CN220774035U - Wire winding machine - Google Patents

Abstract

The utility model discloses a wire winding machine, which comprises: the device comprises a frame, a glue winding device arranged on the frame, a wire locating rack arranged at the front end of the glue winding device and capable of assisting the wire to drive the adhesive tape to move into the glue winding device, a tape supply device arranged on the frame and used for supplying the adhesive tape to the glue winding device, a tape conveying module arranged between the tape supply device and the glue winding device and used for conducting the adhesive tape, a paper winding device arranged at the side of the tape conveying module, a cutting device arranged at the side of the glue winding device and used for cutting the adhesive tape, and a tension adjusting device arranged in the tape conveying module and used for adjusting the tension of the adhesive tape. The adhesive tape sent out by the tape supply device is conducted between the wire locating frame and the tape winding device by the tape conveying module, the wire is placed on the wire locating frame and slides into the tape winding device, the adhesive tape is driven to enter the tape winding device together, the adhesive tape is cut by the cutting device, and the adhesive tape is wound on the wire by the tape winding device, so that the tape winding of the wire is completed.

Description

Wire winding machine

Technical field:

the utility model relates to the technical field of wire harness production and processing, in particular to a wire winding machine.

The background technology is as follows:

in the wire harness production and processing process, a layer of adhesive tape is generally stuck on the outer surface of the wire harness so as to prevent the adhesive tape from being damaged in the use process and play roles of insulation, dust prevention, moisture prevention and cleaning. There are two types of winding structures that are currently common: one is a spot winding type, which is to be construed as a method of winding one or more layers of adhesive tape on a portion of a wire; the other is a wire wrap type, as the name implies, a length of wire is wrapped with one or more layers of tape.

Such as: in the technical scheme disclosed in the Chinese patent publication No. CN 218949586U, an adhesive tape is pulled to a winding mechanism by an adhesive tape pulling mechanism, then the adhesive tape is cut by a cutting mechanism according to the required length, the adhesive tape is pushed into the winding mechanism by a wire harness, and the adhesive tape is wound on the wire harness by the winding mechanism in a rotating mode, so that the winding of the wire harness is completed. However, in the technical scheme of the patent, the adhesive tape pulling mechanism is required to be used for pulling the adhesive tape to the winding mechanism, and the adhesive tape is pushed into the winding mechanism through the wire harness, so that the whole structure of the mechanism is huge and not compact, the adhesive tape pulling mechanism has single function and large occupied space, and the production cost of equipment is greatly increased.

In view of this, the present inventors have proposed the following means.

The utility model comprises the following steps:

the utility model aims to overcome the defects of the prior art and provides a wire winding machine.

In order to solve the technical problems, the utility model adopts the following technical scheme: a wire winding machine comprising: the device comprises a frame, a winding device arranged on the frame and used for winding the adhesive tape onto a wire rod, a wire rod locating rack arranged at the front end of the winding device in a sliding manner and capable of assisting the wire rod to drive the adhesive tape to move into the winding device, a tape supply device arranged on the frame and used for supplying the adhesive tape to the winding device, a tape conveying module arranged between the tape supply device and the winding device and used for conducting the adhesive tape, a paper winding device arranged beside the tape conveying module and used for winding waste paper of the adhesive tape, a cutting device arranged beside the winding device and used for cutting the adhesive tape, and a tension adjusting device arranged in the tape conveying module and used for adjusting tension of the adhesive tape.

Furthermore, in the above technical scheme, the belt conveying module comprises a tension seat arranged in front of the cutting device and used for positioning the adhesive belt, a first guide roller arranged at the lower end of the tension seat and positioned at the front end of the adhesive winding device, a tension brake piece hinged on the tension seat and propped against the adhesive belt, and a first guide roller arranged above the tension seat and used for conducting the adhesive belt to turn, wherein the tension brake piece is positioned at the side of the first guide roller, and the adhesive belt passes through between the tension brake piece and the first guide roller.

In the above technical solution, the tension adjusting device is located at the rear of the tension seat, and a pushing plate in the tension adjusting device penetrates through the tension seat to contact and press the adhesive tape; and a rubber pressing wheel device for pressing the rubber belt in a matched mode is arranged between the tension adjusting device and the first guide roller.

Furthermore, in the above technical scheme, the tension adjusting device comprises a first X-axis guide rail arranged on the frame and perpendicular to the adhesive tape, a first sliding block slidably mounted on the first X-axis guide rail and fixed with the pushing plate, and a screw motor module arranged on the frame and used for driving the pushing plate to move.

Furthermore, in the above technical scheme, the rubber pressing wheel device comprises a second X-axis guide rail arranged on the frame and perpendicular to the rubber belt, a second sliding seat slidably mounted on the second X-axis guide rail, a rubber pressing roller arranged at the front end of the second sliding seat and contacted with the rubber belt for pressing, a first limiting seat arranged on the frame and used for limiting the rubber pressing roller, and a first proximity switch sensor arranged on the second sliding seat and capable of being close to or far away from the first limiting seat.

Furthermore, in the above technical scheme, the wire positioning frame includes a third X-axis guide rail disposed below the frame, a sliding frame disposed on the third X-axis guide rail and extending upward from two sides to support the wire, and a trigger origin rod disposed on one side of the sliding frame and used for triggering a second contact sensor in the winding device, wherein the sliding frame is provided with a barb groove for pulling back the sliding frame when the wire exits the winding device.

Furthermore, in the above technical scheme, the lower extreme of frame is provided with supplies the gliding fourth X axle guide rail of rubberizing device, and this rubberizing device's bottom is provided with slidable mounting in fourth slider on the fourth X axle guide rail, the front end of frame is provided with and is used for adjusting rubberizing device front and back position's adjusting screw.

Furthermore, in the above technical scheme, a control box is arranged at the side of the frame, and the paper winding device is mounted on the control box and located between the first guide roller and the tape supply device.

Furthermore, in the above technical solution, the tape supply device includes a fifth X-axis guide rail disposed on the frame, a mounting tray rack slidably disposed on the fifth X-axis guide rail and used for mounting a tape roll, a first motor disposed on the frame and used for driving the mounting tray rack to move along the fifth X-axis guide rail, and a driving belt pulley set disposed on the frame and used for connecting the first motor with the mounting tray rack.

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the wire locating frame capable of sliding is arranged in front of the adhesive winding device, the adhesive tape sent out by the tape supplying device is conducted between the wire locating frame and the adhesive winding device by the tape conveying module, the wire is placed on the wire locating frame and slides into the adhesive winding device, the adhesive tape is driven to enter the adhesive winding device together, the adhesive tape is cut by the cutting device, the adhesive tape is wound on the wire by the adhesive winding device, the adhesive tape winding of the wire is completed, the tension of the adhesive tape can be adjusted by the tension adjusting device, the wire can be smoothly brought into the adhesive winding device, and the situation that the adhesive tape cannot be pulled into the adhesive winding device due to the fact that the adhesive tape is loose in transition or is tightly stretched in transition is avoided. In the utility model, the adhesive tape is not required to be pulled out by adopting the adhesive tape pulling mechanism, the end part of the adhesive tape is only required to be placed in front of the winding device by adopting the belt conveying module, the adhesive tape is attached to the adhesive tape in the winding device in the inward sliding process of the wire rod, and the pulling action of the adhesive tape is completed, so that the utility model has the advantages of compact structure, small occupied space, no part of mechanisms and great reduction of equipment cost.

Description of the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a second schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic view of a belt assembly according to the present utility model;

FIG. 4 is a schematic view of the structure of the intermediate pressure rubber wheel device of the present utility model;

FIG. 5 is a schematic view of the cutting device of the present utility model;

fig. 6 is a schematic view of a tape feeder according to the present utility model.

The specific embodiment is as follows:

the utility model will be further described with reference to specific examples and figures.

Referring to fig. 1 to 6, a wire winding machine includes: the adhesive tape winding device comprises a frame 1, an adhesive tape winding device 2 which is arranged on the frame 1 and is used for winding adhesive tapes onto wires, a wire positioning frame 3 which is arranged at the front end of the adhesive tape winding device 2 in a sliding manner and can assist the wires to drive the adhesive tapes to move into the adhesive tape winding device 2, a tape supply device 4 which is arranged on the frame 1 and is used for supplying the adhesive tapes to the adhesive tape winding device 2, a tape conveying module 5 which is arranged between the tape supply device 4 and the adhesive tape winding device 2 and is used for conducting the adhesive tapes, a paper winding device 6 which is arranged beside the tape conveying module 5 and is used for winding adhesive tape waste paper, a cutting device 7 which is arranged beside the adhesive tape winding device 2 and is used for cutting the adhesive tapes, and a tension adjusting device 8 which is arranged in the tape conveying module 5 and is used for adjusting the tension of the adhesive tapes. The utility model provides a can gliding wire rod locating rack 3 is set up in the place ahead of twining gluey device 2 to between wire rod locating rack 3 and twining gluey device 2 will be supplied the sticky tape that tape unit 4 sent by the tape transfer module 5, through placing the wire rod on wire rod locating rack 3 and slide in twining gluey device 2, and then drive the sticky tape together get into twining gluey device 2, and decide the sticky tape by cutting device 7, the sticky tape is convoluteed on the wire rod through twining gluey device 2 again, accomplish the twining sticky tape of wire rod, and tension adjusting device 8 can adjust the tension of sticky tape, guarantee that the wire rod can be brought into twining gluey device 2 smoothly with the sticky tape, avoid appearing pasting together because of sticky tape transition is loose, perhaps transition tight leads to the wire rod to be unable to pull sticky tape to get into twining gluey device 2. In the utility model, the adhesive tape is not required to be pulled out by adopting the adhesive tape pulling mechanism, the end part of the adhesive tape is only required to be placed in front of the winding device 2 by adopting the belt conveying module 5, the adhesive tape is attached to the adhesive tape in the winding device 2 in the inward sliding process of the wire rod, and the pulling action of the adhesive tape is completed, so that the utility model has the advantages of compact structure, small occupied space, no part of mechanisms and great reduction of equipment cost.

The belt conveying module 5 comprises a tension seat 51 arranged in front of the cutting device 7 and used for positioning the adhesive belt, a first guide carrier roller 52 arranged at the lower end of the tension seat 51 and positioned at the front end of the adhesive winding device 2, a tension brake piece 53 hinged on the tension seat 51 and propped against the adhesive belt, and a first guide roller 54 arranged above the tension seat 51 and used for conducting the adhesive belt to turn, wherein the tension brake piece 53 is positioned beside the first guide carrier roller 52, and the adhesive belt passes through between the tension brake piece 53 and the first guide carrier roller 52. A brush 55 for locating and limiting the end part of the adhesive tape is arranged below the first guide carrier roller 52, and the adhesive tape can be prevented from being pulled out when the wire rod exits the adhesive winding device 2 through the brush 55.

The tension adjusting device 8 is positioned behind the tension seat 51, and a pushing plate 81 in the tension adjusting device 8 penetrates through the tension seat 51 to contact and press the adhesive tape; and a rubber pressing wheel device 9 for pressing the rubber belt in a matched mode is arranged between the tension adjusting device 8 and the first guide roller 54. The tension adjusting device 8 comprises a first X-axis guide rail 84 which is arranged on the frame 1 and is perpendicular to the adhesive tape, a first sliding block 82 which is slidably arranged on the first X-axis guide rail 84 and is fixed with the pushing plate 81, and a screw motor module 83 which is arranged on the frame 1 and is used for driving the pushing plate 81 to move. The glue pressing wheel device 9 comprises a second X-axis guide rail 91 which is arranged on the frame 1 and is perpendicular to the adhesive tape, a second sliding seat 92 which is slidably arranged on the second X-axis guide rail 91, a glue pressing roller 93 which is arranged at the front end of the second sliding seat 92 and is contacted and pressed with the adhesive tape, a first limiting seat 94 which is arranged on the frame 1 and is used for limiting the glue pressing roller 93, and a first proximity switch sensor 95 which is arranged on the second sliding seat 92 and can be close to or far away from the first limiting seat 94.

The wire positioning frame 3 comprises a third X-axis guide rail 31 disposed below the frame 1, a sliding frame 32 disposed on the third X-axis guide rail 31 and extending upward from two sides to support the wire, and a trigger origin rod 33 disposed on one side of the sliding frame 32 and used for triggering the second contact sensor 20 in the adhesive winding device 2, wherein a barb groove 321 used for pulling back the sliding frame 32 when the wire exits the adhesive winding device 2 is disposed on the sliding frame 32. The lower extreme of frame 1 is provided with supplies the gliding fourth X axle guide rail 21 of winding device 2, and the bottom of this winding device 2 is provided with slidable mounting in fourth slider 22 on the fourth X axle guide rail 21, the front end of frame 1 is provided with and is used for adjusting winding device 2 front and back position's adjusting screw 23.

The cutting device 7 comprises a vertical plate 71 arranged on the frame 1, a Z-axis guide rail 72 vertically arranged on the vertical plate 71, a rack 73 arranged on the Z-axis guide rail 72 in a sliding manner, a cutting knife 74 arranged on the rack 73 and capable of moving to a position between the first guide carrier roller 52 and the adhesive winding device 2 to cut off the adhesive tape, a second motor 75 arranged on the vertical plate 71 and used for driving the rack 73 to move up and down, and a gear 76 arranged on an output shaft of the second motor 75 and used for meshing the rack 73.

The control box 10 is arranged beside the frame 1, and the paper winding device 6 is mounted on the control box 10 and is positioned between the first guide roller 54 and the tape supply device 4. The tape supply device 4 comprises a fifth X-axis guide rail 41 arranged on the frame 1, a mounting tray frame 42 slidably arranged on the fifth X-axis guide rail 41 and used for mounting a tape roll, a first motor 43 arranged on the frame 1 and used for driving the mounting tray frame 42 to move along the fifth X-axis guide rail 41, and a transmission belt pulley group 44 arranged on the frame 1 and used for connecting the first motor 43 with the mounting tray frame 42. Through fixing the adhesive tape roll on the mounting plate frame 42, the first motor 43 drives the mounting plate frame 42 to slide back and forth along the fifth X-axis guide rail 41 through the transmission belt pulley group 44, and the adhesive tape is sent out for a certain amount of redundancy to the adhesive tape between the belt conveying module 5 and the mounting plate frame 42, so that damping of the wire pulling adhesive tape is reduced, and the wire pulling adhesive tape is facilitated to enter the adhesive winding device 2. And the paper winding device 6 winds the release paper on the adhesive tape once after the adhesive tape is sent out by the tape supply device 4, so that the situation that the wire rod pulls the adhesive tape to generate resistance due to overlarge redundant adhesive tape is avoided.

In summary, when the utility model works, the adhesive tape roll is manually mounted on the mounting tray frame 42, the adhesive tape is pulled out, and then is wound around the upper part of the first guide roller 54, and is wound around the rear part of the rubber pressing roller 93 into the tension seat 51, and passes through between the tension brake piece 53 at the lower end of the tension seat 51 and the first guide roller 52, so that the adhesive surface of the adhesive tape can be attached to the rear end of the first guide roller 52, thereby being convenient for fixing the end part of the adhesive tape at the front end of the adhesive winding device 2, and simultaneously, the release paper on the adhesive tape is torn off and wound on the paper winding device 6; further, the wire is manually placed on the wire positioning frame 3 and pushed into the adhesive winding device 2, the wire positioning frame 3 is forced to slide to the rear of the supporting vertical frame 1, and the wire is stuck with the adhesive tape in the sliding process, and the adhesive tape is pulled into the adhesive winding device 2; further, when the trigger origin bar 33 moves along with the carriage 32 to contact with the first proximity switch sensor 95, the cutting device 7 is triggered to cut off the adhesive tape, and then the adhesive tape is wound on the wire rod by the operation of the adhesive winding device 2; further, the wire is pulled outwards manually, the wire is contacted with the end part of the originally sheared adhesive tape along with the wire pulling, the adhesive tape is stuck on the first guide carrier roller 52 and the hairbrush 55 to prevent the adhesive tape from backing, meanwhile, in the winding process, the tape feeding device 4 works to feed the adhesive tape out one section at a time, so that a section of redundant adhesive tape for pulling is arranged below the paper winding device 6, and the paper winding device 6 synchronously winds the release paper, so that the adhesive tape is prevented from falling; further, after the wire rod of the winding adhesive tape is manually taken out or moved to a position, the wire rod is continuously pushed into the adhesive tape winding device 2 to wind the adhesive tape, so that continuous winding is realized.

It is understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, but rather is to be accorded the full scope of all such modifications and equivalent structures, features and principles as set forth herein.

Claims (9)

1. A wire winding machine, comprising: frame (1), set up in on frame (1) and be used for twining the sticky tape to twine gluey device (2) on the wire rod, slide set up in twine gluey device (2) front end and can assist the wire rod drives the sticky tape and remove wire rod locating rack (3) in this twine gluey device (2), set up in on frame (1) and be used for to twine gluey device (2) provide tape supply device (4), set up in supply device (4) with twine and be used for the conduction between gluey device (2) band module (5) of sticky tape, set up in band module (5) side and be used for rolling paper device (6) of sticky tape waste paper, set up in twine gluey device (2) side and be used for cutting the cutting device (7) of sticky tape and set up in band module (5) and be used for adjusting in band tension adjusting device (8).

2. A wire winding machine according to claim 1, wherein: the adhesive tape winding device comprises a tape conveying module (5), a cutting device (7), a tension seat (51) arranged in front of the cutting device and used for positioning an adhesive tape, a first guide roller (52) arranged at the lower end of the tension seat (51) and positioned at the front end of the adhesive tape winding device (2), a tension brake piece (53) hinged to the tension seat (51) and pressed against the adhesive tape, and a first guide roller (54) arranged above the tension seat (51) and used for conducting the adhesive tape to steer, wherein the tension brake piece (53) is positioned beside the first guide roller (52), and the adhesive tape passes through between the tension brake piece (53) and the first guide roller (52).

3. A wire winding machine according to claim 2, wherein: the tension adjusting device (8) is positioned at the rear of the tension seat (51), and a pushing plate (81) in the tension adjusting device (8) penetrates through the tension seat (51) to contact and press the adhesive tape; and a rubber pressing wheel device (9) for pressing the rubber belt in a matched mode is arranged between the tension adjusting device (8) and the first guide roller (54).

4. A wire winding machine according to claim 3, wherein: the tension adjusting device (8) comprises a first X-axis guide rail (84) which is arranged on the frame (1) and is perpendicular to the adhesive tape, a first sliding block (82) which is slidably arranged on the first X-axis guide rail (84) and is fixed with the pushing plate (81), and a screw motor module (83) which is arranged on the frame (1) and is used for driving the pushing plate (81) to move.

5. A wire winding machine according to claim 3, wherein: the rubber pressing wheel device (9) comprises a second X-axis guide rail (91) which is arranged on the frame (1) and is perpendicular to the rubber belt, a second sliding seat (92) which is slidably arranged on the second X-axis guide rail (91), a rubber pressing roller (93) which is arranged at the front end of the second sliding seat (92) and is in contact with the rubber belt for pressing, a first limiting seat (94) which is arranged on the frame (1) and is used for limiting the rubber pressing roller (93), and a first proximity switch sensor (95) which is arranged on the second sliding seat (92) and can be close to or far away from the first limiting seat (94).

6. A wire winding machine according to claim 1, wherein: the wire rod locating rack (3) including set up in third X axle guide rail (31) of frame (1) below, set up in on third X axle guide rail (31) and upwards extend in both sides in order to be used for supporting carriage (32) of wire rod and set up in carriage (32) one side and be used for triggering trigger origin pole (33) of second contact sensor (20) in twining mucilage binding device (2), be provided with on carriage (32) and be used for supplying the wire rod withdraws from barb groove (321) of this carriage (32) when twining mucilage binding device (2).

7. A wire winding machine according to claim 1, wherein: the lower extreme of frame (1) is provided with supplies twine gliding fourth X axle guide rail (21) of mucilage binding device (2), and the bottom of this twine mucilage binding device (2) be provided with slidable mounting in fourth slider (22) on fourth X axle guide rail (21), the front end of frame (1) is provided with and is used for adjusting screw (23) of position around twining mucilage binding device (2).

8. A wire winding machine according to claim 2, wherein: the side of frame (1) is provided with controls case (10), rolling paper device (6) install in control case (10) are located between first guide roll (54) and tape supply device (4).

9. A wire winding machine according to any one of claims 1-8, wherein: the belt feeding device (4) comprises a fifth X-axis guide rail (41) arranged on the frame (1), a mounting disc frame (42) which is arranged on the fifth X-axis guide rail (41) in a sliding manner and used for mounting a tape roll, a first motor (43) which is arranged on the frame (1) and used for driving the mounting disc frame (42) to move along the fifth X-axis guide rail (41), and a transmission belt pulley group (44) which is arranged on the frame (1) and used for connecting the first motor (43) with the mounting disc frame (42).