CN112271651A - Wire stripping device suitable for multiple diameter old and useless cable - Google Patents

Abstract

The invention relates to the field of related cables, and discloses a wire stripping device suitable for waste cables with various diameters, which comprises a main box body, wherein a feeding cavity is arranged in the main box body in a left-right through mode, the upper side and the lower side of the feeding cavity are respectively communicated with a conveying wheel cavity which is symmetrical up and down by taking the feeding cavity as a center, a cutter cavity is arranged on the right side of the conveying wheel cavity, a separation cutter cavity is arranged on the right side of the cutter cavity, insulating rubber of cables can be cut from two sides by a cutter arranged up and down, so that the separation cutter on the right side of the cutter can smoothly separate the insulating rubber from the front side and the rear side, manual stripping is avoided, labor consumption is greatly saved, the operation safety of operators is ensured, and the cutter can automatically stop when being abutted to a lead, so that the loss of the cutting edge of the cutter is reduced in stripping operation engineering, the service life of the device, The cutter and the separating cutter can be suitable for stripping cables with various diameters.

Description

Wire stripping device suitable for multiple diameter old and useless cable

Technical Field

The invention relates to the related field of cables, in particular to a wire stripping device suitable for waste cables with various diameters.

Background

The cable refers to one or more mutually insulated conductors and a conducting wire coated with an insulating protective layer, electric power or information is transmitted from one place to another place, stripping operation of metal conducting wires of cables with large diameters is particularly difficult in waste cable recovery processing, an existing cable stripping device is generally formed by cutting the insulating protective layer through the device and manually stripping the metal conducting wires, a large amount of manpower is needed for stripping, and personnel are easily injured if the operation is not proper in the stripping process.

Disclosure of Invention

The invention aims to provide a wire stripping device suitable for waste cables with various diameters, which can overcome the defects in the prior art, so that the practicability of equipment is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a wire stripping device suitable for waste cables with various diameters, which comprises a main box body, wherein a feeding cavity is arranged in the main box body in a left-right through way, the upper side and the lower side of the feeding cavity are respectively communicated with a conveying wheel cavity which is symmetrical up and down by taking the feeding cavity as a center, a cutter cavity is arranged at the right side of the conveying wheel cavity, a separation cutter cavity is arranged at the right side of the cutter cavity, a cutter transmission cavity is arranged at the side of the cutter cavity far away from the feeding cavity, a synchronous pulley cavity is arranged at the side of the cutter transmission cavity far away from the feeding cavity, a right lifting rod cavity extending through the cutter transmission cavity and the right sliding spur gear to the side of the synchronous pulley cavity far away from the feeding cavity is communicated with the side, a right lifting rod cavity extending through the synchronous pulley cavity to the side of the synchronous pulley cavity far away from the feeding cavity is arranged at the side of the separation cutter cavity far away from the feeding cavity, the left lifting rod is connected with a left lifting rod which is close to the feeding cavity in a sliding fit mode and extends to the side direction of the cutting cavity, the left lifting rod is close to the cutting knife which is fixedly connected with the side end face of the feeding cavity in a sliding fit mode, the right lifting rod is connected with a left lifting rod which is close to the feeding cavity in a sliding fit mode and extends to the side direction of the feeding cavity in a sliding fit mode, a wheel shaft sliding cavity is arranged on the rear side of the conveying wheel cavity in a communicating mode, a wheel shaft seat sliding cavity is arranged on the rear side of the wheel shaft sliding cavity in a communicating mode, a gear transmission cavity is arranged on the upper side of the wheel shaft seat sliding cavity, the front side and the rear side of the feeding cavity are communicated with the feeding cavity, the feeding cavity is symmetrical around the center and is provided with openings, a rubber conveying cavity is arranged on.

On the basis of the technical scheme, a wheel axle seat is connected in the wheel axle seat sliding cavity in a sliding fit manner, a wheel axle seat spring is fixedly connected between the end surface of the side, away from the feeding cavity, of the wheel axle seat and the end surface of the side, away from the feeding cavity, of the wheel axle seat sliding cavity, a conveying wheel axle extending forwards through the wheel axle sliding cavity to the conveying wheel cavity is connected in the wheel axle seat in a rotating fit manner, a conveying wheel is fixedly connected at the front end of the conveying wheel axle, a wheel axle seat pull rope is fixedly connected at the lower end of the wheel axle seat, a slider pull rope is also fixedly connected at the lower end of the wheel axle seat, a magnetic slider cavity is arranged at the front end of the conveying wheel cavity at the lower end, an electromagnet is fixedly connected on the lower end wall of the magnetic slider cavity, a magnetic slider is connected in the magnetic, the slider stay cord other end with terminal surface fixed connection under the magnetism slider, terminal surface still fixedly connected with slip gear stay cord, upside under the magnetism slider axle bed slip chamber upper end wall normal running fit is connected with and upwards extends to run through the gear drive chamber extremely downward extension in the gear drive chamber upper end wall the conveying wheel transmission shaft of the slip intracavity of axle bed, fixedly connected with is located on the conveying wheel transmission shaft the left straight-teeth gear of gear drive intracavity.

On the basis of the technical scheme, the inner rotation fit of the end wall of the gear transmission cavity is connected with a cutter transmission cavity to the lower side, the cutter transmission cavity extends upwards to a belt wheel transmission shaft in the gear transmission cavity, the tail end of the upper side of the belt wheel transmission shaft is fixedly connected with a right straight gear, the upper side of the belt wheel transmission shaft is fixedly connected with a cutter driving belt wheel in the cutter transmission cavity, the lower side of the gear transmission cavity is provided with a motor fixedly connected with the main box body, the motor is positioned between the conveying wheel transmission shaft and the belt wheel transmission shaft, the upper end surface of the motor is fixedly connected with a motor shaft which extends upwards to the gear transmission cavity, the upper side of the motor shaft is in spline fit connection with a sliding gear shaft sleeve in the gear transmission cavity, and the tail end of the upper side of the, the end of the lower side of the sliding gear shaft sleeve is connected with a shaft sleeve seat in a rotating fit mode, a motor shaft through cavity which is communicated up and down is arranged in the shaft sleeve seat, the motor shaft penetrates through the motor shaft through cavity, a shaft sleeve seat pull rope is fixedly connected between the lower end face of the shaft sleeve seat and the lower end wall of the gear transmission cavity, and the other end of the sliding gear pull rope is fixedly connected with the lower end face of the shaft sleeve seat.

On the basis of the technical scheme, a right sliding gear cavity is communicated and arranged on the right side of the gear transmission cavity, a right sliding gear shaft which extends upwards into the right sliding gear cavity is connected to the lower end wall of the right sliding gear cavity in a rotating fit manner, a one-way bearing is connected to the right sliding gear shaft in a spline fit manner, a right sliding straight gear which can be meshed with the right straight gear is fixedly connected to the one-way bearing, a one-way bearing spring is fixedly connected between the lower end surface of the one-way bearing and the lower end wall of the right sliding gear cavity, the other end of the axle seat stay cord is fixedly connected with the lower end surface of the one-way bearing, a torsional spring is fixedly connected between the upper end surface of the belt wheel transmission shaft and the upper end wall of the gear transmission cavity, a cutter driven belt wheel which is positioned in the cutter transmission cavity is connected to the left lifting rod in a threaded fit manner, the utility model discloses a synchronous belt wheel, including cutter driven pulley, pay-off chamber, lifting rod, synchronous pulley intracavity, synchronous driven pulley and power fit between the synchronous pulley is connected with synchronous driving belt.

On the basis of the technical scheme, a transmission shaft cavity with a downward opening is arranged in the transmission shaft of the conveying wheel, the inner spline of the transmission shaft cavity is connected with a separation knife cavity which extends downwards into the sliding cavity of the axle seat, the separation cutter cavity is positioned on the upper side of the upper side conveying wheel shaft, the upper side conveying wheel shaft is fixedly connected with a driven bevel gear positioned in the wheel shaft seat sliding cavity, the tail end of the lower side of the separation cutter cavity is fixedly connected with a driving bevel gear meshed with the driven bevel gear, the upper end surface of the driving bevel gear is fixedly connected with a bevel gear fixing block, the tail end of the upper side of the bevel gear fixing block is connected with a fixing block rotating seat in a rotating fit manner, a transmission shaft through cavity which is communicated up and down is arranged in the fixed block rotating seat, the separation knife cavity is communicated with the transmission shaft through cavity, and a bevel gear spring is fixedly connected between the upper end surface of the fixed block rotating seat and the upper end wall of the wheel axle seat sliding cavity.

The invention has the beneficial effects that: the cutter that sets up from top to bottom makes cable insulation rubber can open insulation rubber from both sides, thereby make the separation sword on cutter right side can be smoothly separately insulation rubber in the past back both sides, thereby it peels off to have avoided the manual work, the consumption of manpower has been saved greatly, operating personnel's operational safety has been guaranteed simultaneously, simultaneously the cutter can automatic shutdown when butt to wire, make the loss of the cutting edge that reduces the cutter in the operation engineering of peeling off, greatly increased device's life, the delivery wheel that can reciprocate, cutter and separation sword make the cable wire stripping operation of applicable and multiple diameter of device.

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.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structure diagram of a wire stripping device suitable for waste cables with various diameters.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is a schematic diagram of the structure C-C in fig. 2.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 2.

FIG. 7 is a schematic view of the structure of F-F in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: 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.

With reference to fig. 1-7, the wire stripping device suitable for various diameters of waste cables comprises a main box body 10, a feeding cavity 22 is formed in the main box body 10 in a left-right through mode, the upper side and the lower side of the feeding cavity 22 are communicated with a conveying wheel cavity 11 which is vertically symmetrical with the feeding cavity 22 as a center, a cutter cavity 19 is arranged on the right side of the conveying wheel cavity 11, a separation cutter cavity 17 is arranged on the right side of the cutter cavity 19, the cutter cavity 19 is far away from the feeding cavity 22 side and is provided with a cutter transmission cavity 41, the cutter transmission cavity 41 is far away from the feeding cavity 22 side and is provided with a synchronous pulley cavity 61, the cutter cavity 19 is far away from the feeding cavity 22 side and is communicated with a left lifting rod cavity 12 which is arranged in the feeding cavity 22 side end wall and is far away from the feeding cavity 22 side direction, the cutter transmission cavity 41 is extended through the right sliding straight gear 51 to the synchronous pulley cavity 61, the separation cutter cavity 17 is far away from the feeding cavity 22 side and is communicated with a left lifting rod cavity 12 which is arranged in the A right lifting rod cavity 14 extending through the synchronous pulley cavity 61 to the synchronous pulley cavity 61 and far away from the side end wall of the feeding cavity 22, a left lifting rod 13 extending to the direction close to the side of the feeding cavity 22 and far away from the side end wall of the cutter cavity 19 is connected in a sliding fit manner in the left lifting rod cavity 12, a cutter 20 connected with the cutter cavity 19 in a sliding fit manner is fixedly connected to the end face of the left lifting rod 13 close to the side of the feeding cavity 22, a separating cutter 16 extending to the direction close to the side of the feeding cavity 22 and far away from the side of the separating cutter cavity 17 is connected in the right lifting rod cavity 14 in a sliding fit manner, a pulley shaft sliding cavity 25 is communicated with the rear side of the conveying pulley cavity 11, a pulley shaft seat sliding cavity 36 is communicated with the rear side of the pulley shaft sliding cavity 25, a gear transmission cavity 37 is arranged on the upper side of the pulley shaft seat sliding cavity 36, and rubber conveying cavities 18 which are symmetrical front and back by taking the feeding cavity 22 as a center and have openings far away from the side of the, the rubber conveying chamber 18 is located at the lower side of the separating knife chamber 17.

In addition, in one embodiment, a wheel axle seat 35 is connected in the wheel axle seat sliding cavity 36 in a sliding fit manner, a wheel axle seat spring 34 is fixedly connected between the end surface of the wheel axle seat 35 far away from the feeding cavity 22 and the end wall of the wheel axle seat sliding cavity 36 far away from the feeding cavity 22, a conveying wheel axle 21 extending forwards through the wheel axle sliding cavity 25 to the conveying wheel cavity 11 is connected in the wheel axle seat 35 in a rotating fit manner, a conveying wheel 23 is fixedly connected at the front end of the conveying wheel axle 21, a wheel axle seat pull rope 33 is fixedly connected at the lower end surface of the wheel axle seat 35 at the lower side, a slider pull rope 31 is further fixedly connected at the lower end surface of the wheel axle seat 35 at the lower side, a magnetic slider cavity 26 is arranged at the front side of the conveying wheel cavity 11 at the lower side, an electromagnet 29 is fixedly connected at the lower end wall of the magnetic, terminal surface under the magnetism slider 27 with fixedly connected with slider spring 28 between the electro-magnet 29 up end, the slider stay cord 31 other end with terminal surface fixed connection under the magnetism slider 27, the terminal surface still fixedly connected with slip gear stay cord 30 under the magnetism slider 27, the upside the gear shaft seat slides 36 upper end walls normal running fit and is connected with and upwards extends and runs through gear drive chamber 37 extremely downwardly extending in the gear drive chamber 37 upper end walls the conveyor wheel transmission shaft 24 in the gear shaft seat slides the chamber 36, fixedly connected with is located on the conveyor wheel transmission shaft 24 left straight gear 38 in the gear drive chamber 37.

In addition, in one embodiment, the inner wall of the lower end of the gear transmission cavity 37 is connected with a pulley transmission shaft 43 which extends downwards to penetrate through the upper side of the cutter transmission cavity 41 to the lower side of the lower end of the cutter transmission cavity 41, the inner side of the cutter transmission cavity 41 extends upwards to the gear transmission cavity 37, the upper end of the pulley transmission shaft 43 is fixedly connected with a right straight gear 44, the pulley transmission shaft 43 is fixedly connected with a cutter driving pulley 42 which is located in the cutter transmission cavity 41, the lower side of the gear transmission cavity 37 is provided with a motor 55 which is fixedly connected with the main box body 10, the motor 55 is located between the conveying wheel transmission shaft 24 and the pulley transmission shaft 43, the upper end face of the motor 55 is fixedly connected with a motor shaft 47 which extends upwards to the gear transmission cavity 37, and the motor shaft 47 is connected with a sliding gear shaft sleeve 46 which is located, the terminal fixedly connected with slip straight-teeth gear 45 of slip gear shaft sleeve 46 upside, the terminal normal running fit of slip gear shaft sleeve 46 downside is connected with shaft sleeve seat 48, be equipped with motor shaft logical chamber 59 that link up from top to bottom in the shaft sleeve seat 48, motor shaft 47 runs through motor shaft logical chamber 59, terminal surface under the shaft sleeve seat 48 with fixedly connected with shaft sleeve seat stay cord 57 between the terminal wall under the gear drive chamber 37, the slip gear stay cord 30 other end with terminal surface fixed connection under the shaft sleeve seat 48.

In addition, in an embodiment, a right sliding gear cavity 71 is communicated with the right side of the gear transmission cavity 37, a right sliding gear shaft 54 extending upwards into the right sliding gear cavity 71 is connected to the lower end wall of the right sliding gear cavity 71 in a rotationally-matched manner, a one-way bearing 50 is connected to the right sliding gear shaft 54 in a spline-matched manner, a right sliding spur gear 51 capable of being meshed with the right spur gear 44 is fixedly connected to the one-way bearing 50, a one-way bearing spring 53 is fixedly connected between the lower end face of the one-way bearing 50 and the lower end wall of the right sliding gear cavity 71, the other end of the pulley seat pull rope 33 is fixedly connected to the lower end face of the one-way bearing 50, a 49 torsion spring is fixedly connected between the upper end face of the pulley transmission shaft 43 and the upper end wall of the gear transmission cavity 37, and a cutter driven pulley 66 located in the cutter transmission cavity 41 is, cutter driven pulley 66 with power fit is connected with cutter driving belt 40 between the cutter driving pulley 42, cutter driven pulley 66 keeps away from pay-off chamber 22 side end face fixedly connected with band pulley connecting block 64, be equipped with the lifter logical chamber 65 that link up from top to bottom in the band pulley connecting block 64, the lifter leads to the chamber 65 and keeps away from pay-off chamber 22 side direction end face fixedly connected with is located in hold-in range pulley chamber 61 and with the synchronous pulley 60 that left lifter 13 screw-thread fit is connected, screw-thread fit is connected with on the right lifter 15 and is located the synchronous driven pulley 63 in hold-in range pulley chamber 61, synchronous driven pulley 63 with power fit is connected with synchronous drive belt 62 between the synchronous pulley 60.

In addition, in an embodiment, a transmission shaft cavity 56 with a downward opening is arranged in the transmission shaft 24 of the conveying wheel, a separation knife cavity 17 extending downwards into the wheel axle seat sliding cavity 36 is connected in the transmission shaft cavity 56 in a spline fit manner, the separation knife cavity 17 is located at the upper side of the transmission wheel axle 21, a driven bevel gear 67 located in the wheel axle seat sliding cavity 36 is fixedly connected to the upper side of the transmission wheel axle 21, a driving bevel gear 68 engaged with the driven bevel gear 67 is fixedly connected to the lower end of the separation knife cavity 17, a bevel gear fixing block 58 is fixedly connected to the upper end surface of the driving bevel gear 68, a fixing block rotating seat 69 is rotatably connected to the upper end of the bevel gear fixing block 58 in a fit manner, a transmission shaft through cavity 52 which is through from top to bottom is arranged in the fixing block rotating seat 69, the separation knife cavity 17 penetrates through the transmission shaft through cavity 52, and a cone is fixedly connected between the upper end surface of the A gear spring 70.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-7, when the device of the present invention is in an initial state, the end surface of the axle seat 35 near the feeding cavity 22 is attached to the end wall of the axle seat sliding cavity 36 near the feeding cavity 22, the axle seat spring 34 is in a compressed state, the slide block pull rope 31 and the axle seat pull rope 33 are in a tightened state, the slide block spring 28 is in a compressed state, the slide gear pull rope 30 is in a tightened state, the slide spur gear 45 is engaged with the left spur gear 38, the right slide spur gear 51 is positioned at the lower side of the right spur gear 44, the right slide spur gear 51 is not engaged with the right spur gear 44, the one-way bearing spring 53 is in a compressed state, the torsion spring 49 is in a relaxed state, the bevel gear spring 70 is in a compressed state, and the driving bevel gear 68 is always; sequence of mechanical actions of the whole device: at the start of operation, motor 55 is started to drive motor shaft 47 to rotate, thereby causing sliding gear sleeve 46 to rotate, thereby driving left spur gear 38 to rotate, thereby causing transfer wheel drive shaft 24 to rotate, thereby driving separator chamber 17 to rotate, thereby driving bevel gear fixing block 58 to rotate, thereby causing drive bevel gear 68 to rotate, thereby driving driven bevel gear 67 to rotate, thereby causing upper side transfer wheel shaft 21 to rotate, thereby driving upper side transfer wheel 23 to rotate. Waste cables enter the feeding cavity 22 from the left side, the conveying wheel 23 rotates to drive the cables to move rightwards, meanwhile, the cables stretch the conveying wheel 23 from the upper side and the lower side, so that the conveying wheel shaft 21 moves towards the direction far away from the feeding cavity 22, so that the wheel shaft seat 35 moves towards the direction far away from the feeding cavity 22, so that the wheel shaft seat pull rope 33 and the sliding block pull rope 31 are loosened, the sliding block pull rope 31 is loosened to enable the magnetic sliding block 27 to move upwards under the elastic action of the sliding block spring 28, so that the sliding gear pull rope 30 is pulled, so that the shaft sleeve seat 48 moves downwards, so that the sliding gear shaft sleeve 46 is driven to move downwards, so that the sliding spur gear 45 moves downwards to be disengaged from the left spur gear 38 and to be engaged with the right spur gear 44, at the moment, the left spur gear 38 stops rotating, the conveying wheel 23 drives the cables to just move to the cutter 20 at the, so that the one-way bearing 50 moves upward by the elastic force of the one-way bearing spring 53, thereby driving the right sliding spur gear 51 to move upward to be engaged with the right spur gear 44; at this time, the sliding spur gear 45 rotates to drive the right spur gear 44 to rotate, so that the belt wheel transmission shaft 43 rotates, the belt wheel transmission shaft 43 rotates to twist the torsion spring 49 and simultaneously drive the cutter driving belt wheel 42 to rotate, the cutter driven belt wheel 66 is driven to rotate by the cutter transmission belt 40, so that the belt wheel connection block 64 is driven to rotate, so that the synchronous belt wheels 60 simultaneously rotate, the synchronous driven belt wheel 63 is driven to rotate by the synchronous transmission belt 62, the synchronous driven belt wheel 63 rotates to drive the right lifting rod 15 to move downwards, so that the separation cutter 16 moves downwards, and the cutter driven belt wheel 66 rotates to drive the left lifting rod 13 to move downwards, so that the cutter 20 moves towards the side close to the feeding cavity 22, when the cutter 20 moves to cut the cable external insulation rubber to touch the internal lead, the power is supplied between the cutters 20 on the upper and lower sides, so that the electromagnet 29 is electrified to attract the magnetic slider 27, therefore, the sliding gear pull rope 30 and the sliding block pull rope 31 are loosened, the sliding gear pull rope 30 is loosened to enable the sliding straight gear 45 to move upwards to be meshed with the left straight gear 38 and be disengaged from the right straight gear 44, the right sliding straight gear 51 can only rotate in a single direction, the right straight gear 44 cannot rotate reversely under the torsion action of the torsion spring 49 temporarily, the cutter 20 is just abutted to the outer circular surface of the lead, the cutter 20 can just cut the cable insulation rubber, and the end face, close to the side end face of the feeding cavity 22, of the separation cutter 16 is just abutted to the outer circular surface of the lead; at this time, the sliding gear sleeve 46 rotates to drive the left spur gear 38 to rotate again, so that the conveying wheel 23 drives the cable to move rightwards, the cutter 20 cuts the insulating rubber of the cable, the separating cutter 16 separates the cut insulating rubber, the separated insulating rubber moves to the outside from the rubber conveying cavities 18 on the front side and the rear side respectively, the stripped conducting wire is conveyed out from the right side of the feeding cavity 22, after a section of cable is stripped, because the conveying wheels 23 on the upper side and the lower side lose cable support, the axle seat 35 moves towards the side close to the feeding cavity 22 under the elastic force of the axle seat spring 34, the axle seat pull rope 33 and the sliding block pull rope 31 are pulled, the axle seat pull rope 33 is pulled to enable the right sliding spur gear 51 to move downwards to be disengaged from the right spur gear 44, the right spur gear 44 rotates reversely under the torsion force of the torsion spring 49, and the cutter 20 and the separating cutter 16 are driven to move upwards to the initial position, the device returns to the initial state and waits for the next stripping operation.

The invention has the beneficial effects that: the cutter that sets up from top to bottom makes cable insulation rubber can open insulation rubber from both sides, thereby make the separation sword on cutter right side can be smoothly separately insulation rubber in the past back both sides, thereby it peels off to have avoided the manual work, the consumption of manpower has been saved greatly, operating personnel's operational safety has been guaranteed simultaneously, simultaneously the cutter can automatic shutdown when butt to wire, make the loss of the cutting edge that reduces the cutter in the operation engineering of peeling off, greatly increased device's life, the delivery wheel that can reciprocate, cutter and separation sword make the cable wire stripping operation of applicable and multiple diameter of device.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a wire stripping device suitable for old and useless cable of multiple diameter, includes the main tank body, its characterized in that: the main box body is internally provided with a feeding cavity in a left-right through mode, the upper side and the lower side of the feeding cavity are communicated with a conveying wheel cavity which is symmetrical up and down by taking the feeding cavity as a center, the right side of the conveying wheel cavity is provided with a cutter cavity, the right side of the cutter cavity is provided with a separating cutter cavity, the cutter cavity is far away from the feeding cavity side and is provided with a cutter transmission cavity, the cutter transmission cavity is far away from the feeding cavity side and is provided with a synchronous pulley cavity extending and penetrating through the cutter transmission cavity in the direction of keeping away from the feeding cavity side, a right sliding straight gear is far away from the synchronous pulley cavity and is far away from a left lifting rod cavity in the end wall of the feeding cavity side, the separating cutter cavity is far away from the feeding cavity side and is provided with a right lifting rod cavity extending and penetrating through the synchronous pulley cavity in the direction of keeping away from the feeding cavity side, the left lifting rod is connected with a left lifting rod which is close to the feeding cavity in a sliding fit mode and extends to the side direction of the cutting cavity, the left lifting rod is close to the cutting knife which is fixedly connected with the side end face of the feeding cavity in a sliding fit mode, the right lifting rod is connected with a left lifting rod which is close to the feeding cavity in a sliding fit mode and extends to the side direction of the feeding cavity in a sliding fit mode, a wheel shaft sliding cavity is arranged on the rear side of the conveying wheel cavity in a communicating mode, a wheel shaft seat sliding cavity is arranged on the rear side of the wheel shaft sliding cavity in a communicating mode, a gear transmission cavity is arranged on the upper side of the wheel shaft seat sliding cavity, the front side and the rear side of the feeding cavity are communicated with the feeding cavity, the feeding cavity is symmetrical around the center and is provided with openings, a rubber conveying cavity is arranged on.

2. The wire stripping device suitable for waste cables with various diameters as claimed in claim 1, characterized in that: a wheel axle seat is connected in the wheel axle seat sliding cavity in a sliding fit manner, a wheel axle seat spring is fixedly connected between the side end surface of the wheel axle seat far away from the feeding cavity and the side end wall of the wheel axle seat sliding cavity far away from the feeding cavity, a conveying wheel axle extending forwards through the wheel axle sliding cavity to the conveying wheel cavity is connected in the wheel axle seat in a rotating fit manner, a conveying wheel is fixedly connected at the front end of the conveying wheel axle, a wheel axle seat pull rope is fixedly connected at the lower end of the wheel axle seat, a slider pull rope is also fixedly connected at the lower end of the wheel axle seat, a magnetic slider cavity is arranged at the front end of the conveying wheel cavity at the lower side, an electromagnet is fixedly connected at the lower end wall of the magnetic slider cavity, a magnetic slider is connected in the magnetic slider cavity in a sliding fit manner, a slider spring is fixedly connected between the lower end surface of, the magnetic sliding block lower end face is fixedly connected with a sliding gear pull rope, the upper side is connected with an upward extending part through the upper end wall of the sliding cavity of the wheel axle seat in a rotating fit mode, the gear transmission cavity extends to the upper end wall of the gear transmission cavity and extends downwards to a conveying wheel transmission shaft in the sliding cavity of the wheel axle seat, and the conveying wheel transmission shaft is fixedly connected with a left straight gear in the gear transmission cavity.

3. The wire stripping device suitable for waste cables with various diameters as claimed in claim 1, characterized in that: the inner rotary fit of the end wall of the lower end of the gear transmission cavity is connected with a belt wheel transmission shaft which extends downwards to penetrate through the upper side, the cutter transmission cavity extends upwards to the lower side, the cutter transmission cavity extends upwards to the gear transmission cavity, the tail end of the upper side of the belt wheel transmission shaft is fixedly connected with a right straight gear, the upper end of the belt wheel transmission shaft is fixedly connected with a cutter driving belt wheel which is positioned in the cutter transmission cavity, the lower side of the gear transmission cavity is provided with a motor which is fixedly connected with the main box body, the motor is positioned between the conveying wheel transmission shaft and the belt wheel transmission shaft, the upper end surface of the motor is fixedly connected with a motor shaft which extends upwards to the gear transmission cavity, the upper end of the motor shaft is connected with a sliding gear shaft sleeve which is positioned in the gear transmission cavity in a spline fit manner, a motor shaft through cavity which is communicated up and down is arranged in the shaft sleeve seat, the motor shaft penetrates through the motor shaft through cavity, a shaft sleeve seat pull rope is fixedly connected between the lower end face of the shaft sleeve seat and the lower end wall of the gear transmission cavity, and the other end of the sliding gear pull rope is fixedly connected with the lower end face of the shaft sleeve seat.

4. The wire stripping device suitable for waste cables with various diameters as claimed in claim 1, characterized in that: the right side of the gear transmission cavity is communicated with a right sliding gear cavity, the inner rotary fit of the lower end wall of the right sliding gear cavity is connected with a right sliding gear shaft which extends upwards into the right sliding gear cavity, the upper spline of the right sliding gear shaft is connected with a one-way bearing, the upper end of the one-way bearing is fixedly connected with a right sliding straight gear which can be meshed with the right straight gear, a one-way bearing spring is fixedly connected between the lower end surface of the one-way bearing and the lower end wall of the right sliding gear cavity, the other end of the axle seat stay cord is fixedly connected with the lower end surface of the one-way bearing, a torsional spring is fixedly connected between the upper end surface of the belt wheel transmission shaft and the upper end wall of the gear transmission cavity, the upper thread of the left lifting rod is connected with a cutter driven belt wheel which is positioned in the cutter transmission cavity in, the utility model discloses a synchronous belt wheel, including cutter driven pulley, pay-off chamber, lifting rod, synchronous pulley intracavity, synchronous driven pulley and power fit between the synchronous pulley is connected with synchronous driving belt.

5. The wire stripping device suitable for waste cables with various diameters as claimed in claim 2, characterized in that: a transmission shaft cavity with a downward opening is arranged in the transmission shaft of the conveying wheel, a separation knife cavity extending downwards into the sliding cavity of the wheel shaft seat is connected in the transmission shaft cavity in a spline fit manner, the separation cutter cavity is positioned on the upper side of the upper side conveying wheel shaft, the upper side conveying wheel shaft is fixedly connected with a driven bevel gear positioned in the wheel shaft seat sliding cavity, the tail end of the lower side of the separation cutter cavity is fixedly connected with a driving bevel gear meshed with the driven bevel gear, the upper end surface of the driving bevel gear is fixedly connected with a bevel gear fixing block, the tail end of the upper side of the bevel gear fixing block is connected with a fixing block rotating seat in a rotating fit manner, a transmission shaft through cavity which is communicated up and down is arranged in the fixed block rotating seat, the separation knife cavity is communicated with the transmission shaft through cavity, and a bevel gear spring is fixedly connected between the upper end surface of the fixed block rotating seat and the upper end wall of the wheel axle seat sliding cavity.

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