CN117841430B - Continuous winding device for bead wire production - Google Patents

Abstract

The invention relates to the technical field of bead wire production, in particular to a continuous winding device for bead wire production, which comprises a frame, a power motor, a rotating bracket, a wire winding mechanism, a wire clamping assembly, a reciprocating mechanism and pneumatic scissors, wherein the wire winding mechanism comprises a plurality of driving motors, a central shaft, a winding column, an extension pipe, an arc plate, a limiting sleeve and a movable sleeve which are arranged on the rotating bracket along the circumferential direction, the wire clamping assembly comprises a base, an inner ring plate, an elastic compression ring, an outer ring seat, a limiting flange, a first inclined ring, a second inclined ring and a locking mechanism, the first inclined ring and the second inclined ring are all arranged on a rotating path of the base and abut against the base to enable the base to move when the base rotates, the base is in transmission connection with the arc plates, the locking mechanism is used for locking or unlocking the base when the base contacts with the first inclined ring and the second inclined ring, and the reciprocating mechanism is used for reciprocally moving and guiding a wire to be uniformly wrapped on the winding column when the wire is wound.

Description

Continuous winding device for bead wire production

Technical Field

The invention relates to the technical field of bead wire production, in particular to a continuous winding device for bead wire production.

Background

The bead wire means a wire embedded in the edge of a rubber tire, also called a bead wire or a tire edge wire, which is generally made of a high-strength wire and has excellent strength, durability and elasticity. The bead wire is an important component of the tire, and is mainly used for fixing and supporting the structure of the tire, and maintaining the shape and stability of the tire. The bead wire is typically composed of a plurality of filaments that are interwoven, overlapped and secured together during the winding process to form a strong coil structure. This design gives the bead wire sufficient strength and stability to withstand the high pressures and impact forces generated during driving of the vehicle.

The Chinese patent with publication number CN213170852U discloses a steel wire production device, specifically a winding machine for steel wire production, which comprises a processing box, four corner positions of the lower side of the processing box are provided with supporting legs, the middle part of the left side of the processing box is provided with a wire pipe, the left side of the processing box is provided with air outlets in an up-down symmetrical way, and the inner wall of the left side of the processing box is provided with a limit box in an up-down symmetrical way. The winding device is simple in structure, the winding roller is driven to rotate by executing motor rotation, so that the winding roller winds the steel wire, the steel wire passes through the wire pipe and enters the processing box in the process of winding the steel wire, the steel wire is fixed and straightened through the circular clamping ring formed by the two arc clamping seats arranged in the wire pipe, the steel wire is prevented from being in a bending state during winding, and the winding effect is prevented from being influenced, so that the steel wire winding is more orderly, the winding length of the winding roller is greatly increased, the use of the winding roller is reduced due to the fact that the same steel wire length is wound, and the working efficiency is improved.

However, the winding apparatus of the above patent performs only one winding, and after the completion of winding the wire coil, it is necessary to stop the machine to remove the wire coil to perform the second winding, which affects the productivity, and thus, a new apparatus capable of continuously winding the wire coil is required,

Disclosure of Invention

Based on this, it is necessary to provide a continuous winding device for bead wire production in order to solve the problems of the prior art.

In order to solve the problems in the prior art, the invention adopts the following technical scheme: the utility model provides a bead wire production is with continuous coiling device, which comprises a frame, the fixed power motor that sets up in frame one side, the runing rest that links firmly with the power motor output shaft is coaxial, set up the wire winding mechanism in the frame, press from both sides the silk subassembly, reciprocating mechanism and pneumatic scissors, wire winding mechanism includes a plurality of along the circumferencial direction set up the driving motor on the runing rest, the center pin that links firmly with every driving motor output shaft is coaxial, coaxial winding post that links firmly on the center pin, the extension pipe that links firmly on the winding post is coaxial, a plurality of along circumferencial direction elasticity set up the arc board on the winding post, coaxial fixed sleeve locates the limit sleeve on the driving motor output shaft, coaxial slip sets up the movable sleeve on the limit sleeve, press from both sides the silk subassembly and include the base that links firmly with every movable sleeve is coaxial, the fixed inner ring board that sets up on the base, coaxial fixed elastic compression ring that sets up on the inner ring board, the outer ring seat that links firmly with the inner ring board along the circumferencial direction, the fixed limit flange that sets up on the outer ring seat, the fixed first diagonal ring and the second diagonal ring and the locking mechanism that sets up on the frame on the base, the coaxial diagonal ring and set up on the base when the first diagonal ring and the second diagonal ring touch the base and make the wire winding mechanism even when the wire winding path and touch the base on the base when the first diagonal ring and the base that makes the wire and the wire motion even when setting up and the wire winding path.

Further, each limiting sleeve is provided with a plurality of limiting vertical bars along the circumferential direction, each movable sleeve is provided with a limiting ring in a forming mode, a plurality of gaps are formed in the limiting ring along the circumferential direction, each gap corresponds to each limiting vertical bar one by one, each limiting sleeve is further provided with a pressure spring in a coaxial sleeve, and one end of the pressure spring abuts against the limiting sleeve while the other end abuts against the limiting ring.

Further, the locking mechanism comprises two installation tube seats which are symmetrically fixed on the base, locking pieces which are arranged in the installation tube seats in a sliding mode, limiting springs which are arranged in the installation tube seats, a limiting outer tube which is coaxially and fixedly arranged on the winding column, and a supporting ring which is coaxially and fixedly arranged in the limiting outer tube, wherein one end of each limiting spring is connected with the locking piece, the other end of each limiting spring is connected with the installation tube seats, the supporting ring is fixedly connected with the two locking pieces, a plurality of limiting convex strips are annularly arranged on the inner wall of the installation tube seats, a plurality of limiting grooves are annularly arranged on the outer wall of each locking piece, and each limiting convex strip corresponds to each limiting groove one by one.

Further, the locking mechanism further comprises a toggle rod arranged on the side wall of each mounting tube seat in a rotating mode and a sliding column fixedly arranged at the end portion of the toggle rod, each locking piece is provided with a limiting sinking groove, a limiting convex block is formed in the middle of each limiting sinking groove, a slideway is formed between the outer wall of each limiting convex block and the inner wall of each limiting sinking groove, the sliding column is in sliding fit with the slideway, the lowest point of each limiting sinking groove and the lowest point of each limiting convex block are not in the same straight line, the top of each limiting convex block is downwards sunken to form a limiting arc groove, and the bottom of each limiting convex block is outwards protruded.

Further, the slide way is sequentially split into a first chute, a first vertical chute, a first arc chute, a second chute, a third chute, a second vertical chute and a fourth chute.

Further, a plurality of mounting grooves are formed in the winding column along the circumferential direction, a rectangular groove is formed in each mounting groove along the radial direction of the winding column, a plurality of sliding long grooves are formed in the bottom of the winding column in an annular mode, each sliding long groove corresponds to each rectangular groove in a one-to-one perpendicular mode, a small inclined block is arranged on each arc plate and is in sliding fit with the rectangular groove, two return tension springs are symmetrically arranged on the arc plates, one ends of the return tension springs are connected with the winding column, the other ends of the return tension springs are connected with the arc plates, the wire clamping assembly further comprises a plurality of clamping strips which are arranged on the inner wall of the limiting outer tube along the circumferential direction, a clamping ring which is coaxially and elastically slides in the limiting outer tube, a plurality of trigger rods which are fixedly arranged on the clamping ring, and a plurality of ejector rods which are fixedly arranged on the base are abutted against each other through the supporting ring, each trigger rod corresponds to each sliding long groove in a one-to-one mode, a plurality of bayonets are formed in the circumferential direction on the clamping ring, and each bayonet is in one-to one correspondence with each clamping strip.

Further, the reciprocating mechanism comprises a support frame fixedly arranged on the frame, a reciprocating chute arranged on the support frame, a gear motor fixedly arranged on the support frame, a reciprocating screw rod coaxially fixedly connected to an output shaft of the gear motor, a movable support plate connected with threads of the reciprocating screw rod and in sliding fit with the reciprocating chute, a connecting plate fixedly arranged on the movable support plate, and two guide wheels which are symmetrically rotated and arranged on the connecting plate, wherein each guide wheel is provided with a V-shaped groove, and the two V-shaped grooves are used for allowing steel wires to pass through limit steel wires.

Further, a plurality of collision diagonal strips are annularly arranged on the elastic compression ring and the limiting flange.

Compared with the prior art, the invention has the following beneficial effects:

The method comprises the following steps: the device winds wires through the alternate rotation of the winding columns, can realize the continuous winding of the steel wire coil, and improves the working efficiency;

And two,: the wire clamping assembly of the device can enable the elastic ring to be close to the limit flange through the interference of the base and the first inclined ring when the rotary support rotates, automatically clamp the cut and suspended steel wire after the wire winding of the last winding column is completed, and is convenient for wire winding;

And thirdly,: after the wire winding is completed, the elastic ring is far away from the limit flange through the secondary collision of the base and the second inclined ring, and the clamped steel wire is automatically loosened, so that the steel wire coil can be conveniently and smoothly taken down.

Drawings

FIG. 1 is a schematic perspective view of an embodiment;

FIG. 2 is a perspective cross-sectional view of an embodiment;

FIG. 3 is a schematic perspective view of a reciprocating mechanism of an embodiment;

FIG. 4 is a schematic perspective view of a plurality of winding posts and first and second diagonal rings according to an embodiment;

FIG. 5 is a perspective cross-sectional view of the winding post of the embodiment;

FIG. 6 is an exploded perspective view of a stop collar and a movable collar according to an embodiment;

FIG. 7 is a schematic perspective view of a mounting socket and locking member of an embodiment;

FIG. 8 is an exploded perspective view of the mounting socket and locking member of the embodiment;

FIG. 9 is a front view of a ramp of an embodiment;

FIG. 10 is an enlarged schematic view of the structure of FIG. 2A;

FIG. 11 is an exploded schematic view of a perspective structure at a winding post of an embodiment;

Fig. 12 is a schematic perspective view of a winding column and a central shaft according to an embodiment.

The reference numerals in the figures are: 1. a frame; 2. a first diagonal ring; 3. a second diagonal ring; 4. a power motor; 5. a rotating bracket; 6. a driving motor; 7. a central shaft; 8. a limit sleeve; 9. limiting vertical bars; 10. a pressure spring; 11. a movable sleeve; 12. a limiting ring; 13. a notch; 14. winding a column; 15. an extension tube; 16. a mounting groove; 17. rectangular grooves; 18. resetting the tension spring; 19. a sliding long groove; 20. an arc plate; 21. small inclined blocks; 22. a base; 23. an inner ring plate; 24. an elastic compression ring; 25. the inclined strip is abutted against; 26. an outer ring seat; 27. a limit flange; 28. a locking mechanism; 29. installing a tube seat; 30. a limit spring; 31. a locking member; 32. limiting sink groove; 33. a limit bump; 34. limiting arc grooves; 35. a slideway; 36. a first chute; 37. a first vertical groove; 38. a first arc groove; 39. a second chute; 40. a third chute; 41. a second vertical groove; 42. a fourth chute; 43. a limit groove; 44. a toggle rod; 45. a skid column; 46. limit raised strips; 47. limiting the outer tube; 48. clamping strips; 49. a clasp; 50. a bayonet; 51. a trigger lever; 52. an inclined plane; 53. a support ring; 54. a push rod; 55. a reciprocating mechanism; 56. a support frame; 57. a reciprocating chute; 58. a speed reducing motor; 59. a reciprocating screw; 60. moving the support plate; 61. a connecting plate; 62. a guide wheel; 63. a V-shaped groove; 64. pneumatic scissors.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 12:

The utility model provides a bead wire production is with continuous coiling device, which comprises a frame 1, the fixed power motor 4 that sets up in frame 1 one side, the runing rest 5 that links firmly with the power motor 4 output shaft is coaxial, set up the wire winding mechanism on frame 1, press from both sides the silk subassembly, reciprocating mechanism 55 and pneumatic scissors 64, wire winding mechanism includes a plurality of driving motor 6 that sets up on runing rest 5 along the circumferencial direction, the center pin 7 that links firmly with every driving motor 6 output shaft is coaxial, the winding post 14 that links firmly on the center pin 7 coaxially, the extension tube 15 that links firmly on the winding post 14 coaxially, a plurality of is along the arc board 20 that the circumferencial direction elasticity set up on winding post 14, the coaxial fixed cover locates the limit sleeve 8 on the driving motor 6 output shaft, the coaxial movable sleeve 11 that slides and set up on limit sleeve 8, the base 22 that links firmly with every movable sleeve 11 is coaxial, the fixed inner ring 23 that sets up on base 22, coaxial fixed elastic press ring 24 that sets up on inner ring 23, the outer ring seat 26 that links firmly with the winding post 14 coaxial slip and links firmly with the outer ring 23, fixed ring seat 26, fixed setting up on the base 22 on the fixed ring 22, fixed ring 2, the fixed ring 22 is located on the base 22 and second base 22 is used for the same time and the base 2 is used for the wire winding mechanism is fixed to make the base 2 and is fixed ring 3 to be used for the same time and is set up on the base 2 and the base 22 to be used for the second inclined plane and is parallel with the base 2, the wire winding mechanism is set up on the base 2 and the base that can be used for the same side and the base is locked to be used to the base to be evenly to the second inclined plane 3 to the base.

When the device is operated to clamp the steel wire (the steel wire is hung by gravity and on the path of the rotating bracket 5 driving the device to rotate), the rotating bracket 5 is driven to rotate by the power motor 4, the rotating bracket 5 rotates to drive the winding column 14 to rotate alternately, in the process, along with the rotation of the rotating bracket 5, the hung steel wire contacts with the inner ring plate 23, in the rotating process, the base 22 is abutted against the first inclined ring 2, the base 22 drives the elastic compression ring 24 to be close to the limit flange 27 until the base 22 completely slides over the first inclined ring 2, the steel wire is compressed, and at the moment, the movement of the base 22 also drives the arc plates 20 to simultaneously move outwards along the radial direction of the winding column 14, the diameter of the winding column 14 is properly increased, the locking mechanism 28 is operated together, the position of the base 22 is temporarily locked, then the rotating bracket 5 is temporarily stopped to rotate, the driving motor 6 rotates to drive the central shaft 7 to rotate, the central shaft 7 rotates to drive the winding column 14 to rotate, and the winding column 14 rotates to wind the compressed steel wire on the winding column 14. When the steel wire is cut off by the pneumatic shears 64 after the steel wire is wound, the cut steel wire sags again, the power motor 4 is started to drive the rotary support 5 to rotate, the rotary support 5 rotates to enable the winding column 14 wound with the steel wire to rotate, at the moment, the base 22 collides with the second inclined ring 3 in the rotating process, the base 22 is stressed again to enable the elastic pressing ring 24 to be close to the limiting flange 27, the base 22 also has a certain activity due to the arrangement of the elastic pressing ring 24, the locking mechanism 28 is driven to operate to unlock the base 22 along with the rotation of the rotary support 5 until the base 22 completely slides over the second inclined ring 3, the base 22 is reset, the elastic pressing ring 24 is far away from the limiting flange 27, the end of the steel wire is loosened, and meanwhile the base 22 on the other winding column 14 also completely slides over the first inclined ring 2, and the step of clamping the steel wire is repeated.

After the base 22 slides over the second inclined ring 3 to reset, the arc plate 20 also resets along with the base 22, and when the arc plate 20 resets, the inner diameter of the steel wire coil is slightly larger than the diameter of the winding column 14, so that the wound steel wire can be easily coiled.

In order to reveal in particular the connection between the limit sleeve 8 and the movable sleeve 11, the following features are provided in particular:

Each limiting sleeve 8 is provided with a plurality of limiting vertical strips 9 along the circumferential direction, each movable sleeve 11 is provided with a limiting ring 12 in a forming mode, each limiting ring 12 is provided with a plurality of notches 13 along the circumferential direction, each notch 13 corresponds to each limiting vertical strip 9 one by one, each limiting sleeve 8 is also coaxially sleeved with a pressure spring 10, one end of the pressure spring 10 abuts against the limiting sleeve 8, and the other end abuts against the limiting ring 12.

When the device operates, the base 22 drives the movable sleeve 11 to move along the axial direction of the limiting sleeve 8, the movable sleeve 11 can vertically move under the cooperation of the limiting vertical bars 9 and the notches 13, deflection is avoided, and the pressure spring 10 arranged between the limiting sleeve 8 and the movable sleeve 11 is convenient for resetting the movable sleeve 11.

In order to reveal the detailed structure of the locking mechanism 28, the following features are provided in particular:

The locking mechanism 28 comprises two symmetrical mounting tube seats 29 fixedly arranged on the base 22, locking pieces 31 slidably arranged in the mounting tube seats 29, limiting springs 30 arranged in the mounting tube seats 29, limiting outer tubes 47 coaxially fixedly arranged on the winding columns 14 and supporting rings 53 coaxially fixedly arranged in the limiting outer tubes 47, one ends of the limiting springs 30 are connected with the locking pieces 31, the other ends of the supporting rings 53 are connected with the mounting tube seats 29, the two locking pieces 31 are fixedly connected with the supporting rings 53, a plurality of limiting raised strips 46 are annularly arranged on the inner walls of the mounting tube seats 29, a plurality of limiting grooves 43 are annularly arranged on the outer walls of the locking pieces 31, and each limiting raised strip 46 corresponds to each limiting groove 43 one by one.

When the base 22 slides along the first inclined ring 2, the base 22 moves upwards along the axis, the base 22 moves to drive the mounting tube seat 29 to move, the mounting tube seat 29 moves to enable the locking piece 31 to slide into the corresponding mounting tube seat 29, and in the process, the limit protruding strips 46 are in sliding fit with the limit grooves 43, so that the mounting tube seat 29 cannot rotate during movement. After the base 22 has been slid completely over the first diagonal ring 2, the locking mechanism 28 secures the position of the mounting socket 29, at which point the locking member 31 is fully inserted into the mounting socket 29, and the limit spring 30 is compressed under force.

In order to ensure that the locking mechanism 28 keeps the position of the mounting tube base 29 fixed after movement when the device is in operation, the following features are provided:

The locking mechanism 28 further comprises a toggle rod 44 rotatably arranged on the side wall of each mounting tube seat 29 and a sliding column 45 fixedly arranged at the end part of the toggle rod 44, each locking piece 31 is provided with a limiting sinking groove 32, a limiting convex block 33 is formed in the middle of each limiting sinking groove 32, a slideway 35 is formed between the outer wall of each limiting convex block 33 and the inner wall of each limiting sinking groove 32, the sliding column 45 is in sliding fit with the slideway 35, the lowest point of each limiting sinking groove 32 and the lowest point of each limiting convex block 33 are not in the same straight line, the top of each limiting convex block 33 is downwards sunken to form a limiting arc groove 34, and the bottom of each limiting convex block 33 is outwards protruded.

When the device is in operation, the sliding post 45 slides along the slide way 35 until the sliding post 45 falls into the limit arc groove 34 of the limit projection 33, at which time the sliding post 45 cannot slide along the slide way 35 any more, so that the position of the mounting tube seat 29 is locked.

In order to reveal the structure of the slide 35 in detail, the following features are provided:

the slide way 35 is divided into a first chute 36, a first vertical chute 37, a first arc chute 38, a second chute 39, a third chute 40, a second vertical chute 41 and a fourth chute 42 in sequence.

When the base 22 slides along the first inclined ring 2, the mounting tube seat 29 is driven by the base 22 to move, at this time, the sliding column 45 slides along the first inclined groove 36, the first vertical groove 37, the first arc groove 38 and the second inclined groove 39, when sliding to the second inclined groove 39, the sliding column 45 is clamped into the limiting arc groove 34 under the action of the limiting spring 30 and under the guidance of the second inclined groove 39, at this time, the mounting tube seat 29 is clamped, and the steel wire is clamped; when the base 22 slides along the second inclined ring 3, the mounting tube seat 29 is stressed to move again, so that the sliding column 45 slides along the third inclined groove 40, and after sliding to the second vertical groove 41, the sliding column 45 returns to the initial position through the second vertical groove 41 and the fourth inclined groove 42 under the action of the limiting spring 30, so that the mounting tube seat 29 is reset, and the steel wire is loosened.

In order to show the transmission connection relationship between the base 22 and the arc plate 20, the following features are specifically provided:

The winding column 14 is provided with a plurality of mounting grooves 16 along the circumferential direction, each mounting groove 16 is internally provided with a rectangular groove 17 along the radial direction of the winding column 14, the bottom of the winding column 14 is provided with a plurality of sliding long grooves 19 in an annular shape, each sliding long groove 19 corresponds to each rectangular groove 17 in a one-to-one perpendicular mode, each arc plate 20 is provided with a small inclined block 21, the small inclined blocks 21 are in sliding fit with the rectangular grooves 17, the arc plates 20 are symmetrically provided with two reset tension springs 18, one end of each reset tension spring 18 is connected with the winding column 14, the other end of each reset tension spring is connected with the arc plate 20, the wire clamping assembly further comprises a plurality of clamping strips 48 which are arranged on the inner wall of the limiting outer tube 47 along the circumferential direction, a clamping ring 49 which is coaxially and elastically and slidably arranged in the limiting outer tube 47, a plurality of trigger rods 51 which are fixedly arranged on the clamping ring 49, and a plurality of ejector rods 54 which are fixedly arranged on the base 22, each trigger rod 51 corresponds to each sliding long groove 19 in a sliding mode, the end of each trigger rod 51 is an inclined surface 52, the clamping ring 49 is provided with a plurality of clamping strips 50 along the circumferential direction, and each clamping strip 50 is provided with a plurality of clamping strips 50 on the clamping ring in a one-to-one correspondence mode.

When the base 22 collides with the first inclined ring 2 to move, the base 22 drives the ejector rod 54 to move upwards, the ejector rod 54 collides with the clamping ring 49 to move, the clamping ring 49 moves to enable the trigger rod 51 to move, the inclined surface 52 at the top end of the trigger rod 51 collides with the small inclined block 21 due to the movement of the trigger rod 51, the small inclined block 21 slides along the rectangular groove 17, all the arc plates 20 extend out synchronously, and the diameter of the winding column 14 is increased; when the base 22 is reset, the snap ring 49 resets, the trigger rod 51 resets, the small inclined block 21 is not in contact with the inclined surface 52 any more, the reset tension spring 18 enables the arc plate 20 to reset, the steel wire coil is wound completely, and the arc plate 20 stretches out during winding, so that the inner diameter of the wound steel wire coil is slightly larger than the diameter of the winding column 14, and after the arc plate 20 resets, the steel wire can be easily wound down.

In order to reveal the detailed structure of the reciprocation mechanism 55, the following features are specifically provided:

the reciprocating mechanism 55 comprises a supporting frame 56 fixedly arranged on the frame 1, a reciprocating chute 57 arranged on the supporting frame 56, a speed reducing motor 58 fixedly arranged on the supporting frame 56, a reciprocating screw rod 59 coaxially and fixedly connected to an output shaft of the speed reducing motor 58, a movable support plate 60 connected with the reciprocating screw rod 59 in a threaded manner and in sliding fit with the reciprocating chute 57, a connecting plate 61 fixedly arranged on the movable support plate 60, and two guide wheels 62 rotationally arranged on the connecting plate 61 in a symmetrical state, wherein each guide wheel 62 is provided with a V-shaped groove 63, and the two V-shaped grooves 63 are used for allowing steel wires to pass through limiting steel wires.

When winding, the speed reducing motor 58 drives the reciprocating screw 59 to rotate, the reciprocating screw 59 rotates to enable the movable support plate 60 to slide reciprocally along the reciprocating chute 57, the movable support plate 60 reciprocates to drive the connecting plate 61 to reciprocate, and the connecting plate 61 reciprocates to drive the two guide wheels 62, so that the steel wire swings reciprocally and uniformly winds on the winding column 14 under the clamping of the two guide wheels 62.

In order to ensure that the device clamps the steel wire, the steel wire can be clamped more firmly, the device is specifically provided with the following characteristics:

the elastic pressing ring 24 and the limiting flange 27 are all provided with a plurality of abutting diagonal strips 25 in an annular mode.

When the elastic compression ring 24 is driven to be close to the limit flange 27 to compress the steel wire, under the action of the abutting diagonal strip 25, the friction force between the steel wire and the elastic compression ring 24 and the limit flange 27 is increased, and the steel wire clamping is convenient to fasten.

Working principle: when the device is operated to clamp the steel wire (the steel wire is hung down by gravity and is on the path of the rotating bracket 5 driving the device to rotate), the rotating bracket 5 is driven to rotate by the power motor 4, the rotating bracket 5 rotates to drive the winding column 14 to alternately rotate, in the process, along with the rotation of the rotating bracket 5, the hung steel wire contacts with the inner ring plate 23, in the process of rotation, the base 22 is in contact with the first inclined ring 2, when the base 22 slides along the first inclined ring 2, the base 22 moves upwards along the axis, the base 22 moves to drive the mounting tube seat 29 to move, the mounting tube seat 29 moves to enable the locking piece 31 to slide into the corresponding mounting tube seat 29, in the process, the sliding column 45 slides along the first chute 36, the first vertical groove 37, the first arc groove 38 and the second chute 39 firstly and secondly, when sliding to the second chute 39, the sliding column 45 is clamped into the limiting arc groove 34 under the action of the limiting spring 30 and the guidance of the second chute 39, at this time, the mounting tube seat 29 is clamped, the base 22 drives the elastic compression ring 24 to be close to the limiting flange 27 until the base 22 completely slides over the first inclined ring 2, then the steel wire is compressed, and at this time, the movement of the base 22 also drives the ejector rod 54 to move upwards, the ejector rod 54 abuts against the clamping ring 49, the clamping ring 49 moves to enable the trigger rod 51 to move, the trigger rod 51 moves to enable the inclined surface 52 at the top end of the trigger rod 51 to contact with the small inclined block 21, the small inclined block 21 slides along the rectangular groove 17, all the arc plates 20 are enabled to extend synchronously, the diameter of the winding column 14 is increased, then the rotating bracket 5 is temporarily stopped to rotate, the driving motor 6 rotates to drive the central shaft 7 to rotate, the central shaft 7 rotates to drive the winding column 14 to rotate, the winding post 14 rotates to wind the compacted wire around the winding post 14. When the steel wire is cut off by the pneumatic shears 64 after the steel wire is wound, the cut steel wire sags again, the power motor 4 is started to drive the rotary support 5 to rotate, the rotary support 5 rotates to enable the winding column 14 wound with the steel wire to rotate, at the moment, the base 22 collides with the second inclined ring 3 in the rotating process, the base 22 is stressed again to enable the elastic pressing ring 24 to be close to the limiting flange 27, due to the arrangement of the elastic pressing ring 24, the base 22 also has a certain activity, the sliding column 45 slides along the third inclined groove 40 along with the rotation of the rotary support 5 until the base 22 completely slides over the second inclined ring 3, after the sliding column slides to the second vertical groove 41, the sliding column 45 sequentially returns to the initial position through the second vertical groove 41 and the fourth inclined groove 42 under the action of the limiting spring 30, so that the mounting tube seat 29 is reset, the base 22 is reset, the elastic pressing ring 24 is far away from the limiting flange 27, the end of the steel wire is loosened, and meanwhile the base 22 on the other winding column 14 also completely slides over the first inclined ring 2, and the step of clamping the steel wire is repeated.

After the base 22 slides over the second inclined ring 3 to reset, the arc plate 20 also resets along with the base 22, and when the arc plate 20 resets, the inner diameter of the steel wire coil is slightly larger than the diameter of the winding column 14, so that the wound steel wire can be easily coiled.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (6)

1. The utility model provides a bead wire production is with continuous coiling device, a serial communication port, including frame (1), fixed power motor (4) that set up in frame (1) one side, rotating bracket (5) fixedly connected with power motor (4) output shaft coaxial, set up wire winding mechanism on frame (1), wire clamping assembly, reciprocating mechanism (55) and pneumatic scissors (64), wire winding mechanism includes driving motor (6) that a plurality of along circumference set up on rotating bracket (5), center pin (7) fixedly connected with every driving motor (6) output shaft coaxial, winding post (14) fixedly connected with center pin (7) coaxial, extension pipe (15) fixedly connected with winding post (14) coaxial, a plurality of along circumference arc board (20) fixedly connected with winding post (14) coaxial, limiting sleeve (8) that coaxial fixed sleeve set up on driving motor (6) output shaft, coaxial slip sets up in moving sleeve (11) on limiting sleeve (8), wire clamping assembly includes base (22) fixedly connected with every moving sleeve (11) coaxial, inner ring (23) fixedly set up on base (22), coaxial ring (23) fixedly connected with coaxial ring (23), coaxial ring (24) fixedly connected with inner ring (24) and outer ring (23) fixedly connected with elastic ring (14) fixedly connected with annular ring (23) The device comprises a limiting flange (27) fixedly arranged on an outer ring seat (26), a first inclined ring (2) and a second inclined ring (3) fixedly arranged on a frame (1) and a locking mechanism (28) arranged on a base (22), wherein the first inclined ring (2) and the second inclined ring (3) are arranged on a rotating path of the base (22) and abut against the base (22) to enable the base (22) to move when the base (22) rotates, the base (22) is in transmission connection with a plurality of arc plates (20), and the locking mechanism (28) is used for locking or unlocking the base (22) when the base (22) is contacted with the first inclined ring (2) and the second inclined ring (3);

The locking mechanism (28) comprises two mounting tube seats (29) which are symmetrically fixedly arranged on the base (22), locking pieces (31) which are slidably arranged in the mounting tube seats (29), limiting springs (30) which are arranged in the mounting tube seats (29), limiting outer tubes (47) which are coaxially and fixedly arranged on the winding columns (14) and supporting rings (53) which are coaxially and fixedly arranged in the limiting outer tubes (47), one ends of the limiting springs (30) are connected with the locking pieces (31) while the other ends are connected with the mounting tube seats (29), the supporting rings (53) are fixedly connected with the two locking pieces (31), a plurality of limiting raised strips (46) are annularly arranged on the inner walls of the mounting tube seats (29), a plurality of limiting grooves (43) are annularly arranged on the outer walls of the locking pieces (31), and each limiting raised strip (46) corresponds to each limiting groove (43) one by one;

A plurality of mounting grooves (16) are formed in the winding column (14) along the circumferential direction, a rectangular groove (17) is formed in each mounting groove (16) along the radial direction of the winding column (14), a plurality of sliding long grooves (19) are formed in the bottom of the winding column (14) in an annular mode, each sliding long groove (19) corresponds to each rectangular groove (17) vertically one by one, each arc plate (20) is provided with a small inclined block (21), the small inclined block (21) is in sliding fit with the rectangular groove (17), two reset tension springs (18) are symmetrically arranged on the arc plate (20), one end of each reset tension spring (18) is connected with the winding column (14) while the other end of each reset tension spring is connected with the arc plate (20), the wire clamping assembly further comprises a plurality of clamping bars (48) which are arranged on the inner wall of the limiting outer tube (47) along the circumferential direction, a clamping ring (49) which are coaxially and elastically arranged in the limiting outer tube (47), a plurality of triggering rods (51) which are fixedly arranged on the limiting outer tube (49) and a plurality of the base (22), the triggering rods (54) which are fixedly arranged on the limiting outer tube (49), the supporting rods (52) which are fixedly arranged on the base (22), one by one end of each triggering rod (52) and each triggering rod (52) which corresponds to one end of the corresponding to the corresponding triggering rod (52), a plurality of bayonets (50) are formed in the clamping ring (49) along the circumferential direction, and each bayonet (50) corresponds to each clamping strip (48) one by one.

2. The continuous winding device for bead wire production according to claim 1, wherein a plurality of limiting vertical bars (9) are arranged on each limiting sleeve (8) along the circumferential direction, a limiting ring (12) is formed on each movable sleeve (11), a plurality of notches (13) are formed on the limiting ring (12) along the circumferential direction, each notch (13) corresponds to each limiting vertical bar (9) one by one, a pressure spring (10) is further coaxially sleeved on each limiting sleeve (8), and one end of the pressure spring (10) abuts against the limiting sleeve (8) and the other end abuts against the limiting ring (12).

3. The continuous winding device for bead wire production according to claim 2, wherein the locking mechanism (28) further comprises a toggle rod (44) rotatably arranged on the side wall of each mounting tube seat (29) and a sliding column (45) fixedly arranged at the end part of the toggle rod (44), each locking piece (31) is provided with a limiting sink groove (32), a limiting projection (33) is formed in the middle of the limiting sink groove (32), a slide way (35) is formed between the outer wall of the limiting projection (33) and the inner wall of the limiting sink groove (32), the sliding column (45) is in sliding fit with the slide way (35), the lowest point of the limiting sink groove (32) and the lowest point of the limiting projection (33) are not in the same straight line, the top of the limiting projection (33) is downwards recessed to form a limiting arc groove (34), and the bottom of the limiting projection (33) is outwards protruded.

4. A continuous winding device for the production of bead wires according to claim 3, characterized in that the slideway (35) is divided into a first chute (36), a first vertical chute (37), a first arc chute (38), a second chute (39), a third chute (40), a second vertical chute (41) and a fourth chute (42) in sequence.

5. The continuous rolling device for producing the bead wire according to claim 4, wherein the reciprocating mechanism (55) comprises a supporting frame (56) fixedly arranged on the frame (1), a reciprocating chute (57) formed on the supporting frame (56), a gear motor (58) fixedly arranged on the supporting frame (56), a reciprocating screw (59) coaxially fixedly connected to an output shaft of the gear motor (58), a movable support plate (60) connected with the reciprocating screw (59) in a threaded manner and in sliding fit with the reciprocating chute (57), a connecting plate (61) fixedly arranged on the movable support plate (60) and two guide wheels (62) rotationally arranged on the connecting plate (61) in a symmetrical state, wherein each guide wheel (62) is provided with a V-shaped groove (63), and the two V-shaped grooves (63) are used for allowing a wire to pass through the limit wire.

6. Continuous winding device for the production of bead wires according to claim 5, characterized in that the elastic pressing ring (24) and the limit flange (27) are provided with a plurality of abutting diagonal strips (25) in an annular shape.