阅读说明：本技术 一种织袜机纺织机构 (Hosiery knitter spinning mechanism ) 是由 刘欢红 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纺织机构；包括驱动机构,且驱动机构数量为多个并相互对应；每个所述驱动机构包括两个驱动块,且驱动块相互对应；两个所述驱动块内壁中均开设有第一滑槽,且第一滑槽均与驱动块上方空间连通；每个所述第一滑槽内通过控制器滑动连接有驱动杆,且驱动杆用于推动双头针；本发明主要用于解决目前的织袜机在刚开始纺织袜子的过程中,由于纱线重量较轻,双头针上的纱线容易出现撑起的情况,从而容易导致双头针勾不住纱线,导致纺织完成的袜子出现缺线的现象,同时在纺织一些棉袜时,由于棉袜的线较粗且膨胀,在双头针勾取纱线时,双头针上的钩子容易勾入纱线内,从而导致纱线出现分散影响袜子的质量。(The invention belongs to the technical field of hosiery machines, and particularly relates to a textile mechanism of a hosiery machine; the device comprises a plurality of driving mechanisms which correspond to each other; each driving mechanism comprises two driving blocks, and the driving blocks correspond to each other; first sliding grooves are formed in the inner walls of the two driving blocks and are communicated with the space above the driving blocks; a driving rod is connected in each first sliding groove in a sliding mode through a controller and used for pushing the double-ended needle; the invention is mainly used for solving the problem that the yarn on the double-ended needle is easy to prop up due to light weight of the yarn in the process of just starting to weave socks by the existing hosiery machine, so that the double-ended needle cannot catch the yarn easily, and the phenomenon of yarn shortage of the socks after weaving is caused.)

1. The utility model provides a hosiery machine weaving mechanism which characterized in that: comprises a plurality of driving mechanisms (1), wherein the driving mechanisms (1) are mutually corresponding; each driving mechanism (1) comprises two driving blocks (11), and the driving blocks (11) correspond to each other; first sliding grooves (12) are formed in the inner walls of the two driving blocks (11), and the first sliding grooves (12) are communicated with the space above the driving blocks (11); a driving rod (13) is connected in each first sliding groove (12) in a sliding mode through a controller, and the driving rod (13) is used for pushing a double-ended needle (15); a driving groove (14) is formed in the inner wall of one side, close to the first sliding groove (12), of the driving rod (13); a double-ended needle (15) is connected in the first sliding chute (12) below the driving groove (14) in a sliding manner; a second sliding groove (2) is arranged in the inner wall of the driving block (11) at one side of the two first sliding grooves (12) opposite to each other; a second sliding block (21) is connected in the second sliding chute (2) in a sliding manner; the second sliding chute (2) is communicated with the first sliding chute (12) through a through groove; the lower surface of the driving rod (13) is fixedly connected with a push block (22), and the push block (22) penetrates through the through groove and extends into the second sliding groove (2); the inner walls of the two second sliding blocks (21) are fixedly connected with pull ropes (23), and the other sides of the pull ropes (23) extend to the lower part of the driving block (11) and are in sliding connection with the driving block (11); the end faces of one opposite sides of the two driving blocks (11) are rotatably connected with rotating rods (24) through side plates, and the rotating rods (24) are connected through side plates of a torsion spring; the other sides of the two pull ropes (23) are wound on the corresponding rotating rods (24); the outer surfaces of the two rotating rods (24) are fixedly connected with arc blocks (25) which are uniformly arranged; the outer surface of the arc block (25) is rotatably connected with a rotating layer (26), and the outer surface of the rotating layer (26) is fixedly connected with arc layers (27) which are uniformly arranged; the inner surface of the cavity of the rotating layer (26) is hinged with stop levers (28) which are uniformly arranged, and the stop levers (28) are matched with the arc blocks (25).

2. A hosiery knitting machine textile mechanism according to claim 1, wherein: the lower surfaces of the two driving blocks (11) are fixedly connected with air bags (3), and the pull ropes (23) are arranged on the lower sides of the air bags (3); the outer surfaces of the two pull ropes (23) are fixedly connected with uniformly arranged convex blocks (31), and the convex blocks (31) are partially intersected with the air bag (3); air pipes (32) are fixedly connected in the two air bags (3), and the other side of each air pipe (32) extends to the opposite side of the two driving blocks (11).

3. A hosiery knitting machine textile mechanism according to claim 2, wherein: each air pipe (32) extends into a cavity on the opposite side of the driving block (11) and is connected with a short pipe (33) in a sliding way through a spring, and the pipe head of the short pipe (33) is conical; the conical surface of the short pipe (33) is fixedly connected with evenly arranged fluff (34).

4. A hosiery knitting machine textile mechanism according to claim 1, wherein: the two pull ropes (23) are flexible pipes; the hoses extend to the back side of the second sliding block (21); the second sliding block (21) is fixedly connected with a rubber layer (4) in a back direction, and the rubber layer (4) is used for sealing the second sliding groove (2); the second sliding chute (2) below the rubber layer (4) contains gas; a cavity is arranged in the inner walls of the two rotating rods (24), and the other side of the hose extends into the cavity; the arc blocks (25) on the rotating rod (24) are internally provided with first air passages (41), and the first air passages (41) are communicated with the cavity of the rotating rod (24); a second air passage (42) is formed in the inner wall of the stop lever (28), and the second air passage (42) is matched with the first air passage (41); the second air passages (42) are communicated with the cavities of the arc layers (27) which are uniformly arranged.

5. A hosiery knitting machine textile mechanism according to claim 4, wherein: every through-hole (43) have all been seted up in the arc layer (27) inner wall, and all linked firmly silica gel layer (44) in through-hole (43).

6. A hosiery knitting machine textile mechanism according to claim 5, wherein: micropores (45) are formed in the inner wall of each silica gel layer (44).

Technical Field

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

hosiery machine among the prior art is at the in-process that just begins weaving socks, because yarn weight is lighter, the condition of propping appears easily in the yarn on the duplex needle to lead to the double-end needle to collude not to live the yarn easily, lead to weaving the socks of accomplishing to appear the phenomenon of lack of line, when weaving some cotton socks simultaneously, because the line of cotton socks is thick and inflation, when the yarn was colluded to the duplex needle, hook on the duplex needle colluded in the yarn easily, thereby lead to the yarn to appear the quality that the dispersion influences socks.

In view of the above, in order to overcome the above technical problems, the present invention develops a textile mechanism of 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 textile mechanism of a hosiery knitting machine, which is mainly used for solving the problem that the yarn on a double-ended needle is easy to prop up due to light weight of the yarn in the process of just starting to weave socks by the existing hosiery knitting machine, so that the double-ended needle is easy to hook the yarn, the yarn shortage phenomenon of the finished socks is caused, and meanwhile, when some cotton socks are woven, hooks on the double-ended needle are easy to hook into the yarn due to thick and expanded yarn of the cotton socks, so that the yarn is scattered to influence the quality of the socks.

The technical scheme adopted by the invention for solving the technical problems is as follows: the textile mechanism of the hosiery machine comprises a plurality of driving mechanisms, wherein the driving mechanisms are mutually corresponding; each driving mechanism comprises two driving blocks, and the driving blocks correspond to each other; first sliding grooves are formed in the inner walls of the two driving blocks and are communicated with the space above the driving blocks; a driving rod is connected in each first sliding groove in a sliding mode through a controller and used for pushing the double-ended needle; a driving groove is formed in the inner wall of one side, close to the first sliding groove, of the driving rod; a double-ended needle is connected in the first sliding groove in a sliding manner below the driving groove; a second sliding groove is formed in the inner wall of the driving block at one side of the two first sliding grooves, which is opposite to the first sliding groove; a second sliding block is connected in the second sliding groove in a sliding manner; the second sliding groove is communicated with the first sliding groove through a through groove; the lower surface of the driving rod is fixedly connected with a push block, and the push block penetrates through the through groove and extends into the second sliding groove; the inner walls of the two second sliding blocks are fixedly connected with pull ropes, and the other sides of the pull ropes extend to the lower part of the driving block and are connected with the driving block in a sliding manner; the end surfaces of two opposite sides of the driving blocks are rotatably connected with rotating rods through side plates, and the rotating rods are connected through side plates of torsion springs; the other sides of the two pull ropes are wound on the corresponding rotating rods; the outer surfaces of the two rotating rods are fixedly connected with arc blocks which are uniformly arranged; the outer surface of the arc block is rotatably connected with a rotating layer, and the outer surface of the rotating layer is fixedly connected with arc layers which are uniformly arranged; the inner surface of the rotating layer cavity is hinged with stop levers which are uniformly arranged, and the stop levers are matched with the arc blocks;

in the prior art, in the process of just starting to weave socks, yarns on double-ended needles are easy to support due to light weight of the yarns, so that the double-ended needles are easy to hook the yarns, and the phenomenon of yarn shortage of the socks after weaving is caused;

according to the textile mechanism manufactured by the invention, the arc-shaped layer can be driven to rotate by utilizing the self sliding of the driving rod, so that the yarn is pulled to move downwards, the yarn can be prevented from being supported on the double-ended needle too lightly, the yarn can not slide into the hook of the double-ended needle, and the phenomenon of yarn shortage of the textile socks can be avoided;

when the double-ended needle driving device works, the controller controls the driving mechanism to work and controls the double-ended needle in the first chute on the driving block to slide left and right to weave threads, the above contents are the prior art, and are not explained much, when the driving rod drives the double-ended needle to move right and the hook on the left double-ended needle is about to separate from the left driving block, the push block fixedly connected on the lower surface of the right driving rod is just attached to the slide block in the second chute, when the driving rod continues to slide right, the second slide block can be pushed to slide in the second chute, because the pull rope is fixedly connected on the second slide block, the pull rope can move in the sliding process of the second slide block, and because the other side of the pull rope is wound on the rotating rod, the rotating rod can be driven to rotate towards one side opposite to the two rotating rods, the arc block fixedly connected on the outer surface of the rotating rod is attached to the stop rod, thereby can drive the rotation of the rotating layer, because the outer surface of the rotating layer is fixedly connected with the arc layer, thereby can drive the arc layer to rotate, the yarn can be pushed to move downwards in the rotating process of the arc layer, the yarn can be pulled to be attached with the double-ended needle in the process, thereby preventing the yarn from being propped up on the double-ended needle due to too light weight, the yarn can not accurately slide into the hook of the double-ended needle, thereby leading the textile sock to have the condition of thread shortage, simultaneously, when the hosiery machine is used for textile cotton socks, the arc layer drives the cotton thread to move downwards, the cotton thread can be tensioned, further the diameter of the expanded cotton thread can be reduced, the cotton thread is in the stretching state, the tracing thread can better slide into the hook of the double-ended needle, the textile hook is hooked into the cotton thread, thereby leading the cotton thread to have the dispersed condition, thereby influencing the quality of the sock, because the blocking rod is hinged, when the rotating rod is recovered under the torsion of the torsion spring, the arc piece can promote the pin and rotate to can not drive the commentaries on classics layer and rotate, when the actuating lever drove the double-ended needle and slided left, the above-mentioned step can be repeated to left side drive block, thereby further improves the quality of socks.

Preferably, the lower surfaces of the two driving blocks are fixedly connected with air bags, and the pull ropes are arranged on the lower sides of the air bags; the outer surfaces of the two pull ropes are fixedly connected with uniformly arranged convex blocks, and the convex blocks are partially intersected with the air bag; the air pipes are fixedly connected in the two air bags, and the other side of each air pipe extends to the opposite side of the two driving blocks;

the during operation, because the lug is crossing with the gasbag part, at the in-process that the stay cord drove the lug and removes, the lug can extrude the gasbag, receives the extrusion back when the gasbag, and in the gas of gasbag can enter the trachea, through the trachea blowout afterwards, can blow to the line at gas spun in-process to can blow off the dust impurity that is stained with on the yarn, and then prevent to have impurity dust on the socks, reduce the quality of socks.

Preferably, each air pipe extends into the cavity on the opposite side of the driving block and is connected with a short pipe in a sliding manner through a spring, and the pipe head of the short pipe is conical; the conical surface of the short pipe is fixedly connected with evenly distributed villi;

the during operation, because the short tube head department of intraductal sliding connection is the toper design, when gaseous will spout, can promote the short tube roll-off, can reduce the distance between trachea and the line at this in-process, thereby improve gaseous impact dynamics, thereby better blow off the dust, simultaneously because the fine hair has been linked firmly on the conical surface of short tube, can blow the fine hair when the short tube is jet-propelled and flutter, the fine hair that flutters can contact with the yarn, thereby can sweep the dust on the line, thereby further improve the cleaning process to the line, after trachea jet-propelled, the short tube is in the effect gliding income trachea of spring, thereby prevent that fine hair from always contacting with the line, the winding condition appears.

Preferably, the two pull ropes are flexible pipes; the hoses extend to the back side of the second sliding block; the second sliding block is fixedly connected with a rubber layer towards the back, and the rubber layer is used for sealing the second sliding chute; the second chute below the rubber layer contains gas; a cavity is formed in the inner walls of the two rotating rods, and the other side of the hose extends into the cavity; the arc blocks on the rotating rod are internally provided with first air passages which are communicated with the cavity of the rotating rod; a second air passage is formed in the inner wall of the stop lever and is matched with the first air passage; the second air passages are communicated with the uniformly arranged arc-shaped layer cavities;

when the double-head needle is in operation, the pull rope is a hose, the rubber layer is used for sealing the second chute, gas in the second chute can be extruded in the interaction process of the second slider, the gas in the second chute can enter the hose, then the gas in the hose can enter the cavity of the rotating rod, and simultaneously after the arc block is attached to the stop rod, the first air passage and the second air passage are communicated with each other, so that the gas entering the cavity of the rotating rod can be introduced into the cavity of the arc layer, when the gas enters the cavity of the arc layer, the arc layer can expand, the expanded arc layer can be contacted with a knitted wire, the wire is driven to move downwards, the wire can be prevented from sliding into a hook on the double-head needle, the knitted wire can be hooked better, when the driving rod moves in the opposite direction, the rubber layer can push the second slider to return to the initial position, meanwhile, the gas in the arc layer flows back to the second chute, at the moment, the expansion volume of the gas is reduced, therefore, the weaving device can be separated from the textile wire, and the textile wire can be prevented from being wound on the arc-shaped layer to influence the weaving process.

Preferably, a through hole is formed in the inner wall of each arc-shaped layer, and a silica gel layer is fixedly connected in each through hole;

during operation, because the silica gel layer has been linked firmly in the through-hole on the arc layer, after gaseous entering arc in situ, the silica gel layer receives gaseous pressure can outwards expand and form protrudingly, form bellied silica gel layer when rotating, can be better drive braided wire downstream, thereby further prevent that the braided wire can't slide in the hook of double-ended needle, the arch of inflation can also cut the piece of rubbing to the braided wire simultaneously, thereby be stained with attached impurity and dust on the braided wire and scrape off, further reduce the impurity dust on the braided wire, after the intraformational gas reflux of arc, the silica gel layer can resume and enter in the through-hole, thereby can prevent that arc layer winding braided wire.

Preferably, micropores are formed in the inner wall of each silica gel layer;

during operation, because the micropore has been seted up in the silica gel layer inner wall, after the silica gel layer inflation, some gas can be followed the micropore internal blowout, blows the braided wire to can blow off the impurity dust that the silica gel layer was scraped, can also blow off the impurity dust that is stained with on the silica gel layer simultaneously.

The invention has the following beneficial effects:

1. according to the textile mechanism manufactured by the invention, the arc-shaped layer can be driven to rotate by utilizing the self sliding of the driving rod, so that the yarn is pulled to move downwards, the yarn can be prevented from being supported on the double-ended needle due to too light weight, the yarn can not slide into the hook of the double-ended needle, and the phenomenon of yarn shortage of the textile socks can be avoided.

2. When gaseous entering arc layer cavity, the arc layer can take place the inflation, the arc layer after the inflation can with weave good line contact, thereby it moves down to drive the line, prevent the unable hook on the sliding in double-ended needle of line, and then can be better collude and get the braided wire, when the actuating lever moves in the opposite direction, the rubber layer can promote the second slider and resume to initial position, simultaneously the intraformational gas of arc flows back to in the second spout, the arc layer loses gaseous inflation volume and reduces this moment, thereby break away from each other with the braided wire, can prevent the braided wire winding on the arc layer at this in-process, influence weaving process.

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 present invention;

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

FIG. 4 is an enlarged view of portion B of FIG. 2;

FIG. 5 is a cross-sectional view of the coupling of the rotor bar to the rotor layer of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at C;

in the figure: the device comprises a driving mechanism 1, a driving block 11, a first chute 12, a driving rod 13, a driving groove 14, a double-ended needle 15, a second chute 2, a second sliding block 21, a pushing block 22, a pulling rope 23, a rotating rod 24, an arc block 25, a rotating layer 26, an arc layer 27, a stop lever 28, an air bag 3, a bump 31, an air pipe 32, a short pipe 33, fluff 34, a rubber layer 4, a first air passage 41, a second air passage 42, a through hole 43, a silica gel layer 44 and a micropore 45;

Detailed Description

A hosiery knitting machine textile mechanism according to the invention is described below with reference to fig. 1-6.

As shown in fig. 1-6, the textile mechanism of the hosiery knitting machine according to the invention comprises a plurality of driving mechanisms 1, wherein the driving mechanisms 1 are provided in number and correspond to each other; each driving mechanism 1 comprises two driving blocks 11, and the driving blocks 11 correspond to each other; the inner walls of the two driving blocks 11 are respectively provided with a first sliding chute 12, and the first sliding chutes 12 are respectively communicated with the space above the driving blocks 11; a driving rod 13 is connected in each first sliding chute 12 in a sliding manner through a controller, and the driving rod 13 is used for pushing a double-ended needle 15; a driving groove 14 is formed in the inner wall of one side, close to the first sliding groove 12, of the driving rod 13; a double-ended needle 15 is connected in the first sliding chute 12 below the driving groove 14 in a sliding manner; a second sliding groove 2 is arranged in the inner wall of the driving block 11 at one side of the two first sliding grooves 12 opposite to each other; a second sliding block 21 is connected in the second sliding chute 2 in a sliding manner; the second chute 2 is communicated with the first chute 12 through a through groove; the lower surface of the driving rod 13 is fixedly connected with a push block 22, and the push block 22 penetrates through the through groove and extends into the second sliding groove 2; the inner walls of the two second sliding blocks 21 are fixedly connected with pull ropes 23, and the other sides of the pull ropes 23 extend to the lower part of the driving block 11 and are connected with the driving block 11 in a sliding manner; the end surfaces of two opposite sides of the driving blocks 11 are rotatably connected with rotating rods 24 through side plates, and the rotating rods 24 are connected through side plates of torsion springs; the other sides of the two pull ropes 23 are wound on the corresponding rotating rods 24; the outer surfaces of the two rotating rods 24 are fixedly connected with arc blocks 25 which are uniformly arranged; the outer surface of the arc block 25 is rotatably connected with a rotating layer 26, and the outer surface of the rotating layer 26 is fixedly connected with arc layers 27 which are uniformly arranged; the inner surface of the cavity of the rotating layer 26 is hinged with stop levers 28 which are uniformly arranged, and the stop levers 28 are matched with the arc blocks 25;

in the process of just starting to weave socks, a hosiery machine in the prior art is easy to support yarns on double-ended needles 15 due to light weight of the yarns, so that the double-ended needles 15 are easy to hook the yarns, and the phenomenon of yarn shortage of the socks after the weaving is finished is caused;

according to the textile mechanism manufactured by the invention, the arc-shaped layer 27 can be driven to rotate by utilizing the self sliding of the driving rod 13, so that the yarn is pulled to move downwards, the yarn can be prevented from being supported on the double-ended needle 15 due to too light weight, the yarn can not slide into a hook of the double-ended needle 15, the phenomenon of yarn shortage of the textile socks can be caused, and meanwhile, expanded cotton yarns can be pressed into a ring of the hook, so that the hook is prevented from being hooked into the yarn, the yarn is hooked and scattered, and the quality of the socks are influenced;

when the double-ended needle knitting machine works, after the textile machine is started, the controller controls the driving mechanism 1 to work, the driving mechanism 1 controls the double-ended needle 15 in the first sliding chute 12 on the driving block 11 to slide left and right to knit a thread, the above contents are the prior art, and too much description is not provided herein, when the driving rod 13 drives the double-ended needle 15 to move right and the hook on the left double-ended needle 15 is about to be separated from the left driving block 11, the push block 22 fixedly connected on the lower surface of the right driving rod 13 is just attached to the sliding block in the second sliding chute 2, when the driving rod 13 continues to slide right, the second sliding block 21 can be pushed to slide in the second sliding chute 2, because the pull rope 23 is fixedly connected to the second sliding block 21, the pull rope 23 can move in the sliding process of the second sliding block 21, and because the other side of the pull rope 23 is wound on the rotating rod 24, the rotating rod 24 can be driven to rotate towards one side opposite to the two rotating rods 24, the arc block 25 fixedly connected with the outer surface of the rotating rod 24 is mutually attached to the stop lever 28 in the rotating process of the rotating rod 24, so that the rotating layer 26 can be driven to rotate, the arc layer 27 is fixedly connected to the outer surface of the rotating layer 26, so that the arc layer 27 can be driven to rotate, the yarn can be pushed to move downwards in the rotating process of the arc layer 27, the yarn can be pulled to be attached to the double-ended needle 15 in the process, the situation that the yarn is lack of yarn due to the fact that the yarn is slightly propped up on the double-ended needle 15 is avoided, meanwhile, when a hosiery knitting machine is used for spinning cotton socks, the cotton can be pulled downwards by driving the cotton through the arc layer 27, the diameter of the expanded cotton can be reduced, the cotton is in a stretching state, the tracing line can be better slid into the hook of the double-ended needle 15, the spinning hook is hooked into the cotton, and the cotton is scattered, thereby influencing the quality of socks, because the pin 28 is articulated, when the bull stick 24 resumes under the torsion of torsional spring, the arc piece 25 can promote the pin 28 to rotate to can not drive commentaries on classics layer 26 and rotate, when actuating lever 13 drove double-ended needle 15 and slided left, the left side drive block 11 can repeat the above-mentioned step, thereby further improve the quality of socks.

As an embodiment of the invention, the lower surfaces of the two driving blocks 11 are fixedly connected with air bags 3, and the pull ropes 23 are arranged at the lower sides of the air bags 3; the outer surfaces of the two pull ropes 23 are fixedly connected with uniformly arranged convex blocks 31, and the convex blocks 31 are partially intersected with the air bag 3; the air pipes 32 are fixedly connected in the two air bags 3, and the other side of each air pipe 32 extends to the opposite side of the two driving blocks 11;

the during operation, because lug 31 and 3 parts of gasbag are crossing, drive the in-process that lug 31 removed at stay cord 23, lug 31 can extrude gasbag 3, receive the extrusion back when gasbag 3, in the gas of gasbag 3 can get into trachea 32, spout through trachea 32 afterwards, can blow to the line at gas spun in-process to can blow off the dust impurity that is stained with on the yarn, and then prevent to have impurity dust on the socks, reduce the quality of socks.

As an embodiment of the invention, a short pipe 33 is slidably connected to a cavity of each air pipe 32 extending to the opposite side of the driving block 11 through a spring, and the pipe head of the short pipe 33 is tapered; the conical surface of the short pipe 33 is fixedly connected with evenly arranged fluff 34;

the during operation, because short pipe 33 tube head department of sliding connection in trachea 32 is the toper design, when gaseous will spout, can promote short pipe 33 roll-off, can reduce the distance between trachea 32 and the line at this in-process, thereby improve gaseous impact force, thereby better blow off the dust, simultaneously because fine hair 34 has been linked firmly on short pipe 33's the conical surface, can blow fine hair 34 when short pipe 33 jets gas and flutter, fluttering fine hair 34 can contact with the yarn, thereby can sweep off the dust on the line, thereby further improve the cleaning process to the line, after trachea 32 spouts gas, short pipe 33 slides in trachea 32 under the effect of spring, thereby prevent fine hair 34 and line contact always, the winding condition appears.

In one embodiment of the present invention, the two pull cords 23 are flexible tubes; and the hoses extend to the back side of the second slide block 21; the second sliding block 21 is fixedly connected with a rubber layer 4 in a back direction, and the rubber layer 4 is used for sealing the second sliding chute 2; the second chute 2 below the rubber layer 4 contains gas; a cavity is formed in the inner walls of the two rotating rods 24, and the other side of the hose extends into the cavity; the arc blocks 25 on the rotating rod 24 are internally provided with first air passages 41, and the first air passages 41 are communicated with the cavity of the rotating rod 24; a second air passage 42 is formed in the inner wall of the stop lever 28, and the second air passage 42 is matched with the first air passage 41; the second air passages 42 are communicated with the cavities of the arc-shaped layers 27 which are uniformly arranged;

in operation, because the pull rope 23 is a hose, because the rubber layer 4 is used for sealing the second chute 2, the gas in the second chute 2 can be extruded in the interaction process of the second slider 21, the gas in the second chute 2 can enter the hose, then the gas in the hose can enter the cavity of the rotating rod 24, and simultaneously after the arc block 25 is attached to the stop lever 28, the first air passage 41 and the second air passage 42 are communicated with each other, so that the gas entering the cavity of the rotating rod 24 can be introduced into the cavity of the arc layer 27, when the gas enters the cavity of the arc layer 27, the arc layer 27 can expand, the expanded arc layer 27 can be contacted with the knitted thread, thereby driving the thread to move downwards, preventing the thread from sliding into a hook on the double-ended needle 15, and further better hooking the textile thread, when the driving rod 13 moves in the opposite direction, the rubber layer 4 can push the second slider 21 to return to the initial position, simultaneously in gas reflux to second spout 2 in the cambered layer 27, the cambered layer 27 loses gaseous inflation volume reduction this moment to break away from each other with the braided wire, can prevent that the braided wire from winding on cambered layer 27 at this in-process, influencing textile process.

As an embodiment of the present invention, a through hole 43 is formed in the inner wall of each arc-shaped layer 27, and a silica gel layer 44 is fixedly connected in each through hole 43;

during operation, because the silica gel layer 44 is fixedly connected in the through hole 43 on the arc layer 27, after the gas enters the arc layer 27, the silica gel layer 44 is expanded outwards under the pressure of the gas to form a protrusion, the formed protruding silica gel layer 44 can better drive the textile wire to move downwards when rotating, thereby further preventing the textile wire from sliding into the hook of the double-ended needle 15, meanwhile, the expanded protrusion can also scrape and rub the textile wire, thereby scraping the impurities and the dust attached to the textile wire, further reducing the impurities and the dust on the textile wire, after the gas in the arc layer 27 flows back, the silica gel layer 44 can be restored and enter the through hole 43, thereby preventing the arc layer 27 from winding the textile wire.

As an embodiment of the present invention, the inner wall of each silica gel layer 44 is provided with micropores 45;

during operation, because micropore 45 has been seted up in silica gel layer 44 inner wall, after silica gel layer 44 inflation, some gas can be followed micropore 45 and spout, blows textile wire to can blow off the impurity dust that silica gel layer 44 scraped, can also blow off the impurity dust that is stained with on silica gel layer 44 simultaneously.

The specific working process is as follows:

when the double-ended needle knitting machine works, after the textile machine is started, the controller controls the driving mechanism 1 to work, the driving mechanism 1 controls the double-ended needle 15 in the first sliding chute 12 on the driving block 11 to slide left and right to knit a thread, the above contents are the prior art, and too much description is not provided herein, when the driving rod 13 drives the double-ended needle 15 to move right and the hook on the left double-ended needle 15 is about to be separated from the left driving block 11, the push block 22 fixedly connected on the lower surface of the right driving rod 13 is just attached to the sliding block in the second sliding chute 2, when the driving rod 13 continues to slide right, the second sliding block 21 can be pushed to slide in the second sliding chute 2, because the pull rope 23 is fixedly connected to the second sliding block 21, the pull rope 23 can move in the sliding process of the second sliding block 21, and because the other side of the pull rope 23 is wound on the rotating rod 24, the rotating rod 24 can be driven to rotate towards one side opposite to the two rotating rods 24, the arc block 25 fixedly connected with the outer surface of the rotating rod 24 is mutually attached to the stop lever 28 in the rotating process of the rotating rod 24, so that the rotating layer 26 can be driven to rotate, the arc layer 27 is fixedly connected to the outer surface of the rotating layer 26, so that the arc layer 27 can be driven to rotate, the yarn can be pushed to move downwards in the rotating process of the arc layer 27, the yarn can be pulled to be attached to the double-ended needle 15 in the process, the situation that the yarn is lack of yarn due to the fact that the yarn is slightly propped up on the double-ended needle 15 is avoided, meanwhile, when a hosiery knitting machine is used for spinning cotton socks, the cotton can be pulled downwards by driving the cotton through the arc layer 27, the diameter of the expanded cotton can be reduced, the cotton is in a stretching state, the tracing line can be better slid into the hook of the double-ended needle 15, the spinning hook is hooked into the cotton, and the cotton is scattered, thereby affecting the quality of the socks, since the stop lever 28 is hinged, when the rotation lever 24 is restored under the torsion of the torsion spring, the arc block 25 can push the stop lever 28 to rotate, so as not to drive the rotation layer 26 to rotate, and when the driving rod 13 drives the double-ended needle 15 to slide leftwards, the left driving block 11 can repeat the above steps.

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.