CN113054597A

CN113054597A - Butt joint combination mechanism of cable

Info

Publication number: CN113054597A
Application number: CN202110363882.8A
Authority: CN
Inventors: 旷鹏华
Original assignee: Changzhou Meitong Spare Parts Co ltd
Current assignee: Changzhou Meitong Spare Parts Co ltd
Priority date: 2021-04-02
Filing date: 2021-04-02
Publication date: 2021-06-29

Abstract

The invention discloses a butt joint combination mechanism of cables, belonging to the field of cable processing, comprising a base plate, the top end of the base plate is provided with a carrying guide rail, two carrying slide blocks are arranged on the carrying guide rail, the carrying slide blocks are connected with the carrying guide rail in a sliding way, the top ends of the carrying slide blocks are fixedly provided with movable clamping components, two sides of the base plate are provided with side wall shaft seats, one side of each side wall shaft seat is provided with a side wall roller, the side wall rollers are rotationally connected with the side wall shaft seats, and the outer side of the side wall roller is wound with a traction belt, the end head of the traction belt is fixedly connected with the side wall of the carrying slide block, the other end head of the traction belt is provided with an end head block, the middle of the base platform plate is also provided with a central plate, the side walls of the central plate and the end head block are respectively provided with a hanging ring, the hanging rings are connected through a return spring, and hooks matched with the hanging rings are arranged at two ends of the return spring. The invention is convenient for butt joint connection of two cables.

Description

Butt joint combination mechanism of cable

Technical Field

The invention relates to the field of cable processing, in particular to a butt joint combining mechanism of a cable.

Background

With the development of industrial technology, modern energy technology is developed more and more perfectly, and then a plurality of cables need to be laid when an electric power infrastructure is built, the ends of the cables need to be gathered to a round head for power generation, most modern energy sources are prepared by burning petroleum and coal, the burning of the petroleum and the coal can generate a large amount of emissions, and the emissions contain components causing greenhouse gases;

the alloy cable, namely the aluminum alloy power cable, is a novel material power cable invented and created by taking AA-8000 series aluminum alloy materials as conductors and adopting advanced technologies such as a special compacting process, annealing treatment and the like. The alloy power cable makes up the defects of the traditional pure aluminum cable, improves the conductivity, bending property, creep resistance, corrosion resistance and the like of the cable, can ensure that the cable keeps stable continuous performance when overloaded and overheated for a long time, adopts the AA-8000 series aluminum alloy conductor, can greatly improve the conductivity and high temperature resistance of the aluminum alloy cable, and solves the problems of electrochemical corrosion, creep deformation and the like of the pure aluminum conductor. The conductivity of the aluminum alloy is 61.8% of the most common reference material copper IACS, and the current carrying capacity is 79% of the copper, which is better than the pure aluminum standard. But the actual weight of the aluminum alloy is about one-third that of copper in the same volume. According to this calculation, the length of the aluminum alloy cable of the same weight is twice that of the copper cable on the premise of satisfying the same conductive performance. Therefore, the weight of the aluminum alloy cable is about half of that of the copper cable under the same current-carrying capacity, the aluminum alloy cable is adopted to replace the copper cable, the weight of the cable can be reduced, the installation cost is reduced, the abrasion of equipment and the cable is reduced, the installation work is easier, on the premise of meeting the same electrical performance, the weight of the aluminum alloy cable is half of that of the copper core cable, the cross section of the aluminum alloy cable is 1.1-1.25 times that of the traditional copper core cable, the price is 30% -50% lower than that of the traditional copper core cable, and the aluminum alloy cable is economical and environment-friendly and is a trend;

the new energy generally refers to renewable energy developed and utilized on the basis of new technology, and comprises solar energy, biomass energy, wind energy, heat circulation between the surface and the deep layer of the ocean and the like; in addition, there are hydrogen energy, methane gas, alcohol, methanol, and the like, and the widely used energy sources such as coal, oil, natural gas, water energy, and the like are called conventional energy sources. With the limitation of conventional energy and the increasingly prominent environmental problems, new energy with the characteristics of environmental protection and regeneration is more and more emphasized by various countries;

the end of the thick cable is dragged to be more troublesome when the cable with the larger diameter is processed, the cable still easily hurts workers when the cable shakes, the cable needs to be grooved on the cable sheath when in butt joint, and the accuracy of manual grooving is not enough.

Disclosure of Invention

The invention aims to provide a butt joint mechanism of cables, which aims at overcoming the defects of the prior art, when the butt joint mechanism is used, the ends of the cables to be processed are placed into a movable clamping assembly and a fixed clamping assembly, at the moment, a return spring can pull one of the cable ends towards the direction of a fixed top clamping assembly, then, a worker manually operates the ends of the two cables, at the moment, a lifting plate slowly rises, then, a stepping motor drives a vertical rod and a slotting cutter to move up and down through a driving arm, a linear groove is formed in the side wall of each cable, the linear groove is used for filling a connecting piece, and the functions of conveniently fixing the cables and slotting are realized.

In order to solve the above problems, the present invention provides the following technical solutions: the utility model provides a butt joint coupling mechanism of cable, includes the base plate, the top of base plate is provided with the delivery guide rail, installs two delivery sliders on the delivery guide rail, delivery slider and delivery guide rail sliding connection, and the top fixed mounting of delivery slider has movable centre gripping subassembly, the both sides of base plate are provided with the lateral wall axle bed, and the lateral wall gyro wheel is installed to one side of lateral wall axle bed, lateral wall gyro wheel and lateral wall axle bed swivelling joint, and the outside winding of lateral wall gyro wheel has traction belt, and traction belt's end and delivery slider's lateral wall fixed connection, and traction belt's another end is provided with the end piece, the centre of base plate still is provided with well core plate, all is provided with the link on well core plate and the lateral wall of end piece, connects through reset spring between the link, and reset spring's both ends are.

Further, the movable clamping assembly comprises an objective table, a translation rubber block is arranged at the top end of the objective table, a bridge is further arranged at the top end of the objective table, a hydraulic machine is arranged at the top end of the bridge, the movable rubber block is installed at the output end of the hydraulic machine, and a hole matched with the output end of the hydraulic machine is formed in the bridge.

Further, the top of base plate still is provided with fixed centre gripping subassembly, and fixed centre gripping subassembly includes the locking plate, and the top of locking plate is provided with two vertical round bars, and the cover is equipped with the pressure plate on the vertical round bar, is provided with on the pressure plate with vertical round bar assorted trompil, pressure plate and vertical round bar sliding connection, the top of locking plate still is provided with the bulge piece, and the top of vertical round bar is provided with the top plate, and the centre of top plate is provided with lock nut, and the pressfitting lead screw has been interlude in lock nut's centre, and the end of pressfitting lead screw is provided with the bearing, the inner ring and the pressfitting lead screw fixed connection of bearing, the outer loop of bearing and the top surface fixed connection of pressure plate.

Furthermore, one side of the base table plate is provided with a slotting component, the slotting component comprises a positioning plate, a lifting plate is arranged above the positioning plate, the top end of the positioning plate is provided with two telescopic rods, the bottom end of the lifting plate is provided with two telescopic pipes, orders of the telescopic rods are inserted into the inner sides of the telescopic pipes, the telescopic rods are connected with the telescopic pipes in a sliding manner, the top end of the positioning plate is provided with a cross bar guide rail, a propelling square sleeve is sleeved on the cross bar guide rail and is connected with the cross bar guide rail in a sliding way, and the pushing square sleeve is provided with a translation hinging block, the bottom end of the lifting plate is provided with a lifting hinging block, the lifting hinging block and the translation hinging block are connected through a push rod, the side wall of the pushing square sleeve is provided with a pushing nut, a lifting screw rod is inserted into the inner side of the pushing nut, the lifting screw rod is installed at the output end of the stepping motor, and the stepping motor is fixedly connected with the side wall of the positioning plate.

Further, the top fixed mounting of lifter plate has two movable axle beds, and is provided with the preformed groove on the lifter plate of activity axle bed one side, one side of activity axle bed is provided with the extension guide arm, and the cover is equipped with the square cover of extension on the extension guide arm, extends square cover and extends guide arm sliding connection, and one side of extending square cover is provided with carries on the piece, carries on and is provided with two parallel arms on the lateral wall of piece, and the other end of parallel arm is provided with vertical pole, and two parallel arms are parallel to each other, the opposite side of activity axle bed is provided with the fluting motor, and the output of fluting motor is provided with the actuating arm, and the end of actuating arm and the lateral wall intermeshing of parallel arm, the top.

Furthermore, a material spraying assembly is arranged on one side of the base plate and comprises a square frame, a transposition square sleeve is sleeved on the square frame and is in sliding connection with the square frame, a transposition plate is arranged at the top end of the transposition square sleeve, and a dragging handle is arranged on the side wall of the transposition plate.

Furthermore, the top end of the transposition plate is provided with a translation bridge plate, a lifting bridge plate is arranged above the translation bridge plate, a central column is arranged on one side of the translation bridge plate, an opening matched with the central column is arranged on the lifting bridge plate, the lifting bridge plate is connected with the central column in a sliding way, gear rings are arranged on the side walls of the translation bridge plate and the lifting bridge plate, a propulsion gap is formed between the translation bridge plate and the lifting bridge plate, and the inner side walls of the translation bridge plate and the lifting bridge plate are provided with annular grooves, the inner sides of the annular grooves are provided with sliding pieces, one side of each sliding piece is provided with a torsion plate, the side wall of each torsion plate is provided with a crawling motor, the output end of each crawling motor is provided with a crawling gear, the crawling gear and the gear ring are mutually meshed, still be provided with the paint sprayer on the lateral wall of twist plate, be provided with double-end cylinder on the lateral wall of translation bridge plate and lift bridge plate, two output of double-end cylinder respectively with the lateral wall fixed connection of translation bridge plate and lift bridge plate.

The invention has the beneficial effects that:

one of them, the device is when using, put into activity centre gripping subassembly and fixed centre gripping subassembly to the cable end of pending, reset spring this moment can pull one of them cable end towards the direction of solid top centre gripping subassembly, then the end of staff manual operation two cables, the lifter plate at this moment slowly rises, then step motor drives vertical pole and slotting tool through the actuating arm and reciprocates, can be opened out the straight line groove on the lateral wall of cable, the straight line groove is used for filling the connecting piece, convenient fixed cable and grooved function have been realized.

And secondly, manually dragging the transposition plate to reach a processing station, driving the lifting bridge plate and the gear ring to fall down by the double-end cylinder, forming a whole gear ring, sliding the crawling motor along the gear ring through the crawling gear, implementing the material spraying operation when surrounding by the paint sprayer, and conveniently identifying the fluorescence mark at the bottom.

Drawings

Fig. 1 is a front view of a cable butt-joint mechanism.

FIG. 2 is a side view of a cable butt-joint mechanism.

FIG. 3 is a schematic cross-sectional view of a butt-joint mechanism for cables.

FIG. 4 is a schematic view of a cable butt-joint mechanism from a second perspective.

FIG. 5 is a schematic view of a cable butt-joint coupling mechanism slotted assembly.

FIG. 6 is a second perspective view of a cable docking mechanism slotted assembly.

Fig. 7 is a schematic view of a material spraying assembly of a butt joint mechanism of cables.

Fig. 8 is a schematic diagram of a second view of a material spraying assembly of a butt-joint mechanism of cables.

Description of reference numerals:

base plate 1, carrying guide rail 2, carrying slide block 201, side wall shaft seat 3, side wall roller 301, traction belt 302, end block 303, hanging ring 304, central plate 305, reset spring 306, movable clamping component 4, object stage 401, bridging 402, hydraulic machine 403, movable rubber block 404, translational rubber block 405, fixed clamping component 5, locking plate 501, bulge block 502, vertical round bar 503, pressure plate 504, top plate 505, bearing 506, pressing screw 507, locking nut 508, slotting component 6, positioning plate 601, lifting plate 602, telescopic rod 603, telescopic pipe 604, cross bar guide rail 605, pushing square sleeve 606, translational hinging block 607, lifting hinging block 608, pushing nut 609, pushing rod 610, stepping motor 611, lifting screw 612, reserved groove 613, movable shaft seat 614, slotting motor 615, extending guide 616, extending square sleeve 617, carrying block 618, parallel arm 619, the device comprises a vertical rod 620, a slotting cutter 621, a driving arm 622, a material spraying assembly 7, a square frame 701, a transposition square sleeve 702, a transposition plate 703, a dragging handle 704, a translation bridge plate 705, a lifting bridge plate 706, a gear ring 707, a pushing notch 708, a central column 709, an annular groove 710, a double-end cylinder 711, a sliding sheet 712, a twisting plate 713, a crawling motor 714, a crawling gear 715 and a paint sprayer 716.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 8, the butt joint mechanism for cables includes a base plate 1, a carrying rail 2 is disposed at the top end of the base plate 1, two carrying sliders 201 are mounted on the carrying rail 2, the carrying sliders 201 are slidably connected to the carrying rail 2, a movable clamping assembly 4 is fixedly mounted at the top end of each carrying slider 201, side wall shaft seats 3 are disposed at two sides of the base plate 1, a side wall roller 301 is mounted at one side of each side wall shaft seat 3, the side wall roller 301 is rotatably connected to the side wall shaft seat 3, a traction belt 302 is wound around the outer side of each side wall roller 301, an end of the traction belt 302 is fixedly connected to the side wall of each carrying slider 201, an end block 303 is disposed at the other end of the traction belt 302, a center plate 305 is further disposed in the middle of the base plate 1, hanging rings 304 are disposed on the side walls of the center plate 305 and the end block 303, and, the two ends of the return spring 306 are provided with hooks matched with the hanging rings 304.

The movable clamping assembly 4 comprises an object stage 401, a translation rubber block 405 is arranged at the top end of the object stage 401, a bridge 402 is further arranged at the top end of the object stage 401, a hydraulic machine 403 is arranged at the top end of the bridge 402, the movable rubber block 404 is installed at the output end of the hydraulic machine 403, an opening matched with the output end of the hydraulic machine 403 is formed in the bridge 402, the end of one cable is plugged into the translation rubber block 405 in the movable clamping assembly 4, and then the hydraulic machine 403 drives the movable rubber block 404 to fall down to lock the side wall of the cable.

The top end of the base plate 1 is further provided with a fixed clamping assembly 5, the fixed clamping assembly 5 comprises a locking plate 501, the top end of the locking plate 501 is provided with two vertical round rods 503, the vertical round rods 503 are sleeved with a pressure plate 504, the pressure plate 504 is provided with an opening matched with the vertical round rods 503, the pressure plate 504 is connected with the vertical round rods 503 in a sliding manner, the top end of the locking plate 501 is further provided with a convex block 502, the top end of the vertical round rod 503 is provided with a top plate 505, the middle of the top plate 505 is provided with a locking nut 508, a pressing lead screw 507 is inserted in the middle of the locking nut 508, the end head of the pressing lead screw 507 is provided with a bearing 506, the inner ring of the bearing 506 is fixedly connected with the pressing lead screw 507, the outer ring of the bearing 506 is fixedly connected with the top surface of the pressure plate 504, the end head of the other cable is plugged into the convex block 502 in the fixed clamping assembly 5, and then, the return spring 306 will pull the end of the cable to drag towards the fixed clamp assembly 5, but the end of the cable also has a certain range of motion.

One side of the base plate 1 is provided with a slotting component 6, the slotting component 6 comprises a positioning plate 601, a lifting plate 602 is arranged above the positioning plate 601, the top end of the positioning plate 601 is provided with two telescopic rods 603, the bottom end of the lifting plate 602 is provided with two telescopic pipes 604, orders of the telescopic rods 603 are inserted into the inner sides of the telescopic pipes 604, the telescopic rods 603 are slidably connected with the telescopic pipes 604, the top end of the positioning plate 601 is provided with a cross rod guide rail 605, a pushing square sleeve 606 is sleeved on the cross rod guide rail 605, the pushing square sleeve 606 is slidably connected with the cross rod guide rail 605, a translation hinge block 607 is arranged on the pushing square sleeve 606, a lifting hinge block 608 is arranged at the bottom end of the lifting plate 602, the lifting hinge block 608 is connected with the translation hinge block 607 through a push rod 610, a pushing nut 609 is arranged on the side wall of the pushing square sleeve, a lifting screw 612 is inserted, the step motor 611 is fixedly connected with the side wall of the positioning plate 601, the step motor 611 drives the push rod 610 to twist through the lifting screw rod 612, and the lifting plate 602 at the moment can be lifted up.

Two movable shaft seats 614 are fixedly mounted at the top end of the lifting plate 602, a reserved groove 613 is arranged on the lifting plate 602 on one side of each movable shaft seat 614, an extension guide rod 616 is arranged on one side of each movable shaft seat 614, an extension square sleeve 617 is sleeved on each extension guide rod 616, the extension square sleeve 617 is in sliding connection with the extension guide rod 616, a carrying block 618 is arranged on one side of each extension square sleeve 617, two parallel arms 619 are arranged on the side wall of the carrying block 618, a vertical rod 620 is arranged at the other end of each parallel arm 619, the two parallel arms 619 are parallel to each other, a slotting motor 615 is arranged on the other side of each movable shaft seat 614, a driving arm 622 is arranged at the output end of each slotting motor 615, the end of the driving arm 622 is meshed with the side wall of each parallel arm 619, a slotting cutter 621 is arranged at the top end of each vertical rod 620, and the, the opened wire groove is used for filling the connecting piece.

The material spraying component 7 is arranged on one side of the base plate 1, the material spraying component 7 comprises a square frame 701, a transposition square sleeve 702 is sleeved on the square frame 701, the transposition square sleeve 702 is in sliding connection with the square frame 701, a transposition plate 703 is arranged at the top end of the transposition square sleeve 702, a dragging handle 704 is arranged on the side wall of the transposition plate 703, and the transposition plate 703 is dragged to a processing station through the dragging handle 704.

The top end of the transposition plate 703 is provided with a translation bridge plate 705, a lifting bridge plate 706 is arranged above the translation bridge plate 705, a central column 709 is arranged at one side of the translation bridge plate 705, an opening matched with the central column 709 is arranged on the lifting bridge plate 706, the lifting bridge plate 706 is in sliding connection with the central column 709, gear rings 707 are arranged on the side walls of the translation bridge plate 705 and the lifting bridge plate 706, a propulsion gap 708 is formed between the translation bridge plate 705 and the lifting bridge plate 706, an annular groove 710 is arranged on the inner side walls of the translation bridge plate 705 and the lifting bridge plate 706, a sliding sheet 712 is arranged on the inner side of the annular groove 710, a torsion plate 713 is arranged at one side of the sliding sheet 712, a crawling motor 714 is arranged on the side wall of the torsion plate 713, a crawling gear 715 is arranged at the output end of the crawling motor 714, the crawling gear 715 and the gear 707 are mutually engaged, a paint sprayer 716 is further arranged on the side wall of, the side walls of the translation bridge plate 705 and the lifting bridge plate 706 are provided with a double-head cylinder 711, two output ends of the double-head cylinder 711 are fixedly connected with the side walls of the translation bridge plate 705 and the lifting bridge plate 706 respectively, the lifting bridge plate 706 and one of the gear rings 707 fall and are combined, then the crawling motor 714 slides along the gear ring 707 through the crawling gear 715, the paint sprayer 716 performs paint spraying operation, and the sprayed fluorescent mark is convenient to identify during underwater operation.

When the cable clamp is used, the end of one cable is inserted into the translation rubber block 405 in the movable clamping assembly 4, then the hydraulic press 403 drives the movable rubber block 404 to fall down to lock the side wall of the cable, the end of the other cable is inserted into the protrusion block 502 in the fixed clamping assembly 5, then the pressing screw 507 is rotated until the pressure plate 504 locks the end of the cable, the return spring 306 can pull the end of the cable to pull towards the fixed clamping assembly 5, but the end of the cable also has a certain moving range, the stepping motor 611 drives the push rod 610 to twist through the lifting screw 612, the lifting plate 602 at this time is lifted up, the slotting motor 615 drives the vertical rod 620 and the slotting knife 621 to move up and down through the driving arm 622 to perform slotting, and the slotted slot is used for filling the connecting piece, the shifting plate 703 is dragged to a processing station through the dragging handle 704, the lifting bridge plate 706 and one of the gear rings 707 fall and are combined, then the crawling motor 714 slides along the gear rings 707 through the crawling gear 715, the paint sprayer 716 performs paint spraying operation, and the sprayed fluorescent mark is convenient to identify during underwater operation.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides a butt joint coupling mechanism of cable which characterized in that: the device comprises a base plate (1), wherein a carrying guide rail (2) is arranged at the top end of the base plate (1), two carrying sliding blocks (201) are arranged on the carrying guide rail (2), the carrying sliding blocks (201) are in sliding connection with the carrying guide rail (2), a movable clamping assembly (4) is fixedly arranged at the top end of each carrying sliding block (201), side wall shaft bases (3) are arranged on two sides of the base plate (1), a side wall roller (301) is arranged on one side of each side wall shaft base (3), the side wall roller (301) is in rotating connection with the side wall shaft bases (3), a traction belt (302) is wound on the outer side of each side wall roller (301), the end of each traction belt (302) is fixedly connected with the side wall of each carrying sliding block (201), an end head block (303) is arranged at the other end head of each traction belt (302), a center plate (305) is further arranged in the middle of the base plate (1), and hanging rings (, the hanging rings (304) are connected through a return spring (306), and hooks matched with the hanging rings (304) are arranged at two ends of the return spring (306).

2. A cable butt-joint coupling mechanism according to claim 1, wherein: the movable clamping assembly (4) comprises an object stage (401), a translation rubber block (405) is arranged at the top end of the object stage (401), a bridge (402) is further arranged at the top end of the object stage (401), a hydraulic machine (403) is arranged at the top end of the bridge (402), the movable rubber block (404) is installed at the output end of the hydraulic machine (403), and an opening matched with the output end of the hydraulic machine (403) is formed in the bridge (402).

3. A butt-joint mechanism for cables according to claim 2, wherein: the top end of the base plate (1) is also provided with a fixed clamping assembly (5), the fixed clamping assembly (5) comprises a locking plate (501), the top end of the locking plate (501) is provided with two vertical round rods (503), the vertical round rods (503) are sleeved with a pressure plate (504), the pressure plate (504) is provided with a hole matched with the vertical round rods (503), the pressure plate (504) is in sliding connection with the vertical round rods (503), the top end of the locking plate (501) is also provided with a bulge block (502), the top end of the vertical round rods (503) is provided with a top plate (505), the middle of the top plate (505) is provided with a locking nut (508), the middle of the locking nut (508) is inserted with a pressing lead screw (507), the end of the pressing lead screw (507) is provided with a bearing (506), and the inner ring of the bearing (506) is fixedly connected with the pressing lead screw (507), the outer ring of the bearing (506) is fixedly connected with the top surface of the pressure plate (504).

4. A cable butt-joint coupling mechanism according to claim 3, wherein: one side of the base plate (1) is provided with a slotting component (6), the slotting component (6) comprises a positioning plate (601), a lifting plate (602) is arranged above the positioning plate (601), the top end of the positioning plate (601) is provided with two telescopic rods (603), the bottom end of the lifting plate (602) is provided with two telescopic pipes (604), orders of the telescopic rods (603) are inserted into the inner sides of the telescopic pipes (604), the telescopic rods (603) are in sliding connection with the telescopic pipes (604), the top end of the positioning plate (601) is provided with a cross rod guide rail (605), a pushing square sleeve (606) is sleeved on the cross rod guide rail (605), the pushing square sleeve (606) is in sliding connection with the cross rod guide rail (605), a translation hinging block (607) is arranged on the pushing square sleeve (606), a lifting hinging block (608) is arranged at the bottom end of the lifting plate (602), and the lifting block (608) and the translation hinging block, the side wall of the pushing square sleeve (606) is provided with a pushing nut (609), the inner side of the pushing nut (609) is inserted with a lifting screw rod (612), the lifting screw rod (612) is installed at the output end of the stepping motor (611), and the stepping motor (611) is fixedly connected with the side wall of the positioning plate (601).

5. The butt-joint mechanism of a cable according to claim 4, wherein: the lifting device is characterized in that two movable shaft seats (614) are fixedly mounted at the top end of the lifting plate (602), a reserved groove (613) is formed in the lifting plate (602) on one side of each movable shaft seat (614), an extension guide rod (616) is arranged on one side of each movable shaft seat (614), an extension square sleeve (617) is sleeved on each extension guide rod (616), the extension square sleeve (617) is in sliding connection with the extension guide rod (616), a carrying block (618) is arranged on one side of each extension square sleeve (617), two parallel arms (619) are arranged on the side wall of each carrying block (618), a vertical rod (620) is arranged at the other end of each parallel arm (619), the two parallel arms (619) are parallel to each other, a slotted motor (615) is arranged on the other side of each movable shaft seat (614), a driving arm (622) is arranged at the output end of each slotted motor (615), and the end of each driving arm, and a slotting cutter (621) is arranged at the top end of the vertical rod (620).

6. The butt-joint mechanism of a cable according to claim 5, wherein: one side of the base plate (1) is provided with a spraying component (7), the spraying component (7) comprises a square frame (701), a transposition square sleeve (702) is sleeved on the square frame (701), the transposition square sleeve (702) is in sliding connection with the square frame (701), the top end of the transposition square sleeve (702) is provided with a transposition plate (703), and the side wall of the transposition plate (703) is provided with a dragging handle (704).

7. The butt-joint mechanism of a cable according to claim 6, wherein: a translation bridge plate (705) is arranged at the top end of the transposition plate (703), a lifting bridge plate (706) is arranged above the translation bridge plate (705), a central column (709) is arranged at one side of the translation bridge plate (705), an opening matched with the central column (709) is formed in the lifting bridge plate (706), the lifting bridge plate (706) is in sliding connection with the central column (709), gear rings (707) are arranged on the side walls of the translation bridge plate (705) and the lifting bridge plate (706), a propulsion gap (708) is formed between the translation bridge plate (705) and the lifting bridge plate (706), annular grooves (710) are formed in the inner side walls of the translation bridge plate (705) and the lifting bridge plate (706), sliding pieces (712) are arranged on the inner side of the annular grooves (710), a torsion plate (713) is arranged at one side of the sliding pieces (712), and a crawling motor (714) is arranged on the side wall of the torsion plate (713), the output end of the crawling motor (714) is provided with a crawling gear (715), the crawling gear (715) is meshed with a gear ring (707), the side wall of the twisting plate (713) is further provided with a paint sprayer (716), the side walls of the translation bridge plate (705) and the lifting bridge plate (706) are provided with a double-head cylinder (711), and two output ends of the double-head cylinder (711) are fixedly connected with the side walls of the translation bridge plate (705) and the lifting bridge plate (706) respectively.