阅读说明：本技术 一种织袜机纱线处理机构 (Hosiery machine yarn processing mechanism ) 是由 史璐璐 于 2021-07-12 设计创作，主要内容包括：本发明属于织袜机技术领域,具体的说是一种织袜机纱线处理机构；包括绕线组、第一处理机构和第二处理机构；所述绕线组包括安装板；所述安装板上通过转轴转动有线组；所述第一处理机构与第二处理机构结构相同；所述第一处理机构与安装板固连；所述第二处理机构固连在织袜机上的纺织针筒处；本发明主要用于解决目前纺织袜子所使用的纱线均是通过纤维制成的,因此导致纱线外表面存在翘起的绒毛,当含有绒毛的纱线在输送时,织袜机上的输送机构容易对纱线进行剐蹭,容易将纱线更多的绒毛刮起,同时若剐蹭力度较大时还可以将绒毛刮掉飘散到空气中,影响空气质量,若纱线表面的绒毛过多时,纺织的袜子容易出现起球的现象。(The invention belongs to the technical field of hosiery machines, and particularly relates to a yarn processing mechanism of a hosiery machine; the winding device comprises a winding group, a first processing mechanism and a second processing mechanism; the winding group comprises a mounting plate; the mounting plate rotates the wired group through the rotating shaft; the first processing mechanism and the second processing mechanism have the same structure; the first processing mechanism is fixedly connected with the mounting plate; the second processing mechanism is fixedly connected with a textile needle cylinder on the hosiery knitter; the invention is mainly used for solving the problems that raised fluff exists on the outer surface of the yarn due to the fact that the yarn used for weaving the socks is made of fibers, when the yarn containing the fluff is conveyed, a conveying mechanism on a hosiery knitter is easy to scrape the yarn, more fluff on the yarn is easy to scrape, meanwhile, if the scraping force is high, the fluff can be scraped and scattered into the air to influence the air quality, and if the fluff on the surface of the yarn is too much, the woven socks are easy to ball.)

1. The utility model provides a hosiery machine yarn processing mechanism which characterized in that: comprises a winding group (1), a first processing mechanism (2) and a second processing mechanism (21); the winding group (1) comprises a mounting plate (11); the mounting plate (11) is provided with a wired group (12) through a rotating shaft in a rotating way; the first processing mechanism (2) and the second processing mechanism (21) have the same structure; the first processing mechanism (2) is fixedly connected with the mounting plate (11); the second processing mechanism (21) is fixedly connected with a textile needle cylinder on the hosiery knitter; the first process mechanism (2) includes a process cartridge (22); the inner walls of the upper surface and the lower surface of the processing box (22) are respectively provided with a wire hole (23); two rotating rollers (24) are rotatably connected in the cavity of the processing box (22) below the wire hole (23) at the upper part through a rotating shaft, and the two rotating rollers (24) are mutually attached; the rotating roller (24) is made of elastic rubber; a group of conveyor belts (3) are rotatably connected in the cavity of the processing box (22) below the rotating roller (24) through a rotating shaft, and the number of the conveyor belts (3) is two and the conveyor belts are mutually corresponding; two motors (31) are fixedly connected with the end face of the bottom of the processing box (22) in the cavity of the processing box (22); the two motors (31) are fixedly connected with the rotating shafts on the corresponding conveyor belts (3) through rotating rods; the rotation directions of the two conveyor belts (3) are opposite.

2. A hosiery knitting machine yarn handling mechanism according to claim 1, wherein: the upper side and the lower side of the conveyor belt (3) are fixedly connected with supporting plates (32) in the inner wall of the processing box (22); through holes are formed in the inner walls of the two supporting plates (32); the two through holes are connected with a treatment cylinder (33) in a rotating mode together, and the treatment cylinder (33) is mutually attached to the conveyor belts (3) on the two sides; the treatment cylinder (33) is fixedly connected with uniformly arranged partition plates (34) in the cavity.

3. A hosiery knitting machine yarn handling mechanism according to claim 2, wherein: conical blocks (35) which are uniformly arranged are fixedly connected in the inner wall of each partition plate (34), and the conical blocks (35) are made of elastic rubber materials; each conical block (35) is arranged in a staggered manner.

4. A hosiery knitting machine yarn handling mechanism according to claim 1, wherein: the outer surface of the rotating roller (24) on the left side is fixedly connected with uniformly distributed convex layers (25), and the convex layers (25) are made of elastic rubber materials; the outer surface of the rotating roller (24) on the right side is provided with uniformly arranged grooves (26), and the grooves (26) are matched with the convex layer (25).

5. A hosiery knitting machine yarn handling mechanism according to claim 2, wherein: annular grooves (27) are formed in the inner walls of the rotating rollers (24) on the left side, and the annular grooves (27) extend to the outside of the first processing mechanism (2) through guide pipes; cavities are formed in the convex layers (25) and communicated with the annular grooves (27); micropores (28) which are uniformly distributed are formed in the inner wall of the convex layer (25); the conduit in the annular groove (27) of the first treatment mechanism (2) is communicated with external tap water.

6. A hosiery knitting machine yarn handling mechanism according to claim 5, wherein: and a conduit extending from an annular groove (27) on the rotating roller (24) of the second processing mechanism (21) is communicated with an air pump.

Technical Field

The invention belongs to the technical field of hosiery machines, and particularly relates to a yarn processing mechanism of a hosiery 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:

in the prior art, yarns used for spinning socks are all made of fibers, raised fluff exists on the outer surfaces of the yarns, when the yarns containing the fluff are conveyed, a conveying mechanism on a hosiery machine is easy to scrape and rub the yarns, more fluff on the yarns is easy to scrape, meanwhile, if the scraping and rubbing force is high, the fluff can be scraped and scattered into the air, the air quality is affected, and if the fluff on the surfaces of the yarns is too much, the spun socks are easy to have a pilling phenomenon.

In view of the above, in order to overcome the above technical problems, the present invention provides a yarn processing mechanism for a hosiery knitting 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 yarn processing mechanism of a hosiery knitting machine, which is mainly used for solving the problem that yarns used for spinning socks are all made of fibers, so that raised fluff exists on the outer surfaces of the yarns, when the yarns containing the fluff are conveyed, a conveying mechanism on the hosiery knitting machine is easy to scrape and rub the yarns, more fluff of the yarns is easy to scrape, meanwhile, if the scraping force is high, the fluff can be scraped and scattered into the air, the air quality is influenced, and if the fluff on the surfaces of the yarns is too much, the phenomenon that the spun socks are easy to pilling occurs.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention discloses a yarn processing mechanism of a hosiery machine, which comprises a winding group, a first processing mechanism and a second processing mechanism; the winding group comprises a mounting plate; the mounting plate rotates the wired group through the rotating shaft; the first processing mechanism and the second processing mechanism have the same structure; the first processing mechanism is fixedly connected with the mounting plate; the second processing mechanism is fixedly connected with a textile needle cylinder on the hosiery knitter; the first process mechanism includes a process cartridge; wire holes are formed in the inner walls of the upper surface and the lower surface of the processing box; two rotating rollers are rotatably connected in the cavity of the processing box below the upper line hole through a rotating shaft, and the two rotating rollers are mutually attached; the rotating roller is made of elastic rubber; a group of conveyor belts are rotatably connected in the cavity of the processing box through a rotating shaft below the rotating roller, and the number of the conveyor belts is two and the conveyor belts are mutually corresponding; two motors are fixedly connected with the end face of the bottom of the processing box in the cavity of the processing box; the two motors are fixedly connected with the rotating shafts on the mutually corresponding conveying belts through rotating rods; the rotation directions of the two conveyor belts are opposite;

in the prior art, yarns used for spinning socks are all made of fibers, so raised fluff exists on the outer surfaces of the yarns, when the yarns containing the fluff are conveyed, a conveying mechanism on a hosiery machine is easy to scrape and rub the yarns, more fluff on the yarns is easy to scrape, meanwhile, if the scraping and rubbing force is high, the fluff can be scraped and scattered into the air to influence the air quality, and if the fluff on the surfaces of the yarns is too much, the spun socks are easy to have a pilling phenomenon;

according to the yarn processing device, the yarn is soaked firstly, so that fluff on the surface of the yarn can be attached to the yarn, contact and rubbing between the fluff on the yarn and the conveying mechanism are reduced, further more fluff is prevented from being scraped out by the conveying mechanism, meanwhile, the yarn is twisted and rubbed by rotating the yarn, so that the yarn is tightened, the fluff on the yarn can be wound and wrapped, further the rubbing degree between the fluff and the conveying mechanism is reduced, and meanwhile, the diameter of the yarn is reduced after the yarn is twisted and rubbed, so that the contact area between the yarn and the conveying mechanism is reduced, and the rubbing degree is reduced;

when the invention is used, firstly, the yarn on the thread group is drawn into the processing box on the first processing mechanism through the thread hole on the processing box, then the yarn is drawn between the rotating roller and the conveyor belt, and is threaded out through the thread hole below the processing box, and then is threaded into the conveying mechanism, after the conveying mechanism is threaded through, the yarn is drawn into the second processing mechanism to repeat the action of the yarn in the first processing mechanism, finally the yarn is drawn into the textile needle cylinder, then the hosiery machine is started, after the hosiery machine is started, the yarn on the thread group is driven to move towards the textile needle cylinder, meanwhile, the controller controls the motor to rotate, the opposite conveyor belt can be driven to rotate in the rotating process of the motor, the directions are opposite, after the yarn passes through the rotating roller, the yarn can drive the rotating roller to rotate, and simultaneously, the rotating roller is made of elastic rubber, so that the yarn can be clamped, and the yarn can be prevented from rotating in the moving process, when the yarn passes through the conveying belt, the oppositely rotating conveying belt can push the yarn to rotate so as to twist the yarn, the yarn can be tightened due to the yarn rotating twisting in the process, the raised fluff can be twisted into the yarn in the yarn tightening process, the yarn is prevented from scraping and rubbing the fluff on the surface of the yarn in the conveying mechanism, the quantity of yarn fluff is increased, the diameter of the yarn can be reduced after the yarn is twisted, the contact area between the yarn and the conveying mechanism can be reduced, excessive fluff is prevented from being scraped out by the conveying mechanism, the phenomenon that the yarn is too fluffy to cause premature pilling of the woven socks can be prevented in the process, after the yarn enters the second processing mechanism through the conveying mechanism, the rotating roller in the second processing mechanism can clamp the yarn to prevent the yarn from rotating, the yarn autorotation after twisting can be prevented from being changed into the initial state in the process, when the yarn passes through the conveyor belt in the second processing mechanism, the rotation direction of the conveyor belt in the controller controlling the second processing mechanism is opposite to the rotation direction in the first processing mechanism, so that the yarn can be driven to reversely rotate compared with the yarn in the first processing mechanism, the yarn after twisting can be changed into the initial state, the yarn which is changed back to the initial state enters the textile needle cylinder for spinning, the condition that the yarn after twisting can shrink when spinning can be prevented in the process, and the condition that wrinkles appear on socks can be caused.

Preferably, the upper side and the lower side of the conveyor belt are fixedly connected with supporting plates in the inner wall of the processing box; through holes are formed in the inner walls of the two supporting plates; a treatment cylinder is connected in the two through holes in a rotating mode, and the treatment cylinder is mutually attached to the conveyor belts on the two sides; the treatment cylinder cavity is fixedly connected with uniformly arranged partition plates;

when the yarn twisting machine works, the treatment barrel is connected in the through hole in a rotating mode, when yarns are pulled to the treatment barrel, the yarns penetrate through the treatment barrel, the treatment barrel can be driven to rotate when the conveying belt rotates, so that the yarns are not directly driven to rotate, the situation that the yarns are thin and cannot be better driven to rotate can be prevented in the process, meanwhile, the yarns can be prevented from being cut and rubbed by the conveying belt, fluff of the yarns is increased, and the arranged separation plates can drive the yarns to rotate and twist due to the fact that the separation plates are arranged in the treatment barrel, so that the yarns and the treatment barrel are prevented from sliding relatively, and the yarns cannot rotate and twist due to the fact that the separation plates are arranged in the treatment barrel.

Preferably, conical blocks which are uniformly distributed are fixedly connected in the inner wall of each partition board, and the conical blocks are made of elastic rubber materials; each conical block is arranged in a staggered mode;

when the yarn twisting device works, the conical blocks fixedly connected in the inner wall of the partition plate are all arranged in a staggered mode, when the yarns penetrate through the treatment barrel, the yarns can be propped by the conical blocks which are evenly arranged, so that the yarns are prevented from sliding and cannot rotate and twist, and the rubbing degree of the conveying mechanism cannot be reduced.

Preferably, the outer surface of the rotating roller on the left side is fixedly connected with uniformly distributed convex layers made of elastic rubber materials; the outer surface of the right rotating roller is provided with uniformly arranged grooves which are matched with the convex layer;

the during operation, because be equipped with protruding layer and the recess of mutually supporting on the live-rollers, when the yarn was through laminating the live-rollers each other, the protruding layer can push the yarn into the recess in, can improve the centre gripping dynamics to the yarn at this in-process to further prevent that the yarn from taking place the rotation at the in-process that removes, can also prevent simultaneously that the yarn that does not get into in the first processing mechanism from taking place the rotation, thereby influence the transportation process of yarn.

Preferably, annular grooves are formed in the inner wall of the rotating roller on the left side, and the annular grooves extend to the outside of the first treatment mechanism through guide pipes; cavities are formed in the convex layers and communicated with the annular grooves; micropores which are uniformly distributed are formed in the inner wall of each convex layer; a conduit in the annular groove on the first treatment mechanism is communicated with external tap water;

the during operation, because pipe and running water intercommunication in the live-rollers on the first processing mechanism, water can pass through in the pipe gets into the ring channel, flow into in the convex layer cavity from the ring channel afterwards, after the convex layer changes over into in the recess, the convex layer can receive the extrusion, consequently, the water that flows in the convex layer can pass through the blowout of micropore minidose, thereby can soak the yarn, after the yarn is soaked, can make fine hair and the laminating of yarn body on the yarn, can prevent the yarn at the in-process fine hair perk of carrying at this in-process, thereby make conveying mechanism scrape down to the fine hair through the yarn perk, can the fine hair be scraped down and float in the air at this in-process, influence the quality of air.

Preferably, a conduit extending from an annular groove on the rotating roller of the second processing mechanism is communicated with an air pump;

during operation, because the pipe that the last live-rollers of second processing mechanism extended communicates with the air pump, the effect of blowing can be played to wetted yarn to the external gas of in-process that the yarn was carried, and when the live-rollers on the yarn process second processing mechanism, when the protruding layer on the second processing mechanism was laminated with the recess, gas can be spouted, can further blow the yarn at this in-process to the dry degree of yarn can be improved.

The invention has the following beneficial effects:

1. according to the yarn processing device, the yarn is soaked firstly, so that fluff on the surface of the yarn can be attached to the yarn, contact and rubbing between the fluff on the yarn and the conveying mechanism are reduced, further more fluff is prevented from being scraped out by the conveying mechanism, meanwhile, the yarn is twisted and rubbed by rotating the yarn, so that the yarn is tightened, the fluff on the yarn can be wound and wrapped, the rubbing degree between the fluff and the conveying mechanism is further reduced, and meanwhile, the diameter of the yarn is reduced after the yarn is twisted and rubbed, so that the contact area between the yarn and the conveying mechanism is reduced, and the rubbing degree is reduced.

2. Because the pipe in the live-rollers on the first processing mechanism communicates with the running water, water can pass through in the pipe gets into the ring channel, flow into in the protruding layer cavity from the ring channel afterwards, after the protruding layer changes over into the recess in, the protruding layer can receive the extrusion, consequently, the interior spun that flows in of protruding in can pass through the micropore small dose, thereby can soak the yarn, after the yarn is soaked, can make fine hair and the laminating of yarn body on the yarn, can prevent the yarn perk at the in-process fine hair of carrying at this in-process, thereby make conveying mechanism scrape the fine hair through the yarn perk and fall, can the fine hair be scraped off and float in the air at this in-process, influence the quality of air.

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 front view of the handling mechanism of the present invention;

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

FIG. 4 is a top view of a treatment canister of the present invention;

in the figure: the winding set 1, the mounting plate 11, the line set 12, the first processing mechanism 2, the second processing mechanism 21, the processing box 22, the line holes 23, the rotating rollers 24, the convex layer 25, the grooves 26, the annular grooves 27, the micropores 28, the conveyor belt 3, the motor 31, the supporting plate 32, the processing cylinder 33, the partition plate 34 and the conical block 35;

Detailed Description

A yarn processing mechanism of a hosiery knitting machine according to the invention will be described below with reference to fig. 1 to 4.

As shown in fig. 1-4, the yarn processing mechanism of the hosiery knitting machine according to the invention comprises a winding group 1, a first processing mechanism 2 and a second processing mechanism 21; the winding group 1 comprises a mounting plate 11; the mounting plate 11 is provided with a wired group 12 through a rotating shaft; the first processing mechanism 2 and the second processing mechanism 21 have the same structure; the first processing mechanism 2 is fixedly connected with the mounting plate 11; the second processing mechanism 21 is fixedly connected with a textile needle cylinder on the hosiery knitter; the first process mechanism 2 includes a process cartridge 22; the inner walls of the upper surface and the lower surface of the processing box 22 are provided with wire holes 23; two rotating rollers 24 are rotatably connected in the cavity of the processing box 22 below the upper wire hole 23 through a rotating shaft, and the two rotating rollers 24 are mutually attached; the rotating roller 24 is made of elastic rubber; a group of conveyor belts 3 are rotatably connected in the cavity of the processing box 22 below the rotating roller 24 through a rotating shaft, and the number of the conveyor belts 3 is two and corresponds to each other; two motors 31 are fixedly connected with the end face of the bottom of the processing box 22 in the cavity of the processing box 22; the two motors 31 are fixedly connected with the rotating shafts on the mutually corresponding conveyor belts 3 through rotating rods; the two conveyor belts 3 rotate in opposite directions;

in the prior art, yarns used for spinning socks are all made of fibers, so raised fluff exists on the outer surfaces of the yarns, when the yarns containing the fluff are conveyed, a conveying mechanism on a hosiery machine is easy to scrape and rub the yarns, more fluff on the yarns is easy to scrape, meanwhile, if the scraping and rubbing force is high, the fluff can be scraped and scattered into the air to influence the air quality, and if the fluff on the surfaces of the yarns is too much, the spun socks are easy to have a pilling phenomenon;

according to the yarn processing device, the yarn is soaked firstly, so that fluff on the surface of the yarn can be attached to the yarn, contact and rubbing between the fluff on the yarn and the conveying mechanism are reduced, further more fluff is prevented from being scraped out by the conveying mechanism, meanwhile, the yarn is twisted and rubbed by rotating the yarn, so that the yarn is tightened, the fluff on the yarn can be wound and wrapped, further the rubbing degree between the fluff and the conveying mechanism is reduced, and meanwhile, the diameter of the yarn is reduced after the yarn is twisted and rubbed, so that the contact area between the yarn and the conveying mechanism is reduced, and the rubbing degree is reduced;

when the invention is used, firstly, the yarn on the thread group 12 is drawn into the processing box 22 on the first processing mechanism 2 through the thread hole 23 on the processing box 22, then the yarn is drawn between the rotating roller 24 and the conveyor belt 3, the yarn penetrates out through the thread hole 23 below the processing box 22, then the yarn penetrates into the conveying mechanism, after the conveying mechanism penetrates through the yarn, the yarn is drawn into the second processing mechanism 21, the action of the yarn in the first processing mechanism 2 is repeated, finally the yarn is drawn into the textile needle cylinder, then the hosiery knitter is started, after the hosiery knitter is started, the yarn on the thread group 12 is driven to move towards the textile needle cylinder, meanwhile, the controller controls the motor 31 to rotate, the opposite conveyor belt 3 can be driven to rotate in the process of the rotation of the motor 31, the direction is opposite, after the yarn passes through the rotating roller 24, the rotating roller 24 can be driven to rotate, meanwhile, because the rotating roller 24 is made of elastic rubber, therefore, the yarn can be clamped, the yarn can be prevented from rotating in the moving process, when the yarn passes through the conveying belt 3, the conveying belt 3 which rotates oppositely can push the yarn to rotate, so that the yarn can be twisted, the yarn can be tightened because of the yarn rotating and twisting in the process, the raised fluff can be twisted and rubbed into the yarn in the yarn tightening process, the yarn can be prevented from scraping and rubbing the fluff on the surface of the yarn in the conveying mechanism, the quantity of the yarn fluff is increased, meanwhile, the diameter of the yarn can be reduced after the yarn is twisted and rubbed, the contact area between the yarn and the conveying mechanism can be reduced, further, the conveying mechanism can be prevented from scraping out excessive fluff, the phenomenon that the too much fluff is generated on the yarn in the process, so that the phenomenon that the too early sock after spinning appears pilling can be prevented, when the yarn enters the second processing mechanism 21 through the conveying mechanism, the rotating roller 24 in the second processing mechanism 21 can clamp the yarn to prevent the yarn from rotating, the rotation of the yarn twisted and twisted can be prevented from being changed into an initial state in the process, when the yarn passes through the conveyor belt 3 in the second processing mechanism 21, the controller controls the rotating direction of the conveyor belt 3 in the second processing mechanism 21 to be opposite to the rotating direction in the first processing mechanism 2, so that the yarn can be driven to rotate reversely compared with the yarn in the first processing mechanism 2, the twisted and twisted yarn can be changed into the initial state, the yarn which is changed back to the initial state enters the textile needle cylinder to be spun, the condition that the yarn twisted and twisted can shrink when being spun can be prevented in the process, and the sock is wrinkled.

As an embodiment of the present invention, the supporting plates 32 are fixedly connected to the upper and lower sides of the conveyor belt 3 in the inner wall of the processing box 22; through holes are formed in the inner walls of the two supporting plates 32; the two through holes are connected with a treatment cylinder 33 in a rotating mode together, and the treatment cylinder 33 is mutually attached to the conveyor belts 3 on the two sides; the treatment cylinder 33 is fixedly connected with uniformly arranged partition plates 34 in the cavity;

when the yarn twisting machine works, the treatment barrel 33 is connected in the through hole in a rotating mode, when yarns are pulled to the treatment barrel 33, the yarns penetrate through the treatment barrel 33, the treatment barrel 33 is driven to rotate when the conveyor belt 3 rotates, so that the yarns are not directly driven to rotate, the situation that the yarns are thin and cannot be better driven to rotate can be prevented in the process, meanwhile, the conveyor belt 3 can be prevented from scraping and rubbing the yarns, fluff of the yarns is increased, and the partition plates 34 are arranged in the treatment barrel 33 and can drive the yarns to rotate and twist, so that the yarns and the treatment barrel 33 are prevented from sliding relatively, and the yarns cannot rotate and twist.

As an embodiment of the present invention, conical blocks 35 are uniformly fixed in the inner wall of each partition 34, and the conical blocks 35 are made of elastic rubber material; each of the conical blocks 35 is arranged in a staggered manner;

when the yarn cutting machine works, the conical blocks 35 fixedly connected in the inner wall of the partition plate 34 are arranged in a staggered mode, when yarns pass through the treatment barrel 33, the yarns can be propped by the conical blocks 35 which are uniformly arranged, so that the yarns are prevented from sliding and cannot rotate and twist, and the scraping degree of a conveying mechanism cannot be reduced.

As an embodiment of the invention, the outer surface of the rotating roller 24 on the left side is fixedly connected with convex layers 25 which are uniformly arranged, and the convex layers 25 are made of elastic rubber materials; the outer surface of the right rotating roller 24 is provided with uniformly arranged grooves 26, and the grooves 26 are matched with the convex layer 25;

during operation, because be equipped with the convex layer 25 and the recess 26 of mutually supporting on the live-rollers 24, when the yarn during through laminating live-rollers 24 each other, the convex layer 25 can push the yarn into in the recess 26, can improve the centre gripping dynamics to the yarn at this in-process to further prevent that the yarn from taking place the rotation at the in-process that removes, can also prevent simultaneously that the yarn that does not get into in first processing mechanism 2 from taking place the rotation, thereby influence the transportation process of yarn.

As an embodiment of the present invention, the inner walls of the rotating rollers 24 on the left side are all provided with annular grooves 27, and the annular grooves 27 all extend to the outside of the first processing mechanism 2 through a conduit; cavities are formed in the convex layer 25 and communicated with the annular groove 27; micropores 28 which are uniformly distributed are formed in the inner wall of the convex layer 25; the conduit in the annular groove 27 of the first treatment mechanism 2 is communicated with the external tap water;

when the yarn processing device works, as the conduit in the rotating roller 24 on the first processing mechanism 2 is communicated with tap water, water can enter the annular groove 27 through the conduit and then flows into the cavity of the convex layer 25 from the annular groove 27, and after the convex layer 25 is rotated into the groove 26, the convex layer 25 can be extruded, so that the water flowing into the convex layer 25 can be sprayed out through the micropores 28 in small dosage, and the yarn can be soaked.

In one embodiment of the present invention, the conduit extending from the annular groove 27 on the rotating roller 24 of the second processing mechanism 21 is communicated with an air pump;

during operation, because the conduit that the rotating roller 24 extends on the second processing mechanism 21 is communicated with the air pump, the external air can play a role in blowing the wetted yarn in the yarn conveying process, and meanwhile, when the yarn passes through the rotating roller 24 on the second processing mechanism 21, after the convex layer 25 on the second processing mechanism 21 is attached to the groove 26, the air can be sprayed out, the yarn can be further blown in the process, and the drying degree of the yarn can be improved.

The specific working process is as follows:

in operation, when the present invention is used, the yarn on the string set 12 is first drawn into the processing box 22 on the first processing mechanism 2 through the string hole 23 on the processing box 22, then drawn between the rotating roller 24 and the conveyor belt 3, and then passes through the string hole 23 below the processing box 22, and then passes through the conveying mechanism, after the conveying mechanism passes through, the yarn is drawn into the second processing mechanism 21 to repeat the action of the yarn in the first processing mechanism 2, and finally drawn into the textile needle cylinder, and then the hosiery knitter is started, after the hosiery knitter is started, the yarn on the string set 12 is driven to move to the textile needle cylinder, and the controller controls the motor 31 to rotate, and the opposite conveyor belt 3 can be driven to rotate during the rotation of the motor 31, and the direction is opposite, after the yarn passes through the rotating roller 24, the rotating roller 24 can be driven to rotate, and because the rotating roller 24 is made of elastic rubber, therefore, the yarn can be clamped, the yarn can be prevented from rotating in the moving process, when the yarn passes through the conveying belt 3, the conveying belt 3 which rotates oppositely can push the yarn to rotate, so that the yarn can be twisted, the yarn can be tightened because of the yarn rotating and twisting in the process, the raised fluff can be twisted and rubbed into the yarn in the yarn tightening process, the yarn can be prevented from scraping and rubbing the fluff on the surface of the yarn in the conveying mechanism, the quantity of the yarn fluff is increased, meanwhile, the diameter of the yarn can be reduced after the yarn is twisted and rubbed, the contact area between the yarn and the conveying mechanism can be reduced, further, the conveying mechanism can be prevented from scraping out excessive fluff, the phenomenon that the too much fluff is generated on the yarn in the process, so that the phenomenon that the too early sock after spinning appears pilling can be prevented, when the yarn enters the second processing mechanism 21 through the conveying mechanism, the rotating roller 24 in the second processing mechanism 21 can clamp the yarn to prevent the yarn from rotating, the rotation of the yarn twisted and twisted can be prevented from being changed into an initial state in the process, when the yarn passes through the conveyor belt 3 in the second processing mechanism 21, the controller controls the rotating direction of the conveyor belt 3 in the second processing mechanism 21 to be opposite to the rotating direction in the first processing mechanism 2, so that the yarn can be driven to rotate reversely compared with the yarn in the first processing mechanism 2, the twisted and twisted yarn can be changed into the initial state, the yarn which is changed back to the initial state enters the textile needle cylinder to be spun, the condition that the yarn twisted and twisted can shrink when being spun can be prevented in the process, and the sock is wrinkled.

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.