JP7261361B2 - Manufacturing method of fiber for medical antibacterial textile - Google Patents

Description

TECHNICAL FIELD The present invention generally relates to polyester fiber manufacturing technology, and more particularly to a medical antibacterial textile fiber and its manufacturing method.

Along with the strengthening of the medical hygiene business, many medical textiles have been created. Unlike clothing textiles, medical textiles mainly require antibacterial properties and practicality. Textiles for clothing must use a variety of raw materials to meet consumers' comfort needs, but most medical textiles are disposable items, so using as few raw materials as possible reduces manufacturing costs. can be reduced. Polyester fibers, which are easily modified or deformed, have been widely applied to medical textiles, but processing to impart elasticity is generally performed as false twisting or composite spinning, which increases production costs.

Therefore, it is a significant process to produce medical textile fibers with crimp elasticity in a convenient process.

The present invention overcomes the technical complexity of imparting crimp elasticity to conventional medical textile polyester fibers, and provides a kind of medical antibacterial textile fiber and its manufacturing method.

For this reason, the present invention provides a medical antibacterial polyester melt produced by extruding an antibacterial polyester melt from a Y-shaped discharge hole on a spinneret, cooling it by annular blowing, producing FDY according to the FDY process, and undergoing relaxation heat treatment. A method for producing a textile fiber, comprising:
The length ratio of the three Y-shaped slits of the Y-shaped discharge hole is 1.0:1.5-2.5:1.5-2.5, the widths of the three slits are the same, and the length-width ratio of the shortest slit is 2.5-2.5. 3.5:1, the angle formed by the center lines of two adjacent slits is 120°, the shape and size of the three slits of different Y-shaped discharge holes are the same,
To provide a method for producing medical antibacterial textile fibers in which all Y-shaped outlet holes are positioned to form a concentric circle, and the shortest slits of each Y-shaped outlet hole are randomly oriented.
That is, a plurality of Y-shaped discharge holes are provided on the spinneret, each Y-shaped discharge hole includes a slit I, a slit II and a slit III. It is the shortest slit among the three slits, and the length ratio of slit I, slit II and slit III in one Y-shaped discharge hole is 1.0:1.5 ~ 2.5:1.5 ~ 2.5, and one Y-shaped The widths of slit I, slit II, and slit III in the discharge hole are the same, and the length-to-width ratio of slit I is 2.5 to 3.5:1. The angle formed by the center lines of slit I and slit II in one Y-shaped discharge hole is 120°, the angle formed by the center lines of slit II and slit III is 120°, and the center line of slit I and slit III is 120°. The angle between is 120°. Also, the three slits in different Y-shaped ejection holes have the same shape and size, and the slits I of all the Y-shaped ejection holes are randomly oriented and arranged.

Preferred embodiments of the present invention are shown below.

In the method for producing medical antibacterial textile fibers, the intrinsic viscosity of the antibacterial polyester melt is 0.50-0.55 dL/g.

In the method for producing the medical antibacterial fabric fiber, the antibacterial polyester is mainly composed of polyester and an antibacterial agent dispersed therein, the antibacterial agent is a silver-based antibacterial agent, and the content of silver ions is 100-100. 300ppm.

In the method for producing the medical antibacterial textile fiber, the parameters of the FDY process are: spinning temperature 270-280°C, cooling blow temperature 20-25°C, cooling air speed 1.80-2.30m/s, first roller speed is 1,800 to 2,000 m/min, the first roller temperature is 85 to 95°C, the second roller speed is 2,700 to 2,900 m/min, the second roller temperature is 150 to 170°C, and the winding speed is 2,640 to 2,830 m/min.

In the method for producing the medical antibacterial textile fiber, the relaxation heat treatment temperature is 90-120° C., and the treatment time is 20-30 minutes.

The present invention also provides medical antimicrobial textile fibers produced by the method according to any one of the above preferred embodiments. That is, the present invention provides a medical antibacterial textile fiber comprising a plurality of antibacterial polyester single yarns having a three-dimensional crimp and a Y-shaped cross section.

Preferably, for the medical antibacterial textile fiber,
According to Chinese national standard GB6506-2001, crimp shrinkage rate is 26-29%, crimp stability is 78-82%, crimp elongation rate is 55-62%, crimp elastic recovery rate is 70-75%. can be,
The breaking strength is 2.4-2.6 cN/dtex, the elongation at break is 55.0±5.0%, and the single yarn fineness is 1.00-1.50 dtex.

The principle of the invention is as follows.

The medical antibacterial textile fiber in the present invention is produced according to the FDY process, in which the antibacterial polyester melt is extruded through a Y-shaped discharge hole having three slits of different lengths and cooled by an annular blow. Since the Y-shaped discharge hole has an asymmetrical structure, one slit hits the cooling air at the front of the Y-shaped discharge hole, and the surface in contact with the cooling air is the entire surface of the slit. The other two slits are in contact with the cooling air only on the surfaces on which the cooling air blows. Since the cooling rate of the melt differs depending on the position on the cross section after the fibers spontaneously exhale, it mainly appears as follows. That is, during spinning, the cooling wind speed is 1.80~2.30m/s, and the part near the outlet is cooled faster with a faster wind speed, and the part farther from the outlet is cooled more slowly with a lower wind speed. . When one slit in the Y of the Y-shaped discharge hole hits the cooling air, the molten material in the slit is cooled quickly, and the other slits in the Y are cooled slowly. Due to the spinning tension, other parts of the Y-shape tend to become thin and internal stress is concentrated. This type of fiber with asymmetrical cross-sectional stress and thickness exhibits three-dimensional crimping performance, good crimping, and high elastic recovery rate of the fiber in the heat treatment or drawing process.

In one filament bundle, the crimp directions of the single yarns are different. This is because all the Y-shaped outlet holes are positioned to form concentric circles, and the shortest slits of each Y-shaped outlet hole are randomly oriented, so that the direction of the asymmetrical stress is also different, and the crimp direction is also different. It's for. Thus, single yarns with different crimp directions are "randomly" generated in a single filament bundle, and the fibers are bulky and thick to the touch.

Advantages of the present invention include:
(1) In the method presented in the present invention, the polyester FDY is spun with a spinneret having an asymmetric Y-shaped discharge hole, and the stress in the cross-section of the yarn hit by cooling blow is made asymmetric. A crimped form is imparted to antimicrobial textile fibers.
(2) The fibers for medical antibacterial textiles provided in the present invention can also obtain crimp elasticity by relaxation heat treatment without false twisting.

FIG. 4 is a schematic diagram of a Y-shaped discharge hole in the present invention; FIG. 4 is a conceptual diagram of the arrangement of ejection holes of the mouthpiece according to the present invention;

EXAMPLES The present invention will be described in more detail below with reference to examples, but the present invention is not limited by the following examples as long as the gist thereof is not exceeded. It should be noted that various modifications of the invention made by those skilled in the art after reading the contents of the invention will fall within the scope of the claims of the invention as equivalent forms of the invention. Methods for measuring various physical properties and characteristics in Examples are as follows.
A sketch of the Y-shaped discharge holes in the present invention is shown in FIG. 1, and a conceptual drawing of the arrangement of the discharge holes of the mouthpiece is shown in FIG. The Y-shaped discharge hole has three slits with a length ratio of 1.0:1.5-2.5:1.5-2.5 and the same width, of which the length-to-width ratio of the shortest slit is 2.5-3.5:1. , the angle formed by the center lines of two slits adjacent to each other is 120°, and all the Y-shaped discharge holes are arranged by concentric circles while their shortest slits are randomly oriented.
Figures 1 and 2 are for illustration only and do not limit the invention.

Example 1
The manufacturing method for medical antibacterial textile fibers is to press out polyester (intrinsic viscosity 0.54dL/g) in which silver-based antibacterial agent RHA-02 is dispersed at a silver ion content of 100ppm, through the Y-shaped discharge hole of the mouthpiece, and circular blowing. It is cooled to FDY and then subjected to relaxation heat treatment. Among them
The Y-shaped discharge hole has three slits with length ratios of 1.0:1.7:1.5 and widths that are the same. The angle formed by the lines is 120°;
The number of Y-shaped discharge holes is 24 and they are arranged in a circular shape at equal intervals. The angles formed by the lines are 10°, 60°, 2°, 30°, 90°, 15°, 22°, 90°, 1°, 3°, 170°, and 40°, respectively, when written clockwise. , 45°, 30°, 10°, 100°, 106°, 100°, 41°, 80°, 65°, 2°, 50°;
The parameters of the FDY process are: spinning temperature 278°C, cooling blow temperature 23°C, cooling air speed 2.19m/s, first roller speed 1960m/min, first roller temperature 92°C, second roller speed 2800m/min, second roller temperature is 163°C, winding speed is 2740m/min;
The relaxation heat treatment temperature is 109°C and the treatment time is 21 minutes.
The obtained fiber for medical antibacterial textiles contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 26%, a crimp stability of 80%, and a crimp elongation rate of 57%, a crimp elastic recovery rate of 70%, a breaking strength of 2.4 cN/dtex, a breaking elongation rate of 60%, and a single filament fineness of 1.10 dtex.

Example 2
The manufacturing method for medical antibacterial textile fibers is to press out polyester (intrinsic viscosity 0.55dL/g) in which silver-based antibacterial agent RHA-02 is dispersed at a silver ion content of 300ppm, through the Y-shaped discharge hole of the mouthpiece, and circular blowing. It is cooled to FDY and then subjected to a relaxation heat treatment. Among them
The Y-shaped discharge hole has three slits with a length ratio of 1.0:1.5:1.9 and the same width. The angle formed by the lines is 120°;
The number of Y-shaped discharge holes is 24 and they are arranged in a circular shape at equal intervals. The angles formed with the line are 28°, 162°, 64°, 3°, 6°, 105°, 22°, 90°, 1°, 3°, 170° and 40°, respectively, when written clockwise. , 45°, 30°, 10°, 100°, 106°, 100°, 41°, 80°, 65°, 2°, 50°;
The parameters of the FDY process are: spinning temperature 278°C, cooling blow temperature 23°C, cooling air speed 2.19m/s, first roller speed 1970m/min, first roller temperature 92°C, second roller speed 2820 m/min, second roller temperature is 168°C, winding speed is 2760 m/min;
The relaxation heat treatment temperature is 109°C and the treatment time is 20 minutes.
The obtained fiber for medical antibacterial textiles contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 26%, a crimp stability of 80%, and a crimp elongation rate of 58%, crimp elastic recovery rate is 70%, breaking strength is 2.45 cN/dtex, breaking elongation rate is 58%, single filament fineness is 1.20 dtex.

Example 3
The manufacturing method for medical antibacterial textile fibers is to press out polyester (intrinsic viscosity 0.54dL/g) in which silver-based antibacterial agent RHA-02 is dispersed at a silver ion content of 290ppm, through the Y-shaped discharge hole of the mouthpiece, and circular blowing. It is cooled to FDY and then subjected to a relaxation heat treatment. Among them
The Y-shaped discharge hole has three slits with the same width and length ratio of 1.0:2.0:2.5, the length-width ratio of the shortest slit is 3.5:1, and the center line of two adjacent slits is 120°;
The number of Y-shaped discharge holes is 30 and they are arranged in a circular shape at equal intervals. The angles formed by and are 10°, 60°, 2°, 30°, 90°, 15°, 22°, 90°, 1°, 3°, 170°, 40° and 45°, 30°, 10°, 100°, 106°, 100°, 41°, 80°, 65°, 2°, 50°, 28°, 162°, 64°, 3°, 6°, 105° is;
The parameters of the FDY process are: spinning temperature 277°C, cooling blow temperature 23°C, cooling air speed 2.12m/s, first roller speed 1930m/min, first roller temperature 91°C, second roller speed 2780m/min, second roller temperature is 161°C, winding speed is 2720m/min;
The relaxation heat treatment temperature is 104°C and the treatment time is 23 minutes.
The obtained fiber for medical antibacterial textiles contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 27%, a crimp stability of 78%, and a crimp elongation rate of 62%, crimp elastic recovery rate is 71%, breaking strength is 2.48 cN/dtex, breaking elongation rate is 56%, single filament fineness is 1.28 dtex.

Example 4
The manufacturing method for medical antibacterial textile fibers is to press out polyester (intrinsic viscosity 0.54dL/g) in which silver-based antibacterial agent RHA-02 is dispersed at a silver ion content of 295ppm, through the Y-shaped discharge hole of the mouthpiece and circular blow. It is cooled to FDY and then subjected to a relaxation heat treatment. Among them
The Y-shaped discharge hole has three slits with a length ratio of 1.0:1.6:2.0 and the same width. The angle formed by the lines is 120°;
The number of Y-shaped discharge holes is 36 and they are arranged in a circular shape at equal intervals. The angles formed by and are 10°, 60°, 2°, 30°, 90°, 15°, 28°, 162°, 64°, 3°, 6°, 105° and 121°, 93°, 161°, 123°, 75°, 129°, 22°, 90°, 1°, 3°, 170°, 40°, 45°, 30°, 10°, 100°, 106° , 100°, 41°, 80°, 65°, 2°, 50°;
The parameters of the FDY process are: the spinning temperature is 276°C, the cooling blow temperature is 21°C, the cooling air speed is 2.04m/s, the first roller speed is 1930m/min, the first roller temperature is 90°C, the second roller speed is 2780 m/min, second roller temperature is 159°C, winding speed is 2720 m/min;
The relaxation heat treatment temperature is 98°C and the treatment time is 24 minutes.
The resulting antibacterial textile fiber for medical use contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 29%, a crimp stability of 82%, and a crimp elongation rate of 59%, crimp elastic recovery rate is 75%, breaking strength is 2.5 cN/dtex, breaking elongation rate is 55%, single filament fineness is 1.36 dtex.

Example 5
The manufacturing method of the medical antibacterial textile fiber is to press out the polyester (intrinsic viscosity 0.52dL/g) in which the silver antibacterial agent RHA-02 is dispersed at a silver ion content of 121ppm, through the Y-shaped discharge hole of the mouthpiece and circular blow. It is cooled to FDY and then subjected to a relaxation heat treatment. Among them
The Y-shaped discharge hole has three slits with a length ratio of 1.0:2.5:24 and the same width, the length-width ratio of the shortest slit is 2.7:1, and the center line of two adjacent slits is 120°;
The number of Y-shaped discharge holes is 24 and they are arranged in a circular shape at equal intervals. The angles formed with the line are 152°, 96°, 54°, 100°, 175°, 75°, 22°, 90°, 1°, 3°, 170° and 40°, respectively, when written clockwise. , 45°, 30°, 10°, 100°, 106°, 100°, 41°, 80°, 65°, 2°, 50°;
The parameters of the FDY process are: spinning temperature is 273 ° C, cooling blow temperature is 21 ° C, cooling air speed is 2.01 m / s, first roller speed is 1890 m / min, first roller temperature is 89 ° C, second roller speed is 2770 m/min, second roller temperature is 158°C, winding speed is 2710 m/min;
The relaxation heat treatment temperature is 97°C and the treatment time is 24 minutes.
The obtained fiber for medical antibacterial textiles contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 29%, a crimp stability of 78%, and a crimp elongation rate of 55%, crimp elastic recovery rate is 74%, breaking strength is 2.55 cN/dtex, breaking elongation rate is 54%, single filament fineness is 1.44 dtex.

Example 6
The manufacturing method for medical antibacterial textile fibers is to press out polyester (intrinsic viscosity 0.5dL/g) in which silver-based antibacterial agent RHA-02 is dispersed at a silver ion content of 193ppm, through the Y-shaped discharge hole of the mouthpiece, and circular blow. It is cooled to FDY and then subjected to a relaxation heat treatment. Among them
The Y-shaped discharge hole has a length ratio of 1.0:2.2:2.5, and has three slits with the same width. The angle formed by the lines is 120°;
The number of Y-shaped discharge holes is 24 and they are arranged in a circular shape at equal intervals. The angles formed with the line are 166°, 40°, 23°, 138°, 112°, 55°, 180°, 53°, 174°, 142°, 131° and 87°, respectively, when written clockwise. , 49°, 90°, 65°, 5°, 74°, 161°, 30°, 158°, 45°, 109°, 23°, 47°;
The parameters of the FDY process are: spinning temperature 271°C, cooling blow temperature 20°C, cooling air speed 2m/s, first roller speed 1880m/min, first roller temperature 88°C, second roller speed 2770m /min, the second roller temperature is 153 ° C, the winding speed is 2710 m / min;
The relaxation heat treatment temperature is 97°C and the treatment time is 27 minutes.
The obtained fiber for medical antibacterial textiles contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 29%, a crimp stability of 78%, and a crimp elongation rate of 58%, crimp elastic recovery rate is 73%, breaking strength is 2.56 cN/dtex, breaking elongation rate is 53%, single filament fineness is 1.50 dtex.

Example 7
The manufacturing method of medical antibacterial textile fibers is to press out polyester (intrinsic viscosity 0.5dL/g) in which silver-based antibacterial agent RHA-02 is dispersed with a silver ion content of 201ppm, through the Y-shaped discharge hole of the mouthpiece, and circular blowing. It is cooled to FDY and then subjected to a relaxation heat treatment. Among them
The Y-shaped discharge hole has a length ratio of 1.0:1.5:2.0 and three slits with the same width. The length-width ratio of the shortest slit is 2.9:1. The angle formed by the center lines is 120°;
The number of Y-shaped discharge holes is 48 and they are arranged in a circular shape at equal intervals. The angles formed by and are 10°, 60°, 2°, 30°, 90°, 15°, 22°, 90°, 1°, 3°, 170°, 40° and 45°, 30°, 10°, 100°, 106°, 100°, 41°, 80°, 65°, 2°, 50°, 166°, 40°, 23°, 138°, 112°, 55° , 180°, 53°, 174°, 142°, 131°, 87°, 49°, 90°, 65°, 5°, 74°, 161°, 30°, 158°, 45°, 109°, 23 ° and 47°;
The parameters of the FDY process are: the spinning temperature is 270°C, the cooling blow temperature is 20°C, the cooling air speed is 1.8m/s, the first roller speed is 1800m/min, the first roller temperature is 85°C, the second roller speed is 2700m/min, second roller temperature is 150℃, winding speed is 2640m/min;
The relaxation heat treatment temperature is 90°C and the treatment time is 30 minutes.
The obtained fiber for medical antibacterial textiles contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 28%, a crimp stability of 82%, and a crimp elongation rate of 61%, crimp elastic recovery rate is 72%, breaking strength is 2.59 cN/dtex, breaking elongation rate is 52%, single yarn fineness is 1.00 dtex.

Example 8
The manufacturing method for medical antibacterial textile fibers is to press out polyester (intrinsic viscosity 0.55dL/g) in which silver-based antibacterial agent RHA-02 is dispersed at a silver ion content of 202ppm, through the Y-shaped discharge hole of the mouthpiece and circular blow. It is cooled to FDY and then subjected to a relaxation heat treatment. Among them
The Y-shaped discharge hole has a length ratio of 1.0:2.0:2.5 and three slits with the same width. The length-width ratio of the shortest slit is 2.5:1. The angle formed by the center lines is 120°;
The number of Y-shaped discharge holes is 24 and they are arranged in a circular shape at equal intervals. The angles formed by the lines are 10°, 60°, 2°, 30°, 90°, 15°, 22°, 90°, 1°, 3°, 170°, and 40°, respectively, when written clockwise. , 45°, 30°, 10°, 100°, 106°, 100°, 41°, 80°, 65°, 2°, 50°;
The parameters of the FDY process are: spinning temperature 280°C, cooling blow temperature 25°C, cooling air speed 2.3m/s, first roller speed 2000m/min, first roller temperature 95°C, second roller speed 2900 m/min, the second roller temperature is 170°C, and the winding speed is 2830 m/min;
The relaxation heat treatment temperature is 120°C and the treatment time is 20 minutes.
The obtained fiber for medical antibacterial textiles contains a plurality of Y-shaped cross-section single yarns, is in a crimped form, and has a crimp shrinkage rate of 28%, a crimp stability of 82%, and a crimp elongation rate of 58%, crimp elastic recovery rate is 72%, breaking strength is 2.6 cN/dtex, breaking elongation rate is 50%, single filament fineness is 1.10 dtex.

Claims (1)

An antibacterial polyester melt is extruded from a Y-shaped discharge hole on a spinneret, cooled by annular blowing, FDY is produced according to the FDY process, and a relaxation heat treatment is performed to produce fibers for medical antibacterial textiles. and
The antibacterial polyester is mainly composed of polyester and an antibacterial agent dispersed therein, the antibacterial agent is a silver-based antibacterial agent, the content of silver ions is 100 to 300 ppm, and the antibacterial polyester melt has a unique The viscosity is 0.50 to 0.55 dL / g,
The length ratio of the three Y-shaped slits of the Y-shaped discharge hole is 1.0:1.5-2.5:1.5-2.5, and the widths of the three slits are the same. , the length-to-width ratio of the shortest slit is 2.5 to 3.5:1, the angle formed by the center lines of two adjacent slits is 120°, and the three slits of different Y-shaped discharge holes have different shapes. and are the same size,
all the Y-shaped outlet holes are positioned to form concentric circles, and the shortest slits of each Y-shaped outlet hole are randomly oriented;
The parameters of the FDY process are: spinning temperature 270-280° C., cooling blow temperature 20-25° C., cooling air speed 1.80-2.30 m/s, first roller speed 1800-2000 m/min, 1st roller temperature is 85-95°C, second roller speed is 2700-2900m/min, second roller temperature is 150-170°C, winding speed is 2640-2830m/min,
The relaxation heat treatment has a treatment temperature of 90 to 120° C. and a treatment time of 20 to 30 minutes.
A method for producing fibers for medical antibacterial textiles, characterized by:

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