阅读说明：本技术 一种纺织机导线机构 (Thread guide mechanism of textile machine ) 是由 刘欢红 于 2021-07-09 设计创作，主要内容包括：本发明属于织袜机技术领域,具体的说是一种纺织机导线机构；包括工作台和导线机构；所述导线机构包括第一导线环、第二导线环和第三导线环；所述工作台上表面固定安装有纺织机构；所述工作台上表面固连有第一导线环,且第一导线环包围纺织机构；所述第一导线环上表面固连有均匀布置的导线板；每个所述导线板内壁中均开设有均匀布置的第一线孔；本发明主要用于解决目前织袜机在启动机器之前,需要人工将纱线牵引至纺织机构上的,前期准备工作时间长,在牵引纱线的过程中好容易使纱线出现打结的现象,从而再次增大前期准备时间。(The invention belongs to the technical field of hosiery machines, in particular to a thread guide mechanism of a textile machine; comprises a workbench and a wire guiding mechanism; the wire guiding mechanism comprises a first wire guiding ring, a second wire guiding ring and a third wire guiding ring; a spinning mechanism is fixedly arranged on the upper surface of the workbench; the upper surface of the workbench is fixedly connected with a first wire guiding ring, and the first wire guiding ring surrounds the textile mechanism; the upper surface of the first wire ring is fixedly connected with uniformly arranged wire guide plates; first wire holes which are uniformly distributed are formed in the inner wall of each wire guide plate; the invention is mainly used for solving the problems that the prior hosiery machine needs to manually draw the yarns to a textile mechanism before starting the machine, the early preparation working time is long, and the yarns are easy to be knotted in the process of drawing the yarns, so that the early preparation time is increased again.)

1. A textile machine wire guiding mechanism is characterized in that: comprises a workbench (1) and a wire guide mechanism (11); the wire guide mechanism (11) comprises a first wire guide ring (12), a second wire guide ring (16) and a third wire guide ring (2); a spinning mechanism (4) is fixedly arranged on the upper surface of the workbench (1); the upper surface of the workbench (1) is fixedly connected with a first wire guiding ring (12), and the first wire guiding ring (12) surrounds the textile mechanism (4); the upper surface of the first lead ring (12) is fixedly connected with evenly arranged lead plates (13); first line holes (14) which are uniformly distributed are formed in the inner wall of each line guide plate (13); the upper surface of the workbench (1) is rotatably connected with two support rods (15); the outer surfaces of the two support rods (15) are engaged with a first lantern ring through threads; the two first lantern rings are fixedly connected with the same second wire ring (16) through a support rod; second wire holes (17) which are uniformly distributed are formed in the inner wall of the second wire ring (16); a second sleeve ring is rotatably connected above the first sleeve ring on the outer surface of the support rod (15), and the second sleeve ring always keeps rotating at the same position; the second body lantern ring is fixedly connected with a third lead ring (2), and the third lead ring (2) is in a conical design; the conical surface of the third wire ring (2) is rotationally connected with evenly arranged coils (21) through a rotating shaft; a supporting plate (22) is fixedly connected to the lower surface of the third wire ring (2) below each coil (21), and one side, far away from the coil (21), of the supporting plate (22) is designed to be inclined; the lower surface of each supporting plate (22) is fixedly connected with an air pump (23); third wire holes (24) are formed in the inner walls of the supporting plates (22); annular grooves (25) are formed in the inner wall of the supporting plate (22), and the annular grooves (25) surround the third line holes (24); the third annular grooves (25) are communicated with the air pump (23) through air pipes; a first line pipe (3) is rotatably connected in the inner wall of each third line hole (24) through threads, and the first line pipe (3) is made of an elastomer material; short pipes (31) which are uniformly arranged are fixedly connected in the inner wall of the annular groove (25), and the other sides of the short pipes (31) extend into the first line pipe (3); the other side of the first line pipe (3) is meshed with a second line hole (17) on a second line ring (16) through threads; a second line pipe (38) is meshed below the second line hole (17) through threads, and the other side of the second line pipe (38) is meshed with the first line hole (14) through threads; the first conduit (3) is identical to the second conduit (38).

2. The textile machine yarn guide mechanism of claim 1, wherein: the inner walls of the first spool (3) and the second spool (38) are respectively and rotatably connected with guide line roller sets (32) which are uniformly arranged through rotating shafts, and the distance between the guide line roller sets (32) is four to six centimeters; each of the wire roller sets (32) includes two guide rollers (33); each guide roller (33) rotates uniformly and unidirectionally and rotates to one side opposite to the two guide rollers (33).

3. The yarn guide mechanism of a textile machine as claimed in claim 2, wherein: the outer surface of each guide roller (33) is fixedly connected with a shifting lever (34) which is uniformly arranged.

4. The textile machine yarn guide mechanism of claim 3, wherein: each deflector rod (34) is made of elastic rubber material; each of the levers (34) partially intersect.

5. The yarn guide mechanism of a textile machine as claimed in claim 2, wherein: notches (35) are formed in the inner walls of the first line pipe (3) and the second line pipe (38) above each guide roller (33), and the notches (35) correspond to each other; a through pipe (36) is fixedly connected in each notch groove (35), and the other side of each through pipe (36) extends to the lower part of the guide roller (33); each notch of the notch (35) is provided with a filter screen.

6. The textile machine yarn guide mechanism of claim 5, wherein: two magnetic blocks (37) with opposite magnetism are fixedly connected to the inner wall of each through pipe (36), and the magnetic blocks (37) attract each other in the initial state.

Technical Field

The invention belongs to the technical field of hosiery machines, and particularly relates to a thread guide mechanism of a textile machine.

Background

The hosiery knitter is a textile device which adopts crochet to knit out the formed hosiery piece and produce hosiery articles, the hosiery knitter can knit out leg, high heel, foot (including sole and surface of sock), and the sections of reinforcing ring and toe, etc. compared with the artificial hosiery knitter, the hosiery knitter greatly improves the efficiency of hosiery. The hosiery machine wire guiding mechanism is installed in the hosiery machine, and thereby hosiery machine wire guiding mechanism is used for drawing the winding frame that knits the line to the leg of a hosiery knitter and weaving, nevertheless current hosiery machine still has certain problem, specifically includes following aspect:

sock knitting machine needs the manual work before the start machine among the prior art, draws the yarn to textile mechanism on, prepares operating time long in earlier stage, nevertheless because of can have the phenomenon that the yarn knoed at the in-process of drawing the yarn, leads to preparing on the long basis of operating time in earlier stage, has further increased preceding stage preparation time, and then has reduced sock knitting efficiency.

In view of the above, in order to overcome the above technical problems, the present invention provides a thread guiding mechanism for a textile machine, which solves the above technical problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a thread guide mechanism of a textile machine, which is mainly used for solving the problems that the prior hosiery machine needs to manually pull the yarns to the textile mechanism before starting the machine, the early preparation working time is long, and the yarns are easy to be knotted in the process of pulling the yarns, so that the early preparation time is increased again.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention discloses a thread guide mechanism of a textile machine, which comprises a workbench and a thread guide mechanism; the wire guiding mechanism comprises a first wire guiding ring, a second wire guiding ring and a third wire guiding ring; a spinning mechanism is fixedly arranged on the upper surface of the workbench; the upper surface of the workbench is fixedly connected with a first wire guiding ring, and the first wire guiding ring surrounds the textile mechanism; the upper surface of the first wire ring is fixedly connected with uniformly arranged wire guide plates; first wire holes which are uniformly distributed are formed in the inner wall of each wire guide plate; the upper surface of the workbench is rotatably connected with two supporting rods; the outer surfaces of the two support rods are engaged with a first lantern ring through threads; the two first lantern rings are fixedly connected with the same second wire ring through a support rod; second wire holes which are uniformly distributed are formed in the inner wall of the second wire ring; a second sleeve ring is rotatably connected above the first sleeve ring on the outer surface of the supporting rod, and the second sleeve ring always keeps rotating at the same position; the second body lantern rings are fixedly connected with a third lead ring together, and the third lead ring is in a conical design; the conical surface of the third wire ring is rotatably connected with uniformly arranged coils through a rotating shaft; a supporting plate is fixedly connected to the lower surface of the third wire ring below each coil, and one side of the supporting plate, which is far away from the coil, is in an inclined design; the lower surface of each supporting plate is fixedly connected with an air pump; third wire holes are formed in the inner wall of each supporting plate; annular grooves are formed in the inner wall of each supporting plate and surround the third wire holes; the third annular grooves are communicated with the air pump through air pipes; a first line pipe is rotatably connected in the inner wall of each third line hole through threads, and the first line pipe is made of an elastomer material; the inner wall of the annular groove is fixedly connected with short pipes which are uniformly arranged, and the other sides of the short pipes extend into the first line pipe; the other side of the first wire pipe is meshed with a second wire hole in a second wire ring through threads; a second spool is meshed below the second spool hole through threads, and the other side of the second spool is meshed with the first spool hole through threads; the first spool is identical to the second spool.

In the prior art, before starting a machine, a hosiery machine needs to manually pull yarns to a textile mechanism, the early preparation working time is long, and the yarns are easy to be knotted in the process of pulling the yarns, so that the early preparation time is increased again;

the yarn guide mechanism manufactured by the invention has the advantages that the first yarn pipe and the second yarn pipe which are uniformly distributed are arranged to pull yarns, and the yarns are pushed by matching with the thrust of gas, so that the yarn guide mechanism can replace manual yarn pulling, meanwhile, the yarns are separated, so that the knotting condition among the yarns can be prevented, the yarn pulling efficiency can be improved, and the preparation work for pulling the yarns at the early stage is reduced;

when in work, before starting the hosiery machine, the yarn pulling sequence of the yarn for knitting the hosiery is firstly adjusted according to the requirement to the positions between the first yarn tube and the second yarn tube and different yarn holes, because the first yarn tube and the second yarn tube are both in threaded connection with the corresponding yarn holes through threads, the first yarn tube and the second yarn tube can be fixed at different yarn hole positions, the finally realized connection sequence between the first yarn tube and the second yarn tube and the yarn holes is matched with the yarn pulling sequence, then the yarn ends are placed in the corresponding first yarn tubes, then the hosiery machine is started, when the hosiery machine is started, the controller air pump works, because the air pump is communicated with the annular groove, the air of the air pump can enter the annular groove, then the air enters the first yarn tube through the uniformly arranged short tubes, the thrust generated along with the increase of the air in the first yarn tube can be slowly increased, thereby the yarn can be pushed to move in the first yarn tube, meanwhile, the first spool is designed downwards, so that the first spool can be prevented from being bent to influence the movement of the yarns, after the yarns move to the second thread holes in the second wire ring, the yarns can change the movement track of the yarns according to the second spool connected with the yarns, the yarns can be prevented from approaching each other in the process of pulling the yarns, so that the yarns are knotted, meanwhile, the problem that workers need to pull each yarn to a spinning mechanism in sequence is solved, the early preparation work of the workers is saved, meanwhile, the yarns are not exposed outside, so that the yarns can be prevented from being broken by external force outside, the working efficiency is influenced, meanwhile, in the process of pushing the yarns to move by gas, dust attached to the yarns can be blown off, and the quality of the yarns is prevented from being reduced due to too much dust of the socks in the weaving process, after the yarn leaks through the second spool and through first line hole, the manual work pulls the yarn to the spinning machine structure on to close the air pump, can weave the socks.

Preferably, the inner walls of the first line pipe and the second line pipe are respectively connected with uniformly arranged guide line roller sets in a rotating mode through rotating shafts, and the distance between the guide line roller sets is four centimeters to six centimeters; each guide roller group comprises two guide rollers; each guide roller rotates uniformly and unidirectionally and rotates towards one side opposite to the two guide rollers;

when the first spool and the second spool are manufactured, the first spool and the second spool are manufactured into two parts corresponding to each other, then a structure needing to be installed and a slotted hole needing to be formed are added into the two parts of the first spool and the second spool, and then the first spool and the second spool are bonded by glue;

because two deflector rolls on the wire roller group are the unidirectional rotation design, when gaseous through the deflector roll, can promote two relative deflector rolls and rotate to relative one side, the deflector roll of relative rotation can promote the yarn and move in first spool and second spool in this process, can also lead to the yarn simultaneously, prevent when the yarn is too long, the phenomenon of gathering appears in first spool and second spool in the yarn, relative pivoted deflector roll can also prevent that the yarn from pasting on first spool and second spool inside wall unable removal simultaneously, make the phenomenon of gathering appear in the yarn.

Preferably, the outer surface of each guide roller is fixedly connected with uniformly arranged deflector rods;

during operation, because the deflector roll surface links firmly the driving lever of evenly arranging, can drive the deflector roll rotation when deflector roll pivoted in-process, when two deflector rolls are close to, can clip the yarn and drive the yarn downstream, can straighten the yarn at this in-process to the phenomenon of gathering appears in the further yarn that prevents, can also further prevent that the yarn from pasting on first spool and second spool inside wall unable downstream simultaneously.

Preferably, each deflector rod is made of elastic rubber material; each deflector rod part is crossed;

the during operation, because the driving lever is made for elastic rubber material, and the driving lever part that corresponds each other is crossing, when the driving lever that corresponds each other is close to each other, can take place the laminating between the driving lever that corresponds each other, can improve the centre gripping dynamics to the yarn after the driving lever laminating, thereby can be more convenient drive the yarn and remove in first spool and second spool, when the driving lever rotates downwards and breaks away from after to the laminating, because the driving lever is made for elastic rubber material, the driving lever when breaking away from can take place to kick-back under the effect of elasticity, can play the yarn to deflector roll below at this in-process, can prevent at this in-process that the yarn from being stained with and attaching on the driving lever, twine the yarn.

Preferably, notches are formed in the inner walls of the first line pipe and the second line pipe above each guide roller, and the notches correspond to each other; a through pipe is fixedly connected in each notch, and the other side of each through pipe extends to the lower part of the guide roller; a filter screen is arranged at each notch of the notch;

when the yarn feeder works, the grooves are formed in the inner walls of the first spool and the second spool above the guide pipe, when gas passes through the grooves, part of the gas flows into the through pipe through the grooves, the other side of the through pipe extends to the lower side of the guide roller, the gas flowing into the through pipe is sprayed out through the through pipe, and the yarn can be impacted in the gas spraying process, so that the yarn can be further prevented from being attached to the guide roller, and meanwhile, the yarn can be pushed into the hollow cavities of the first spool and the second spool, and the yarn can be prevented from being attached to the inner walls of the first spool and the second spool to influence the movement of the yarn; because the filter screens are installed at the positions of the notches, the yarns can be prevented from entering the notches and influencing the movement of the yarns.

Preferably, two magnetic blocks with opposite magnetism are fixedly connected to the inner wall of each through pipe, and the magnetic blocks attract each other in an initial state;

the during operation, because two magnetic path inter attraction that link firmly in the siphunculus, back in gaseous going on passing through, the siphunculus can take place the inflation, after the siphunculus inflation reaches certain degree, can open the magnetic path of inter attraction through interior gas, gaseous blowout in the twinkling of an eye after the magnetic path is opened, can improve gaseous impact at this in-process to further drive the yarn downstream, can also prevent simultaneously that the yarn from being stained with and attach on first spool and second spool inside wall.

The invention has the following beneficial effects:

1. the yarn guide mechanism manufactured by the invention has the advantages that the first yarn pipe and the second yarn pipe which are uniformly distributed are arranged to pull yarns, and the yarns are pushed by matching with the thrust of gas, so that the yarn guide mechanism can replace manual yarn pulling, meanwhile, the yarns are separated, so that the knotting condition among the yarns can be prevented, the yarn pulling efficiency can be improved, and the preparation work for pulling the yarns at the early stage is reduced.

2. Because two deflector rolls on the wire roller group are the unidirectional rotation design, when gaseous through the deflector roll, can promote two relative deflector rolls and rotate to relative one side, the deflector roll of relative rotation can promote the yarn and move in first spool and second spool in this process, can also lead to the yarn simultaneously, prevent when the yarn is too long, the phenomenon of gathering appears in first spool and second spool in the yarn, relative pivoted deflector roll can also prevent that the yarn from pasting on first spool and second spool inside wall unable removal simultaneously, make the phenomenon of gathering appear in the yarn.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a body diagram of the present invention;

FIG. 2 is a combined cross-sectional view of the support plate and first conduit of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

in the figure: the yarn guide device comprises a workbench 1, a yarn guide mechanism 11, a first yarn guide ring 12, a yarn guide plate 13, a first yarn hole 14, a support rod 15, a second yarn guide ring 16, a second yarn hole 17, a third yarn guide ring 2, a yarn ball 21, a support plate 22, an air pump 23, a third yarn hole 24, an annular groove 25, a first yarn pipe 3, a short pipe 31, a yarn guide roller group 32, a guide roller 33, a deflector rod 34, a notch 35, a through pipe 36, a magnetic block 37, a second yarn pipe 38 and a spinning mechanism 4.

Detailed Description

A yarn guide mechanism for a textile machine according to the present invention will be described below with reference to fig. 1 to 3.

As shown in fig. 1-3, the thread guiding mechanism of the textile machine comprises a working table 1 and a thread guiding mechanism 11; the wire guide mechanism 11 comprises a first wire loop 12, a second wire loop 16 and a third wire loop 2; a spinning mechanism 4 is fixedly arranged on the upper surface of the workbench 1; the upper surface of the workbench 1 is fixedly connected with a first wire guiding ring 12, and the first wire guiding ring 12 surrounds the textile mechanism 4; the upper surface of the first wire ring 12 is fixedly connected with wire guide plates 13 which are uniformly arranged; first line holes 14 which are uniformly distributed are formed in the inner wall of each line guide plate 13; the upper surface of the workbench 1 is rotatably connected with two support rods 15; the outer surfaces of the two support rods 15 are engaged with a first lantern ring through threads; the two first lantern rings are fixedly connected with the same second wire ring 16 through a support rod; the inner wall of the second wire ring 16 is provided with second wire holes 17 which are uniformly distributed; a second lantern ring is rotatably connected to the outer surface of the supporting rod 15 above the first lantern ring, and the second lantern ring always rotates at the same position; the second body lantern rings are fixedly connected with a third wire ring 2 together, and the third wire ring 2 is in a conical design; the conical surface of the third wire ring 2 is rotatably connected with evenly arranged coils 21 through a rotating shaft; a supporting plate 22 is fixedly connected to the lower surface of the third wire ring 2 below each coil 21, and one side of the supporting plate 22 away from the coil 21 is designed to be inclined; the lower surface of each supporting plate 22 is fixedly connected with an air pump 23; third wire holes 24 are formed in the inner walls of the supporting plates 22; annular grooves 25 are formed in the inner wall of the supporting plate 22, and the annular grooves 25 surround the third wire holes 24; the third annular grooves 25 are communicated with the air pump 23 through air pipes; a first line pipe 3 is rotatably connected in the inner wall of each third line hole 24 through threads, and the first line pipe 3 is made of an elastomer material; the inner wall of the annular groove 25 is fixedly connected with short pipes 31 which are uniformly arranged, and the other sides of the short pipes 31 extend into the first pipeline 3; the other side of the first conduit 3 is engaged with a second wire hole 17 on a second wire ring 16 through threads; a second wire tube 38 is engaged below the second wire hole 17 through threads, and the other side of the second wire tube 38 is engaged with the first wire hole 14 through threads; the first conduit 3 is identical to the second conduit 38.

In the prior art, before starting a machine, a hosiery machine needs to manually pull yarns to a textile mechanism 4, the preliminary preparation working time is long, and the yarns are easy to be knotted in the process of pulling the yarns, so that the preliminary preparation time is increased again;

the yarn guide mechanism 11 manufactured by the invention pulls yarns by arranging the first yarn pipe 3 and the second yarn pipe 38 which are uniformly arranged, and pushes the yarns by matching with the thrust of gas, so that the yarn guide mechanism can replace manual yarn pulling, and meanwhile, because each yarn is separated, the knotting condition among the yarns can be prevented, the yarn pulling efficiency can be improved, and the preparation work for pulling the yarns at the early stage can be reduced;

when in use, before starting the hosiery machine, the positions between the first bobbin 3 and the second bobbin 38 and different thread holes are adjusted according to the thread pulling sequence of the yarn for knitting the hosiery as required, because the first bobbin 3 and the second bobbin 38 are both in threaded connection with the thread holes corresponding to each other through threads, the first bobbin 3 and the second bobbin 38 can be fixed at different thread hole positions, the finally realized connection sequence between the first bobbin 3, the second bobbin 38 and the thread holes is matched with the yarn pulling sequence, then the yarn thread heads are placed in the first bobbin 3 corresponding to each other, then the hosiery machine is started, when the hosiery machine is started, the controller air pump 23 works, because the air pump 23 is communicated with the annular groove 25, the air of the air pump 23 can enter the annular groove 25, then the air enters the first bobbin 3 through the short pipes 31 which are uniformly arranged, the thrust generated along with the increase of the air in the first bobbin 3 can be increased slowly, therefore, the yarn can be pushed to move in the first spool 3, meanwhile, the first spool 3 is designed downwards, so that the first spool 3 can be prevented from bending to influence the movement of the yarn, after the yarn moves to the second wire hole 17 in the second wire ring 16, the yarn can change the movement track of the yarn according to the second spool 38 connected with the yarn, in the process, the yarn can be prevented from being close to each other in the yarn traction process, so that the knotting situation of the yarn occurs, meanwhile, the problem that each yarn needs to be sequentially pulled to the textile mechanism 4 by a worker can be solved, the early preparation work of the worker is saved, meanwhile, the yarn is not exposed outside, so that the yarn can be prevented from being disconnected by external force, the working efficiency is influenced, and meanwhile, in the process of pushing the yarn to move by gas, dust attached to the yarn can be blown off, therefore, the quality of the socks is prevented from being reduced due to excessive dust of the yarns during the knitting process, and after the yarns leak out through the first thread holes 14 through the second thread pipe 38, the yarns are manually drawn to the textile mechanism 4, and the air pump 23 is closed, so that the socks can be knitted.

In one embodiment of the present invention, the method includes: the inner walls of the first pipeline 3 and the second pipeline 38 are respectively connected with uniformly arranged guide line roller sets 32 through rotating shafts, and the distance between the guide line roller sets 32 is four to six centimeters; each of the wire roller sets 32 includes two guide rollers 33; each guide roller 33 rotates uniformly and unidirectionally and rotates towards one side opposite to the two guide rollers 33;

when the wire winding device works, the first wire pipe 3 and the second wire pipe 38 used in the wire winding device are both formed by gluing, when the first wire pipe 3 and the second wire pipe 38 are manufactured, the first wire pipe 3 and the second wire pipe 38 are firstly manufactured into two parts which correspond to each other, then a structure needing to be installed and a slotted hole needing to be formed are added into the two parts of the first wire pipe 3 and the second wire pipe 38, and then the wire winding device is formed by gluing;

because two deflector rolls 33 on wire roller set 32 are the unidirectional rotation design, when gaseous through deflector roll 33, can promote two relative deflector rolls 33 and rotate to relative one side, deflector roll 33 that rotates relatively in this in-process can promote the yarn and move in first spool 3 and second spool 38, can also lead to the yarn simultaneously, prevent when the yarn is too long, the phenomenon of gathering appears in first spool 3 and second spool 38 in the yarn, simultaneously relative pivoted deflector roll 33 can also prevent that the yarn from pasting on first spool 3 and second spool 38 inner wall unable removal, the phenomenon of gathering appears in the messenger's yarn. As an embodiment of the present invention, the outer surface of each guide roller 33 is fixedly connected with a uniformly arranged shift lever 34;

during operation, because deflector rod 34 that evenly arranges has been linked firmly to the deflector roll 33 surface, can drive deflector rod 34 to rotate when deflector roll 33 pivoted in-process, when two deflector rods 34 are close to, can clip the yarn and drive the yarn downstream, can straighten the yarn at this in-process to the phenomenon of gathering appears in the further yarn that prevents, can also further prevent simultaneously that the yarn from pasting on first spool 3 and second spool 38 inner wall unable downstream.

As an embodiment of the present invention, each of the shift levers 34 is made of an elastic rubber material; each of the levers 34 partially intersect;

the during operation, because driving lever 34 is made for elastic rubber material, and the driving lever 34 part that corresponds each other is crossing, when the driving lever 34 that corresponds each other is close to each other, can take place the laminating between the driving lever 34 that corresponds each other, can improve the centre gripping dynamics to the yarn after driving lever 34 laminates, thereby can be more convenient drive the yarn and remove in first spool 3 and second spool 38, when driving lever 34 downwardly turned and when breaking away from after laminating, because driving lever 34 makes for elastic rubber material, driving lever 34 when breaking away from can take place to kick-back under the effect of elasticity, can be in this in-process with yarn bullet to deflector roll 33 below, can prevent that the yarn from being stained with and attaching on driving lever 34 at this in-process, twine the yarn.

As an embodiment of the present invention, each guide roller 33 has a notch 35 formed in the inner wall of the first line pipe 3 and the second line pipe 38, and the notches 35 correspond to each other; a through pipe 36 is fixedly connected in each notch 35, and the other side of the through pipe 36 extends to the lower part of the guide roller 33; a filter screen is arranged at the notch of each notch 35;

when the yarn guide device works, the upper part of the guide pipe is provided with the notches 35 in the inner walls of the first bobbin 3 and the second bobbin 38, when gas passes through the notches 35, part of the gas flows into the through pipe 36 through the notches 35, the other side of the through pipe 36 extends to the lower part of the guide roller 33, the gas flowing into the through pipe 36 can be sprayed out through the through pipe 36, and the yarn can be impacted in the gas spraying process, so that the yarn can be further prevented from being attached to the guide roller 33 in the process, and the yarn can be pushed into the hollow cavities of the first bobbin 3 and the second bobbin 38, so that the yarn can be prevented from being attached to the inner walls of the first bobbin 3 and the second bobbin 38, and the movement of the yarn is influenced; because the filter screens are installed at the positions of the notches 35, the yarns can be prevented from entering the notches 35 and influencing the movement of the yarns.

As an embodiment of the present invention, two magnetic blocks 37 with opposite magnetism are fixedly connected to the inner wall of each through pipe 36, and the magnetic blocks 37 attract each other in an initial state;

during operation, because two magnetic paths 37 that link firmly in siphunculus 36 attract each other, after gaseous going on through, siphunculus 36 can take place the inflation, after siphunculus 36 inflation to certain degree, gaseous magnetic path 37 that can attract each other through interior can be washed away, gaseous blowout in the twinkling of an eye after magnetic path 37 washes away, can improve gaseous impact at this in-process to further drive the yarn downstream, can also prevent simultaneously that the yarn from being stained with on first spool 3 and second spool 38 inner wall.

The specific working process is as follows:

when in use, before starting the hosiery machine, the positions between the first bobbin 3 and the second bobbin 38 and different thread holes are adjusted according to the thread pulling sequence of the yarn for knitting the hosiery as required, because the first bobbin 3 and the second bobbin 38 are both in threaded connection with the thread holes corresponding to each other through threads, the first bobbin 3 and the second bobbin 38 can be fixed at different thread hole positions, the finally realized connection sequence between the first bobbin 3, the second bobbin 38 and the thread holes is matched with the yarn pulling sequence, then the yarn thread heads are placed in the first bobbin 3 corresponding to each other, then the hosiery machine is started, when the hosiery machine is started, the controller air pump 23 works, because the air pump 23 is communicated with the annular groove 25, the air of the air pump 23 can enter the annular groove 25, then the air enters the first bobbin 3 through the short pipes 31 which are uniformly arranged, the thrust generated along with the increase of the air in the first bobbin 3 can be increased slowly, therefore, the yarn can be pushed to move in the first spool 3, meanwhile, the first spool 3 is designed downwards, so that the first spool 3 can be prevented from bending to influence the movement of the yarn, after the yarn moves to the second wire hole 17 in the second wire ring 16, the yarn can change the movement track of the yarn according to the second spool 38 connected with the yarn, in the process, the yarn can be prevented from being close to each other in the yarn traction process, so that the knotting situation of the yarn occurs, meanwhile, the problem that each yarn needs to be sequentially pulled to the textile mechanism 4 by a worker can be solved, the early preparation work of the worker is saved, meanwhile, the yarn is not exposed outside, so that the yarn can be prevented from being disconnected by external force, the working efficiency is influenced, and meanwhile, in the process of pushing the yarn to move by gas, dust attached to the yarn can be blown off, therefore, the quality of the socks is prevented from being reduced due to excessive dust of the yarns during the knitting process, and after the yarns leak out through the first thread holes 14 through the second thread pipe 38, the yarns are manually drawn to the textile mechanism 4, and the air pump 23 is closed, so that the socks can be knitted.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.