CN111020733A

CN111020733A - Anti-static treatment method for fibers

Info

Publication number: CN111020733A
Application number: CN201911343235.XA
Authority: CN
Inventors: 郑海其
Original assignee: Jiaxing Xinfeng Special Fiber Co Ltd
Current assignee: Jiaxing Xinfeng Special Fiber Co Ltd
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-04-17
Anticipated expiration: 2039-12-24
Also published as: CN111020733B

Abstract

The invention provides a fiber antistatic treatment method, which comprises the following steps: 1) an antistatic treatment method for fiber, preparing antistatic treatment liquid; 2) placing the antistatic treatment liquid in an antistatic solvent placing groove; 3) the fiber bundle exiting the spinneret is processed through a fiber processing system comprising: the spinning treatment device is arranged below the spinneret plate; the scraping plate mechanism comprises a fixed rod, a rotating plate and a scraping plate, wherein one end of the rotating plate is provided with a sleeve which is sleeved on the fixed rod, the fixed plate is integrally arranged below the sleeve, and the scraping plate is detachably connected with the rotating plate; the flattening rod is arranged under the fixed rod and is parallel to the fixed rod, and the distance from the bottom edge of the scraper blade to the fixed rod is slightly larger than the distance from the flattening rod to the fixed rod. The fiber antistatic treatment method has the characteristics of uniform coating liquid and good use effect.

Description

Anti-static treatment method for fibers

Technical Field

The invention relates to the technical field of fiber processing, in particular to an anti-static treatment method for fibers.

Background

The spinning machine is a machine for forming fiber-forming polymer solution or melt into filament, and according to different fiber spinning methods, the spinning machine with uniform cooling is divided into a spinning machine with uniform cooling by wet method, a spinning machine with uniform cooling by melt and a spinning machine with uniform cooling by dry method.

In the spinning machine in the prior art, fiber-forming polymer solution or melt forms filamentation at the in-process of high-speed operation, produce static easily, through preventing the static solvent processing back to fashioned fibre, can eliminate the static that the fibre coiled the in-process produced, but prevent static solvent coating inhomogeneous to fibre among the prior art, finally lead to preventing that static treatment effect is not good, moreover, after solvent treatment, fibrous surface has the book silk, and it has the liquid coagulation to continue to next station to roll up silk tape fluid, has also influenced final fibre finished product quality.

In conclusion, in order to overcome the defects of the structure and the treatment method of the existing spinning machine, the invention designs the anti-static treatment method for the fibers, which has the advantages of simple structure and good use effect.

Disclosure of Invention

The invention provides the fiber antistatic treatment method with simple structure and good use effect to solve the problems in the prior art.

The purpose of the invention can be realized by the following technical scheme: an antistatic treatment method for fiber comprises

1) An antistatic treatment method for fiber, preparing antistatic treatment liquid;

2) placing the antistatic treatment liquid in an antistatic solvent placing groove;

3) the fiber bundle exiting the spinneret is processed through a fiber processing system comprising:

the spinning treatment device is arranged below the spinneret plate and comprises a first spinning treatment device and a second spinning treatment device, the first spinning treatment device and the second spinning treatment device respectively comprise a driving device, a compression roller and an anti-static solvent placing groove, an output shaft of the driving device is connected with the compression roller and drives the compression roller to rotate, the anti-static solvent placing groove is arranged below the compression roller, part of the anti-static solvent placing groove extends into the anti-static solvent placing groove, the width of the placing groove is a, the diameter of the compression roller is b, and the requirement that the a is slightly smaller than b is met;

the scraping plate mechanism comprises a fixed rod, a rotating plate and a scraping plate, wherein one end of the rotating plate is provided with a sleeve which is sleeved on the fixed rod, the fixed plate is integrally arranged below the sleeve, and the scraping plate is detachably connected with the rotating plate;

the flattening rod is arranged under the fixed rod and is parallel to the fixed rod, and the distance from the bottom edge of the scraper blade to the fixed rod is slightly larger than the distance from the flattening rod to the fixed rod.

Preferably, the spinning machine further comprises a yarn winding processing device, the yarn winding processing device is fixed with the side plate and is arranged below the spinning processing device, and the accommodating cavity of the yarn winding processing device is internally provided with the solvent absorbing material.

As a further preferred embodiment, the solvent-absorbing material is a sponge.

As a further preferred scheme, the upper part of the wire winding processing device is provided with an opening, the wire winding processing device comprises a first accommodating cavity and a second accommodating cavity, one sides of the first accommodating cavity and the second accommodating cavity are hinged, and the other sides of the first accommodating cavity and the second accommodating cavity are detachably fixed.

As a further preferred scheme, the first accommodating cavity and the second accommodating cavity are detachably fixed through a lock catch.

As a further preferable scheme, the bottom of the coiled wire processing device is provided with a liquid leakage hole.

As a further preferred scheme, the scraper and the rotating plate are detachably connected through bolts.

As a further preferred scheme, a plurality of fixing holes which are arranged in parallel are arranged on the scraping plate.

As a further preferable mode, the device further comprises a solvent collecting device, and the solvent collecting device is arranged below the flattening rod.

As a further preferable scheme, the solvent collecting device is rectangular and the bottom is provided with a liquid leakage hole, and the liquid leakage hole is used for collecting the antistatic solvent.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the fiber antistatic treatment method is reasonable in treatment, the fiber bundle treated by the method and the fiber treatment device can effectively prevent static electricity, and the final product has less fiber broken filaments and good flatness in the operation process;

the fiber processing device is reasonable in structural design, the filaments coming out of a spinneret plate are subjected to anti-static solvent coating processing through the arrangement of the spinning processing device, the filaments pass through the compression rollers in the spinning processing device I and the spinning processing device II, the compression rollers are driven by the driving device to dip the anti-static solvent in the anti-static solvent placing groove, after the filaments are processed, static electricity in the fiber winding process can be eliminated, the anti-static solvent for the fibers is uniformly coated, and the processing effect is good; the yarn winding processing device is characterized in that the surface of the filament is coated with the anti-static solvent at the previous station through the solvent absorbing material arranged in the accommodating cavity, and the solvent absorbing material absorbs the redundant liquid on the surface of the anti-static solvent and has the further function of uniform coating.

Drawings

FIG. 1 is a schematic view of a fiber treatment system of the present invention.

FIG. 2 is a schematic view of the structure of a yarn winding processing device of the fiber processing system of the present invention.

Fig. 3 is a schematic top view of the filament winding processing device of the fiber processing system of the present invention.

FIG. 4 is a schematic view of the structure of the fiber treatment of the present invention.

Fig. 5 is a schematic view of the structure of the fiber scraper mechanism of the present invention.

Reference numerals: 10-spinneret plate, 11-filament outlet, 20-spinning treatment device, 21-spinning treatment device I, 22-spinning treatment device II, 211-compression roller, 212-antistatic solvent placing groove, 30-filament winding treatment device, 31-accommodating cavity I, 32-accommodating cavity II, 33-liquid leakage hole, 40-fiber, 50-scraper mechanism, 51-fixed rod, 52-rotating plate, 521-sleeve, 53-scraper, 531 fixed hole, 54-bolt, 60-flattening rod and 70-accommodating collection device.

Detailed Description

The technical solution of the present invention is further described below with reference to the following embodiments and the accompanying drawings.

As shown in figures 1 to 5, a fiber antistatic treatment method comprises

a spinneret 10 connected to the melt extruder, the spinneret having a filament outlet 11 formed thereunder;

the spinning processing device 20 is arranged below the spinneret plate and comprises a first spinning processing device 21 and a second spinning processing device 22, the first spinning processing device and the second spinning processing device both comprise a driving device, a compression roller 211 and an anti-static solvent placing groove 212, an output shaft of the driving device is connected with the compression roller and drives the compression roller to rotate, the anti-static solvent placing groove 212 is arranged below the compression roller 211 and partially extends into the anti-static solvent placing groove, the width of the placing groove 212 is a, the diameter of the compression roller 211 is b, and the requirement that the quantity relationship a is slightly smaller than b is met;

the scraper mechanism 10 comprises a fixed rod 11, a rotating plate 12 and a scraper 13, wherein one end of the rotating plate 12 is provided with a sleeve 121 which is sleeved on the fixed rod 11, the fixed plate is integrally arranged below the sleeve, and the scraper 13 is detachably connected with the rotating plate 12;

and the flattening rod 20 is arranged right below the fixing rod and is parallel to the fixing rod, and the distance from the bottom edge of the scraper 13 to the fixing rod 11 is slightly larger than the distance from the flattening rod 20 to the fixing rod.

In the spinning machine in the prior art, fiber-forming polymer solution or melt forms filamentation and in the in-process of high-speed operation, produce static easily, through preventing the static solvent processing back to the fibre of shaping, can eliminate the static that the fibre coiled the in-process and produced, but prevent static solvent coating inhomogeneous to fibre among the prior art, the treatment effect is not good, moreover, after solvent treatment, fibrous surface has the book silk, and it has liquid to agglomerate to continue to next station to roll up silk tape fluid, has also influenced final fibre finished product quality.

The invention designs a fiber processing device, which is characterized in that the filaments from a spinneret plate are subjected to anti-static solvent coating treatment through the arrangement of a spinning treatment device, the filaments pass through a first spinning treatment device 21 and a second spinning treatment device 22, the pressure rollers are driven by a driving device to dip the anti-static solvent in an anti-static solvent placing groove, and the outer circumferential surface of the whole pressure roller is dipped with the anti-static solvent, so that the coating of the surface anti-static solvent is ensured when the filaments pass through the spinning treatment device; furthermore, the front and the side of the filament can be coated by the spinning processing device I21 and the spinning processing device II 22 which are arranged in pairs and are staggered. The arrangement of the structure can eliminate static electricity in the fiber winding process after the filament is processed, and the antistatic solvent for the fiber is uniformly coated, so that the processing effect is good. The driving device is a motor. The adjustable scraper mechanism's that rethread fibre was used setting, the scraper blade can be dismantled fixedly with the rotor plate, the rotor plate cup joints with the dead lever through the sleeve, pass through the below of scraper blade as the tow, the lower extreme and the tow surface contact of scraper blade, the tow constantly removes under towed effect, through the scraper blade, because the scraper blade passes through the sleeve and fixes, carry out certain swing under the effect of traction force, strike off the book silk on tow surface or realize the exhibition to the tow, can also carry out even blade coating to the antistatic solvent on tow surface, excellent in use effect.

In a further preferred embodiment, the spinning machine further comprises a yarn winding processing device 30, the yarn winding processing device 30 is fixed with the side plate 40 and is arranged below the spinning processing device, and a solvent absorbing material is arranged in a containing cavity of the yarn winding processing device 30.

In this embodiment, the yarn winding processing device is provided with the antistatic solvent on the surface of the filament at the previous station through the solvent absorbing material arranged in the accommodating cavity, and the solvent absorbing material absorbs the excessive liquid on the surface of the antistatic solvent and further has the function of uniform coating.

As a further preferred embodiment, the solvent absorbing material is a sponge. Not shown in the figure.

In this embodiment, through being equipped with the sponge at the holding intracavity, sponge itself has the absorption to the solvent, and the unnecessary solvent of absorptive solvent can be absorbed when the filament passes through once more, and when whole filament passes through the sponge that absorbs the solvent moreover for filament surface solvent coating is even and can not have surplus solvent. Furthermore, the surface of the fiber can be removed from the crimped filaments by pressing.

As a further preferred embodiment, the upper part of the rolled wire processing device 30 is opened, the rolled wire processing device 30 comprises a first accommodating cavity 31 and a second accommodating cavity 32, one side of the first accommodating cavity 31 and one side of the second accommodating cavity 32 are hinged, and the other side of the first accommodating cavity 31 and the other side of the second accommodating cavity 32 are detachably fixed.

In this embodiment, place respectively through holding chamber one 31 and holding chamber two 32 and should hold the unanimous sponge of chamber size, the clearance supply filament that both formed passes through, and both can dismantle fixed structure for the device can change the sponge of the inside according to the demand, perhaps washs the device, is favorable to going on smoothly of spinning process.

As a further preferred embodiment, the first accommodating cavity 31 and the second accommodating cavity 32 are detachably fixed by a lock catch.

In this embodiment, this hasp is the hasp in having now, and the hasp structure that the side set up realizes holding chamber one 31 and holding the cooperation of dismantling of two 32 in chamber, and when concrete use, the staff can open the hasp at any time according to the demand, observes particular case, convenient operation, and this hasp is the hasp among the prior art, and not mark in the figure.

As a further preferred embodiment, the bottom of the coiled wire processing device is provided with a liquid leakage hole 33.

In this embodiment, through being provided with the weeping hole in the bottom of rolling up silk processing apparatus, when the absorbent solvent of sponge was too much, the solvent can spill through the weeping hole for the filament goes up the liquid evenly, holds the chamber one and holds the solvent in the sponge in the chamber two and keep certain quantity all the time, can not be too much, and the influence is even to the absorption and the coating of filament surface solvent.

As shown in fig. 4, for example, in a case of a single fiber 40, the fiber 40 is discharged from the filament outlet 11, passes through two press rolls 211, and is coated with an antistatic solvent on the outer surface thereof, and is further processed by uniformly coating the coated antistatic solvent through a yarn winding processing device, and also absorbs excessive antistatic solvent.

As a further preferred embodiment, the scraper 53 is detachably connected to the rotating plate 52 by means of bolts 54.

In this embodiment, scraper blade 53 passes through bolt 54 with rotating plate 52 and can dismantle the continuous, in specific use, can regularly dismantle the scraper blade, washs, makes things convenient for the use of later stage.

As a further preferred embodiment, the scraper 53 is provided with a plurality of fixing holes 531 arranged in parallel.

In this embodiment, can be through parallel arrangement's fixed orifices 531, the position at adjusting bolt 54 place to adjust the position of scraper blade according to the demand, carry out the adjustment of adaptability to the position of scraper blade 53, when the multi-beam cellosilk passes through flattening pole below, the lower terminal surface of scraper blade 53 contacts with the upper surface of cellosilk, plays the flat effect of exhibition to the book silk on fibre surface, moreover, because let the tow tile as far as, level and smooth next station.

As a further preferred embodiment, a solvent collection device 70 is further included, which is disposed below the flattening rod 60.

As a further preferred embodiment, the solvent collection means 70 is rectangular and has a bottom provided with weep holes (not shown), which are provided in the bottom surface of the container collection means 70,

in this embodiment, the below of flattening pole is located to solvent collection device, because the tow is through preventing static solvent processing, and the surface is stained with prevents static solvent, through the next station of scraper blade again, and solvent collection device collects the solvent that instils into and concentrates the collection through weeping hole inflow, can used repeatedly, has avoided preventing static solvent's waste and the pollution to the environment.

Example is a fiber bundle treated by the antistatic treatment method of the present invention

Comparative example is a fiber bundle treated by a fiber treatment apparatus of the prior art

TABLE 1

The adjustable scraping plate mechanism for the fibers is reasonable in structural design, the scraping plate 53 and the rotating plate 52 can be detachably fixed through the adjustable scraping plate mechanism for the fibers, the rotating plate 52 is sleeved with the fixed rod through the sleeve, when the fiber bundles pass through the lower part of the scraping plate, the lower end of the scraping plate is in surface contact with the fiber bundles, the fiber bundles continuously move under the traction effect, and through the scraping plate, due to the fact that the scraping plate is fixed through the sleeve, certain swing is carried out under the traction effect, coiled filaments on the surface of the fiber bundles are scraped or the fiber bundles are flattened, anti-static solvents on the surface of the fibers can be uniformly scraped, and the using effect is good; the scraper 53 is provided with a plurality of fixing holes which are arranged in parallel; be equipped with a plurality of parallel arrangement's fixed orifices on scraper blade 53, can be through parallel arrangement's fixed orifices 531, the position at adjusting bolt 54 place to adjust the position of scraper blade as required, the result of use is good.

What has been described herein is merely a preferred embodiment of the invention, and the scope of the invention is not limited thereto. Modifications, additions, or substitutions by those skilled in the art to the specific embodiments described herein are intended to be within the scope of the invention.

Claims

1. An antistatic treatment method for fibers is characterized by comprising the following steps:

1) preparing an antistatic treatment liquid;

2) the antistatic treatment liquid is placed in an antistatic solvent placing groove (212);

the spinning processing device (20) is arranged below the spinneret plate and comprises a first spinning processing device (21) and a second spinning processing device (22), the first spinning processing device and the second spinning processing device both comprise a driving device, a pressing roller (211) and an anti-static solvent placing groove (212), an output shaft of the driving device is connected with the pressing roller and drives the pressing roller to rotate, the anti-static solvent placing groove (212) is arranged below the pressing roller (211) and partially extends into the anti-static solvent placing groove, the width of the placing groove (212) is a, the diameter of the pressing roller (211) is b, and the requirement that a is slightly smaller than b in the quantity relation is met;

the scraper mechanism (50) comprises a fixed rod (51), a rotating plate (52) and a scraper (53), wherein one end of the rotating plate (52) is provided with a sleeve (521), the sleeve (521) is sleeved on the fixed rod (51), the fixed plate is integrally arranged below the sleeve (521), and the scraper is detachably connected with the rotating plate;

the flattening rod (60) is arranged right below the fixing rod (51) and is parallel to the fixing rod (51), and the distance from the bottom edge of the scraper (53) to the fixing rod (51) is slightly larger than the distance from the flattening rod (60) to the fixing rod (51).

2. The fiber antistatic treatment method according to claim 1, further comprising a yarn winding treatment device (30), wherein the yarn winding treatment device (30) is fixed with the side plate (40) and is arranged below the spinning treatment device, and a solvent absorption material is arranged in a containing cavity of the yarn winding treatment device (30).

3. The fiber treatment system of claim 2, wherein the solvent absorbent material is a sponge.

4. The fiber antistatic treatment method according to claim 1, wherein the upper part of the yarn winding treatment device (30) is opened, the yarn winding treatment device (30) comprises a first accommodating cavity (31) and a second accommodating cavity (32), one sides of the first accommodating cavity (31) and the second accommodating cavity (32) are hinged, and the other sides of the first accommodating cavity and the second accommodating cavity are detachably fixed.

5. The fiber antistatic treatment method according to claim 4, characterized in that the first accommodating cavity (31) and the second accommodating cavity (32) are detachably fixed by a lock catch.

6. The method for antistatic fiber treatment according to claim 2, wherein the bottom of the yarn winding treatment device (30) is provided with a liquid leakage hole.

7. The antistatic treatment method for fiber according to claim 1, wherein the scraper (53) is detachably connected to the rotating plate (52) by a bolt (54).

8. The antistatic treatment method for fiber according to claim 1, wherein the scraper (53) is provided with a plurality of fixing holes (531) arranged in parallel.

9. The method of claim 1, further comprising a solvent collection device (70), wherein the solvent collection device (70) is disposed below the flattening rod (60).

10. The method for antistatic treatment of fiber according to claim 9, wherein the solvent collecting device (70) is rectangular and has a bottom provided with weep holes for collection of antistatic solvent.