CN111952896A - Automatic wire stripping machine capable of automatically adjusting wire diameter - Google Patents

Abstract

The invention discloses an automatic wire stripping machine capable of automatically adjusting according to the diameter of a wire; comprises a main box body, a cutting body cavity is arranged in the main box body, a working cavity with a right opening is communicated with the right side of the cutting body cavity, a cutting tool shaft cavity which is arranged in an annular shape and is communicated with the cutting body cavity leftwards is communicated with the outer side of the working cavity, a clamp shaft cavity which is communicated with the cutting tool shaft cavity leftwards is symmetrically communicated with the upper side and the lower side of the working cavity, a cutting body gear cavity is communicated with the left side of the cutting body cavity, a cutting body shaft cavity is communicated with the left side of the cutting body gear cavity, the device drives a clamp to move towards the center by using the rotation of a turntable, thereby realizing the, when the device is used for stripping wires, the working efficiency is greatly improved, the using amount of workers is reduced, and meanwhile, the hidden danger of injury of the workers is also reduced.

Description

Automatic wire stripping machine capable of automatically adjusting wire diameter

Technical Field

The invention relates to the technical field of power construction equipment, in particular to an automatic wire stripping machine capable of automatically adjusting according to the diameter of a wire.

Background

The wire stripping is mainly performed manually to clamp the head of the wire by using wire stripping pliers, the wire is pulled outwards forcibly to achieve the purpose of stripping the wire, so that the manual wire stripping efficiency is low, the wire is clamped and broken due to improper force application when the wire stripping pliers are used manually, and the wire is wasted.

Disclosure of Invention

Aiming at the technical defects, the invention provides the automatic wire stripping machine capable of automatically adjusting according to the diameter of the wire, and the automatic wire stripping machine can overcome the defects.

The invention relates to an automatic wire stripping machine capable of automatically adjusting according to the diameter of an electric wire, which comprises a main box body, wherein a cutting body cavity is arranged in the main box body, the right side of the cutting body cavity is communicated with a working cavity with a rightward opening, the outer side of the working cavity is communicated with a cutting tool shaft cavity which is annularly arranged and is communicated with the cutting body cavity leftwards, the upper side and the lower side of the working cavity are symmetrically communicated with a clamp shaft cavity communicated with the cutting tool shaft cavity leftwards, the left side of the cutting body cavity is communicated with a cutting body gear cavity, the left side of the cutting body gear cavity is communicated with a cutting body shaft cavity, the left side of the cutting body shaft cavity is communicated with a pull wire cavity, the lower side of the cutting body gear cavity is communicated with a transmission straight gear cavity, the left side of the transmission straight gear cavity is provided with a pull rod gear, the lower side of the pull rod gear cavity is provided with a driven bevel gear cavity positioned on the left side of the transmission straight gear cavity, the right side of the transmission straight gear cavity is provided with a transposition spring cavity positioned on the lower side of the cutting body cavity, the right side of the transposition spring cavity is communicated with a transposition shaft cavity positioned on the lower side of the cutting tool shaft cavity, the right side of the transposition shaft cavity is communicated with a motor gear cavity, the motor gear cavity is communicated with the turntable cavity, a turntable is arranged in the turntable cavity in a rotating fit connection mode, a clamp shaft which is symmetrically arranged up and down is connected with the left end surface of the turntable in a threaded fit mode, the clamp shaft is connected with the clamp shaft cavity in a sliding fit mode, a clamp is fixedly connected with the left end surface of the clamp shaft, a clamp magnet block is fixedly connected in the clamp, and the cutting body shaft cavity in a sliding fit connection mode is provided with a cutting body shaft which extends to the pull wire left, cut the terminal normal running fit in axon axle left side and connect and be equipped with the line-drawing board, cut fixed connection and be equipped with on the axon axle cut the body gear intracavity and with cut the body gear that cuts that body gear chamber sliding fit connects, cut the terminal fixed connection in axon axle right side and be equipped with the cutting body.

On the basis of the technical scheme, the cutting body is connected with the cutting body cavity in a sliding fit manner, a cutting shaft spring cavity which penetrates through the cutting body from left to right and is arranged in an up-down symmetrical manner by taking the cutting body shaft as a center is arranged in the cutting body, magnetic plate cavities which are symmetrically arranged are arranged on the front side and the rear side of each cutting shaft spring cavity, magnetic plates are arranged in the magnetic plate cavities in a sliding fit manner, a magnetic plate electromagnet is fixedly connected in the right end wall of each magnetic plate cavity, magnetic plate springs which are symmetrically arranged by taking the magnetic plate electromagnet as a center are fixedly connected between the right end wall of each magnetic plate cavity and the right end face of each magnetic plate, a plurality of teeth are fixedly connected on the left end face of each magnetic plate, a cutting shaft which extends into the cutting tool shaft cavity rightwards and extends into the cutting tool cavity leftwards is arranged in the sliding fit manner in the cutting shaft spring cavity, and a cutter which is positioned in the cutting tool shaft cavity is fixedly, the cutting axle is close to cut body axis side end face with cutting axle spring chamber is close to fixed connection is equipped with the cutting axle spring between the cutting body axle side end wall, cutting axle internal fixation is equipped with and is located cutting body intracavity and to keeping away from cutting axle side extends to and adjacent two the shelves pole of tooth butt.

On the basis of the technical scheme, the end wall inner rotation fit connection under the pull rod gear cavity is equipped with upwards extends to pull rod gear intracavity and downwardly extending to the pull rod gear shaft in the driven helical gear intracavity, the end fixed connection of pull rod gear shaft downside is equipped with driven helical gear, the end fixed connection of pull rod gear shaft upside is equipped with pull rod gear, pull rod gear up end fixed connection is equipped with the pull rod axle, the epaxial up end rotation fit connection of pull rod is equipped with extends to left the pull rod of slider intracavity, slider intracavity sliding fit connection is equipped with the slider, slider right-hand member face fixed connection is equipped with the slider axle, the slider axle with articulate between the pull rod, the slider left end face with fixed connection is equipped with between the stay wire board left end face and acts as go-between.

On the basis of the technical scheme, the inner rotation fit connection of the right end wall of the driven bevel gear cavity is provided with a transmission straight gear shaft which extends leftwards into the driven bevel gear cavity and rightwards into the transmission straight gear cavity, the tail end of the left side of the transmission straight gear shaft is fixedly connected with a transmission bevel gear meshed with the driven bevel gear, the tail end of the right side of the transmission straight gear shaft is fixedly connected with a transmission straight gear, the inner rotation fit connection of the left end wall of the transmission straight gear cavity is provided with a driven gear shaft which extends rightwards into the transmission straight gear cavity, the tail end of the right side of the driven gear shaft is fixedly connected with a driven gear which can be meshed with the shaft gear of the cutting body, the inner rotation fit connection of the right end wall of the transmission straight gear cavity is provided with a half gear shaft which extends leftwards into, the tail end of the left side of the half gear shaft is fixedly connected with a half gear which can be meshed with the driven gear and the transmission straight gear, and the tail end of the right side of the half gear shaft is fixedly connected with a driven spur gear.

On the basis of the technical scheme, a transposition shaft which extends rightwards into the motor gear cavity and leftwards into the transposition spring cavity is arranged in the transposition shaft cavity in a sliding fit connection mode, a transposition gear is fixedly connected and arranged at the right end of the transposition shaft, a transmission gear which is positioned in the transmission gear cavity and meshed with the driven spur gear is fixedly connected and arranged on the transposition shaft, a transposition magnet is rotatably connected and arranged at the left end of the transposition shaft in a matching mode, a transposition electromagnet is fixedly connected and arranged in the left end wall of the transposition spring cavity, a transposition spring is fixedly connected and arranged between the right end face of the transposition electromagnet and the left end face of the transposition magnet, a motor which is fixedly connected with the main box body and positioned on the lower side of the transposition shaft cavity is arranged on the left side of the motor gear cavity, and a motor shaft is fixedly connected and, the terminal fixed connection in motor shaft right side be equipped with transposition gear engaged motor gear, motor gear chamber right side end rotation fit connection is equipped with driven spur gear axle, driven spur gear axle left side end fixed connection be equipped with can with transposition gear meshing and with carousel meshed driven spur gear.

The invention has the beneficial effects that: this device uses the rotation of carousel to drive anchor clamps and removes to the center to realize pressing from both sides tightly of different diameter electric wires, application scope is wider, through anchor clamps magnet piece and magnet piece, realizes the simultaneous movement of cutter and anchor clamps, prevents that the electric wire from being cut the section, reduces the waste of electric wire, and when using this device wire stripping, work efficiency improves greatly, has reduced workman's use amount, has also reduced workman injured hidden danger simultaneously.

Drawings

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

Fig. 1 is a schematic structural view of an automatic wire stripper capable of automatically adjusting according to the diameter of a wire according to the present invention;

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic sectional view taken along line B-B in FIG. 1;

fig. 4 is a schematic sectional view of the structure in the direction of C-C in fig. 3.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

As shown in fig. 1-4, the automatic wire stripper of the device of the invention, which can automatically adjust according to the diameter of the wire, comprises a main box body 10, wherein a cutting body cavity 17 is arranged in the main box body 10, the right side of the cutting body cavity 17 is communicated with a working cavity 24 with a right opening, the outer side of the working cavity 24 is communicated with a cutting tool shaft cavity 19 which is annularly arranged and communicated with the cutting body cavity 17 towards the left, the upper side and the lower side of the working cavity 24 are symmetrically communicated with a clamp shaft cavity 23 which is communicated with the cutting tool shaft cavity 19 towards the left, the left side of the cutting body cavity 17 is communicated with a cutting body gear cavity 15, the left side of the cutting body gear cavity 15 is communicated with a cutting body shaft cavity 68, the left side of the cutting body shaft cavity 68 is communicated with a wire pulling cavity 12, the lower side of the cutting body gear cavity 15 is communicated with a transmission straight gear cavity 39, the left side of the transmission, the left side of the pull rod gear cavity 52 is communicated with a slider cavity 51, the lower side of the pull rod gear cavity 52 is provided with a driven bevel gear cavity 43 positioned on the left side of the transmission straight gear cavity 39, the right side of the transmission straight gear cavity 39 is provided with a transposition spring cavity 38 positioned on the lower side of the cutting cavity 17, the right side of the transposition spring cavity 38 is communicated with a transposition shaft cavity 69 positioned on the lower side of the cutting tool shaft cavity 19, the right side of the transposition shaft cavity 69 is communicated with a motor gear cavity 30, the motor gear cavity 30 is communicated with the turntable cavity 57, the turntable cavity 57 is internally provided with a turntable 59 in a rotating fit connection mode, the left end face of the turntable 59 is in a threaded fit connection with a clamp shaft 22 which is vertically symmetrically arranged, the clamp shaft 22 is in a sliding fit connection with the clamp shaft cavity 23, the left end face of the clamp shaft 22 is fixedly connected with a clamp 60, and the clamp magnet, cutting body shaft chamber 68 interior sliding fit connection is equipped with and extends to left just extend right in the chamber 12 of acting as go-between cut body gear chamber 15 extremely cut the body axle 14 of cutting in the body chamber 17, the terminal normal running fit connection in cutting body axle 14 left side is equipped with the line drawing board 13, fixed connection is equipped with and is located on the cutting body axle 14 cut in the body gear chamber 15 and with the cutting body shaft gear 16 that cuts 15 sliding fit connections in cutting body gear chamber, the terminal fixed connection in cutting body axle 14 right side is equipped with cutting body 71.

In addition, in one embodiment, the cutting body 71 is connected with the cutting body cavity 17 in a sliding fit manner, a cutting shaft spring cavity 70 which penetrates through the cutting body 71 from left to right and is arranged in an up-down symmetrical manner with the cutting body shaft 14 as a center is arranged in the cutting body 71, magnetic plate cavities 63 which are arranged in a symmetrical manner are arranged on the front side and the rear side of the cutting shaft spring cavity 70, a magnetic plate 64 is arranged in the magnetic plate cavity 63 in a sliding fit manner, a magnetic plate electromagnet 66 is fixedly connected in the right end wall of the magnetic plate cavity 63, a magnetic plate spring 65 which is arranged in an up-down symmetrical manner with the magnetic plate electromagnet 66 as a center is fixedly connected between the right end wall of the magnetic plate cavity 63 and the right end surface of the magnetic plate 64, a plurality of teeth 67 are fixedly connected on the left end surface of the magnetic plate 64, a cutting shaft 62 which extends to the right in the cutting tool shaft cavity 19 and extends to the left in the, the cutting shaft 62 is close to the end face fixed connection that cuts body axis 14 side is equipped with and is located cutter 73 in the cutting cutter axle chamber 19, the cutting shaft 62 is close to cut body axis 14 side end with the cutting shaft spring chamber 70 is close to fixed connection is equipped with cutting shaft spring 72 between the end wall of cutting body axis 14 side, fixed connection is equipped with and is located in the cutting body chamber 17 and to keeping away from cutting shaft 62 side extends to and adjacent two shelves pole 61 of tooth 67 butt.

In addition, in one embodiment, the lower end wall of the pull rod gear cavity 52 is connected with a pull rod gear shaft 45 which extends upwards into the pull rod gear cavity 52 and downwards into the driven bevel gear cavity 43 in a rotating fit manner, the tail end of the lower side of the pull rod gear shaft 45 is fixedly connected with a driven bevel gear 44, the tail end of the upper side of the pull rod gear shaft 45 is fixedly connected with a pull rod gear 46, a pull rod shaft 47 is fixedly connected to the upper end surface of the pull rod gear 46, a pull rod 50 extending leftwards into the slider cavity 51 is rotatably connected to the upper end surface of the pull rod shaft 47 in a matching manner, a slide block 49 is arranged in the slide block cavity 51 in a sliding fit connection mode, a slide block shaft 48 is fixedly connected to the right end face of the slide block 49, the slider shaft 48 is hinged with the pull rod 50, and a pull wire 11 is fixedly connected between the left end face of the slider 49 and the left end face of the pull wire plate 13.

In addition, in one embodiment, the right end wall of the driven bevel gear chamber 43 is connected with a transmission straight gear shaft 41 which extends leftwards into the driven bevel gear chamber 43 and rightwards into the transmission straight gear chamber 39 in a rotating fit manner, the left end of the transmission straight gear shaft 41 is fixedly connected with a transmission bevel gear 42 which is meshed with the driven bevel gear 44, the right end of the transmission straight gear shaft 41 is fixedly connected with a transmission straight gear 40, the left end wall of the transmission straight gear chamber 39 is connected with a driven gear shaft 56 which extends rightwards into the transmission straight gear chamber 39 in a rotating fit manner, the right end of the driven gear shaft 56 is fixedly connected with a driven gear 18 which can be meshed with the cutting body shaft gear 16, the right end wall of the transmission straight gear chamber 39 is connected with a half gear shaft 55 which extends leftwards into the transmission straight gear chamber 39 and rightwards into the transmission gear chamber 33 in a rotating fit manner, the left end of the half gear shaft 55 is fixedly connected with a half gear 53 which can be meshed with the driven gear 18 and the transmission spur gear 40, and the right end of the half gear shaft 55 is fixedly connected with a driven spur gear 32.

In addition, in one embodiment, the transposition shaft cavity 69 is slidably and fittingly connected with the transposition shaft 35 extending rightward into the motor gear cavity 30 and extending leftward into the transmission gear cavity 33 and the transposition spring cavity 38, the right end of the transposition shaft 35 is fixedly connected with the transposition gear 27, the transmission gear 34 located in the transmission gear cavity 33 and engaged with the driven spur gear 32 is fixedly connected with the transposition shaft 35, the left end of the transposition shaft 35 is rotatably and fittingly connected with the transposition magnet 36, the left end wall of the transposition spring cavity 38 is fixedly connected with the transposition electromagnet 54, the transposition spring 37 is fixedly connected between the right end surface of the transposition electromagnet 54 and the left end surface of the transposition magnet 36, the motor 28 fixedly connected with the main box 10 and located on the lower side of the transposition shaft cavity 69 is arranged on the left side of the motor gear cavity 30, motor 28 right-hand member face fixed connection is equipped with motor shaft 29, motor shaft 29 right side end fixed connection be equipped with the motor gear 31 of transposition gear 27 meshing, motor gear chamber 30 right-hand member wall internal rotation fit connection is equipped with driven spur gear axle 25, driven spur gear axle 25 left side end fixed connection be equipped with can with transposition gear 27 meshing and with the driven spur gear 26 of carousel 59 meshing.

The applicant now specifically describes an automatic wire stripper of the present application which automatically adjusts for wire diameter, with reference to figures 1-4 and the above description: in the initial state, the transposition gear 27 is meshed with the motor gear 31 and the driven spur gear 26, the transposition electromagnet 54 and the magnetic plate electromagnet 66 are in a power-off state, the half gear 53 just starts to be meshed with the driven gear 18, and the half gear 53 just disengages from the transmission spur gear 40; when the electric wire stripping machine starts to work, an electric wire to be stripped is placed in the working cavity 24 firstly, the motor 28 is started to rotate in the positive direction, the motor 28 rotates to drive the motor gear 31 to rotate through the motor shaft 29, the motor gear 31 rotates to drive the driven spur gear 26 to rotate through the transposition gear 27, the driven spur gear 26 rotates to drive the rotating disc 59 to rotate, the rotating disc 59 rotates to drive the clamp shaft 22 to move inwards, the clamp shaft 22 moves inwards to drive the clamp 60 to move inwards until the electric wire is clamped, the clamp 60 moves inwards and simultaneously drives the magnet block 20 to move inwards through the clamp magnet block 21, so that the cutting shaft 62 drives the cutter 73 to move inwards by overcoming the thrust of the cutting shaft spring 72, the blocking rod 61 moves inwards by the inward movement of the cutting shaft 62, so that the teeth 67 move rightwards, the teeth 67 move rightwards to drive the magnetic plate 64 to move rightwards by overcoming the thrust of the magnetic plate spring 65, the stop rod 61 is just abutted against two corresponding adjacent teeth 67, and the magnetic plate 64 moves leftwards under the thrust action of the magnetic plate spring 65 until the stop rod 61 is clamped; the electric wire is clamped, the transposition electromagnet 54 is electrified, the adsorption transposition magnet 36 moves leftwards by overcoming the thrust of the transposition spring 37 until the transmission gear 34 is meshed with the driven spur gear 32, the transposition gear 27 is disengaged from the driven spur gear 26, the motor gear 31 rotates to drive the transposition shaft 35 to rotate through the transposition gear 27, the transposition shaft 35 rotates to drive the driven spur gear 32 to rotate through the transmission gear 34, the driven spur gear 32 rotates to drive the half gear 53 to rotate through the half gear shaft 55, the half gear 53 rotates to drive the cutting body shaft gear 16 to rotate through the driven gear 18, the cutting body shaft gear 16 rotates to drive the cutting body 71 to rotate through the cutting body shaft 14, and therefore the cutter 73 rotates to achieve the purpose of cutting; the cutter body shaft 14 makes exactly one revolution when the half gear 53 is disengaged from the driven gear 18, and the half gear 53 is simultaneously just meshed with the transmission straight gear 40, the rotation of the half gear 53 drives the transmission straight gear shaft 41 to rotate through the transmission straight gear 40, the rotation of the transmission straight gear shaft 41 drives the driven bevel gear 44 to rotate through the transmission bevel gear 42, the rotation of the driven bevel gear 44 drives the pull rod gear 46 to rotate through the pull rod gear shaft 45, thereby leading the pull rod 50 to drive the slide block 49 to do reciprocating motion, when the pull rod shaft 47 moves to the rightmost side, the slide block 49 drives the pull wire plate 13 to move leftwards through the pull wire 11, so that the cutter 71 drives the cutter 73 to move leftwards to achieve the purpose of peeling off the wire shell, when the pull rod shaft 47 moves to reset, the attraction force between the magnet block 20 and the clamp magnet block 21 drives the wire pulling plate 13 to move rightwards through the cutting body 71 until the wire pulling plate is reset, and at the moment, the half gear 53 is just disengaged from the transmission straight gear 40 and just engaged with the driven gear 18; meanwhile, the transposition electromagnet 54 is de-energized, the transposition magnet 36 moves rightwards to reset under the thrust of the transposition spring 37, the transmission gear 34 is disengaged from the driven spur gear 32, the transposition gear 27 is engaged with the driven spur gear 26, the motor 28 rotates reversely, the magnetic plate electromagnet 66 is energized, the magnetic plate 64 is attracted, the teeth 67 are driven to move rightwards by overcoming the thrust of the magnetic plate spring 65, the teeth 67 are completely disengaged from the stop rod 61, the clamp 60 moves outwards to reset under the rotation of the rotary disc 59, the cutting shaft 62 moves outwards to reset under the thrust of the cutting shaft spring 72 and the attraction between the magnet block 20 and the clamp magnet block 21, the motor 28 stops, the magnetic plate electromagnet 66 is de-energized, and the magnetic plate 64 drives the teeth 67 to just abut against the stop rod 61 under the thrust of the magnetic plate spring 65.

The invention has the beneficial effects that: this device uses the rotation of carousel to drive anchor clamps and removes to the center to realize pressing from both sides tightly of different diameter electric wires, application scope is wider, through anchor clamps magnet piece and magnet piece, realizes the simultaneous movement of cutter and anchor clamps, prevents that the electric wire from being cut the section, reduces the waste of electric wire, and when using this device wire stripping, work efficiency improves greatly, has reduced workman's use amount, has also reduced workman injured hidden danger simultaneously.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (5)

1. The utility model provides a can be according to automatic wire stripping machine of wire diameter automatically regulated, includes the main tank body, its characterized in that: the main box body is internally provided with a cutting body cavity, the right side of the cutting body cavity is communicated with a working cavity with a rightward opening, the outer side of the working cavity is communicated with a cutting tool shaft cavity which is annularly arranged and communicated with the cutting body cavity leftwards, the upper side and the lower side of the working cavity are symmetrically communicated with a clamp shaft cavity communicated with the cutting tool shaft cavity leftwards, the left side of the cutting body cavity is communicated with a cutting body gear cavity, the left side of the cutting body gear cavity is communicated with a cutting body shaft cavity, the left side of the cutting body shaft cavity is communicated with a pull wire cavity, the lower side of the cutting body gear cavity is communicated with a transmission straight gear cavity, the left side of the transmission straight gear cavity is provided with a pull rod gear cavity positioned at the lower side of the pull wire cavity, the left side of the pull rod gear cavity is communicated with a slide block cavity, the lower side of the pull rod gear cavity is provided with a driven bevel gear, the right side of the transposition spring cavity is communicated with a transposition shaft cavity positioned on the lower side of the cutting tool shaft cavity, the right side of the transposition shaft cavity is communicated with a motor gear cavity, the motor gear cavity is communicated with the turntable cavity, the turntable cavity is internally and rotatably matched and connected with a turntable, the left end surface of the turntable is in threaded fit and connected with a clamp shaft which is symmetrically arranged up and down, the clamp shaft is in sliding fit connection with the clamp shaft cavity, the left end surface of the clamp shaft is fixedly connected with a clamp, the clamp is internally and fixedly connected with a clamp magnet block, the cutting body shaft cavity is in sliding fit and connected with a cutting body shaft which extends into the pull wire cavity leftwards and extends through the cutting body gear cavity to the cutting body cavity rightwards, the tail end of the left side of the cutting body shaft is in rotating fit and connected with a pull wire plate, and the cutting body shaft gear which is positioned in the cutting body gear cavity and is in sliding fit connection with the cutting body gear cavity is, the cutting body shaft right side end fixed connection is equipped with the cutting body.

2. The automatic wire stripping machine capable of automatically adjusting according to the diameter of the electric wire as claimed in claim 1, wherein: the cutting body is connected with the cutting body cavity in a sliding fit manner, a cutting shaft spring cavity which runs through left and right and is arranged in an up-down symmetrical manner by taking the cutting body shaft as a center is arranged in the cutting body, magnetic plate cavities which are symmetrically arranged are arranged on the front side and the rear side of the cutting shaft spring cavity, magnetic plates are arranged in the magnetic plate cavities in a sliding fit manner, a magnetic plate electromagnet is fixedly connected in the right end wall of the magnetic plate cavity, magnetic plate springs which are symmetrically arranged by taking the magnetic plate electromagnet as a center are fixedly connected between the right end wall of the magnetic plate cavity and the right end face of the magnetic plate, a plurality of teeth are fixedly connected on the left end face of the magnetic plate, a cutting shaft which extends rightwards into the cutting tool shaft cavity and leftwards into the cutting body cavity is arranged in a sliding fit manner, a cutter positioned in the tool shaft cavity is arranged on the cutting shaft side end face of the cutting body in a fixed connection manner, the cutting axle is close to cut body axis side end face with cutting axle spring chamber is close to fixed connection is equipped with the cutting axle spring between the cutting body axle side end wall, cutting axle internal fixation is equipped with and is located cutting body intracavity and to keeping away from cutting axle side extends to and adjacent two the shelves pole of tooth butt.

3. The automatic wire stripping machine capable of automatically adjusting according to the diameter of the electric wire as claimed in claim 1, wherein: the utility model discloses a slide block, including pull rod gear cavity, pull rod gear shaft, slider intracavity sliding fit, slider right-hand member face fixed connection, slider axle and pull rod, the end internal rotation fit connection of pull rod gear cavity lower extreme is equipped with upwards extends to pull rod gear intracavity and downwardly extending to the pull rod gear shaft of driven helical gear intracavity, the terminal fixed connection of pull rod gear shaft upside is equipped with the pull rod gear, pull rod gear up end fixed connection is equipped with the pull rod axle, the epaxial up end rotating fit of pull rod connects to be equipped with and extends to left the pull rod of slider intracavity, slider intracavity sliding fit connects to be equipped with the slider, slider right-hand member face fixed connection is equipped with the slider axle, the slider axle with it.

4. The automatic wire stripping machine capable of automatically adjusting according to the diameter of the electric wire as claimed in claim 1, wherein: the inner rotating fit connection of the right end wall of the driven bevel gear cavity is provided with a transmission straight gear shaft which extends leftwards into the driven bevel gear cavity and rightwards into the transmission straight gear cavity, the terminal fixed connection of the left side of the transmission straight gear shaft is provided with a transmission bevel gear engaged with the driven bevel gear, the terminal fixed connection of the right side of the transmission straight gear shaft is provided with a transmission straight gear, the inner rotating fit connection of the left end wall of the transmission straight gear cavity is provided with a driven gear shaft which extends rightwards into the transmission straight gear cavity, the terminal fixed connection of the right side of the driven gear shaft is provided with a driven gear which can be engaged with the shaft gear of the cutting body, the inner rotating fit connection of the right end wall of the transmission straight gear cavity is provided with a half gear shaft which extends leftwards into the transmission straight gear cavity and extends rightwards into the transmission straight gear cavity, the terminal fixed connection of the left side, and the tail end of the right side of the half gear shaft is fixedly connected with a driven spur gear.

5. The automatic wire stripping machine capable of automatically adjusting according to the diameter of the electric wire as claimed in claim 1, wherein: the transposition shaft is arranged in the transposition shaft cavity in a sliding fit connection mode, the transposition shaft extends into the motor gear cavity rightwards and extends through the transmission gear cavity leftwards to the transposition spring cavity, the right end of the transposition shaft is fixedly connected with a transposition gear, the transposition shaft is fixedly connected with a transmission gear which is positioned in the transmission gear cavity and meshed with the driven spur gear, the left end of the transposition shaft is rotatably matched and connected with a transposition magnet, the left end wall of the transposition spring cavity is fixedly connected with a transposition electromagnet, the right end face of the transposition electromagnet is fixedly connected with a transposition spring, the left end face of the transposition magnet is fixedly connected with a transposition spring, the left side of the motor gear cavity is provided with a motor which is fixedly connected with the main box body and positioned at the lower side of the transposition shaft cavity, the right end face of the motor is fixedly connected with a motor shaft, and the right end of the, the motor gear chamber right side wall internal rotation cooperation is connected and is equipped with driven spur gear axle, driven spur gear axle left side end fixed connection be equipped with can with transposition gear meshing and with carousel meshed driven spur gear.

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