CN108161243B

CN108161243B - Laser carding device and laser carding process

Info

Publication number: CN108161243B
Application number: CN201711337631.2A
Authority: CN
Inventors: 陈寿春
Original assignee: 陈寿春
Current assignee: Foshan liangyuxian Hardware Products Co.,Ltd.
Priority date: 2017-12-14
Filing date: 2017-12-14
Publication date: 2019-12-17
Anticipated expiration: 2037-12-14
Also published as: CN108161243A

Abstract

The invention relates to a laser carding device, which comprises a main frame, a laser carding underframe arranged on the main frame, laser carding clamping devices respectively arranged on the laser carding underframe and used for tensioning laser carding conductive wires, laser carding front feeding devices used for spacing and separating the laser carded conductive wires, laser carding vertical plates arranged on the laser carding underframe, laser carding lower glue feeding devices which are symmetrically arranged on the laser carding vertical plates and have the same structure and are used for feeding adhesive tapes to the lower surfaces of the separated conductive wires, laser carding upper glue feeding devices used for feeding adhesive tapes to the upper surfaces of the separated conductive wires, laser carding clamping hands and laser carding longitudinal feeding devices used for tensioning the conductive wires during adhesive tape simultaneously, laser carding adhesive tape sticking devices used for sticking the upper and lower adhesive tapes to the tensioned conductive wires, laser carding adhesive cutting devices used for cutting the adhered adhesive tapes, And the laser carding sucker device blows the cut adhesive tape head to be in a horizontal state.

Description

Laser carding device and laser carding process

Technical Field

The invention relates to a laser carding device and a laser carding process.

Background

At present, the conductive wires with the diameters below the millimeter level are required to be arranged without impurities, the conductive wires are clean and tidy, the arrangement requirement is uniform, the existing equipment needs to be processed by multiple equipment in multiple procedures, and the efficiency is low.

The production efficiency of the existing production line is low, the operation process is time-consuming and labor-consuming, and large-scale production is not convenient. In order to improve the working efficiency, semi-automatic processing is carried out by imitating a manual adhesive tape pasting mode at present, but in the processing process of the equipment, the pressing adhesive tape cannot continuously move forwards during attaching, but stays, the smooth proceeding of the conductive wire is not facilitated, and the phenomenon of blocking is easy to occur.

Disclosure of Invention

in view of the above, the technical problem to be solved by the present invention is to provide a laser carding device and a laser carding process, which have the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use; the technical problems to be solved and the advantages to be achieved are set forth in the description which follows and in the detailed description of the embodiments.

in order to solve the problems, the technical scheme adopted by the invention is as follows:

a laser carding device comprises a main frame, a laser carding underframe arranged on the main frame, laser carding clamping devices respectively arranged on the laser carding underframe and used for tensioning laser carding conductive wires, laser carding front feeding devices used for spacing and separating the laser carded conductive wires, laser carding vertical plates arranged on the laser carding underframe, laser carding lower glue feeding devices which are symmetrically arranged on the laser carding vertical plates and have the same structure and used for feeding adhesive tapes to the lower sides of the separated conductive wires, laser carding upper glue feeding devices used for feeding adhesive tapes to the upper sides of the separated conductive wires, laser carding clamping hands and laser carding longitudinal feeding devices used for tensioning the conductive wires during adhesive tape simultaneously, laser carding adhesive tape sticking devices used for sticking the upper and lower adhesive tapes to the tensioned conductive wires, and laser carding adhesive cutting devices used for cutting the stuck adhesive tapes, And the laser carding sucker device blows the cut adhesive tape head to be in a horizontal state.

drawings

Fig. 1 is a schematic structural view of the present invention. FIG. 2 is a schematic view of the structure of the adhesive of the present invention. FIG. 3 is a schematic view of the first perspective exploded view of the adhesive of the present invention. FIG. 4 is a schematic diagram of the second perspective exploded view of the tape of the present invention. FIG. 5 is a schematic diagram of the third perspective exploded view of the adhesive tape of the present invention. FIG. 6 is a schematic diagram of the fourth perspective exploded view of the adhesive tape of the present invention.

Detailed Description

as shown in fig. 1-6, the laser carding machine device of this embodiment includes a main frame 2, a laser carding chassis 501 disposed on the main frame 2, and laser carding clamping devices 502 disposed on the laser carding chassis 501 respectively and used for tensioning the laser carding conductive wires 1, laser carding forward-feeding devices 503 spaced apart at a certain distance for the laser carded conductive wires 1, laser carding vertical plates 504 disposed on the laser carding chassis 501, laser carding downward-feeding devices 505 symmetrically disposed on the laser carding vertical plates 504 and having the same structure and feeding adhesive tapes below the separated conductive wires 1, laser carding upward-feeding devices 506 feeding adhesive tapes above the separated conductive wires 1, laser carding clamping hands 507 and laser carding longitudinal feeding devices 508 for tensioning and adhering the adhesive tapes 1, and laser carding adhesive-adhering devices 510 adhering the adhesive tapes to the tensioned conductive wires 1, A laser combing and cutting device 511 for cutting the bonded adhesive tape, a laser cutter provided in the main frame 2 for cutting the bonded conductive wire 1, and a laser combing and suction device 509 for blowing the cut adhesive tape head in a horizontal state.

the laser carding clamping device 502 comprises a laser carding clamping longitudinal rail 521 in the same advancing direction as the conductive wire 1, a laser carding clamping slide seat arranged on the laser carding clamping longitudinal rail 521, a laser carding parting line row 522 arranged on the laser carding clamping slide seat and used for separating the conductive wire 1 at intervals, a laser carding guide rail locking handle 523 arranged on the laser carding clamping slide seat and used for fixing the laser carding clamping longitudinal rail 521, and a laser carding wire pressing seat 524 arranged on the laser carding clamping slide seat and located in front of the laser carding parting line row 522. And secondary guiding, laser carding and interval staggering are realized.

the laser carding forward feeding device 503 comprises a laser carding forward feeding lifting cylinder arranged on the laser carding chassis 501, a laser carding forward feeding base 531 arranged at the upper end of a piston rod of the laser carding forward feeding lifting cylinder, a laser carding forward feeding longitudinal conveyor belt 533 arranged on the laser carding forward feeding base 531, a laser carding forward feeding guide clamping block 534 arranged on the laser carding forward feeding longitudinal conveyor belt 533, a laser carding forward feeding transverse sliding base 535 arranged on the laser carding forward feeding guide clamping block 534, a laser carding forward feeding transverse cylinder 532 transversely arranged on the laser carding forward feeding transverse sliding base 535, and a laser carding forward feeding ring groove rod 536 of which the tail end is connected with the end of the piston rod of the laser carding forward feeding transverse cylinder 532;

Guide ring grooves for separating gaps of the conductive wires 1 are prefabricated on the laser carding front ring groove rod 536, and the conductive wires 1 pass through the guide ring grooves after being output from the laser carding wire pressing seat 524. Different intervals can be customized according to different requirements, and forward feeding is realized through friction tension force.

The laser combing and feeding device 506 comprises a rotating shaft horizontally arranged on the laser combing vertical plate 504, a laser combing adhesive tape ring 541 sleeved on the rotating shaft, a laser combing adhesive tape damper 543 arranged on the laser combing vertical plate 504 and in frictional contact with the rotating shaft, a laser combing adhesive tape tensioning roller 542 arranged on the output side of the rotating shaft and in pressure contact with the front surface of the adhesive tape, a laser combing adhesive tape guide roller 544 arranged on the output side of the rotating shaft and in rolling contact with the front surface of the adhesive tape, a laser combing adhesive tape end face occluder 545 arranged on the laser combing vertical plate 504 and used for occluding the end of the adhesive tape, and an air cylinder arranged on the laser combing vertical plate 504 and driving the laser combing adhesive tape end face occluder 545 to move transversely; the direction is changed through the guide roller, uniform transmission is guaranteed through damping, and traction and tensioning are achieved through the articulator.

The laser carding tape end face articulator 545 comprises fixed teeth and laser carding tape articulation teeth 547 driven by a laser carding tape pressing articulation cylinder 546 to move up and down relative to the fixed teeth;

The laser combing and glue cutting device 511 comprises a cylinder longitudinally arranged on the laser combing vertical plate 504, a cutter base connected with a piston rod of the cylinder, laser combing and glue cutting knives 548 symmetrically arranged on the cutter base and used for cutting glue strips on the upper side and the lower side respectively, and laser combing and glue vertical direction cylinders 549 arranged on the cutter base and driving the laser combing and glue cutting knives 548 to move up and down. The adhesive tape is cut off through the movement of the cutting edge.

The laser carding clamping hand 507 comprises a laser carding clamping longitudinal cylinder 550 arranged on the laser carding vertical plate 504, and a laser carding clamping finger end 551 arranged on the laser carding clamping longitudinal cylinder 550 and used for clamping the pasted rubberizing flexible line row; the forward feeding and clamping of the rubberizing flexible line row are realized.

the laser carding longitudinal feeding device 508 comprises a laser carding longitudinal feeding cylinder 552 arranged on the laser carding underframe 501, and a laser carding longitudinal finger 553 transversely arranged on a piston rod of the laser carding longitudinal feeding cylinder 552 and used for clamping a laser carding clamping finger end 551 of a pasted rubberized flexible wire row; the forward feeding and the clamping of the conductive wire are realized.

The laser carding rubberizing device 510 comprises two laser carding rubberizing vertical cylinders 560 respectively arranged on the laser carding vertical plates 504, and a laser carding rubberizing lower pressing head 561 arranged on a piston head of the laser carding rubberizing vertical cylinder 560 and used for pressing down adhesive tapes on the conductive wires 1 which are distributed side by side;

the laser combing sucker device 509 comprises two laser combing sucker vertical air cylinders 554 respectively arranged on the laser combing vertical plates 504, and a laser combing sucker glue blowing air nozzle 555 which is arranged on a piston head of the laser combing sucker vertical air cylinder 554 and blows or sucks the end of the cut adhesive tape to be in a horizontal state. The level of the adhesive tape end is ensured through the air suction and the air blowing of the end, so that the articulator is better aligned with the clamping end.

the cutting and carrying machine device 6 comprises a feeding tray which is arranged on the main frame 2 and is pulled by an air cylinder to move longitudinally, a cutting laser knife 602 which is arranged on the main frame 2 and cuts off the rubberized flexible cord row, a line pressing frame which is arranged below the cutting laser knife 602, a laser notch which is arranged on the line pressing frame, has a width larger than that of the rubberized flexible cord row and corresponds to the cutting laser knife 602, a line pressing guide rail 603 which is arranged on the line pressing frame longitudinally, a line lifting roller 606 which is arranged below the line pressing guide rail 603, a line lifting guide seat 605 which is arranged on the line pressing frame in a vertically sliding mode, and a line lifting tension spring 604 which is arranged at the top end of the line pressing frame;

The lower end of the wire lifting tension spring 604 is connected with the upper end of the wire lifting guide seat 605 through a steel wire rope;

the wire lifting roller 606 is arranged on the wire lifting guide seat 605 in a rotating way;

the rubberizing flexible line row moves forwards through a feeding gap between the lower surface of the line pressing guide rail 603 and the upper end of the line lifting roller 606; thereby ensuring that the advancing and the cutting do not interfere.

A wire lifting frame positioned above the feeding tray is arranged on one side in front of the wire pressing frame, a wire lifting lower rolling shaft 607 is horizontally arranged on the wire lifting frame, the upper end of the wire lifting lower rolling shaft is in contact with the lower surface of the rubberized flexible wire row, the wire lifting lower rolling shaft 607 is movably arranged on the wire lifting frame up and down through a sliding block, a wire lifting upper guide wheel 608 is arranged at the top of the wire lifting frame, a wire rope is connected to the upper end of the sliding block, and a wire rope pulling counterweight 609 is suspended after the wire rope bypasses the;

A peeling device positioned above the feeding tray is arranged in front of the wire lifting frame;

The peeling device comprises a longitudinal peeling first pulling handle 616 arranged on one side in front of the wire lifting frame and used for clamping the tail part of the cut rubberized flexible wire row, a longitudinal peeling second pulling handle 617 arranged in front of the longitudinal peeling first pulling handle 616 and used for clamping the head part of the cut rubberized flexible wire row, a peeling support 610 positioned between the longitudinal peeling first pulling handle 616 and the longitudinal peeling second pulling handle 617, a peeling channel 615 arranged in the middle of the peeling support 610 and used for passing through the rubberized flexible wire row, a peeling push-down peeling knife 613 positioned above the peeling channel 615 and driven by a peeling push-down cylinder 611 to descend, and a peeling push-up peeling knife 614 positioned below the peeling channel 615 and driven by a peeling push-up cylinder 612 to ascend;

the peeling upper top peeling knife 614 and the peeling lower pressing peeling knife 613 are respectively in contact with two side surfaces of the rubberized flexible wire row; so that the end of the soft row can be automatically peeled.

A longitudinal discharging gantry guide rail 618 is longitudinally arranged between the peeling support 610 and the second peeling longitudinal traction handle 617, a longitudinal discharging gantry frame 619 longitudinally travels on the longitudinal discharging gantry guide rail 618, a transverse discharging traction conveyor belt 622 is transversely arranged on the longitudinal discharging gantry frame 619, a transverse discharging traction block 623 is arranged on the transverse discharging traction conveyor belt 622, the transverse discharging traction block 623 is connected with a longitudinal discharging beam 620 longitudinally arranged, and a longitudinal discharging suction nozzle 621 used for contacting the upper surface of the peeled rubberized flexible cord row under negative pressure is arranged at the lower end of the longitudinal discharging beam 620.

Automatic feeding is realized through negative pressure.

the finished product storage device 7 comprises a material storage rack body 701 which is located above the feeding tray and located on one side of a longitudinal discharging portal frame 619, a material storage transverse conveyor belt 702 which is transversely arranged on the material storage rack body 701, a material storage frame 703 which is arranged on the material storage transverse conveyor belt 702 and used for placing rubberizing flexible wire rows sent from a longitudinal discharging beam 620, and a material storage jacking air cylinder 704 which is arranged below the material storage rack body 701 and used for jacking the material storage frame 703. The automatic top layer material storage frame 703 is realized through the air cylinder, so that the turnover of the material storage frame is facilitated.

The processing technology of the conductive wire arranging wire of the embodiment is provided by means of a laser carding device,

feeding, namely firstly, according to the requirement of conveying the conductive wire 1, adjusting the position of a laser carding clamping longitudinal rail 521 by a sliding seat, and locking and fixing the laser carding clamping longitudinal rail 521 on the adjusted laser carding clamping longitudinal rail by a laser carding guide rail locking handle 523; secondly, the conductive wire 1 is separated from the laser carding line-dividing row 522 of the laser carding clamping device 502 at intervals; thirdly, selecting a laser carding forward ring groove rod 536, adjusting the position of the laser carding forward ring groove rod 536 by a laser carding forward transverse air cylinder 532, and enabling the conductive wire 1 to bypass a guide ring groove of the laser carding forward ring groove rod 536; then, under the driving of the laser carding forward-feeding lifting cylinder and the laser carding forward-feeding longitudinal conveyor belt 533, the laser carding forward-feeding loop-groove rod 536 drives the conductive wire 1 to move forward through tension friction force;

Step two, feeding adhesive, namely, respectively hanging two discs of adhesive tapes on a laser carding lower adhesive feeding device 505 and a laser carding upper adhesive feeding device 506; secondly, pressing the occlusion cylinder 546 downwards by the laser carding adhesive tape to drive the laser carding adhesive tape occlusion teeth 547 to move, and driving the laser carding adhesive tape end face occluder 545 to move by the cylinder to clamp the end of the adhesive tape;

Thirdly, rubberizing, namely driving a laser carding rubberizing vertical cylinder 560 of a laser carding rubberizing device 510 to drive a laser carding rubberizing lower pressure head 561 to press and paste the adhesive tape on the corresponding side on the conductive wire 1, and pasting the conductive wire 1 into rubberizing flexible line rows;

Cutting the adhesive, namely firstly, clamping the conductive wire 1 by a laser carding clamping hand 507 while clamping the adhesive-pasted flexible line row by a laser carding longitudinal finger 553 of the laser carding longitudinal feeding device 508; next, the laser carding adhesive tape vertical direction cylinder 549 of the laser carding adhesive tape cutting device 511 drives the corresponding laser carding adhesive tape cutting knife 548 to move in the vertical direction, and the corresponding laser carding adhesive tape cutting knife 548 cuts off the adhesive tape on the corresponding side; secondly, the end of the cut adhesive tape is blown by the suction cup adhesive blowing air nozzle 555 on the corresponding side to be kept horizontal; then, the laser carding longitudinal finger 553 and the laser carding forward feeding ring groove rod 536 simultaneously drive the conductive wire 1 to move forward to the rubberizing station in the fifth step, and meanwhile, the laser carding clamping hand 507 releases and then sends the rubberizing flexible line row forward; and in the next step, the laser carding clamping hand 507 clamps the rubberizing flexible line row sent from the rubberizing station, and the fourth step is repeated.

And step five, cutting, namely conveying the rubberizing flexible wire row to a cutting station, and cutting the rubberizing flexible wire row by a glue cutting laser cutting machine. The process is reasonable in design, realizes the combination of manual adjustment and automatic adjustment, has good flexibility and high processing precision, and greatly improves the intelligence, flexibility and expansibility of processing.

The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

The present invention has been described in sufficient detail to enable a clear disclosure, but is not limited to the prior art.

finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious as a person skilled in the art to combine several aspects of the invention. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A laser carding machine apparatus, characterized by: the device comprises a main frame (2), a laser carding chassis (501) arranged on the main frame (2), laser carding clamping devices (502) which are respectively arranged on the laser carding chassis (501) and used for tensioning laser carding conductive wires (1), laser carding forward-feeding devices (503) which are used for spacing and separating the laser carded conductive wires (1), laser carding vertical plates (504) arranged on the laser carding chassis (501), laser carding downward-feeding devices (505) which are symmetrically arranged on the laser carding vertical plates (504) and have the same structure and are used for feeding adhesive tapes to the lower surfaces of the separated conductive wires (1), laser carding upward-feeding devices (506) which are used for feeding the adhesive tapes to the upper surfaces of the separated conductive wires (1), laser carding clamping hands (507) and laser carding longitudinal feeding devices (508) which are used for tensioning the adhesive tapes (1) during adhesive tape bonding, and laser adhesive bonding devices (510) which are used for bonding the upper and lower conductive wires (1) to the combed adhesive tapes, The laser carding and adhesive cutting device (511) is used for cutting off the adhered adhesive tape, the laser cutting machine is arranged on the main frame (2) and is used for cutting off the adhered conductive wire (1), and the laser carding and sucking disc device (509) is used for blowing the cut-off adhesive tape head to be in a horizontal state;

The laser carding clamping device (502) comprises a laser carding clamping longitudinal rail (521) which has the same advancing direction with the conductive wire (1), a laser carding clamping slide seat arranged on the laser carding clamping longitudinal rail (521), a laser carding parting line row (522) which is arranged on the laser carding clamping slide seat and used for separating the conductive wire (1) at intervals, a laser carding guide rail locking handle (523) which is arranged on the laser carding clamping slide seat and used for fixing the laser carding clamping longitudinal rail (521), and a laser carding line pressing seat (524) which is arranged on the laser carding clamping slide seat and positioned in front of the laser carding parting line row (522);

the laser carding forward feeding device (503) comprises a laser carding forward feeding lifting cylinder arranged on a laser carding chassis (501), a laser carding forward feeding base (531) arranged at the upper end of a piston rod of the laser carding forward feeding lifting cylinder, a laser carding forward feeding longitudinal conveyor belt (533) arranged on the laser carding forward feeding base (531), a laser carding forward feeding guide clamping block (534) arranged on the laser carding forward feeding longitudinal conveyor belt (533), a laser carding forward feeding transverse sliding seat (535) arranged on the laser carding forward feeding guide clamping block (534), a laser carding forward feeding transverse cylinder (532) transversely arranged on the laser carding forward feeding transverse sliding seat (535), and a laser carding forward feeding ring groove rod (536) of which the tail end is connected with the end of the piston rod of the laser carding forward feeding transverse cylinder (532);

guide ring grooves for separating gaps of the conductive wires (1) are prefabricated on the ring groove rod (536) before laser carding, and the conductive wires (1) are output from the laser carding wire pressing seat (524) and then pass through the guide ring grooves.

2. Laser carding apparatus according to claim 1, in which: the laser combing and feeding device (506) comprises a rotating shaft horizontally arranged on the laser combing vertical plate (504), a laser combing adhesive tape ring (541) sleeved on the rotating shaft, a laser combing adhesive tape damper (543) arranged on the laser combing vertical plate (504) and in frictional contact with the rotating shaft, a laser combing adhesive tape tensioning roller (542) arranged on one side of the output of the rotating shaft and in pressure contact with the front surface of an adhesive tape, a laser combing adhesive tape guide roller (544) arranged on one side of the output of the rotating shaft and in rolling contact with the front surface of the adhesive tape, a laser combing adhesive tape end face occluder (545) arranged on the laser combing vertical plate (504) and used for occluding the end of the adhesive tape, and a cylinder arranged on the laser combing vertical plate (504) and driving the laser combing adhesive tape end face occluder (545) to move transversely;

the laser carding adhesive tape end face articulator (545) comprises fixed teeth and laser carding adhesive tape occlusion teeth (547) which are driven by a laser carding adhesive tape downward pressing occlusion cylinder (546) to move up and down relative to the fixed teeth;

The laser carding and rubber cutting device (511) comprises an air cylinder longitudinally arranged on the laser carding vertical plate (504), a cutter holder connected with an air cylinder piston rod, laser carding adhesive tape rubber cutters (548) symmetrically arranged on the cutter holder and used for cutting off adhesive tapes on the upper side and the lower side respectively, and a laser carding adhesive tape vertical direction air cylinder (549) arranged on the cutter holder and used for driving the laser carding adhesive tape rubber cutters (548) to move up and down.

3. the laser carding machine device of claim 2, wherein the laser carding gripper (507) comprises a laser carding gripper longitudinal cylinder (550) arranged on the laser carding vertical plate (504), and a laser carding gripper finger tip (551) arranged on the laser carding gripper longitudinal cylinder (550) and used for gripping the pasted rubberized flexible line row;

the laser carding longitudinal feeding device (508) comprises a laser carding longitudinal feeding cylinder (552) arranged on the laser carding underframe (501), and a laser carding longitudinal finger (553) which is transversely arranged on a piston rod of the laser carding longitudinal feeding cylinder (552) and is used for clamping a laser carding clamping finger end (551) of the pasted rubberizing flexible line row;

the laser carding rubberizing device (510) comprises two laser carding rubberizing vertical cylinders (560) which are respectively arranged on the laser carding vertical plates (504), and a laser carding rubberizing lower pressing head (561) which is arranged on a piston head of each laser carding rubberizing vertical cylinder (560) and presses down adhesive tapes which are distributed on the conductive wires (1) side by side;

the laser combing sucker device (509) comprises two laser combing sucker vertical cylinders (554) which are respectively arranged on the laser combing vertical plate (504), and a laser combing sucker glue blowing air nozzle (555) which is arranged on a piston head of the laser combing sucker vertical cylinder (554) and blows or sucks the end of the cut adhesive tape into a horizontal state.

4. A laser carding process, characterized by the fact that with the aid of a laser carding machine device according to claim 3; comprises the following steps of (a) carrying out,

feeding, namely firstly, adjusting the position of a laser carding clamping sliding seat on a laser carding clamping longitudinal rail (521) according to the requirement of conveying a conductive wire (1), and locking and fixing the laser carding clamping sliding seat on the laser carding clamping longitudinal rail (521) through a laser carding guide rail locking handle (523); secondly, the conductive wire (1) is separated from a laser carding line-dividing row (522) of the laser carding clamping device (502) at intervals; thirdly, selecting a laser carding forward ring groove rod (536), adjusting the position of the laser carding forward ring groove rod (536) through a laser carding forward transverse air cylinder (532), and enabling the conductive wire (1) to bypass a guide ring groove of the laser carding forward ring groove rod (536); then, under the driving of a laser carding forward-feeding lifting cylinder and a laser carding forward-feeding longitudinal conveyor belt (533), a laser carding forward-feeding loop-groove rod (536) drives the conductive wire (1) to move forward through tension friction force;

Secondly, feeding the adhesive tape, namely, respectively hanging two disks of adhesive tapes on a laser carding lower adhesive tape feeding device (505) and a laser carding upper adhesive tape feeding device (506); secondly, pressing an occlusion cylinder (546) through the laser carding adhesive tape to drive a laser carding adhesive tape occlusion tooth (547) to move, and driving a laser carding adhesive tape end face occluder (545) to move through the cylinder which drives the laser carding adhesive tape end face occluder (545) to move transversely to clamp an adhesive tape end;

Thirdly, rubberizing, namely driving a laser carding rubberizing vertical cylinder (560) of a laser carding rubberizing device (510) to drive a laser carding rubberizing lower pressure head (561) to press and paste the adhesive tape on the corresponding side on the conductive wire (1), and pasting the conductive wire (1) into rubberizing flexible line rows;

Cutting the adhesive, namely clamping the conductive wire (1) by a laser carding clamping hand (507) while clamping the adhesive-pasted flexible wire row by a laser carding longitudinal finger (553) of a laser carding longitudinal feeding device (508); then, a laser carding adhesive tape vertical direction cylinder (549) of the laser carding adhesive tape cutting device (511) drives a corresponding laser carding adhesive tape cutting knife (548) to move in the vertical direction, and the corresponding laser carding adhesive tape cutting knife (548) cuts off the adhesive tape on the corresponding side; secondly, the suction cup glue blowing air nozzle (555) on the corresponding side blows the cut end of the adhesive tape to keep horizontal; then, the laser carding longitudinal finger (553) and the laser carding forward feeding ring groove rod (536) simultaneously drive the conductive wire (1) to move forward to the rubberizing station in the fifth step, and meanwhile, the laser carding clamping hand (507) releases and then sends the rubberizing soft line row forward; step two, a laser carding clamping hand (507) clamps the rubberizing flexible line rows sent from the rubberizing station, and step four is repeated;

and step five, cutting, namely conveying the rubberizing flexible wire row to a cutting station, and cutting the rubberizing flexible wire row by a glue cutting laser cutting machine.