CN111900674A

CN111900674A - Butt joint device with drive assembly for jumper cable

Info

Publication number: CN111900674A
Application number: CN202010708250.6A
Authority: CN
Inventors: 吴福盛; 黄春
Original assignee: Hangzhou Shengtong Technology Co ltd
Current assignee: Hangzhou Shengtong Technology Co ltd
Priority date: 2020-07-22
Filing date: 2020-07-22
Publication date: 2020-11-06
Anticipated expiration: 2040-07-22
Also published as: CN111900674B

Abstract

The invention relates to the field of cable butt joint devices, in particular to a butt joint device with a jumper cable of a driving assembly, which comprises a fixing structure, a storage structure, a driving structure, a limiting structure and a transmission structure, wherein the storage structure is arranged on the fixing structure; the transmission structure and the storage structure are respectively provided with a limiting structure for fixing the cables, so that the joints of the two cables can be conveniently and respectively fixed through the limiting structures on the transmission structure and the storage structure, the two cables are prevented from being always pulled, and the cables can be more conveniently and quickly overhauled and butted; accomodate the transmission structure that is equipped with sliding connection on the structure, and the drive structure who is used for driving transmission structure connects in transmission structure, and then is convenient for drive transmission structure through drive structure, makes transmission structure and accomodate the distance between two limit structure on the structure and reduce, then changes the distance between two limit structure through transmission structure, and then the elasticity between the two cables of quick regulation of being convenient for, and then makes the butt joint between the cable convenient and fast more.

Description

Butt joint device with drive assembly for jumper cable

Technical Field

The invention relates to the field of cable butt-joint devices, in particular to a jumper cable butt-joint device with a driving assembly.

Background

The cable is made of one or more conductors insulated from each other and an outer insulating protective layer, the wires for transmitting power or information from one place to another are cables, the cables include power cables, control cables, compensation cables, shielding cables, high-temperature cables, computer cables, signal cables, coaxial cables, fire-resistant cables, marine cables, mining cables, aluminum alloy cables and the like, and the cables are all composed of single-strand or multi-strand wires and insulating layers and are used for connecting circuits, electric appliances and the like, for example: in mountainous areas, there are many trees, and in order to effectively prevent trees from causing short circuit and electric energy loss, cables are generally used for transmitting electric energy.

However, when the cable is broken, when a large-sized hoisting device is not used, the cable is not pulled to the wire column for butt joint conveniently when the long cable is not pre-connected, the cable in the air is not quickly butt-jointed conveniently, the tightness between the cables is not quickly adjusted conveniently, the operation flexibility is poor, and the overhauling and maintenance efficiency of the cable is low.

Disclosure of Invention

To address the problems in the prior art, the present invention provides a jumper cable docking arrangement with a drive assembly.

The technical scheme adopted by the invention for solving the technical problems is as follows: a butt joint device with a drive assembly for a jumper cable comprises a fixing structure, a storage structure, a drive structure, two limiting structures and a transmission structure; the end part of the fixing structure for connecting the cable rack is vertically fixed on the accommodating structure for accommodating the driving structure, and the driving structure detachably connected is arranged in the accommodating structure; the accommodating structure is provided with the transmission structure in sliding connection, and the driving structure for driving the transmission structure is connected to the transmission structure; the transmission structure with accomodate structural all to be equipped with and be used for fixed cable limit structure, two limit structure is on same straight line, two parallel arrangement between the limit structure, and two limit structure's top surface is on the coplanar.

Specifically, the accommodating structure comprises an accommodating frame and a connecting rod, the driving structure is arranged in the accommodating frame, and the connecting rod is vertically arranged on the accommodating frame.

Specifically, the fixing structure comprises a supporting rod, a first clamp, a second clamp, a limiting rod, a guide shaft and a reset spring, the supporting rod is vertically arranged on the side wall of the containing frame, the supporting rod is parallel to the connecting rod, the end part of the supporting rod is provided with the first clamp with a semi-annular end part, one end of the first clamp is rotatably connected with the second clamp through the guide shaft, the other end of the first clamp is abutted against the second clamp, the first clamp and the second clamp enclose into a containing cavity with a cylindrical structure, the limiting rod with one end in a cross-shaped structure and the other end in a U shape is clamped with one end of the first clamp departing from the guide shaft, the limiting rod is clamped with one end of the second clamp departing from the guide shaft, and the limiting rod penetrates through the reset spring, reset spring's both ends contradict respectively in first clamp with the gag lever post.

Specifically, the limit structure comprises a fixed frame, a limit block, a latch, a third driving rod and a guide wheel, the end parts of the connecting rod and the transmission structure are respectively provided with the fixed frames, the limiting block is connected with the fixed frames in a sliding way, the third driving rod is connected with the fixed frame and the limiting block in a penetrating way, the third driving rod is rotatably connected with the fixed frame, the third driving rod is in threaded connection with the limiting blocks, the limiting blocks and the fixing frames are provided with clamping teeth with triangular cross sections, the two fixing frames are parallel, a plurality of clamping teeth which are in a circular ring shape and are enclosed by the limiting blocks and the fixing frames are in a group, two groups of circular rings enclosed by the clamping teeth are on the same cylinder, and the fixing frames are provided with guide wheels with I-shaped cross sections.

Specifically, the driving structure comprises a first driving rod, a second driving rod, a guide rail and a driving rack, the first driving rod is rotatably connected with the containing frame, the first driving rod is parallel to the fixed frame, the first driving rod is perpendicular to the supporting rod, the first driving rod is provided with two guide rails, the guide rail is slidably connected with the containing frame, the guide rail is perpendicular to the first driving rod, the driving rack is slidably connected with the guide rail, one of the driving racks is meshed with the driving structure, the driving rack is perpendicular to the guide rail, the second driving rod is connected with the guide rail in a penetrating way, the second driving rod is rotatably connected with the guide rail, and the second driving rod is in threaded connection with the driving rack, the second driving rod is perpendicular to the first driving rod.

Specifically, the transmission structure includes transmission piece, transmission strip, lead screw, anchor strut and slide bar, along the cross-section of the axle center direction of second actuating lever is the U-shaped structure the transmission strip with accomodate sliding connection between the frame, two one of them in the transmission rack with mesh between the transmission strip, be equipped with a plurality of cross-sections that are used for the reinforcement on the transmission strip for the V-arrangement structure the anchor strut, the tip of transmission strip along the cross-section of first actuating lever direction is for falling T shape structure, the slide bar with sliding connection between the transmission strip, the lead screw with rotate between the transmission strip and be connected, the lead screw with threaded connection between the slide bar, the transmission piece is fixed in the slide bar, just fixed frame is fixed in the transmission piece.

The invention has the beneficial effects that:

(1) according to the butt joint device for the jumper cable with the driving assembly, the end part of the fixing structure for connecting the cable rack is vertically fixed on the accommodating structure for accommodating the driving structure, so that the device is conveniently fixed at the top end of the electric wire column through the fixing structure, the connection between the fixing structure and the electric wire column is more convenient and faster, and the operation is more flexible, namely: firstly, one end of a stay cord is fixed on a transmission strip, then the stay cord is pulled after the stay cord climbs to the top end of a wire column, the stay cord is enabled to lift the device to a designated position, then a limiting rod is pulled, the limiting rod is abutted against a reset spring to be compressed, meanwhile, the limiting rod is not clamped with a second clamp, the first clamp and the second clamp are not sealed, then the wire column is clamped between the first clamp and the second clamp, then the second clamp is rotated, the second clamp rotates around a guide shaft, when the second clamp is abutted against the first clamp, the limiting rod is loosened, the reset spring extends, the reset spring is abutted against the limiting rod, the limiting rod is enabled to slide between the limiting rod and the first clamp, then the limiting rod is clamped with the second clamp, further the first clamp and the second clamp are enabled to form a circular structure, further the first clamp is conveniently matched with the second clamp to rapidly connect the wire column, the operation is more flexible, one end of the end part of the limiting rod is of, In addition, one end of the limiting rod is U-shaped, so that the limiting rod can be pulled more conveniently and quickly.

(2) According to the butt joint device for the jumper cables with the driving assembly, the limiting structures for fixing the cables are arranged on the transmission structure and the storage structure, the two limiting structures are arranged on the same straight line, the two limiting structures are arranged in parallel, the top surfaces of the two limiting structures are arranged on the same plane, so that the joints of the two cables are conveniently and respectively fixed through the limiting structures on the transmission structure and the storage structure, the two cables are prevented from being pulled all the time, and the butt joint between the cables is more convenient and faster to overhaul, namely: the end parts of two broken cables are respectively fixed through the pull ropes, the end parts of the cables are reserved with butt joint length, then the pull ropes are wound on the guide wheels, the cross sections of the guide wheels are in an I shape, so that the slip between the pull ropes and the guide wheels is effectively prevented, then the pull ropes are pulled, the pull ropes drive the guide wheels and the fixed frame to rotate while lifting the cables, further the cables are pulled more labor-saving, when the end parts of the cables can pass through the fixed frame and the limiting blocks, the cables pass through the limiting blocks and the fixed frame, when the length between the two cables is larger than or equal to the butt joint length, the third driving rod is rotated, the third driving rod drives the limiting blocks and the fixed frame to slide through threads, the cable is fixedly extruded by the clamping teeth on the limiting blocks and the fixed frame, the clamping teeth are of a triangular structure and are distributed in a circumferential array, and then be convenient for fix the joint of two cables through the latch on fixed frame and the stopper, avoided tractive two cables always, make the maintenance butt joint between the cable convenient and fast more.

(3) According to the butt joint device with the jumper cable of the drive assembly, the accommodating structure is provided with the transmission structure in sliding connection, and the drive structure for driving the transmission structure is connected with the transmission structure; the transmission structure with accomodate the structural limit structure who all is equipped with and is used for fixed cable, and then be convenient for drive the transmission structure through drive structure, make transmission structure and accomodate the distance between two structural limit structure and reduce, then change the distance between two limit structure through the transmission structure, and then be convenient for quick elasticity between two cables of regulation, and then make the butt joint between the cable convenient and fast more, promptly: when two cables are fixed between the fixed frame and the limiting block, a second driving rod on one of the transmission racks meshed with the transmission bars is rotated, so that the threads of the second driving rod drive the transmission racks to slide with the guide rails, the transmission racks drive the transmission bars to slide with the containing frame, when the transmission racks are abutted against the guide rails, the first driving rod is rotated, the threads of the first driving rod drive the two guide rails to slide with the containing frame, so that the transmission racks on the two guide rails are alternately meshed with the transmission bars, the sum of the lengths of the two transmission racks is greater than the maximum distance between the two transmission racks, further, one transmission rack is always meshed with the transmission bars for limiting, then the other second driving rod is driven, the threads of the second driving rod drive the transmission racks to slide with the guide rails, the transmission racks drive the transmission bars to slide with the containing frame, and further, the transmission bars are driven alternately, make the transmission bar and accomodate and slide more stably between the frame, and the transmission range is bigger, then rotate the third actuating lever, slide between third actuating lever screw drive slide bar and the transmission bar, and then the change range that makes the distance between the fixed frame on transmission piece and the connecting rod is bigger, and then the elasticity between two cables of the quick regulation of being convenient for, make the butt joint between the cable convenient and fast more, after the cable butt joint is accomplished, use insulating material parcel with the cable crust that the latch damaged.

Drawings

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

FIG. 1 is a schematic diagram of the overall configuration of a jumper cable docking apparatus with a drive assembly according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural view of the fastening structure shown in FIG. 2;

FIG. 4 is an enlarged view of the portion B shown in FIG. 1;

FIG. 5 is a schematic view of a connection structure between the receiving frame and the driving structure shown in FIG. 4;

FIG. 6 is an enlarged view of the portion C shown in FIG. 5;

FIG. 7 is a schematic structural view of the transmission structure shown in FIG. 1;

FIG. 8 is an enlarged view of the portion D shown in FIG. 7;

fig. 9 is a schematic structural view of the limiting structure shown in fig. 1.

In the figure: 1. fixed knot constructs, 11, the bracing piece, 12, first clamp, 13, the second clamp, 14, the gag lever post, 15, the guiding axle, 16, reset spring, 2, accomodate the structure, 21, accomodate the frame, 22, the connecting rod, 3, the drive structure, 31, first actuating lever, 32, the second actuating lever, 33, the guide rail, 34, the driving rack, 4, limit structure, 41, fixed frame, 42, the stopper, 43, the latch, 44, the third actuating lever, 45, the leading wheel, 5, the transmission structure, 51, the driving block, 52, the driving strip, 53, the lead screw, 54, the anchor strut, 55, the slide bar.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 9, the jumper cable butt joint device with a drive assembly according to the present invention includes a fixing structure 1, a receiving structure 2, a drive structure 3, two limit structures 4, and a transmission structure 5; the end part of the fixed structure 1 for connecting the cable rack is vertically fixed on the receiving structure 2 for receiving the driving structure 3, and the driving structure 3 which is detachably connected is arranged in the receiving structure 2; the accommodating structure 2 is provided with the transmission structure 5 in sliding connection, and the driving structure 3 for driving the transmission structure 5 is connected to the transmission structure 5; the transmission structure 5 with it all is equipped with on the structure 2 to accomodate and is used for fixed cable limit structure 4, two limit structure 4 is on same straight line, two parallel arrangement between the limit structure 4, and two limit structure 4's top surface is on the coplanar.

Specifically, the accommodating structure 2 comprises an accommodating frame 21 and a connecting rod 22, the driving structure 3 is arranged inside the accommodating frame 21, and the connecting rod 22 is vertically arranged on the accommodating frame 21.

Specifically, the fixing structure 1 includes a support rod 11, a first clamp 12, a second clamp 13, a limit rod 14, a guide shaft 15 and a return spring 16, the support rod 11 is perpendicularly disposed on a side wall of the storage frame 21, the support rod 11 is parallel to the connecting rod 22, the end portion of the support rod 11 is provided with the first clamp 12 whose end portion is semi-annular, one end of the first clamp 12 is rotatably connected with the second clamp 13 through the guide shaft 15, the other end of the first clamp 12 is abutted against the second clamp 13, the first clamp 12 and the second clamp 13 enclose a containing cavity of a cylinder structure, one end of the end portion is of a cross-shaped structure, the other end of the first clamp 12 is a U-shaped end, the limit rod 14 is engaged with one end of the first clamp 12, which is disengaged from the guide shaft 15, the limit rod 14 is engaged with one end of the second clamp 13, which is disengaged from the guide shaft 15, the limit rod 14 penetrates through the return spring 16, and two ends of the return spring 16 respectively abut against the first clamp 12 and the limit rod 14; the end part of the fixed structure 1, which is used for connecting a cable rack, is vertically fixed on the accommodating structure 2, which is used for accommodating the driving structure 3, so that the device is fixed on the top end of the electric wire column through the fixed structure 1, and then the connection between the fixed structure 1 and the electric wire column is more convenient and faster, and the operation is more flexible, namely: firstly, one end of a pull rope is fixed on the transmission strip 52, then the pull rope is pulled after the pull rope climbs to the top end of a wire column, the pull rope is made to lift the device to a specified position, then the limit rod 14 is pulled, the limit rod 14 is abutted against the compression of the reset spring 16, meanwhile, the limit rod 14 is not clamped with the second clamp 13, so that the first clamp 12 and the second clamp 13 are not sealed, then the wire column is clamped between the first clamp 12 and the second clamp 13, then the second clamp 13 is rotated, the second clamp 13 rotates around the guide shaft 15, when the second clamp 13 is abutted against the first clamp 12, the limit rod 14 is loosened, the reset spring 16 is extended, the reset spring 16 is abutted against the limit rod 14, so that the limit rod 14 is made to slide with the first clamp 12, and then the limit rod 14 is clamped with the second clamp 13, and then make first clamp 12 with second clamp 13 encloses into a circular structure, and then convenient to use first clamp 12 cooperates the quick connection electric wire column of second clamp 13 makes the operation more nimble, the tip one end of gag lever post 14 is "ten" font structure, and other one end is the U-shaped, and then makes the pulling gag lever post 14 convenient and fast more.

Specifically, the limiting structure 4 includes a fixed frame 41, a limiting block 42, latch teeth 43, a third driving rod 44 and a guide wheel 45, the fixed frame 41 is disposed at the end of the connecting rod 22 and the end of the transmission structure 5, the limiting block 42 is slidably connected with the fixed frame 41, the third driving rod 44 is connected with the fixed frame 41 and the limiting block 42 in a penetrating manner, the third driving rod 44 is rotatably connected with the fixed frame 41, the third driving rod 44 is connected with the limiting block 42 by a screw thread, the latch teeth 43 with triangular cross-sections are disposed between the limiting block 42 and the fixed frame 41 in an arc array manner, the two fixed frames 41 are parallel to each other, a plurality of latch teeth 43 which form a circular ring between each limiting block 42 and each fixed frame 41 form a group, and a circular ring formed by two groups of latch teeth 43 is on the same column, the fixed frame 41 is provided with the guide wheel 45 with the cross section of an I-shaped structure; drive structure 5 with it is used for fixed cable all to be equipped with on structure 2 to accomodate limit structure 4, two limit structure 4 is on same straight line, two parallel arrangement, and two between the limit structure 4 the top surface of limit structure 4 is on the coplanar, and then is convenient for pass through drive structure 5 with on structure 2 is accomodate limit structure 4 is the joint of two fixed cables respectively, has avoided tractive two cables always, makes the maintenance butt joint between the cable convenient and fast more, promptly: the end parts of two broken cables are respectively fixed through pull ropes, the end parts of the cables are reserved with butt joint length, then the pull ropes are wound on the guide wheel 45, the cross section of the guide wheel 45 is in an I shape, so that the slip between the pull ropes and the guide wheel 45 is effectively prevented, then the pull ropes are pulled, the pull ropes drive the guide wheel 45 and the fixed frame 41 to rotate while lifting the cables, further the cables are pulled more labor-saving, when the end parts of the cables can pass through the fixed frame 41 and the limiting block 42, the cables pass through the limiting block 42 and the fixed frame 41, when the length between the two cables is larger than or equal to the butt joint length, the third driving rod 44 is rotated, the third driving rod 44 drives the limiting block 42 and the fixed frame 41 to slide through threads, so that the limiting block 42 and the latch 43 on the fixed frame 41 fixedly extrude the cables, latch 43 is triangle-shaped structure and circumference array distribution, and then has increased the area of contact with the cable, and then be convenient for pass through fixed frame 41 with on the stopper 42 the joint of two fixed cables of latch 43 has avoided tractive two cables always, makes the maintenance butt joint between the cable convenient and fast more.

Specifically, the driving structure 3 includes a first driving rod 31, a second driving rod 32, a guide rail 33 and a driving rack 34, the first driving rod 31 is connected with the storage frame 21 in a rotating manner, the first driving rod 31 is parallel to the fixed frame 41, the first driving rod 31 is perpendicular to the support rod 11, two guiding rails 33 are arranged on the first driving rod 31, the guiding rails 33 are connected with the storage frame 21 in a sliding manner, the guiding rails 33 are perpendicular to the first driving rod 31, the driving rack 34 is arranged on the guiding rails 33 in a sliding manner, one of the two guiding rails 34 is engaged with the driving structure 5, the driving rack 34 is perpendicular to the guiding rails 33, the second driving rod 32 is connected with the guiding rails 33 in a penetrating manner, and the second driving rod 32 is connected with the guiding rails 33 in a rotating manner, the second driving rod 32 is connected with the driving rack 34 through a screw thread, and the second driving rod 32 is perpendicular to the first driving rod 31.

Specifically, the transmission structure 5 includes a transmission block 51, a transmission bar 52, a screw 53, a reinforcing rod 54 and a sliding rod 55, the transmission bar 52 having a U-shaped cross section along the axial direction of the second driving rod 32 is slidably connected to the receiving frame 21, one of the two transmission racks 34 is engaged with the transmission bar 52, the driving bar 52 is provided with a plurality of reinforcing rods 54 for reinforcing with a V-shaped cross section, the section of the end of the driving rod 52 along the direction of the first driving rod 31 is an inverted T-shaped structure, the sliding rod 55 is connected with the transmission strip 52 in a sliding way, the screw rod 53 is connected with the transmission strip 52 in a rotating way, the screw 53 is in threaded connection with the sliding rod 55, the transmission block 51 is fixed on the sliding rod 55, and the fixing frame 41 is fixed on the transmission block 51; the accommodating structure 2 is provided with the transmission structure 5 in sliding connection, and the driving structure 3 for driving the transmission structure 5 is connected to the transmission structure 5; drive structure 5 with it is used for fixed cable all to be equipped with on structure 2 to accomodate limit structure 4, and then be convenient for pass through drive structure 3 drive structure 5 makes drive structure 5 with accomodate two on the structure 2 distance between the limit structure 4 reduces, then passes through drive structure 5 changes two distance between the limit structure 4, and then the elasticity between two cables of quick regulation of being convenient for, and then make the butt joint between the cable convenient and fast more, promptly: when two cables are fixed between the fixed frame 41 and the limiting block 42, one of the second driving rods 32 on one of the driving racks 34 engaged with the driving bars 52 is rotated, so that the second driving rod 32 drives the driving rack 34 and the guide rail 33 to slide through threads, the driving rack 34 drives the driving bars 52 and the storage frame 21 to slide, when the driving rack 34 is abutted against the guide rail 33, the first driving rod 31 is rotated, the first driving rod 31 drives the two guide rails 33 and the storage frame 21 to slide through threads, so that the driving racks 34 on the two guide rails 33 are alternately engaged with the driving bars 52, the sum of the lengths of the two driving racks 34 is greater than the maximum distance between the two driving racks 34, and further, one driving rack 34 is always engaged with the driving bar 52 for limiting, then another second driving rod 32 is driven, the second driving rod 32 drives the transmission rack 34 and the guide rail 33 to slide through the screw thread, the transmission rack 34 drives the transmission rack 52 to slide with the receiving frame 21, thereby facilitating the alternate transmission of the transmission bar 52, making the sliding between the transmission bar 52 and the containing frame 21 more stable, and the transmission range is wider, then, the third driving rod 44 is rotated, the third driving rod 44 drives the sliding rod 55 and the transmission bar 52 to slide in a threaded manner, thereby making the range of change of the distance between the transmission block 51 and the fixing frame 41 on the connection rod 22 larger, thereby being convenient for rapidly adjusting the tightness between the two cables, leading the butt joint between the cables to be more convenient and rapid, after the cable is completely butted, the damaged cable sheath of the latch 43 is covered by an insulating material.

When the device is used, one end of the pull rope is fixed on the transmission strip 52, the pull rope is pulled after the device climbs to the top end of the electric wire column, the pull rope is pulled to enable the device to be lifted to a designated position, then the limiting rod 14 is pulled, the limiting rod 14 is abutted against the reset spring 16 to be compressed, meanwhile, the limiting rod 14 is not clamped with the second clamp 13, the first clamp 12 and the second clamp 13 are not sealed, then the electric wire column is clamped between the first clamp 12 and the second clamp 13, then the second clamp 13 is rotated, the second clamp 13 rotates around the guide shaft 15, when the second clamp 13 is abutted against the first clamp 12, the limiting rod 14 is loosened, the reset spring 16 extends, the reset spring 16 is abutted against the limiting rod 14, the limiting rod 14 is made to slide between the first clamp 12, then the limiting rod 14 is clamped with the second clamp 13, further, the first clamp 12 and the second clamp 13 are made to form a circular structure, and further the first clamp 12 is matched with the second clamp 13 to be conveniently used for rapidly connecting, the operation is more flexible, one end of the end part of the limiting rod 14 is in a cross-shaped structure, and the other end of the end part of the limiting rod is in a U shape, so that the limiting rod 14 can be pulled more conveniently and rapidly; the ends of two broken cables are respectively fixed through pull ropes, the ends of the cables are reserved with butt joint length, then the pull ropes are wound on the guide wheel 45, the cross section of the guide wheel 45 is in an I shape, so that slippage between the pull ropes and the guide wheel 45 is effectively prevented, then the pull ropes are pulled, the pull ropes drive the guide wheel 45 and the fixed frame 41 to rotate while lifting the cables, so that the cables are pulled more labor-saving, when the ends of the cables can pass through the fixed frame 41 and the limiting block 42, the cables pass through the limiting block 42 and the fixed frame 41, when the length between the two cables is greater than or equal to the butt joint length, the third driving rod 44 is rotated, the third driving rod 44 drives the limiting block 42 and the fixed frame 41 to slide through threads, the limiting block 42 and the latch 43 on the fixed frame 41 fixedly extrude the cables, and the latch 43 is in a triangular structure and is distributed in a, the contact area between the cables is increased, so that the joints of the two cables are conveniently fixed through the clamping teeth 43 on the fixing frame 41 and the limiting block 42, the two cables are prevented from being pulled all the time, and the cables are more conveniently and quickly overhauled and butted; when two cables are fixed between the fixed frame 41 and the limiting block 42, one second driving rod 32 on one of the driving racks 34 engaged with the driving bars 52 is rotated, so that the second driving rod 32 drives the driving racks 34 to slide between the guide rails 33 through threads, the driving racks 34 drive the driving bars 52 to slide with the receiving frame 21, when the driving racks 34 are abutted against the guide rails 33, the first driving rod 31 is rotated, the first driving rod 31 drives the two guide rails 33 to slide between the receiving frame 21 through threads, the driving racks 34 on the two guide rails 33 are alternately engaged with the driving bars 52, the sum of the lengths of the two driving racks 34 is greater than the maximum distance between the two driving racks 34, and therefore one driving rack 34 is always engaged with the driving bar 52 for limiting, and then the other second driving rod 32 is driven, so that the second driving rod 32 drives the driving racks 34 to slide between the guide rails 33 through threads, make driving rack 34 drive transmission strip 52 and accomodate the frame 21 and slide, and then be convenient for alternate drive strip 52 transmits, it is more stable to make transmission strip 52 and accomodate sliding between the frame 21, and the transmission range is bigger, then rotate third actuating lever 44, it slides between third actuating lever 44 screw thread drive slide bar 55 and the transmission strip 52, and then the change range of the distance between the fixed frame 41 on messenger's transmission piece 51 and the connecting rod 22 is bigger, and then the elasticity between two cables of quick regulation of being convenient for, make the butt joint between the cable convenient and fast more, after the cable butt joint is accomplished, use insulating material parcel with the cable crust of latch 43 damage.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A jumper cable docking assembly with a drive assembly, comprising: comprises a fixed structure (1), a containing structure (2), a driving structure (3), two limiting structures (4) and a transmission structure (5); the end part of the fixing structure (1) for connecting the cable rack is vertically fixed on the receiving structure (2) for receiving the driving structure (3), and the driving structure (3) which is detachably connected is arranged in the receiving structure (2); the accommodating structure (2) is provided with the transmission structure (5) in sliding connection, and the driving structure (3) for driving the transmission structure (5) is connected to the transmission structure (5); the transmission structure (5) with accomodate and all be equipped with on structure (2) and be used for fixed cable limit structure (4), two limit structure (4) are on same straight line, two parallel arrangement between limit structure (4), and two the top surface of limit structure (4) is on the coplanar.

2. A jumper cable docking device with a drive assembly according to claim 1, wherein: the storage structure (2) comprises a storage frame (21) and a connecting rod (22), the driving structure (3) is arranged in the storage frame (21), and the connecting rod (22) is vertically arranged on the storage frame (21).

3. A jumper cable docking device with a drive assembly according to claim 2, wherein: the fixing structure (1) comprises a supporting rod (11), a first clamp (12), a second clamp (13), a limiting rod (14), a guide shaft (15) and a reset spring (16), wherein the supporting rod (11) is perpendicularly arranged on the side wall of the containing frame (21), the supporting rod (11) is parallel to the connecting rod (22), the end part of the supporting rod (11) is provided with the first clamp (12) with a semi-annular end part, one end of the first clamp (12) is rotatably connected with the second clamp (13) through the guide shaft (15), the other end of the first clamp (12) is abutted against the second clamp (13), the first clamp (12) and the inside of the second clamp (13) enclose into a containing cavity with a cylindrical structure, one end of the end part is of a cross-shaped structure, the other end of the limiting rod (14) is U-shaped, and the first clamp (12) deviates from one end of the guide shaft (15) is clamped, gag lever post (14) with second clamp (13) deviates from the one end block of guiding axle (15), gag lever post (14) run through in reset spring (16), reset spring (16) the both ends contradict respectively in first clamp (12) with gag lever post (14).

4. A jumper cable docking device with a drive assembly according to claim 3, wherein: the limiting structure (4) comprises a fixed frame (41), a limiting block (42), clamping teeth (43), a third driving rod (44) and a guide wheel (45), the end parts of the connecting rod (22) and the transmission structure (5) are respectively provided with the fixed frame (41), the limiting block (42) is in sliding connection with the fixed frame (41), the third driving rod (44) is in through connection with the fixed frame (41) and the limiting block (42), the third driving rod (44) is in rotating connection with the fixed frame (41), the third driving rod (44) is in threaded connection with the limiting block (42), the clamping teeth (43) with triangular cross sections are arranged on an arc array between the limiting block (42) and the fixed frame (41), the two fixed frames (41) are parallel, and a plurality of clamping teeth (43) which are in a circular ring shape and are enclosed between each limiting block (42) and each fixed frame (41) are in a group, the two groups of clamping teeth (43) form a ring on the same column, and the guide wheel (45) with the cross section of an I-shaped structure is arranged on the fixing frame (41).

5. A jumper cable docking device with a drive assembly according to claim 4, in which: the driving structure (3) comprises a first driving rod (31), a second driving rod (32), a guide rail (33) and a transmission rack (34), the first driving rod (31) is connected with the containing frame (21) in a rotating mode, the first driving rod (31) is parallel to the fixing frame (41), the first driving rod (31) is perpendicular to the supporting rod (11), the first driving rod (31) is provided with two guide rails (33), the guide rail (33) is connected with the containing frame (21) in a sliding mode, the guide rail (33) is perpendicular to the first driving rod (31), the guide rail (33) is provided with the transmission rack (34) in a sliding mode, one of the transmission rack (34) is meshed with the transmission structure (5), and the transmission rack (34) is perpendicular to the guide rail (33), the second driving rod (32) is connected with the guide rail (33) and the transmission rack (34) in a penetrating mode, the second driving rod (32) is connected with the guide rail (33) in a rotating mode, the second driving rod (32) is connected with the transmission rack (34) in a threaded mode, and the second driving rod (32) is perpendicular to the first driving rod (31).

6. A jumper cable docking device with a drive assembly according to claim 5, in which: the transmission structure (5) comprises a transmission block (51), a transmission bar (52), a screw rod (53), a reinforcing rod (54) and a sliding rod (55), the section of the transmission bar (52) along the axis direction of the second driving rod (32) is of a U-shaped structure, the transmission bar (21) is in sliding connection with the transmission bar (52), one of the two transmission racks (34) is meshed with the transmission bar (52), the transmission bar (52) is provided with a plurality of reinforcing rods (54) which are used for reinforcing and have V-shaped sections, the section of the end part of the transmission bar (52) along the direction of the first driving rod (31) is of an inverted T-shaped structure, the sliding rod (55) is in sliding connection with the transmission bar (52), the screw rod (53) is in rotating connection with the transmission bar (52), and the screw rod (53) is in threaded connection with the sliding rod (55), the transmission block (51) is fixed on the sliding rod (55), and the fixing frame (41) is fixed on the transmission block (51).