CN113224553B - Cable conductive clamp and using method thereof - Google Patents

Abstract

The invention discloses a cable conductive clamp and a use method thereof, the cable conductive clamp comprises a left conductive clamp shell and a right conductive clamp shell which are approximately symmetrical, the left conductive clamp shell and the right conductive clamp shell can be combined and connected into a whole, the cable conductive clamp is convenient to disassemble, the left conductive clamp shell and the right conductive clamp shell can be stably spliced through a connecting plate and a thread plate, so that a complete whole is formed, meanwhile, when the subsequent disassembly is needed, the threaded plate moves rightwards under the elastic action of a connecting spring and pushes the connecting plate to reset, so that the effect of conveniently disassembling the whole conductive clamp shells is achieved, meanwhile, the cable conductive clamp adapts to the effect of adapting to cables with different diameters through rotating a clamping assembly, and when the device is impacted or has larger impact force due to external factors in the working process, the vibration force caused by external force impact is greatly reduced, so that the safety performance of the device is improved.

Description

Cable conductive clamp and using method thereof

Technical Field

The invention relates to the technical field of cable conductive clamps, in particular to a cable conductive clamp and a using method thereof.

Background

In the power engineering, the wire clamp connection technology is a technology for connecting wires, a common conductive clamp is independently arranged, when the connection between power is conducted, the diameter of a connector cannot be changed, the conductive clamp cannot be well adapted to the thickness of cable wires with different diameters, the conductive clamp is relatively unchanged in the subsequent use process, and in the use process, if the conductive clamp is subjected to external force impact such as impact, the cable wires are easy to shake or break under the action of external force due to large mass.

Disclosure of Invention

The present invention is directed to a cable conductive clip and a method of using the same to overcome the above-mentioned deficiencies in the prior art.

The invention relates to a cable conductive clamp, which comprises two conductive clamp shells which are approximately symmetrical on the left and right sides, wherein the conductive clamp shells on the left and right sides can be combined and connected into a whole, an output plate is fixedly arranged at the upper end of each conductive clamp shell, a power output cavity with an upward opening is arranged in each output plate, a power protection plate is fixedly arranged on the inner circular surface of each power output cavity, a connecting cavity is arranged in each output plate, a connecting plate which can move left and right and is used for connecting and clamping is arranged in each connecting cavity, each connecting plate is magnetic, a threaded plate with threads on the surface is fixedly arranged on the left side wall of each connecting cavity, each threaded plate is in threaded connection with the outer circular surface of each connecting plate, a conductive device is fixedly arranged at the center in each conductive clamp shell and is used for connecting a cable, rotating cavities are arranged on the left and right sides of each conductive clamp shell, and a rotating clamping assembly is arranged in each rotating cavity, the rotary clamping assembly is used for installing and clamping a connected cable, and can change the clamping diameter in the rotating process, the end faces of the left side and the right side of the conductive clamp shell are fixedly provided with rotatable rotating plates, the rotating plates are rotatably connected with the conductive clamp shell through annular supporting rotating plates, one end face of one side, away from the conductive clamp shell, of each rotating plate is fixedly provided with a connecting plate, a circular arc-shaped telescopic supporting cavity with an outward opening is arranged in each connecting plate, a protection plate which can move left and right and is annular is arranged in each telescopic supporting cavity, the lower end face of the conductive clamp shell is fixedly provided with a fixed supporting plate, a damping cavity with a downward opening is arranged in each fixed supporting plate, a supporting plate which is connected with the outside is fixedly arranged in each damping cavity, and the damping cavities are divided into two bilaterally symmetrical spaces by the supporting plates, the damping cavity is internally provided with a damping plate capable of moving up and down, the upper wall in the damping cavity is fixedly provided with a damping assembly, and the damping assembly can reduce the vibration force transmitted by the damping plate.

Further technical scheme, it just is located to link up the intracavity the linking plate left side is equipped with the expansion plate that removes about can, expansion plate left end face with link up fixedly connected with coupling spring between the chamber left side wall terminal surface, it is equipped with the electro-magnet to link up the intracavity fixation, linking plate right-hand member face fixedly connected with links up the connecting rod, it is equipped with reciprocating cavity to link up chamber right side wall intercommunication, it extends to link up the connecting rod right-hand member towards the right reciprocating intracavity, it is equipped with the removal spout that encircles to link up the outer disc of connecting rod, a reciprocating cavity lateral wall just is located and is close to link up the fixed pointer that is equipped with in chamber one side, fixed pointer is close to link up connecting rod one end with remove spout butt and sliding connection.

The technical scheme is further that the rotary clamping assembly comprises clamping plates which are located in a rotary cavity and distributed in an annular arrangement mode, all clamping plates can form a clamping cavity which penetrates through the communicating from left to right after being combined in a rotary mode, all the clamping plates are far away from one side end face of the conductive clamp shell, clamping plates are fixedly arranged on the circular face of the rotary cavity and fixedly provided with clamping fixing plates, clamping cavities which penetrate through the communicating from two sides are arranged in the clamping fixing plates, the clamping plates extend into the clamping plates and are clamped, the rotary cavity is far away from one side wall of the connecting plate and is communicated with a regular hexagon guide chute, all the clamping plates are close to one side end face of the guide chute and are fixedly provided with sliding plates, and the sliding plates extend into the guide chute and are connected in a sliding mode.

Further technical scheme, the left and right sides just be located in the rotor plate support the rotor plate downside and be equipped with the transmission chamber, it is equipped with the transmission shaft to rotate between the two walls about the transmission intracavity, the outer disc fixedly connected with transmission runner of transmission shaft, the transmission runner with support the outer disc gear engagement of rotor plate, two all be equipped with the line wheel chamber in the lateral wall that the transmission chamber was kept away from each other, the transmission shaft is close to a line wheel chamber side end extends to line wheel intracavity and fixedly connected with line wheel, the outer disc fixed connection of line wheel just winds the rope stay cord that is equipped with certain length.

In a further technical scheme, an expansion spring is fixedly connected between the protective plate and one side wall of the expansion supporting cavity, a movable pull rope is fixedly connected with one side end face of the protective plate close to each other, the movable pull rope is connected with the rope pull rope,

further technical scheme, the left and right sides flexible support chamber upper wall intercommunication is equipped with the slider chamber, the slider intracavity is equipped with the dress card slider that can reciprocate, the lower extreme is the inclined plane of slope in the dress card slider, dress card slider up end with fixedly connected with slide spring between the slider chamber upper wall terminal surface.

A further technical scheme, the subassembly of moving away to avoid possible earthquakes is including being located damping cavity and fixed connection in the working plate that damping cavity upper wall and matrix arrangement distribute, be equipped with the chamber of moving away to avoid possible earthquakes in the working plate, the intracavity wall of moving away to avoid possible earthquakes is coarse, the intracavity of moving away to avoid possible earthquakes is equipped with the lift connecting plate that can reciprocate, terminal surface fixedly connected with lift connecting rod under the lift connecting plate, the lower terminal surface downwardly extending of lift connecting rod to in the damping cavity and with damping plate up end fixed connection, lift connecting plate up end with fixedly connected with spring of moving away to avoid possible earthquakes between the chamber up end, terminal surface under the working plate with fixedly connected with lift spring between the damping plate up end.

Further technical scheme, be equipped with the decurrent support chamber of opening in the backup pad, support the chamber and control two walls intercommunication and be equipped with the connection chamber, it can remove the transmission connecting rod that removes to be equipped with in the connection chamber, the fixed threaded rod that is equipped with surface screwed of transmission connecting rod left end, the threaded rod with connect intracavity wall threaded connection, the transmission connecting rod right-hand member extends to towards the right electrically conductive clamp shell outside and fixedly connected with rotation handrail.

A cable conductive clip and a using method thereof comprise the following steps:

the method comprises the steps of firstly, splicing and combining left and right conductive clamp shells, rotating a rotating handrail below the left and right conductive clamp shells, rotating the rotating handrail at the moment and driving a transmission connecting rod to rotate, driving a threaded rod to rotate through fixed connection, driving the threaded rod to rotate through threaded connection with the inner wall of a connecting cavity and fixedly connecting the threaded rod at the moment, starting an electromagnet and having magnetism at the same time, driving an engaging plate to move left through magnetic attraction at the moment, driving the engaging connecting rod to move left through fixed connection, driving the engaging plate to move left through abutting and sliding of a moving chute and a fixed pointer in the leftward movement process of the engaging connecting rod, driving the engaging connecting rod to rotate, driving the engaging rod to rotate and driving the engaging plate to rotate at the moment, driving the engaging plate to rotate left through threaded connection with the inner surface of the threaded plate at the moment, simultaneously pushing a protection plate to move left under the elastic force of a connecting spring, stably splicing the left and right conductive clamp shells through threaded connection of the engaging plate to form a complete whole body, and stopping the electromagnet at the moment if subsequent splitting is needed.

A second step, when the conductive connection is needed, the rotating plate is rotated at the moment, the rotating plate rotates and drives all clamping fixing plates to rotate a certain angle, the clamping plate rotates and drives the clamping plates to move towards a position far away from the symmetric center through rotating with the clamping plates, meanwhile, the clamping plates drive the clamping plates to move through fixed connection, the clamping plates are located on the sliding plates to guide sliding and move in guide sliding grooves, the effect of increasing the cross-sectional area of a clamping cavity is achieved, the effect of adapting to cables with different diameters is achieved, the cables to be conductively connected are inserted into cable connection cavities on one side and move inwards and are connected with a conductive device, the clamping plates are driven to reset through reversing rotating plates, the outer end faces of the cables are gradually clamped in the process, the rotating plates rotate through supporting of the supporting rotating plates, the rotating plates drive the transmission rotating wheels to rotate relative to the supporting rotating plates, the transmission rotating wheels start to rotate through threaded connection with the outer faces of the supporting rotating plates, the transmission wheels drive the transmission wheels to rotate and drive the transmission wheels to rotate, ropes wound on the outer faces of the outer wire wheels, the ropes and loosen the ropes wound on the stay ropes, the stay ropes and the pull ropes, the protection plates move towards the outer faces of the outer protection plates through the outer protection plates, and move towards the outer protection plates through the limiting springs, and move towards the outer ends of the outer protection plates, and extend towards the limiting springs, and the outer poles.

And thirdly, after the cable connection is completely finished, the power supply can be output through the power output cavity, meanwhile, the shell of the conductive clamp is integrally installed at a fixed working position through the lower end supporting plate, and the shell is abutted against the ground or the surface of the installed box body or the supporting plate through the vibration reduction plate, at the moment, if the device is impacted or larger impact force is caused due to external factors in the working process, after preliminary vibration reduction is performed through the lifting spring, after vibration force is input through the lifting connecting rod, after the vibration force is further reduced through the rough inner wall of the vibration reduction cavity and the friction connection with the lifting connecting plate, further vibration reduction is performed through the vibration reduction spring, and then the vibration force caused by external force impact is greatly reduced, so that the safety performance of the device is improved.

The beneficial effects of the invention are: the cable connector is convenient to disassemble, the left and right conductive clamp shells can be stably spliced through the threaded connection of the connecting plate and the threaded plate to form a complete whole, meanwhile, when subsequent disassembling is needed, the threaded plate moves rightwards under the elastic action of the connecting spring and pushes the connecting plate to reset, so that the effect of conveniently disassembling the whole conductive clamp shells is achieved, meanwhile, the cable connector adapts to the effect of adapting to cables with different diameters by rotating the rotary clamping assembly, and when the cable connector is impacted or large impact force is caused by external factors in the working process, the vibration force caused by external force impact is greatly reduced, and the safety performance of the cable connector is improved.

The invention has the beneficial effects that: the invention is convenient to disassemble, and can stably splice the shells of the left and right conductive clamps through the threaded connection of the connecting plates and the threaded plates, thereby forming a complete whole, and meanwhile, when subsequent disassembly is needed, the shell moves rightwards under the elastic action of the connecting spring through the threaded plates, and the connecting plates are pushed to reset, thereby achieving the effect of conveniently disassembling the whole shell of the conductive clamp.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic view of an external appearance of a cable clamp according to the present invention;

fig. 2 is a schematic view of the internal overall structure of a cable conductive clip of the present invention;

FIG. 3 isbase:Sub>A schematic view of the structure at A-A in FIG. 2;

FIG. 4 is a schematic diagram of the structure at B in FIG. 2;

FIG. 5 is a schematic view of the structure at C-C in FIG. 4;

FIG. 6 is a schematic diagram of the structure of FIG. 2 at D;

FIG. 7 is a schematic diagram of the structure at E in FIG. 2;

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 7, a cable conductive clip according to an embodiment of the present invention includes two conductive clip housings 11 that are substantially symmetrical to each other, the conductive clip housings 11 on the left and right sides can be combined and connected into a whole, an output plate 24 is fixedly disposed at the upper end of the conductive clip housing 11, an electric power output cavity 25 with an upward opening is disposed in the output plate 24, an electric power protection plate 26 is fixedly disposed in an inner circular surface of the electric power output cavity 25, a connecting cavity 28 is disposed in the output plate 24, a connecting plate 29 that can move left and right for connecting and clamping is disposed in the connecting cavity 28, the connecting plate 29 has magnetism, a threaded plate 31 with a threaded surface is fixedly disposed on a left side wall of the connecting cavity 28, the threaded plate 31 is in threaded connection with an outer circular surface of the connecting plate 29, a conductive device 23 is fixedly disposed in an inner center of the conductive clip housing 11 for cable connection, rotating cavities 44 are disposed on the left and right sides of the conductive clip housing 11, a rotating clamping assembly is disposed in the rotating cavity 44, the rotating clamping assembly is disposed in the rotating cavity 44 for mounting and clamping a connected cable, and clamping the connected cable, and a diameter can be changed during rotation, a rotating clamp housing 11 is disposed with a rotating clamp housing 11, a rotating clamp housing 11 with a rotating plate 43 that is disposed in a rotating plate 55 that is rotatably supported by a fixing plate 21, a rotating plate 21, a supporting plate 55, a supporting plate 21 is disposed in a side of the fixing clamp housing 11, a telescopic clamp housing 11, a support plate 21 is disposed on a support plate 21 that an opening is disposed on a side of the support plate 21, the vibration damping device is characterized in that a supporting plate 15 connected with the outside is fixedly arranged in the vibration damping cavity 68, the supporting plate 15 divides the vibration damping cavity 68 into two bilaterally symmetrical spaces, vibration damping plates 61 capable of moving up and down are arranged in the vibration damping cavity 68 on the left side and the right side, a vibration damping assembly is fixedly arranged on the upper wall in the vibration damping cavity 68, and the vibration damping assembly can reduce the vibration force transmitted by the vibration damping plates 61.

Beneficially or exemplarily, a telescopic plate 30 capable of moving left and right is disposed in the engaging cavity 28 and on the left side of the engaging plate 29, a connecting spring 32 is fixedly connected between the left end surface of the telescopic plate 30 and the left wall end surface of the engaging cavity 28, an electromagnet 33 is fixedly disposed in the engaging cavity 28, an engaging link 36 is fixedly connected to the right end surface of the engaging plate 29, a reciprocating cavity 37 is disposed in the right wall of the engaging cavity 28 in communication, the right end surface of the engaging link 36 extends to the right into the reciprocating cavity 37, a surrounding moving chute 35 is disposed on the outer circumferential surface of the engaging link 36, a fixed pointer 27 is fixedly disposed on a side wall of the reciprocating cavity 37 and on the side close to the engaging cavity 28, and one end of the fixed pointer 27 close to the engaging link 36 abuts against and is slidably connected to the moving chute 35.

Beneficially or exemplarily, the rotating clamping assembly includes clamping plates 39 located in the rotating cavity 44 and distributed in an annular arrangement, all the clamping plates 39 can form a clamping cavity 38 communicating through left and right after being rotated and combined, one side end face of all the clamping plates 39 away from the conductive clamp housing 11 is fixedly provided with a clamping plate 46, an inner circular face of the rotating cavity 44 is distributed in an annular arrangement and fixedly provided with a clamping fixing plate 47, a clamping cavity 45 communicating through two sides is arranged in the clamping fixing plate 47, the clamping plate 46 extends into the clamping plate 46 and is clamped, one side wall of the rotating cavity 44 away from the connecting plate 21 is communicated with a regular-hexagon guide chute 40, one side end face of all the clamping plates 39 close to the guide chute 40 is fixedly provided with a sliding plate 41, and the sliding plate 41 extends into the guide chute 40 and is connected in a sliding manner.

Beneficially or exemplarily, a transmission cavity 52 is formed in the rotating plate 43 on the left and right sides and located at the lower side of the supporting rotating plate 42, a transmission shaft 51 is rotatably arranged between the left wall and the right wall in the transmission cavity 52, a transmission wheel 53 is fixedly connected to the outer circumferential surface of the transmission shaft 51, the transmission wheel 53 is in gear engagement with the outer circumferential surface of the supporting rotating plate 42, a pulley cavity 48 is formed in each of the side walls of the transmission cavities 52 away from each other, the end surface of the transmission shaft 51 near one side of the pulley cavity 48 extends into the pulley cavity 48 and is fixedly connected with a pulley 49, and a rope pulling rope 50 with a certain length is fixedly connected to the outer circumferential surface of the pulley 49 and is wound around the rope pulling rope.

Advantageously or exemplarily, an expansion spring 62 is fixedly connected between the protection plate 20 and one side wall of the expansion supporting cavity 63, a moving pull rope 19 is fixedly connected to the end surface of the protection plate 20 close to each other, the moving pull rope 19 is connected to the rope pull 50,

beneficially or exemplarily, the upper walls of the telescopic supporting cavities 63 on the left side and the right side are communicated with each other to form a sliding block cavity 66, a clamping slide block 65 capable of moving up and down is arranged in the sliding block cavity 66, the lower end inside the clamping slide block 65 is an inclined plane 64, and a sliding spring 67 is fixedly connected between the upper end surface of the clamping slide block 65 and the upper wall end surface of the sliding block cavity 66.

Beneficially or exemplarily, the suspension assembly comprises a working plate 56 which is located in the damping cavity 68 and is fixedly connected to the upper wall of the damping cavity 68 and distributed in a matrix arrangement, a suspension cavity 57 is arranged in the working plate 56, the inner wall of the suspension cavity 57 is rough, a lifting connecting plate 58 which can move up and down is arranged in the suspension cavity 57, a lifting connecting rod 59 is fixedly connected to the lower end face of the lifting connecting plate 58, the lower end face of the lifting connecting rod 59 extends downwards into the damping cavity 68 and is fixedly connected to the upper end face of the damping plate 61, a suspension spring 54 is fixedly connected between the upper end face of the lifting connecting plate 58 and the upper end face of the suspension cavity 57, and a lifting spring 60 is fixedly connected between the lower end face of the working plate 56 and the upper end face of the damping plate 61.

Beneficially or exemplarily, a support cavity 13 with a downward opening is formed in the support plate 15, a connection cavity 12 is formed in communication between the left wall and the right wall of the support cavity 13, a transmission link 17 capable of moving left and right is formed in the connection cavity 12, a threaded rod 14 with threads on the surface is fixedly arranged at the left end of the transmission link 17, the threaded rod 14 is in threaded connection with the inner wall of the connection cavity 12, and the right end of the transmission link 17 extends to the right outside of the conductive clamp shell 11 and is fixedly connected with a rotating handrail 18.

A cable conductive clamp and a using method thereof comprise the following steps:

firstly, after splicing and combining the left and right conductive clamp shells 11, rotating the lower rotating handrail 18, at the same time, rotating the rotating handrail 18 and driving the transmission connecting rod 17 to rotate, driving the threaded rod 14 to rotate through the fixed connection by the transmission connecting rod 17, at the same time, driving the threaded rod 14 to rotate and fixedly connect with the inner wall of the connecting cavity 12 through the threaded connection, simultaneously starting the electromagnet 33 and having magnetism, at the same time, driving the connecting plate 29 to move leftwards through the magnetic attraction by the electromagnet 33, at the same time, driving the connecting plate 29 to move leftwards through the fixed connection and driving the connecting rod 36 to move leftwards through the fixed connection, in the process that the connecting rod 36 moves leftwards through the movable sliding chute 35 and the fixed pointer 27, further driving the connecting rod 36 to rotate, at the connecting rod 36 to rotate and driving the connecting plate 29 to rotate, at the same time, the connecting plate 29 rotates and moves leftwards through the threaded connection with the inner surface of the threaded plate 31, simultaneously, pushing the protection plate 20 to overcome the elastic force of the connecting spring 32 to move leftwards, at the same time, at the connecting plate 29 is in threaded connection with the threaded plate 31, stably splicing and the left, further forming a complete integral time, and further achieving the removal of the conductive clamp shells 11, and pushing effect of the electromagnet 33 to move rightwards when the subsequent work is needed.

Secondly, when conducting connection is needed, the rotating plate 43 is rotated at the moment, the rotating plate 43 rotates and drives all the clamping fixing plates 47 to rotate for a certain angle, the clamping plates 46 are clamped with the clamping plates 46 and drive the clamping plates 46 to move away from the symmetrical center, meanwhile, the clamping plates 46 drive the clamping plates 39 to move through fixed connection, the clamping plates 39 slide and move in the guide sliding grooves 40 of the sliding plates 41, the effect of increasing the cross section area of the clamping cavity 38 is achieved, the effect of adapting to thick and thin cables with different diameters is achieved, at the moment, the cables conducting connection are inserted into the cable connection cavity 22 on one side and move inwards and are connected with the electric conductors 23, then the clamping plates 39 are driven to reset through the rotating plate 43 in a reverse mode, and the outer end faces of the cables are clamped gradually in the process, in the process, the rotating plate 43 rotates through the support of the support rotating plate 42, the rotating plate 43 rotates to drive the transmission rotating wheel 53 to rotate relative to the support rotating plate 42, at the moment, the transmission rotating wheel 53 starts to rotate through threaded connection with the outer circular surface of the support rotating plate 42, meanwhile, the transmission rotating wheel 53 rotates and drives the wire wheel 49 to rotate through the transmission shaft 51, the wire wheel 49 rotates and loosens the rope pulling rope 50 wound on the outer circular surface of the wire wheel 49, at the moment, the connection between the rope pulling rope 50 and the moving pulling rope 19 is loosened, at the moment, the protection plate 20 outwards moves under the elastic action of the telescopic spring 62, the cable is protected through the protection plate 20, meanwhile, the length of a protection range is increased through the protection plate 20 extending outwards, and when the protection plate 20 moves to an outer limit position, the protection plate downwards moves through the inclined surface 64 and is further abutted and fixed.

Thirdly, after the cable connection is completed completely, the power supply can be output through the power output cavity 25, meanwhile, the whole conductive clamp shell 11 is arranged at a fixed working position through the lower end support plate 15 and is abutted against the ground or the surface of an installed box body or a support plate through the vibration reduction plate 61, at the moment, if the device is impacted or large impact force is caused by external factors in the working process, after preliminary vibration reduction is carried out through the lifting spring 60, after vibration force is input through the lifting connecting rod 59, after the vibration force is further reduced through the rough inner wall of the vibration reduction cavity 57 and the friction connection of the lifting connecting plate 58, further vibration reduction is carried out through the vibration reduction spring 54, the vibration force caused by external force impact is further reduced greatly, and the safety performance of the device is improved.

The beneficial effects of the invention are: the invention is convenient to disassemble, and can stably splice the shells of the left and right conductive clamps through the threaded connection of the connecting plates and the threaded plates, thereby forming a complete whole, and meanwhile, when subsequent disassembly is needed, the shell moves rightwards under the elastic action of the connecting spring through the threaded plates, and the connecting plates are pushed to reset, thereby achieving the effect of conveniently disassembling the whole shell of the conductive clamp.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims (9)

1. The utility model provides a cable conductive clip, includes the conductive clip shell, its characterized in that: the damping clamp comprises a left conductive clamp shell and a right conductive clamp shell which are generally symmetrical, the left conductive clamp shell and the right conductive clamp shell can be combined and connected into a whole, an output plate is fixedly arranged at the upper end of the conductive clamp shell, an electric power output cavity with an upward opening is arranged in the output plate, an electric power protection plate is fixedly arranged on the inner circular surface of the electric power output cavity, a linking cavity is arranged in the output plate, a linking plate capable of moving left and right for linking and clamping is arranged in the linking cavity, the linking plate has magnetism, a threaded plate with a threaded surface is fixedly arranged on the left side wall of the linking cavity, the threaded plate is in threaded connection with the outer circular surface of the linking plate, a conductive device is fixedly arranged at the center in the conductive clamp shell and used for connecting cables, rotating cavities are arranged on the left side and the right side of the conductive clamp shell, a rotating assembly is arranged in the rotating cavity and used for installing and clamping the connected cables and clamping the cables, the clamping diameter can be changed in the rotating process, a rotating plate capable of rotating is fixedly arranged on the end surfaces of the left side and the left side of the conductive clamp shell, a rotating plate capable of rotating plate, a rotating plate capable of rotating is fixedly arranged on the left side and right side end surface of the conductive clamp shell, a damping plate capable of moving left and right side, a damping supporting plate capable of moving up and right side is arranged in the supporting plate, a damping supporting plate capable of moving downwards and right side is arranged in the supporting plate, a damping space capable of moving downwards, a damping supporting plate capable of moving downwards and a damping supporting plate capable of moving downwards is arranged in the damping space, a damping supporting plate capable of moving downwards and a damping supporting plate capable of moving downwards, a damping supporting plate capable of moving downwards is arranged in the damping and a damping space, a damping supporting plate capable of moving downwards, the upper wall in the damping cavity is fixedly provided with a damping assembly, and the damping assembly can reduce the vibration force transmitted by the damping plate.

2. A cable conductor clip according to claim 1, wherein: linking up the intracavity and being located link up the fishplate bar that the fishplate bar left side was removed and is equipped with and remove, the fishplate bar left end face with linking up fixedly connected with coupling spring between the chamber left side wall terminal surface, it is equipped with the electro-magnet to link up the intracavity fixation, link up fishplate bar right-hand member face fixedly connected with links up the connecting rod, it is equipped with reciprocating cavity to link up chamber right side wall intercommunication, it extends to link up the connecting rod right-hand member face to the right reciprocating intracavity, it is equipped with the removal spout that encircles to link up the outer disc of connecting rod, a reciprocating cavity lateral wall just is located and is close to link up the fixed pointer that is equipped with in chamber one side, fixed pointer is close to link up connecting rod one end with remove spout butt and sliding connection.

3. A cable conductor clip according to claim 2, wherein: rotatory clamping subassembly is including being located rotate the clamping board that intracavity and annular range distribute, all can form one after the clamping board rotatory combination and control the clamping chamber that runs through the intercommunication, all the clamping board is kept away from electrically conductive clamp shell side end face is fixed and is equipped with the dress cardboard, it arranges and fixes and is equipped with dress card fixed plate to rotate intracavity disc annular, be equipped with the dress card chamber that both sides run through the intercommunication in the dress card fixed plate, dress cardboard extends to in the dress cardboard and dress card, it keeps away from to rotate the chamber a connecting plate lateral wall intercommunication is equipped with regular hexagon's direction spout, all the clamping board is close to the fixed sliding plate that is equipped with of direction spout side end face, the sliding plate extends to in the direction spout and sliding connection.

4. A cable conductor clip according to claim 3, wherein: the left and right sides just be located in the rotor plate support the rotor plate downside and be equipped with the transmission chamber, it is equipped with the transmission shaft to rotate between the two walls about the transmission intracavity, the outer disc fixedly connected with transmission runner of transmission shaft, the transmission runner with support the outer disc gear engagement of rotor plate, two all be equipped with the line wheel chamber in the lateral wall that the transmission chamber was kept away from each other, the transmission shaft is close to line wheel chamber side end face extends to line wheel intracavity and fixedly connected with line wheel, the outer disc fixed connection of line wheel just winds the rope stay cord that is equipped with certain length.

5. The cable conductor clip of claim 4, wherein: an expansion spring is fixedly connected between the protection plate and one side wall of the expansion supporting cavity, a movable pull rope is fixedly connected to one side end face, close to the symmetrical side end faces, of the protection plate, and the movable pull rope is connected with the rope pull rope.

6. The conductive clip for cable of claim 5, wherein: the left and right sides flexible support chamber upper wall intercommunication is equipped with the slider chamber, the slider intracavity is equipped with the dress card slider that can reciprocate, lower extreme is the inclined plane of slope in the dress card slider, dress card slider up end with fixedly connected with sliding spring between the slider chamber upper wall terminal surface.

7. The conductive clip for cable of claim 6, wherein: the suspension assembly is including being located damping chamber and fixed connection in damping chamber upper wall and matrix arrangement distribute's working plate, be equipped with the chamber of moving away to avoid possible earthquakes in the working plate, the intracavity wall of moving away to avoid possible earthquakes is coarse, the intracavity of moving away to avoid possible earthquakes is equipped with the lift connecting plate that can reciprocate, terminal surface fixedly connected with lift connecting rod under the lift connecting plate, the lower terminal surface downwardly extending of lift connecting rod to in the damping chamber and with damping plate up end fixed connection, lift connecting plate up end with fixedly connected with suspension spring between the chamber upper wall terminal surface of moving away to avoid possible earthquakes, terminal surface under the working plate with fixedly connected with lift spring between the damping plate up end.

8. The conductive clip for cable of claim 7, wherein: be equipped with the decurrent support chamber of opening in the backup pad, support the chamber and control two walls intercommunication and be equipped with the connection chamber, it can remove the transmission connecting rod about to be equipped with in the connection chamber, the fixed threaded rod that is equipped with surface screwed of transmission connecting rod left end, the threaded rod with connect intracavity wall threaded connection, the transmission connecting rod right-hand member extends to towards the right electrically conductive clamp shell outside and fixedly connected with rotation handrail.

9. The method of using a cable clamp according to claim 8, wherein:

firstly, after splicing and combining the conductive clamp shells on the left side and the right side, rotating a rotating handrail below the conductive clamp shells, rotating the rotating handrail and driving a transmission connecting rod to rotate, wherein the transmission connecting rod drives a threaded rod to rotate through fixed connection, the threaded rod rotates through threaded connection with the inner wall of a connecting cavity and is fixedly connected with the inner wall of the connecting cavity, meanwhile, an electromagnet is started and has magnetism, the electromagnet drives a connecting plate to move leftwards through magnetic attraction, the connecting plate moves leftwards and drives the connecting rod to move leftwards through fixed connection, the connecting rod is abutted and slides with a fixed pointer through a moving chute in the leftward movement process of the connecting rod and then drives the connecting rod to rotate, the connecting rod rotates and drives the connecting plate to rotate, the connecting plate rotates and moves leftwards through threaded connection with the inner circle surface of the threaded plate, meanwhile, a protection plate is pushed to move leftwards under the elastic force of a connecting spring, the connecting plate is in threaded connection with the connecting plate at the moment, the conductive clamp shells on the left side and the right side are stably spliced to form a complete whole, and the electromagnet stops working when subsequent splitting is needed, the threaded plate moves rightwards under the elastic force of the connecting plate and then the conductive clamp shells are pushed to reset effect which is convenient to disassemble;

secondly, when the conductive connection is needed, the rotating plate is rotated at the moment, the rotating plate rotates and drives all the clamping fixing plates to rotate for a certain angle, the clamping plates rotate and drive the clamping plates to move away from the symmetrical center through the rotation with the clamping plates, simultaneously the clamping plates drive the clamping plates to move through the fixed connection, the clamping plates slide and move in the guide sliding grooves of the sliding plates, the effect of increasing the cross-sectional area of the clamping cavity is achieved, the effect of adapting to cables with different diameters is achieved, the cables which are subjected to the conductive connection are inserted into the cable connecting cavity on one side and move inwards and are connected with the conductive device, then the clamping plates are driven to reset through the reverse rotating plate, and the outer end faces of the cables are gradually clamped in the process, in the process, the rotating plate rotates through the support of the supporting rotating plate, the rotating plate rotates to drive the transmission rotating wheel to rotate relative to the supporting rotating plate, at the moment, the transmission rotating wheel starts to rotate through being in threaded connection with the outer circular surface of the supporting rotating plate, the transmission rotating wheel rotates and drives the wire wheel to rotate through transmission of the transmission shaft, the wire wheel rotates and loosens a rope pulling rope wound on the outer circular surface of the wire wheel, at the moment, the connection of the rope pulling rope and the movement pulling rope is loosened, at the moment, the protective plate outwards moves under the elastic action of a telescopic spring, the cable is protected through the protective plate, meanwhile, the length of a protection range is increased through the protective plate extending outwards, and when the protective plate moves to an outer limit position, the protective plate downwards moves through an inclined plane and is further abutted and fixed;

thirdly, after the cable connection is completely finished, the power supply can be output through the power output cavity, meanwhile, the whole shell of the conductive clamp is arranged at a fixed working position through the lower end supporting plate, and the shell is abutted against the ground or the surface of the installed box body or the supporting plate through the vibration reduction plate, at the moment, if the device is impacted or large impact force is caused by external factors in the working process, at the moment, after preliminary vibration reduction is carried out through the lifting spring, after vibration force is input through the lifting connecting rod, after the vibration force is further reduced through the rough inner wall of the vibration reduction cavity and the friction connection with the lifting connecting plate, further vibration reduction is carried out through the vibration reduction spring, and then the vibration force caused by external force impact is greatly reduced, and further the safety performance of the device is improved.

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