CN210877289U - Shaping and cutting module - Google Patents

Abstract

The utility model discloses a shaping and cutting module, which comprises an upper shaping cutter component, a middle wire arranging cutter and a lower shaping cutter component; the upper shaping cutter assembly and the lower shaping cutter assembly can be selectively close to or away from the middle wire arranging cutter towards the middle wire arranging cutter in an opposite direction; wherein: the upper shaping cutter assembly comprises an upper cutter and an upper shaping cutter arranged on the rear side of the upper cutter; the lower shaping cutter component comprises a lower cutter and a lower shaping cutter arranged on the rear side of the lower cutter; the middle wire arranging cutter is provided with a front side wire material positioning part, a rear side wire material positioning part and an avoiding through groove positioned between the front side wire material positioning part and the rear side wire material positioning part; the upper cutter and the upper shaping cutter can selectively and synchronously extend downwards into the avoiding through groove, and the lower cutter and the lower shaping cutter can selectively and synchronously extend upwards into the avoiding through groove; therefore, synchronous shaping and cutting are realized, the processing efficiency is greatly improved, and the manufacturing cost is reduced.

Description

Shaping and cutting module

Technical Field

The utility model relates to a cable cuts the field technique, especially indicates a plastic cuts module.

Background

In the prior art, the cutting and shaping of the cable are completed in two steps, which has many disadvantages, such as: 1. the processing equipment has complex structure and high equipment cost; 2. the method is completed in two steps, the processing time is long, the processing efficiency is limited, more electric energy or gas sources are consumed for processing, and the equipment operation cost is high.

In addition, at present, when cutting or shaping double winding displacement, it is not good enough to the location accuracy nature of double winding displacement, has influenced the cutting quality to the cable.

Therefore, a new technical solution needs to be developed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to the disadvantages of the prior art, and a primary object of the present invention is to provide a trimming module, which realizes synchronous trimming, greatly improves the process efficiency, and reduces the manufacturing cost; another purpose is, combine the setting of wire rod double-layered line positioning jig, improve the plastic cutting quality to the cable.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a shaping and cutting module comprises an upper shaping cutter component, a middle wire arranging cutter and a lower shaping cutter component; the upper shaping cutter assembly and the lower shaping cutter assembly can be selectively close to or away from the middle wire arranging cutter towards the middle wire arranging cutter in an opposite direction; wherein:

the upper shaping cutter assembly comprises an upper cutter and an upper shaping cutter arranged on the rear side of the upper cutter;

the lower shaping cutter component comprises a lower cutter and a lower shaping cutter arranged on the rear side of the lower cutter;

the middle wire arranging cutter is provided with a front side wire material positioning part, a rear side wire material positioning part and an avoiding through groove positioned between the front side wire material positioning part and the rear side wire material positioning part; the upper cutter and the upper shaping cutter can selectively and synchronously extend downwards into the avoiding through groove, and the lower cutter and the lower shaping cutter can selectively and synchronously extend upwards into the avoiding through groove.

As a preferred scheme, the upper side surface and the lower side surface of the rear side wire positioning part are respectively provided with a plurality of wire arranging grooves extending forwards and backwards, and the wire arranging grooves are arranged at left and right intervals.

As a preferable scheme, the upper side surface and the lower side surface of the front side wire positioning part are both provided with concave positions, and the concave positions are communicated with the avoidance through groove along the front-back direction.

As a preferable scheme, the upper shaping cutter comprises an upper wire-arranging toothed cutter and an upper wire-arranging pressing sheet, and the upper wire-arranging toothed cutter is positioned on the front side of the upper wire-arranging pressing sheet;

the lower shaping cutter comprises a lower wire arrangement toothed cutter and a lower wire arrangement pressing sheet, and the lower wire arrangement toothed cutter is positioned on the front side of the lower wire arrangement pressing sheet.

As a preferable scheme, the cutting device is further provided with an upper cutter holder, the upper cutter holder is provided with an upper cutter holder installation inclined plane which obliquely extends downwards from back to front, the upper cutter is provided with an upper cutter installation inclined plane which obliquely extends downwards from back to front, the upper cutter installation inclined plane is adapted to the lower side of the upper cutter holder installation inclined plane, and the upper cutter can be installed in an up-and-down oblique displacement mode along the upper cutter holder installation inclined plane;

still be provided with down the blade holder, down the blade holder has from the back down the lower blade holder installation inclined plane of forward slant upward extension, down the cutter has from the back down the lower cutter installation inclined plane of forward slant downward upward extension, lower cutter installation inclined plane adaptation is in the upside on lower blade holder installation inclined plane, down the cutter can be installed along lower blade holder installation inclined plane slant displacement formula from top to bottom.

As a preferred scheme, the upper cutter and the lower cutter are respectively provided with an oblique mounting part, the upper cutter mounting inclined plane and the lower cutter mounting inclined plane are formed on the corresponding oblique mounting parts, and an oblique long adjusting hole and a first top adjusting hole are formed in each oblique mounting part; the upper tool apron and the lower tool apron are both provided with an inclined locking hole and a second top adjusting hole; a locking screw is connected between the oblique long adjusting hole and the oblique locking hole; adjusting screws are connected between the second top adjusting holes and the first top adjusting holes, and adjusting operation parts of the adjusting screws are exposed out of the corresponding upper tool apron or the corresponding lower tool apron; when the adjusting operation part of the adjusting screw is rotated, the corresponding upper cutter or the lower cutter moves obliquely.

As a preferred scheme, the wire arranging device further comprises a wire clamping and positioning jig, wherein the middle wire arranging cutter is detachably assembled at the front side of the wire clamping and positioning jig; the wire clamping and positioning jig comprises a left clamping plate, a right clamping plate, a first positioning base and a second positioning base, wherein the left clamping plate is turned left and right relative to the right clamping plate to realize the opening and closing of the left clamping plate and the right clamping plate; the first positioning base and the second positioning base can be respectively arranged at the front ends of the left clamping plate and the right clamping plate in a front-back turnover mode, and the first positioning base and the second positioning base can be selectively turned over and closed in opposite directions or turned over and opened in opposite directions; the first positioning base and the second positioning base are positioned on the rear side of the rear side wire positioning part of the middle wire arranging cutter.

As a preferable scheme, the middle wire arranging cutter is provided with two assembling arms extending backwards, the rear ends of the assembling arms are convexly provided with assembling convex parts, the left side and the right side of the front end of the left wire clamping plate and/or the right wire clamping plate are provided with assembling holes, and the assembling convex parts can be inserted and matched with and positioned in the corresponding assembling holes; the first positioning base and the second positioning base are positioned between the two assembling arms.

As a preferred scheme, an upper gland is arranged on the first positioning base, the upper gland can be arranged on the first positioning base in a front-back overturning manner, and when the upper gland is overturned forwards to a proper position, the upper gland forwards exceeds the front part of the first positioning base;

the lower gland is arranged on the second positioning base and can be arranged on the second positioning base in a front-back overturning mode, and when the lower gland is overturned forwards in place, the lower gland exceeds the front of the second positioning base forwards.

As a preferable scheme, the lower side of the upper gland and the upper side of the lower gland are respectively provided with a core wire positioning groove for positioning the exposed core wire after peeling.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

firstly, synchronous shaping and cutting are realized, the processing efficiency is greatly improved, and the manufacturing cost is reduced;

secondly, the gap between the knife edges is adjustable, so that the smooth cutting is ensured, and the adjustment operation is simple and convenient, and the practicability is strong;

and thirdly, the shaping and cutting quality of the cable is improved by combining the arrangement of the wire clamping and positioning jig.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is an assembled perspective view of an embodiment of the present invention;

FIG. 2 is an exploded view of an embodiment of the present invention;

FIG. 3 is a partially exploded view of an embodiment of the present invention (embodying an upper knife, an upper truing knife, a lower truing knife);

FIG. 4 is a cut-out, unshaped cable effect diagram;

FIG. 5 is a diagram of a cut and shaped cable effect;

fig. 6 is a diagram showing a state in which double wires are put into the wire clamping and positioning jig according to the embodiment of the present invention (the upper cover and the lower cover have been turned forward to position the core wires);

FIG. 7 is a diagram illustrating a state of the middle wire arranging cutter inserted toward the wire clamping and positioning jig according to an embodiment of the present invention;

FIG. 8 is a diagram illustrating a state where the middle wire arranging blade is completely inserted into place toward the wire clamping and positioning jig according to an embodiment of the present invention;

fig. 9 is a diagram of a state in which the first positioning base and the second positioning base are turned over and folded toward each other (also referred to as a mold closing state) in the embodiment of the present invention;

fig. 10 is a diagram showing the upper and lower shaping cutter assemblies approaching toward the middle wire arranging cutter for shaping and cutting operations according to the embodiment of the present invention;

fig. 11 is a diagram showing the upper and lower shaping cutter assemblies facing away from the middle wire arranging cutter in the embodiment of the present invention (also after finishing shaping cutting);

fig. 12 to 14 are diagrams showing another operation mode of the shaping and cutting module according to an embodiment of the present invention:

fig. 12 is a view showing a state where the middle wire arranging cutter is completely inserted in place toward the wire clamping and positioning jig, and at this time, the upper and lower pressing caps are not turned forward, and thus, the upper and lower pressing caps are in a backward turned state, and do not position the core wire);

fig. 13 is a diagram showing a state in which the first positioning base and the second positioning base are turned over and folded toward each other (at this time, the upper pressing cover and the lower pressing cover are still in a backward turning state);

fig. 14 is a diagram showing a state where the upper and lower glands have been turned forward to position the core wire.

The attached drawings indicate the following:

10. middle wire arranging knife 11 and front side wire positioning part

111. Concave position 12, back side line material positioning part

121. Wire arranging groove 13 and avoiding through groove

14. Assembly arm 141, Assembly convex part

21. Upper cutter 211, upper cutter mounting inclined plane

22. Upper shaping knife 221 and upper wire-arranging toothed knife

222. Upper wire-trimming presser 23 and upper tool apron

231. Upper cutter holder installation inclined plane 241 and middle charging chute

242. Positioning groove 24 and cutter seat

31. Lower cutter 32, lower plastic cutter

321. Lower wire-arranging toothed cutter 322 and lower wire-arranging pressing sheet

33. Lower tool apron 331, lower tool apron mounting inclined plane

311. Lower cutter mounting inclined plane 4 and oblique mounting part

41. Oblique elongated adjustment aperture 42, first top adjustment aperture

43. Oblique locking hole 44 and second top adjusting hole

45. Locking screw 46, adjusting screw

4' and oblique locking part

51. Left clamping plate 52 and right clamping plate

53. First positioning base 531 and first stopper

54. A second positioning base 541 and a second stopper

55. Upper gland 56 and lower gland

57. Core wire positioning slot 58 and wire positioning slot

6. A cable.

Detailed Description

Please refer to fig. 1 to 14, which show the specific structure of the embodiment of the present invention; fig. 1 to 3 mainly show a partial structure of the shaping and cutting module; fig. 4 to 5 show the effect of the cut, unshaped, cut and shaped cable 6; fig. 6 to 14 show two operation modes for shaping and cutting in combination with the arrangement of the wire clamping and positioning jig.

First, referring to fig. 1 to 5, a shaping and cutting module includes an upper shaping cutter assembly, a middle wire arranging cutter 10, and a lower shaping cutter assembly; the upper shaping cutter assembly and the lower shaping cutter assembly can be selectively close to the middle wire arranging cutter 10 in an opposite direction or far away from the middle wire arranging cutter 10 in an opposite direction; synchronous shaping and cutting are realized, the processing efficiency is greatly improved, and the manufacturing cost is reduced;

wherein: the upper shaping cutter component comprises an upper cutter 21 and an upper shaping cutter 22 arranged at the rear side of the upper cutter 21; the lower shaping cutter component comprises a lower cutter 31 and a lower shaping cutter 32 arranged at the rear side of the lower cutter 31;

the middle wire arranging cutter 10 is provided with a front side wire positioning part 11, a rear side wire positioning part 12 and an avoiding through groove 13 positioned between the front side wire positioning part 11 and the rear side wire positioning part 12; the upper cutter 21 and the upper shaping cutter 22 can selectively and synchronously extend downwards into the avoidance through groove 13, and the lower cutter 31 and the lower shaping cutter 32 can selectively and synchronously extend upwards into the avoidance through groove 13. The upper side surface and the lower side surface of the rear side wire positioning part 12 are provided with a plurality of wire arranging grooves 121 extending front and back, and the wire arranging grooves 121 are arranged at left and right intervals. The upper side surface and the lower side surface of the front side wire positioning part 11 are both provided with concave positions 111, and the concave positions 111 are communicated with the avoidance through groove 13 along the front-back direction.

Still be provided with cutter seat 24, cutter seat 24 has middle silo 241, is provided with the limited constant head tank 242 who fixes a position in the front end that supplies middle reason line sword 10 in the rear side of cutter seat, like this, makes things convenient for the location of middle reason line sword 10 and whole wire rod clamp line positioning jig and cable relative cutter seat 24, concave position 111 link up forward to feed through middle silo 241.

In this embodiment, the upper shaping cutter 22 includes an upper wire-arranging toothed cutter 221 and an upper wire-arranging pressing piece 222, and the upper wire-arranging toothed cutter 221 is located on the front side of the upper wire-arranging pressing piece 222; the lower shaping cutter 32 comprises a lower wire-tidying toothed cutter 321 and a lower wire-tidying pressing piece 322, and the lower wire-tidying toothed cutter 321 is positioned on the front side of the lower wire-tidying pressing piece 322. The upper wire arranging toothed cutter 221 and the upper wire arranging pressing sheet 222 are both detachably assembled on the upper cutter 21; the lower wire arranging toothed cutter 321 and the lower wire arranging pressing sheet 322 are detachably assembled on the lower cutter 31; the lower end of the upper wire arranging tooth cutter 221 is provided with a plurality of wire arranging teeth, and the upper end of the lower wire arranging tooth cutter 321 is provided with a plurality of wire arranging teeth; generally, the shaping shape of the wire is mainly determined by the profiles of the lower end of the upper wire management pressing piece 222 and the upper end of the lower wire management pressing piece 322, and can be flexibly changed according to the actual design.

The cutting tool is further provided with an upper tool apron 23, the upper tool apron 23 is provided with an upper tool apron mounting inclined surface 231 which extends obliquely downwards from back to front, the upper cutter 21 is provided with an upper cutter mounting inclined surface 211 which extends obliquely downwards from back to front, the upper cutter mounting inclined surface 211 is adapted to the lower side of the upper tool apron mounting inclined surface 231, and the upper cutter 21 can be mounted in an up-and-down oblique displacement mode along the upper tool apron mounting inclined surface 231; a lower tool apron 33 is further provided, the lower tool apron 33 is provided with a lower tool apron mounting inclined plane 331 extending from back to front in an inclined upward manner, the lower cutter 31 is provided with a lower cutter mounting inclined plane 311 extending from back to front in an inclined downward upward manner, the lower cutter mounting inclined plane 311 is adapted to the upper side of the lower tool apron mounting inclined plane 331, and the lower cutter 31 can be mounted along the lower tool apron mounting inclined plane 331 in an inclined upward and downward manner. The upper cutter 21 and the lower cutter 31 are both provided with an oblique mounting part 4, the upper cutter mounting inclined plane 211 and the lower cutter mounting inclined plane 311 are formed on the corresponding oblique mounting part 4, and an oblique long adjusting hole 41 and a first top adjusting hole 42 are formed in the oblique mounting part 4; the upper tool apron 23 and the lower tool apron 33 are both provided with an inclined locking hole 43 and a second top adjusting hole 44; a locking screw 45 is connected between the oblique long adjusting hole 41 and the oblique locking hole 43; an adjusting screw 46 is connected between the second top adjusting hole 44 and the first top adjusting hole 42, and an adjusting operation part 461 of the adjusting screw 46 is exposed on the corresponding upper tool apron 23 or the corresponding lower tool apron 33; rotating the adjusting operation part 461 of the adjusting screw 46, the corresponding upper cutter 21 or lower cutter 31 moves in a diagonal displacement manner, so that the cutter can be adjusted by installing the cutter on the cutter holder, the cutter gap is adjustable, the cutting is ensured to be smooth, and the cutter mounting inclined plane is adapted to the cutter holder mounting inclined plane, so that the cutter can move in a diagonal manner up and down along the cutter holder mounting inclined plane, and the cutter gap adjustment is ensured to be accurate and reliable.

Here, the upper end of the upper tool apron 23 and the lower end of the lower tool apron 33 are both provided with an oblique locking portion 4 ', and the oblique locking portion 4' is perpendicular to the corresponding upper tool apron mounting inclined surface 231 or lower tool apron mounting inclined surface 331; the upper tool apron mounting inclined surface 231 and the lower tool apron mounting inclined surface 331 are parallel to each other; the second top adjustment hole 44 is disposed at the oblique locking portion 4'.

As shown in fig. 6 to 14, the wire clamping and positioning device further includes a wire clamping and positioning fixture, and the middle wire arranging cutter 10 is detachably assembled at the front side of the wire clamping and positioning fixture; the wire clamping and positioning jig comprises a left clamping plate 51, a right clamping plate 52, a first positioning base 53 and a second positioning base 54, wherein the left clamping plate 51 is turned left and right relative to the right clamping plate 52 to realize the opening and closing of the left clamping plate and the right clamping plate; the first positioning base 53 and the second positioning base 54 can be respectively arranged at the front ends of the left clamp plate 51 and the right clamp plate 52 in a front-back turnover manner, and the first positioning base 53 and the second positioning base 54 can be selectively turned over and closed in opposite directions or turned over and opened in opposite directions; the first positioning base 53 and the second positioning base 54 are located at the rear side of the rear wire positioning portion 12 of the middle wire arranging cutter 10.

The first positioning base 53 and the second positioning base 54 are used for positioning a row of wires respectively, a first stopper 531 which can be turned left and right relative to the first positioning base 53 is arranged on the lower side of the first positioning base 53, and the row of wires are positioned on the lower side of the first positioning base 53 by using the stopper 5310; similarly, a second stopper 541 capable of being flipped left and right relative to the second positioning base 54 is disposed on the upper side of the second positioning base 54, and the second stopper 541 positions the other row of wires on the upper side of the second positioning base 54. Here, the positioning of the sheath-containing wire on the first positioning base 53 and the second positioning base 54 also means the non-peeled portion.

The middle wire arranging knife 10 is provided with two assembling arms 14 extending backwards, assembling protrusions 141 (which can be realized by arranging pins) are convexly arranged at the rear ends of the assembling arms 14, assembling holes 501 are arranged at the left and right sides of the front ends of the left clamping plate 51 and/or the right clamping plate 52, and the assembling protrusions 141 can be positioned in the corresponding assembling holes 501 in a pluggable and adaptive manner; the first positioning base 53 and the second positioning base 54 are located between the two assembly arms 14.

Further, an upper gland 55 is arranged on the first positioning base 53, the upper gland 55 can be arranged on the first positioning base 53 in a front-back overturning manner, and when the upper gland 55 is overturned forwards to a proper position, the upper gland 55 exceeds the front of the first positioning base 53 forwards;

the second positioning base 54 is provided with a lower pressing cover 56, the lower pressing cover 56 can be arranged on the second positioning base 54 in a front-back overturning mode, and when the lower pressing cover 56 is overturned forwards to a proper position, the lower pressing cover 56 exceeds the front of the second positioning base 54 forwards.

Here, the lower side of the upper cover 55 and the upper side of the lower cover 56 are provided with core wire positioning grooves 57 for positioning the exposed core wire after peeling. Of course, the wire positioning groove 58 may also be disposed at the rear side of the core wire positioning groove 57, so that the upper gland 55 and the lower gland 56 further position the wire and the core wire; in this embodiment, the wire arrangement grooves 121 formed on the upper and lower surfaces of the rear wire positioning portion 12 of the middle wire arranging blade 10 are used for positioning the core wires, and the first positioning base 53 and the second positioning base 54 are used for positioning the wires.

Before shaping and cutting, the left clamp plate 51 and the right clamp plate 52 are opened, double threads are put in, and then the left clamp plate 51 and the right clamp plate 52 are folded; then, the first positioning module 51 is used to clamp the first row of wires, and the second positioning module 52 is used to clamp the second row of wires 50, at this time, as shown in fig. 6, the first positioning module 51 and the second positioning module 52 form an included angle greater than 0 degree, and normally, both the first positioning module 51 and the second positioning module 52 extend obliquely forward;

as shown in fig. 7, the middle wire arranging cutter 10 is inserted towards the wire clamping and positioning jig, specifically, the middle position of the middle of the first positioning module 51 and the second positioning module 52 is inserted;

fig. 8 shows a state when the middle wire arranging cutter 10 is completely inserted into place toward the wire clamping positioning fixture, where the assembling protrusion 141 of the middle wire arranging cutter 10 is fittingly positioned in the corresponding assembling hole 501, so as to achieve assembling positioning of the middle wire arranging cutter 10 on the wire clamping positioning fixture.

As shown in fig. 9, the first positioning base 53 and the second positioning base 54 are turned over and folded toward each other; the first positioning base 53 and the second positioning base 54 are located between the two assembly arms 14. Both groups of flat cables pass through the corresponding wire arranging grooves 121 and the avoiding through grooves 13 of the rear wire positioning part 12 forwards and reach the concave position 111, theoretically, whether the concave position 111 penetrates through the middle wire arranging knife 10 forwards or not and whether the cable extends out of the concave position 111 forwards or not are not limited.

As shown in fig. 10, the upper shaping cutter unit and the lower shaping cutter unit are moved closer to the middle wire arranging cutter 10 to perform shaping cutting operation, thereby realizing synchronous shaping cutting.

As shown in fig. 11, after the shaping and cutting are completed, the wire clamping and positioning jig carries the shaped and cut cable to be separated from the middle wire arranging cutter 10; and then the next processing can be carried out, such as the processing of a welding circuit board.

Fig. 12 to 14 are diagrams showing another operation mode of the shaping and cutting module according to an embodiment of the present invention: compared with the operation modes of fig. 6 to 11, the main difference is that the forward turning time of the upper gland and the lower gland is different.

The utility model is mainly designed to realize synchronous shaping and cutting, thereby greatly improving the processing efficiency and reducing the manufacturing cost; secondly, the gap between the knife edges is adjustable, so that the smooth cutting is ensured, and the adjustment operation is simple and convenient, and the practicability is strong; and the arrangement of the wire clamping and positioning jig is combined, so that the shaping and cutting quality of the cable is improved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a plastic cuts module which characterized in that: comprises an upper shaping cutter component, a middle wire arranging cutter (10) and a lower shaping cutter component; the upper shaping cutter component and the lower shaping cutter component can be selectively close to the middle wire arranging cutter (10) in an opposite direction or away from the middle wire arranging cutter (10) in an opposite direction; wherein:

the upper shaping cutter component comprises an upper cutter (21) and an upper shaping cutter (22) arranged on the rear side of the upper cutter (21);

the lower shaping cutter component comprises a lower cutter (31) and a lower shaping cutter (32) arranged on the rear side of the lower cutter (31);

the middle wire arranging cutter (10) is provided with a front side wire material positioning part (11), a rear side wire material positioning part (12) and an avoiding through groove (13) positioned between the front side wire material positioning part (11) and the rear side wire material positioning part (12); the upper cutter (21) and the upper shaping cutter (22) can selectively and synchronously extend downwards into the avoiding through groove (13), and the lower cutter (31) and the lower shaping cutter (32) can selectively and synchronously extend upwards into the avoiding through groove (13).

2. The reshaping cutting die set of claim 1, wherein: the upper side surface and the lower side surface of the rear side wire positioning part (12) are respectively provided with a plurality of wire arranging grooves (121) extending front and back, and the wire arranging grooves (121) are arranged at left and right intervals.

3. The reshaping cutting die set of claim 1, wherein: the upper side surface and the lower side surface of the front side wire positioning part (11) are respectively provided with a concave position (111), and the concave positions (111) are communicated with the avoidance through groove (13) along the front-back direction.

4. The reshaping cutting die set of claim 1, wherein: the upper shaping cutter (22) comprises an upper wire arranging tooth cutter (221) and an upper wire arranging pressing sheet (222), and the upper wire arranging tooth cutter (221) is positioned on the front side of the upper wire arranging pressing sheet (222);

the lower shaping cutter (32) comprises a lower wire arranging tooth cutter (321) and a lower wire arranging pressing plate (322), and the lower wire arranging tooth cutter (321) is positioned on the front side of the lower wire arranging pressing plate (322).

5. The reshaping cutting die set of claim 1, wherein: the cutting tool is further provided with an upper tool apron (23), the upper tool apron (23) is provided with an upper tool apron mounting inclined plane (231) which extends obliquely downwards from back to front, the upper cutter (21) is provided with an upper cutter mounting inclined plane (211) which extends obliquely downwards from back to front, the upper cutter mounting inclined plane (211) is adapted to the lower side of the upper tool apron mounting inclined plane (231), and the upper cutter (21) can be mounted in an up-and-down oblique displacement mode along the upper tool apron mounting inclined plane (231);

still be provided with down blade holder (33), down blade holder (33) have from back down the lower blade holder installation inclined plane (331) of forward slant upward extension, down cutter (31) have from back down the lower cutter installation inclined plane (311) of forward slant downward upward extension, lower cutter installation inclined plane (311) adaptation is in the upside of lower blade holder installation inclined plane (331), down cutter (31) can be installed along lower blade holder installation inclined plane (331) slant displacement formula from top to bottom.

6. The plastic cutting die set as claimed in claim 5, wherein: the upper cutter (21) and the lower cutter (31) are respectively provided with an oblique mounting part (4), an upper cutter mounting inclined plane (211) and a lower cutter mounting inclined plane (311) are formed on the corresponding oblique mounting parts (4), and an oblique long adjusting hole (41) and a first top adjusting hole (42) are formed in each oblique mounting part (4); the upper tool apron (23) and the lower tool apron (33) are both provided with an inclined locking hole (43) and a second top adjusting hole (44); a locking screw (45) is connected between the oblique long adjusting hole (41) and the oblique locking hole (43); an adjusting screw (46) is connected between the second top adjusting hole (44) and the first top adjusting hole (42), and an adjusting operation part (461) of the adjusting screw (46) is exposed out of the corresponding upper tool apron (23) or lower tool apron (33); when the adjusting operation part (461) of the adjusting screw (46) is rotated, the corresponding upper cutter (21) or lower cutter (31) moves obliquely.

7. The reshaping cutting die set of claim 1, wherein: the wire arranging device also comprises a wire clamping and positioning jig, wherein the middle wire arranging cutter (10) is detachably assembled at the front side of the wire clamping and positioning jig; the wire clamping and positioning jig comprises a left clamping plate (51), a right clamping plate (52), a first positioning base (53) and a second positioning base (54), wherein the left clamping plate (51) is turned left and right relative to the right clamping plate (52) to realize the opening and closing of the left clamping plate and the right clamping plate; the first positioning base (53) and the second positioning base (54) can be respectively arranged at the front ends of the left clamp plate (51) and the right clamp plate (52) in a front-back turnover mode, and the first positioning base (53) and the second positioning base (54) can be selectively turned over and closed in opposite directions or turned over and opened in opposite directions; the first positioning base (53) and the second positioning base (54) are positioned on the rear side of the rear side wire positioning part (12) of the middle wire arranging cutter (10).

8. The reshaping cutting die set of claim 7, wherein: the middle wire arranging knife (10) is provided with two assembling arms (14) extending backwards, assembling protrusions (141) are convexly arranged at the rear ends of the assembling arms (14), assembling holes (501) are formed in the left side and the right side of the front ends of the left clamping plate (51) and/or the right clamping plate (52), and the assembling protrusions (141) can be positioned in the corresponding assembling holes (501) in a pluggable and adaptive manner; the first positioning base (53) and the second positioning base (54) are positioned between the two assembly arms (14).

9. The reshaping cutting die set of claim 7, wherein: an upper gland (55) is arranged on the first positioning base (53), the upper gland (55) can be arranged on the first positioning base (53) in a front-back overturning manner, and when the upper gland (55) is overturned forwards to a proper position, the upper gland (55) exceeds the front of the first positioning base (53) forwards;

the lower pressing cover (56) is arranged on the second positioning base (54), the lower pressing cover (56) can be arranged on the second positioning base (54) in a front-back overturning mode, and when the lower pressing cover (56) overturns forwards in place, the lower pressing cover (56) exceeds the front of the second positioning base (54) forwards.

10. The reshaping cutting die set of claim 9, wherein: and the lower side of the upper gland (55) and the upper side of the lower gland (56) are both provided with core wire positioning grooves (57) for positioning and exposing the core wires after peeling.

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