CN116580904A

CN116580904A - Power cable separation and recovery equipment

Info

Publication number: CN116580904A
Application number: CN202310618303.9A
Authority: CN
Inventors: 徐兴
Original assignee: Jiangsu Ansheng Cables Co ltd
Current assignee: Jiangsu Ansheng Cables Co ltd
Priority date: 2023-05-29
Filing date: 2023-05-29
Publication date: 2023-08-11
Anticipated expiration: 2043-05-29
Also published as: CN116580904B

Abstract

The application belongs to the technical field of cables, and particularly relates to power cable separation and recovery equipment, which solves the technical problem that the diameter of a separable cable core cannot be adjusted.

Description

Power cable separation and recovery equipment

Technical Field

The application belongs to the technical field of cables, and particularly relates to power cable separation and recovery equipment.

Background

The utility model provides a power cable separation recovery plant belongs to cable technical field one kind and commonly used equipment, but general power cable separation recovery plant can't realize the regulation to the cable core diameter that can separate.

Disclosure of Invention

The application aims to provide power cable separation and recovery equipment so as to solve the technical problem that the diameter of a separable cable core cannot be adjusted.

In order to achieve the above purpose, the specific technical scheme of the power cable separation and recovery device of the application is as follows:

the utility model provides a power cable separation recovery plant, includes the chassis subassembly, still includes separation subassembly, power cable crust recovery subassembly, power pack and adjusts the connecting band, separation subassembly, power cable crust recovery subassembly and power pack are installed simultaneously on the chassis subassembly, adjust the connecting band and be connected with separation subassembly.

Further, the separating component comprises a separation mounting bracket, a mounting support, a driving disk, a first sliding waist groove, a second sliding waist groove, a driving connecting column, a limiting ring, a rotating sleeve, a separating plate, a cutting edge, a first circumferential clamping groove, a first positioning clamping rod pushing spring, a driving sliding rod, a sliding rod hinging column and a sliding waist groove.

Further, the sliding waist grooves I and the sliding waist grooves II are arranged in an array along the central axis circumference of the driving disc.

Further, a plurality of circumferential clamping grooves are circumferentially arrayed along the central axis of the driving disc.

Further, the power cable sheath recovery assembly comprises a sheath recovery box, a unidirectional sector plate, a hinged mounting seat, a hinged terminal, a matched sleeve, a unidirectional push rod, a first inner pushing spring and a limiting sliding ring, wherein the hinged mounting seat is fixedly installed on the sheath recovery box, the hinged terminal is hinged to the hinged mounting seat, the matched sleeve is fixedly installed on the hinged terminal, the limiting sliding ring is slidably installed at the inner end of the matched sleeve, the first inner pushing spring is arranged between the limiting sliding ring and the matched sleeve, the limiting sliding ring is fixedly installed at one end of the unidirectional push rod, the other end of the unidirectional push rod is hinged to the unidirectional sector plate, and the unidirectional sector plate is hinged to the sheath recovery box.

Further, the power assembly comprises a power mounting bracket, a first matching roller, a second rotating rod, a tensioning slide plate chute, a tensioning push spring, a tensioning push rod, a manual rotating wheel, a second inner clamping groove, a first clutch plate, a second clutch plate, an actuating motor, a power bracket, a first clutch slide rod push spring, a first rotating rod, a second inner clamping rod push spring and an inner threaded connecting rod, the first rotating rod is rotatably mounted on the power mounting bracket, the first matching roller is fixedly mounted on the first rotating rod, the tensioning slide plate chute is fixedly mounted with the tensioning slide plate, the second rotating rod is rotatably mounted on the second rotating rod, the second matching roller is fixedly mounted on the inner end of the tensioning slide plate chute, the tensioning push rod is slidably mounted on the inner end of the tensioning slide plate chute, the tensioning push rod is provided with a tensioning push spring between the tensioning push rod and the tensioning slide plate, the inner threaded connecting rod is fixedly mounted on the inner threaded connecting rod, the inner threaded connecting rod is in threaded connection with the manual rotating wheel, the second inner clamping groove is rotatably mounted on the power mounting bracket, the second clutch plate is rotatably mounted on the power mounting bracket, and the first motor is fixedly mounted on the inner clamping groove, the inner clamping slide rod is fixedly mounted on the inner end of the power mounting bracket, the inner end motor is mounted on the inner end clamping slide plate is fixedly mounted on the inner end of the power mounting bracket, the inner power mounting bracket is fixedly mounted on the inner end sliding rod is mounted on the inner end sliding rod, the inner end sliding plate is mounted on the inner end sliding rod, and the inner end of the power mounting bracket is mounted on the inner end driving slide plate, and the inner end driving rod is fixedly mounted on the inner end driving slide rod and the inner clutch slide plate and the inner clutch slide spring, and a clutch slide bar pushing spring I is arranged between the clutch disc II and the clutch slide bar I, and the clutch disc I is fixedly connected with the rotating rod I.

Further, a plurality of inner end clamping grooves II are arranged in a circumferential array along the central axis of the manual rotating wheel.

Further, the chassis subassembly includes chassis mounting panel, articulated frame, copper core collecting box and copper core collecting box opening, install the articulated frame on the chassis mounting panel to the articulated frame is provided with a plurality of, and fixed mounting has the copper core collecting box on the chassis mounting panel, and it has a plurality of copper core collecting box openings to open on the copper core collecting box.

Further, a plurality of articulated frames are linearly arranged on the underframe mounting plate, and a plurality of copper core collecting box openings are linearly arranged on the copper core collecting box.

The application has the advantages that:

1. the driving disc is manually rotated, the first sliding waist groove is driven to move through the driving disc, the driving connecting column is driven to move through the first sliding waist groove, the driving sliding rod is driven to move through the driving connecting column, the sliding rod hinge column is driven to move through the driving sliding rod, the sliding rod hinge column is in sliding fit with the sliding waist groove, the separating plate is rotated, the cutting edge is driven to move simultaneously through the separating plate, the vertical distance between the cutting edge and the central axis of the rotating sleeve is changed, and the cable cores with different diameters are conveniently separated and cut;

2. the power cable to be separated is driven by the power assembly to push the unidirectional sector plate to turn inwards, so that the power cable to be separated is contacted with the cutting edge, the separation of the power cable sheath and the cable core is realized, the power cable sheath is retained in the sheath recycling bin, and the collection of the power cable sheath is realized through the sheath recycling bin; meanwhile, under the pushing of the elastic force of the inner end pushing spring, the one-way sector plate is acted by the limit sliding ring and the one-way push rod, so that the power cable sheath is prevented from falling to the outer side through an inlet on the sheath recycling bin, and the tightness of the sheath recycling bin for collecting the power cable sheath is conveniently maintained;

3. starting an execution motor, driving a clutch slide bar I to rotate through the execution motor, driving a rotating rod I to rotate through meshing transmission of a clutch disc I and a clutch disc II, driving a matching roller I to move through the rotating rod, placing a power cable to be separated between the matching roller I and the matching roller II, and enabling the cable to be separated to enter a sheath recycling box through rotation of the matching roller I so as to finish carrying the power cable; meanwhile, in order to ensure the acting force of the first matching roller and the second matching roller on the power cable to be separated, the manual rotating wheel is manually rotated, and then the tensioning push rod slides along the tensioning slide chute through the threaded connection between the manual rotating wheel and the inner end threaded connecting rod, so that the distance between the tensioning push rod and the tensioning slide is changed, the compression of the tensioning push spring is realized, the acting force of the tensioning slide is realized, and the carrying stability of the first matching roller and the second matching roller on the power cable is conveniently kept;

4. the separated power cable cores enter the copper core collecting box through the copper core collecting box opening, and then the collection of the power cable cores is achieved through the copper core collecting box.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present application;

FIG. 2 is a schematic view of the section line location of FIG. 1;

FIG. 3 is a cross-sectional view taken along section A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along section B-B of FIG. 2;

FIG. 5 is a schematic view of a separation assembly according to the present application;

FIG. 6 is a schematic diagram of a separation assembly according to the present application;

FIG. 7 is a schematic view of the section line location of FIG. 5;

FIG. 8 is a cross-sectional view taken along section D-D of FIG. 7;

FIG. 9 is a schematic view of a power cable sheath recycling assembly according to the present application;

FIG. 10 is a schematic view of the cut line location of FIG. 9;

FIG. 11 is a cross-sectional view taken along section E-E of FIG. 10;

FIG. 12 is a schematic view of a power assembly of the present application;

FIG. 13 is a schematic diagram of the first cut line position of FIG. 12;

FIG. 14 is a cross-sectional view taken along section F-F of FIG. 13;

FIG. 15 is a second schematic view of the section line position of FIG. 12;

FIG. 16 is a cross-sectional view taken along section G-G of FIG. 15;

FIG. 17 is a schematic view of a chassis assembly of the present application;

the figure indicates:

a separation assembly 1; separating the mounting bracket 1-1; mounting a support 1-2; a drive disk 1-3; 1-4 of sliding waist groove I; sliding waist groove II 1-5; driving the connecting columns 1-6; 1-7 of limiting rings; rotating the sleeve 1-8; 1-9 of separation plates; 1-10 parts of cutting edges; circumferential clamping grooves 1-11; positioning clamping rods 1-12; the positioning clamping rod pushes the first spring 1-13; driving the slide bars 1-14; 1-15 of slide bar hinge columns; sliding waist grooves 1-16; a power cable sheath recovery assembly 2; a crust recovery box 2-1; a unidirectional sector plate 2-2; 2-3 of hinged mounting seats; hinged terminals 2-4; 2-5 of matched sleeves; 2-6 parts of one-way push rod; the inner end pushes the first spring 2-7; 2-8 of a limit sliding ring; a power assembly 3; a power mounting bracket 3-1; 3-2 of matched roller I; 3-3 of matched rollers; 3-4 of a second rotating rod; 3-5 of tensioning slide plates; 3-6 of a tensioning slide plate chute; tensioning a push spring 3-7; tensioning push rod 3-8; 3-9 of manual rotating wheels; 3-10 of an inner end clamping groove II; 3-11 clutch discs; 3-12 parts of clutch disc II; executing motors 3-13; 3-14 parts of a power bracket; 3-15 of clutch slide bar I; the clutch slide bar pushes the first spring for 3-16; 3-17 of rotating rod I; 3-18 of inner end clamping rods II; 3-19 of a second spring pushing by the inner clamping rod; 3-20 of an inner end threaded connecting rod; a chassis assembly 4; a chassis mounting plate 4-1; a hinge bracket 4-2; 4-3 parts of copper core collecting boxes; 4-4 of copper core collecting box openings; the connecting band 5 is adjusted.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the application are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in fig. 1-4, the power cable separating and recycling device comprises a chassis assembly 4, and further comprises a separating assembly 1, a power cable sheath recycling assembly 2, a power assembly 3 and an adjusting connecting belt 5, wherein the separating assembly 1, the power cable sheath recycling assembly 2 and the power assembly 3 are simultaneously installed on the chassis assembly 4, and the adjusting connecting belt 5 is connected with the separating assembly 1.

Example 2

As shown in fig. 5-8, the separation assembly 1 comprises a separation mounting bracket 1-1, a mounting support 1-2, a driving disc 1-3, a sliding waist groove 1-4, a sliding waist groove two 1-5, a driving connecting column 1-6, a limiting ring 1-7, a rotating sleeve 1-8, a separation plate 1-9, a cutting edge 1-10, a circumferential clamping groove 1-11, a positioning clamping rod 1-12, a positioning clamping rod pushing spring 1-13, a driving sliding rod 1-14, a sliding rod hinging column 1-15 and a sliding waist groove 1-16, wherein the separation mounting bracket 1-1 is fixedly provided with the rotating sleeve 1-8, the rotating sleeve 1-8 is rotatably provided with the driving disc 1-3, the driving disc 1-3 is provided with the circumferential clamping groove 1-11, the circumference clamping groove I1-11 is provided with a plurality of, the installation support 1-2 is fixedly installed on the separation installation support 1-1, the installation support 1-2 is provided with the positioning clamping rod I1-12 in a sliding way, the positioning clamping rod pushing spring I1-13 is arranged between the positioning clamping rod I1-12 and the installation support 1-2, the positioning clamping rod I1-12 is connected with the circumference clamping groove I1-11 in a matched way, the separation plate 1-9 is hinged on the rotating sleeve 1-8, one end of the separation plate 1-9 is provided with the cutting edge 1-10, the other end of the separation plate 1-9 is provided with the sliding waist groove 1-16, the sliding rod hinge post 1-15 is slidably installed in the sliding waist groove 1-16, the sliding rod hinge post 1-15 is fixedly installed at one end of the driving sliding rod 1-14, the other end of the driving slide rod 1-14 is fixedly provided with a driving connecting column 1-6, the driving slide rod 1-14 is connected with the rotating sleeve 1-8 in a sliding fit manner, the driving disc 1-3 is provided with a first sliding waist groove 1-4 and a second sliding waist groove 1-5, the first sliding waist groove 1-4 and the second sliding waist groove 1-5 are simultaneously provided with a plurality of sliding waist grooves, the driving connecting column 1-6 is in sliding fit with the first sliding waist groove 1-4, the driving connecting column 1-6 is provided with a limiting ring 1-7 in a limiting manner, and the limiting ring 1-7 is arranged at the inner end of the second sliding waist groove 1-5 in a sliding limiting manner.

Example 3

As shown in fig. 9-11, the power cable sheath recycling assembly 2 comprises a sheath recycling box 2-1, a unidirectional sector plate 2-2, a hinged mounting seat 2-3, a hinged terminal 2-4, a matching sleeve 2-5, a unidirectional push rod 2-6, an inner end push spring one 2-7 and a limiting sliding ring 2-8, wherein the hinged mounting seat 2-3 is fixedly arranged on the sheath recycling box 2-1, the hinged terminal 2-4 is hinged on the hinged mounting seat 2-3, the matching sleeve 2-5 is fixedly arranged on the hinged terminal 2-4, the limiting sliding ring 2-8 is slidably arranged at the inner end of the matching sleeve 2-5, the inner end push spring one 2-7 is arranged between the limiting sliding ring 2-8 and the matching sleeve 2-5, the limiting sliding ring 2-8 is fixedly arranged at one end of the unidirectional push rod 2-6, the other end of the unidirectional push rod 2-6 is hinged on the unidirectional sector plate 2-2, and the unidirectional sector plate 2-2 is hinged on the sheath recycling box 2-1.

Example 4

As shown in fig. 12-16, the power assembly 3 comprises a power mounting bracket 3-1, a first matching roller 3-2, a second matching roller 3-3, a second rotating rod 3-4, a tensioning slide plate 3-5, a tensioning slide plate sliding groove 3-6, a tensioning push spring 3-7, a tensioning push rod 3-8, a manual rotating wheel 3-9, an inner end clamping groove second 3-10, a first clutch disk 3-11, a second clutch disk 3-12, an executing motor 3-13, a power bracket 3-14, a first clutch slide rod 3-15, a first clutch slide rod push spring 3-16, a first rotating rod 3-17, a second inner end clamping rod 3-18, a second inner end clamping rod push spring 3-19 and an inner end threaded connecting rod 3-20, wherein the first rotating rod 3-17 is rotatably mounted on the power mounting bracket 3-1, the first matching roller 3-2 is fixedly mounted on the rotating rod 3-17, the tensioning slide plate 3-6 is opened on the power mounting bracket 3-1, the tensioning slide plate sliding groove 3-6 is slidably mounted on the inner end of the tensioning slide plate 3-5, the tensioning slide plate 3-5 is rotatably mounted on the tensioning slide plate 3-5, the tensioning slide plate 3-4 is fixedly mounted on the tensioning push rod 3-8, the tensioning push rod 3-20 is fixedly mounted on the inner threaded connecting rod 3-20, the inner end 3-3 is fixedly mounted on the rotating rod 3-5, the inner end clamping slide rod 3-3 and the tensioning slide rod 3-6 is fixedly mounted on the inner threaded connecting rod 3-3 and is fixedly mounted on the rotating rod 3-3, and is fixedly mounted by the inner clamping slide rod 3 and 3-3 and has a connecting rod 3 and 3. The manual rotating wheel 3-9 is rotatably mounted on the power mounting bracket 3-1, the manual rotating wheel 3-9 is provided with an inner end clamping groove II 3-10, the inner end clamping groove II 3-10 is provided with a plurality of inner end clamping rods II 3-18, an inner end clamping rod pushing spring II 3-19 is arranged between the inner end clamping rods II 3-18 and the power mounting bracket 3-1, the inner end clamping rods II 3-18 are in matched connection with the inner end clamping grooves II 3-10, the power mounting bracket 3-1 is fixedly provided with a power bracket 3-14, the power bracket 3-14 is fixedly provided with an executing motor 3-13, an output shaft of the executing motor 3-13 is mounted on a clutch slide rod I3-15, the clutch slide rod I3-15 is rotatably mounted on the power bracket 3-14, a clutch plate II 3-12 is slidably mounted on the clutch slide rod I3-15, the clutch plate II 3-12 is in meshed transmission with the clutch plate I3-11, a clutch plate II 3-12 is fixedly connected with the clutch slide rod I3-17, and the clutch plate II 3-12 is fixedly connected with the clutch plate I3-17.

Example 5

As shown in fig. 17, the chassis assembly 4 includes a chassis mounting plate 4-1, a hinge bracket 4-2, a copper core collecting box 4-3 and a copper core collecting box opening 4-4, the hinge bracket 4-2 is mounted on the chassis mounting plate 4-1, the hinge bracket 4-2 is provided with a plurality of copper core collecting boxes 4-3 fixedly mounted on the chassis mounting plate 4-1, the copper core collecting box 4-3 is provided with a plurality of copper core collecting box openings 4-4, and thus, the separated power cable cores enter the copper core collecting box 4-3 through the copper core collecting box opening 4-4, and further, the power cable cores are collected through the copper core collecting boxes 4-3.

It will be understood that the application has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the application. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the application without departing from the essential scope thereof. Therefore, it is intended that the application not be limited to the particular embodiment disclosed, but that the application will include all embodiments falling within the scope of the appended claims.

Claims

1. The utility model provides a power cable separation recovery plant, includes chassis subassembly (4), its characterized in that still includes separation subassembly (1), power cable crust recovery subassembly (2), power pack (3) and adjusts connecting band (5), separation subassembly (1), power cable crust recovery subassembly (2) and power pack (3) are installed simultaneously on chassis subassembly (4), adjust connecting band (5) and are connected with separation subassembly (1).

2. The power cable separation and recovery apparatus according to claim 1, wherein the separation assembly (1) includes a separation mounting bracket (1-1), a mounting bracket (1-2), a driving disk (1-3), a sliding waist groove one (1-4), a sliding waist groove two (1-5), a driving connecting column (1-6), a limiting ring (1-7), a rotating sleeve (1-8), a separation plate (1-9), a cutting blade (1-10), a circumferential clamping groove one (1-11), a positioning clamping rod one (1-12), a positioning clamping rod pushing spring one (1-13), a driving sliding rod (1-14), a sliding rod hinging column (1-15) and a sliding waist groove (1-16), the separation mounting bracket (1-1) is fixedly provided with the rotating sleeve (1-8), the driving disk (1-3) is rotatably provided with the rotating sleeve (1-8), the driving disk (1-3) is provided with the circumferential clamping groove one (1-11), and the circumferential clamping groove one (1-11) is provided with a plurality of positioning clamping rod pushing springs one (1-13), the separation mounting bracket (1-1) is fixedly provided with the sliding mounting bracket (1-2), a positioning clamping rod I (1-12) and a mounting support (1-2) are arranged between the positioning clamping rod I (1-13), the positioning clamping rod I (1-12) is connected with a circumferential clamping groove I (1-11) in a matched mode, a separating plate (1-9) is hinged to a rotating sleeve (1-8), one end of the separating plate (1-9) is provided with a cutting edge (1-10), the other end of the separating plate (1-9) is provided with a sliding waist groove (1-16), a sliding rod hinge column (1-15) is arranged in the sliding waist groove (1-16), the sliding rod hinge column (1-15) is fixedly arranged at one end of a driving sliding rod (1-14), the other end of the driving sliding rod (1-14) is fixedly provided with a driving connecting column (1-6), the driving sliding rod (1-14) is connected with the rotating sleeve (1-8) in a sliding mode, a sliding waist groove I (1-4) and a sliding waist groove II (1-5) are arranged on a driving disc (1-3), a sliding waist groove I (1-4) and a sliding ring II (1-5) are arranged on the driving ring II (1-6) in a sliding mode, and a plurality of limiting columns (1-6) are arranged on the driving ring I (1-6) in a sliding mode, the limiting ring (1-7) is arranged at the inner end of the sliding waist groove II (1-5) in a sliding limiting way.

3. The power cable separation and recovery device according to claim 1, wherein the power cable sheath recovery assembly (2) comprises a sheath recovery box (2-1), a unidirectional sector plate (2-2), a hinge mounting seat (2-3), a hinge terminal (2-4), a matching sleeve (2-5), a unidirectional push rod (2-6), an inner end push spring one (2-7) and a limit sliding ring (2-8), the sheath recovery box (2-1) is fixedly provided with the hinge mounting seat (2-3), the hinge mounting seat (2-3) is provided with the hinge terminal (2-4) in a hinged manner, the hinge terminal (2-4) is fixedly provided with the matching sleeve (2-5), the inner end of the matching sleeve (2-5) is provided with the limit sliding ring (2-8) in a sliding manner, the limit sliding ring (2-8) is fixedly arranged at one end of the unidirectional push rod (2-6), the other end of the unidirectional push rod (2-6) is provided with the limit sliding ring (2-8) in a sliding manner, the unidirectional sector plate (2-2) is hinged on the crust recovery box (2-1).

4. The power cable separation and recovery device according to claim 1, wherein the power assembly (3) comprises a power mounting bracket (3-1), a first mating roller (3-2), a second mating roller (3-3), a second rotating rod (3-4), a tensioning slide plate (3-5), a tensioning slide plate sliding groove (3-6), a tensioning push spring (3-7), a tensioning push rod (3-8), a manual rotating wheel (3-9), an inner end clamping groove (3-10), a first clutch disc (3-11), a second clutch disc (3-12), an executing motor (3-13), a power bracket (3-14), a first clutch slide rod (3-15), a first clutch slide rod push spring (3-16), a first rotating rod (3-17), a second inner end clamping rod (3-18), a second inner end clamping rod push spring (3-19) and an inner end threaded connecting rod (3-20), the first rotating rod (3-17) is rotatably mounted on the power mounting bracket (3-1), the first rotating rod (3-17) is fixedly mounted with the first mating roller (3-2), the first power mounting bracket (3-1) is provided with the tensioning slide plate (3-1), the inner end of the tensioning slide plate sliding groove (3-6) is slidably provided with a tensioning slide plate (3-5), the tensioning slide plate (3-5) is rotatably provided with a rotating rod II (3-4), the rotating rod II (3-4) is fixedly provided with a matched roller II (3-3), the inner end of the tensioning slide plate sliding groove (3-6) is slidably provided with a tensioning push rod (3-8), a tensioning push spring (3-7) is arranged between the tensioning push rod (3-8) and the tensioning slide plate (3-5), the tensioning push rod (3-8) is fixedly provided with an inner end threaded connecting rod (3-20), the inner end threaded connecting rod (3-20) is in threaded connection with a manual rotating wheel (3-9), the manual rotating wheel (3-9) is rotatably arranged on a power mounting bracket (3-1), the manual rotating wheel (3-9) is provided with an inner end clamping groove II (3-10), the inner end clamping groove II (3-10) is arranged on the power mounting bracket (3-1), the inner end clamping rod II (3-18) is slidably arranged between the inner end clamping rod II (3-18) and the power mounting bracket (3-1) and the inner end clamping rod II (19) is matched with the inner end clamping rod II (3-18), the power mounting bracket (3-1) is fixedly provided with a power bracket (3-14), the power bracket (3-14) is fixedly provided with an execution motor (3-13), an output shaft of the execution motor (3-13) is arranged on a first clutch slide rod (3-15), the first clutch slide rod (3-15) is rotatably arranged on the power bracket (3-14), the first clutch slide rod (3-15) is slidably provided with a second clutch disc (3-12), the second clutch disc (3-12) is in meshed transmission with the first clutch disc (3-11), a first clutch slide rod pushing spring (3-16) is arranged between the second clutch disc (3-12) and the first clutch slide rod (3-15), and the first clutch disc (3-11) is fixedly connected with the first rotating rod (3-17).

5. The power cable separation and recovery device according to claim 1, wherein the chassis assembly (4) comprises a chassis mounting plate (4-1), a hinge bracket (4-2), a copper core collecting box (4-3) and a copper core collecting box opening (4-4), the hinge bracket (4-2) is mounted on the chassis mounting plate (4-1), the hinge bracket (4-2) is provided with a plurality of copper core collecting boxes (4-3) fixedly mounted on the chassis mounting plate (4-1), and a plurality of copper core collecting box openings (4-4) are formed in the copper core collecting boxes (4-3).