CN114808308B

CN114808308B - Broken yarn monitoring system for textile yarns

Info

Publication number: CN114808308B
Application number: CN202210647403.XA
Authority: CN
Inventors: 焦凯; 沈世友; 徐航
Original assignee: Zhejiang Yibang Zhizao Knitting Underwear Co ltd
Current assignee: Zhejiang Yibang Zhizao Knitting Underwear Co ltd
Priority date: 2022-06-08
Filing date: 2022-06-08
Publication date: 2024-01-23
Anticipated expiration: 2042-06-08
Also published as: CN114808308A

Abstract

The invention discloses a broken yarn monitoring system for textile yarns, which belongs to the field of textile equipment and comprises a monitor body, wherein when the device is used, the yarn body firstly penetrates through the monitor body and extends out of two fixed yarn extension channels, when the yarn body passes through the monitor body, a monitoring sensor on the upper inner wall of the monitor body monitors whether the yarn body is broken or not in real time, liquid outlets are arranged on two sides of a rotating ring sleeve, and because the yarn body has water absorption property, a sponge ring sleeve can uniformly adhere yarn lubricant on the outer wall of the yarn body, when a yarn inlet liquid injection thorn rotates to a place extruded with the yarn body, the yarn body downwards extrudes the yarn ring sleeve with deformation capability to enable the yarn inlet liquid injection thorn to enter the yarn body, thereby being beneficial to improving the uniformity of the yarn body adhesion and yarn lubricant adhesion, and being beneficial to improving the finished product quality of yarns and shortening the subsequent drying time.

Description

Broken yarn monitoring system for textile yarns

Technical Field

The invention relates to the field of textile equipment, in particular to a textile yarn breakage monitoring system.

Background

Spinning is divided into two processes of spinning and braiding, origin phase transmission of Chinese spinning is started from silk smelting of silk raising by using ancestor, archaeology discovers spicules on archaeological sites of mountain top cave in old stone age, and as the earliest origin of known spinning, a spinning wheel is invented, so that silk smelting is more convenient, and original spinning machine appears in the western week: the jacquard is invented when the spinning wheel and wheel are in han dynasty, and the jetsu Song Yingxing is written in the jacquard, and the spinning technology is knitted in the jacquard, and the yarns are divided into: (1) staple yarn is made up by using staple fibre (natural staple fibre or chemical fibre cut fibre) through the processes of spinning, and can be made into ring-spun yarn, open-end spinning and self-twisting yarn. (2) Continuous filaments, such as natural silk and chemical fiber filaments, with or without separate twisting, smooth filaments or textured filaments, and the like. (3) Staple and continuous filament combination yarns, such as polyester cotton filament core spun yarns and the like. The yarn is formed by combining and splicing two or more strands of single yarns.

Before finished product processing and weaving are carried out on the spinning body, the surface of the spinning body is required to be smeared with the mixed liquor so as to increase the softness and glossiness of the spinning body, and the spinning body smeared with the liquor has more excellent finished product quality when the finished product is spun at the later stage, so that the product quality of enterprises is better.

The existing process of smearing the mixed liquor on the surface of the spinning body generally comprises the steps of enabling a plurality of bundles of spinning bodies to integrally enter a liquor pool and fuse with the liquor so as to ensure that the spinning bodies can be completely immersed in the liquor, processing in such a way can ensure that the liquor can be completely immersed in the spinning bodies, but the same spinning bodies are in a completely moist state, the subsequent drying time is correspondingly prolonged, the next spinning processing procedure is not facilitated, whether the yarn breakage phenomenon occurs on the spinning bodies or not is monitored by a yarn non-monitoring device in the liquor pool, whether the spinning bodies are still in a complete state or not can not be ensured, broken yarns can not be found timely, and the processing efficiency of the spinning bodies is not facilitated.

Disclosure of Invention

1. Technical problem to be solved

The invention aims to solve the problems in the prior art, and provides a broken yarn monitoring system for textile yarns, when the device is used, a spinning body firstly penetrates through a monitor body and extends out of two solid yarn extension channels, when the spinning body penetrates through the monitor body, a monitoring sensor on the upper inner wall of the monitor body monitors whether the running spinning body is broken or not in real time, a plurality of liquid outlet ports capable of circulating liquid are arranged in side discs on two sides of a rotating ring sleeve, when the liquid outlet ports inject yarn lubricant into a sponge ring sleeve with adsorption capacity through a material pool externally connected with a liquid through pipe, the sponge ring sleeve can uniformly adhere the yarn lubricant on the outer wall of the spinning body due to water absorption of the spinning body, the spinning body immersed in the yarn lubricant is beneficial to increasing softness and glossiness of the spinning body, when the spinning body penetrates through the monitor body, the sponge ring sleeve with deformation capacity is downwards extruded into the spinning body, the spinning body penetrates through the sponge ring sleeve, the yarn lubricant on the surface of the spinning ring sleeve penetrates through the sponge ring sleeve, and the spinning body is beneficial to improving the adhesion quality of the spinning body and the drying uniformity of the yarn, and the drying uniformity of the spinning is beneficial to be improved.

2. Technical proposal

In order to solve the problems, the invention adopts the following technical scheme.

The utility model provides a broken yarn monitored control system of weaving yarn, includes the monitor body, the logical line mouth has all been seted up at both ends about the monitor body, the inner of monitor body runs through and has been woven the line body, and the line body extends to outside the logical line mouth, the inner fixedly connected with waste liquid groove of monitor body, both sides all fixedly connected with stand around the upper end of waste liquid groove, the upper end fixedly connected with side disk of stand, two rotate between the side disk and be connected with the swivel joint cover, two the one end fixedly connected with logical liquid pipe that the side disk kept away from each other, two the one end that logical liquid pipe kept away from each other all external connection has the material pond, two the one end that logical liquid pipe is close to each other has been seted up a plurality of liquid outlets, and is the equidistance setting between a plurality of liquid outlets, the outer end fixedly connected with of swivel joint cover is a plurality of inlet wire notes liquid thorns, and a plurality of inlet wire notes liquid thorns all are located the middle part of swivel joint cover, the outer end fixedly connected with sponge loop cover of swivel joint, and inlet wire annotates liquid thorn to run through the swivel joint cover to extend to the monitor body, the sensor is located the sensor that the inner wall that the monitor was just located on the monitor body is located the side directly over the sensor body.

Further, the inner fixedly connected with inductor of monitor sensor, the inner fixedly connected with controller of monitor body, inductor and controller pass through wire electric connection, the upper end fixedly connected with warning light of monitor body, and warning light and controller pass through wire electric connection, and the monitor sensor of monitor body inner has not normally slided and has taken place the broken wire action to spinning line body, can send the signal to the controller in the monitor body through the inductor in the monitor sensor, and its steerable is located the warning light outside the monitor body and sends light scintillation alarm, alerts the staff here and breaks down.

Further, the upper end symmetry fixedly connected with bee calling organ of monitor body, and two bee calling organ are located the both sides of warning light respectively, bee calling organ passes through wire electric connection with the controller, through setting up bee calling organ, can make the controller still with control the warning light that is located the monitor body and send out audible alarm, warn staff here trouble equally, do benefit to the increase warning effect.

Further, the lower inner wall fixedly connected with hot plate of waste liquid groove, and the inner wrap-around of hot plate has the heating wire, when the liquid pipe is immersed into the sponge ring cover with the liquid through setting up the hot plate, the sponge ring cover receives the extrusion of spinning line body and has some not just can drop the waste liquid groove of sponge ring cover lower extreme by absorbing liquid and collect, and the collecting process, the hot plate of waste liquid groove lower extreme can make its evaporation become the steam that can come up with liquid heating, the steam that floats can be absorbed again by spinning line body and sponge ring cover, be favorable to reducing unnecessary liquid and by crowded extravagant phenomenon that falls.

Further, the inlet wire is annotated liquid thorn and is kept away from the one end of swivel ring cover and has been offered stock solution roof slotted hole, and stock solution roof slotted hole cooperatees with the sponge ring cover, through setting up stock solution roof slotted hole and annotating the liquid thorn when the inlet wire and receive the extrusion and run through the sponge ring cover in the twinkling of an eye, stock solution roof slotted hole that has hydrops ability is annotated more doses in the spinning body, can effectively increase the inlet wire and annotate the liquid thorn annotate liquid efficiency and then help spinning body more even extensive absorption yarn lubricant to guarantee that it is processed into more high-quality textile product.

Further, two the one end that the opening kept away from each other all fixedly connected with solid line extension passageway, and the inner of solid line extension passageway runs through there is the spinning body, through setting up solid line extension passageway, can delay the time that the spinning body collapses out the device outer end, for follow-up clamp broken string provides time.

Further, the upper inner wall symmetry fixedly connected with spacing post of solidus extension passageway, two the lower extreme fixedly connected with second electromagnetic plate of spacing post, the lower inner wall symmetry fixedly connected with two elastic connection spare of solidus extension passageway, two the upper end fixedly connected with first electromagnetic plate of elastic connection spare.

Further, the lower extreme fixedly connected with circular telegram film of first electromagnetism plate, circular telegram cable is connected with to the lower extreme fixedly connected with of circular telegram film, and circular telegram cable extends outside the solidus extension passageway.

Further, the one end that the electrified cable kept away from the electrified cable is external to be had the circular telegram equipment, circular telegram equipment passes through wire electric connection with the controller, first electromagnetic plate and second electromagnetic plate magnetism are connected, and first electromagnetic plate and second electromagnetic plate are located the upper and lower both sides of spinning body respectively, when the spinning body carelessly breaks, the condition emergence of broken string can be detected to the monitoring sensor in the monitor body, the circular telegram equipment that the controller in the monitor body was linked together with it makes its second electromagnetic plate circular telegram in the extension passageway that produces magnetic attraction and the mutual magnetism of second electromagnetic plate on upside inhale, can carry out the centre gripping with the spinning body of disconnection avoid its landing outside the extension passageway that the extension passageway is solid with other spinning cross knots that are sliding weaving in the workshop, do benefit to the normal operating of other spinning in the guarantee workshop.

Further, yarn lubricant is filled in the material pool, and the yarn lubricant is transparent homogeneous liquid.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) When this device is used in this scheme, the threadline body runs through at first in the monitor body and extend to two solid line extension passageway outside, monitor sensor to the interior wall of monitor body when the threadline body passes the monitor body and monitor whether it is broken line phenomenon to the threadline body in operation, be equipped with a plurality of liquid's that can circulate in the side disk of swivel nut both sides, when the liquid outlet pours into the spongy loop cover that has adsorption capacity with the yarn lubricant through the material pond of liquid pipe external connection, owing to threadline body has hydroscopicity, the spongy loop cover can evenly adhere the yarn lubricant at the outer wall of threadline body, the threadline body of flooding yarn lubricant does benefit to increase its compliance and glossiness, when the advancing liquid is annotated the thorn and is rotated to the place that extrudeed mutually with the threadline body, the threadline body will have the spongy loop cover of deformation ability and make the advancing liquid thorn and go deep into threadline body, in the threadline body is penetrated to the spongy lubricant of surface adhesion when advancing liquid and is penetrated the loop cover, be favorable to improving the thread body and adhere the quality with the yarn lubricant, and the subsequent drying time is favorable to improving the quality of yarn.

(2) When the spinning body is continuously fed with the yarn feeding liquid and the yarn feeding liquid, the monitoring sensor at the inner end of the monitor body does not normally slide to the spinning body so as to generate yarn breakage, namely, a signal is sent to the controller in the monitor body through the sensor in the monitoring sensor, the controller controls the two buzzers positioned outside the monitor body to generate sound alarm, thereby attracting staff to check the yarn breakage condition in time,

(3) The controller also controls the alarm lamp outside the monitor body to emit light flashing alarm, and also alerts the staff that the work personnel breaks down, thereby being beneficial to increasing the alert effect.

(4) The spinning body slides on the upper end of the rotating ring sleeve in the monitor body, and the rotating ring sleeve is in a rotating state, so that the risk of breakage of the monitor body caused by strong abrasion is avoided,

(5) When the liquid passing pipe immerses the liquid agent into the sponge loop, the extruded part of the sponge loop is not enough to be absorbed by the spinning line body, and the liquid agent can fall into the waste liquid tank at the lower end of the sponge loop for collection.

(6) And collect and get in the liquid preparation in-process of being absorbed, the hot plate of waste liquid groove lower extreme can be with liquid preparation heating make it evaporate into but the vapor of come-up, and the vapor that floats can be reabsorbed by spinning line body and sponge ring cover, is favorable to reducing unnecessary liquid preparation and is crowded extravagant phenomenon that falls.

(7) When the inlet wire is injected with liquid to be extruded and penetrates through the sponge ring sleeve, the liquid storage top slot hole with liquid accumulation capacity is used for injecting more liquid into the spinning thread body, so that the liquid injection efficiency of the inlet wire injection with liquid can be effectively increased, the spinning thread body can be further helped to adsorb yarn lubricants more uniformly and widely, and the spinning thread body can be guaranteed to be processed into a high-quality textile finished product.

(8) When the spinning body breaks carelessly, the monitoring sensor in the monitor body can detect the broken line condition, the second electromagnetic plate in the fixed line extension channel is electrified by the electrifying equipment communicated with the controller in the monitor body to generate magnetic attraction and the second electromagnetic plate on the upper side to mutually magnetically attract, so that the broken spinning body can be clamped, and the broken spinning body is prevented from sliding out of the fixed line extension channel and is crossed and knotted with other spinning lines in a workshop, so that the normal operation of other spinning lines in the workshop is guaranteed.

Drawings

FIG. 1 is a schematic diagram of a monitor body in front view;

FIG. 2 is a schematic diagram of a front cross-sectional structure of a monitor body according to the present invention;

FIG. 3 is a schematic view of the shaft side structure of the waste liquid tank of the present invention;

FIG. 4 is a schematic view of the explosion structure of the sponge ring sheath of the present invention;

FIG. 5 is a schematic side view of a cross-sectional structure of a sponge collar of the present invention;

FIG. 6 is a schematic view of a partial enlarged structure of the invention at A in FIG. 4;

FIG. 7 is a schematic side view of a solid line extension channel according to the present invention;

FIG. 8 is a schematic view of the first electromagnetic plate of the present invention in an energized state;

FIG. 9 is a schematic view of a partial structure of a liquid injection thorn of an inlet wire according to the present invention;

fig. 10 is a schematic diagram of a system flow structure according to the present invention.

The reference numerals in the figures illustrate:

1. a monitor body; 2. a buzzer; 3. a wire opening; 4. a thread body; 5. an alarm lamp; 6. a wire fixing extension channel; 7. monitoring a sensor; 8. a side wafer; 9. a liquid pipe; 10. a column; 11. a waste liquid tank; 12. a heating plate; 13. a sponge ring sleeve; 15. a liquid outlet; 16. rotating the ring sleeve; 17. injecting liquid thorns into the inlet wires; 18. a liquid storage top slot; 20. electrifying the bottom plate; 21. a power-on cable; 22. an elastic connection member; 23. a first electromagnetic plate; 24. a second electromagnetic plate; 25. and a limit column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present invention are within the protection scope of the present invention.

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "configured to," "engaged with," "connected to," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1:

referring to fig. 2-6 and 10, a broken yarn monitoring system for textile yarns comprises a monitor body 1, through-holes 3 are formed in the left end and the right end of the monitor body 1, a spinning body 4 penetrates through the inner end of the monitor body 1, the spinning body 4 extends out of the through-holes 3, waste liquid tanks 11 are fixedly connected to the inner end of the monitor body 1, upright posts 10 are fixedly connected to the front side and the rear side of the upper end of the waste liquid tanks 11, side disks 8 are fixedly connected to the upper ends of the upright posts 10, a rotating ring sleeve 16 is rotatably connected between the two side disks 8, through-liquid pipes 9 are fixedly connected to one ends, away from each other, of the two through-liquid pipes 9 are externally connected with a material pool, a plurality of liquid outlets 15 are formed in the end, close to each other, of the two through-liquid pipes 9 are equidistantly arranged, a plurality of inlet liquid injection thorns 17 are fixedly connected to the outer ends of the rotating ring sleeve 16, the inlet liquid thorns 17 are located in the middle of the rotating ring sleeve 16, the outer ends of the rotating ring sleeve 16 are fixedly connected with the ring sleeve 13, the sponge body 17 penetrates through the sponge body 7 and extend to the inner wall of the monitoring body 7, and are fixedly connected to the inner wall of the sponge body 7, and extend to the inner side of the monitoring body 7, and the sensor body is located on the side of the inner side of the sponge body and is fixedly connected to the sponge body 7.

The spinning body 4 firstly penetrates the monitor body 1 and extends to the outside of the two solid line extension channels 6, when the spinning body 4 passes through the monitor body 1, the monitoring sensor 7 on the upper inner wall of the monitor body 1 monitors the running spinning body 4 in real time, the spinning body 4 slides at the upper end of the rotating ring sleeve 16 in the monitor body 1, the rotating ring sleeve 16 is in a rotating state, so that the risk of breakage of the monitor body 1 caused by strong abrasion cannot be generated, a plurality of liquid outlets 15 capable of circulating liquid are arranged in the side circular plates 8 on two sides of the rotating ring sleeve 16, and when the liquid outlets 15 inject yarn lubricant into the sponge ring sleeve 13 with adsorption capacity through a material pool externally connected with the liquid through pipe 9, the sponge ring sleeve 13 can uniformly adhere the yarn lubricant on the outer wall of the spinning body 4 due to water absorption of the spinning body 4, and the spinning body 4 immersed in the yarn lubricant is beneficial to increasing softness and glossiness.

When the rotating ring sleeve 16 rotates, a plurality of inlet wire liquid injection thorns 17 positioned at the outer end of the thread fixing extension channel 6 also rotate, when the inlet wire liquid injection thorns 17 rotate to a place which is not extruded with the thread body 4, the thread body 4 extrudes the sponge ring sleeve 13 with deformation capability downwards to enable the inlet wire liquid injection thorns 17 to extend into the thread body 4, yarn lubricants adhered to the surfaces of the inlet wire liquid injection thorns 17 penetrating the sponge ring sleeve 13 penetrate into the thread body 4, the uniformity of the adhesion of the thread body 4 to the yarn lubricants is improved, the quality of finished products of the yarns is improved, the subsequent drying time is shortened, the thread body 4 after being coated can be rapidly put into the next processing procedure, when the inlet wire liquid injection thorns 17 rotate to a place which is not extruded with the thread body 4, the sponge ring sleeve 13 is not rebounded by extrusion force, the inlet wire liquid injection thorns 17 are wrapped in the sponge ring sleeve 13 again, the surfaces of the sponge ring sleeve 13 are adhered with the lubricants again, and the yarn lubricants are prevented from penetrating into the thread lubricants when the thread body 4 slides on the surface of the sponge ring sleeve 13.

Referring to fig. 2, 9 and 10, the inner end of the monitoring sensor 7 is fixedly connected with an inductor, the inner end of the monitor body 1 is fixedly connected with a controller, the inductor is electrically connected with the controller through a wire, the upper end of the monitor body 1 is fixedly connected with an alarm lamp 5, the alarm lamp 5 is electrically connected with the controller through a wire, the upper end of the monitor body 1 is symmetrically and fixedly connected with a buzzer 2, the two buzzers 2 are respectively positioned at two sides of the alarm lamp 5, and the buzzer 2 is electrically connected with the controller through wires.

When the spinning body 4 is continuously injected with the stab liquid by the thread feeding and liquid injecting stab 17, due to machine faults or when the thread feeding and liquid injecting stab 17 carelessly directly pierces a fragile section of the spinning body 4 to cause sudden fracture or stop sliding of the spinning body 4, the monitoring sensor 7 at the inner end of the monitor body 1 does not normally slide to the spinning body 4 so as to generate thread breakage, namely, a signal can be sent to a controller in the monitor body 1 through an inductor in the monitoring sensor 7, the controller can control two buzzers 2 outside the monitor body 1 to generate sound alarms, a worker is attracted to timely check the thread breakage condition, and the controller can also control the alarm lamp 5 outside the monitor body 1 to generate light flashing alarms so as to warn the worker that the fault occurs.

Referring to fig. 2 and 4, a heating plate 12 is fixedly connected to the lower inner wall of the waste liquid tank 11, and an electric heating wire is wound around the inner end of the heating plate 12.

When the liquid passing pipe 9 immerses the liquid agent into the sponge loop 13, the part of the sponge loop 13 extruded by the thread body 4 is not enough to be absorbed, the liquid agent can fall into the waste liquid tank 11 at the lower end of the sponge loop 13 to be collected, and in the collecting process, the heating plate 12 at the lower end of the waste liquid tank 11 heats the liquid agent to evaporate the liquid agent into steam capable of floating upwards, and the floating steam can be reabsorbed by the thread body 4 and the sponge loop 13, so that the phenomenon that the redundant liquid agent is extruded and falls to waste is reduced.

Referring to fig. 4, 5 and 6, a liquid storage top slot 18 is formed at one end of the inlet wire liquid injection thorn 17 far away from the rotating ring sleeve 16, and the liquid storage top slot 18 is matched with the sponge ring sleeve 13.

The upper end of the inlet wire liquid injection thorn 17 is provided with the liquid storage top slot 18 for containing more liquid, when the inlet wire liquid injection thorn 17 is extruded to penetrate through the sponge ring sleeve 13, the liquid storage top slot 18 with liquid accumulation capacity injects more liquid into the spinning thread body 4, so that the liquid injection efficiency of the inlet wire liquid injection thorn 17 can be effectively increased, the spinning thread body 4 can be further helped to absorb yarn lubricants more uniformly and widely, and the spinning thread body 4 can be processed into a higher-quality textile product.

Referring to fig. 2, 7 and 8, the two wire openings 3 are respectively and fixedly connected with a wire fixing extension channel 6 at the ends far away from each other, the inner ends of the wire fixing extension channels 6 penetrate through a wire fixing body 4, the upper inner walls of the wire fixing extension channels 6 are symmetrically and fixedly connected with limiting posts 25, the lower ends of the two limiting posts 25 are fixedly connected with a second electromagnetic plate 24, the lower inner walls of the wire fixing extension channels 6 are symmetrically and fixedly connected with two elastic connecting pieces 22, the upper ends of the two elastic connecting pieces 22 are fixedly connected with a first electromagnetic plate 23, the lower ends of the first electromagnetic plate 23 are fixedly connected with a wire fixing bottom plate 20, the lower ends of the wire fixing bottom plate 20 are fixedly connected with a wire fixing cable 21, the wire fixing cable 21 extends out of the wire fixing extension channels 6, one ends of the wire fixing cable 21 far away from the wire fixing extension channels are externally connected with a wire fixing device, the wire fixing device is electrically connected with a controller, the first electromagnetic plate 23 is magnetically connected with the second electromagnetic plate 24 through wires, the first electromagnetic plate 23 and the second electromagnetic plate 24 are respectively located at the upper side and the lower side of the wire fixing body 4, a material pool is filled with a transparent liquid lubricant, and the yarns are uniformly distributed in the material pool.

When the thread body 4 breaks carelessly, as the outer end of the thread body 4 has the tightening force generated by winding the thread, the broken force generated by the tightened thread body 4 can break two broken threads out of the monitor body 1, as the thread body 4 penetrates through the thread fixing extension channel 6, the monitoring sensor 7 in the monitor body 1 can detect the occurrence of the thread breaking condition when the thread is broken, the controller in the monitor body 1 is communicated with the controller to electrify the second electromagnetic plate 12 in the thread fixing extension channel 6 to enable the second electromagnetic plate 12 to generate magnetic attraction force to mutually attract the second electromagnetic plate 24 on the upper side, the broken thread body 4 can be clamped to avoid the phenomenon that the broken thread body slides out of the thread fixing extension channel 6 to be crossed and knotted with other threads in a workshop, the normal operation of other threads in the workshop is facilitated, and workers can quickly restore the broken thread body 4 to ensure the normal processing of the thread body 4 in the monitor body 1, the spinning efficiency is facilitated, the second electromagnetic plate 12 is electrified to generate magnetic attraction force to ensure that the second electromagnetic plate 24 is mutually attracted to the second electromagnetic plate 24 is mutually attracted, and the magnetic force of the second electromagnetic plate 24 is continuously extended in the workshop after the thread body 4 is restored, and the magnetic force of the second electromagnetic plate 24 is continuously lost, and the magnetic force is continuously and the second electromagnetic plate is lost.

Referring to fig. 1-10, when the device is used, the spinning body 4 first penetrates the monitor body 1 and extends to the outside of the two solid line extension channels 6, and the monitoring sensor 7 on the upper inner wall of the monitor body 1 monitors the running spinning body 4 in real time, when the liquid outlet 15 injects the yarn lubricant into the sponge ring cover 13 with adsorption capacity through the material pool externally connected with the liquid through pipe 9, the sponge ring cover 13 can uniformly adhere the yarn lubricant on the outer wall of the spinning body 4 due to the water absorption property of the spinning body 4, the spinning body 4 immersed in the yarn lubricant is beneficial to increasing the softness and glossiness, when the rotating ring cover 16 rotates, the plurality of inlet wire liquid injection thorns 17 rotate as well, when the inlet wire liquid injection thorns 17 rotate to the place extruded with the spinning body 4, the spinning body 4 extrudes the sponge ring sleeve 13 with deformation capability downwards to enable the inlet liquid injection thorn 17 to penetrate into the spinning body 4, which is beneficial to improving the uniformity of the adhesion and adhesion of the yarn lubricant to the spinning body 4, improving the quality of the finished product of the yarn, shortening the subsequent drying time, when the inlet liquid injection thorn 17 rotates to a place which is not extruded with the spinning body 4, the sponge ring sleeve 13 is not rebounded by extrusion force, the inlet liquid injection thorn 17 is recoated in the sponge ring sleeve 13 filled with the yarn lubricant, the surface of the sponge ring sleeve 13 is recocked with the yarn lubricant, so that the yarn lubricant is continuously penetrated into the spinning body 4 when the spinning body 4 slides and contacts with the surface of the sponge ring sleeve 13, when the inlet liquid injection thorn 17 is extruded to penetrate through the sponge ring sleeve 13, the liquid storage top slot 18 with liquid accumulation capability injects more dosage into the spinning body 4, the liquid injection efficiency of the inlet wire liquid injection thorn 17 can be effectively increased, the yarn lubricant can be adsorbed more uniformly and widely by the yarn body 4, the sponge ring sleeve 13 is extruded by the yarn body 4 to be partially less than the absorbed liquid agent and can drop into the waste liquid tank 11 at the lower end of the sponge ring sleeve 13 to be collected, the heating plate 12 can heat the liquid agent to evaporate the liquid agent into upward floating steam, the floating steam can be reabsorbed by the yarn body 4 and the sponge ring sleeve 13, the phenomenon that the excessive liquid agent is extruded and fallen is wasted can be reduced, when the yarn body 4 is broken suddenly or stops sliding due to the machine failure or the direct penetration of a fragile yarn body 4 by the inlet wire liquid injection thorn 17, the controller can send a signal to the controller in the monitor body 1 through the sensor in the monitoring sensor 7, the controller can control the two buzzers 2 positioned outside the monitor body 1 to generate sound alarm, when the thread body 4 breaks carelessly, because the outer end of the thread body 4 is provided with a tightening force generated by winding the thread, the breaking force generated by the tightened thread body 4 can break two broken threads out of the monitor body 1, the second electromagnetic plate 12 in the thread fixing extension channel 6 is electrified by the electrifying equipment communicated with the controller in the monitor body 1 to generate magnetic attraction with the second electromagnetic plate 24 on the upper side, the broken thread body 4 can be clamped to avoid slipping out of the thread fixing extension channel 6 and crossing other sliding-braiding threads in a workshop, and when the thread body 4 slides normally after being repaired, the second electromagnetic plate 12 loses the electric energy magnetic force to eliminate knotting, and the thread body 4 can continue to penetrate in the thread fixing extension channel 6.

The above description is only of the preferred embodiments of the present invention; the scope of the invention is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims

1. The utility model provides a broken yarn monitored control system of textile yarn, includes monitor body (1), its characterized in that: the utility model discloses a sponge infusion device, including monitor body (1), including side disk (8), side disk (16), material pond, sponge cover (13) are connected to the both ends, line opening (3) have all been seted up to both ends about monitor body (1), the inner of monitor body (1) runs through to have line opening (4), and line opening (3) are outside to line opening (4) extension, the inner fixedly connected with waste liquid groove (11) of monitor body (1), both sides all fixedly connected with stand (10) around the upper end of waste liquid groove (11), the upper end fixedly connected with side disk (8) of stand (10), two rotate between side disk (8) and be connected with rotation ring cover (16), two one end fixedly connected with that side disk (8) kept away from each other leads to liquid pipe (9), two one end that liquid opening (9) kept away from each other all is external to have the material pond, and two liquid opening (9) are all close to one end, and are equidistant setting between a plurality of liquid outlet (15), the outer fixedly connected with a plurality of injection liquid (17) of rotation ring cover (16), and the rotation ring (16) are located the inner fixedly connected with sponge cover (13) and extend the line opening (13), the upper inner wall of the monitor body (1) is fixedly connected with a monitoring sensor (7), and the monitoring sensor (7) is positioned right above the side wafer (8);

a liquid storage top slot hole (18) is formed in one end, far away from the rotating ring sleeve (16), of the inlet wire liquid injection thorn (17), and the liquid storage top slot hole (18) is matched with the sponge ring sleeve (13);

one end, away from each other, of each of the two thread through openings (3) is fixedly connected with a thread fixing extension channel (6), and the inner end of each thread fixing extension channel (6) penetrates through a thread spinning body (4);

the upper inner wall symmetry fixedly connected with spacing post (25) of solidus extension passageway (6), two the lower extreme fixedly connected with second electromagnetic plate (24) of spacing post (25), the lower inner wall symmetry fixedly connected with two elastic connection piece (22) of solidus extension passageway (6), two the upper end fixedly connected with first electromagnetic plate (23) of elastic connection piece (22).

2. A spun yarn breakage monitoring system in accordance with claim 1, wherein: the inner fixedly connected with inductor of monitor sensor (7), the inner fixedly connected with controller of watch-dog body (1), inductor and controller pass through wire electric connection, the upper end fixedly connected with warning light (5) of watch-dog body (1), and warning light (5) and controller pass through wire electric connection.

3. A spun yarn breakage monitoring system in accordance with claim 2, wherein: the upper end symmetry fixedly connected with bee calling organ (2) of watch-dog body (1), and two bee calling organ (2) are located the both sides of warning light (5) respectively, bee calling organ (2) and controller pass through wire electric connection.

4. A spun yarn breakage monitoring system in accordance with claim 1, wherein: the lower inner wall of the waste liquid tank (11) is fixedly connected with a heating plate (12), and the inner end of the heating plate (12) is wound with an electric heating wire.

5. A spun yarn breakage monitoring system in accordance with claim 1, wherein: the lower extreme fixedly connected with circular telegram film (20) of first electromagnetism plate (23), the lower extreme fixedly connected with circular telegram cable (21) of circular telegram film (20), and circular telegram cable (21) extend outside fixed line extension passageway (6).

6. The spun yarn breakage monitoring system of claim 5 wherein: the one end that leads to cable (21) kept away from leads to cable (21) is external to have the circular telegram equipment, circular telegram equipment passes through wire electric connection with the controller, first electromagnetic plate (23) and second electromagnetic plate (24) magnetism are connected, and first electromagnetic plate (23) and second electromagnetic plate (24) are located the upper and lower both sides of spinning line body (4) respectively.

7. A spun yarn breakage monitoring system in accordance with claim 1, wherein: yarn lubricant is filled in the material pool, and the yarn lubricant is transparent homogeneous liquid.