CN113321060A - Self-adjusting winding machine for winding textile thread material and using method thereof - Google Patents

Abstract

The invention discloses a self-adjusting winder for winding textile yarns and a using method thereof, and particularly relates to the field of textile production. Above-mentioned scheme, this from mode coiler adopts novel wire structure, utilizes mutually supporting of drive screw and wire slide to carry out the reciprocal direction of receiving the line at the in-process of yarn rolling, prevents that the yarn cross from piling up yarn evenly distributed to the surface of wind-up roll, and utilizes the wire guide to carry out the yarn direction, further prevents the wire jumper effect of yarn, improves this practicality of receiving the line equipment.

Description

Self-adjusting winding machine for winding textile thread material and using method thereof

Technical Field

The invention relates to the technical field of textile production, in particular to a self-adjusting winder for winding textile yarns and a using method thereof.

Background

The dyeing of the textile is generally carried out after the textile is woven, although the dyed textile has bright color, the adhesion of the dye liquor is poor, thereby affecting the dyeing quality of the textile, therefore, when producing blended textile, interweaved textile and fancy yarn, the dye and the fiber are physically or chemically combined by a dyeing box, the yarn is firstly dyed, thereby ensuring that the textile has uniform color and luster and good dyeing fastness, the yarn needs to be wound in the dyeing process, and a winding machine needs to be used when the yarn is wound.

With the development of the industrial process in China, the yarn winding gradually becomes automatic, the yarn winding speed is increased more and more, and the yarn winding efficiency is greatly improved. However, when the yarns are wound, the yarns are wound on the same position in a centralized manner, so that the yarns are wound and stacked together in a crossed manner, cannot be adjusted by themselves, and are inconvenient for subsequent textile processing; can adopt the leading wheel to assist when the yarn carries out the rolling, the yarn takes place the wire jumper condition easily when removing, leads to the yarn rolling to go wrong.

In addition, the existing winder for winding textile yarns is too simple in structure and single in function, the winder cannot shift and regulate the speed in the yarn winding process, the winding speed cannot be controlled according to actual needs in the process of dyeing and winding yarns for multiple times, the actual dyeing effect can be influenced by the too high and too low winding speeds, and certain defects exist.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide a self-adjusting winder for winding textile yarns and a method for using the same, wherein a driving screw (7) and a guide slide (8) are matched with each other to perform reciprocating guiding of winding during yarn winding, so as to uniformly distribute yarns on the surface of a winding roller (3) to prevent yarns from being stacked in a crossed manner, thereby solving the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme that the self-adjusting winder for winding the textile thread material comprises a winding equipment seat, wherein a winding mounting frame and a thread guide seat are fixedly installed on the top surface of the winding equipment seat, a winding roller is rotatably installed on the inner side of the winding mounting frame, an adjustable driving mechanism is fixedly installed on one side of the winding mounting frame, the output end of the adjustable driving mechanism is in transmission connection with the end part of the winding roller, a reciprocating thread guide slide rail is fixedly installed on the inner side of the thread guide seat, a thread guide slide seat is slidably installed on the bottom surface of the reciprocating thread guide slide rail, a thread guide slide seat positioned below the reciprocating thread guide slide rail is rotatably installed on the inner side of the thread guide seat, and the bottom end of the thread guide slide seat is in sliding butt joint with the surface of a driving screw rod;

the adjustable driving mechanism comprises a driving box, a winding driving motor is fixedly mounted on the bottom surface of the driving box, a control rod is slidably mounted on the inner side of the driving box, one end of the control rod is fixedly connected with a bearing seat, the output end of the winding driving motor is fixedly connected with a variable-speed transmission gear positioned in the driving box, a transmission shaft lever is fixedly connected and sleeved on the inner side of the bearing seat, the other end of the transmission shaft lever extends to the outer side of the driving box and is provided with a spline guide sleeve, a variable-speed bevel gear is fixedly sleeved on the outer side of the transmission shaft lever, and the variable-speed bevel gear is meshed with the surface of the variable-speed transmission gear;

the spline guide sleeve comprises a plurality of meshing prismatic teeth and a transmission sleeve, the number of the meshing prismatic teeth is a plurality of the meshing prismatic teeth and the meshing prismatic teeth are circumferentially distributed on the outer side of the transmission shaft lever, the transmission sleeve is sleeved on the end part of the transmission shaft lever in a sliding mode, a plurality of sliding chutes matched with the meshing prismatic teeth are formed in the inner side of the spline guide sleeve, and one side of the transmission sleeve is fixedly connected with the side face of the winding roller;

reciprocating wire slide rail includes slide rail and pulley, pulley slidable mounting is in the inboard of slide rail, the top surface fixed mounting of pulley has the supporting seat, contact electrode is installed in the both ends embedding of slide rail, contact electrode's tip electricity is connected with the controller, drive screw's tip transmission is connected with driving motor, the output of controller and driving motor's input electric connection.

Preferably, the reciprocating lead slide rail, the driving screw and the lead slide seat are positioned on one side of the winding roller and are positioned on the same horizontal plane with the central line of the winding roller, a lead hole is formed in the surface of the lead slide seat, a plurality of balls are embedded and mounted on the inner side of the lead hole, and the balls are slidably mounted on the inner side of the lead hole.

Preferably, the bottom surface fixed mounting of wire slide has reciprocal conducting bar, drive screw is helical structure, reciprocal conducting bar cup joints in drive screw's helicla flute, the outside of reciprocal conducting bar and drive screw's surface slip butt.

Preferably, a through hole is formed in one side of the driving box, the control rod is sleeved in the through hole in a sliding mode, the other end of the control rod extends to the outer side of the driving box and is fixedly connected with a control button, and the control rod and the transmission shaft rod are arranged horizontally.

Preferably, the number of the speed change bevel teeth is two, the top surface of the speed change transmission gear is provided with an outer bevel tooth and an inner bevel tooth, the distance between the two speed change bevel teeth is larger than the distance between the outer bevel tooth and the inner bevel tooth, and the two speed change bevel teeth are respectively matched with the outer bevel tooth and the inner bevel tooth.

Preferably, the contact electrode is composed of an insulating base and two electrode elastic pieces, the two electrode elastic pieces are respectively and electrically connected with two levels of the input end of the controller, and the contact electrode and the pulley are located on the same horizontal plane.

A use method of a self-adjusting winding machine for winding textile yarns comprises the following steps:

s1: firstly, a winding roller is arranged on the inner side of a winding mounting frame, a transmission sleeve and a rotating shaft of the winding roller are connected through a coupler, one end of a yarn to be wound penetrates through a wire guide hole and is fixedly connected to the surface of the winding roller, and a control rod is pushed to enable variable-speed bevel teeth to be meshed with outer bevel teeth of the surface of the variable-speed transmission teeth;

s2: starting an equipment power supply, driving a variable-speed transmission gear to rotate at a constant speed through a winding driving motor, driving a transmission shaft lever, a spline guide sleeve and a winding roller to rotate by utilizing the meshing transmission of an outer bevel gear and the variable-speed bevel gear so as to perform constant-speed winding, and pushing a control lever so as to drive the transmission shaft lever to move transversely when the rotating speed of the winding roller needs to be changed, wherein the variable-speed bevel gear is meshed with an inner bevel gear, so that the rotating speed of the winding roller is reduced to deal with different yarn dyeing processes;

s3: in the process of winding the yarn, a driving motor drives a driving screw to perform uniform and low-speed rotary motion, a lead sliding seat is pushed to slide along the surface of a reciprocating lead sliding rail in the process of rotating the driving screw by meshing the driving screw with a reciprocating guide bar, when the lead sliding seat slides to one end of the reciprocating lead sliding rail, a pulley is contacted with a contact electrode at one end, so that an electric signal is generated by the contact electrode and transmitted to a controller, the controller controls the change of the steering of the driving motor to enable the lead sliding seat to move to the other side, and the step is repeated to finish the reciprocating motion of the lead sliding seat;

s4: under the action of the reciprocating motion of the wire sliding seat, the yarn is wound to the surface of the winding roller through the guide of the wire guide hole, the yarn is spirally wound on the surface of the winding roller under the reciprocating guide until the yarn is completely collected, and the collected yarn collecting roller can be taken down by disassembling the winding roller.

Preferably, in step S2, when the left-side speed-changing bevel gear is engaged with the inner bevel gear, the right-side speed-changing bevel gear is separated from the outer bevel gear and located outside the speed-changing transmission gear, so as to prevent the speed-changing bevel gear from being toothed with the outer bevel gear, and the rotation speed of the transmission shaft is changed by using the difference between the tooth diameters of the outer bevel gear and the inner bevel gear.

The invention has the technical effects and advantages that:

1. in the scheme, the self-adjusting winder adopts a novel wire structure, the reciprocating guiding of winding is carried out in the process of winding the yarn by utilizing the mutual matching of the driving screw rod and the wire slide seat, the yarn is uniformly distributed on the surface of the winding roller to prevent the yarn from being crossed and stacked, and the yarn guiding is carried out by utilizing the wire guide hole, so that the wire jumping effect of the yarn is further prevented, and the practicability of the winding equipment is improved;

2. in the scheme, the self-adjusting winding machine adopts an adjustable speed type driving structure, the winding roller is driven to rotate and wind at a constant speed by utilizing the meshing transmission of the variable speed transmission gear and the variable speed bevel gear inside the adjustable driving structure, and when different yarn dyeing processing technologies are aimed at, the gear shifting and speed regulation can be carried out through the meshing transmission of the different variable speed bevel gears and the variable speed transmission gear, so that the adaptation of the yarn winding speed in each dyeing technology is ensured, and the yarn dyeing effect is improved;

3. in the scheme, the self-adjusting coiler adopts a screw type guide structure, the wire sliding seat is pushed to reciprocate by the rotation of the driving screw, the wire sliding seat can be smoothly pushed to slide in the rotating process of the driving screw, the friction and the blocking between the driving screw and the wire sliding seat are prevented, the winding of yarns and the driving screw can be effectively prevented after the spiral driving structure is contacted with the yarns, and the smooth operation of the movement of the wires is guaranteed.

Drawings

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

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic structural diagram of an adjustable driving mechanism according to the present invention;

FIG. 4 is a schematic view of a variable speed gear of the present invention;

FIG. 5 is a schematic view of the spline guide sleeve structure of the present invention;

FIG. 6 is a schematic view of the reciprocating guide rail structure of the present invention;

fig. 7 is a schematic structural diagram of a wire slider according to the present invention.

The reference signs are:

1. a winding device seat; 2. winding the mounting frame; 3. a wind-up roll; 4. an adjustable drive mechanism; 5. a wire holder; 6. a reciprocating wire slide rail; 7. a drive screw; 8. a wire slide; 41. a drive box; 42. a winding driving motor; 43. a variable speed drive gear; 44. a control lever; 45. a bearing seat; 46. a drive shaft; 47. speed change bevel gears; 48. a spline guide sleeve; 431. an outer bevel gear; 432. inner bevel teeth; 481. meshing the edge teeth; 482. a transmission sleeve; 61. a slide rail; 62. a pulley; 63. a supporting seat; 64. a contact electrode; 81. a wire guide hole; 82. and (6) reciprocating the conducting bars.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a self-adjusting winder for winding textile yarns as shown in the attached drawings 1 to 7, which comprises a winding equipment seat 1, wherein a winding mounting frame 2 and a wire seat 5 are fixedly mounted on the top surface of the winding equipment seat 1, a winding roller 3 is rotatably mounted on the inner side of the winding mounting frame 2, an adjustable driving mechanism 4 is fixedly mounted on one side of the winding mounting frame 2, the output end of the adjustable driving mechanism 4 is in transmission connection with the end part of the winding roller 3, a reciprocating wire slide rail 6 is fixedly mounted on the inner side of the wire seat 5, a wire slide seat 8 is slidably mounted on the bottom surface of the reciprocating wire slide rail 6, a wire slide seat 8 positioned below the reciprocating wire slide rail 6 is rotatably mounted on the inner side of the wire seat 5, and the bottom end of the wire slide seat 8 is in sliding contact with the surface of a driving screw 7;

the adjustable driving mechanism 4 comprises a driving box 41, a winding driving motor 42 is fixedly installed on the bottom surface of the driving box 41, a control rod 44 is slidably installed on the inner side of the driving box 41, one end of the control rod 44 is fixedly connected with a bearing seat 45, the output end of the winding driving motor 42 is fixedly connected with a variable-speed transmission gear 43 positioned in the driving box 41, a transmission shaft rod 46 is fixedly connected and sleeved on the inner side of the bearing seat 45, the other end of the transmission shaft rod 46 extends to the outer side of the driving box 41 and is provided with a spline guide sleeve 48, a variable-speed bevel gear 47 is fixedly sleeved on the outer side of the transmission shaft rod 46, and the variable-speed bevel gear 47 is meshed with the surface of the variable-speed transmission gear 43;

the spline guide sleeve 48 comprises a plurality of meshing prismatic teeth 481 and a transmission sleeve 482, the number of the meshing prismatic teeth 481 is a plurality, the meshing prismatic teeth 481 are circumferentially distributed on the outer side of the transmission shaft lever 46, the transmission sleeve 482 is slidably sleeved on the end part of the transmission shaft lever 46, a plurality of sliding grooves matched with the meshing prismatic teeth 481 are formed in the inner side of the spline guide sleeve 48, and one side of the transmission sleeve 482 is fixedly connected with the side surface of the winding roller 3;

reciprocating wire slide rail 6 includes slide rail 61 and pulley 62, and pulley 62 slidable mounting has a supporting seat 63 in the inboard of slide rail 61, and the top surface fixed mounting of pulley 62 has contact electrode 64, and contact electrode 64's both ends embedding is installed to slide rail 61, and the tip electricity of contact electrode 64 is connected with the controller, and the tip transmission of drive screw 7 is connected with driving motor, the output of controller and driving motor's input electric connection.

In this embodiment, the reciprocating wire slide rail 6, the driving screw 7 and the wire slide 8 are located at one side of the wind-up roll 3 and are located at the same horizontal plane with the central line of the wind-up roll 3, a wire guide hole 81 is formed in the surface of the wire slide 8, a plurality of balls are embedded and mounted on the inner side of the wire guide hole 81, and the balls are slidably mounted on the inner side of the wire guide hole 81.

Specifically, utilize wire guide 81 to carry out the yarn direction, further prevent the wire jumper effect of yarn, utilize inside ball to reduce the friction of yarn and wire guide 81 inner wall, avoid causing the damage to the yarn.

In this embodiment, the bottom surface of the wire sliding seat 8 is fixedly provided with the reciprocating guide bar 82, the driving screw 7 is in a spiral structure, the reciprocating guide bar 82 is sleeved in the spiral groove of the driving screw 7, the outer side of the reciprocating guide bar 82 is in sliding abutting contact with the surface of the driving screw 7, the wire sliding seat 8 can be smoothly pushed to slide in the rotating process of the driving screw 7, and the friction and the clamping between the driving screw 7 and the wire sliding seat 8 are prevented.

In this embodiment, a through hole is opened at one side of the driving box 41, the control rod 44 is slidably sleeved in the through hole, the other end of the control rod 44 extends to the outside of the driving box 41 and is fixedly connected with a control button, and the control rod 44 and the transmission shaft rod 46 are horizontally arranged.

Further, the number of the variable-speed bevel teeth 47 is two, the top surface of the variable-speed transmission teeth 43 is provided with outer bevel teeth 431 and inner bevel teeth 432, the distance between the two variable-speed bevel teeth 47 is larger than the distance between the outer bevel teeth 431 and the inner bevel teeth 432, and the two variable-speed bevel teeth 47 are respectively matched with the outer bevel teeth 431 and the inner bevel teeth 432.

Specifically, the control rod 44 is pushed to drive the transmission shaft rod 46 to move transversely, the variable-speed bevel teeth 47 are meshed with the inner bevel teeth 432, and when the variable-speed bevel teeth 47 on the left side are meshed with the inner bevel teeth 432, the variable-speed bevel teeth 47 on the right side are separated from the outer bevel teeth 431 and are positioned on the outer side of the variable-speed transmission teeth 43, so that the rotating speed of the winding roller 3 is reduced to deal with different yarn dyeing processes.

In this embodiment, the contact electrodes 64 are composed of an insulating base and two electrode spring pieces, the two electrode spring pieces are respectively electrically connected with two levels of the input end of the controller, the contact electrodes 64 and the pulleys 62 are positioned on the same horizontal plane, and the rotation direction of the driving motor is electrically controlled to perform the reciprocating motion of the lead sliding base 8.

A use method of a self-adjusting winding machine for winding textile yarns comprises the following steps:

s1: firstly, the winding roller 3 is arranged on the inner side of the winding mounting frame 2, the transmission sleeve 482 and a rotating shaft of the winding roller 3 are connected through a coupler, one end of a yarn to be wound penetrates through the yarn guide hole 81 and is fixedly connected to the surface of the winding roller 3, and the control rod 44 is pushed to enable the speed change bevel teeth 47 to be meshed with the outer bevel teeth 431 on the surface of the speed change transmission teeth 43;

s2: starting an equipment power supply, driving the variable-speed transmission gear 43 to rotate at a constant speed through the winding driving motor 42, driving the transmission shaft rod 46, the spline guide sleeve 48 and the winding roller 3 to rotate by utilizing the meshing transmission of the outer bevel gear 431 on the variable-speed bevel gear 47, so as to wind at a constant speed, when the rotating speed of the winding roller 3 needs to be changed, pushing the control rod 44 to drive the transmission shaft rod 46 to move transversely, the variable-speed bevel gear 47 is meshed with the inner bevel gear 432, when the variable-speed bevel gear 47 on the left side is meshed with the inner bevel gear 432, the variable-speed bevel gear 47 on the right side is separated from the outer bevel gear 431 and is positioned on the outer side of the variable-speed transmission gear 43, so as to prevent the variable-speed bevel gear 47 and the outer bevel gear 431 from being subjected to tooth beating, and change the rotating speed of the transmission shaft rod 46 by utilizing the difference of tooth diameters of the outer bevel gear 431 and the inner bevel gear 432, so as to reduce the rotating speed of the winding roller 3 to deal with different yarn dyeing processes;

s3: in the process of winding the yarn, the driving screw 7 is driven by the driving motor to perform uniform and low-speed rotation motion, the driving screw 7 is meshed with the reciprocating guide bar 82, the lead slide seat 8 is pushed to slide along the surface of the reciprocating lead slide rail 6 in the process of rotating the driving screw 7, after the lead slide seat 8 slides to one end of the reciprocating lead slide rail 6, the pulley 62 is contacted with the contact electrode 64 at one end, so that an electric signal is generated by the contact electrode 64 and transmitted to the controller, the controller controls the change of the steering of the driving motor, the lead slide seat 8 moves to the other side, and the step is repeated to complete the reciprocating motion of the lead slide seat 8;

s4: under the action of the reciprocating motion of the wire sliding seat 8, the yarn is wound to the surface of the winding roller 3 through the guide of the wire guide hole 81, the yarn is spirally wound on the surface of the winding roller 3 under the reciprocating guide until the yarn is completely collected, and the collected yarn collecting roller can be taken down by disassembling the winding roller 3.

Finally, it should be noted that, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate relative positional relationships, and when the absolute position of the object to be described is changed, the relative positional relationships may be changed;

secondly, in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to common designs, and under the condition of no conflict, the same embodiment and different embodiments of the invention can be combined with each other;

finally, the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like which are within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A self-adjusting winder for winding textile yarns, which comprises a winding equipment seat (1), a winding mounting frame (2) and a wire seat (5) are fixedly mounted on the top surface of the winding equipment seat (1), a winding roller (3) is rotatably mounted on the inner side of the winding mounting frame (2), it is characterized in that one side of the rolling mounting frame (2) is fixedly provided with an adjustable driving mechanism (4), the output end of the adjustable driving mechanism (4) is in transmission connection with the end part of the winding roller (3), a reciprocating lead slide rail (6) is fixedly arranged on the inner side of the lead seat (5), a lead slide seat (8) is arranged on the bottom surface of the reciprocating lead slide rail (6) in a sliding way, a wire sliding seat (8) positioned below the reciprocating wire sliding rail (6) is rotatably arranged on the inner side of the wire seat (5), the bottom end of the lead sliding seat (8) is in sliding contact with the surface of the driving screw (7);

the adjustable driving mechanism (4) comprises a driving box (41), a winding driving motor (42) is fixedly mounted on the bottom surface of the driving box (41), a control rod (44) is slidably mounted on the inner side of the driving box (41), one end of the control rod (44) is fixedly connected with a bearing seat (45), the output end of the winding driving motor (42) is fixedly connected with a variable-speed transmission gear (43) located inside the driving box (41), a transmission shaft lever (46) is fixedly connected and sleeved on the inner side of the bearing seat (45), the other end of the transmission shaft lever (46) extends to the outer side of the driving box (41) and is provided with a spline guide sleeve (48), a variable-speed bevel gear (47) is fixedly sleeved on the outer side of the transmission shaft lever (46), and the variable-speed bevel gear (47) is meshed with the surface of the variable-speed transmission gear (43);

the spline guide sleeve (48) comprises a plurality of meshing prismatic teeth (481) and a transmission sleeve (482), the number of the meshing prismatic teeth (481) is a plurality, the meshing prismatic teeth are circumferentially distributed on the outer side of the transmission shaft lever (46), the transmission sleeve (482) is sleeved on the end portion of the transmission shaft lever (46) in a sliding mode, a plurality of sliding grooves matched with the meshing prismatic teeth (481) are formed in the inner side of the spline guide sleeve (48), and one side of the transmission sleeve (482) is fixedly connected with the side face of the winding roller (3);

reciprocating wire slide rail (6) include slide rail (61) and pulley (62), pulley (62) slidable mounting is in the inboard of slide rail (61), the top surface fixed mounting of pulley (62) has supporting seat (63), contact electrode (64) are installed in the both ends embedding of slide rail (61), the tip electricity of contact electrode (64) is connected with the controller, the tip transmission of driving screw (7) is connected with driving motor, the output of controller and driving motor's input electric connection.

2. The self-adjusting winder for winding textile yarns according to claim 1, wherein the reciprocating yarn guide rail (6), the driving screw (7) and the yarn slide (8) are positioned on one side of the winding roller (3) and are positioned on the same horizontal plane with the central line of the winding roller (3), a yarn guide hole (81) is formed in the surface of the yarn slide (8), a plurality of balls are embedded and mounted on the inner side of the yarn guide hole (81), and the balls are slidably mounted on the inner side of the yarn guide hole (81).

3. The self-adjusting winder for winding textile yarns according to claim 1, wherein the bottom surface of the wire sliding seat (8) is fixedly provided with a reciprocating guide bar (82), the driving screw (7) is of a spiral structure, the reciprocating guide bar (82) is sleeved in a spiral groove of the driving screw (7), and the outer side of the reciprocating guide bar (82) is in sliding abutting joint with the surface of the driving screw (7).

4. The self-adjusting winder for winding textile yarns according to claim 1, wherein a through hole is formed in one side of the driving box (41), the control rod (44) is slidably sleeved in the through hole, the other end of the control rod (44) extends to the outer side of the driving box (41) and is fixedly connected with a control button, and the control rod (44) and the transmission shaft rod (46) are horizontally arranged.

5. The self-adjusting winder for winding textile yarns according to claim 1, wherein the number of the variable speed conical teeth (47) is two, the top surface of the variable speed transmission gear (43) is provided with an outer conical tooth (431) and an inner conical tooth (432), the distance between the two variable speed conical teeth (47) is larger than the distance between the outer conical tooth (431) and the inner conical tooth (432), and the two variable speed conical teeth (47) are respectively matched with the outer conical tooth (431) and the inner conical tooth (432).

6. The self-adjusting winder for winding textile yarns according to claim 1, wherein the contact electrodes (64) are formed by two insulating holders and two electrode clips, the two electrode clips are electrically connected with two levels of the input end of the controller respectively, and the contact electrodes (64) and the pulleys (62) are positioned on the same horizontal plane.

7. Use of a self-adjusting winder for the winding of textile thread, using the self-adjusting winder according to claims 1 to 6, characterized in that it comprises the following steps:

s1: firstly, a winding roller (3) is arranged on the inner side of a winding mounting frame (2), a transmission sleeve (482) and a rotating shaft of the winding roller (3) are connected through a coupler, one end of yarn to be wound penetrates through a wire guide hole (81) and is fixedly connected to the surface of the winding roller (3), and a control rod (44) is pushed to enable variable-speed bevel teeth (47) to be meshed with outer bevel teeth (431) on the surface of variable-speed transmission teeth (43);

s2: starting an equipment power supply, driving the variable-speed transmission gear (43) to rotate at a constant speed through the winding driving motor (42), driving the transmission shaft lever (46), the spline guide sleeve (48) and the winding roller (3) to rotate by utilizing the meshing transmission of the outer bevel gear (431) and the variable-speed bevel gear (47), so as to perform constant-speed winding, when the rotating speed of the winding roller (3) needs to be changed, pushing the control rod (44) to drive the transmission shaft lever (46) to move transversely, and meshing the variable-speed bevel gear (47) with the inner bevel gear (432), so that the rotating speed of the winding roller (3) is reduced to deal with different yarn dyeing processes;

s3: in the process of winding the yarn, a driving motor drives a driving screw rod (7) to perform uniform and low-speed rotary motion, the driving screw rod (7) is meshed with a reciprocating guide bar (82), a lead sliding seat (8) is pushed to slide along the surface of a reciprocating lead sliding rail (6) in the process of rotating the driving screw rod (7), after the lead sliding seat (8) slides to one end of the reciprocating lead sliding rail (6), a pulley (62) is contacted with a contact electrode (64) at one end, so that an electric signal is generated by the contact electrode (64) and transmitted to a controller, the controller controls the change of the steering of the driving motor, the lead sliding seat (8) moves to the other side, and the step is repeated to complete the reciprocating motion of the lead sliding seat (8);

s4: under the action of the reciprocating motion of the wire sliding seat (8), the yarn is wound to the surface of the winding roller (3) through the guide of the wire guide hole (81), the yarn is spirally wound on the surface of the winding roller (3) under the reciprocating guide until the yarn is completely collected, and the collected yarn collecting roller can be taken down by disassembling the winding roller (3).

8. The self-adjusting winder for winding textile yarns and the method of using the same as claimed in claim 7, wherein in step S2, when the left speed-changing bevel gear (47) is engaged with the inner bevel gear (432), the right speed-changing bevel gear (47) is disengaged from the outer bevel gear (431) and positioned outside the speed-changing driving gear (43) to prevent the speed-changing bevel gear (47) from being toothed with the outer bevel gear (431), and the rotation speed of the driving shaft (46) is changed by the difference between the tooth diameters of the outer bevel gear (431) and the inner bevel gear (432).

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