CN220711011U - Rotary power cable stripping tool - Google Patents

Abstract

A rotary power cable stripping tool comprises a box body and a stripping mechanism; the inner wall of one side of the box body is provided with a first blind hole, one side of the inner wall of the box body, which is opposite to the first blind hole, is provided with a second blind hole concentric with the first blind hole, and the second blind hole is concentrically provided with a cable inlet hole; the peeling mechanism comprises a front end rotating part, a rear end rotating part and peeling rollers; the front end rotating part comprises a front end outer gear ring fixed in the first blind hole, a front end central wheel concentric with the front end outer gear ring, and a front end travelling wheel meshed with the inner wall of the front end outer gear ring and the outer wall of the front end central wheel; the rear end rotating part comprises a rear end outer gear ring fixed in the second blind hole, a rear end central gear ring concentric with the rear end outer gear ring, and rear end travelling wheels meshed with the inner wall of the rear end outer gear ring and the outer wall of the rear end central gear ring; the two ends of the peeling roller are respectively connected with the front end travelling wheel and the rear end travelling wheel by keys, so that the peeling roller encloses a channel for the cable to enter. The utility model only needs one person to operate, and can save manpower.

Description

Rotary power cable stripping tool

Technical Field

The utility model relates to the technical field of power auxiliary tools, in particular to a rotary power cable stripping tool.

Background

When an electrician installs or overhauls a power cable, the insulation layer covered on the outer surface of the cable is required to be stripped for connection of lines, the traditional cable stripping tool is used for stripping by using tools such as an electrician knife, a hook knife or a wallpaper knife, and the like.

Aiming at the technical problems, the utility model patent with the publication number of CN105633863B discloses a cable stripper and a stripping method thereof, which can be applicable to cables with various wire diameters and can realize circumferential and axial stripping; however, when the cable stripper is actually used on site, two persons are still required to cooperate, and an external force is applied to the cable stripper in a manual force application mode to strip the cable, so that certain stripping efficiency can be maintained under the condition that the physical strength of the person is abundant, and the whole engineering rhythm can be dragged down once the physical strength of the person is reduced; not only consuming manpower, but also prolonging the time of installation or maintenance.

Disclosure of Invention

In order to solve the technical problems in the above-mentioned technology, it is necessary to provide a rotary power cable stripping tool.

A rotary power cable stripping tool comprises a box body and a stripping mechanism;

the inner wall surface of one side of the box body is provided with a first blind hole, the first blind hole is concentrically provided with a through hole communicated with the outside of the box body, the surface of one side of the inner wall of the box body, which is opposite to the first blind hole, is provided with a second blind hole, the second blind hole is concentric with the first blind hole, and the second blind hole is concentrically provided with a cable inlet hole communicated with the outside of the box body;

the peeling mechanism comprises a front end rotating part, a rear end rotating part and peeling rollers;

the front end rotating part comprises a front end outer gear ring, a front end central wheel and a front end travelling wheel; the front end outer gear ring is fixed in the first blind hole, the front end central wheel is rotationally arranged in the first blind hole, the front end central wheel is concentric with the front end outer gear ring, the diameter of the front end central wheel is smaller than that of the front end outer gear ring, the front end travelling wheels are uniformly distributed along the circumferential direction of the front end outer gear ring, and the front end travelling wheels are respectively meshed with the inner wall of the front end outer gear ring and the outer wall of the front end central wheel correspondingly;

the rear end rotating part comprises a rear end outer gear ring, a rear end central gear ring and a rear end travelling wheel; the rear end outer gear ring is fixed in the second blind hole, the rear end central gear ring is concentric with the rear end outer gear ring, the diameter of the rear end central gear ring is smaller than that of the rear end outer gear ring, the rear end travelling wheels are uniformly distributed along the circumferential direction of the rear end outer gear ring, and the rear end travelling wheels are respectively meshed with the inner wall of the rear end outer gear ring and the outer wall of the rear end central gear ring correspondingly;

the two ends of the peeling roller are respectively connected with the front end travelling wheel and the rear end travelling wheel in a key manner, and each peeling roller encloses a channel capable of being accessed by a cable.

Preferably, a spiral cutter is arranged on the outer wall of the peeling roller.

Preferably, the number of the front-end travelling wheels and the rear-end travelling wheels is 3.

Preferably, an auxiliary supporting mechanism is arranged on the outer wall of the box body and positioned at the inlet end of the cable inlet hole; the auxiliary supporting mechanism comprises a sliding rail, a pinch roller assembly and an adjusting assembly; the sliding rail is longitudinally and symmetrically arranged on two sides of the cable access hole, the pinch roller assemblies are symmetrically arranged above and below the cable access hole, the pinch roller assemblies are in sliding connection with the sliding rail, the adjusting assemblies are symmetrically arranged on two sides of the cable access hole, the upper ends of the adjusting assemblies are rotationally connected with the pinch roller assemblies located above the cable access hole, the lower ends of the adjusting assemblies are rotationally connected with the pinch roller assemblies located below the cable access hole, and the adjusting assemblies can control the pinch roller assemblies to synchronously move towards the circle center close to the cable access hole or control the pinch roller assemblies to synchronously move towards the circle center far away from the cable access hole.

Preferably, the pinch roller assembly comprises a roller, a roller frame seat and a sliding part; the roller frame seat is arranged on the sliding rail correspondingly, one end of the sliding part is fixed with the roller frame seat, and the other end of the sliding part is connected with the sliding rail in a sliding way.

Preferably, the sliding rail is of a concave structure, and the front surface of the sliding rail is longitudinally provided with a guide groove penetrating through the sliding rail.

Preferably, the sliding part comprises a sliding rod, a limiting head and a rolling wheel; the rolling wheel is arranged in the concave part of the sliding rail, the outer wall of the rolling wheel is contacted with the inner wall of the concave part of the sliding rail, the limiting head is positioned on one side of the roller frame seat away from the sliding rail, one end of the sliding rod penetrates through the roller frame and is fixed with the limiting head, and the other end of the sliding rod extends into the sliding rail along the guide groove and is rotationally connected with the rolling wheel.

Preferably, the adjusting component comprises an upper connecting rod, a lower connecting rod and an intermediate sleeve; the upper end of the upper connecting rod is rotatably sleeved on a roller frame seat above the cable inlet hole, the lower end of the lower connecting rod is rotatably sleeved on a roller frame seat below the cable inlet hole, the upper threads of the middle sleeve are sleeved on the upper part of the upper connecting rod, the lower threads of the middle sleeve are sleeved on the upper part of the lower connecting rod, and the threads on the upper connecting rod are opposite to the threads on the lower connecting rod.

Preferably, the middle of the outer wall of the roller is provided with a circular arc groove, and the circular arc groove forms annular bosses at two ends of the roller.

Preferably, a waste tank which is opened and closed in a drawer mode is arranged at the bottom of the box body.

Compared with the prior art, the rotary power cable stripping tool provided by the utility model comprises a box body and a stripping mechanism; the inner wall surface of one side of the box body is provided with a first blind hole, the first blind hole is concentrically provided with a through hole communicated with the outside of the box body, the surface of one side of the inner wall of the box body, which is opposite to the first blind hole, is provided with a second blind hole, the second blind hole is concentric with the first blind hole, and the second blind hole is concentrically provided with a cable inlet hole communicated with the outside of the box body; the peeling mechanism comprises a front end rotating part, a rear end rotating part and peeling rollers; the front end rotating part comprises a front end outer gear ring, a front end central wheel and a front end travelling wheel; the front end outer gear ring is fixed in the first blind hole, the front end central wheel is arranged in the first blind hole in a rotating way, the front end central wheel is concentric with the front end outer gear ring, the diameter of the front end central wheel is smaller than that of the front end outer gear ring, the front end travelling wheels are uniformly distributed along the circumferential direction of the front end outer gear ring, and the front end travelling wheels are respectively meshed with the inner wall of the front end outer gear ring and the outer wall of the front end central wheel correspondingly; the rear end rotating part comprises a rear end outer gear ring, a rear end central gear ring and rear end travelling wheels; the rear end outer gear ring is fixed in the second blind hole, the rear end central gear ring is concentric with the rear end outer gear ring, the diameter of the rear end central gear ring is smaller than that of the rear end outer gear ring, the rear end travelling wheels are uniformly distributed along the circumferential direction of the rear end outer gear ring, and the rear end travelling wheels are respectively meshed with the inner wall of the rear end outer gear ring and the outer wall of the rear end central gear ring correspondingly; two ends of each peeling roller are respectively connected with the front end travelling wheel and the rear end travelling wheel in a key manner, and each peeling roller encloses a channel capable of allowing a cable to enter. When the cable is peeled, the end part of the cable to be peeled can enter a cable channel surrounded by the peeling rollers along the cable inlet hole, and the front end travelling wheel drives each peeling roller to synchronously and circumferentially rotate along the front end outer gear ring and the rear end outer gear ring by controlling the front end central wheel to rotate, so that the thicker and harder insulating layer of the outer layer of the cable is peeled by the peeling rollers without damaging the cable; in the whole stripping process, no manual force application is needed, and only one person is needed for operation, so that not only is the labor saved, but also the stripping efficiency is improved, and the installation or maintenance time is shortened.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic elevational view of the present utility model.

Fig. 2 is a schematic side view of the structure of fig. 1 according to the present utility model.

FIG. 3 is a schematic view of another angle of FIG. 1 according to the present utility model.

Fig. 4 is a schematic structural view of the peeling mechanism of the present utility model.

FIG. 5 is a schematic view of another angle of FIG. 4 according to the present utility model.

Fig. 6 is a schematic structural view of the auxiliary supporting mechanism of the present utility model.

Fig. 7 is a schematic cross-sectional view of fig. 6 in accordance with the present utility model.

Fig. 8 is a schematic structural view of the case of the present utility model.

In the figure: the box 01, the first blind hole 11, the through hole 12, the second blind hole 13, the cable inlet hole 14, the peeling mechanism 02, the front end rotating part 21, the front end outer gear 211, the front end center wheel 212, the front end traveling wheel 213, the rear end rotating part 22, the rear end outer gear 221, the rear end center gear 222, the rear end traveling wheel 223, the peeling roller 23, the cutter 231, the auxiliary supporting mechanism 03, the slide rail 31, the guide groove 311, the pinch roller assembly 32, the roller 321, the circular arc groove 3211, the annular boss 3212, the roller frame seat 322, the sliding part 323, the slide bar 3231, the limiting head 3232, the rolling wheel 3233, the adjusting assembly 33, the upper connecting rod 331, the lower connecting rod 332, the middle sleeve 333, the waste tank 04, the hand crank 05.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "upper," "middle," "outer," "inner," "lower," and the like are used for indicating orientations or positional relationships, merely to facilitate the description of the present utility model and simplify the description, and do not indicate or imply that the components or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and are not to be construed as limiting the present utility model.

Referring to fig. 1 to 3 and 8, the present utility model provides a rotary power cable stripping tool, comprising a case 01 and a stripping mechanism 02; the inner wall surface of one side of the box body 01 is provided with a first blind hole 11, the first blind hole 11 is concentrically provided with a through hole 12 communicated with the outside of the box body 01, the inner wall of the box body 01 is opposite to the surface of one side of the first blind hole 11, the surface of the second blind hole 13 is provided with a second blind hole 13, the second blind hole 13 is concentric with the first blind hole 11, and the second blind hole 13 is concentrically provided with a cable inlet hole 14 communicated with the outside of the box body 01, so that a cable to be peeled can be inserted into the box body 01 from the cable inlet hole 14. The peeling mechanism 02 includes a front end rotating portion 21, a rear end rotating portion 22, and peeling rollers 23; the front end rotating part 21 comprises a front end outer gear ring 211, a front end center wheel 212 and a front end travelling wheel 213; the front-end outer gear ring 211 is fixed in the first blind hole 11, the front-end central wheel 212 is rotatably arranged in the first blind hole 11, the front-end central wheel 212 is concentric with the front-end outer gear ring 211, and the diameter of the front-end central wheel 212 is smaller than that of the front-end outer gear ring 211; the front travelling wheels 213 are uniformly distributed along the circumferential direction of the front outer gear 211, the front travelling wheels 213 are respectively engaged with the inner wall of the front outer gear 211 and the outer wall of the front central wheel 212, and the front central wheel 212 can be driven by a crank 05 or a motor, wherein the motor can be a variable frequency motor; for variable frequency motors or motor drives, the power source may be a rechargeable lithium battery. The output end of the hand crank 05 or the motor can be inserted along the through hole 12, so that the output end of the hand crank 05 or the motor is in spline connection with the front end center wheel 212, and then power can be transmitted to the front end center wheel 212, and the front end traveling wheel 213 is driven by the front end center wheel 212 to circumferentially rotate along the front end outer gear ring 211. The rear end rotating part 22 comprises a rear end outer gear ring 221, a rear end central gear ring 222 and rear end travelling wheels 223; the rear end outer gear ring 221 is fixed in the second blind hole 13, the rear end central gear ring 222 is concentric with the rear end outer gear ring 221, the diameter of the rear end central gear ring 222 is smaller than that of the rear end outer gear ring 221, the rear end travelling wheels 223 are uniformly distributed along the circumferential direction of the rear end outer gear ring 221, and the rear end travelling wheels 223 are respectively meshed with the inner wall of the rear end outer gear ring 221 and the outer wall of the rear end central gear ring 222. The two ends of the peeling roller 23 are respectively connected with the front-end travelling wheel 213 and the rear-end travelling wheel 223 by keys, so that the peeling roller 23 is used as power transfer between the front-end travelling wheel 213 and the rear-end travelling wheel 223, and when the front-end travelling wheel 213 rotates along the front-end outer gear ring 211, the peeling roller 23, the front-end travelling wheel 213 and the rear-end travelling wheel 223 can synchronously rotate; each stripping roller 23 encloses a channel with each other through which the cable can enter. When the cable is peeled, the end part of the cable to be peeled can enter a cable channel surrounded by the peeling rollers 23 along the cable inlet hole 14, and the front-end central wheel 212 is controlled to rotate by the crank 05 or the motor, so that the front-end travelling wheel 213 drives each peeling roller 23 to synchronously and circumferentially rotate along the front-end outer gear ring 211 and the rear-end outer gear ring 221, and the thicker and harder insulating layer of the cable is peeled by the peeling rollers 23 without damaging the cable; in the whole stripping process, no manual force application is needed, and only one person is needed for operation, so that not only is the labor saved, but also the stripping efficiency is improved, and the installation or maintenance time is shortened.

Referring to fig. 4 and 5, in one embodiment, a spiral cutter 231 is provided on the outer wall of the peeling roller 23. The number of the front-end walking wheels 213 and the rear-end walking wheels 223 is 3; the front end travelling wheels 213 and the rear end travelling wheels 223 can be distributed in a shape of Chinese character 'pin'; when the cable is peeled, the spiral cutter 231 on the outer wall of the peeling roller 23 can wind the cable into the channel formed by the peeling roller 23, and form an acting force pulling the cable into the channel, and the peeling roller 23 distributed in a shape of a Chinese character 'pin' can be utilized to crack the insulation layer outside the cable along the circumferential direction of the cable, and after reaching the expected length, the peeling roller 23 is rotated reversely, so that the cable is withdrawn, and the cracked insulation layer is peeled off by the peeling roller 23.

Referring to fig. 6 and 7, in one embodiment, an auxiliary support mechanism 03 is provided on the outer wall of the housing 01 at the inlet end of the cable entry hole 14. The auxiliary supporting mechanism 03 comprises a sliding rail 31, a pinch roller assembly 32 and an adjusting assembly 33; the slide rail 31 is longitudinally and symmetrically arranged at two sides of the cable inlet hole 14, the pinch roller assembly 32 is symmetrically arranged above and below the cable inlet hole 14, the pinch roller assembly 32 is in sliding connection with the slide rail 31, the adjusting assembly 33 is symmetrically arranged at two sides of the cable inlet hole 14, the upper end of the adjusting assembly 33 is rotationally connected with the pinch roller assembly 32 above the cable inlet hole 14, and the lower end of the adjusting assembly 33 is rotationally connected with the pinch roller assembly 32 below the cable inlet hole 14. By adjusting the length of adjustment assembly 33, the distance between puck assemblies 32 can be controlled; when the length of the adjusting component 33 is shortened, the pinch roller component 32 can be controlled to synchronously move towards the center of the circle close to the cable inlet hole 14, so that the pinch roller component 32 above the cable inlet hole 14 is contacted with the pressure component below the cable inlet hole 14, the cable can be clamped by the pinch roller component 32 above and the middle part of the pinch roller component 32 below, one pinch roller component 32 is driven to rotate by manual shaking or motor driving, and the other pinch roller component 32 can be synchronously driven to rotate, so that not only can the pinch roller component 32 be used for supporting the cable, but also the pinch roller component 32 can be used for conveying the cable to a channel formed by the peeling roller 23, and the peeling of the cable is realized by the mutual cooperation between the peeling roller 23 and the pinch roller component 32; when the cable needs to be withdrawn, the pinch roller assembly 32 can be controlled to rotate reversely, and the stripping roller 23 can be controlled to rotate reversely, so that the cable can be withdrawn from the box 01. When the pressing force on the cable needs to be controlled, the length of the adjustable adjusting component 33 is increased, so that the pressing wheel component 32 synchronously moves away from the center of the cable inlet hole 14.

Specifically, the pinch roller assembly 32 includes a roller 321, a roller frame 322, and a sliding portion 323; the roller frame seat 322 is correspondingly arranged on the sliding rail 31, one end of the sliding part 323 is fixed with the roller frame seat 322, and the other end of the sliding part 323 is in sliding connection with the sliding rail 31.

Specifically, the sliding rail 31 has a "concave" structure, and a guide slot 311 penetrating the sliding rail 31 is longitudinally disposed on the front surface of the sliding rail 31.

Specifically, the sliding portion 323 includes a sliding rod 3231, a limiting head 3232, and a rolling wheel 3233; the rolling wheel 3233 is arranged in the concave part of the sliding rail 31, the outer wall of the rolling wheel 3233 is contacted with the inner wall of the concave part of the sliding rail 31, the limiting head 3232 is positioned on one side of the roller frame seat 322 far away from the sliding rail 31, the limiting head 3232 can press the roller frame seat 322 on the surface of the sliding rail 31, one end of the sliding rod 3231 penetrates through the roller frame and is fixed with the limiting head 3232, and the other end of the sliding rod 3231 extends into the sliding rail 31 along the guide groove 311 and is rotationally connected with the rolling wheel 3233; the rolling wheel 3233 can use the sliding rail 31 to form guiding and rolling way to reduce friction resistance during the up-and-down movement of the roller.

In one embodiment, the adjustment assembly 33 includes an upper connecting rod 331, a lower connecting rod 332, an intermediate sleeve 333; the upper end of the upper connecting rod 331 is rotatably sleeved on the roller frame seat 322 above the cable inlet hole 14, the lower end of the lower connecting rod 332 is rotatably sleeved on the roller frame seat 322 below the cable inlet hole 14, the upper threads of the middle sleeve 333 are sleeved on the upper portion of the upper connecting rod 331, the lower threads of the middle sleeve 333 are sleeved on the upper portion of the lower connecting rod 332, and the threads on the upper connecting rod 331 are opposite to the threads on the lower connecting rod 332. When the length of the adjusting component 33 is adjusted, the middle sleeve 333 can be rotated to move the upper connecting rod 331 and the lower connecting rod 332 in opposite directions, thereby controlling the roller 321 to move up and down.

In one embodiment, a circular arc groove 3211 is formed in the middle of the outer wall of the roller 321, the circular arc groove 3211 forms annular bosses 3212 at two ends of the roller 321, when the roller 321 clamps a cable, the cable is just positioned in the circular arc groove 3211, the outer wall of the cable can be attached to the circular arc groove 3211, the annular bosses 3212 of the roller 321 positioned above can be contacted with the annular bosses 3212 of the roller 321 positioned below, after one roller 321 is driven to rotate, the other roller 321 can be driven to synchronously rotate, so that the cable can be pushed towards the axis direction of a channel formed by the peeling roller 23, and the cable is ensured to be always positioned at the center position of the peeling roller 23 in a 'product' -shaped distribution.

In one embodiment, the bottom of the box 01 is provided with a waste chute 04 which is opened and closed in a drawer mode, and stripped cable insulation layer waste residues can be conveniently collected.

The foregoing disclosure is illustrative of the preferred embodiments of the present utility model, and is not to be construed as limiting the scope of the utility model, as it is understood by those skilled in the art that all or part of the above-described embodiments may be practiced with equivalents thereof, which fall within the scope of the utility model as defined by the appended claims.

Claims (10)

1. A rotary power cable stripping tool, characterized in that: comprises a box body and a peeling mechanism;

the inner wall surface of one side of the box body is provided with a first blind hole, the first blind hole is concentrically provided with a through hole communicated with the outside of the box body, the surface of one side of the inner wall of the box body, which is opposite to the first blind hole, is provided with a second blind hole, the second blind hole is concentric with the first blind hole, and the second blind hole is concentrically provided with a cable inlet hole communicated with the outside of the box body;

the peeling mechanism comprises a front end rotating part, a rear end rotating part and peeling rollers;

the front end rotating part comprises a front end outer gear ring, a front end central wheel and a front end travelling wheel; the front end outer gear ring is fixed in the first blind hole, the front end central wheel is rotationally arranged in the first blind hole, the front end central wheel is concentric with the front end outer gear ring, the diameter of the front end central wheel is smaller than that of the front end outer gear ring, the front end travelling wheels are uniformly distributed along the circumferential direction of the front end outer gear ring, and the front end travelling wheels are respectively meshed with the inner wall of the front end outer gear ring and the outer wall of the front end central wheel correspondingly;

the rear end rotating part comprises a rear end outer gear ring, a rear end central gear ring and a rear end travelling wheel; the rear end outer gear ring is fixed in the second blind hole, the rear end central gear ring is concentric with the rear end outer gear ring, the diameter of the rear end central gear ring is smaller than that of the rear end outer gear ring, the rear end travelling wheels are uniformly distributed along the circumferential direction of the rear end outer gear ring, and the rear end travelling wheels are respectively meshed with the inner wall of the rear end outer gear ring and the outer wall of the rear end central gear ring correspondingly;

the two ends of the peeling roller are respectively connected with the front end travelling wheel and the rear end travelling wheel in a key manner, and each peeling roller encloses a channel capable of being accessed by a cable.

2. The rotary power cable stripping tool of claim 1, wherein: the outer wall of the peeling roller is provided with a spiral cutter.

3. The rotary power cable stripping tool of claim 2, wherein: the number of the front-end travelling wheels and the rear-end travelling wheels is 3.

4. A rotary power cable stripping tool as in claim 1 or 2 or 3, wherein: an auxiliary supporting mechanism is arranged on the outer wall of the box body and positioned at the inlet end of the cable inlet hole; the auxiliary supporting mechanism comprises a sliding rail, a pinch roller assembly and an adjusting assembly; the sliding rail is longitudinally and symmetrically arranged on two sides of the cable access hole, the pinch roller assemblies are symmetrically arranged above and below the cable access hole, the pinch roller assemblies are in sliding connection with the sliding rail, the adjusting assemblies are symmetrically arranged on two sides of the cable access hole, the upper ends of the adjusting assemblies are rotationally connected with the pinch roller assemblies located above the cable access hole, the lower ends of the adjusting assemblies are rotationally connected with the pinch roller assemblies located below the cable access hole, and the adjusting assemblies can control the pinch roller assemblies to synchronously move towards the circle center close to the cable access hole or control the pinch roller assemblies to synchronously move towards the circle center far away from the cable access hole.

5. The rotary power cable stripping tool of claim 4, wherein: the pinch roller assembly comprises a roller, a roller frame seat and a sliding part; the roller frame seat is arranged on the sliding rail correspondingly, one end of the sliding part is fixed with the roller frame seat, and the other end of the sliding part is connected with the sliding rail in a sliding way.

6. The rotary power cable stripping tool of claim 5, wherein: the sliding rail is of a concave structure, and a guide groove penetrating through the sliding rail is longitudinally formed in the front face of the sliding rail.

7. The rotary power cable stripping tool of claim 6, wherein: the sliding part comprises a sliding rod, a limiting head and a rolling wheel; the rolling wheel is arranged in the concave part of the sliding rail, the outer wall of the rolling wheel is contacted with the inner wall of the concave part of the sliding rail, the limiting head is positioned on one side of the roller frame seat away from the sliding rail, one end of the sliding rod penetrates through the roller frame and is fixed with the limiting head, and the other end of the sliding rod extends into the sliding rail along the guide groove and is rotationally connected with the rolling wheel.

8. The rotary power cable stripping tool of claim 5, wherein: the adjusting component comprises an upper connecting rod, a lower connecting rod and a middle sleeve; the upper end of the upper connecting rod is rotatably sleeved on a roller frame seat above the cable inlet hole, the lower end of the lower connecting rod is rotatably sleeved on a roller frame seat below the cable inlet hole, the upper threads of the middle sleeve are sleeved on the upper part of the upper connecting rod, the lower threads of the middle sleeve are sleeved on the upper part of the lower connecting rod, and the threads on the upper connecting rod are opposite to the threads on the lower connecting rod.

9. The rotary power cable stripping tool of claim 5, wherein: the middle of the outer wall of the roller is provided with an arc-shaped groove, and the arc-shaped groove forms annular bosses at two ends of the roller.

10. A rotary power cable stripping tool as in claim 1 or 2 or 3, wherein: the bottom of the box body is provided with a waste chute which is opened and closed in a drawer mode.