second pneumatic finger 413 is installed on the fixing plate 412.

The shearing mechanism 5 in this embodiment includes a second bottom plate 501, the second bottom plate 501 is fixed at the other end of the first support plate 7, two second slide rails 502 arranged in parallel are installed at one end of the second bottom plate 501, a second slide block 503 is slidably arranged on the second slide rails 502, a second moving plate 504 is installed on the second slide block 503, a support frame 505 is installed on the second moving plate 504, a bearing seat 506 is installed at the middle part of the second moving plate 504, a first extending plate 507 is outwardly extended from one end of the bearing seat 506, a lower blade 508 is arranged at one side of the first extending plate 507, a bearing 509 is installed in the bearing seat 506, a rotating shaft 510 is installed on the bearing 509, the rotating shaft 510 is in transmission connection with a second lead screw 511, a second lead screw nut 512 is sleeved on the second lead screw 511, and a second extending plate 513 outwardly extends from one end of the second lead screw nut 512, an upper blade 514 is arranged on one side of the second extending plate 513, a third bottom plate 515 is installed on the top of the supporting frame 505, a driving pulley 516 and a driven pulley 517 are arranged on the third bottom plate 515, the driving pulley 516 is connected with the driven pulley 517 through a transmission belt 518, the driven pulley 517 is installed on a driven shaft 519, the driven shaft 519 penetrates through the third bottom plate 515 to be connected with a second screw rod 511, the driving pulley 516 is installed on a driving shaft 520, the driving shaft 520 penetrates through the third bottom plate 515 to be connected with an output shaft of a second servo motor 521, and the second servo motor 521 is fixed on the lower surface of the third bottom plate 515.

One end of the second moving plate 504 in this embodiment is connected to a piston rod of an air cylinder 522, and the air cylinder 522 is mounted on the other end of the second bottom plate 501.

The utility model discloses a theory of operation and use flow: when the wire harness straightening device is used, after one end of the wire harness sequentially passes through the straightening gap, the vertical straightening gap and the horizontal straightening gap, the first pneumatic finger 410 acts to clamp one end of the wire harness, the first servo motor 411 works to drive the first screw rod 403 to rotate, the first screw rod nut 404 slides on the first screw rod 403, so that the first movable plate 407 and the first pneumatic finger 410 arranged on the first movable plate 407 are driven to move, the wire harness is straightened, the second pneumatic finger 413 acts to clamp the other end of the wire harness after straightening, the air cylinder 522 works to push the second movable plate 504 and a component arranged on the second movable plate 504 to move along the second sliding rail 502, after the wire harness is moved to the position, the second servo motor 521 works to drive the driving shaft 520 and the driving belt wheel 516 to rotate, the driven shaft 519 and the driven belt wheel 517 are driven to rotate through the transmission belt 518, so that the second screw rod 511 is driven to rotate, the second lead screw nut 512 slides on the second lead screw 511, and then the second extension plate 513 mounted on the second lead screw 511 and the upper blade 514 are driven to move downwards, and the upper blade 514 cooperates with the lower blade 508 to cut the wire harness.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a pencil material loading shearing mechanism, includes aligning gear (1), vertical alignment mechanism (2), horizontal alignment mechanism (3), wire drawing mechanism (4) and shears mechanism (5), its characterized in that: the utility model discloses a straightening machine, including bracing wire mechanism (4), still be provided with on first backup pad (7) and cut mechanism (5), the top of bracing wire mechanism (4) is provided with riser (6), install vertical alignment mechanism (2) and horizontal alignment mechanism (3) on riser (6), the one end of vertical alignment mechanism (2) is provided with aligning gear (1).

2. The wire harness feeding and shearing device as claimed in claim 1, wherein: the correcting mechanism (1) comprises a lower vertical plate (101), a first upper roller (102) and two first lower rollers (103) are installed on the side face of the lower vertical plate (101), one first upper roller (102) and two first lower rollers (103) are arranged in a staggered mode, the lower vertical plate (101) is fixed to the upper end of a first supporting column (104), and the bottom end of the first supporting column (104) is fixed to a first supporting column base (105).

3. The wire harness feeding and shearing device as claimed in claim 1, wherein: the vertical straightening mechanism (2) comprises an upper guide plate (201) and a lower guide plate (202) which are arranged in parallel relatively, two first guide shafts (203) are installed on the lower guide plate (202), the upper ends of the two first guide shafts (203) penetrate through the upper guide plate (201) through first shaft sleeves (204), an upper side plate (205) is fixed on the side surface of the upper guide plate (201), a plurality of second upper rollers (206) are arranged on the side surface of the upper side plate (205) at intervals along the horizontal direction, a first adjusting rod (207) is installed on the upper guide plate (201), the top end of the first adjusting rod (207) penetrates through a first adjusting sleeve (208) to be hinged with one end of a curved rod (209), the other end of the curved rod (209) is hinged with a handle (210), the handle (210) is hinged on one ear plate of a support (211), and a first adjusting sleeve (208) is installed on the other ear plate of the support (211), the support (211) is fixed on a vertical plate (212), the vertical plate (212) is fixed at the top of an upper vertical plate (6), the lower guide plate (202) is transversely fixed on the side surface of the upper vertical plate (6), the upper vertical plate (6) is fixed at the upper end of a first support column (104), and the bottom end of the first support column (104) is fixed on a first support column base (105).

4. A wire harness feeding and shearing device as claimed in claim 3, wherein: a lower side plate (213) is fixed on the side surface of the lower guide plate (202), a plurality of second lower rollers (214) are arranged on the side surface of the lower side plate (213) at intervals along the horizontal direction, and the second upper rollers (206) and the second lower rollers (214) are arranged in a staggered mode.

5. The wire harness feeding and shearing device as claimed in claim 1, wherein: horizontal alignment mechanism (3) are including adjusting device, left diaphragm (301) and right diaphragm (302) that set up side by side, right diaphragm (302) is fixed in the side of last riser (6), the upper surface of right diaphragm (302) is equipped with a plurality of right gyro wheels (303) along the horizontal direction interval, the upper surface of left diaphragm (301) is equipped with a plurality of left rollers (304) along the horizontal direction interval, right gyro wheel (303) and left gyro wheel (304) crisscross setting, the lower fixed surface of left diaphragm (301) has left side board (305), wear to be equipped with two second guiding axle (307), two on left side board (305) through second shaft cover (306) the right-hand member of second guiding axle (307) is fixed on last riser (6).

6. The wire harness feeding and shearing device as claimed in claim 5, wherein the adjusting device comprises a second adjusting rod (308) and a U-shaped plate (309), one end of the second adjusting rod (308) is fixed on the left side plate (305), the other end of the second adjusting rod (308) sequentially penetrates through a second adjusting sleeve (310) and a limiting block (311) to be hinged with one end of a Y-shaped handle (312), the second adjusting sleeve (310) is fixedly connected with the limiting block (311), the cross section of the Y-shaped handle (312) is L-shaped and is provided with a long plate and a short plate, two sides of the U-shaped plate (309) are respectively fixed with a second supporting plate (313), one end of the second supporting plate (313) is hinged on a corner where the long plate and the short plate are connected, and the other end of the second supporting plate (313) is hinged on the limiting block (311).

7. The wire harness feeding and shearing device as claimed in claim 1, wherein: the wire drawing mechanism (4) comprises a base, the base comprises a first bottom plate (401) and side plates (402) arranged at two ends of the first bottom plate (401), a first screw rod (403) is arranged between the two side plates (402), two ends of the first screw rod (403) are respectively and rotatably arranged on the two side plates (402), a first screw rod nut (404) is sleeved on the first screw rod (403), first sliding blocks (405) are arranged on two sides of the first screw rod nut (404), the first sliding block (405) is arranged on a first sliding rail (406) in a sliding manner, a first moving plate (407) is mounted at the top of the first lead screw nut (404), a bracket (408) is arranged on the first moving plate (407), a third supporting plate (409) is arranged on the bracket (408), the third support plate (409) is provided with a first pneumatic finger (410).

8. The wire harness feeding and shearing device as claimed in claim 1, wherein: the shearing mechanism (5) comprises a second bottom plate (501), the second bottom plate (501) is fixed at the other end of the first supporting plate (7), two second sliding rails (502) arranged in parallel are installed at one end of the second bottom plate (501), a second sliding block (503) is arranged on the second sliding rail (502) in a sliding manner, a second moving plate (504) is installed on the second sliding block (503), a supporting frame (505) is installed on the second moving plate (504), a bearing seat (506) is installed in the middle of the second moving plate (504), a first extending plate (507) extends outwards from one end of the bearing seat (506), a lower blade (508) is arranged on one side of the first extending plate (507), a bearing (509) is arranged in the bearing seat (506), a rotating shaft (510) is installed on the bearing (509), and the rotating shaft (510) is in transmission connection with a second screw rod (511), the second screw rod (511) is sleeved with a second screw rod nut (512), one end of the second screw rod nut (512) extends outwards to form a second extending plate (513), and an upper blade (514) is arranged on one side of the second extending plate (513).

9. The wire harness feeding and shearing device as claimed in claim 8, wherein: the top of the support frame (505) is provided with a third bottom plate (515), the third bottom plate (515) is provided with a driving pulley (516) and a driven pulley (517), the driving pulley (516) is connected with the driven pulley (517) through a transmission belt (518), the driven pulley (517) is installed on a driven shaft (519), the driven shaft (519) penetrates through the third bottom plate (515) to be connected with a second screw rod (511), the driving pulley (516) is installed on a driving shaft (520), the driving shaft (520) penetrates through the third bottom plate (515) to be connected with an output shaft of a second servo motor (521), and the second servo motor (521) is fixed on the lower surface of the third bottom plate (515).

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