CN111776856A

CN111776856A - Spinning winding machine

Info

Publication number: CN111776856A
Application number: CN202010628807.5A
Authority: CN
Inventors: 胡小丽
Original assignee: Xinghui Chemical Fiber Group Co ltd
Current assignee: Xinghui Chemical Fiber Group Co ltd
Priority date: 2020-07-01
Filing date: 2020-07-01
Publication date: 2020-10-16
Anticipated expiration: 2040-07-01
Also published as: CN111776856B

Abstract

The application relates to a spinning winding machine, which comprises a bracket, wherein a carding mechanism, a cycloid mechanism and an automatic winding mechanism are sequentially arranged on the bracket along the moving direction of yarns; the automatic winding mechanism comprises a rotating disc which is rotatably connected with a support, a transposition driving mechanism for driving the rotating disc to rotate is arranged on the support, a main winding drum and a standby winding drum are rotatably connected onto the rotating disc, a main winding drum driving mechanism for driving the main winding drum to rotate is arranged on the rotating disc, and a driving mechanism for driving the standby winding drum to rotate is arranged on the rotating disc; the yarn winding device is characterized in that a cutting mechanism for cutting yarns is arranged on the support, and a pushing mechanism for pushing the winding reel out of the automatic winding mechanism is arranged on the support. This application has the effect that improves a roll silk efficiency.

Description

Spinning winding machine

Technical Field

The application relates to the field of spinning equipment, in particular to a spinning winding machine.

Background

The prior fiber yarn production process comprises the steps of heating and extruding fiber raw materials into fiber yarns by an extruder, conveying and cooling the fiber yarns, and winding the fiber yarns by a winding machine.

The related winding machine comprises a support, a winding drum and a winding reel, wherein the winding drum is rotatably connected to the support and sleeved on the winding drum, and a winding driving mechanism for driving the winding drum to rotate is arranged on the support.

In view of the above-mentioned related art, the inventor believes that the winding of a single winding reel is required to be stopped and replaced after the winding is completed, and then the winding is restarted, and the winding has the defect of slow winding efficiency.

Disclosure of Invention

In order to improve the yarn winding efficiency, the application provides a spinning winding machine.

The spinning winding machine provided by the application adopts the following technical scheme: a spinning winding machine comprises a support, wherein a carding mechanism, a cycloid mechanism and an automatic winding mechanism are sequentially arranged on the support along the moving direction of yarns;

the automatic winding mechanism comprises a rotating disc which is rotatably connected with a support, a transposition driving mechanism for driving the rotating disc to rotate is arranged on the support, a main winding drum and a standby winding drum are rotatably connected onto the rotating disc, a main winding drum driving mechanism for driving the main winding drum to rotate is arranged on the rotating disc, and a driving mechanism for driving the standby winding drum to rotate is arranged on the rotating disc;

the yarn winding device is characterized in that a cutting mechanism for cutting yarns is arranged on the support, and a pushing mechanism for pushing the winding reel out of the automatic winding mechanism is arranged on the support.

By adopting the technical scheme, the winding drums with adhesive tapes adhered on the surfaces are sleeved on the main winding drum and the standby winding drum, the yarn is adhered on the adhesive surface of the winding drum on the main winding drum, and then the main winding drum is driven to rotate by the main winding driving mechanism, so that the yarn is wound on the main winding drum; after the coiling of the spool yarn on the main reel is accomplished, rotate and make the main reel rotate downwards, it rotates upwards to be equipped with the reel, thereby make the main reel with be equipped with when the replacement position between the reel, the yarn follows the main reel and moves down, make to be equipped with the reel and take and put on the yarn, and then make the yarn be stained with on being equipped with the spool on the reel, at this moment, through the shutdown mechanism with the main reel with be equipped with the yarn between the reel and cut off, then it can realize the spiral function to rotate to be equipped with the reel, thereby realize automatic switch and need not shut down, thereby production efficiency has been guaranteed.

Preferably, the cutting mechanism comprises a cutting plate which is rotatably connected to the support, the cross section of the cutting plate is arc-shaped, a cutting knife is arranged on the cutting plate far away from the rotating axis of the cutting plate, and a cutting driving mechanism for driving the cutting plate to rotate is arranged on the support.

By adopting the technical scheme, the cutting-off plate is driven to rotate only through the cutting-off driving mechanism, so that the cutting-off knife moves between the main winding drum and the standby winding drum, yarns jumping between the main winding drum and the standby winding drum are cut off, the phenomenon that the winding drum which is wound with the yarns is reversely off-line due to the fact that the yarns are not broken after the relative position between the main winding drum and the standby winding drum is changed is avoided, the yarn cutting process which can be manually cut is automatically saved, production efficiency is improved, meanwhile, the yarns are scratched or cut off when the cutting-off plate touches the yarns on the winding drum due to the arc-shaped arrangement, and the quality of the yarns is guaranteed.

Preferably, the pushing mechanism comprises a pushing guide rod arranged on the bracket, the pushing guide rod is connected with a pushing plate in a sliding manner, and the bracket is provided with a pushing driving mechanism for driving the pushing plate to slide.

By adopting the technical scheme, the method has the advantages that,

preferably, the carding mechanism comprises a main carding roller and an auxiliary carding roller which are rotatably connected to the top of the support, the main carding roller and the auxiliary carding roller are both provided with a plurality of carding grooves, a carding block is fixed on the support between the main carding roller and the auxiliary carding roller, and the carding block is provided with a plurality of through grooves for yarns to pass through.

Through adopting above-mentioned technical scheme for extrude the back from the top extruder on the yarn, twine respectively in the branch comb groove on main carding roller, then put in the carding groove of vice carding roller after passing respectively in the logical groove on the carding piece, thereby prevent that the yarn from twineing together because of the pine.

Preferably, the cycloid mechanism comprises a guide groove arranged on the support, a swinging plate is connected in the guide groove in a sliding manner, a cycloid driving mechanism for driving the swinging plate to slide back and forth is arranged on the support, and a plurality of binding rings for yarns to pass through are arranged on the swinging plate.

Through adopting above-mentioned technical scheme, thereby the cycloid driving machine drives the swing board and makes a round trip to slide along the guide way and make the intra-annular yarn of bunch on the swing board swing along with the swing board together to the realization is that the yarn is twined around the certain width direction of a coiling section of thick bamboo, has guaranteed winding homogeneity.

Preferably, the support side is provided with automatic gluing mechanism, automatic gluing mechanism includes the rubberizing frame, be provided with the horizontally slide rail on the rubberizing frame, sliding connection has the plummer on the slide rail, be provided with the gliding section of thick bamboo actuating mechanism of inserting of drive plummer on the rubberizing frame, it is connected with a rubber roll section of thick bamboo to rotate on the plummer, it rolls up rubber roll section of thick bamboo pivoted and glues actuating mechanism to be provided with the drive on the plummer, it is connected with a rubber belt section of thick bamboo to rotate on the rubberizing frame of rubber roll section of thick bamboo top, be provided with the moulding mechanism and be used for cutting off the shearing subassembly of sticky tape on the rubberizing frame between a rubber belt section of thick bamboo and the rubber roll.

Through adopting above-mentioned technical scheme, the sticky tape on the sticky tape section of thick bamboo has the face of glue to paste on the spool on the rubber roll section of thick bamboo, thereby makes the rubber roll section of thick bamboo rotate to keeping away from sticky tape section of thick bamboo direction simultaneously and make the sticky tape not have the one side laminating on the spool, thereby has the gluey one side to be located and keep away from spool one side and be convenient for the yarn and be stained with and attach on the spool. When the winding reel is in self-transmission, the winding reel on the rubber winding reel is driven to move forwards by the inserting reel driving mechanism, so that the rubber belt is spirally wound on the rubber winding reel, the effect of automatically winding the rubber on the winding reel is achieved, and the production efficiency is improved; after the adhesive is rolled up, the adhesive tape is cut off by the cutting assembly.

Preferably, the moulding mechanism is including rotating the moulding pole of connecting on the rubberizing, be provided with drive moulding pole pivoted moulding actuating mechanism on the rubberizing frame, be provided with the spacing groove that supplies the sticky tape to pass on the moulding pole.

Through adopting above-mentioned technical scheme, pass the spacing groove with the sticky tape, play limiting displacement to the sticky tape, prevent that the sticky tape from flying in disorder, and can not paste on the reel, the sticky tape that simultaneously the moulding-press actuating mechanism drove in the spacing groove is to the laminating of reel to realize the process of automatic rubberizing, thereby improve and paste efficiency.

Preferably, the limiting groove is rotatably connected with a rotating cylinder for the adhesive tape to be attached without an adhesive surface, the side limiting groove of the rotating cylinder is rotatably connected with a tooth cylinder, the rotating axis of the tooth cylinder is parallel to that of the rotating cylinder, and a plurality of protruding teeth are uniformly arranged on the side wall of the tooth cylinder on the support along the circumferential direction of the tooth cylinder.

Through adopting above-mentioned technical scheme, when passing of sticky tape and rotating between a section of thick bamboo and the tooth section of thick bamboo, the no sticky surface laminating of sticky tape has the sticky surface towards the tooth section of thick bamboo on rotating a section of thick bamboo for when rolling up a rubber section of thick bamboo and rotating, the sticky tape laminating does not influence the sticky tape and removes on rotating a section of thick bamboo, and when the sticky tape was cut off, the sticky tape was not stained with the binding power and is stained with and follow the tooth section of thick bamboo and remove and can not drop on the tooth section of thick bamboo, so that follow tooth section of thick bamboo pressfitting and be stained.

Preferably, the central axis of the rubber winding drum and the central rotating shaft of the standby winding drum are on the same straight line, and a pushing mechanism for pushing the winding drum out is arranged on the bearing table.

Through adopting above-mentioned technical scheme, the central axis of a roll packing element and the central pivot of being equipped with the reel are on the collinear for a roll packing element is inserting a section of thick bamboo mechanism drive down to being equipped with the reel direction motion, thereby be convenient for push mechanism directly with the reel of coiling the good sticky tape directly push out and the cover is inserted on being rolled up the reel from a roll packing element, thereby reach the effect of initiatively installing the reel, and then guaranteed production efficiency.

Preferably, the pushing mechanism comprises a pushing sleeve which is sleeved on the rubber winding drum in a sliding manner, and a pushing driving mechanism for driving the pushing sleeve is arranged on the bearing plate.

Through adopting above-mentioned technical scheme, push into the spool that the sticky tape has been twined through pushing mechanism and push into on being equipped with the reel to the coiling is prepared for, thereby production efficiency has been improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the automatic winding mechanism realizes the replacement of the winding reel without stopping the machine, thereby ensuring the production efficiency;

2. the automatic adhesive tape winding mechanism achieves the effect of automatically winding the adhesive tape on the winding reel, and therefore production efficiency is guaranteed.

Drawings

Fig. 1 is a schematic view of the overall structure of the present embodiment.

Fig. 2 is a schematic view of a portion of the automatic wire winding mechanism according to the present embodiment.

FIG. 3 is a schematic view of the yarn routing in this embodiment.

Fig. 4 is a schematic view of the structure of the holder according to this embodiment.

Fig. 5 is a schematic view of the push-out mechanism in this embodiment.

Fig. 6 is a schematic view of the automatic glue applying mechanism in the present embodiment.

Fig. 7 is an enlarged view of a portion a of fig. 6.

Description of reference numerals: 1. a support; 2. a carding mechanism; 3. a cycloid mechanism; 4. an automatic wire winding mechanism; 5. a cutting mechanism; 6. a push-out mechanism; 7. an automatic gluing mechanism; 8. a main carding roller; 9. a secondary carding roller; 10. a combing groove; 11. carding blocks; 12. a through hole; 13. a correction roller; 14. a guide groove; 15. a swing plate; 16. a wire binding ring; 17. a cycloid drive mechanism; 18. rotating the disc; 19. a transposition driving mechanism; 20. a main reel; 21. preparing a winding drum; 22. a primary roll drive mechanism; 23. a backup roll drive mechanism; 24. a secondary reel drive mechanism; 25. cutting off the plate; 26. a cutting knife; 27. a cut-off drive mechanism; 28. pushing out the guide rod; 29. pushing out the plate; 30. a push-out drive mechanism; 31. an avoidance groove; 32. gluing a frame; 33. a slide rail; 34. a bearing table; 35. an insertion cylinder driving mechanism; 36. rolling a rubber cylinder; 37. a roll-up drive mechanism; 38. a tape cartridge; 39. a glue pressing mechanism; 40. pressing a glue rod; 41. a glue pressing driving mechanism; 42. a limiting groove; 43. a rotating cylinder; 44. a gear cylinder; 45. a protruding tooth; 46. a cutter; 47. pushing the plate; 48. pushing in the driving mechanism.

Detailed Description

The embodiment of the application discloses a spinning winding machine. Referring to fig. 1, the spinning winding machine includes a frame 1, and a carding mechanism 2, a cycloid mechanism 3, an automatic winding mechanism 4, a cutting mechanism 5, and a pushing mechanism 6 are sequentially provided on the frame 1 in a yarn transporting direction. The side of the bracket 1 is provided with an automatic gluing mechanism 7.

Referring to fig. 1 and 2, the carding mechanism 2 includes a main carding roller 8 and a sub carding roller 9 rotatably coupled to the top of the frame 1. The main carding roller 8 and the auxiliary carding roller 9 are both provided with a plurality of carding grooves 10 for yarns to pass through. A carding block 11 is fixed on the bracket 1 between the main carding roller 8 and the auxiliary carding roller 9. A plurality of through grooves for yarns to pass through are formed in the carding block 11, and the through grooves are arranged at equal intervals along the length direction of the carding block 11. A plurality of horizontal correcting rollers 13 are rotatably connected on the bracket 1 below the main carding roller 8 and the auxiliary carding roller 9. The yarns are extruded from an extruder above, and then are respectively wound in the carding grooves 10 on the main carding roller 8, and then respectively pass through the through grooves on the carding blocks 11 and then are overlapped in the carding grooves 10 of the auxiliary carding roller 9. So that the yarn is tightened in an S-shape as a whole, the yarn is wound around different correcting rollers 13 so that the yarn is directed vertically downward, as shown in fig. 3. Thereby preventing the yarn from being twisted together due to excessive looseness.

Referring to fig. 2 and 4, the cycloid mechanism 3 includes a guide groove 14 provided below the correction roller 13, and the guide groove 14 is provided on the carrier 1 along the length direction of the carrier 1. A swing plate 15 is slidably connected to the guide groove 14, and a plurality of yarn tying rings 16 through which yarns pass are provided on the swing plate 15. The wire binding rings 16 are provided at equal intervals in the longitudinal direction of the swinging plate 15. The bracket 1 is provided with a cycloid drive mechanism 17 for driving the swinging plate 15 to slide back and forth along the guide groove 14. The cycloid driving mechanism 17 is a servo motor, and the servo motor drives the guide block to slide back and forth through a crank rocker mechanism. So that the yarn follows the loop 16 to oscillate back and forth to achieve the effect of winding a certain width.

Referring to fig. 4, the automatic winding mechanism 4 includes a vertical rotating disc 18 rotatably connected below the cycloid mechanism 3, a transposition driving mechanism 19 for driving the rotating disc 18 to rotate is disposed on the bracket 1, the transposition driving mechanism 19 is a servo motor, and the servo motor drives the rotating disc 18 to rotate through a gear set. The rotating disc 18 is rotatably connected with a main winding drum 20 and a standby winding drum 21 for sleeving and positioning the winding drum. The main reel 20 and the standby reel 21 are symmetrically arranged along the radial direction of the rotating disk 18, and both the main reel 20 and the standby reel 21 are arranged along the direction of the rotating axis of the rotating disk 18. A main reel driving mechanism 22 for driving the main reel 20 to rotate is fixed to the rotary disk 18, and a sub reel driving mechanism 24 for driving the auxiliary reel 21 to rotate is fixed to the rotary disk 18. The primary roll drive mechanism 22 and the secondary roll drive mechanism 24 are each servo motors fixed to the turn disc 18. The winding reels with adhesive tapes on the surfaces are sleeved on the main winding drum 20 and the standby winding drum 21, yarns are adhered to the winding reels on the main winding drum 20 on the adhesive surfaces, and then the main winding drum 20 is driven to rotate through the main winding driving mechanism 22, so that the yarns are wound on the main winding drum 20. After the spool yarn on main reel 20 was convoluteed and is accomplished, rotate and make main reel 20 rotate downwards, be equipped with reel 21 and upwards rotate, thereby when making main reel 20 and being equipped with the replacement position between the reel 21, the yarn follows main reel 20 and moves downwards, make and be equipped with reel 21 and take on the yarn, and then make the yarn be stained with on the spool of being equipped with on reel 21, only need rotate this moment and be equipped with reel 21 and can realize the spiral function, thereby realize automatic switch and need not shut down, thereby production efficiency has been guaranteed.

Referring to fig. 4 and 5, cutting mechanism 5 is provided on the side of backup roll 21. The cutting mechanism 5 comprises a cutting plate 25 which is rotationally connected to the bracket 1, and the cross section of the cutting plate is arranged in an arc shape. The cutting plate is disposed along the longitudinal direction of the standby bobbin 21. The cutting plate 25 is provided at one end thereof remote from the rotation axis thereof with a cutting blade 26 inclined downward toward the standby reel 21. The holder 1 is provided with a cutting drive mechanism 27 for driving the cutting plate 25 to rotate. The cut-off determining mechanism is a servo motor fixed on the bracket 1. Cut off actuating mechanism 27 and drive the cutting board 25 and rotate, and then make the cutting off cutter 26 to main reel 20 with be equipped with between the reel 21 and remove to make the yarn of jumping between main reel 20 and being equipped with the reel 21 cut off, thereby prevent to change after the relative position between main reel 20 and the being equipped with reel 21, because of the yarn does not break and influence the reel reversal of having twined the yarn and take off the line, but from the while save the trimming process of using manpower, thereby improved production efficiency.

Referring to fig. 4 and 5, the push-out mechanism 6 is provided on the carriage 1 where the standby reel 21 is pulled away from the cutting mechanism 5. The pushing mechanism 6 comprises a pushing guide rod 28 fixed on the support 1 and arranged along the length direction of the standby winding drum 21, a pushing plate 29 is sleeved on the pushing guide rod 28 in a sliding mode, and a pushing driving mechanism 30 for driving the pushing plate 29 to slide along the pushing guide rod 28 is arranged on the support 1. The pushing-out driving mechanism 30 is a servo motor fixed on the bracket 1, and the servo motor drives the pushing-out plate 29 to slide back and forth along the pushing-out guide rod 28 through a screw rod. The push-out plate 29 is provided with an avoiding groove 31 near one end of the stock roll to prevent collision when the main roll 20 and the stock roll 21 rotate following rotation. The spool wound with yarn is taken off from the main reel 20 or the standby reel 21 by the push-out mechanism 6 so as to be convenient for installing a new spool, thereby achieving the effect of being convenient for pushing out and improving the production efficiency.

Referring to fig. 6 and 7, the automatic gluing mechanism 7 comprises a gluing frame 32, wherein a horizontal sliding rail 33 is arranged on the gluing frame 32, and the sliding rail 33 is arranged along the length direction of the bracket 1. The slide rail 33 is connected with a bearing platform 34 in a sliding way, and the support 1 is provided with an inserting cylinder driving mechanism 35 for driving the bearing platform 34 to slide. The cartridge driving mechanism 35 is a servo motor, and the servo motor drives the bearing table 34 to slide along the slide rail 33 through a screw rod. The bearing table 34 is rotatably connected with a rubber rolling cylinder 36, the rubber rolling cylinder 36 is arranged along the length direction of the slide rail 33, and the central axis of the rubber rolling cylinder 36 and the central axis of the standby winding drum 21 are on the same side. A glue rolling driving mechanism 37 for driving the glue rolling cylinder 36 to rotate is fixed on the bearing table 34, the glue rolling driving mechanism 37 is a servo motor, and the servo motor directly drives the glue rolling cylinder 36 to rotate. A tape cylinder 38 is rotatably connected to the upper glue shelf 32 above the side of the glue rolling cylinder 36. The adhesive tape on the adhesive tape drum 38 has an adhesive surface to be adhered to the winding drum on the adhesive tape winding drum 36, meanwhile, the adhesive tape winding drum 36 rotates towards the direction away from the adhesive tape drum 38, so that the adhesive tape has no adhesive surface to be adhered to the winding drum, and the adhesive surface is located on one side away from the winding drum, so that the yarn can be conveniently adhered to the winding drum. When the winding reel is self-transmitting, the winding reel on the rubber winding reel 36 is driven by the inserting reel driving mechanism 35 to move forwards, so that the adhesive tape is spirally wound on the rubber winding reel 36, the automatic rubber winding effect on the winding reel is achieved, and the production efficiency is improved.

Referring to fig. 6 and 7, a glue pressing mechanism 39 is arranged on the glue applying frame 32 between the tape cylinder 38 and the glue rolling cylinder 36, the glue pressing mechanism 39 comprises a glue pressing rod 40 rotatably connected to the glue applying frame 32, the cross section of the glue pressing rod 40 is arranged in an arc shape, and a limiting groove 42 for a tape to pass through is arranged on one side of the glue pressing rod 40, which is far away from the rotation axis of the glue pressing rod. The gluing frame 32 is provided with a gluing driving mechanism 41 for driving the gluing plate to rotate. The glue pressing driving mechanism 41 is a servo motor, and the servo motor directly drives the glue pressing rod 40 to rotate and attach to the glue winding drum 36. A rotating cylinder 43 is rotationally connected in the limiting groove 42, the rotating axis of the rotating cylinder 43 is consistent with the rotating axis of the glue pressing rod 40, a tooth cylinder 44 is rotationally connected on one side, away from the rotating axis of the glue pressing rod 40, of the rotating cylinder 43, and the rotating axis of the tooth cylinder 44 is parallel to the rotating axis of the rotating cylinder 43. A plurality of column-shaped protruding teeth 45 are uniformly arranged on the side wall of the gear cylinder 44 along the axial circumference of the gear cylinder 44. When the adhesive tape passes through the space between the rotating cylinder 43 and the tooth cylinder 44, the adhesive-free surface of the adhesive tape is attached to the rotating cylinder 43, and the adhesive surface faces the tooth cylinder 44, so that when the adhesive tape winding cylinder 36 rotates, the adhesive tape is attached to the rotating cylinder 43 without influencing the movement of the adhesive tape, and when the adhesive tape is cut off, the adhesive tape is attached to the tooth cylinder 44 without binding force and moves along with the tooth cylinder 44 without falling off, so that the adhesive tape is attached to the winding cylinder on the adhesive tape winding cylinder 36 along with the tooth cylinder 44 in a pressing manner. Thereby saving personnel operation and further improving the production efficiency. Meanwhile, one end of the glue pressing rod 40, which is far away from the rotation axis of the glue pressing rod, is provided with a cutting assembly which inclines downwards, the cutting assembly is a cutting knife 46 which is rotatably connected to the glue pressing rod 40, and the rotation axis of the cutting knife 46 is parallel to the rotation axis of the gear cylinder 44. A torsion spring is provided between the cutter 46 and the glue bar 40 so that the cutter 46 is inclined downward in a suspended state. When the cutter 46 presses the adhesive on the winding reel 36 following the pressing rod, the cutter 46 first contacts the adhesive tape so that the adhesive tape is cut. When the adhesive tape needs to be pressed, after the cutter 46 contacts the winding reel, the adhesive pressing rod 40 continues to move downwards, the cutter 46 rotates and is attached between the adhesive pressing rod 40 and the winding reel, and the adhesive tape on the rotating drum 43 is tightly pressed and attached on the winding reel to realize the gluing process. Thereby achieving the automatic gluing and cutting processes and further improving the production efficiency.

Referring to fig. 1, a push plate 47 is slidably sleeved on the bearing table 34, a push driving mechanism 48 for driving the push plate 47 to slide is fixed on the bearing plate, the push driving mechanism 48 is a servo motor, and the servo motor drives the push plate to slide through a screw rod. Because the central axis of the tape winding drum 36 and the central axis of the standby winding drum 21 are on the same straight line, after the tape winding of the winding drum is completed, the tape winding drum 36 is abutted on the standby winding drum, and the winding drum wound with the adhesive tape is pushed into the standby winding drum 21 through the pushing-in mechanism so as to be wound with the tape for standby winding, so that the production efficiency is improved.

The implementation principle of the spinning winding machine in the embodiment of the application is as follows: the adhesive tape on the adhesive tape drum 38 has an adhesive surface to be adhered to the winding drum on the adhesive tape winding drum 36, meanwhile, the adhesive tape winding drum 36 rotates towards the direction away from the adhesive tape drum 38, so that the adhesive tape has no adhesive surface to be adhered to the winding drum, and the adhesive surface is located on one side away from the winding drum, so that the yarn can be conveniently adhered to the winding drum. When the winding reel is in self-transmission, the winding reel on the rubber winding reel 36 is driven to move forwards by the inserting reel driving mechanism 35, so that the adhesive tape is spirally wound on the rubber winding reel 36, the effect of automatically winding the adhesive tape on the winding reel is achieved, and the production efficiency is improved; after the adhesive is rolled up, the adhesive tape is cut off by the cutting assembly. The reel on which the adhesive tape has been wound is then pushed onto the standby reel 21 by the pushing-in mechanism. The yarn is pasted on the rubber surface of the winding reel on the main winding reel 20, and then the main winding reel 20 is driven to rotate by the main winding driving mechanism 22, so that the yarn is wound on the main winding reel 20; after the spool yarn on main reel 20 is convoluteed and is accomplished, rotate and make main reel 20 rotate downwards, it rotates upwards to be equipped with reel 21, thereby when making main reel 20 and being equipped with the replacement position between the reel 21, the yarn follows main reel 20 and moves downwards, it puts on the yarn to make to be equipped with reel 21, and then make the yarn be stained with on the spool of being equipped with on reel 21, at this moment, cut off mechanism 5 cuts off main reel 20 and the yarn that is equipped with between the reel 21, then rotate and be equipped with reel 21 and can realize the spiral function, thereby realize automatic switch and need not shut down, thereby production efficiency has been guaranteed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A spinning coil winder, comprising a support (1), characterized in that: the carding mechanism (2), the cycloid mechanism (3) and the automatic winding mechanism (4) are sequentially arranged on the bracket (1) along the moving direction of the yarn;

the automatic winding mechanism (4) comprises a rotating disc (18) rotatably connected to a support (1), a transposition driving mechanism (19) for driving the rotating disc (18) to rotate is arranged on the support (1), a main winding drum (20) and a standby winding drum (21) are rotatably connected to the rotating disc (18), a main winding drum driving mechanism (22) for driving the main winding drum (20) to rotate is arranged on the rotating disc (18), and a driving mechanism for driving the standby winding drum (21) to rotate is arranged on the rotating disc (18);

the yarn winding device is characterized in that a cutting mechanism (5) for cutting yarns is arranged on the support (1), and a pushing-out mechanism (6) which is used for pushing the winding reel out of the automatic winding mechanism (4) is arranged on the support (1).

2. The spinning beam winder of claim 1, further comprising: cutting off mechanism (5) are including rotating cut-off board (25) of connection on support (1), the cross section of cut-off board (25) is arc, cut-off board (25) are kept away from cutting off board axis of rotation and are provided with cutting off cutter (26), be provided with drive cut-off board (25) pivoted on support (1) and cut off actuating mechanism (27).

3. The spinning beam winder of claim 1, further comprising: the pushing mechanism (6) comprises a pushing guide rod (28) arranged on the support (1), a pushing plate (29) is connected to the pushing guide rod (28) in a sliding mode, and a pushing driving mechanism (30) for driving the pushing plate (29) to slide is arranged on the support (1).

4. The spinning beam winder of claim 1, further comprising: the carding mechanism comprises a main carding roller and an auxiliary carding roller (9) which are rotatably connected to the top of a support (1), a plurality of carding grooves (10) are formed in the main carding roller (8) and the auxiliary carding roller, carding blocks (11) are fixed on the support (1) between the main carding roller (8) and the auxiliary carding roller (9), and a plurality of through grooves for yarns to pass through are formed in the carding blocks (11).

5. The spinning beam winder of claim 1, further comprising: the yarn guide device is characterized in that the cycloid mechanism (3) comprises a guide groove (14) arranged on the support (1), a swinging plate (15) is connected in the guide groove (14) in a sliding mode, a cycloid driving mechanism (17) for driving the swinging plate (15) to slide back and forth is arranged on the support (1), and a plurality of binding rings for yarns to pass through are arranged on the swinging plate (15).

6. The spinning beam winder of claim 1, further comprising: support (1) side is provided with automatic gluing mechanism (7), automatic gluing mechanism (7) are including rubberizing frame (32), be provided with horizontally slide rail (33) on rubberizing frame (32), sliding connection has plummer (34) on slide rail (33), be provided with on rubberizing frame (32) drive plummer (34) gliding section of thick bamboo actuating mechanism (35) of inserting of drive plummer (34), it has a roll of packing element (36) to rotate on plummer (34), be provided with on plummer (34) and drive a roll of packing element (36) pivoted and glue actuating mechanism (37), it has a section of thick bamboo of sticky tape (38) to rotate on rubberizing frame (32) of roll of packing element (36) top to be connected with, be provided with on rubberizing frame (32) between a section of thick bamboo of sticky tape (38) and a roll of packing element (36) and be used for cutting off the shearing subassembly of sticky tape.

7. The spinning beam winder of claim 1, further comprising: the glue pressing mechanism (39) comprises a glue pressing rod (40) rotatably connected to the glue applying frame, a drive glue pressing rod (40) rotating glue pressing drive mechanism (41) is arranged on the glue applying frame (32), and a limiting groove (42) for the adhesive tape to pass through is formed in the glue pressing rod (40).

8. The spinning beam winder of claim 1, further comprising: spacing groove (42) internal rotation is connected with and supplies a rotation section of thick bamboo (43) that the sticky tape does not have the laminating of gluey face, the side spacing groove (42) internal rotation of a rotation section of thick bamboo (43) is connected with a tooth section of thick bamboo (44), the axis of rotation of a tooth section of thick bamboo (44) is parallel with the axis of rotation of a rotation section of thick bamboo (43), evenly be provided with a plurality of dogteeth (45) along tooth section of thick bamboo (44) circumference on the lateral wall of tooth section of thick bamboo (44) on support (1).

9. The spinning beam winder of claim 1, further comprising: the central axis of the rubber winding drum (36) and the central rotating shaft of the standby winding drum (21) are on the same straight line, and a pushing mechanism for pushing the winding drum out is arranged on the bearing table (34).

10. The spinning beam winder of claim 9, further comprising: the pushing mechanism comprises a pushing sleeve which is sleeved on the rubber winding drum (36) in a sliding mode, and a pushing driving mechanism (48) for driving the pushing sleeve is arranged on the bearing plate.