CN112071521A

CN112071521A - Get rid of line with automatic cover number pipe's device

Info

Publication number: CN112071521A
Application number: CN202010905641.7A
Authority: CN
Inventors: 刘林琳; 郑向阳; 宋卫超; 柳林; 蒲瑶
Original assignee: Shanghai Workpower Telecom Technology Co ltd
Current assignee: Shanghai Workpower Telecom Technology Co ltd
Priority date: 2020-09-01
Filing date: 2020-09-01
Publication date: 2020-12-11
Anticipated expiration: 2040-09-01
Also published as: CN112071521B

Abstract

The invention discloses an automatic number tube sleeving device for a wire throwing, which comprises a passive wire releasing unit, a number tube feeding unit, a number tube cutting unit, a number tube positioning and transferring unit, a lead threading traction unit, a parallel line cache unit, a number tube clamping unit and a laser marking unit. The coil number pipe is arranged on the pay-off rotating shaft of the passive pay-off unit, the number pipe is transmitted, intercepted and sleeved until the etching mark of the wire sleeved with the number pipe is finished at one time, and the parallel cache unit is arranged, so that the parallel cache unit is favorable for combining the etching mark at the wire throwing end of the wire throwing cable on line. The invention can make clear identification on the wire throwing cable, can effectively prevent the wrong connection of the wiring when the system is assembled, and avoids the serious loss. The invention has the advantages of compact structure, reasonable connection, reliable operation and high production efficiency.

Description

Get rid of line with automatic cover number pipe's device

Technical Field

The invention relates to the technical field of cable manufacturing, in particular to a device for automatically sleeving an identification tube at the tail of a wire throwing cable.

Background

The wire throwing cable means that a finished connector is arranged at one end of the cable, the other end of the cable is in a free scattering state, the number of the cable conducting wires is different from several to hundreds of the cable conducting wires, and the length of the cable conducting wires is dozens of millimeters to several meters. The wire throwing cable is widely applied to aerospace engineering projects and achieves the purposes of connecting communication and signal transmission among systems.

When the line throwing cable is used, in order to prevent line number errors, the line number needs to be clearly identified at the line throwing end of the cable, so that the serious loss caused by the wrong connection of the line number during the assembly of a system is prevented. The terminal of using label paper to paste at the wire during conventional operation is with the discernment line number, and the problem that exists is, label paper has the danger of droing in the assembling process, in case drove, then whole pencil just can't be used, and in addition, label paper still need tear after the assembly is accomplished, subsequent maintenance and operation of being not convenient for, for this reason, adopt the method that embolias the long-term sign pipe that remains at the wire end of flail cable and can solve above-mentioned difficult problem. The production equipment for automatically sleeving the mark tube on the wire throwing cable is quite necessary under the background that the work of sleeving the wire throwing cable into the mark tube is large in workload, low in manual operation efficiency and extremely easy to cause errors.

Disclosure of Invention

The invention aims at the defects of the prior art and provides a device for automatically sleeving a number tube for wire throwing, wherein a passive paying-off unit, a number tube feeding unit, a number tube cutting unit, a number tube positioning and transferring unit, a lead threading traction unit, a doubling cache unit, a number tube clamping unit and a laser marking unit are sequentially arranged on a base to form a production line; the method is used for realizing the online detection of the wire number of the wire throwing cable and the automatic identification of the number tube. The coil number pipe is arranged on the pay-off rotating shaft of the passive pay-off unit, the number pipe is transmitted, intercepted and sleeved until the etching mark of the wire sleeved with the number pipe is finished at one time, and the parallel cache unit is arranged, so that the parallel cache unit is favorable for combining the etching mark at the wire throwing end of the wire throwing cable on line. The invention can quickly and accurately make clear identification on the wire throwing end of the wire throwing cable on the wire throwing end number, and particularly can effectively prevent the wrong connection of the wires during the assembly of the system in the cable connection of the space equipment, thereby avoiding the serious loss. The invention has the advantages of compact structure, reasonable connection, reliable operation and high production efficiency.

The specific technical scheme for realizing the purpose of the invention is as follows:

1. a device for automatically sleeving a number tube for wire throwing is characterized by comprising a passive wire releasing unit 1, a number tube feeding unit 2, a number tube cutting unit 3, a number tube positioning and transferring unit 4, a lead threading traction unit 5, a doubling cache unit 6, a number tube clamping unit 7, a laser marking unit 8 and a base 9;

the passive pay-off unit 1 is composed of a magnetic damper 12, a pay-off rotating shaft 14, a locking ring 15, a pay-off base 17 and a reel 16;

the pay-off base 17 is provided with a bearing seat 11, the pay-off rotating shaft 14 is arranged in the bearing seat 11, two ends of the pay-off rotating shaft extend outwards, the magnetic damper 12 is sleeved at one end of the pay-off rotating shaft 14 and is connected with the pay-off base 17, and the reel 16 and the locking ring 15 are arranged at the other end of the pay-off rotating shaft 14;

the number tube feeding unit 2 consists of a feeding base 21, a driven wheel axle seat 22, a driving wire feeding wheel 23, a driven wire feeding wheel 24, an adjusting cylinder 25, a stepping motor 26 and a guide tube 27;

the feeding base 21 is provided with a driving wheel axle seat 211 and a guide post 212, one side of the driving wheel axle seat 211 is provided with a feeding photoelectric detection switch 213, the stepping motor 26 is arranged on the driving wheel axle seat 211, and an output shaft of the stepping motor 26 is connected with the driving wire feeding wheel 23; the driven wheel shaft seat 22 is provided with a guide sleeve 221, the driven wheel shaft seat 22 is arranged above the driving wheel shaft seat 211, the guide sleeve 221 of the driven wheel shaft seat 22 is matched with a guide post 212 on the feeding base 21 in a sliding manner, the driven wire feeding wheel 24 is arranged on the driven wheel shaft seat 22 and is meshed with the driving wire feeding wheel 23, the adjusting cylinder 25 is arranged between the feeding base 21 and the driven wheel shaft seat 22, and the guide pipe 27 is arranged on the feeding base 21 and is positioned at the joint of the driven wire feeding wheel 24 and the driving wire feeding wheel 23;

the number tube cutting unit 3 consists of a cutting vertical seat 31, a cutter seat 32, a cutter 33, a cutter push plate 34 and a cutting cylinder 35;

the cutter seat 32 is provided with a push plate groove 321, the cutter seat 32 and the cutting cylinder 35 are both arranged on the cutting vertical seat 31, the cutter 33 is arranged in the push plate groove 321 of the cutter seat 32, one end of the cutter push plate 34 is connected with the cutter 33, and the other end of the cutter push plate is connected with a piston rod of the cutting cylinder 35;

the number tube positioning and transferring unit 4 is composed of a transferring driving module 41, a lifting cylinder 42, a guide claw seat 43 and a guide claw 45;

a translation sliding seat 411 is arranged on the transfer driving module 41, the lifting cylinder 42 is arranged on the translation sliding seat 411 of the transfer driving module 41, the guide claw seat 43 is arranged on a piston rod of the lifting cylinder 42, and the guide claw 45 is arranged on the guide claw seat 43;

the lead pipe-penetrating traction unit 5 consists of a guide traction seat 51, a traction cylinder 52, a traction sliding block 53, a test probe 56 and a V-shaped traction clamping jaw 57;

the guide traction seat 51 is provided with a traction slideway 511, the traction sliding block 53 is arranged on the traction slideway of the guide traction seat 51, the traction cylinder 52 is arranged on the guide traction seat 51, the piston rod of the traction cylinder 52 is connected with the traction sliding block 53, the V-shaped traction clamping jaw 57 is arranged on the traction sliding block 53, and the test probe 56 is arranged on the V-shaped traction clamping jaw 57;

the doubling cache unit 6 consists of a doubling insulation seat 61, a cache clamping jaw 62, a cache indicator lamp 63 and a detection switch 64;

the buffer clamping jaws 62 are arranged on the parallel line insulating base 61 in parallel, and each buffer clamping jaw 62 is provided with a buffer indicating lamp 63 and a detection switch 64;

the number tube clamping unit 7 consists of a position-leaning cylinder 71, a clamping unit seat 72, a position-leaning slide block 73, a tensioning cylinder 74, a clamping jaw seat 75, a first clamping device and a second clamping device;

a leaning slide way is arranged on the clamping unit seat 72, a leaning slide block 73 is arranged on the leaning slide way, a leaning cylinder 71 is arranged on the clamping unit seat 72, and a piston rod of the leaning cylinder 71 is connected with the leaning slide block 73;

a tensioning slide way is arranged on the leaning slide block 73, the clamping jaw seat 75 is arranged on the tensioning slide way, the tensioning cylinder 74 is arranged on the leaning slide block 73, and a piston rod of the tensioning cylinder 74 is connected with the clamping jaw seat 75;

the first clamping device and the second clamping device are respectively composed of a clamping cylinder 76, a movable clamping jaw 77, a static clamping jaw 78 and a static clamping jaw seat 79; a movable clamping jaw slide rail and a fixed clamping jaw 78 are arranged on the fixed clamping jaw seat 79, the movable clamping jaw 77 is arranged in the movable clamping jaw slide rail of the fixed clamping jaw seat 79 and is meshed with the fixed clamping jaw 78, the clamping cylinder 76 is arranged on the fixed clamping jaw seat 79, and a piston rod of the clamping cylinder 76 is connected with the movable clamping jaw 77;

the base 9 is sequentially provided with a first station, a second station, a third station, a fourth station, a fifth station, a sixth station, a seventh station and an eighth station, and the pay-off base 17 of the passive pay-off unit 1, the feeding base 21 of the number tube feeding unit 2, the cutting vertical base 31 of the number tube cutting unit 3, the transfer driving module 41 of the number tube positioning and transferring unit 4, the guide traction base 51 of the wire threading and tube traction unit 5, the doubling insulation base 61 of the doubling cache unit 6, the leaning cylinder 71 of the number tube clamping unit 7 and the laser marking unit 8 are sequentially arranged along the first station to the eighth station.

The passive pay-off unit, the number tube feeding unit, the number tube cutting unit, the number tube positioning and transferring unit, the lead threading traction unit, the doubling cache unit, the number tube clamping unit and the laser marking unit are sequentially arranged on a base to form a production line; the method is used for realizing the online detection of the wire number of the wire throwing cable and the automatic identification of the number tube. The coil number pipe is arranged on the pay-off rotating shaft of the passive pay-off unit, the number pipe is transmitted, intercepted and sleeved until the etching mark of the wire sleeved with the number pipe is finished at one time, and the parallel cache unit is arranged, so that the parallel cache unit is favorable for combining the etching mark at the wire throwing end of the wire throwing cable on line. The invention can quickly and accurately make clear identification on the wire throwing end of the wire throwing cable on the wire throwing end number, and particularly can effectively prevent the wrong connection of the wires during the assembly of the system in the cable connection of the space equipment, thereby avoiding the serious loss. The invention has the advantages of compact structure, reasonable connection, reliable operation and high production efficiency.

Description of the drawings:

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

FIG. 2 is a schematic structural diagram of a passive pay-off unit according to the present invention;

FIG. 3 is a schematic structural view of a number tube feeding unit according to the present invention;

FIG. 4 is a schematic structural diagram of a number tube cutting unit according to the present invention;

FIG. 5 is a schematic structural diagram of a number pipe positioning and transferring unit according to the present invention;

FIG. 6 is a schematic structural diagram of a wire threading traction unit according to the present invention;

FIG. 7 is a diagram illustrating a parallel cache unit according to the present invention;

fig. 8 is a schematic structural view of the number tube clamping unit of the present invention.

Detailed Description

Referring to fig. 1, the present invention includes a passive pay-off unit 1, a number tube feeding unit 2, a number tube cutting unit 3, a number tube positioning and transferring unit 4, a wire threading traction unit 5, a doubling buffer unit 6, a number tube clamping unit 7, a laser marking unit 8, and a base 9.

Referring to fig. 1 and 2, the passive pay-off unit 1 is composed of a magnetic damper 12, a pay-off shaft 14, a locking ring 15, a pay-off base 17, and a reel 16;

the pay-off base 17 is provided with a bearing seat 11, the pay-off rotating shaft 14 is arranged in the bearing seat 11, two ends of the pay-off rotating shaft extend outwards, the magnetic damper 12 is sleeved at one end of the pay-off rotating shaft 14 and is connected with the pay-off base 17, and the reel 16 and the locking ring 15 are arranged at the other end of the pay-off rotating shaft 14.

Referring to fig. 1 and 3, the number tube feeding unit 2 is composed of a feeding base 21, a driven wheel axle seat 22, a driving wire feeding wheel 23, a driven wire feeding wheel 24, an adjusting cylinder 25, a stepping motor 26 and a guide tube 27;

the feeding base 21 is provided with a driving wheel axle seat 211 and a guide post 212, one side of the driving wheel axle seat 211 is provided with a feeding photoelectric detection switch 213, the stepping motor 26 is arranged on the driving wheel axle seat 211, and an output shaft of the stepping motor 26 is connected with the driving wire feeding wheel 23; the automatic feeding device is characterized in that a guide sleeve 221 is arranged on the driven wheel axle seat 22, the driven wheel axle seat 22 is arranged above the driving wheel axle seat 211, the guide sleeve 221 of the driven wheel axle seat 22 is matched with a guide post 212 on the feeding base 21 in a sliding mode, the driven wire feeding wheel 24 is arranged on the driven wheel axle seat 22 and meshed with the driving wire feeding wheel 23, the adjusting cylinder 25 is arranged between the feeding base 21 and the driven wheel axle seat 22, and the guide pipe 27 is arranged on the feeding base 21 and located at the joint of the driven wire feeding wheel 24 and the driving wire feeding wheel 23.

Referring to fig. 1 and 4, the number tube cutting unit 3 is composed of a cutting vertical seat 31, a cutter seat 32, a cutter 33, a cutter push plate 34 and a cutting cylinder 35;

the cutter seat 32 is provided with a push plate groove 321, the cutter seat 32 and the cutting cylinder 35 are both arranged on the cutting vertical seat 31, the cutter 33 is arranged in the push plate groove 321 of the cutter seat 32, one end of the cutter push plate 34 is connected with the cutter 33, and the other end of the cutter push plate is connected with a piston rod of the cutting cylinder 35.

Referring to fig. 1 and 5, the number tube positioning and transferring unit 4 is composed of a transferring driving module 41, a lifting cylinder 42, a guiding claw seat 43 and a guiding claw 45;

the transfer driving module 41 is provided with a translation sliding seat 411, the lifting cylinder 42 is arranged on the translation sliding seat 411 of the transfer driving module 41, the guide claw seat 43 is arranged on a piston rod of the lifting cylinder 42, and the guide claw 45 is arranged on the guide claw seat 43.

Referring to fig. 1 and 6, the lead threading traction unit 5 is composed of a guide traction seat 51, a traction cylinder 52, a traction slider 53, a test probe 56 and a V-shaped traction clamping jaw 57;

the guide traction seat 51 is provided with a traction slideway 511, the traction sliding block 53 is arranged on the traction slideway of the guide traction seat 51, the traction cylinder 52 is arranged on the guide traction seat 51, a piston rod of the traction cylinder 52 is connected with the traction sliding block 53, the V-shaped traction clamping jaw 57 is arranged on the traction sliding block 53, and the test probe 56 is arranged on the V-shaped traction clamping jaw 57.

Referring to fig. 1 and 7, the parallel line buffer unit 6 is composed of a parallel line insulating base 61, a buffer clamping jaw 62, a buffer indicating lamp 63 and a detection switch 64;

the buffer clamping jaws 62 are provided with a plurality of buffer clamping jaws and are arranged on the parallel line insulating base 61 side by side, and each buffer clamping jaw 62 is provided with a buffer indicating lamp 63 and a detection switch 64.

Referring to fig. 1 and 8, the number tube clamping unit 7 is composed of a leaning cylinder 71, a clamping unit seat 72, a leaning slider 73, a tensioning cylinder 74, a clamping jaw seat 75, a first clamping device and a second clamping device;

the first clamping device and the second clamping device are respectively composed of a clamping cylinder 76, a movable clamping jaw 77, a static clamping jaw 78 and a static clamping jaw seat 79; the static clamping jaw seat 79 is provided with a movable clamping jaw slide rail and a static clamping jaw 78, the movable clamping jaw 77 is arranged in the movable clamping jaw slide rail of the static clamping jaw seat 79 and is meshed with the static clamping jaw 78, the clamping cylinder 76 is arranged on the static clamping jaw seat 79, and a piston rod of the clamping cylinder 76 is connected with the movable clamping jaw 77.

Referring to fig. 1 to 8, a first station, a second station, a third station, a fourth station, a fifth station, a sixth station, a seventh station and an eighth station are sequentially arranged on the base 9, and the pay-off base 17 of the passive pay-off unit 1, the feeding base 21 of the number tube feeding unit 2, the cutting vertical base 31 of the number tube cutting unit 3, the transfer driving module 41 of the number tube positioning and transferring unit 4, the guide pulling base 51 of the wire threading pulling unit 5, the doubling insulation base 61 of the doubling buffer unit 6, the leaning cylinder 71 of the number tube clamping unit 7 and the laser marking unit 8 are sequentially arranged along the first station to the eighth station.

Claims

1. A device for automatically sleeving a number tube for wire throwing is characterized by comprising a passive wire releasing unit (1), a number tube feeding unit (2), a number tube cutting unit (3), a number tube positioning and transferring unit (4), a wire threading traction unit (5), a parallel wire cache unit (6), a number tube clamping unit (7), a laser marking unit (8) and a base (9);

the passive pay-off unit (1) is composed of a magnetic damper (12), a pay-off rotating shaft (14), a locking ring (15), a reel (16) and a pay-off base (17);

the pay-off base (17) is provided with a bearing seat (11), the pay-off rotating shaft (14) is arranged in the bearing seat (11) and two ends of the pay-off rotating shaft (14) extend outwards, the magnetic damper (12) is sleeved at one end of the pay-off rotating shaft (14) and is connected with the pay-off base (17), and the reel (16) and the locking ring (15) are arranged at the other end of the pay-off rotating shaft (14);

the number tube feeding unit (2) is composed of a feeding base (21), a driven wheel axle seat (22), a driving wire feeding wheel (23), a driven wire feeding wheel (24), an adjusting cylinder (25), a stepping motor (26) and a guide tube (27);

the feeding base (21) is provided with a driving wheel axle seat (211) and a guide post (212), one side of the driving wheel axle seat (211) is provided with a feeding photoelectric detection switch (213), the stepping motor (26) is arranged on the driving wheel axle seat (211), and the output shaft of the stepping motor (26) is connected with the driving wire feeding wheel (23); a guide sleeve (221) is arranged on the driven wheel axle seat (22), the driven wheel axle seat (22) is arranged above the driving wheel axle seat (211), the guide sleeve (221) of the driven wheel axle seat (22) is in sliding fit with a guide post (212) on the feeding base (21), the driven wire feeding wheel (24) is arranged on the driven wheel axle seat (22) and is meshed with the driving wire feeding wheel (23), the adjusting cylinder (25) is arranged between the feeding base (21) and the driven wheel axle seat (22), and the guide pipe (27) is arranged on the feeding base (21) and is positioned at the joint of the driven wire feeding wheel (24) and the driving wire feeding wheel (23);

the number tube cutting unit (3) is composed of a cutting vertical seat (31), a cutter seat (32), a cutter (33), a cutter push plate (34) and a cutting cylinder (35);

a push plate groove (321) is formed in the cutter seat (32), the cutter seat (32) and the cutting cylinder (35) are both arranged on the cutting vertical seat (31), the cutter (33) is arranged in the push plate groove (321) of the cutter seat (32), one end of the cutter push plate (34) is connected with the cutter (33), and the other end of the cutter push plate is connected with a piston rod of the cutting cylinder (35);

the number tube positioning and transferring unit (4) is composed of a transferring drive module (41), a lifting cylinder (42), a guide claw seat (43) and a guide claw (45);

a translation sliding seat (411) is arranged on the transfer driving module (41), a lifting cylinder (42) is arranged on the translation sliding seat (411) of the transfer driving module (41), a guide claw seat (43) is arranged on a piston rod of the lifting cylinder (42), and a guide claw (45) is arranged on the guide claw seat (43);

the lead pipe-penetrating traction unit (5) is composed of a guide traction seat (51), a traction cylinder (52), a traction sliding block (53), a test probe (56) and a V-shaped traction clamping jaw (57);

the guide traction seat (51) is provided with a traction slideway (511), the traction sliding block (53) is arranged on the traction slideway of the guide traction seat (51), the traction cylinder (52) is arranged on the guide traction seat (51), a piston rod of the traction cylinder (52) is connected with the traction sliding block (53), the V-shaped traction clamping jaw (57) is arranged on the traction sliding block (53), and the test probe (56) is arranged on the V-shaped traction clamping jaw (57);

the parallel line cache unit (6) is composed of a parallel line insulating base (61), a cache clamping jaw (62), a cache indicating lamp (63) and a detection switch (64);

the buffer clamping jaws (62) are arranged on the parallel line insulating base (61) in parallel, and each buffer clamping jaw (62) is provided with a buffer indicating lamp (63) and a detection switch (64);

the number pipe clamping unit (7) is composed of a leaning cylinder (71), a clamping unit seat (72), a leaning sliding block (73), a tensioning cylinder (74), a clamping jaw seat (75), a first clamping device and a second clamping device;

a leaning slide way is arranged on the clamping unit seat (72), a leaning slide block (73) is arranged on the leaning slide way, a leaning cylinder (71) is arranged on the clamping unit seat (72), and a piston rod of the leaning cylinder (71) is connected with the leaning slide block (73);

a tensioning slide way is arranged on the leaning slide block (73), the clamping jaw seat (75) is arranged on the tensioning slide way, the tensioning cylinder (74) is arranged on the leaning slide block (73), and a piston rod of the tensioning cylinder (74) is connected with the clamping jaw seat (75);

the first clamping device and the second clamping device are respectively composed of a clamping cylinder (76), a movable clamping jaw (77), a static clamping jaw (78) and a static clamping jaw seat (79); a movable clamping jaw sliding rail and a fixed clamping jaw (78) are arranged on the fixed clamping jaw seat (79), the movable clamping jaw (77) is arranged in the movable clamping jaw sliding rail of the fixed clamping jaw seat (79) and is meshed with the fixed clamping jaw (78), the clamping cylinder (76) is arranged on the fixed clamping jaw seat (79), and a piston rod of the clamping cylinder (76) is connected with the movable clamping jaw (77);

the wire drawing machine is characterized in that a first station, a second station, a third station, a fourth station, a fifth station, a sixth station, a seventh station and an eighth station are sequentially arranged on the base (9), and a wire drawing base (17) of the passive wire drawing unit (1), a feeding base (21) of the number tube feeding unit (2), a cutting stand (31) of the number tube cutting unit (3), a transfer driving module (41) of the number tube positioning transfer unit (4), a guide traction base (51) of the wire through tube traction unit (5), a doubling insulation base (61) of the doubling cache unit (6), a leaning cylinder (71) of the number tube clamping unit (7) and a laser marking unit (8) are sequentially arranged from the first station to the eighth station.