CN214655564U - Thermosensitive fiber tissue fabric with color changing function - Google Patents

Abstract

The utility model discloses a heat-sensitive fiber tissue fabric with color changing function, which is formed by weaving an upper dial with 10 needles and a lower cylinder with 10 needles, is a double-sided structure tissue, is a fabric made of heat-sensitive fibers, and has the characteristic that the color changes along with the temperature change; when the fabric is heated to a certain temperature range, the color of the material changes to present a new color, and the material returns to the original color after being cooled; the color-changing clothes worn in daily life are novel and beautiful, and can improve the visibility in some occasions and improve the safety. And a jacquard machine can be used for weaving patterns, so that better color-changing clothes can be manufactured.

Description

Thermosensitive fiber tissue fabric with color changing function

Technical Field

The utility model relates to a surface fabric especially relates to a temperature sensing fiber tissue fabric with function of discolouing.

Background

The thermal inductance fabric is a functional fabric which is popular in recent years, mainly adopts secondary processing as a main part, and is coated on the fabric through printing; the thermal fabric is called thermochromism, and refers to the phenomenon of color change generated when a substance is heated or cooled, and when the color change is reversible, the reversible thermochromism is realized.

In the existing thermochromic fabric, the main capsule auxiliary agent is coated on the fabric to act; therefore, the problem of washing times is solved, and the functional fabric can lose effectiveness after being washed for more than 10 times.

SUMMERY OF THE UTILITY MODEL

In view of the above disadvantages, the present invention provides a thermal sensitive fiber fabric with color changing function, which is a fabric made of thermal sensitive fibers, and the fabric has a characteristic that the color changes along with the temperature change; when the fabric is heated to a certain temperature range, the color of the material changes, a new color is presented, and the original color is recovered after the fabric is cooled.

In order to achieve the above object, the embodiments of the present invention adopt the following technical solutions:

a thermosensitive fiber tissue fabric with a color changing function is formed by knitting an upper dial with 10 needle tracks and a lower cylinder with 10 needle tracks, the thermosensitive fiber tissue fabric is a double-sided structure, and according to a minimum pattern, 10 paths of the tissue fabric are a complete cycle:

feeding heat-sensitive yarn 75D/72F in the first path, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially looped and floated;

feeding heat-sensitive yarn 75D/72F in the second path, and performing looping and looping sequentially by using an upper needle; the lower needle is sequentially provided with a tuck ring and a floating ring;

Feeding heat-sensitive yarn 75D/72F in the third path, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially provided with a tuck ring and a floating ring;

in the fourth path, feeding hollow yarns of 50D/36F, simultaneously feeding 40D spandex fibers, and sequentially arranging floating rings and floating rings on the upper needle;

feeding hollow yarns of 50D/36F, simultaneously feeding 40D spandex fibers, and sequentially arranging floating rings and floating rings on the upper needle;

feeding heat-sensitive yarn 75D/72F, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially a floating ring and a loop;

feeding heat-sensitive yarn 75D/72F in the seventh path, and sequentially looping and looping the yarn; the lower needle is sequentially provided with a floating ring and a tuck ring;

feeding heat-sensitive yarn 75D/72F in the eighth path, and sequentially looping and looping the yarn by using a needle; the lower needle is sequentially provided with a floating ring and a tuck ring;

in the ninth path, feeding hollow yarns 75D/72F, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence;

in the tenth path, feeding hollow yarns 75D/72F, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence.

According to one aspect of the present invention, the length of the heat-sensitive yarn 75D/72F thread is set to 16CM/50 needles; the length of the hollow yarn 50D/36F line is 8.5CM/50 needles; the length of the 40D spandex fiber thread weighed in simultaneously with the hollow yarn 50D/36F is set to be 3.5CM/50 needles.

According to one aspect of the utility model, the upper dial knitting needles are arranged in a 1-2-1-2 circular array in sequence, and the lower cylinder knitting needles are arranged in a 1-0-2-0 circular array in sequence.

The utility model discloses the advantage of implementing: the utility model relates to a heat-sensitive fiber tissue fabric with color-changing function, which is formed by knitting an upper dial with 10 needles and a lower needle cylinder with 10 needles, is a double-sided structure tissue, is a fabric made of heat-sensitive fibers, and has the characteristic that the color changes along with the temperature change; when the fabric is heated, the color of the material changes to present a new color, and the material returns to the original color after being cooled; the color-changing clothes worn in daily life are novel and beautiful, and can improve the visibility in some occasions and improve the safety. And a jacquard machine can be used for weaving patterns, so that better color-changing clothes can be manufactured.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic front view of a thermosensitive fiber tissue fabric with a color-changing function according to the present invention;

fig. 2 is a schematic reverse side view of a thermosensitive fiber tissue fabric with a color-changing function according to the present invention;

fig. 3 is a schematic diagram showing a symbol of a knitting technique of a thermosensitive fiber tissue fabric with a color-changing function according to the present invention;

fig. 4 is a schematic view of a weaving manner of the thermosensitive fiber tissue fabric with color-changing function according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, 2, 3 and 4, a thermosensitive fiber tissue fabric with a color-changing function is formed by knitting an upper dial with 10 needle tracks and a lower cylinder with 10 needle tracks, the thermosensitive fiber tissue fabric is a double-sided structure, and according to a minimum pattern, 10 paths of the tissue fabric are a complete cycle:

In practical application, as shown in fig. 3, it is a knitting term, and the knitting and weaving method includes three types, namely looping, tucking and floating; knitting is a process in which a loop is fully worked by a knitting needle, and the yarn is formed into a loop on a knitting machine with the knitting needle and other knitting elements; tucking is that when knitting, old loops on some knitting needles and new yarns enter a needle hook together, so that the new yarns form an unsealed suspended arc, and the old loops form elongated loops; the float stitch is a phenomenon that when a knitting needle is raised to withdraw a stitch at the start of stitch formation, an old stitch is not withdrawn to a needle bar below a latch but is still caught on the latch for some reason, and when the knitting needle is lowered, the old stitch is returned to a hook and a new stitch cannot be formed.

In practical applications, the specific shape of the loop, tuck, and float is common knowledge in the art, and the specific shape is not specifically shown here.

In practical application, as shown in fig. 4, the present embodiment is a double-sided structure with 10 paths of structures, the upper dial needles are arranged in a 1-2-1-2 circular array sequentially, and the lower cylinder needles are arranged in a 1-0-2-0 circular array sequentially.

Feeding heat-sensitive yarn 75D/72F in the first path, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially looped and floated; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, and the length of a yarn feeding line is 16 CM;

Feeding heat-sensitive yarn 75D/72F in the second path, and performing looping and looping sequentially by using an upper needle; the lower needle is sequentially provided with a tuck ring and a floating ring; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, and the length of a yarn feeding line is 16 CM;

feeding heat-sensitive yarn 75D/72F in the third path, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially provided with a tuck ring and a floating ring; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, and the length of a yarn feeding line is 16 CM;

in the fourth path, feeding hollow yarns of 50D/36F, simultaneously feeding 40D spandex fibers, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, the length of a 50D/36F thread is 8.5CM, and the length of a 40D spandex thread is 3.5 CM;

feeding hollow yarns of 50D/36F, simultaneously feeding 40D spandex fibers, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, the length of a 50D/36F thread is 8.5CM, and the length of a 40D spandex thread is 3.5 CM;

feeding heat-sensitive yarn 75D/72F, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially a floating ring and a loop; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, and the length of a yarn feeding line is 16 CM;

feeding heat-sensitive yarn 75D/72F in the seventh path, and sequentially looping and looping the yarn; the lower needle is sequentially provided with a floating ring and a tuck ring; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, and the length of a yarn feeding line is 16 CM;

Feeding heat-sensitive yarn 75D/72F in the eighth path, and sequentially looping and looping the yarn by using a needle; the lower needle is sequentially provided with a floating ring and a tuck ring; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, and the length of a yarn feeding line is 16 CM;

in the ninth path, feeding hollow yarns 75D/72F, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, the length of a 50D/36F thread is 8.5CM, and the length of a 40D spandex thread is 3.5 CM;

in the tenth path, feeding hollow yarns 75D/72F, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence; the upper needles are arranged according to 1/2/1/2, the lower needles are arranged according to 1/0/2/0, the length of a 50D/36F thread is 8.5CM, and the length of a 40D spandex thread is 3.5 CM.

In practical application, the thermosensitive allochroic fiber is prepared by introducing thermosensitive compounds (such as compounds of metals such as titanium, chromium, zirconium and the like) to the surface of the fiber through copolymerization and blending methods, and then titanium-plated polyester yarns 75D/72F are adopted in the structure.

In practical application, the two materials of the fabric are interwoven, and the titanium-plated polyester yarns and the hollow spandex yarns are turned from one to the other, so that the following beneficial conditions exist; 1. titanium plated yarn is expensive and is mixed with hollow yarn to reduce the overall cost. 2. The gram weight of the fabric is reduced by the hollow yarns 3. the spandex yarns are mixed to improve the contractility of the fabric and the grade of the fabric, so that the titanium-plated yarns on the front side can better embody the color-changing effect. 4. The reverse side rhomboid structure strengthens the contractibility of the fabric.

In practical application, as shown in fig. 1, the front surface of the thermosensitive fiber tissue fabric with the color-changing function adopts 75D/72F thermosensitive yarns to form a mesh grid; as shown in fig. 2, the back of the thermosensitive fiber tissue fabric with the color-changing function adopts spandex to form diamond lattices.

The utility model discloses the advantage of implementing: the utility model relates to a heat-sensitive fiber tissue fabric with color-changing function, which is formed by knitting an upper dial with 10 needles and a lower needle cylinder with 10 needles, is a double-sided structure tissue, is a fabric made of heat-sensitive fibers, and has the characteristic that the color changes along with the temperature change; when the fabric is heated, the color of the material changes to present a new color, and the material returns to the original color after being cooled; the color-changing clothes worn in daily life are novel and beautiful, and can improve the visibility in some occasions and improve the safety. And a jacquard machine can be used for weaving patterns, so that better color-changing clothes can be manufactured.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are all covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (3)

1. The heat-sensitive fiber tissue fabric with the color changing function is formed by knitting an upper dial with 10 needle tracks and a lower needle cylinder with 10 needle tracks, and is characterized in that the heat-sensitive fiber tissue fabric is a double-sided structure, and according to a minimum pattern, 10 paths of the tissue fabric are a complete cycle:

feeding heat-sensitive yarn 75D/72F in the first path, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially looped and floated;

feeding heat-sensitive yarn 75D/72F in the second path, and performing looping and looping sequentially by using an upper needle; the lower needle is sequentially provided with a tuck ring and a floating ring;

feeding heat-sensitive yarn 75D/72F in the third path, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially provided with a tuck ring and a floating ring;

in the fourth path, feeding hollow yarns of 50D/36F, simultaneously feeding 40D spandex fibers, and sequentially arranging floating rings and floating rings on the upper needle;

feeding hollow yarns of 50D/36F, simultaneously feeding 40D spandex fibers, and sequentially arranging floating rings and floating rings on the upper needle;

feeding heat-sensitive yarn 75D/72F, and sequentially looping and looping the yarn by a needle; the lower needle is sequentially a floating ring and a loop;

feeding heat-sensitive yarn 75D/72F in the seventh path, and sequentially looping and looping the yarn; the lower needle is sequentially provided with a floating ring and a tuck ring;

feeding heat-sensitive yarn 75D/72F in the eighth path, and sequentially looping and looping the yarn by using a needle; the lower needle is sequentially provided with a floating ring and a tuck ring;

In the ninth path, feeding hollow yarns 75D/72F, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence;

in the tenth path, feeding hollow yarns 75D/72F, and sequentially arranging floating rings and floating rings on the upper needle; the lower needle is formed into a loop and a loop in sequence.

2. The thermosensitive fiber tissue fabric with color-changing function according to claim 1, wherein the length of the thermosensitive yarn 75D/72F thread is 16CM/50 needles; the length of the hollow yarn 50D/36F line is 8.5CM/50 needles; the length of the 40D spandex fiber thread weighed in simultaneously with the hollow yarn 50D/36F is set to be 3.5CM/50 needles.

3. The thermosensitive fiber tissue fabric with a color-changing function according to claim 1, wherein the upper dial needles are arranged in a 1-2-1-2 circular arrangement in sequence, and the lower cylinder needles are arranged in a 1-0-2-0 circular arrangement in sequence.

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