CN110957679A - Steady line wire stripping machine - Google Patents

Abstract

The invention discloses a wire stabilizing and stripping machine, which relates to wire stripping equipment and is used for solving the problem of deviation during cable cutting, and the wire stabilizing and stripping machine comprises a support, an upper clamping roller, a lower clamping roller and a driving mechanism, wherein the upper clamping roller and the lower clamping roller are rotatably arranged on the support and mutually form a wire cutting opening; the invention has the following advantages and effects: the upper line roller and the lower line roller can clamp the cable, limit the deviation of the cable in the cutting process, enable the cable to be aligned with the blade all the time, and enable the cable to be cut smoothly and accurately.

Description

Steady line wire stripping machine

Technical Field

The invention relates to wire stripping equipment, in particular to a wire stabilizing and stripping machine.

Background

The social civilization is in the steam age, the internal combustion engine age and the electrical age, and the science and technology are always continuously improved along with the time when the social civilization enters the information age. In the background of the information age, all information can be rapidly propagated through electric signals, and the propagation of the electric signals needs to be carried out by a specific medium, namely a cable, wherein after the cable is used up, the material of the cable can be recycled, and the old metal in the cable is generally remelted and then cast into other products according to the needs.

At present, the invention patent with the publication number of CN204407105U discloses a multifunctional wire stripping machine, which comprises a support arranged on a rack, wherein an upper rotating shaft and a lower rotating shaft are arranged on the support, the lower rotating shaft is driven by a motor arranged at the bottom of the rack, a plurality of swaging gears are correspondingly arranged on the upper rotating shaft and the lower rotating shaft, a groove is arranged in the middle of the tooth surface of the swaging gear, a blade is arranged in the groove, and the blade is fixed on a tool rest.

The multifunctional wire stripping machine is found in the using process, because the insulating sheath of the cable is cut, when the blade is in contact with the cable, the blade can apply force to the insulating sheath, meanwhile, the cross section of the cable is usually circular, so that the shearing force is inevitably generated to deflect when being applied to the surface of the cable, and further the cable is deflected from the blade.

Disclosure of Invention

Aiming at the defects in the prior art, one of the purposes of the invention is to provide a wire stabilizing and stripping machine which can support a cable, prevent the cable and a blade from deflecting and align the cable and the blade all the time, so that the cable can be cut smoothly and accurately.

The technical purpose of the invention is realized by the following technical scheme: the wire stabilizing and stripping machine comprises a support, an upper clamping roller, a lower clamping roller and a driving mechanism, wherein the upper clamping roller and the lower clamping roller are rotatably arranged on the support and mutually form a wire cutting opening for a cable to enter, the driving mechanism is arranged on the support and used for driving the upper clamping roller or the lower clamping roller to rotate, the wire stabilizing mechanism comprises a wire discharging roller rotatably arranged on the support, a wire feeding roller arranged on the support in a lifting mode and a lifting assembly arranged on the support and used for adjusting the lifting of the wire feeding roller, the wire feeding roller and the wire discharging roller respectively comprise a wire roller shaft and a wire stabilizing sleeve column arranged on the wire roller shaft, the circumferential side wall of the wire stabilizing sleeve column is inwards sunken to form a waist-drum-shaped structure, and a circular arc-shaped wire clamping opening is formed between the wire feeding roller and the wire discharging roller.

Through adopting above-mentioned scheme, the cable penetrates earlier in pressing from both sides the spool when the inlet wire, because the circumference lateral wall of steady line cover post inwards caves in and forms waist drum column structure, consequently the wire clamping mouth that forms between two steady line cover posts is oval-shaped, and the cross-section of cable is circular shape again, consequently such wire clamping mouth can carry out the centre gripping location to the cable better for the cable is difficult to produce the skew under the cutting of blade, thereby makes the cable can steadily, accurately cut.

The invention in a preferred example may be further arranged to: and the circumferential side wall of the wire stabilizing sleeve column is provided with wire clamping grooves distributed around the center of the wire stabilizing sleeve column, and the extension direction of the wire clamping grooves is parallel to the length direction of the wire roller shaft.

Through adopting above-mentioned scheme, the existence of wire clamping groove can make the surface of steady line cover post produce unsmooth undulation, frictional force when can increasing steady line cover post and cable contact like this for upper and lower line roller can take the cable to go forward better at the pivoted in-process, improves the synchronism between cable and the upper and lower line roller, also grasps the cable better simultaneously, thereby makes the cable can be cut better.

The invention in a preferred example may be further arranged to: the lifting assembly comprises lifting plates inserted on the mounting frames on two sides of the support in a lifting mode, a mounting plate fixed to the upper portion of the mounting frame of the support, and a lifting screw rod arranged on the mounting plate in a threaded mode, wherein the two ends of the wire feeding roller are installed on the two lifting plates in a rotating mode respectively, one end, penetrating through the mounting plate, of the lifting screw rod is installed on the lifting plates in a rotating mode, an adjusting chain wheel is fixed to one end, located above the mounting plate, of the lifting screw rod, and the two adjusting chain wheels in the same group are in.

By adopting the scheme, because the two lifting screws in the same group are linked through the adjusting chain wheel and the chain, only one of the lifting screws needs to be rotated to drive the other lifting screw to synchronously rotate, so that the two lifting plates are driven to synchronously lift, the height adjustment of the two ends of the wire feeding roller is realized, and the size of the wire clamping opening can be stably adapted to the clamping and conveying tasks of cables in different sizes.

The invention in a preferred example may be further arranged to: the lifting screw rod is rotatably installed on the lifting plate through a connecting piece, a connecting notch is formed in the connecting piece, the connecting notch is open, an annular clamping groove used for clamping the connecting piece is formed in the lifting screw rod, and the connecting piece is fixed on the lifting plate through a bolt.

Through adopting above-mentioned scheme, because the connecting piece is on the lifting screw through the spread groove joint, consequently lifting screw's rotation is not influenced, and the part that lifting screw is located below the ring groove is blockked by the connecting piece again simultaneously, consequently it also can not break away from the contact with the connecting piece to make lifting screw can drive the roller of going up the standard grade and reciprocate when stretching out and drawing back on the mounting panel.

The invention in a preferred example may be further arranged to: the upper clamping roller and the lower clamping roller respectively comprise a rotating shaft, a blade arranged on the rotating shaft and alignment wheels arranged on the rotating shaft and clamped on two sides of the blade, the diameter of each orientation wheel is gradually increased from one end, which is in contact with the blade, to the two sides, and a plurality of alignment teeth distributed around the center of the orientation wheel are integrally arranged in the circumferential direction of the orientation wheel.

By adopting the scheme, the blade is used for cutting the cable, the routing wheel is used for positioning the blade on one hand, and on the other hand, as the diameter of the routing wheel is gradually increased in the process of extending towards two sides, a rhombic cavity can be formed between the four routing wheels on the upper and lower clamping rollers, the cross section of the cable is circular, the cable is in a form that the middle of the cable is thick and the two sides of the cable are gradually reduced, so that the routing wheels on the upper and lower clamping rollers are mutually matched to better hold the cable tightly, and the cable is prevented from deviating; the clamping teeth can increase the biting force of the alignment wheel to the cable, so that the upper clamping roller and the lower clamping roller can smoothly pull the cable to convey forwards in the rotating process, and the continuous operation of cable cutting is ensured.

The invention in a preferred example may be further arranged to: the wire clamping teeth are at least provided with two wire clamping bulges, and wire clamping spaces are respectively formed between every two adjacent wire clamping bulges and between the wire clamping bulges and the blade.

The sizes of the four routing wheels on the upper clamping roller and the lower clamping roller are fixed, so that the size of a rhombic cavity formed by the four routing wheels is fixed, a gap is possibly formed between a cable and the routing wheels, and the cable can slightly deviate.

The invention in a preferred example may be further arranged to: the driving mechanism comprises a gearbox fixed on the lower part of the support, and a driving motor fixed on the gearbox and linked with an input shaft of the gearbox, an output shaft of the gearbox is linked with the lower nip roll through a chain wheel and a chain, and the lower nip roll is also linked with the lower coil roll through the chain wheel and the chain.

Through adopting above-mentioned scheme, driving motor drives down the clamp roll rotation through chain and sprocket at the pivoted in-process, lower clamp roll is at rotatory in-process because it forms the extrusion to the cable together with last clamp roll, consequently lower clamp roll can drive the clamp roll rotation in-process that the drive cable carried forward, then link through sprocket and chain between the adjacent two sets of upper and lower clamp roll, two sets of upper and lower clamp roll interact can strengthen the transmission power to the cable, thereby make the cable can more smoothly the inlet wire.

The invention in a preferred example may be further arranged to: still be provided with supplementary tangent line device on the support, supplementary tangent line device includes that two are installed on the support and relative auxiliary frame each other, at least two sets ofly and both ends rotate respectively and install the auxiliary roller on two auxiliary frames, set up on the auxiliary frame and be used for carrying out the link gear that links with the unwrapping wire roller and auxiliary roller, every group the auxiliary roller all includes auxiliary roller and lower auxiliary roller, and one of them of the auxiliary roller of same group installs the blade, sets up on another auxiliary roller with blade complex unwrapping wire groove, and the blade on two sets of adjacent auxiliary rollers is upper and lower dislocation set.

By adopting the scheme, the auxiliary wire cutting device can work together with the upper clamping roller and the lower clamping roller, the upper clamping roller and the lower clamping roller are used for cutting the cable with larger size, the auxiliary wire cutting device is used for cutting the cable with smaller diameter, and the auxiliary wire cutting device and the auxiliary clamping roller are matched with each other, so that the application range of the wire stripping machine can be enlarged; simultaneously supplementary tangent line device mainly carries out the tangent line operation to the less cable of diameter, if all adorn the blade like upper and lower nip rolls on two auxiliary rollers of mutually supporting, then owing to the groove that the confession blade was packed into exists, will make the tangent line mouth size that forms between two auxiliary rollers far more than the cable diameter, the skew takes place very easily like this cable is gone into, consequently divide two processes to cut open the cable and can improve the centre gripping stability of auxiliary roller to the cable, thereby make the small-size cable also can be cut out steadily, accurately.

The invention in a preferred example may be further arranged to: the linkage mechanism comprises a linkage chain wheel fixed on the winding down roller and the lower auxiliary roller and a double-row chain used for being sleeved on the winding down roller and the lower auxiliary roller simultaneously, and the two adjacent auxiliary rollers are linked through the chain wheel and the chain.

By adopting the scheme, the linkage mechanism can link the driving mechanism and the auxiliary roller, so that the driving mechanism can drive the auxiliary roller to rotate while driving the upper clamping roller and the lower clamping roller to rotate, the transmission mechanism of the wire stripping machine is simplified, and the transmission efficiency of the driving mechanism of the wire stripping machine is improved.

In summary, the invention has at least one of the following advantages:

1. the upper line roller and the lower line roller can clamp the cable, the deviation of the cable in the cutting process is limited, the cable can be always aligned with the blade, and therefore the cable can be cut smoothly and accurately;

2. the lifting assembly can realize the same lifting and same lifting adjustment on two ends of the wire feeding roller, so that the wire feeding roller and the wire discharging roller can be always kept parallel, force can be uniformly applied to two sides of a cable when the upper wire discharging roller and the lower wire discharging roller clamp the cable, and the cable is prevented from being promoted to shift in the process of tightly holding the cable by the upper wire discharging roller and the lower wire discharging roller;

3. the wire clamping teeth and the wire clamping protrusions on the upper and lower clamping rollers can be embedded into the insulation skin of the cable to be occluded, so that the upper and lower clamping rollers can better stabilize the cable to prevent the cable from deviating.

Drawings

FIG. 1 is a schematic disassembled view of the structure of the present invention;

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

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

fig. 4 is a self-contained schematic of the present invention.

In the figure: 1. a support; 11. a mounting frame; 12. a column; 13. an installation space; 2. an upper nip roll; 21. a rotating shaft; 22. a blade; 23. a wire fixing wheel; 231. a wire clamping tooth; 232. a wire clamping bulge; 3. a lower nip roll; 4. a lifting assembly; 41. a lifting plate; 42. mounting a plate; 43. a lifting screw; 431. an annular neck; 44. a connecting member; 441. a connection notch; 5. a wire stabilizing mechanism; 51. a thread feeding roller; 511. a line roller shaft; 512. a wire stabilizing sleeve column; 513. a wire clamping groove; 52. a take-off roller; 6. a drive mechanism; 61. a gearbox; 62. a drive motor; 7. an auxiliary thread cutting device; 71. an auxiliary frame; 72. an auxiliary roller; 73. a linkage mechanism; 731. a link sprocket; 8. a take-up assembly; 81. an adjustment groove; 82. an adjusting plate; 83. a truss; 84. adjusting the screw rod; 85. an elastic pressing member; 9. pressing the disc; 10. and (6) a wire discharge groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, a wire stabilizing and stripping machine comprises a support 1, an upper clamping roller 2, a lower clamping roller 3, a wire stabilizing mechanism 5 and a driving mechanism 6, wherein the support 1 is used as a support main body, two opposite mounting frames 11 are fixed on the support main body, three upright posts 12 are arranged on each mounting frame 11, and a mounting space 13 is formed between every two adjacent upright posts 12.

As shown in fig. 2, the upper nip roller 2 and the lower nip roller 3 have the same structure, and both of them include a rotating shaft 21, a blade 22 and a fixed line wheel 23, and the rotating shaft 21 is in a shape of a round rod; the blade 22 is sleeved on the rotating shaft 21 and is positioned at the center of the rotating shaft 21, and the section of the through hole at the center of the blade 22 for matching with the rotating shaft 21 is polygonal, so that the blade 22 cannot rotate relative to the rotating shaft 21; the diameter of the fixed pulley 23 is a circular truncated cone gradually reduced from one end to the other end, a plurality of wire clamping teeth 231 are integrally arranged on the circumferential side wall of the fixed pulley 23 around the center of the fixed pulley, at least two wire clamping protrusions 232 are formed on each wire clamping tooth 231 in a protruding mode, and a wire clamping space is formed between every two adjacent wire clamping protrusions 232; every axis of rotation 21 all installs two wire fixing wheels 23, restricts the rotation through the key-type connection between wire fixing wheel 23 and the axis of rotation 21 to thoroughly fix with the screw after the dress, two wire fixing wheels 23 are located the both sides of blade 22 respectively, and form the centre gripping to blade 22, and then make blade 22 can not produce axial displacement on axis of rotation 21, form the rhombus cavity that the power cable passed between the wire fixing wheel 23 on upper and lower double-layered roller 3 this moment.

As shown in fig. 1 and 2, after the upper nip roller 2 and the lower nip roller 3 are assembled, two ends of the lower nip roller 3 are rotatably mounted on two mounting frames 11 through bearings respectively; the upper nip roll 2 is arranged on the mounting rack 11 in a lifting manner through the lifting assembly 4, the lifting assembly 4 comprises a lifting plate 41, a mounting plate 42 and a lifting screw 43, the lifting plate 41 is inserted between the two upright posts 12 of the same mounting rack 11 in a lifting manner, and two ends of the upper nip roll 2 are respectively rotatably mounted on the lifting plate 41 on the two mounting racks 11 through bearings; the mounting plate 42 is fixed on the upper part of the upright post 12, and the mounting plate 42 spans between the two mounting frames 11; the lifting screw 43 is threaded through the mounting plate 42, and one end of the lifting screw 43 passing through the mounting plate 42 is rotatably mounted on the lifting plate 41 through a connecting piece 44.

The connecting piece 44 is a square piece, a connecting notch 441 is arranged on the connecting piece 44, one side of the connecting notch 441 is communicated with the side edge of the connecting piece 44 to form an opening shape, and the opening of the connecting notch is subjected to rounding flaring treatment; an annular clamping groove 431 matched with the connecting notch 441 is formed in one end, close to the lifting plate 41, of the lifting screw 43, the connecting piece 44 is clamped on the lifting screw 43 through the connecting notch 441 and the annular clamping groove 431 and can rotate relative to the lifting screw 43, the connecting piece 44 is fixed on the lifting plate 41 through a bolt (not shown in the figure), a space for the lifting screw 43 to move is formed between the connecting piece 44 and the lifting plate 41, and the lifting screw 43 can normally rotate.

Meanwhile, in order to improve the accuracy of the lifting adjustment of the upper nip roller 2, adjusting chain wheels are fixed at one ends of the two lifting screws 43 above the mounting plate 42, and the two adjusting chain wheels in the same group are driven by a chain (not shown in the figure), so that the synchronous movement between the lifting plates 41 in the same group is realized.

The wire stabilizing mechanism 5 comprises a wire feeding roller 52, a wire feeding roller 51 and a lifting assembly 4, wherein the wire feeding roller 51 and the wire feeding roller 52 respectively comprise a wire roller shaft 511 and a wire stabilizing sleeve column 512, the wire roller shaft 511 is in a round rod shape, two ends of the wire feeding roller 52 are respectively rotatably arranged on the two mounting frames 11 through bearings and are parallel to the lower clamping roller 3 in the horizontal direction; the wire stabilizing sleeve column 512 is fixedly arranged on the wire roller shaft 511 through key connection, the circumferential side wall of the wire stabilizing sleeve column 512 is inwards sunken to form a waist drum-shaped structure, meanwhile, a plurality of wire clamping grooves 513 distributed around the center of the wire stabilizing sleeve column 512 are formed in the circumferential side wall of the wire stabilizing sleeve column 512, and the extending direction of the wire clamping grooves 513 is parallel to the length direction of the wire roller shaft 511.

After the upper wire roller 51 and the lower wire roller 52 are assembled, two ends of the lower wire roller 52 are respectively arranged on the two mounting frames 11 in the same way as the lower clamping roller 3; the upper thread roller 51 is arranged on the two mounting frames 11 in a lifting way through a lifting component 4 which has the same structure with the upper nip roller 2, so that the upper thread roller 51 can be adjusted in a lifting way.

The driving mechanism 6 comprises a gear box 61 and a driving motor 62 which are fixed at the lower part of the bracket 1, wherein the gear box 61 is a gear box 61 sold in the market and mainly used for reducing the speed of the rotary motion output by the driving motor 62, so that the output shaft of the gear box 61 is linked with the lower winding roll 52 through a chain wheel and a chain (not shown in the figure); the housing of the drive motor 62 is fixed to the transmission case 61, and its output shaft is interlocked with the input shaft of the transmission case 61, thereby enabling the take-off roller 52 to be driven.

In order to improve the transmission efficiency of the driving mechanism 6, chain wheels are respectively arranged on the wire roller shaft 511 of the wire feeding roller 52 and the rotating shaft 21 of the lower nip roller 3, and a chain is sleeved between the two chain wheels, so that the wire feeding roller 52 and the lower nip roller 3 are linked.

As shown in fig. 1 and 3, an auxiliary thread cutting device 7 is further disposed on the support 1, and includes two auxiliary frames 71, two auxiliary rollers 72, and a linkage mechanism 73, where the two auxiliary frames 71 are disposed on a side of one of the two mounting frames 11 opposite to the other mounting frame 11, and after being fixed to the support 1, the two auxiliary frames 71 are opposite to each other; the auxiliary rollers 72 are provided with two groups, each group comprises an upper auxiliary roller 72 and a lower auxiliary roller 72, two ends of each auxiliary roller 72 are respectively rotatably installed on the two auxiliary frames 71, and the upper clamping roller 2 and the lower clamping roller 3 in the same group are vertically distributed.

The lower clamping roller 3 is directly installed on the installation frame 11 through a bearing, the upper clamping roller 2 is installed on the auxiliary frame 71 through the elastic assembly 8 in a lifting mode, a plurality of blades 22 are installed on the upper auxiliary roller 72 of the first group of auxiliary rollers 72 along the axial direction of the upper auxiliary roller, meanwhile, the lower auxiliary roller 72 is provided with the wire releasing grooves 10 which are arranged along the axial direction of the lower auxiliary roller and are used for being matched with the blades 22, the blades 22 of the second group of auxiliary rollers 72 are installed on the lower auxiliary roller 72, and the wire releasing grooves 10 are located on the upper auxiliary roller 72 so as to ensure that the blades 22 on the two adjacent groups of auxiliary rollers 72 are distributed in a vertically staggered mode.

The tightening and loosening assembly 8 comprises an adjusting groove 81, an adjusting plate 82, a thrust groove, an elastic thrust piece, a truss 83, an adjusting screw 84 and an elastic pressing piece 85, wherein the adjusting groove 81 is arranged at the upper part of the auxiliary frame 71, and the upper side of the adjusting groove is open; the adjusting plate 82 is inserted in the adjusting groove 81 in a lifting and sliding manner; the thrust groove is formed in the bottom wall of the adjusting groove 81; the elastic thrust piece is a spring, is embedded in the thrust groove, has the length larger than the depth of the thrust groove, and is in a compression state after being abutted against the lower side of the adjusting plate 82; the truss 83 is fixedly arranged on the upper part of the auxiliary frame 71; the adjusting screw 84 is screwed on the truss 83 and penetrates the truss 83; a pressing disc 9 is integrally arranged at one end of the adjusting screw 84 penetrating through the truss 83; the elastic thrust member is a spring, one end of the elastic thrust member is sleeved on one end of the adjusting screw 84, which is provided with the pressing disc 9, and abuts against the pressing disc 9, the other end abuts against the adjusting plate 82, and the elastic force of the elastic pressing member 85 is greater than that of the elastic thrust member, so as to ensure that the upper auxiliary roller 72 is extruded towards the lower auxiliary roller 72.

The linkage mechanism 73 comprises two linkage chain wheels 731 and double rows of chains, the two linkage chain wheels 731 are respectively fixed on the lower auxiliary roller 72 and the lower roller 52, and the two linkage chain wheels 731 are coaxially opposite; a double-row chain (see fig. 2) is wound on the two linkage chain wheels 731 at the same time, so that the lower auxiliary roller 72 and the lower roller 52 are synchronously linked; meanwhile, the two lower auxiliary rollers 72 and the two upper auxiliary rollers 72 are linked by using a chain wheel and a chain, so that the conveying force of the cable is improved.

The specific implementation principle is as follows: as shown in fig. 4, before entering the wire stripper, the cable passes through the space between the wire feeding roller 51 and the wire discharging roller 52, and the position of the wire feeding roller 51 is adjusted by the lifting assembly 4 to clamp the cable, so that the cable is held by the wire feeding roller 52 and is not easy to deviate in the cutting process, and the wire clamping teeth 231 and the wire clamping protrusions 232 on the upper and lower wire clamping rollers 3 are embedded into the insulation sheath of the cable to bite the cable, so that the cable is not easy to deviate, and the cable can be accurately and smoothly cut.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a steady line wire stripping machine, includes support (1), rotates and installs on support (1) and each other forms last pinch roll (2) of the tangent line mouth that supplies the cable to get into, lower pinch roll (3), set up on support (1) and be used for driving about pinch roll (2) or lower pinch roll (3) rotatory actuating mechanism (6), its characterized in that: still include steady line mechanism (5), steady line mechanism (5) set up last line roller (51) on support (1), set up lifting unit (4) that just is used for adjusting last line roller (51) and goes up and down including rotating lower line roller (52), the last line roller (51) of installing on support (1), set up on support (1), it all includes line roller (511) with lower line roller (52) to go up line roller (51), installs steady line sleeve post (512) on line roller (511), the circumference lateral wall of steady line sleeve post (512) inwards caves in and forms waist drum column structure, just it forms convex double-layered line mouth to go up between line roller (51) and lower line roller (52).

2. The wire stabilizing and stripping machine of claim 1, wherein: and the circumferential side wall of the wire stabilizing sleeve column (512) is provided with wire clamping grooves (513) distributed around the center of the wire stabilizing sleeve column (512), and the extending direction of the wire clamping grooves (513) is parallel to the length direction of the wire roller shaft (511).

3. The wire stabilizing and stripping machine of claim 1, wherein: lifting unit (4) including go up and down peg graft in lifter plate (41) on mounting bracket (11) of support (1) both sides, be fixed in mounting panel (42) on mounting bracket (11) upper portion of support (1), lifting screw (43) on mounting panel (42) are worn to locate by the screw thread, the both ends of going up line roller (51) are rotated respectively and are installed on two lifter plates (41), lifting screw (43) pass the one end rotation of mounting panel (42) and install on lifter plate (41), lifting screw (43) are located one of mounting panel (42) top and serve and are fixed with adjusting sprocket, pass through chain drive between two adjusting sprocket of same group.

4. The wire stabilizing and stripping machine according to claim 3, characterized in that: lifting screw (43) are rotated through connecting piece (44) and are installed on lifter plate (41), connection notch (441) has been seted up on connecting piece (44), connection notch (441) are open form, last ring groove (431) of seting up and being used for supplying connecting piece (44) to go into of lifting screw (43), and connecting piece (44) pass through the bolt fastening on lifter plate (41).

5. The wire stabilizing and stripping machine of claim 1, wherein: go up pinch roll (2) and lower pinch roll (3) and all include axis of rotation (21), install blade (22) on axis of rotation (21), install on axis of rotation (21) and centre gripping in the line wheel (23) of the fixed line of blade (22) both sides, the diameter of directional wheel increases gradually to the in-process that both sides extended from the one end that contacts with blade (22), and the circumferencial direction of directional wheel is integrative to be provided with a plurality of line clamping teeth (231) that distribute around its center.

6. The wire stabilizing and stripping machine of claim 5, wherein: the wire clamping teeth (231) are at least provided with two wire clamping bulges (232), and wire clamping spaces are respectively formed between every two adjacent wire clamping bulges (232) and between the wire clamping bulges (232) and the blade (22).

7. The wire stabilizing and stripping machine of claim 1, wherein: the driving mechanism (6) comprises a gearbox (61) fixed to the lower portion of the support (1) and a driving motor (62) fixed to the gearbox (61) and linked with an input shaft of the gearbox (61), an output shaft of the gearbox (61) is linked with the lower clamping roller (3) through a chain wheel and a chain, and the lower clamping roller (3) is linked with the lower line feeding roller (52) through the chain wheel and the chain.

8. The wire stabilizing and stripping machine of claim 1, wherein: still be provided with supplementary tangent line device (7) on support (1), supplementary tangent line device (7) include two auxiliary frame (71) that install on support (1) and relative each other, at least two sets ofly and both ends rotate respectively and install supplementary roller (72) on two auxiliary frame (71), set up on auxiliary frame (71) and be used for carrying out link gear (73) that link down line roller (52) and supplementary roller (72), every group supplementary roller (72) all include supplementary roller (72) and lower supplementary roller (72), and blade (22) are installed to one of the supplementary roller (72) of same group, have seted up on another supplementary roller (72) with blade (22) complex wire casing (10), and blade (22) on two sets of adjacent supplementary rollers (72) are upper and lower dislocation set.

9. The wire stabilizing and stripping machine according to claim 8, wherein: the linkage mechanism (73) comprises a linkage chain wheel (731) fixed on the lower line roller (52) and the lower auxiliary roller (72) and double rows of chains used for being sleeved on the lower line roller (52) and the lower auxiliary roller (72) simultaneously, and the two adjacent groups of auxiliary rollers (72) are linked through the chain wheel and the chains.

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