CN114275625A - Spinning silk thread anti-disengaging wheel winding device and using method thereof - Google Patents

Abstract

The invention relates to the technical field of textile processing, in particular to a spinning silk thread anti-drop wheel winding device which comprises a thread feeding assembly, a thread arranging assembly, a plurality of thread arranging assemblies, an anti-drop conveying assembly, a thread winding assembly, a reciprocating assembly and a supporting plate, wherein the thread feeding assembly, the thread arranging assembly and the anti-drop conveying assembly are fixedly arranged on the supporting plate, the thread arranging assemblies are detachably arranged on the supporting plate, the thread winding assembly is in sliding connection with the supporting plate through the reciprocating assembly, the thread winding assembly is arranged at the rear end of the anti-drop conveying assembly, and the reciprocating assembly is arranged at the bottom of the thread winding assembly; the winding assembly drives the winding assembly to do reciprocating motion so as to perform uniform winding. The invention solves the problems that the textile silk thread is easy to fall off when being wound, knotting and bunching are easy to occur in the winding process, the textile silk thread is pulled by auxiliary equipment to enable the winding to be uniform in the winding process, and the textile silk thread is easy to be damaged or to be off-line in the winding process.

Description

Spinning silk thread anti-disengaging wheel winding device and using method thereof

Technical Field

The invention relates to the technical field of textile processing, in particular to a spinning yarn anti-drop wheel winding device and a using method thereof.

Background

The Chinese patent with the publication number of CN108861828A discloses a spinning silk thread winding device for spinning equipment, which comprises a workbench, wherein a support column is fixedly connected to the left side of the top of the workbench, a thread wheel is movably connected to the front surface of the support column through a bearing, a first electric telescopic rod is fixedly connected to the top of the workbench, a supporting block is fixedly connected to the top of the first electric telescopic rod, fixed blocks are fixedly connected to two sides of the supporting block, and a roller is movably connected to one side, far away from the supporting block, of the fixed block through a rotating shaft. According to the invention, through the matched use of the workbench, the support column, the wire wheel, the first electric telescopic rod, the support block, the fixed block, the roller, the support rod, the sliding chute, the top plate, the second electric telescopic rod, the connecting rod, the pulley, the motor, the threaded sleeve and the winding shaft, the winding can be automatically carried out, manual operation of workers is not needed, the labor force expenditure is saved, the economic cost is reduced, the winding effect is improved, and the wire winding is more uniform.

The Chinese patent with the publication number of CN108861828A discloses a spinning thread anti-disengaging wheel winding device for the textile manufacturing industry, which comprises a mounting plate, a servo motor, a transmission wheel and a transmission belt, wherein a first conducting ring is mounted on the surface of the mounting plate, a first mounting shaft is arranged on the inner side of the first conducting ring and is mutually connected with the mounting plate, a storage battery pack is arranged above an electromagnetic plate, the storage battery pack and a conductive vertical plate are all positioned in an electrical box, an alarm is arranged on the surface of the electrical box, and the alarm is electrically connected with the electromagnetic plate and the storage battery pack respectively. This weaving silk thread anticreep wheel coiling mechanism for textile manufacturing can guide the rolling to the silk thread through the conduction wheel to the convenience detects the silk thread through the bearing board, prevents that the silk thread from appearing taking off the round phenomenon, when the silk thread takes off the round, the butt joint can be accomplished to the butt joint wire in the butt joint board, thereby corresponds the circuit switch-on, and servo motor stop work avoids the silk thread still to continue to carry out the rolling under the wheel condition appears taking off.

However, the above patent still has the following problems:

when carrying out the rolling of weaving silk thread, the weaving silk thread drops easily, and the fault that the knot was beaten and the messy group appears easily appearing in winding process, and it makes the wire winding even to borrow the auxiliary assembly pulling weaving silk thread in winding process more, nevertheless leads to the fact the damage or arouses the off-line to the weaving silk thread easily.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a spinning silk thread anti-drop wheel winding device.

The basic scheme of the invention is as follows:

a spinning silk thread anti-drop wheel winding device comprises a thread feeding assembly, a thread arranging assembly, a plurality of thread arranging assemblies, an anti-drop conveying assembly, a thread winding assembly, a reciprocating assembly and a supporting plate, wherein the thread feeding assembly, the thread arranging assembly and the anti-drop conveying assembly are fixedly arranged on the supporting plate, the thread arranging assemblies are detachably arranged on the supporting plate, the thread winding assembly is connected with the supporting plate in a sliding mode through the reciprocating assembly, the thread arranging assembly is arranged at the rear end of the thread feeding assembly, the thread arranging assemblies are symmetrically arranged on two sides of the anti-drop conveying assembly, the thread winding assembly is arranged at the rear end of the anti-drop conveying assembly, and the reciprocating assembly is arranged at the bottom of the thread winding assembly; the winding assembly drives the winding assembly to do reciprocating motion so as to perform uniform winding.

Preferably, the reciprocating assembly comprises a plurality of fixed sliding carriages, a plurality of sliding rods, a sliding frame, a reciprocating plate, an upright post mounting plate, a driving gear, a plurality of upright posts, two limiting plates and a driving rotating shaft;

it is a plurality of fixed balladeur train is fixed in the backup pad, and is a plurality of the slide bar respectively with a plurality of fixed balladeur train top sliding connection, it is a plurality of the slide bar symmetry is arranged in and is slided the frame both sides, reciprocal board both sides and slide frame inner wall sliding connection, the side of reciprocating plate is arranged in to the column mounting board, be equipped with the stand of a plurality of interval equipartitions on the column mounting board, two the both ends of column mounting board are arranged in to the limiting plate symmetry.

Preferably, a driving gear is installed at one end of the driving rotating shaft, and a plurality of teeth of the driving gear are respectively abutted and contacted with the plurality of upright posts.

Preferably, the reciprocating assembly further comprises a plurality of first bevel gears, a second bevel gear, a transmission shaft and a belt pulley, the first bevel gears are arranged at the other end of the driving rotating shaft, the second bevel gears are in meshed transmission connection with the first bevel gears, two ends of the transmission shaft are respectively connected with the second bevel gears and the belt pulley, and the belt pulley is in transmission connection with the winding assembly through a belt.

Preferably, the wire winding subassembly includes hand wheel, spiral piece, hob, bobbin, wire winding gear, wire reel, wire winding owner frame, motor frame and power wheel, bobbin and motor frame all with wire winding owner frame sliding connection, wire winding owner frame top is arranged in to the hand wheel, the hand wheel bottom is arranged in on the hob top, the top of bobbin is arranged in to the other end of hob, the top of wire winding owner frame is arranged in to the spiral piece, spiral piece and hob sliding connection, the both sides of bobbin are arranged respectively in to wire winding gear and bobbin, wire winding gear and coaxial rotation of wire reel, the power wheel rotates with one side of motor frame to be connected, power wheel one end wire winding gear meshing transmission is connected, the other end of power wheel passes through the belt and is connected with the belt pulley transmission, the side at wire winding owner frame is fixed to the sliding frame side.

Preferably, the anticreep conveying subassembly includes free bearing, articulated slab, a plurality of conveying wheel, a plurality of conveying axle, anticreep board and conveying extension board, the top of conveying extension board is arranged in to the free bearing, the top of anticreep board is arranged in to the articulated slab, the articulated slab rotates with the free bearing to be connected, and is a plurality of conveying axle is fixed in conveying extension board one side, and is a plurality of the conveying wheel rotates with a plurality of conveying axles respectively to be connected, the anticreep board supports and leans on the play end of a plurality of conveying axles.

Preferably, the wire arranging assembly comprises a wire arranging support, a plurality of wire arranging fixing shafts and a plurality of wire arranging partition plates, the bottom of the wire arranging support is detachably connected with the support plate, the plurality of wire arranging fixing shafts are arranged at the top of the wire arranging support, and the plurality of wire arranging partition plates are slidably connected with the plurality of wire arranging fixing shafts.

Preferably, the winding displacement subassembly includes two winding displacement horizontal poles, winding displacement groove, a plurality of winding displacement piece, a plurality of winding displacement shelves pole and winding displacement support, two winding displacement horizontal pole interval distribution arranges the middle part of winding displacement support in, two all be equipped with the winding displacement groove on the winding displacement horizontal pole, and is a plurality of winding displacement piece and winding displacement groove sliding connection, winding displacement shelves pole top and bottom are all installed on a plurality of winding displacement pieces, and are a plurality of winding displacement shelves pole is through a plurality of winding displacement piece adjustment intervals.

Preferably, the wire feeding assembly comprises a wire feeding support, a wire feeding plate and a plurality of wire feeding grooves, the wire feeding plate is arranged in the middle of the wire feeding support, and the plurality of wire feeding grooves are uniformly distributed at intervals on the top of the wire feeding support.

The invention also discloses a use method of the spinning silk thread anti-drop wheel winding device, which comprises the following steps:

s1, wire feeding: the textile silk threads are placed into the plurality of thread feeding grooves at intervals, and the gaps between the thread arranging stop rods are adjusted according to the thickness of the textile silk threads, so that the textile silk threads can smoothly pass through the thread arranging component;

s2, arranging wires: adjusting the space between the plurality of wire arranging partition plates, opening the anti-drop plate, and placing the textile wires among the plurality of conveying wheels;

s3, fixing: one end of the textile silk thread is fixed on a wire spool, a motor is started to drive a power wheel to rotate, a wire winding gear is further driven to rotate, and the wire spool starts to wind wires;

s4, reciprocating winding: the power wheel drives the belt pulley through a belt at the same time, the transmission shaft transmits power, the first bevel gear and the second bevel gear are meshed to rotate and finally drive the driving gear to rotate, the sliding frame is meshed with the driving gear along with the plurality of stand columns to reciprocate, and when the driving gear is arranged at two ends of the stand column mounting plate, the reciprocating plate moves upwards or downwards under the guidance of the limiting plate to change the motion direction of the stand columns, so that the motion direction of the sliding frame is changed, and the winding assembly reciprocates;

s5, replacement: after the winding is finished, the hand wheel is rotated to rotate, the winding frame is driven to slide upwards under the thread transmission of the screw rod and the screw block, the winding gear and the power wheel are separated, the wire spool is replaced, and after the replacement is finished, the hand wheel is reversely rotated to enable the winding frame to move downwards until the winding gear is meshed with the power wheel, and the winding operation is continued.

The working principle and the advantages of the invention are as follows:

the invention comprises a thread feeding assembly, a thread arranging assembly, a plurality of thread arranging assemblies, an anti-drop conveying assembly, a winding assembly, a reciprocating assembly and a supporting plate, wherein the thread feeding assembly, the thread arranging assembly and the thread arranging assemblies are used for batching and effectively distributing textile threads on the anti-drop conveying assembly, the anti-drop conveying assembly is used for limiting the textile threads when the textile threads are conveyed, so that the textile threads are prevented from being separated or broken or clustered, the textile threads are pulled by auxiliary equipment in the using process of the conventional textile thread winding device to enable the winding to be uniform, but the textile threads are easy to be damaged or cause thread dropping, the reciprocating assembly is used for driving the winding assembly to reciprocate, so that the uniform winding of the textile threads is realized, and the synchronous linkage is realized. The driving gear is fixedly arranged, in the rotating process of the driving gear, the driving gear is in meshing transmission with the plurality of stand columns to drive the reciprocating plate and the sliding frame connected with the reciprocating plate in a sliding mode to slide back and forth, when the driving gear is arranged at two ends of the stand column mounting plate, the two limiting plates guide the driving gear to move around the stand columns, and accordingly the reciprocating plate is controlled to move upwards or downwards, and reversing operation of the sliding frame is achieved. Through the meshing transmission of the first bevel gear and the second bevel gear, the power direction conversion of the belt pulley is realized, and the synchronous motion of the winding assembly and the reciprocating assembly is realized.

After the wire winding finishes, rotate the hand wheel and rotate, under the screw drive of hob and spiral piece, drive the bobbin and upwards slide for wire winding gear and power wheel break away from, carry out the change of wire reel, after the change finishes, reverse rotation hand wheel makes the bobbin move down, until wire winding gear and power wheel meshing, continue to carry out wire winding work, when carrying out the wire reel change, avoid the motor to rotate suddenly and cause mechanical injury, improve this coiling mechanism's security. The anticreep board is installed fixedly to a plurality of conveying axles to fix the weaving silk thread on a plurality of transfer gear, prevent that the weaving silk thread from droing. The wire arranging component and the wire arranging component can adjust the gap according to the actual size of the textile silk threads, so that the using range of the winding device is greatly enlarged, and the winding operation can be performed on the textile silk threads with different sizes.

Drawings

FIG. 1 is a schematic structural view of a spinning yarn anti-drop wheel winding device of the present invention;

FIG. 2 is a partial enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural view of a part of the structure of the anti-disengaging wheel winding device for textile yarns in the invention;

FIG. 4 is a schematic view of a winding assembly in the take-up device for textile yarns with an anti-slip ring according to the present invention;

FIG. 5 is a schematic view of the structural installation of the reciprocating assembly in the take-up device for textile yarns with the anti-slip wheel according to the present invention;

FIG. 6 is a schematic view of a reciprocating assembly in the take-up device for textile yarns with an anti-slip ring according to the present invention;

FIG. 7 is a schematic view of a reciprocating assembly of the take-up device for textile yarns with an anti-slip ring according to the present invention;

reference numerals referred to in the drawings are:

a wire feeding assembly 1; a wire feeding bracket 101; a wire feeding plate 102; a wire feeding slot 103;

a flat cable assembly 2; a flat cable cross bar 201; a wiring duct 202; a wire arranging block 203; a flat cable stopper 204; a flat cable holder 205;

a wire management component 3; a wire management bracket 301; a wire management fixing shaft 302; a wire management partition 303;

the anti-drop conveying component 4; a free bearing 401; a hinge plate 402; a transfer wheel 403; a transfer shaft 404; an anti-drop plate 405; a transport plate 406;

a winding assembly 5; a hand wheel 501; a spiral block 502; a screw rod 503; a bobbin 504; a winding gear 505; a wire spool 506; a winding main frame 507; a motor frame 508; a power wheel 509;

a reciprocating assembly 6; a fixed carriage 601; a slide bar 602; a slide frame 603; a reciprocating plate 604; a column mounting plate 605; a drive gear 606; a column 607; a limiting plate 608; a drive shaft 609; a first bevel gear 610; a second bevel gear 611; a drive shaft 612; a pulley 613;

and a support plate 7.

Detailed Description

The following is further detailed by the specific embodiments:

the first embodiment is as follows:

a spinning silk thread anti-drop wheel winding device comprises a thread feeding assembly 1, a thread arranging assembly 2, a plurality of thread arranging assemblies 3, an anti-drop conveying assembly 4, a thread winding assembly 5, a reciprocating assembly 6 and a supporting plate 7, wherein the thread feeding assembly 1, the thread arranging assembly 2 and the anti-drop conveying assembly 4 are fixedly arranged on the supporting plate 7, the thread arranging assemblies 3 are detachably arranged on the supporting plate 7, the thread winding assembly 5 is connected with the supporting plate 7 in a sliding mode through the reciprocating assembly 6, the thread arranging assembly 2 is arranged at the rear end of the thread feeding assembly 1, the thread arranging assemblies 3 are symmetrically arranged on two sides of the anti-drop conveying assembly 4, the thread winding assembly 5 is arranged at the rear end of the anti-drop conveying assembly 4, and the reciprocating assembly 6 is arranged at the bottom of the thread winding assembly 5; the winding assembly 5 drives the winding assembly 5 to do reciprocating motion, and uniform winding is conducted.

The invention comprises a thread feeding assembly 1, a thread arranging assembly 2, a plurality of thread arranging assemblies 3, an anti-falling conveying assembly 4, a thread winding assembly 5, a reciprocating assembly 6 and a supporting plate 7, wherein the thread feeding assembly 1, the thread arranging assembly 2 and the thread arranging assemblies 3 divide textile threads in batches and effectively place the textile threads on the anti-falling conveying assembly 4, the anti-falling conveying assembly 4 limits the textile threads when conveying the textile threads to prevent the textile threads from being separated or having faults of knotting and disordering, and the textile threads are uniformly wound by pulling the textile threads by auxiliary equipment in the using process of the conventional textile thread winding device, but are easily damaged or are easy to fall off.

The reciprocating assembly 6 comprises a plurality of fixed sliding carriages 601, a plurality of sliding rods 602, a sliding frame 603, a reciprocating plate 604, a column mounting plate 605, a driving gear 606, a plurality of columns 607, two limiting plates 608 and a driving rotating shaft 609;

a plurality of fixed sliding carriages 601 are fixed on a supporting plate 7, a plurality of sliding rods 602 are respectively in sliding connection with the tops of the fixed sliding carriages 601, the sliding rods 602 are symmetrically arranged on two sides of a sliding frame 603, two sides of a reciprocating plate 604 are in sliding connection with the inner wall of the sliding frame 603, a vertical column mounting plate 605 is arranged on the side edge of the reciprocating plate 604, a plurality of vertical columns 607 are uniformly distributed at intervals on the vertical column mounting plate 605, and two limiting plates 608 are symmetrically arranged at two ends of the vertical column mounting plate 605. One end of the driving shaft 609 is provided with a driving gear 606, and a plurality of teeth of the driving gear 606 are respectively abutted and contacted with the plurality of columns 607.

The driving gear 606 is fixedly arranged, and in the rotation process of the driving gear 606, the driving gear is meshed with the plurality of upright posts 607 for transmission, so that the reciprocating plate 604 and the sliding frame 603 connected with the reciprocating plate 604 in a sliding mode are driven to slide back and forth, when the driving gear 606 is arranged at two ends of the upright post mounting plate 605, the two limiting plates 608 guide the driving gear 606 to move around the upright posts, and accordingly the reciprocating plate 604 is controlled to move upwards or downwards, and the reversing operation of the sliding frame 603 is achieved.

The reciprocating assembly 6 further comprises a plurality of first bevel gears 610, second bevel gears 611, a transmission shaft 612 and a pulley 613, wherein the first bevel gears 610 are arranged at the other end of the driving rotating shaft 609, the second bevel gears 611 are in meshing transmission connection with the first bevel gears 610, the two ends of the transmission shaft 612 are respectively connected with the second bevel gears 611 and the pulley 613, and the pulley 613 is in transmission connection with the winding assembly 5 through a belt.

The power direction of the belt pulley 613 is converted through the meshing transmission of the first bevel gear 610 and the second bevel gear 611, and the synchronous movement of the winding assembly 5 and the reciprocating assembly 6 is realized.

Example two:

a spinning silk thread anti-drop wheel winding device comprises a thread feeding assembly 1, a thread arranging assembly 2, a plurality of thread arranging assemblies 3, an anti-drop conveying assembly 4, a thread winding assembly 5, a reciprocating assembly 6 and a supporting plate 7, wherein the thread feeding assembly 1, the thread arranging assembly 2 and the anti-drop conveying assembly 4 are fixedly arranged on the supporting plate 7, the thread arranging assemblies 3 are detachably arranged on the supporting plate 7, the thread winding assembly 5 is connected with the supporting plate 7 in a sliding mode through the reciprocating assembly 6, the thread arranging assembly 2 is arranged at the rear end of the thread feeding assembly 1, the thread arranging assemblies 3 are symmetrically arranged on two sides of the anti-drop conveying assembly 4, the thread winding assembly 5 is arranged at the rear end of the anti-drop conveying assembly 4, and the reciprocating assembly 6 is arranged at the bottom of the thread winding assembly 5; the winding assembly 5 drives the winding assembly 5 to do reciprocating motion, and uniform winding is conducted.

The invention comprises a thread feeding assembly 1, a thread arranging assembly 2, a plurality of thread arranging assemblies 3, an anti-falling conveying assembly 4, a thread winding assembly 5, a reciprocating assembly 6 and a supporting plate 7, wherein the thread feeding assembly 1, the thread arranging assembly 2 and the thread arranging assemblies 3 divide textile threads in batches and effectively place the textile threads on the anti-falling conveying assembly 4, the anti-falling conveying assembly 4 limits the textile threads when conveying the textile threads to prevent the textile threads from being separated or having faults of knotting and disordering, and the textile threads are uniformly wound by pulling the textile threads by auxiliary equipment in the using process of the conventional textile thread winding device, but are easily damaged or are easy to fall off.

The reciprocating assembly 6 comprises a plurality of fixed sliding carriages 601, a plurality of sliding rods 602, a sliding frame 603, a reciprocating plate 604, a column mounting plate 605, a driving gear 606, a plurality of columns 607, two limiting plates 608 and a driving rotating shaft 609;

a plurality of fixed sliding carriages 601 are fixed on a supporting plate 7, a plurality of sliding rods 602 are respectively in sliding connection with the tops of the fixed sliding carriages 601, the sliding rods 602 are symmetrically arranged on two sides of a sliding frame 603, two sides of a reciprocating plate 604 are in sliding connection with the inner wall of the sliding frame 603, a vertical column mounting plate 605 is arranged on the side edge of the reciprocating plate 604, a plurality of vertical columns 607 are uniformly distributed at intervals on the vertical column mounting plate 605, and two limiting plates 608 are symmetrically arranged at two ends of the vertical column mounting plate 605. One end of the driving shaft 609 is provided with a driving gear 606, and a plurality of teeth of the driving gear 606 are respectively abutted and contacted with the plurality of columns 607.

The driving gear 606 is fixedly arranged, and in the rotation process of the driving gear 606, the driving gear is meshed with the plurality of upright posts 607 for transmission, so that the reciprocating plate 604 and the sliding frame 603 connected with the reciprocating plate 604 in a sliding mode are driven to slide back and forth, when the driving gear 606 is arranged at two ends of the upright post mounting plate 605, the two limiting plates 608 guide the driving gear 606 to move around the upright posts, and accordingly the reciprocating plate 604 is controlled to move upwards or downwards, and the reversing operation of the sliding frame 603 is achieved.

The reciprocating assembly 6 further comprises a plurality of first bevel gears 610, second bevel gears 611, a transmission shaft 612 and a pulley 613, wherein the first bevel gears 610 are arranged at the other end of the driving rotating shaft 609, the second bevel gears 611 are in meshing transmission connection with the first bevel gears 610, the two ends of the transmission shaft 612 are respectively connected with the second bevel gears 611 and the pulley 613, and the pulley 613 is in transmission connection with the winding assembly 5 through a belt.

The power direction of the belt pulley 613 is converted through the meshing transmission of the first bevel gear 610 and the second bevel gear 611, and the synchronous movement of the winding assembly 5 and the reciprocating assembly 6 is realized.

The winding assembly 5 comprises a handwheel 501, a spiral block 502, a spiral rod 503, a winding frame 504, a winding gear 505, a winding disc 506, a winding main frame 507, a motor frame 508 and a power wheel 509, the winding frame 504 and the motor frame 508 are both connected with the winding main frame 507 in a sliding mode, the hand wheel 501 is arranged at the top of the winding main frame 507, the top end of the spiral rod 503 is arranged at the bottom of the hand wheel 501, the other end of the spiral rod 503 is arranged at the top of the winding frame 504, the spiral block 502 is arranged at the top of the winding main frame 507, the spiral block 502 is connected with the spiral rod 503 in a sliding mode, the winding gear 505 and the winding disc 506 are respectively arranged at two sides of the winding frame 504, the winding gear 505 and the winding disc 506 rotate coaxially, the power wheel 509 is connected with one side of the motor frame 508 in a rotating mode, the winding gear 505 at one end of the power wheel 509 is connected in a meshing and driving mode, the other end of the power wheel 509 is connected with the belt pulley 613 in a driving mode through a belt, and the side edge of the sliding frame 603 is fixed to the side edge of the winding main frame 507.

After the wire winding finishes, rotate the hand wheel and rotate, under the screw drive of hob and spiral piece, drive the bobbin and upwards slide for wire winding gear and power wheel break away from, carry out the change of wire reel, after the change finishes, reverse rotation hand wheel makes the bobbin move down, until wire winding gear and power wheel meshing, continue to carry out wire winding work, when carrying out wire reel 506 and change, avoid the motor to rotate suddenly and cause mechanical injury, improve this coiling mechanism's security.

The anti-drop conveying assembly 4 comprises a hinge seat 401, a hinge plate 402, a plurality of conveying wheels 403, a plurality of conveying shafts 404, an anti-drop plate 405 and a conveying support plate 406, wherein the hinge seat 401 is arranged at the top of the conveying support plate 406, the hinge plate 402 is arranged at the top of the anti-drop plate 405, the hinge plate 402 is rotatably connected with the hinge seat 401, the plurality of conveying shafts 404 are fixed on one side of the conveying support plate 406, the plurality of conveying wheels 403 are respectively rotatably connected with the plurality of conveying shafts 404, and the anti-drop plate 405 abuts against the outlet ends of the plurality of conveying shafts 404.

The drop-off prevention plate 405 fixes the plurality of conveying shafts 404 and the textile yarns on the plurality of conveying wheels 403, and prevents the textile yarns from dropping off.

The wire management assembly 3 comprises a wire management bracket 301, a plurality of wire management fixing shafts 302 and a plurality of wire management clapboards 303, wherein the bottom of the wire management bracket 301 is detachably connected with the support plate 7, the plurality of wire management fixing shafts 302 are arranged at the top of the wire management bracket 301, and the plurality of wire management clapboards 303 are slidably connected with the plurality of wire management fixing shafts 302.

The flat cable assembly 2 comprises two flat cable cross bars 201, flat cable grooves 202, a plurality of flat cable blocks 203, a plurality of flat cable blocking bars 204 and a flat cable support 205, the two flat cable cross bars 201 are distributed at intervals in the middle of the flat cable support 205, the flat cable grooves 202 are arranged on the two flat cable cross bars 201, the flat cable blocks 203 are in sliding connection with the flat cable grooves 202, the tops and the bottoms of the flat cable blocking bars 204 are mounted on the flat cable blocks 203, and the intervals of the flat cable blocking bars 204 are adjusted through the flat cable blocks 203.

The wire feeding assembly 1 comprises a wire feeding bracket 101, a wire feeding plate 102 and a plurality of wire feeding grooves 103, wherein the wire feeding plate 102 is arranged in the middle of the wire feeding bracket 101, and the plurality of wire feeding grooves 103 are uniformly arranged at the top of the wire feeding bracket 101 at intervals.

The wire arranging component 3 and the wire arranging component 2 can adjust the gap according to the actual size of the textile silk threads, so that the using range of the winding device is greatly enlarged, and the winding operation can be performed on the textile silk threads with different sizes.

The invention also discloses a use method of the spinning silk thread anti-disengaging wheel winding device, which comprises the following steps:

s1, wire feeding: the textile silk threads are placed into the plurality of thread feeding grooves 103 at intervals, and the gaps between the thread arranging stop rods 204 are adjusted according to the thickness of the textile silk threads, so that the textile silk threads can smoothly pass through the thread arranging component 2;

s2, arranging wires: adjusting the space between the plurality of wire arranging partition plates 303, opening the anti-drop plate 405, and putting the textile wires among the plurality of conveying wheels 403;

s3, fixing: one end of the textile silk thread is fixed on a wire spool 506, a motor is started to drive a power wheel 509 to rotate, a wire winding gear 505 is further driven to rotate, and the wire spool 506 starts to wind wires;

s4, reciprocating winding: the power wheel 509 drives the belt pulley 613 through a belt at the same time, the transmission shaft 612 transmits power, the first bevel gear 610 and the second bevel gear 611 are meshed to rotate, the driving gear 606 is finally driven to rotate, the sliding frame 603 is meshed with the driving gear 606 along with the plurality of upright posts 607 to reciprocate, when the driving gear 606 is arranged at two ends of the upright post mounting plate 605, the reciprocating plate 604 moves up or down to change the motion direction of the upright posts 607 under the guidance of the limiting plate 608, and further the motion direction of the sliding frame 603 is changed, so that the winding assembly 5 reciprocates;

s5, replacement: after winding, the hand wheel 501 is rotated to drive the winding frame 504 to slide upwards under the screw transmission of the screw rod 503 and the screw block 502, so that the winding gear 505 is separated from the power wheel 509 to replace the winding disc 506, and after the replacement is finished, the hand wheel 501 is rotated reversely to move the winding frame 504 downwards until the winding gear 505 is meshed with the power wheel 506, and winding operation is continued.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (10)

1. The utility model provides a weaving silk thread anticreep wheel take-up device which characterized in that: the wire winding device comprises a wire feeding assembly (1), a wire arranging assembly (2), a plurality of wire arranging assemblies (3), an anti-falling conveying assembly (4), a wire winding assembly (5), a reciprocating assembly (6) and a supporting plate (7), wherein the wire feeding assembly (1), the wire arranging assembly (2) and the anti-falling conveying assembly (4) are fixedly arranged on the supporting plate (7), the wire arranging assemblies (3) are detachably arranged on the supporting plate (7), the wire winding assembly (5) is in sliding connection with the supporting plate (7) through the reciprocating assembly (6), the wire arranging assembly (2) is arranged at the rear end of the wire feeding assembly (1), the wire arranging assemblies (3) are symmetrically arranged on two sides of the anti-falling conveying assembly (4), the wire winding assembly (5) is arranged at the rear end of the anti-falling conveying assembly (4), and the reciprocating assembly (6) is arranged at the bottom of the wire winding assembly (5); and the winding assembly (5) drives the winding assembly (5) to do reciprocating motion so as to uniformly wind wires.

2. The textile thread anti-wheel-slipping winding device according to claim 1, characterized in that: the reciprocating assembly (6) comprises a plurality of fixed sliding carriages (601), a plurality of sliding rods (602), a sliding frame (603), a reciprocating plate (604), a stand column mounting plate (605), a driving gear (606), a plurality of stand columns (607), two limiting plates (608) and a driving rotating shaft (609);

the fixed sliding carriages (601) are fixed on the supporting plate (7), the sliding rods (602) are in sliding connection with the tops of the fixed sliding carriages (601) respectively, the sliding rods (602) are symmetrically arranged on two sides of the sliding frame (603), two sides of the reciprocating plate (604) are in sliding connection with the inner wall of the sliding frame (603), the upright post mounting plate (605) is arranged on the side edge of the reciprocating plate (604), a plurality of upright posts (607) uniformly distributed at intervals are arranged on the upright post mounting plate (605), and two limiting plates (608) are symmetrically arranged at two ends of the upright post mounting plate (605).

3. The textile thread anti-wheel-slipping winding device according to claim 2, characterized in that: a driving gear (606) is installed at one end of the driving rotating shaft (609), and a plurality of teeth of the driving gear (606) are respectively abutted and contacted with a plurality of upright posts (607).

4. The textile thread anti-wheel-slipping winding device according to claim 3, characterized in that: the reciprocating assembly (6) further comprises a plurality of first bevel gears (610), second bevel gears (611), a transmission shaft (612) and a belt pulley (613), the first bevel gears (610) are arranged at the other end of the driving rotating shaft (609), the second bevel gears (611) are in meshed transmission connection with the first bevel gears (610), two ends of the transmission shaft (612) are respectively connected with the second bevel gears (611) and the belt pulley (613), and the belt pulley (613) is in transmission connection with the winding assembly (5) through a belt.

5. The textile thread anti-wheel-slipping winding device according to claim 4, characterized in that: the winding assembly (5) comprises a hand wheel (501), a spiral block (502), a spiral rod (503), a winding frame (504), a winding gear (505), a winding disc (506), a winding main frame (507), a motor frame (508) and a power wheel (509), wherein the winding frame (504) and the motor frame (508) are both in sliding connection with the winding main frame (507), the hand wheel (501) is arranged at the top of the winding main frame (507), the top end of the spiral rod (503) is arranged at the bottom of the hand wheel (501), the other end of the spiral rod (503) is arranged at the top of the winding frame (504), the spiral block (502) is arranged at the top of the winding main frame (507), the spiral block (502) is in sliding connection with the spiral rod (503), the winding gear (505) and the winding disc (506) are respectively arranged at two sides of the winding frame (504), and the winding gear (505) and the winding disc (506) rotate coaxially, the power wheel (509) is connected with one side of the motor frame (508) in a rotating mode, a winding gear (505) at one end of the power wheel (509) is connected in a meshing transmission mode, the other end of the power wheel (509) is connected with a belt pulley (613) in a transmission mode through a belt, and the side edge of the sliding frame (603) is fixed to the side edge of the winding main frame (507).

6. The textile thread anti-wheel-slipping winding device according to claim 5, characterized in that: the anti-falling conveying assembly (4) comprises a hinge base (401), a hinge plate (402), a plurality of conveying wheels (403), a plurality of conveying shafts (404), an anti-falling plate (405) and a conveying support plate (406), wherein the hinge base (401) is arranged at the top of the conveying support plate (406), the hinge plate (402) is arranged at the top of the anti-falling plate (405), the hinge plate (402) is rotatably connected with the hinge base (401), the conveying shafts (404) are fixed on one side of the conveying support plate (406), the conveying wheels (403) are respectively rotatably connected with the conveying shafts (404), and the anti-falling plate (405) abuts against the outlet ends of the conveying shafts (404).

7. The textile thread anti-wheel-slipping winding device according to claim 6, characterized in that: the wire arranging assembly (3) comprises a wire arranging support (301), a plurality of wire arranging fixing shafts (302) and a plurality of wire arranging partition plates (303), the bottom of the wire arranging support (301) is detachably connected with the support plate (7), the plurality of wire arranging fixing shafts (302) are arranged at the top of the wire arranging support (301), and the plurality of wire arranging partition plates (303) are in sliding connection with the plurality of wire arranging fixing shafts (302).

8. The textile thread anti-wheel-slipping winding device according to claim 7, characterized in that: the winding displacement subassembly (2) includes two winding displacement horizontal poles (201), winding displacement groove (202), a plurality of winding displacement piece (203), a plurality of winding displacement shelves pole (204) and winding displacement support (205), two winding displacement horizontal pole (201) interval distribution arranges the middle part of winding displacement support (205), two all be equipped with winding displacement groove (202) on winding displacement horizontal pole (201), and is a plurality of winding displacement piece (203) and winding displacement groove (202) sliding connection, winding displacement shelves pole (204) top and bottom are all installed on a plurality of winding displacement pieces (203), and are a plurality of winding displacement shelves pole (204) are through a plurality of winding displacement piece (203) adjustment interval.

9. The textile thread anti-wheel-slipping winding device according to claim 8, characterized in that: the wire feeding assembly (1) comprises a wire feeding support (101), a wire feeding plate (102) and a plurality of wire feeding grooves (103), the wire feeding plate (102) is arranged in the middle of the wire feeding support (101), and the plurality of wire feeding grooves (103) are uniformly arranged at the top of the wire feeding support (101) at intervals.

10. The use method of the spinning thread anti-wheel-dropping winding device according to claim 9, characterized in that:

s1, wire feeding: the textile silk threads are placed into the plurality of thread feeding grooves (103) at intervals, and the gaps between the thread arranging stop rods (204) are adjusted according to the thickness of the textile silk threads, so that the textile silk threads can smoothly pass through the thread arranging component (2);

s2, arranging wires: adjusting the space between the wire arranging partition plates (303), opening the anti-drop plate (405), and putting the textile wire between the plurality of conveying wheels (403);

s3, fixing: one end of the textile silk thread is fixed on a wire spool (506), a motor is started to drive a power wheel (509) to rotate, a wire winding gear (505) is further driven to rotate, and the wire spool (506) starts to wind wires;

s4, reciprocating winding: the power wheel (509) drives the belt pulley (613) through a belt, the transmission shaft (612) transmits power, the first bevel gear (610) and the second bevel gear (611) are meshed to rotate to finally drive the driving gear (606) to rotate, the sliding frame (603) is meshed with the driving gear (606) along with the plurality of upright columns (607) to reciprocate, and when the driving gear (606) is arranged at two ends of the upright column mounting plate (605), the reciprocating plate (604) moves upwards or downwards to change the motion direction of the upright columns (607) under the guidance of the limiting plate (608) so as to change the motion direction of the sliding frame (603) and enable the winding assembly (5) to reciprocate;

s5, replacement: after winding, the hand wheel (501) is rotated, the winding frame (504) is driven to slide upwards under the threaded transmission of the screw rod (503) and the screw block (502), so that the winding gear (505) is separated from the power wheel (509), the winding disc (506) is replaced, and after the replacement is finished, the hand wheel (501) is reversely rotated to enable the winding frame (504) to move downwards until the winding gear (505) is meshed with the power wheel (506), and winding operation is continued.

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