CN116505345B - Cable wiring equipment - Google Patents

Abstract

The invention discloses cable wiring equipment, in particular to the technical field of cable wiring, which comprises an installation top frame and an installation bottom frame, wherein the installation top frame and the installation bottom frame are respectively provided with two symmetrically distributed structures, the installation top frame and the installation bottom frame are in an up-down symmetrical distribution structure, a fixed driving mechanism is arranged between the installation top frame and the installation bottom frame, and a connecting driving mechanism is fixedly arranged between the fixed driving mechanism.

Description

Cable wiring equipment

Technical Field

The invention relates to the technical field of cable wiring, in particular to cable wiring equipment.

Background

The cable is made of one or more conductors which are insulated from each other and an outer insulating protective layer, and is used for transmitting electric power or information from one place to another place, and when the cable is specifically used, two cables are required to be connected, so that connection of the two cables is realized;

traditional two cable connection, more manual work gets rid of the outsourcing insulating protection layer of cable, then, twines the conductor in two cables and connects, later, sheathes insulating cover with the junction of two cables, and the manual hot melt rifle that uses melts insulating cover, makes junction closely cladding insulating cover, carries out the connection between two cables, and the manual work carries out the cable wiring, and the step is more loaded down with trivial details, and wiring efficiency is slower, and for this reason, we propose a cable wiring equipment and be used for solving above-mentioned problem.

Disclosure of Invention

The present invention is directed to a cable connection device, which solves the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a cable junction equipment, includes installation roof-rack and installation chassis, installation roof-rack and installation chassis all are equipped with two of symmetric distribution, installation roof-rack and installation chassis are upper and lower symmetric distribution structure, be equipped with between installation roof-rack and the installation chassis and decide to drive the mechanism, fixed mounting has between the mechanism of driving to connect and drives the mechanism, connect and drive fixed mounting to have between the mechanism and press from both sides the mechanism, the both sides of pressing from both sides the mechanism of fixing are all fixed mounting to have supporting component, be equipped with between the installation roof-rack and cut useless mechanism.

Preferably, the clamping mechanism comprises two first clamping blocks and two second clamping blocks which are symmetrically distributed, the first clamping blocks and the second clamping blocks are of symmetrical distribution structures, a guide shaft is fixedly arranged on one side, close to the first clamping blocks, of each second clamping block, a guide clamping groove matched with the guide shaft is formed in one side, close to the second clamping blocks, of each first clamping block, the guide shaft is slidably clamped in the corresponding guide clamping groove, positioning semi-ring inner frames are fixedly arranged on opposite sides of the first clamping blocks and the second clamping blocks, the positioning semi-ring inner frames on the first clamping blocks and the positioning semi-ring inner frames on the second clamping blocks are respectively combined to form a complete positioning inner frame, first positioning grooves are formed in opposite sides, close to the second clamping blocks, of each first clamping block and the second clamping block, second positioning grooves are formed in opposite sides of the adjacent semi-ring inner frames, and the inner diameters of the two positioning semi-ring inner frames are larger than the inner diameters of the second positioning grooves.

Preferably, the drive mechanism comprises two clamping slide outer frames which are symmetrically distributed, two opposite sides of the clamping slide outer frames are respectively provided with a clamping slide groove, two clamping slide blocks which are symmetrically distributed are respectively and slidably clamped in the clamping slide grooves, first double-headed screws are respectively and rotatably installed in the clamping slide outer frames, the first double-headed screws penetrate through the corresponding two clamping slide blocks, a first motor is fixedly installed at one end of the clamping slide outer frames, the driving end of the first motor and the end of the first double-headed screws are coaxially and fixedly installed, and the two clamping slide blocks in the clamping slide outer frames are respectively and fixedly installed at the outer sides of the adjacent first clamping block and the second clamping block.

Preferably, the support assembly comprises two symmetrically distributed rotating frames, the rotating frames are respectively and fixedly arranged on opposite sides of the clamping mechanism corresponding to the first clamping block and the second clamping block, positioning wheels are arranged in the rotating frames, a rotating shaft is fixedly arranged in the middle of each positioning wheel, and the rotating shafts are rotationally clamped on the corresponding rotating frames.

Preferably, the fixed driving mechanism comprises two mouth-shaped sliding frames which are symmetrically distributed, the two mouth-shaped sliding frames are fixedly arranged between an installation top frame and an installation bottom frame, two installation sliding blocks which are symmetrically distributed are respectively and slidably clamped on the upper surface and the lower surface of the inner wall of the mouth-shaped sliding frame, the connected driving mechanism is respectively and fixedly arranged between the two installation sliding blocks corresponding to the same side of the two mouth-shaped sliding frames through two clamping outer frames, the top and the bottom of the mouth-shaped sliding frames are respectively and rotatably provided with a second double-head screw rod, the middle parts of the installation sliding blocks are respectively and fixedly clamped with an inner screw pipe which is matched with the second double-head screw rod, the second double-head screw rod penetrates through the middle part of the inner screw pipe in the horizontally corresponding installation sliding block, one end part of the second double-head screw rod is fixedly sleeved on the outer side of the outlet-type sliding frame, the belt pulley transmission group is arranged at one end part of the second double-head screw rod in a fixed mode, the belt pulley transmission group is respectively sleeved on a plurality of belt pulleys corresponding to the number of second double-head screw rods and a plurality of belt pulleys movably sleeved on the outer side of belt pulleys.

Preferably, a second motor is fixedly installed at one end of the installation top frame, and the driving end of the second motor and the end of one of the second double-headed screws are coaxially and fixedly installed.

Preferably, the waste cutting mechanism comprises a transverse sliding frame, two transverse sliding grooves corresponding to the transverse sliding frame are formed in the mounting top frame, the transverse sliding frame is connected between the two transverse sliding grooves in a sliding mode, a longitudinal frame is fixedly arranged in the middle of the transverse sliding frame, a ring frame is integrally formed in the bottom of the longitudinal frame, a rotary ring frame is rotatably clamped in the middle of the ring frame, cutting ring cutter heads distributed in an annular array are fixedly arranged at the side ends of the rotary ring frame, a driven toothed ring is fixedly sleeved on one side, far away from the cutting ring cutter heads, of the rotary ring frame, an auxiliary shaft is rotatably arranged at the bottom of the longitudinal frame, a driving gear is fixedly arranged at one end portion of the auxiliary shaft, and the driving gear is meshed with the top of the driven toothed ring.

Preferably, the bottom of the longitudinal frame is fixedly provided with a third motor, and the driving end of the third motor and the end part of the auxiliary shaft are coaxially and fixedly arranged.

Preferably, an electric telescopic rod is fixedly installed in the transverse sliding groove, and the driving end of the electric telescopic rod is fixedly installed with the corresponding transverse sliding frame.

Preferably, the rotating ring frame and the positioning inner frame are coaxially arranged.

Compared with the prior art, the invention has the beneficial effects that:

1. through setting up clamping mechanism, the cooperation is used and is decided driving mechanism and connect driving mechanism, but two first clamping blocks laminating each other and two second clamping blocks laminating each other or separating each other to and first clamping block, second clamping block move dorsad or in opposite directions to carry out the centre gripping location to two cable heads that have insulating protection layer and two cable conductor core heads that do not have insulating protection layer, and then be convenient for carry out continuous extrusion to two cable conductor core heads move in opposite directions, realize the automatic cold pressing connection of two cables, promote the connection efficiency and the quality of cable.

2. Through setting up cutting useless mechanism, driven ring gear, rotatory ring frame and a plurality of cutting ring cutter head rotations, cooperation horizontal sliding frame is on the installation roof-rack horizontal migration, and rotatory ring frame of drive and a plurality of cutting ring cutter head horizontal migration carry out automatic rotary type cutting with the protruding burr piece of conductor core head junction of colding pressing in two cables, break away from the junction, make things convenient for the follow-up cladding insulating protection layer of conductor core head in two cables, promoted cable junction's efficiency.

3. Through setting up supporting component, pass respectively two cables between two positioning wheels in corresponding supporting component, when two first clamping blocks laminating each other and two first clamping blocks synchronous laminating each other, cable and positioning wheel contact, positioning wheel fix a position the cable, and do not influence the relative removal of two cables.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Figure 1 is a schematic diagram of the structure of the present invention,

FIG. 2 is a schematic diagram showing the structural connection of the coupling mechanism, the clamping mechanism and the support assembly according to the present invention,

figure 3 is an enlarged view of the invention at a in figure 2,

FIG. 4 is a schematic diagram showing the structural connection of the fixed driving mechanism and the connection driving mechanism in the present invention,

figure 5 is an enlarged view of the invention at B in figure 4,

FIG. 6 is a schematic view showing the structural connection of the top frame and the waste cutting mechanism,

fig. 7 is an enlarged view of the present invention at C in fig. 6.

In the figure: 1. installing a top frame; 2. installing an underframe; 3. a fixed driving mechanism; 4. a connection driving mechanism; 5. a clamping mechanism; 6. a support assembly; 7. a waste cutting mechanism; 51. a first clamping block; 52. a second clamping block; 53. a guide shaft; 531. a guide clamping groove; 54. positioning a semi-ring inner frame; 501. a first positioning groove; 502. a second positioning groove; 61. a rotating frame; 62. a positioning wheel; 63. a rotation shaft; 41. a clamping and sliding outer frame; 411. a clamping and sliding groove; 42. a card slider; 43. a first double-ended screw; 44. a first motor; 31. a mouth-shaped sliding frame; 32. installing a sliding block; 33. a second double-ended screw; 34. an inner coil; 35. a pulley drive set; 36. a second motor; 71. a transverse carriage; 701. a transverse chute; 72. a longitudinal frame; 73. a ring frame; 74. rotating the ring frame; 75. a cutting ring bit; 76. a driven toothed ring; 77. an auxiliary shaft; 78. a drive gear; 79. a third motor; 710. an electric telescopic rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1-7, the invention provides a cable wiring device, which comprises an installation top frame 1 and an installation bottom frame 2, wherein the installation top frame 1 and the installation bottom frame 2 are symmetrically distributed, the installation top frame 1 and the installation bottom frame 2 are in an up-down symmetrical distribution structure, a fixed driving mechanism 3 is arranged between the installation top frame 1 and the installation bottom frame 2, a connection driving mechanism 4 is fixedly arranged between the fixed driving mechanisms 3, a clamping mechanism 5 is fixedly arranged between the connection driving mechanisms 4, supporting components 6 are fixedly arranged on two sides of the clamping mechanism 5, and a waste cutting mechanism 7 is arranged between the installation top frames 1.

The clamping mechanism 5 comprises two first clamping blocks 51 and two second clamping blocks 52 which are symmetrically distributed, the first clamping blocks 51 and the second clamping blocks 52 are of symmetrical distribution structures, a guide shaft 53 is fixedly arranged on one side, close to the first clamping blocks 51, of each second clamping block 52, a guide clamping groove 531 matched with the guide shaft 53 is formed on one side, close to the second clamping blocks 52, of each first clamping block 51, the guide shafts 53 are slidably clamped in the corresponding guide clamping grooves 531, the stability of opposite movement of the first clamping blocks 51 and the second clamping blocks 52 is improved, positioning semi-ring inner frames 54 are fixedly arranged on the opposite sides of the first clamping blocks 51 and the second clamping blocks 52, the positioning semi-ring inner frames 54 on the first clamping blocks 51 and the positioning semi-ring inner frames 54 on the second clamping blocks 52 are respectively combined to form a complete positioning inner frame, and when the two first clamping blocks 51 are mutually attached and the two second clamping blocks 52 are mutually attached to each other, the positioning semi-ring inner frames 54 are completely combined;

the first clamping blocks 51 and the second clamping blocks 52 are respectively provided with first positioning grooves 501 on opposite sides, when the two first clamping blocks 51 are mutually attached and the two second clamping blocks 52 are mutually attached, the first positioning grooves 501 on two sides are respectively used for positioning two cable heads with insulating protection layers, the second positioning grooves 502 are respectively provided on opposite sides of the adjacent two positioning semi-ring inner frames 54, and when the two first clamping blocks 51 are mutually attached and the two second clamping blocks 52 are mutually attached, the second positioning grooves 502 on two sides are respectively used for positioning two cable conductor core heads without insulating protection layers, and the inner diameter size of the first positioning grooves 501 is larger than that of the second positioning grooves 502.

The driving mechanism 4 comprises two clamping outer frames 41 which are symmetrically distributed, clamping grooves 411 are formed in opposite sides of the clamping outer frames 41, two clamping sliding blocks 42 which are symmetrically distributed are respectively and slidably clamped in the clamping grooves 411, the clamping sliding blocks 42 can stably slide in the clamping outer frames 41, first double-head screw rods 43 are respectively and rotatably arranged in the clamping outer frames 41, the first double-head screw rods 43 penetrate through the corresponding two clamping sliding blocks 42 in a threaded manner, a first motor 44 is fixedly arranged at one end of each clamping outer frame 41, a driving end of each first motor 44 and an end of each first double-head screw rod 43 are coaxially and fixedly arranged, during use, the first motors 44 on two sides are synchronously started to drive the corresponding first double-head screw rods 43 to synchronously rotate, so that the two clamping sliding blocks 42 in the corresponding clamping outer frames 41 are driven to move oppositely, the two clamping sliding blocks 51 and 52 are respectively and fixedly arranged outside the adjacent first clamping blocks 51 and 52, the first clamping blocks 51 and the second clamping blocks 52 are driven to move oppositely, and the first clamping blocks 44 are driven to synchronously move oppositely, and the first clamping outer frames 43 and the two clamping blocks 52 are driven synchronously to move oppositely.

The supporting component 6 comprises two rotating frames 61 which are symmetrically distributed, the rotating frames 61 are respectively and fixedly arranged on the opposite sides of the clamping mechanism 5 corresponding to the first clamping blocks 51 and the second clamping blocks 52, positioning wheels 62 are arranged in the rotating frames 61, a rotating shaft 63 is fixedly arranged in the middle of each positioning wheel 62, the rotating shaft 63 is rotationally clamped on the corresponding rotating frame 61, when the two cable-fixing device is used, the two cable-fixing device respectively passes through the space between the two positioning wheels 62 in the corresponding supporting component 6, when the two first clamping blocks 51 are mutually attached and the two first clamping blocks 51 are synchronously mutually attached, the cable-fixing device is in contact with the positioning wheels 62, and the positioning wheels 62 position the cable without affecting the opposite movement of the two cables.

The fixed driving mechanism 3 comprises two mouth-shaped sliding frames 31 which are symmetrically distributed, the two mouth-shaped sliding frames 31 are fixedly arranged between the mounting top frame 1 and the mounting bottom frame 2, two mounting sliding blocks 32 which are symmetrically distributed are respectively and slidably clamped on the upper surface and the lower surface of the inner wall of the mouth-shaped sliding frame 31, the connecting driving mechanism 4 is respectively and fixedly arranged between the two mounting sliding blocks 32 corresponding to the same side in the two mouth-shaped sliding frames 31 through two clamping outer frames 41, the top and the bottom of the mouth-shaped sliding frames 31 are respectively and rotatably provided with a second double-headed screw rod 33, the middle parts of the mounting sliding blocks 32 are fixedly clamped with inner screw pipes 34 which are matched with the second double-headed screw rods 33, when the second double-headed screw rods 33 penetrate through the middle parts of the inner screw pipes 34 in the horizontally corresponding mounting sliding blocks 32, a plurality of second double-headed screw rods 33 are controlled to synchronously rotate and matched with the inner screw pipes 34, the two mounting sliding blocks 32 corresponding to the same side in the two mouth-shaped sliding frames 31 are driven to move oppositely, so that the two clamping outer frames 41 are driven to move oppositely, and the two clamping outer frames 41 are driven to be mutually and fixedly clamped and mutually and fixedly clamped by the two clamping outer frames 52 are mutually and fixedly clamped and mutually and clamped and matched with the two clamping blocks 52; conversely, the second double-headed screws 33 are controlled to synchronously and reversely rotate, and the inner screw tube 34 is matched to drive the two mounting sliding blocks 32 corresponding to the same side in the two mouth-shaped sliding frames 31 to move back to drive the two side clamping outer frames 41 to move back to further drive the two first clamping blocks 51 and the two second clamping blocks 52 to synchronously and mutually separate;

the utility model discloses a motor drive mechanism for a double-end screw rod 33, including first double-end screw rod 33, second double-end screw rod 33, the outside of export formula sliding frame 31 is all extended to one end of second double-end screw rod 33, a plurality of fixed cover in one end of second double-end screw rod 33 is equipped with belt pulley drive group 35, belt pulley drive group 35 includes a plurality of belt pulleys and the movable transmission belt of cup jointing in the outside of a plurality of belt pulleys corresponding with second double-end screw rod 33, a plurality of belt pulleys are fixed respectively cup jointing in the tip of corresponding second double-end screw rod 33, the fixed mounting of one end of installation roof-rack 1 has second motor 36, the coaxial fixed mounting of drive end of second motor 36 and the tip of one of them second double-end screw rod 33, during the use, control opens second motor 36 drive one of them double-end screw rod 33 and rotates, cooperates and uses belt pulley drive group 35, drives other second double-end screw rod 33 synchronous rotation.

The waste cutting mechanism 7 comprises a transverse sliding frame 71, two transverse sliding grooves 701 corresponding to the transverse sliding frames 71 are formed in the mounting top frame 1, the transverse sliding frames 71 are slidably clamped between the two transverse sliding grooves 701, the transverse sliding frames 71 can horizontally move on the mounting top frame 1, a longitudinal frame 72 is fixedly arranged in the middle of each transverse sliding frame 71, a ring frame 73 is integrally formed at the bottom of each longitudinal frame 72, a rotary ring frame 74 is rotatably clamped in the middle of each ring frame 73, the rotary ring frames 74 and the positioning inner frames are coaxially arranged, when conductor core heads in two cables are connected in a cold pressing mode, protruding burr sheets appear on the conductor core heads, and meanwhile the conductor core heads penetrate through the rotary ring frames 74;

the side end of the rotary ring frame 74 is fixedly provided with cutting ring cutter heads 75 distributed in an annular array, one side of the rotary ring frame 74, which is far away from the cutting ring cutter heads 75, is fixedly sleeved with a driven gear ring 76, the bottom of the longitudinal frame 72 is rotatably provided with an auxiliary shaft 77, one end part of the auxiliary shaft 77 is fixedly provided with a driving gear 78, and the driving gear 78 is in meshed connection with the top of the driven gear ring 76; the bottom fixed mounting of vertical frame 72 has third motor 79, the coaxial fixed mounting of drive end of third motor 79 and the tip of auxiliary shaft 77, during the use, control opens the rotation of third motor 79 drive auxiliary shaft 77, drive gear 78 and rotate, thereby drive driven ring gear 76, rotatory ring frame 74 and a plurality of cutting ring tool bit 75 rotate, cooperation horizontal carriage 71 is on installation roof-rack 1 horizontal migration, rotatory ring frame 74 and a plurality of cutting ring tool bit 75 horizontal migration of cooperation, carry out automatic rotary type cutting with the protruding burr piece of conductor core head cold pressing junction in two cables, break away from the junction, make things convenient for the follow-up cladding insulating protection layer of conductor core head in two cables, cable junction's efficiency has been promoted.

An electric telescopic rod 710 is fixedly installed in the transverse sliding groove 701, the driving end of the electric telescopic rod 710 is fixedly installed corresponding to the transverse sliding frame 71, and the electric telescopic rod 710 is controlled to be started to drive the transverse sliding frame 71 to horizontally move on the installation top frame 1.

Working principle: when the two-sided clamping frame is used, the second motor 36 is controlled to be started to drive one of the second double-headed screw rods 33 to reversely rotate, the belt pulley transmission group 35 is matched with the two-sided clamping frame to drive the other second double-headed screw rods 33 to synchronously reversely rotate, the inner screw tube 34 is matched with the two double-sided clamping frame to drive the two mounting sliding blocks 32 corresponding to the same side in the two mouth-shaped sliding frames 31 to reversely move, so that the two side clamping outer frames 41 are driven to reversely move, and the two first clamping blocks 51 are driven to synchronously separate from each other and the two positioning wheels 62 are driven to mutually separate from each other;

subsequently, two cables are respectively passed through the corresponding support assembly 6 between the two positioning wheels 62 and through the corresponding first positioning grooves 501 and second positioning grooves 502, two cable heads with insulating protective layers are placed in the first positioning grooves 501 on both sides, two cable conductor core heads without insulating protective layers are placed in the second positioning grooves 502 on both sides, and the cable conductor core heads penetrate through the rotating ring frame 74;

then, the second motor 36 is controlled to start to drive one of the second double-headed screws 33 to rotate, the belt pulley transmission group 35 is matched with the second double-headed screws 33 to synchronously rotate, the inner screw tube 34 is matched with the second double-headed screws 33 to drive the two mounting sliding blocks 32 corresponding to the same side in the two mouth-shaped sliding frames 31 to move in opposite directions, so that the two side clamping outer frames 41 are driven to move in opposite directions, the two first clamping blocks 51 and the two second clamping blocks 52 are driven to synchronously and mutually attach to clamp and position the cable heads, the positioning semi-ring inner frames 54 are combined into a complete positioning inner frame to clamp and position the cable conductor core heads, the two positioning wheels 62 are mutually close to each other, the cable is contacted with the positioning wheels 62, and the positioning wheels 62 position the cable without influencing the opposite movement of the two cables;

subsequently, the first motors 44 on the two sides are synchronously started to drive the corresponding first double-headed screws 43 to synchronously rotate, so that the two clamping sliding blocks 42 in the corresponding clamping outer frames 41 are driven to move in opposite directions, the first clamping blocks 51 and the second clamping blocks 52 on the two sides are driven to move in opposite directions, the guide shafts 53 slide in the corresponding guide clamping grooves 531 to drive the cables on the two sides to move in opposite directions, and the heads of the cable conductor cores are driven to move in opposite directions to extrude;

then, separating the two first clamping blocks 51 and the two second clamping blocks 52, moving the two first clamping blocks 51 and the two second clamping blocks 52 back to the opposite directions, then, moving the two first clamping blocks 51 and the two second clamping blocks 52 close to each other to clamp and position the two cables on the two sides again, and then, driving the two first clamping blocks 51 and the two second clamping blocks 52 to move towards each other again to drive the two cables on the two sides to move towards each other, and moving the conductor core heads of the cables towards each other to squeeze again;

the operation is repeated for several times, the heads of the conductor cores of the two cables can be mutually extruded to carry out automatic cold-pressing connection, and the connection efficiency and quality of the cables are improved;

when the conductor core heads in two cables are connected in a cold pressing mode, protruding burr sheets appear on the conductor core heads, the third motor 79 is controlled to be started to drive the auxiliary shaft 77 to rotate, the driving gear 78 is driven to rotate, the driven toothed ring 76, the rotary ring frame 74 and the plurality of cutting ring cutter heads 75 are driven to rotate, the electric telescopic rod 710 is matched to be started to drive the transverse sliding frame 71 to horizontally move on the mounting top frame 1, the rotary ring frame 74 and the plurality of cutting ring cutter heads 75 are driven to horizontally move, the protruding burr sheets on the cold pressing connection positions of the conductor core heads in the two cables are automatically rotated to cut, the connection positions are separated, the conductor core heads in the two cables are conveniently coated with insulating protection layers, and the cable connection efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a cable junction equipment, includes installation roof-rack (1) and installation chassis (2), its characterized in that: the device is characterized in that two symmetrically distributed mounting top frames (1) and two symmetrically distributed mounting bottom frames (2) are respectively arranged, the mounting top frames (1) and the mounting bottom frames (2) are in an up-down symmetrical distribution structure, fixed driving mechanisms (3) are arranged between the mounting top frames (1) and the mounting bottom frames (2), connecting driving mechanisms (4) are fixedly arranged between the fixed driving mechanisms (3), clamping mechanisms (5) are fixedly arranged between the connecting driving mechanisms (4), supporting assemblies (6) are fixedly arranged on two sides of each clamping mechanism (5), and waste cutting mechanisms (7) are arranged between the mounting top frames (1);

the clamping mechanism (5) comprises two first clamping blocks (51) which are symmetrically distributed and two second clamping blocks (52) which are symmetrically distributed, wherein the first clamping blocks (51) and the second clamping blocks (52) are of symmetrical distribution structures, one side, close to the first clamping blocks (51), of each second clamping block (52) is fixedly provided with a guide shaft (53), one side, close to the second clamping blocks (52), of each first clamping block (51) is provided with a guide clamping groove (531) which is matched with the guide shaft (53), the guide shafts (53) are slidably clamped in the corresponding guide clamping grooves (531), positioning semi-ring inner frames (54) are fixedly arranged on opposite sides of the first clamping blocks (51) and the second clamping blocks (52), positioning semi-ring inner frames (54) on the two first clamping blocks (51) and positioning semi-ring inner frames (54) on the two second clamping blocks (52) are respectively combined to form a complete positioning inner frame (531), and the two inner diameter positioning semi-ring inner frames (502) of the two semi-ring inner frames (501) are arranged on opposite sides of the two semi-ring inner frames (52), and the two semi-ring inner frames (502) are positioned on opposite sides of the two semi-ring inner frames (501) and the two semi-ring inner frames (502) are positioned on the opposite sides of the two semi-ring inner frames (501); the connecting and driving mechanism (4) comprises two clamping and sliding outer frames (41) which are symmetrically distributed, clamping and sliding grooves (411) are formed in opposite sides of the two clamping and sliding outer frames (41), two clamping sliding blocks (42) which are symmetrically distributed are respectively and slidably clamped in the clamping and sliding grooves (411), first double-headed screws (43) are respectively and rotatably arranged in the clamping and sliding outer frames (41), threads of the first double-headed screws (43) penetrate through the corresponding two clamping sliding blocks (42), a first motor (44) is fixedly arranged at one end of each clamping and sliding outer frame (41), a driving end of each first motor (44) is coaxially and fixedly arranged at one end of each first double-headed screw (43), and the two clamping sliding blocks (42) in the clamping and sliding outer frames (41) are respectively and fixedly arranged outside adjacent first clamping blocks (51) and second clamping blocks (52); the support assembly (6) comprises two symmetrically distributed rotating frames (61), the rotating frames (61) are respectively and fixedly arranged on opposite sides of the clamping mechanism (5) corresponding to the first clamping block (51) and the second clamping block (52), positioning wheels (62) are arranged in the rotating frames (61), a rotating shaft (63) is fixedly arranged in the middle of each positioning wheel (62), and the rotating shafts (63) are rotatably clamped on the corresponding rotating frames (61); the fixed driving mechanism (3) comprises two mouth-shaped sliding frames (31) which are symmetrically distributed, the two mouth-shaped sliding frames (31) are fixedly arranged between an installation top frame (1) and an installation bottom frame (2), two installation sliding blocks (32) which are symmetrically distributed are respectively and slidably clamped on the upper surface and the lower surface of the inner wall of the mouth-shaped sliding frame (31), the connecting driving mechanism (4) is respectively and fixedly arranged between the two installation sliding blocks (32) corresponding to the same side in the two mouth-shaped sliding frames (31) through two clamping outer frames (41), the top and the bottom of the mouth-shaped sliding frames (31) are respectively and rotatably provided with a second double-head screw rod (33), the middle part of the installation sliding block (32) is fixedly clamped with an inner screw tube (34) matched with a second double-head screw rod (33), the second double-head screw rod (33) penetrates through the middle part of the inner screw tube (34) in the horizontally corresponding installation sliding block (32), one end part of the second double-head screw rod (33) extends to the outer side of the outlet type sliding frame (31), one end part of the second double-head screw rod (33) is fixedly sleeved with a belt pulley transmission group (35), the belt pulley transmission group (35) comprises a plurality of belt pulleys corresponding to the number of the second double-head screw rod (33) and a transmission belt movably sleeved on the outer sides of the belt pulleys, and the belt pulleys are fixedly sleeved on the end parts of the corresponding second double-head screw rod (33) respectively; the waste cutting mechanism (7) comprises a transverse sliding frame (71), two transverse sliding grooves (701) corresponding to the transverse sliding frame (71) are formed in the mounting top frame (1), the transverse sliding frame (71) is connected between the two transverse sliding grooves (701) in a sliding mode, a longitudinal frame (72) is fixedly arranged in the middle of the transverse sliding frame (71), a ring frame (73) is integrally formed in the bottom of the longitudinal frame (72), a rotary ring frame (74) is rotatably clamped in the middle of the ring frame (73), cutting ring cutter heads (75) distributed in an annular array are fixedly arranged at the side ends of the rotary ring frame (74), a driven toothed ring (76) is fixedly sleeved on one side, far away from the cutting ring cutter heads (75), of the rotary ring frame (74), an auxiliary shaft (77) is rotatably arranged at the bottom of the longitudinal frame (72), a driving gear (78) is fixedly arranged at one end of the auxiliary shaft (77), and the top of the driving gear (78) is meshed and connected with the driven toothed ring (76).

2. A cable termination device according to claim 1, characterized in that: a second motor (36) is fixedly arranged at one end part of the mounting top frame (1), and the driving end of the second motor (36) and the end part of one of the second double-head screws (33) are coaxially and fixedly arranged.

3. A cable termination device according to claim 1, characterized in that: the bottom of the longitudinal frame (72) is fixedly provided with a third motor (79), and the driving end of the third motor (79) and the end part of the auxiliary shaft (77) are coaxially and fixedly arranged.

4. A cable termination device according to claim 3, characterized in that: an electric telescopic rod (710) is fixedly installed in the transverse sliding groove (701), and the driving end of the electric telescopic rod (710) and the corresponding transverse sliding frame (71) are fixedly installed.

5. A cable termination device according to claim 4, wherein: the rotary ring frame (74) and the positioning inner frame are coaxially arranged.