CN110371772B

CN110371772B - Paying-off equipment for cable processing

Info

Publication number: CN110371772B
Application number: CN201910564148.0A
Authority: CN
Inventors: 江泽军; 林兆团; 林燕红
Original assignee: Nantong Yuanjing Electric Material Co ltd
Current assignee: NANTONG YUANJING ELECTRIC MATERIAL Co.,Ltd.
Priority date: 2019-06-25
Filing date: 2019-06-25
Publication date: 2021-03-30
Anticipated expiration: 2039-06-25
Also published as: CN110371772A

Abstract

The invention discloses a paying-off device for processing a cable, which structurally comprises a bearing beam, a supporting beam, a lifting rail, a control box and a paying-off device, wherein the supporting beam is vertically arranged at the upper end of the bearing beam and welded with the bearing beam, the lifting rail is embedded and arranged at the inner side of the supporting beam, the paying-off device comprises a driven dismounting structure, a paying-off structure, a transmission belt and a motor, the driven dismounting structure and the transmission structure are arranged between the paying-off structures, the inner side of a conductor coil penetrates into an insertion rod, a clamping plate structure is sleeved on two sides of the conductor coil, a spring is arranged, the right end of the insertion rod can penetrate into the sleeve structure, the left side of the insertion rod is sleeved in the driving sleeve, the insertion rod is completely limited at the moment, the springs on the two sides can push the clamping plate structure to clamp the conductor coil, the relative rotation of the conductor coil is limited, and the conductor is prevented from being continuously pulled backwards by the stranded wires of the subsequent conductor due to the fact that the conductor is not rolled, and the phenomenon that the conductor is broken is reduced.

Description

Paying-off equipment for cable processing

Technical Field

The invention belongs to the field of cable processing, and particularly relates to paying-off equipment for cable processing.

Background

The processing of cable mainly divide into and makes the conductor, the conductor stranded conductor, insulating injection molding, merge the sheath and mould plastics, the lapping packing, and when carrying out the stranded conductor to the conductor, need carry out the unwrapping wire to the conductor of bundling and carry out stranded conductor work through the stranding machine again, if the labour that utilizes the lower and great needs of drum of manual unwrapping wire efficiency is great, along with the development of science and technology, automatic unwrapping wire is all adopted to the unwrapping wire equipment of cable processing usefulness at present, degree of automation obtains improving to the labour has been reduced, but prior art exists following not enoughly:

because the conductor dish is comparatively heavy, difficult direct mount is on unwrapping wire equipment, need to carry out the pivoted axle and put down and alternate fixedly again, and the conductor dish will take place relative rotation with the axis of rotation when rotating, leads to the conductor dish motionless, and then follow-up stranded conductor to the conductor will be continuous to stimulate backward, makes the conductor break off, and the influence continues unwrapping wire production.

Therefore, the application provides the paying-off equipment for processing the cable, and the defects are improved.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide paying-off equipment for cable processing, which solves the problems that in the prior art, because a conductor disc is heavy and is not easy to directly mount on the paying-off equipment, a rotating shaft needs to be lowered and then inserted and fixed, the conductor disc and the rotating shaft rotate relatively when the conductor disc rotates, the conductor disc is not moved, and then a stranded wire of a conductor is continuously pulled backwards to break the conductor, so that the continuous paying-off production is influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a pay-off device for cable processing structurally comprises a bearing beam, a supporting beam, a lifting rail, a control box and a pay-off device, wherein the supporting beam is vertically arranged at the upper end of the bearing beam and welded with the bearing beam; the pay-off device comprises a driven dismounting structure, a pay-off structure, a transmission belt and a motor, wherein the pay-off structure is mounted on the left side of the driven dismounting structure and movably connected with the transmission structure, the left side of the pay-off structure is embedded in the inner side of the transmission structure, and the motor is connected with the transmission structure through the transmission belt.

The invention is further improved, the driven dismounting structure comprises a frame, a movable frame, a sliding groove, a flange plate and a sleeve structure, the movable frame a is arranged on the inner side of the frame, the sliding groove is arranged on the inner side of the frame a, the left side of the movable frame is welded with the right side of the sleeve structure, the flange plate is sleeved on the outer side of the sleeve structure, the right end of the flange plate is connected with the frame a, and the paying-off structure is embedded in the inner side of the sleeve structure.

The invention is further improved, the sleeve structure comprises a connecting frame, a rotating sleeve, balls, a friction strip and an inner sleeve, the rotating sleeve is embedded and installed on the inner side of the connecting frame, the balls are installed between the connecting frame and the rotating sleeve, the inner side of the inner sleeve is attached to the outer side of the rotating sleeve, and the friction strips are arranged on the inner side of the inner sleeve and are uniformly distributed on the inner side of the inner sleeve.

The invention is further improved, the paying-off structure comprises a clamping plate structure, an insertion rod and a spring, the insertion rod penetrates through the inner side of the clamping plate structure, the spring is sleeved on the outer side of the insertion rod, and the inner side of the spring abuts against the outer side of the clamping plate structure.

The improved structure of the invention comprises a clamping plate, anti-skid teeth and movable holes, wherein the anti-skid teeth are provided with a plurality of teeth and are uniformly distributed on the surface of the clamping plate, and the movable holes penetrate through the inside of the clamping plate and are positioned on the same axis.

The invention is further improved, the transmission structure comprises a rack b, an adjusting structure, a driving sleeve, a transmission gear and a transmission shaft, the adjusting structure is movably connected to the inner side of the rack b, the right side of the adjusting structure is arranged on the left side of the driving sleeve and is mechanically connected, the outer surface of the driving sleeve is meshed with the transmission gear, the transmission shaft is fixedly arranged on the inner side of the transmission gear, the motor is connected with the transmission shaft through a transmission belt, and the left side of the pay-off structure is embedded into the inner side of the driving sleeve.

The invention is further improved, the adjusting structure comprises a connecting shaft, a bearing and an adjusting frame, the connecting shaft penetrates through the inner side of the adjusting frame, the left side of the connecting shaft is embedded in the inner side of the bearing, and the bearing is embedded in the inner side of the adjusting frame.

According to the technical scheme, the paying-off equipment for cable processing has the following beneficial effects:

the invention arranges a driven dismounting structure and a transmission structure between the paying-off structures, the inner side of a conductor coil penetrates into an insertion rod, the two sides of the conductor coil are sleeved with a clamping plate structure, a spring is arranged, the right end of the insertion rod can penetrate into the sleeve structure, then the movable frame is pushed inwards, the insertion rod is clamped at the inner side of the sleeve structure, the left side of the insertion rod is sleeved in a driving sleeve, and then the adjusting structure is pushed inwards, at the moment, the insertion rod is completely limited, the springs at the two sides can push the clamping plate structure to clamp the conductor coil, the relative rotation of the conductor coil is limited while the dismounting and the mounting are convenient, the conductor coil can better rotate along with the insertion rod, the conductor coil is prevented from being fixed and the stranded wire of the conductor is prevented from being pulled backwards continuously, and the phenomenon that the conductor is broken is reduced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a pay-off apparatus for cable processing according to the present invention;

FIG. 2 is a schematic view of the pay-off device of the present invention;

FIG. 3 is a schematic structural view of a driven detachment structure of the present invention;

FIG. 4 is a schematic structural view of the sleeve structure of the present invention;

FIG. 5 is a schematic view of the engagement structure of the friction strip and the inner sleeve according to the present invention;

FIG. 6 is a schematic structural view of a pay-off structure according to the present invention;

FIG. 7 is a side view of the splint structure of the present invention;

FIG. 8 is a front view of the splint structure of the present invention;

FIG. 9 is a schematic structural view of a transmission structure of the present invention;

fig. 10 is a schematic structural diagram of an adjustment structure of the present invention.

In the figure: a bearing beam-1, a supporting beam-2, a lifting rail-3, a control box-4, a pay-off device-5, a driven disassembly structure-51, a pay-off structure-52, a transmission structure-53, a transmission belt-54, a motor-55, a frame a-511, a movable frame-512, a chute-513, a flange-514, a sleeve structure-515, a connecting frame-5 a, a rotating sleeve-5 b, a ball-5 c, a friction strip-5 d, an inner sleeve-5 e, a clamping plate structure-521, a plunger-522, a spring-523, a clamping plate-1 a, an anti-skid tooth-1 b, a movable hole-1 c, a frame b-531, an adjusting structure-532, a driving sleeve-533, a transmission gear-534, a transmission shaft-535, a, A connecting shaft-2 a, a bearing-2 b and an adjusting frame-2 c.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-10, the embodiments of the present invention are as follows:

the structure of the device comprises a bearing beam 1, a supporting beam 2, a lifting rail 3, a control box 4 and a pay-off device 5, wherein the supporting beam 2 is vertically arranged at the upper end of the bearing beam 1 and welded with the bearing beam, the lifting rail 3 is embedded in the inner side of the supporting beam 2, the control box 4 is arranged above the bearing beam 1, and the pay-off device 5 is arranged at the front end of the supporting beam 2 and movably connected with the lifting rail 3; the pay-off device 5 comprises a driven dismounting structure 51, a pay-off structure 52, a transmission structure 53, a transmission belt 54 and a motor 55, wherein the pay-off structure 52 is mounted on the left side of the driven dismounting structure 51 and movably connected, the left side of the pay-off structure 52 is embedded into the inner side of the transmission structure 53, and the motor 55 is connected with the transmission structure 53 through the transmission belt 54.

Referring to fig. 3, the driven dismounting structure 51 includes a frame a511, a movable frame 512, a sliding groove 513, a flange 514, and a sleeve structure 515, wherein the movable frame 512 is installed inside the frame a511, the sliding groove 513 is installed inside the frame a511, the left side of the movable frame 512 is welded to the right side of the sleeve structure 515, the flange 514 is sleeved outside the sleeve structure 515, the right end of the flange is connected to the frame a511, the wire releasing structure 52 is embedded inside the sleeve structure 515, so as to facilitate the dismounting and mounting of the wire releasing structure 52, and a clamping block outside the movable frame 512 can clamp the movable frame 512 inside the frame a511 as a whole to prevent displacement.

Referring to fig. 4-5, the sleeve structure 515 includes a connecting frame 5a, a rotating sleeve 5b, a ball 5c, a friction strip 5d, and an inner sleeve 5e, wherein the rotating sleeve 5b is embedded in the connecting frame 5a, the ball 5c is installed between the connecting frame 5a and the rotating sleeve 5b, the inner side of the inner sleeve 5e is attached to the outer side of the rotating sleeve 5b, and the friction strips 5d are uniformly distributed on the inner side of the inner sleeve 5e, so as to facilitate the rotation of the inner wire releasing structure 52.

Referring to fig. 6, the wire releasing structure 52 includes a clamping structure 521, an inserting rod 522 and a spring 523, wherein the inserting rod 522 penetrates through the inner side of the clamping structure 521, the spring 523 is sleeved on the outer side of the inserting rod 522 and the inner side of the inserting rod abuts against the outer side of the clamping structure 521, a key is provided between the clamping structure 521 and the inserting rod 522, and only the transverse movement can be performed, and the spring 523 is better used for pushing the clamping structure 521 to limit the conductor coil between the clamping structures 521.

Referring to fig. 7-8, the clamping plate structure 521 includes a plurality of clamping plates 1a, anti-slip teeth 1b and movable holes 1c, the anti-slip teeth 1b are uniformly distributed on the surface of the clamping plate 1a, and the movable holes 1c penetrate through the clamping plate 1a and are located on the same axis, so that the friction between the two sides of the conductor coil and the clamping plate 1a can be increased, and the conductor coil can rotate conveniently.

Referring to fig. 9, the transmission structure 53 includes a frame b531, an adjusting structure 532, a driving sleeve 533, a transmission gear 534, and a transmission shaft 535, the adjusting structure 532 is movably connected to the inner side of the frame b531, the right side of the adjusting structure 532 is installed at the left side of the driving sleeve 533 and mechanically connected, the outer surface of the driving sleeve 533 is engaged with the transmission gear 534, the transmission shaft 535 is fixedly installed at the inner side of the transmission gear 534, the motor 55 is connected to the transmission shaft 535 through a transmission belt 54, and the left side of the wire-releasing structure 52 is embedded in the inner side of the driving sleeve 533 to facilitate the rotation of the driving.

Referring to fig. 10, the adjusting structure 532 includes a connecting shaft 2a, a bearing 2b, and an adjusting frame 2c, the connecting shaft 2a penetrates through the inner side of the adjusting frame 2c, the left side of the connecting shaft 2a is embedded in the inner side of the bearing 2b, and the bearing 2b is embedded in the inner side of the adjusting frame 2c, so that the adjusting frame 2c will not rotate when the driving sleeve 533 rotates.

Based on the above embodiment, the specific working principle is as follows:

firstly, the inner side of the conductor roll penetrates into the insertion rod 522, the clamping plate structures 521 are sleeved on the two sides, then the spring 523 is arranged, namely, the right end of the insertion rod 522 is penetrated into the sleeve structure 515, then the movable frame 512 is pushed inwards, the insertion rod 522 is clamped on the inner side of the sleeve structure 515, the left side of the insertion rod 522 is sleeved into the driving sleeve 533, then the adjusting structure 532 is pushed inwards, at this time, the insertion rod 522 is completely limited, the springs 523 on the two sides push the clamping plate structures 521 to clamp the conductor roll, then the wire releasing device 5 is integrally lifted upwards by using the lifting rail 3, the motor 55 can be opened to work, at this time, the transmission gear 534 on the outer side of the transmission shaft 535 drives the driving sleeve 533 to rotate, because the driving sleeve 533 is connected with the connecting shaft 2a, the connecting shaft 2a rotates around the bearing 2b, the adjusting frame 2c is prevented from rotating, and the sleeve structure 515 on the right side of the insertion rod, the rotating sleeve 5b will rotate outside the ball 5c under the action of the friction strip 5d, so that the movable frame 512 is stationary, and the anti-slip teeth 1b inside the clamping plate 1a will be clamped outside the conductor coil, so that the conductor coil will rotate and continuously pay out.

The invention solves the problems that in the prior art, because the conductor disc is heavy and is not easy to be directly installed on the paying-off equipment, a rotating shaft needs to be put down and then inserted and fixed, the conductor disc and the rotating shaft rotate relatively when rotating, the conductor disc is not moved, then the stranded wires of the conductor are continuously pulled backwards, the conductor is broken, and the continuous paying-off production is influenced, through the mutual combination of the components, a driven dismounting structure and a transmission structure are arranged between the paying-off structures, the inner side of a conductor roll is penetrated into an insertion rod, clamping plate structures are sleeved on two sides, springs are arranged, the right end of the insertion rod can be penetrated into a sleeve structure, then a movable frame is pushed inwards, the insertion rod is clamped on the inner side of the sleeve structure, the left side of the insertion rod is sleeved into a driving sleeve, an adjusting structure is pushed towards the inner side, and the insertion rod can be completely limited at the moment, and the springs on the two sides can push the clamping plate structure to clamp the conductor roll, so that the relative rotation of the conductor roll is limited while the conductor roll is convenient to disassemble and assemble, the conductor roll can rotate better along with the inserted rod, the conductor roll is prevented from being immovable, and then stranded wires of the conductor are continuously pulled backwards, and the phenomenon that the conductor is broken is reduced.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a unwrapping wire equipment for cable processing which characterized in that: the structure of the device comprises a bearing beam (1), a supporting beam (2), a lifting rail (3), a control box (4) and a pay-off device (5), wherein the supporting beam (2) is vertically arranged at the upper end of the bearing beam (1), the lifting rail (3) is embedded into the inner side of the supporting beam (2), the control box (4) is arranged above the bearing beam (1), and the pay-off device (5) is arranged at the front end of the supporting beam (2) and is movably connected with the lifting rail (3); the paying-off device (5) comprises a driven dismounting structure (51), a paying-off structure (52), a transmission structure (53), a transmission belt (54) and a motor (55), the paying-off structure (52) is installed on the left side of the driven dismounting structure (51), the left side of the paying-off structure (52) is embedded in the transmission structure (53), the motor (55) is connected with the transmission structure (53) through the transmission belt (54), the driven dismounting structure (51) comprises a rack a (511), a movable frame (512), a sliding groove (513), a flange plate (514) and a sleeve structure (515), the movable frame (512) is installed on the inner side of the rack a (511), the sliding groove (513) is arranged on the inner side of the rack a (511), the left side of the movable frame (512) is welded with the right side of the sleeve structure (515), the flange plate (514) is sleeved on the outer side of the sleeve structure (515) and the right, the pay-off structure (52) is embedded inside the casing structure (515); the sleeve structure (515) comprises a connecting frame (5a), a rotating sleeve (5b), balls (5c), a friction strip (5d) and an inner sleeve (5e), wherein the rotating sleeve (5b) is embedded in the inner side of the connecting frame (5a), the balls (5c) are arranged between the connecting frame (5a) and the rotating sleeve (5b), the inner side of the inner sleeve (5e) is attached to the outer side of the rotating sleeve (5b), and the friction strips (5d) are arranged in plurality and uniformly distributed on the inner side of the inner sleeve (5 e); the method is characterized in that: the paying-off structure (52) comprises a clamping plate structure (521), an inserting rod (522) and a spring (523), wherein the inserting rod (522) penetrates through the inner side of the clamping plate structure (521), the spring (523) is sleeved on the outer side of the inserting rod (522), and the inner side of the spring is abutted against the outer side of the clamping plate structure (521); the conductor coil clamping device is characterized in that the clamping plate structure (521) comprises a clamping plate (1a), anti-skidding teeth (1b) and movable holes (1c), the anti-skidding teeth (1b) are arranged on the surface of the clamping plate (1a) in a plurality of numbers and are uniformly distributed, the movable holes (1c) penetrate through the clamping plate (1a) and are positioned on the same axis, and friction force between two sides of a conductor coil and the clamping plate (1a) can be increased, so that the conductor coil clamping device is convenient to rotate; the transmission structure (53) comprises a rack b (531), an adjusting structure (532), a driving sleeve (533), a transmission gear (534) and a transmission shaft (535), the adjusting structure (532) is movably connected to the inner side of the rack b (531), the right side of the adjusting structure (532) is installed on the left side of the driving sleeve (533) and is in mechanical connection, the outer surface of the driving sleeve (533) is meshed with the transmission gear (534), the transmission shaft (535) is fixedly installed on the inner side of the transmission gear (534), the motor (55) is connected with the transmission shaft (535) through a transmission belt (54), and the left side of the pay-off structure (52) is embedded into the inner side of the driving sleeve (533) so as to drive the driving sleeve (533) to rotate conveniently; the adjusting structure (532) comprises a connecting shaft (2a), a bearing (2b) and an adjusting frame (2c), the connecting shaft (2a) penetrates through the inner side of the adjusting frame (2c), the left side of the connecting shaft (2a) is embedded in the inner side of the bearing (2b), the bearing (2b) is embedded in the inner side of the adjusting frame (2c), and when the driving sleeve (533) rotates, the adjusting frame (2c) cannot rotate;

firstly, the inner side of a conductor roll penetrates into an insertion rod (522), a clamping plate structure (521) is sleeved on two sides of the conductor roll, then a spring (523) is arranged, namely, the right end of the insertion rod (522) penetrates into a sleeve structure (515), then a movable frame (512) is pushed inwards, the insertion rod (522) is clamped on the inner side of the sleeve structure (515), the left side of the insertion rod (522) is sleeved into a driving sleeve (533), then an adjusting structure (532) is pushed inwards, the insertion rod (522) is completely limited at the moment, the springs (523) on two sides push the clamping plate structure (521) to clamp the conductor roll, a wire releasing device (5) is integrally lifted upwards by utilizing a lifting rail (3), a motor (55) can be opened to work, at the moment, a transmission gear (534) on the outer side of a transmission shaft (535) drives the driving sleeve (533) to rotate, and the driving sleeve (533) is connected with a connecting shaft (2a), the connecting shaft (2a) can rotate around the bearing (2b) to prevent the adjusting frame (2c) from rotating, the sleeve structure (515) on the right side of the inserted rod (522) also rotates, the rotating sleeve (5b) rotates outside the ball (5c) under the action of the friction strip (5d), the movable frame (512) is made to be static, and the anti-skidding teeth (1b) on the inner side of the clamping plate (1a) are clamped outside the conductor coil, so that the conductor coil can rotate and pay off continuously.