阅读说明：本技术 一种电缆内铜导体的智能制造装置 (Intelligent manufacturing device for copper conductor in cable ) 是由 张军 于 2021-09-24 设计创作，主要内容包括：本发明属于电缆加工技术领域,尤其涉及一种电缆内铜导体的智能制造装置；该装置包括横测底盘,横测底盘安装在地面上,横测底盘上对称安装有两个铜芯托起架,该铜芯托起架上安装有夹紧组件,该夹紧组件通过对铜芯的两侧进行同步夹紧实现铜芯装夹功能,横测底盘上安装有校正组件,该校正组件通过对铜芯进行拉动,将铜芯进行绷直处理；所述铜芯托起架包括控制座和定位圈,控制座上安装有定位圈,所述控制座设置有两个,两个控制座对称安装在横测底盘的两端,控制座上安装有夹紧组件,所述夹紧组件贯穿定位圈。(The invention belongs to the technical field of cable processing, and particularly relates to an intelligent manufacturing device for a copper conductor in a cable; the device comprises a transverse measuring chassis, wherein the transverse measuring chassis is arranged on the ground, two copper core supporting frames are symmetrically arranged on the transverse measuring chassis, a clamping assembly is arranged on each copper core supporting frame, the clamping assembly realizes the function of clamping the copper cores by synchronously clamping the two sides of the copper cores, a correcting assembly is arranged on the transverse measuring chassis, and the correcting assembly pulls the copper cores to straighten the copper cores; the copper core holds up frame includes control seat and position circle, installs the position circle on the control seat, the control seat is provided with two, and two control seat symmetries are installed at the both ends of violently surveying the chassis, install clamping component on the control seat, clamping component runs through the position circle.)

1. The utility model provides an intelligent manufacturing installation of copper conductor in cable which characterized in that: comprises a transverse measuring chassis (1.1), the transverse measuring chassis (1.1) is arranged on the ground, two copper core supporting frames are symmetrically arranged on the transverse measuring chassis (1.1), a clamping assembly is arranged on each copper core supporting frame, the clamping assembly realizes the function of clamping the copper cores by synchronously clamping the two sides of the copper cores, a correcting assembly is arranged on the transverse measuring chassis (1.1), the correcting assembly pulls the copper cores to straighten the copper cores,

the copper core mould also comprises a fixed seat (2.1), a centering pressing cylinder (2.2) and sockets (2.3), wherein the centering pressing cylinder (2.2) is arranged on the fixed seat (2.1), the plurality of sockets (2.3) are arranged on the peripheral side of the centering pressing cylinder (2.2), a shaping pressing component is arranged at the socket (2.3), and the shaping pressing component can process pits on the copper core,

the sizing and pressing assembly comprises a track matching pin (3.1) and a compression column (3.1.1), the socket (2.3) is provided with the track matching pin (3.1), the track matching pin (3.1) is provided with the compression column (3.1.1), the compression column (3.1.1) is in sliding connection with the socket (2.3), a spring I is arranged between the compression column (3.1.1) and the socket (2.3), the compression column (3.1.1) can penetrate through the centering pressing cylinder (2.2),

be equipped with batter post (3.1.2) on orbit cooperation round pin (3.1), sliding connection has spout seat (4.1) on deciding seat (2.1), installs synchronizing ring (4.3) on spout seat (4.1), and synchronizing ring (4.3) and batter post (3.1.2) cooperation.

2. The intelligent manufacturing device for copper conductors in cables as claimed in claim 1, wherein: copper core holds up frame including control seat (1.2) and position circle (1.3), installs position circle (1.3) on control seat (1.2), control seat (1.2) are provided with two, and two control seat (1.2) symmetries are installed at the both ends of violently surveying chassis (1.1), install clamping component on control seat (1.2), clamping component runs through position circle (1.3).

3. The intelligent manufacturing device for copper conductors in cables as claimed in claim 2, wherein: the clamping assembly comprises clamping arms (1.4) and a driving assembly, two groove plates are symmetrically installed on the control base (1.2), the groove plates are internally and slidably connected with the clamping arms (1.4), arc-shaped pressure heads are arranged on the clamping arms (1.4) and penetrate through the positioning rings (1.3), and the control base (1.2) is connected with the two clamping arms (1.4) through the driving assembly.

4. The intelligent manufacturing device of copper conductors in cables as claimed in claim 3, wherein: the correction assembly comprises a sliding seat (6.1) and an elliptic disc (6.4), a groove plate (1.5) is installed on a transverse measurement chassis (1.1), a sliding rail is formed between the transverse measurement chassis (1.1) and the groove plate (1.5), the sliding seat (6.1) slides in the sliding rail, the elliptic disc (6.4) is installed on the sliding seat (6.1), a through hole is formed in the middle of the elliptic disc (6.4), a copper core winding assembly is arranged on the elliptic disc (6.4), the copper core winding assembly continuously twists the copper core, and the copper core with various bending degrees is straightened.

5. The intelligent manufacturing device of copper conductors in cables as claimed in claim 4, wherein: still include pressure fit piece (1.6), bolt board (1.7), cooperation arm (4.2), spring holder (5.1) and telescopic link (5.2), install pressure fit piece (1.6) on violently surveying chassis (1.1), sliding connection has spring holder (5.1) on pressure fit piece (1.6), installs spring II between spring holder (5.1) and pressure fit piece (1.6), installs telescopic link (5.2) on spring holder (5.1), installs the projection on spring holder (5.1), projection and cooperation arm (4.2) cooperation, and cooperation arm (4.2) are installed on spout seat (4.1), violently survey and be equipped with the jack on chassis (1.1), bolt board (1.7) are installed to the jack department, and bolt board (1.7) and the expansion end cooperation of telescopic link (5.2).

6. The intelligent manufacturing device for copper conductors in cables as claimed in claim 5, wherein: and a top plate (6.2) is arranged on the sliding seat (6.1), and the top plate (6.2) is matched with the movable end of the telescopic rod (5.2).

7. The intelligent manufacturing device of copper conductors in cables as claimed in claim 6, wherein: install traveller (6.3) on slide (6.1), install the orifice plate on violently surveying chassis (1.1), sliding connection between traveller (6.3) and the orifice plate installs extension spring I between traveller (6.3) and the orifice plate.

Technical Field

The invention belongs to the technical field of cable processing, and particularly relates to an intelligent manufacturing device for a copper conductor in a cable.

Background

Copper is not very active in chemical property, is not easy to be oxidized in air, has good conductivity, and is mostly used for manufacturing wires, cables, electric brushes and the like; the heat conductivity is good, and the magnetic instrument and the instrument which need antimagnetic interference, such as a compass, an aviation instrument and the like, are commonly manufactured; it has excellent plasticity and is easy to be processed by hot pressing and cold pressing, and can be made into copper products such as pipe, bar, wire, strip, plate and foil.

The common single-stranded copper wire is easy to separate from the outer skin of the wire body, so that the potential safety hazard is realized.

Disclosure of Invention

In view of the above, the present invention provides an intelligent manufacturing apparatus for copper conductors in cables, which can improve the firmness of the outer skin to the copper core of the processed conductors in a low temperature environment.

The invention provides an intelligent manufacturing device for a copper conductor in a cable, which comprises a transverse measuring chassis, wherein the transverse measuring chassis is arranged on the ground, two copper core supporting frames are symmetrically arranged on the transverse measuring chassis, a clamping assembly is arranged on each copper core supporting frame, the clamping assembly realizes the function of clamping the copper cores by synchronously clamping the two sides of the copper cores, a correcting assembly is arranged on the transverse measuring chassis, and the correcting assembly is used for straightening the copper cores by pulling the copper cores.

The copper core holds up frame includes control seat and position circle, installs the position circle on the control seat, the control seat is provided with two, and two control seat symmetries are installed at the both ends of violently surveying the chassis, install clamping component on the control seat, clamping component runs through the position circle.

The clamping assembly comprises clamping arms and a driving assembly, the control seat is symmetrically provided with two groove plates, the groove plates are connected with the clamping arms in a sliding mode, the clamping arms are provided with arc-shaped pressure heads, the arc-shaped pressure heads penetrate through the positioning rings, and the control seat is connected with the two clamping arms through the driving assembly.

Still including deciding seat, a centering suppression section of thick bamboo and socket, install a centering suppression section of thick bamboo on deciding the seat, install a plurality of sockets on centering suppression section of thick bamboo week side, socket department installs design suppression subassembly, should design suppression subassembly can process out the pit on the copper core.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of a track engaging pin according to the present invention;

FIG. 2 is a schematic structural diagram of a control seat according to the present invention;

FIG. 3 is a schematic structural view of a retainer ring according to the present invention;

FIG. 4 is a schematic structural view of a trough plate according to the present invention;

FIG. 5 is a schematic structural view of a stator according to the present invention;

FIG. 6 is a schematic structural diagram of an oval disk provided by the present invention;

FIG. 7 is a schematic structural diagram of a circular plate according to the present invention;

FIG. 8 is a schematic structural view of a circular groove provided in the present invention;

FIG. 9 is a schematic structural view of a patch provided by the present invention;

fig. 10 is a schematic structural view of a hinge post provided in the present invention;

FIG. 11 is a schematic structural view of a clamp arm I provided by the present invention;

FIG. 12 is a schematic structural view of a fitting cartridge provided in the present invention;

FIG. 13 is a schematic structural view of an anti-snap rubber ring provided in the present invention;

fig. 14 is a schematic structural view of a strut provided by the present invention.

Detailed Description

The intelligent manufacturing device for the copper conductor in the cable provided by the invention is described in detail by combining the attached drawings in the embodiment of the invention.

Examples of the present invention are illustrated with reference to fig. 2-3:

the utility model provides an intelligent manufacturing installation of copper conductor in cable is including violently surveying chassis 1.1, violently survey chassis 1.1 horizontal installation subaerial, violently survey and install two copper cores on the chassis 1.1 and hold up the frame, two copper cores hold up the frame symmetry installation, this copper core holds up and is equipped with clamping component on the frame, this clamping component carries out the clamping function of synchronous clamp realization to the copper core through the both sides to the copper core, violently survey and install correction subassembly on the chassis 1.1, this correction subassembly can stimulate the copper core to make the copper core stretch out and straighten.

After the transverse measuring chassis 1.1 is horizontally placed on the ground, the transverse measuring chassis 1.1 is fixed with the ground through a pin; the copper core penetrates through the two copper core supporting frames, and then the end parts of the copper core are clamped by the clamping assemblies, so that the effect of clamping the copper core on the device is achieved;

the clamping assembly can apply clamping force with the same force to the two sides of the copper core, so that the side parts of the copper core can be kept straight when the two copper core supporting frames clamp the copper core;

the correcting assembly is positioned between the two copper core supporting frames, and the copper cores are pulled by the correcting assembly to keep the copper cores stretched straight;

the copper core is straightened, so that the subsequent processing of the copper core is facilitated;

further, the copper core is pulled, and the effect of detecting the strength of the copper core is convenient to realize according to the size of the pulling force and the state of the copper core, so that the using effect of the device is improved.

Examples of the present invention are illustrated with reference to fig. 2-3:

copper core holds up frame includes control cabinet 1.2 and position circle 1.3, fixedly connected with position circle 1.3 on the control cabinet 1.2, control cabinet 1.2 is provided with two, and two control cabinet 1.2 symmetries are installed in the both sides of violently surveying chassis 1.1 upper end, install clamping component on the control cabinet 1.2, clamping component runs through the both sides of position circle 1.3 week portion.

Examples of the present invention are illustrated with reference to fig. 2-3:

clamping component includes arm lock 1.4 and drive assembly, and two frills of symmetry fixedly connected with on the control seat 1.2, sliding connection has arm lock 1.4 in the frill, fixedly connected with arc pressure head on the arm lock 1.4, and this arc pressure head runs through position circle 1.3, installs drive assembly between control seat 1.2 and two arm lock 1.4.

Two limiting pieces are arranged on the clamping arm 1.4, and the inner sides of the two limiting pieces are respectively attached to the upper end and the lower end of the groove plate; a driving assembly is arranged between the control seat 1.2 and the two clamping arms 1.4, the driving assembly is a bidirectional electric telescopic rod, the fixed end of the bidirectional electric telescopic rod is fixedly connected with the control seat 1.2, and the movable ends at two sides of the bidirectional electric telescopic rod are respectively fixedly connected with the two clamping arms 1.4;

the two-way electric telescopic rod is started to contract, so that the arc-shaped pressing head can simultaneously clamp the two sides of the copper core; the arc-shaped pressure head is arranged into the inwards concave arc-shaped sheet, and the design can enable the device to clamp copper cores with various diameters;

further, the arc pressure head sets up to the arc piece of indent, can shovel the back with the less copper core of diameter and press from both sides tightly, finally makes the virtual axis of copper core approach to the effect with the virtual axis collineation of position circle 1.3, easily follow-up processing to the copper core.

An embodiment of the present invention is illustrated with reference to fig. 1 and fig. 4-5:

an intelligent manufacturing installation of copper conductor in cable still includes stator 2.1, a centering suppression section of thick bamboo 2.2 and socket 2.3, and stator 2.1 goes up fixedly connected with centering suppression section of thick bamboo 2.2, and a plurality of sockets 2.3 of fixedly connected with are gone up to centering suppression section of thick bamboo 2.2 week side, and socket 2.3 department is equipped with design suppression subassembly, and this design suppression subassembly can process out on the copper core with crust complex pit.

The fixed seat 2.1 is positioned between the two control seats 1.2, and the virtual axis of the centering pressing cylinder 2.2 is collinear with the virtual axis of the positioning ring 1.3, so that the stable effect of the device for supporting the copper core can be improved; the socket 2.3 is connected with a shaping pressing assembly in a sliding mode, the shaping pressing assembly is used for machining a pit in the copper core, and due to the design, the fitting effect between the outer skin of the copper core and the copper core can be improved, so that the occurrence of the situation that the copper core slides in the outer skin in a wrong mode is reduced, and the using effect of a product is improved;

furthermore, a shallow pit is processed on the copper core, so that the transmission of electric power cannot be influenced;

further, arc-shaped pits are processed on the copper core, so that the outer skin of the pits cannot be scraped in the using process;

further, a pit is processed on the copper core, the sheath is tightly attached to the pit, the cable equipment can be made to be under the low-temperature environment, after the copper conductor shrinks, the sheath is provided with a bulge matched with the pit, so that the clamping effect of the sheath on the copper core can be guaranteed, and then the use safety and the practicability of the cable product with the single-stranded copper core are improved.

An embodiment of the invention is illustrated with reference to fig. 4 and fig. 6-7:

the correction assembly comprises a sliding seat 6.1 and an elliptic disc 6.4, a groove plate 1.5 is installed on a transverse measurement chassis 1.1, a sliding rail is formed between the transverse measurement chassis 1.1 and the groove plate 1.5, the sliding seat 6.1 is connected with the sliding rail in a sliding manner, the elliptic disc 6.4 is installed on the sliding seat 6.1, a through hole is formed in the middle of the elliptic disc 6.4, a copper core winding assembly is arranged on the elliptic disc 6.4, and the copper core winding assembly can continuously twist a copper core so as to conduct straightening processing on the copper core with various bending degrees.

A through hole is formed in the middle of the elliptical disk 6.4, an elastic cylinder can be installed at the through hole, the copper core penetrates through the elastic cylinder, an air claw is installed between the elastic cylinder and the elliptical disk 6.4, the fixed end of the air claw is fixedly connected with the elliptical disk 6.4, and the clamping jaw of the air claw is fit with the periphery of the elastic cylinder;

the control gas claw presses the elastic cylinder to the realization is pressed from both sides tight effect to the copper core that passes the elastic cylinder, and control slide 6.1 slides in the slide rail this moment, thereby realizes carrying out the pulling function to the copper core, and finally straightens the copper core, collineation between the virtual axis of elastic cylinder and the virtual axis of a centering suppression section of thick bamboo 2.2 this moment.

An embodiment of the invention is illustrated with reference to fig. 1 and 5:

the design suppression subassembly includes orbit cooperation round pin 3.1 and compression leg 3.1.1, and sliding connection has orbit cooperation round pin 3.1 on the socket 2.3, is equipped with compression leg 3.1.1 on the orbit cooperation round pin 3.1, compression leg 3.1.1 and socket 2.3 sliding connection, fixedly connected with spring I between compression leg 3.1.1 and the socket 2.3, and compression leg 3.1.1 can run through centering suppression section of thick bamboo 2.2.

The end part of the compression column 3.1.1 is arc-shaped, so that the device can process arc-shaped pits on the copper core; the section of the sliding connection part of the compression leg 3.1.1 and the socket 2.3 is rectangular, so that the compression leg 3.1.1 can be limited to rotate on the socket 2.3, and the using stability effect of the device is improved;

the pressing track is matched with the pin 3.1, so that a pit can be processed on the copper core by the pressing column 3.1.1;

a blocking piece is arranged on the track matching pin 3.1, and the blocking piece is matched with the socket 2.3 to play a role in limiting;

when the track matching pin 3.1 loses the action of external force, the spring I can drive the track matching pin 3.1 to automatically reset; the inner diameter of the centering pressing cylinder 2.2 is set to be in fit with the copper core, so that the device can easily perform straight treatment on the copper core;

a lantern ring can be arranged in the centering pressing cylinder 2.2, so that the diameter of the inner side of the centering pressing cylinder 2.2 is reduced, and the centering pressing cylinder 2.2 can be attached to the outer sides of copper cores with various sizes;

the lantern ring is provided with a through hole for accommodating the compression leg 3.1.1 to penetrate through, so that the compression leg 3.1.1 can easily process the copper core.

An embodiment of the invention is illustrated with reference to fig. 1 and 5:

be equipped with batter post 3.1.2 on the orbit cooperation round pin 3.1, sliding connection has spout seat 4.1 on the seat 2.1, fixedly connected with synchronizing ring 4.3 on the spout seat 4.1, synchronizing ring 4.3 and batter post 3.1.2 laminating cooperation.

The design that the synchronous ring 4.3 is matched with the inclined column 3.1.2 in a fitting manner is convenient for synchronously driving the plurality of pressing columns 3.1.1 to move, so that the device can simultaneously process a plurality of pits on the periphery of the copper core, and the copper core is processed while the flatness of the copper core is kept;

the control sliding groove seat 4.1 slides on the fixed seat 2.1, so that the synchronous ring 4.3 drives the plurality of compression columns 3.1.1 to move.

An embodiment of the invention is illustrated with reference to fig. 2 and 4:

the intelligent manufacturing device for the copper conductor in the cable further comprises a pressure fit sheet 1.6, a bolt plate 1.7, a fit arm 4.2, a spring seat 5.1 and a telescopic rod 5.2, wherein the pressure fit sheet 1.6 is fixedly connected to the transverse measurement chassis 1.1, a hole is formed in the pressure fit sheet 1.6, a spring seat 5.1 is connected to the hole in the pressure fit sheet 1.6 in a sliding mode, a spring II is installed between the spring seat 5.1 and the pressure fit sheet 1.6, the telescopic rod 5.2 is installed on the spring seat 5.1, the fixed end of the telescopic rod 5.2 is fixedly connected with the spring seat 5.1, a convex column is installed on the spring seat 5.1 and is in fit with the fit arm 4.2, the fit arm 4.2 is fixedly connected to the chute seat 4.1, a jack is arranged on the transverse measurement chassis 1.1, the bolt plate 1.7 is detachably installed at the jack, and the movable end of the bolt plate 1.7 is matched with the telescopic rod 5.2.

Insert back on the jack with bolt board 1.7, can play spacing effect to 5.2 expansion ends of telescopic link, start telescopic link 5.2 this moment and stretch out, can make spring holder 5.1 slide in pressure fit piece 1.6 to make the projection with cooperation arm 4.2 jack-up, make synchronous circle 4.3 drive a plurality of compression legs 3.1.1 and remove then, realize carrying out the effect of processing to the copper core.

An embodiment of the invention is illustrated with reference to fig. 6 and 14:

the sliding seat 6.1 is fixedly connected with a top plate 6.2, and the top plate 6.2 is matched with the movable end of the telescopic rod 5.2 in an attaching mode.

After the bolt plate 1.7 is taken down from the jack, the telescopic rod 5.2 is started to extend out, the movable end of the telescopic rod 5.2 can be enabled to jack the top plate 6.2, the correction assembly is controlled to clamp the copper core at the moment, and the other end of the copper core is clamped by the clamping assembly on the copper core supporting frame far away from the sliding seat 6.1 at the moment, so that the effect of straightening the copper core can be realized;

when the telescopic rod 5.2 is continuously started to extend, the spring II on the spring seat 5.1 is pressed to drive the convex column on the spring seat 5.1 to press the matching arm 4.2, so that the copper core is pressed by the pressure column 3.1.1;

further, spring II on the spring holder 5.1 is pressed, drives the projection on the spring holder 5.1 and presses 4.2 cooperation arms, can make the device process out the pit on the copper core to the copper core is tightened this moment, and the position between the position of pit and the virtual axis of copper core can be kept, thereby makes the pit position on the copper core can keep equally dividing, improves the processing effect of device then.

An embodiment of the invention is illustrated with reference to fig. 6 and 14:

fixedly connected with traveller 6.3 on the slide 6.1, transversely survey fixedly connected with orifice plate on the chassis 1.1, sliding connection between traveller 6.3 and the orifice plate, fixedly connected with extension spring I between traveller 6.3 and the orifice plate.

Due to the design of the tension spring I, the sliding seat 6.1 can be automatically reset;

the setting of traveller 6.3 and orifice plate can improve the protection effect of going on extension spring I.

Embodiments of the invention are illustrated with reference to fig. 7 and 9-10:

copper core is around moving the subassembly and is included circular slot 6.5, oval contact surface 6.6, positive circular plate 7.1, paster 7.2 and outer ring gear 7.3, be equipped with circular slot 6.5 in the oval dish 6.4, oval dish 6.4 inboard is equipped with oval contact surface 6.6, sliding connection has positive circular plate 7.1 in the circular slot 6.5, be equipped with two pasters 7.2 on the positive circular plate 7.1, install outer ring gear 7.3 on the positive circular plate 7.1, install gear motor on the oval dish 6.4, install the gear on gear motor's the output shaft, the gear is connected with outer ring gear 7.3 transmission.

The arrangement of the elastic cylinder is cancelled; the reduction motor is started to rotate, the gear can drive the outer gear ring 7.3 to rotate by taking the axis of the gear as a shaft, so that the circular plate 7.1 slides in the circular groove 6.5, and the outer gear ring 7.3 is arranged at the end part of the circular plate 7.1, so that the friction between the outer gear ring 7.3 and the circular groove 6.5 can be reduced, and the operation effect of the device is improved;

the positive circular plate 7.1 is controlled to rotate in the circular groove 6.5, so that the copper core is convenient to wind the assembly to achieve the effect of continuously twisting the copper core, and the effect of straightening the copper core with various bending degrees is convenient to achieve.

Embodiments of the present invention are illustrated with reference to fig. 10-13:

the copper core orbiting assembly further comprises a hinged column 8.1, a clamping arm I8.2, a clamping arm II 8.3, a matching cylinder 8.4, a blocking edge 8.5, an inner rotary cylinder 8.6 and an anti-sudden-adhesive ring 8.7, wherein the hinged column 8.1 is hinged in a positive circular plate 7.1, the hinged column 8.1 is hinged with the clamping arm I8.2 and the clamping arm II 8.3, the end parts of the clamping arm I8.2 and the clamping arm II 8.3 are flush, a tension spring II is arranged between the clamping arm I8.2 and the clamping arm II 8.3, the I8.2 and II 8.3 symmetries of clamp arm are provided with two, the clamping has a cooperation section of thick bamboo 8.4 between I8.2 and the clamp arm II 8.3 of clamp arm, the week portion and the cooperation of oval contact surface 6.6 of a cooperation section of thick bamboo 8.4, install a plurality of fender edges 8.5 on the cooperation section of thick bamboo 8.4, keep off along 8.5 and the cooperation of I8.2 and the clamp arm II 8.3 of clamp arm, keep off along 8.5 and the both sides cooperation of oval dish 6.4, 6.4 inboard articulated interior rotary drums 8.6 that are connected with of oval dish, a plurality of sudden degumming preventing circle 8.7 are installed to interior rotary drum 8.6 inboard.

Under the action of the tension spring II, the clamping arm I8.2 and the clamping arm II 8.3 push the matching cylinder 8.4 to the oval contact surface 6.6, and finally, under the action of the oval contact surface 6.6, the clamping arm I8.2 and the clamping arm II 8.3, the matching cylinder 8.4 is clamped, so that the device can continuously twist the copper core;

when the positive circular plate 7.1 is controlled to rotate in the circular groove 6.5, the paster 7.2 drives the clamping arm I8.2 or the clamping arm II 8.3 to rotate on the hinge column 8.1, so that the matching cylinder 8.4 moves along an elliptical track, and then the effect of continuously twisting the copper core is conveniently realized, and the copper cores with various bending degrees are straightened;

the anti-sudden-degumming ring 8.7 is made of an elastically deformable material, so that the effect of tensioning the copper core by the device is improved; furthermore, the anti-sudden-falling rubber ring 8.7 is arranged to apply resistance to the penetration of the copper core, so that the device can conveniently straighten the copper core, and can conveniently process uniform pits on the peripheral side of the copper core;

by matching with the design of the barrel 8.4, the situation of pulling damage to the copper core can be reduced when the copper core is straightened, so that the bent part of the copper core can be gradually straightened in the winding process, the requirement on the tensioning force is reduced, and the damage to the copper core caused by strong force is reduced;

the inner side of the matching cylinder 8.4 is hinged with the inner rotating cylinder 8.6, so that the rotating effect on the copper core can be reduced, and the damage to the copper core is reduced;

when the control matching cylinder 8.4 moves along the elliptical track, the circular groove 6.5, the right circular plate 7.1 and the hinge column 8.1 are designed, so that the continuity of the orbiting copper core can be improved, and the copper core cannot interfere with the device in the continuous orbiting process;

when the matching cylinder 8.4 is controlled to move along the elliptical track, the matching cylinder has the far end and the near end which are opposite to the virtual axis of the centering pressing cylinder 2.2, and at the moment, the clamping assemblies on the copper core supporting frames at two sides are alternately clamped or loosened by utilizing the moving position of the matching cylinder 8.4, so that copper wires can be conveniently conveyed, and the continuous processing effect of the device is improved;

in the moving process of the matching barrel 8.4, the virtual axis of the matching barrel 8.4 and the virtual axis of the centering pressing barrel 2.2 can be collinear, so that the copper core can be uniformly processed on the side part in a stretched state.

An embodiment of the invention is illustrated with reference to fig. 1, 6 and 14:

the utility model provides an intelligent manufacturing installation of copper conductor in cable still tightens up arm 9.3 including articulated seat 9.1, spout arm 9.2 and length, articulated seat 9.1 is provided with two, and articulated seat 9.1 and slide 6.1 fixed connection install spout arm 9.2 on this articulated seat 9.1, and another articulated seat 9.1 and fixed seat 2.1 fixed connection install length on this articulated seat 9.1 and tighten up arm 9.3, are equipped with the spout on the spout arm 9.2, and articulated being connected with the sliding shaft on the length tightens up arm 9.3, and the sliding shaft slides in the spout, locks through the fastener between sliding shaft and the spout arm 9.2.

The arrangement of the hinged seat 9.1, the chute arm 9.2 and the length tightening arm 9.3 can limit the maximum moving position of the sliding seat 6.1, thereby preventing the device from breaking the copper core;

the arrangement of the sliding shaft and the sliding groove changes the maximum moving position of the sliding seat 6.1, so that the device can process copper cores with various performances conveniently.