A cable stripper
By designing the movable clamping and circumferential cutting components of the cable stripper, stable clamping and precise stripping of cables of different specifications are achieved, solving the problems of low efficiency and insufficient precision of existing tools, and improving operational safety and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU TIANDI POWER MASCH & TOOLS CO LTD
- Filing Date
- 2025-07-16
- Publication Date
- 2026-06-26
AI Technical Summary
Existing cable stripping tools are inefficient and lack precision, cannot adapt to various cable specifications, have complex structures and high costs, and pose safety hazards when operated manually.
A cable stripper was designed, which uses a combination of movable and fixed clamping components, along with a ring-cutting component, for mechanized stripping. Through precise control of the electric push rod and the ring-cutting blade, stable clamping and precise stripping of cables of different specifications can be achieved.
It improves stripping efficiency, ensures stripping accuracy, reduces safety risks for operators, saves time and labor costs, and avoids damage to the internal conductors of the cable.
Smart Images

Figure CN224418306U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cable processing equipment technology, and in particular to a cable stripper. Background Technology
[0002] During cable installation, maintenance, and processing, it is often necessary to remove the outer sheath or insulation layer of the cable to expose the internal conductor. Currently, when stripping the cable sheath, operators manually strip it with blades, which is not only inefficient but also requires a high level of skill. Uneven force can easily damage the internal conductor, and there is also a safety hazard of cutting the operator. While some cable stripping tools or equipment on the market have improved stripping efficiency to some extent, they still suffer from insufficient stripping precision, inability to adapt to various cable specifications, complex structures, and high costs. For example, some wire strippers can only operate on cables of a specific diameter, requiring different equipment for different cable specifications, which greatly increases the cost and complexity of operation. Therefore, we propose a cable stripper. Utility Model Content
[0003] The purpose of this invention is to address the problems existing in the background technology by proposing a cable stripper.
[0004] The technical solution of this utility model: A cable stripper includes a base plate. Two sets of electric guide rails are arranged above the base plate. Movable clamping assemblies are arranged on the two sets of electric guide rails. Each movable clamping assembly includes a support platform. A mounting frame is arranged on one side below the support platform. Two sets of cylinders are arranged on one side above the mounting frame. Clamping plates are arranged at the output ends of the two sets of cylinders. A circumferential cutting assembly is also arranged on one side of the two sets of electric guide rails near the movable clamping assembly. The circumferential cutting assembly includes an assembly plate. A drive motor is arranged on one side of the assembly plate. A drive gear is arranged inside the assembly plate at the output end of the drive motor. The device includes a positioning ring frame, within which a driven gear ring is located. The inner ring of the driven gear ring has a ring cutter, and the mounting end of the ring cutter has an electric push rod. One end of each of the two sets of electric guide rails is located on the base plate and has a fixing clamping assembly. The fixing clamping assembly includes a positioning plate, within which a fixing block is located. A servo motor is located on one side of the positioning plate, and the output end of the servo motor is located within the fixing block, where a turntable is positioned. Multiple sets of clamping blocks are located on the side of the fixing block away from the servo motor. Each set of clamping blocks has an adjusting rod on the side near the fixing block. An operation panel is located on one side of the positioning plate.
[0005] Preferably, the bottom side of the substrate is provided with support feet at the four corner positions, the mounting end of the electric guide rail is installed corresponding to the upper side of the substrate, each set of electric guide rails is provided with two sets of sliders, and the outer side of each set of electric guide rails is provided with size markings.
[0006] Preferably, the two ends of the support platform are respectively installed with two sets of sliders at the same position on the two sets of electric guide rails. The upper side of the support platform is arc-shaped. The mounting end of the mounting bracket is installed with the bottom side of the support platform. The mounting end of the cylinder is installed with the inner side of the mounting bracket. The support platform is provided with two sets of limiting slide grooves. The clamping plate is U-shaped. The two ends of the clamping plate are installed with the two sets of limiting slide grooves. The output end of the cylinder is installed with the end face of the two ends of the clamping plate. The two sets of cylinders move synchronously.
[0007] Preferably, the lower side of the assembly plate is installed at two end positions corresponding to two other sets of sliders on the two sets of electric guide rails. A motor box is provided on one side of the assembly plate, and the mounting end of the drive motor is installed corresponding to the inner cavity of the motor box. A shaft hole is provided on the assembly plate, and a connecting shaft is provided at the output end of the drive motor. An annular groove is provided in the assembly plate, and the inner ring of the drive gear is installed corresponding to the outer ring of the connecting shaft. Both ends of the connecting shaft are installed corresponding to the shaft hole, and the drive gear is installed corresponding to the inner cavity of the annular groove.
[0008] Preferably, the outer ring of the positioning ring frame is installed correspondingly to the inner ring of the assembly plate, the inner ring of the positioning ring frame has a circular groove, the mounting end of the driven gear ring is installed correspondingly to the circular groove, and a connecting slot is provided on the side of the positioning ring frame near the driving gear, and the driving gear and the driven gear ring mesh with each other.
[0009] Preferably, the inner ring of the positioning ring frame has an assembly groove, the ring cutter is installed correspondingly to the assembly groove, both ends of the ring cutter are provided with limit blocks, both ends of the inner wall of the assembly groove have limit grooves, the limit blocks are installed correspondingly to the inner wall of the limit grooves, the mounting end of the electric push rod is installed correspondingly to the inner wall of the assembly groove, and the output end of the electric push rod is installed at the middle position corresponding to the mounting end of the ring cutter. The electric push rod can precisely control the pressure applied by the ring cutter.
[0010] Preferably, the mounting end of the positioning plate is installed corresponding to the upper side of the base plate, a support platform is provided on one side of the positioning plate, an installation cavity is opened on the positioning plate, the mounting end of the fixing block is installed corresponding to the installation cavity, a second motor box is provided on one side of the positioning plate, the mounting end of the servo motor is installed corresponding to the upper side of the second motor box, the mounting end of the turntable is installed corresponding to the inner cavity of the fixing block, and the output end of the servo motor passes through the fixing block and is installed corresponding to one side of the turntable.
[0011] Preferably, the fixed block has multiple sets of adjusting grooves on one side, the mounting end of the clamping block is installed corresponding to the inner wall of the adjusting groove, the mounting end of the adjusting rod is installed corresponding to one side of the clamping block, a guide groove is provided on one side of the bottom of the inner wall of the adjusting groove, the outer ring of the adjusting rod is installed corresponding to the inner wall of the guide groove, and multiple sets of adjusting synchronization grooves are provided on the turntable near the clamping block, and the end of the adjusting rod away from the clamping block is installed corresponding to the adjusting synchronization groove.
[0012] Preferably, the mounting end of the operation panel is installed corresponding to one side of the positioning plate, and the electric guide rail, cylinder, drive motor, electric push rod and servo motor are all electrically connected to the operation panel.
[0013] Compared with the prior art, the present invention has the following beneficial technical effects:
[0014] This utility model has a simple overall structure. The combination of movable and fixed clamping components allows for stable two-point clamping of the cable at one end and the middle, ensuring greater stability during cable stripping. The circumferential cutting component employs a mechanized circumferential cutting method, significantly improving stripping efficiency compared to manual stripping. It can complete the stripping of a large number of cables in a short time, effectively saving time and labor costs. The combination of the operation panel, electric guide rail, and size markings allows for precise positioning of the cable cutting position, ensuring accurate circumferential cutting. Furthermore, the combination of the electric push rod and the circumferential cutting blade allows for height adjustment of the blade, enabling precise control of the cutting depth during cable stripping, avoiding damage to the internal conductors and ensuring stripping quality. The entire stripping process requires only simple setup and start-up operations from the operator, eliminating the need for direct contact with the blade, reducing the risk of injury and improving operational safety. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a schematic diagram of the structure from another perspective of this utility model;
[0017] Figure 3 This is an exploded view of the structure of the fixing and clamping assembly in this utility model;
[0018] Figure 4 This is an exploded view of the ring-cutting component in this utility model;
[0019] Figure 5 This is a cross-sectional view of the ring-cutting component in this utility model.
[0020] Reference numerals: 1. Base plate; 2. Electric guide rail; 3. Movable clamping assembly; 31. Support platform; 32. Mounting bracket; 33. Cylinder; 34. Clamping plate; 4. Ring cutting assembly; 41. Assembly plate; 42. Drive motor; 43. Drive gear; 44. Positioning ring frame; 45. Driven gear ring; 46. Ring cutting blade; 47. Electric push rod; 48. Connecting shaft; 5. Fixed clamping assembly; 51. Positioning plate; 52. Fixing block; 53. Servo motor; 54. Turntable; 55. Clamping block; 56. Adjusting rod; 57. Adjusting synchronization groove; 6. Operation panel; 7. Support leg; 8. Slider; 9. Motor box one; 10. Assembly groove; 11. Limiting block; 12. Limiting groove; 13. Motor box two; 14. Adjusting slide; 15. Support platform; 16. Dimension markings; 17. Connecting slot. Detailed Implementation
[0021] The technical solution of this utility model will be further described below with reference to the accompanying drawings and specific embodiments. Example
[0022] like Figures 1-5 As shown, the present invention proposes a cable stripper, including a base plate 1. Support legs 7 are provided at the four corners of one side of the bottom of the base plate 1. The mounting ends of the support legs 7 are fixedly connected to the base plate 1, providing stable support for the base plate 1. Two sets of electric guide rails 2 are provided above the base plate 1, with their mounting ends corresponding to the upper side of the base plate 1 and fixedly connected to the base plate 1. Each set of electric guide rails 2 has two sets of sliders 8, which are slidably connected to the electric guide rails 2. When the two sets of electric guide rails 2 are in operation, they drive the sliders 8 to move synchronously. Size markings 16 are provided on the outer side of each set of electric guide rails 2, allowing the operator to easily check the movement distance of the sliders 8.
[0023] Two sets of electric guide rails 2 are equipped with movable clamping components 3. Each movable clamping component 3 includes a support platform 31. The two ends of the support platform 31 are respectively installed with two sets of sliders 8 at the same positions on the two sets of electric guide rails 2. The mounting ends of the support platform 31 are fixedly connected to the two sets of sliders 8 at the same positions on the two sets of electric guide rails 2. The upper side of the support platform 31 is arc-shaped, which allows for better stable support of the cable. A mounting bracket 32 is provided on the lower side of the support platform 31. The mounting ends of the mounting bracket 32 are installed with the bottom side of the support platform 31 and are fixedly connected to the support platform 31. Two sets of cylinders 33 are provided on the upper side of the mounting bracket 32. The mounting ends of the cylinders 33 are connected to the mounting bracket. The inner side of the mounting bracket 32 is correspondingly installed, the mounting end of the cylinder 33 is fixedly connected to the mounting bracket 32, the output ends of the two sets of cylinders 33 are provided with clamping plates 34, the support platform 31 is provided with two sets of limiting slide grooves, the clamping plate 34 is set in a "U" shape, the two ends of the clamping plate 34 are installed corresponding to the two sets of limiting slide grooves, the two ends of the clamping plate 34 are slidably connected to the support platform 31 through the limiting slide grooves, the output end of the cylinder 33 is installed corresponding to one side of the end face of the two ends of the clamping plate 34, the output end of the cylinder 33 is fixedly connected to the clamping plate 34, the two sets of cylinders 33 move synchronously, when the two sets of cylinders 33 are in motion, they can drive the clamping plate 34 to adjust up and down, the movable clamping component 3 can carry and clamp the cable, ensuring the stability of the cable during the stripping operation;
[0024] On each of the two sets of electric guide rails 2, a ring-cutting assembly 4 is also provided on one side of the movable clamping assembly 3. The ring-cutting assembly 4 includes an assembly plate 41. The lower side of the assembly plate 41 is installed at two end positions corresponding to the other two sets of sliders 8 on the two sets of electric guide rails 2. The mounting end of the assembly plate 41 is fixedly connected to the other two sets of sliders 8 on the two sets of electric guide rails 2. A drive motor 42 is provided on one side of the assembly plate 41, and a motor box 9 is provided on the other side of the assembly plate 41. The mounting end of the motor box 9 is fixedly connected to one side of the assembly plate 41, and the mounting end of the drive motor 42 is installed corresponding to the inner cavity of the motor box 9. The mounting end of the drive motor 42 is fixedly connected to the inner cavity of the motor box 9. A shaft hole is opened on the assembly plate 41, and a connecting shaft 48 is provided at the output end of the drive motor 42. One end of the connecting shaft 48 is fixedly connected to the output end of the drive motor 42. The output end of the drive motor 42 is located within the assembly plate 41 and is equipped with a drive gear 43. An annular groove is formed within the assembly plate 41. The inner ring of the drive gear 43 is installed correspondingly to the outer ring of the connecting shaft 48, and the inner ring of the drive gear 43 is fixedly connected to the outer ring of the connecting shaft 48. Both ends of the connecting shaft 48 are installed correspondingly to shaft holes, and the connecting shaft 48 is rotatably connected to the shaft holes. The drive gear 43 is installed correspondingly to the inner cavity of the annular groove, allowing it to rotate within the annular groove. A positioning ring frame 44 is provided within the assembly plate 41. The outer ring of the positioning ring frame 44 is installed correspondingly to the inner ring of the assembly plate 41, and the mounting end of the positioning ring frame 44 is fixedly connected to the assembly plate 41. The positioning ring frame 44 has a circular groove on its inner ring, and the mounting end of the driven gear ring 45 is installed in the corresponding circular groove. The driven gear ring 45 is rotatably connected to the positioning ring frame 44 through the circular groove. The circular groove allows the driven gear ring 45 to be positioned when it is in the assembled and rotating state with the positioning ring frame 44. A connecting slot 17 is provided on the side of the positioning ring frame 44 near the driving gear 43. The driving gear 43 and the driven gear ring 45 mesh with each other. The driving gear 43 and the driven gear ring 45 are meshed and connected. When the drive motor 42 is in operation, it can drive the driven gear ring 45 to rotate through the driving gear 43. A ring cutter 46 is provided on the inner ring of the driven gear ring 45, and an assembly groove 10 is provided on the inner ring of the positioning ring frame 44. The ring cutter 46 is installed correspondingly to the assembly groove 10. The ring cutter 46 is slidably connected to the assembly groove 10. Both ends of the ring cutter 46 are provided with limit blocks 11. The mounting end of the limit block 11 is fixedly connected to the ring cutter 46. Both ends of the assembly groove 10 have limit grooves 12. The inner walls of the limit blocks 11 and the limit grooves 12 are correspondingly installed. The limit blocks 11 and the limit grooves 12 are slidably connected. The setting of the limit blocks 11 and the limit grooves 12 can limit the movement of the ring cutter 46. The mounting end of the ring cutter 46 is provided with an electric push rod 47. The mounting end of the electric push rod 47 is correspondingly installed to the inner wall of the assembly groove 10. The mounting end of the electric push rod 47 is fixedly connected to the inner wall of the assembly groove 10. The output end of the electric push rod 47 is correspondingly installed at the middle position of the mounting end of the ring cutter 46.The output end of the electric push rod 47 is fixedly connected to the ring cutter 46. The electric push rod 47 allows for height adjustment of the ring cutter 46, enabling it to adapt to the stripping requirements of cables of different specifications. The electric push rod 47 can precisely control the pressure applied by the ring cutter 46, ensuring accurate control of the cutting depth during cable stripping and preventing damage to the internal conductors, thus guaranteeing stripping quality. The ring cutting assembly 4 employs a mechanized ring cutting method, significantly improving stripping efficiency compared to manual stripping. It can complete the stripping of a large number of cables in a short time, effectively saving time and labor costs.
[0025] Two sets of electric guide rails 2 have a fixed clamping assembly 5 located at one end on the base plate 1. The fixed clamping assembly 5 includes a positioning plate 51, the mounting end of which is installed corresponding to the upper side of the base plate 1 and fixedly connected to the base plate 1. A support platform 15 is provided on one side of the positioning plate 51, and the mounting end of the support platform 15 is fixedly connected to the positioning plate 51. The support platform 15 can assist in the bearing when clamping the end of the cable, thereby making the cable more stable when clamped. A fixing block 52 is provided inside the positioning plate 51, and an installation cavity is opened on the positioning plate 51. The mounting end of the fixing block 52 is installed corresponding to the installation cavity. The mounting end is fixedly connected to the inner wall of the mounting cavity. A servo motor 53 is provided on one side of the positioning plate 51, and a motor box 2 13 is provided on one side of the positioning plate 51. The mounting end of the motor box 2 13 is fixedly connected to the positioning plate 51. The mounting end of the servo motor 53 is installed correspondingly to the upper side of the motor box 2 13. The output end of the servo motor 53 is located inside the fixing block 52 and a turntable 54 is provided. The mounting end of the turntable 54 is installed correspondingly to one side of the inner cavity of the fixing block 52. The turntable 54 is rotatably connected to the inner cavity of the fixing block 52. The output end of the servo motor 53 passes through the fixing block 52 and is installed correspondingly to one side of the turntable 54. The output end of the servo motor 53 is fixedly connected to the turntable 54. Multiple sets of clamping blocks 55 are provided on the side of the fixed block 52 away from the servo motor 53. Multiple sets of adjusting slide grooves 14 are opened on one side of the fixed block 52. The mounting ends of the clamping blocks 55 are installed corresponding to the inner walls of the adjusting slide grooves 14, and the clamping blocks 55 are slidably connected to the adjusting slide grooves 14. An adjusting rod 56 is provided on the side of each clamping block 55 near the fixed block 52. The mounting end of the adjusting rod 56 is installed corresponding to one side of the clamping block 55, and the mounting end of the adjusting rod 56 is fixedly connected to the clamping block 55. A guide groove is opened on one side of the bottom of the inner wall of the adjusting slide groove 14. The outer ring of the adjusting rod 56 is installed corresponding to the inner wall of the guide groove. The adjusting rod 56 is slidably connected to the guide groove. The guide groove can limit and guide the adjusting rod 56, so that the clamping block 55 can be more stable when it moves and adjusts within the adjusting groove 14. Multiple sets of adjusting synchronous grooves 57 are provided on the turntable 54 near the clamping block 55. The end of the adjusting rod 56 away from the clamping block 55 is installed in correspondence with the adjusting synchronous groove 57. The adjusting rod 56 is slidably connected to the adjusting synchronous groove 57. The fixed clamping assembly 5 can clamp the top of the cable tightly, so that it can cooperate with the movable clamping assembly 3 to clamp the cable at two points and stabilize it, so that the circumferential cutting assembly 4 can better perform circumferential cutting and stripping operations on the cable.
[0026] An operation panel 6 is provided on one side of the positioning plate 51. The mounting end of the operation panel 6 is installed corresponding to one side of the positioning plate 51 and is fixedly connected to one side of the positioning plate 51. The electric guide rail 2, cylinder 33, drive motor 42, electric push rod 47 and servo motor 53 are all electrically connected to the operation panel 6. The operation panel 6 can be configured to set parameters for the electric guide rail 2, cylinder 33, drive motor 42, electric push rod 47 and servo motor 53 according to different cable specifications, so as to adapt to the stripping operation of cables of different specifications.
[0027] In this embodiment, the operator first sets the parameters of the electric guide rail 2, cylinder 33, drive motor 42, electric push rod 47, and servo motor 53 respectively through the operation panel 6 according to the specifications of the stripped cable. Then, the operator passes the top end of the cable between the clamping plate 34 and the support platform 31, and then through the inner ring of the positioning ring frame 44, so that the end of the cable is placed between multiple sets of clamping blocks 55. Then, the servo motor 53 is powered on, and the operation of the servo motor 53 drives the turntable 54 to rotate within the fixed block 52. The rotation of the fixed block 52, through the interaction of the adjusting slide groove 14 and the adjusting rod 56, drives the clamping blocks 55 to slide along the adjusting slide groove 14, thereby making the multiple sets of clamping blocks 55 firmly clamp the end of the cable. Then, the operator powers on the electric guide rail 2, and the operation of the electric guide rail 2 drives the movable clamping assembly 3 and the ring-cutting assembly 4 to move and adjust through the slider 8. At this time, the operator checks the position of the ring-cutting assembly 4 through the size mark 16. After the circumferential cutting assembly 4 moves to the stripping point, the electric guide rail 2 stops operating. Then, the cylinder 33 operates to drive the clamping plate 34 to slide along the limiting groove on the support platform 31, so that the clamping plate 34 and the support platform 31 cooperate to stably clamp the cable. At this time, the movable clamping assembly 3 and the fixed clamping assembly 5 cooperate to perform two-point clamping and stabilizing operation on the cable. Then, the electric push rod 47 operates, so that the electric push rod 47 drives the circumferential cutting blade 46 to slide along the assembly groove 10, so that the pressure applied by the circumferential cutting blade 46 to the cable is adapted to the cable to be stripped. Then, the drive motor 42 is powered on. The drive motor 42 drives the drive gear 43 to rotate through the connecting shaft 48. The rotation of the drive gear 43, through the interaction with the driven gear ring 45, causes the driven gear ring 45 to rotate within the positioning ring frame 44, so that the driven gear ring 45 drives the circumferential cutting blade 46 to rotate, thereby enabling the circumferential cutting blade 46 to strip the cable when rotating.
[0028] The above-described specific embodiments are merely preferred embodiments of the present invention. Based on the technical solution of the present invention and the relevant teachings of the above embodiments, those skilled in the art can make various alternative improvements and combinations to the above-described specific embodiments.
Claims
1. A cable stripper, comprising a substrate (1), characterized in that: Two sets of electric guide rails (2) are provided above the base plate (1). Movable clamping assemblies (3) are provided on the two sets of electric guide rails (2). Each movable clamping assembly (3) includes a support platform (31). A mounting frame (32) is provided on one side below the support platform (31). Two sets of cylinders (33) are provided on one side above the mounting frame (32). Clamping plates (34) are provided at the output ends of the two sets of cylinders (33). A ring-cutting assembly (4) is also provided on one side of the movable clamping assembly (3) on the two sets of electric guide rails (2). The ring-cutting assembly (4) includes an assembly plate (41). A drive motor (42) is provided on one side of the assembly plate (41). A drive gear (43) is provided at the output end of the drive motor (42) within the assembly plate (41). A positioning ring frame (44) is provided within the assembly plate (41). A driven gear ring (45) is provided inside the base plate (1). A ring cutter (46) is provided on the inner ring of the driven gear ring (45). An electric push rod (47) is provided on the mounting end of the ring cutter (46). One end of the two sets of electric guide rails (2) is located on the base plate (1) and a fixed clamping assembly (5) is provided. The fixed clamping assembly (5) includes a positioning plate (51). A fixed block (52) is provided inside the positioning plate (51). A servo motor (53) is provided on one side of the positioning plate (51). A turntable (54) is provided at the output end of the servo motor (53) inside the fixed block (52). Multiple clamping blocks (55) are provided on the side of the fixed block (52) away from the servo motor (53). An adjusting rod (56) is provided on the side of each clamping block (55) near the fixed block (52). An operation panel (6) is provided on one side of the positioning plate (51).
2. The cable stripper according to claim 1, characterized in that, The base plate (1) has four corner supports (7) on one side of the bottom. The mounting end of the electric guide rail (2) is installed on the upper side of the base plate (1). Each set of electric guide rails (2) has two sets of sliders (8). Each set of electric guide rails (2) has a size mark (16) on the outside.
3. A cable stripper according to claim 2, characterized in that, The two ends of the support platform (31) are respectively installed with two sets of sliders (8) at the same position on the two sets of electric guide rails (2). The upper side of the support platform (31) is arc-shaped. The mounting end of the mounting frame (32) is installed with the bottom side of the support platform (31). The mounting end of the cylinder (33) is installed with the inner side of the mounting frame (32). The support platform (31) is provided with two sets of limiting slide grooves. The clamping plate (34) is U-shaped. The two ends of the clamping plate (34) are installed with the two sets of limiting slide grooves. The output end of the cylinder (33) is installed with the end face of the two ends of the clamping plate (34). The two sets of cylinders (33) move synchronously.
4. A cable stripper according to claim 2, characterized in that, The lower side of the assembly plate (41) is located at two end positions and is installed corresponding to the other two sets of sliders (8) on the two sets of electric guide rails (2). A motor box (9) is provided on one side of the assembly plate (41). The mounting end of the drive motor (42) is installed corresponding to the inner cavity of the motor box (9). A shaft hole is provided on the assembly plate (41). A connecting shaft (48) is provided at the output end of the drive motor (42). An annular groove is provided in the assembly plate (41). The inner ring of the drive gear (43) is installed corresponding to the outer ring of the connecting shaft (48). Both ends of the connecting shaft (48) are installed corresponding to the shaft hole. The drive gear (43) is installed corresponding to the inner cavity of the annular groove.
5. A cable stripper according to claim 1, characterized in that, The outer ring of the positioning ring frame (44) is installed corresponding to the inner ring of the assembly plate (41). The inner ring of the positioning ring frame (44) has a circular slot. The mounting end of the driven gear ring (45) is installed corresponding to the circular slot. A connecting slot (17) is provided on the side of the positioning ring frame (44) near the driving gear (43). The driving gear (43) and the driven gear ring (45) mesh with each other.
6. A cable stripper according to claim 1, characterized in that, The inner ring of the positioning ring frame (44) is provided with an assembly groove (10). The ring cutter (46) is installed in the corresponding assembly groove (10). Both ends of the ring cutter (46) are provided with limit blocks (11). Both ends of the inner wall of the assembly groove (10) are provided with limit grooves (12). The limit blocks (11) are installed in the corresponding inner wall of the limit grooves (12). The mounting end of the electric push rod (47) is installed in the corresponding inner wall of the assembly groove (10). The output end of the electric push rod (47) is installed in the corresponding middle position with the mounting end of the ring cutter (46). The electric push rod (47) can accurately control the pressure of the ring cutter (46).
7. A cable stripper according to claim 1, characterized in that, The mounting end of the positioning plate (51) is installed corresponding to the upper side of the base plate (1). A support platform (15) is provided on one side of the positioning plate (51). An installation cavity is opened on the positioning plate (51). The mounting end of the fixing block (52) is installed corresponding to the installation cavity. A motor box two (13) is provided on one side of the positioning plate (51). The mounting end of the servo motor (53) is installed corresponding to the upper side of the motor box two (13). The mounting end of the turntable (54) is installed corresponding to the inner cavity side of the fixing block (52). The output end of the servo motor (53) passes through the fixing block (52) and is installed corresponding to the side of the turntable (54).
8. A cable stripper according to claim 1, characterized in that, The fixed block (52) has multiple sets of adjusting slide grooves (14) on one side. The mounting end of the clamping block (55) is installed corresponding to the inner wall of the adjusting slide groove (14). The mounting end of the adjusting rod (56) is installed corresponding to one side of the clamping block (55). A guide groove is provided on one side of the bottom of the inner wall of the adjusting slide groove (14). The outer ring of the adjusting rod (56) is installed corresponding to the inner wall of the guide groove. The turntable (54) has multiple sets of adjusting synchronization grooves (57) on the side near the clamping block (55). The end of the adjusting rod (56) away from the clamping block (55) is installed corresponding to the adjusting synchronization groove (57).
9. A cable stripper according to claim 1, characterized in that, The mounting end of the operation panel (6) is installed corresponding to one side of the positioning plate (51). The electric guide rail (2), cylinder (33), drive motor (42), electric push rod (47) and servo motor (53) are all electrically connected to the operation panel (6).