JP2005220454A - Pile tone tricot fabric - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a pile tone tricot fabric T that is a thin fabric, soft and stretchable and has pile tone surface effect by a tricot machine having no specific pile forming apparatus. <P>SOLUTION: The pile tone tricot fabric T has constitution that wales W belong to a wale W1 and a wale W2, a ground fabric is formed by a links texture connected by interlacing of sinker loops S with each other projected to both sides of the wale W1 and the wale W2, simultaneously stretchable elastic yarns K3 are hung and knitted between the mutually adjacent wales W so as to position below the interlaced sinker loops S of the ground fabric, the wales W are mutually pulled close by contraction of the stretchable elastic yarns K3 and the sinker loops S form ridges M in the direction of the wale. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a tricot fabric that is a kind of warp knitted fabric, and more particularly to a pile-like tricot fabric having a pile-like surface effect.

  In the tricot area, especially in the tricot area for inner garments, there are properties such as having elasticity, being thin and flexible, having a certain stiffness, and having a pile-like surface effect. There is a large product field required.

  As conventional means for obtaining the required characteristics in the above-mentioned product field, for stretchability, thinness, flexibility, etc., it is possible to use a combination of elastic elastic yarns such as polyurethane yarns and thin flexible knitting yarns, or structurally flat knitting. Adopting an organization. Further, the pile-like surface effect has been obtained by a comprehensive combination of knitting structure and yarn use, or post-processing.

However, as for the means for obtaining the pile-like surface effect among these required characteristics, there is actually no effective means for obtaining the effect while satisfying other required characteristics.
For example, there is no effective technical means to obtain a pile-like surface effect with soft and delicate fluffiness like the peach surface called peach skin while maintaining thin characteristics. It was.

Here, “a tricot ground having a pile-like surface effect” will be described.
The tricot fabric having a pile-like surface effect according to the present invention is different from a “pile knitted fabric” that is knitted by a knitting machine equipped with a device for forming a pile and the pile stands on the surface of the knitted fabric. It means a knitted fabric that has an appearance like having a pile.

For tricot fabrics with piles, a “pile warp knitted fabric” obtained by actively forming piles on the surface of the knitted fabric during knitting with a warp knitting machine having a pile formation mechanism, and a warp knitting machine without a pile formation mechanism "Pile-like warp knitted fabric" that produces a pile-like surface effect on the surface by using the structure and yarn, and "Post-processed pile warp knitted fabric with the surface raised in a pile shape by post-processing such as raising and shearing "Can be roughly classified.
The present invention is classified as “pile warp knitted fabric”.
JP 63-28955 (related to pile warp knitted fabric) JP-A-57-106770 (for pile warp knitted fabric) JP 56-128348 (related to post-processed pile warp knitted fabric)

Regarding the above-described pile warp knitted fabric and post-processed pile warp knitted fabric, it can be said that the technical means are almost established.
However, with regard to pile-knitted fabrics, many attempts have been made and commercialized to date, but none of them are reliable and optimal technical means.
As a specific example of a conventional pile warp knitted fabric, for example, as shown in FIG. 3A, a knitted fabric knitted with three sheets by a tricot machine can be cited.

In this example, a base fabric having a half structure H (FIG. 3B) as a ground structure is formed by two lumps L1 and L2, and an elastic elastic yarn K3 is knitted by another lumbar L3. is there.
As for the position of the stitches in the knitting machine, as viewed from the front of the knitting machine, the stitch L1 is the front, the stitch L2 is the middle, and the stitch L3 is the back position. In the sense of using three sheets, it is only necessary to understand that one type of knitting structure can be formed with one sheet.
Therefore, in the case of three sheets, three types of knitting structures can be formed in principle.
The ground structure of the half structure H is formed by knitting the cord structure C with the first sheet L1 and the denby structure D with the second sheet L2. Then, a stretchable elastic yarn K3 is knitted simultaneously with a Denby structure D with a third rib L3 to obtain stretchability.
In the case of this example, as shown in FIG. 3 (C), the elastic elastic yarn K3 contracts, so that lifting due to the bending of the sinker loop S of the cord structure C is promoted, and a pile-like surface effect is obtained.

Thus, conventionally, in this product field, the mainstream has been a means of obtaining a pile-like surface effect by knitting the elastic elastic yarn K3 into a half structure H, which is regarded as thin, as a ground structure.
However, the means for bending the sinker loop S in a bowed shape to the surface side is that the sinker loop S of the denby tissue D in the ground structure is spanned between the wales W1, W2,. Thus, the contraction by the elastic elastic yarn K3 does not act so much, and as a result, the elongation does not appear.
Further, the sinker loop S itself of the cord structure C also has bending rigidity, is not sufficiently curved, and it is difficult to say that a pile-like surface effect is obtained.

Therefore, in order to solve these problems, sometimes means such as brushing or shearing of the raising are sometimes taken.
In addition, the means for removing the Denby structure D, which is an obstacle to the contracting action by the elastic elastic yarn K3, cannot be formed as a knitted fabric because the ground structure is only the cord structure C and there are problems such as unraveling.

As described above, with the conventional method, it is difficult to obtain a tricot ground having a satisfactory pile-like surface effect having various characteristics.
Therefore, in the present invention, other required characteristics such as having a pile-like surface with a delicate fluffing feeling, thin, flexible and stretchable, which are required in the product field such as a tricot fabric for inner clothing, etc. In addition, an object is to provide an unprecedented pile-like pile-like tricot place T.

In order to solve these problems, the present invention has found that the Lynx organization is optimal for the ground organization. This Lynx organization is based on the Lynx organization R1 [L1 (1-0 / 2-2), L2 (0-0 / 1-2)], which is knitted with two sheets as shown in FIG. 1A, the needle loop N and the sinker loop S are repeatedly formed.
Here, the needle loop N refers to a portion that is knitted to form a loop, and the sinker loop S refers to a portion that merely communicates between the needle loops but does not form a loop.
Due to the characteristics of this organization, adjacent wales W are connected only by the sinker loop S.
In other words, the sinker loop S1 starting from the wale W1 is U-turned and returns to the wale W1 to which it belongs again without being passed over to the adjacent wale W2, but this U-turn semicircular sinker loop S A characteristic of the lynx structure is that they are connected to each other in a chain form.

The tricot fabric using the above-described conventional half structure H [FIG. 3B] is connected by connecting the sinker loop S between the wales W, whereas this link structure R1 [FIG. 1A] is The wale W1 and the wale W2 are connected by the confounding of the semicircular sinker loop S1 belonging to the wale W1 and the semicircular sinker loop S2 belonging to the wale W2 in a chain shape. It has the property of being easily broken at the direction.
In other words, the tangled sinker loop S serves as a hinge.

Therefore, as shown in the structural diagram of FIG. 1C, a stretch elastic yarn K3 such as a polyurethane yarn is placed on the lynx structure R1 by means of the oscillating L3 so as to be positioned below the semicircular sinker loop S. When the fabric (1-2 / 1-0) is knitted across the wales W, the elastic elastic yarn K3 contracts, and as shown in the schematic diagram of FIG. ... are attracted to each other, and as a result, the entangled sinker loop S is folded in a zigzag shape to form a ridge M in the wale W direction, and its cross-section becomes a triangular shape, as if it is a three-dimensional structure with a triangular prism shape It becomes the structure which arranged the thing in parallel.
As shown in a schematic cross-sectional view in FIG. 1 (E), the bent portion of the heel M forms a ring-shaped pile P in which each sinker loop S protrudes in an X shape. Combined with the unprecedented pile-like appearance and unique texture.
Here, as for the positional relationship in the knitting machine of the boss L1, boss L2, and boss L3, the boss L1 is the front, the boss L2 is the middle, and the boss L3 is the back as described above.
With regard to the present lynx structure, the same base fabric can be basically obtained even if the positional relationship between the front and the back is changed between the organization by OSA L1 and the organization by OSA L2.

Various changes organizations are possible for the above-mentioned Lynx organization R1.
One of them is the Lynx organization R2 shown in FIG.
This Lynx organization R2 [L1 (1-0 / 3-3), L2 (0-0 / 2-3)] is knitted in two pieces, and the difference from Lynx organization R1 is that While the loop S is entangled between the wales, in the links structure R2, as can be understood from the cross-sectional view of the knitted fabric shown in FIG. 1 (G), the sinker loops SL1 and SL2 The entanglement is performed between every other wale W1, W3, W5... And wale W2, W4, W6.

In this Lynx structure R2, similarly to the Lynx structure R1, a stretchable elastic yarn K3 such as a polyurethane thread is formed from the Lisa L3 so that it is positioned below the Lynx structure R2, and the Denby structure (1-2 / 1-0). Is stretched between the wales W and knitted, the elastic elastic yarn K3 contracts, and the adjacent wales W are attracted to each other as shown in the schematic sectional view of FIG. Each sinker loop S is folded in a zigzag shape to form ridges M1 and M2 in the direction of the wale W, and has a structure in which triangular prism-shaped three-dimensional structures are stacked and arranged in parallel.
The action of the wales being attracted to each other by the elastic elastic yarn to form the collars M1 and M2 is similar to the motion of a pantograph rising.

Since each of the cross-sections of the ridges M1 and M2 has a triangular shape, and this triangular shape overlaps, a large number of spaces A partitioned by the sinker loops SL1 and SL2 are formed therein.
In addition, since the length of one side of the triangular shape of the cross section of the ridge M1, M2 formed by the sinker loops SL1, SL2 is longer, the height of the mountain is compared with the ridge M formed by the Lynx structure R1. As a result, the thickness of the knitted fabric itself is obtained and the elasticity is high.
Here, the bent portions of the ridges M1 and M2 form a ring-shaped pile P in which the sinker loops SL1 and SL2 protrude in an X shape, etc., is the same as in the Lynx structure R1.

In any of the lynx structures R1 and R2, the pile-like tricot fabric T folded in a zigzag shape exhibits a property of being stretchable even with a small external force.
In addition, although the Lynx structures R1 and R2 use two sheets as in the previously described half structure, the half structure forms a double loop NW as seen in FIG. As shown in FIGS. 1B and 1F, the lynx structures R1 and R2 have only the single loop SW, and have characteristics such as thinness, lightness, and flexibility that are the same as those of a knitted fabric formed of one piece of cloth. Have.

  That is, according to the present invention, (1), the wale W belongs to each wale W1, W2,... And is connected by entanglement between the sinker loops S projecting on both sides of each wale W1, W2,. A base fabric is formed with the lynx structure, and at the same time, the elastic elastic yarn K3 is stretched and knitted between the wales W adjacent to each other so as to be positioned below the sinker loop S intertwined with the base fabric, The whales W are attracted to each other by the contraction of the elastic elastic yarn K3, and the sinker loop S exists in the pile-like tricot T where the wrinkle-shaped ridges M are formed.

  And (2), the above-mentioned (1) formed by a Lynx structure R1 [L1 (1-0 / 2-2), L2 (0-0 / 1-2)] in which the base fabric is knitted with two sheets ) Exists in the pile-like tricot place T described.

  And (3) having one or more other wales W2, W4, W5... Between the wales W1, W3, W5. The sinker loops S belonging to the wale exist in the pile-like tricot place T described in (1) above.

  In addition, (4), the base fabric is formed of a lynx structure R2 [L1 (1-0 / 3-3), L2 (0-0 / 2-3)] knitted by two sheets ( It exists in the pile-like tricot place T described in 1) and (3).

  And (5), the stretchable elastic yarn K3 exists in the pile-like tricot place T described in 1 above, which is laid and knitted between the wales W with a denby structure D (1-2 / 1-0).

  And (6) exists in the pile-like tricot place T of said 1 whose expansion-contraction elastic yarn K3 is a polyurethane yarn.

  And (7), the stretchable elastic yarn K3 exists in the pile-like tricot fabric T according to the above 1, wherein the woolen processed yarn is a synthetic fiber.

  In addition, (8), the knitting yarn K forming the base fabric exists in a pile-like tricot fabric T which is a spun yarn obtained by mixing synthetic fiber and cotton.

  In addition, (9) the knitting yarn K forming the base fabric is in the pile-like tricot fabric T according to the above 1, wherein the knitted yarn K is a continuous long fiber raw yarn of synthetic fiber.

  And (10), the stretch elastic yarn K3 is knitted into a predetermined portion of the base fabric to form a portion MS where the heel M is formed and a portion MU where the heel M is not formed, thereby obtaining a stripe in the wale W direction. Located in a pile-like tricot T.

  In addition, as long as the objective of this invention is followed, the structure which combined said (1) to (10) suitably is also employable.

  In the present invention, a pile fabric surface effect is obtained by adopting a lynx structure as a ground structure and forming a base fabric G by folding it in a zigzag shape by the contraction force of the elastic elastic yarn K3. However, it is possible to obtain a pile-like tricot fabric T having a pile-like surface effect that is efficient, economical, and has reliable reproducibility.

In addition, although the lynx structure of the ground structure uses two pieces of cloth, unlike the half structure H, it is a structure that does not become a double loop NW, so that the base fabric G can be a thin, light and flexible knitted fabric. .
The base fabric G folded in a zigzag shape has a triangular cross section, and has a structure in which triangular prism-shaped three-dimensional structures are arranged side by side. On the other hand, it exhibits a certain stiffness as a fabric and at the same time exhibits a soft cushioning property. Furthermore, the bent portion of the heel M functions as a hinge, so that it can be expanded and contracted with a slight action force, resulting in a delicate flexibility.

  And this pile-like tricot ground T is formed with a ring-like pile P in which each sinker loop S protrudes from the bent part of the ridge M, along with the expression of the pile-like appearance by the ridge formation. As a result, it has an unprecedented delicate pile-like appearance and texture.

  Furthermore, when the base fabric G is formed of the lynx structure R2 [L1 (1-0 / 3-3), L2 (0-0 / 2-3)], the folds M1 and M2 are overlapped. Therefore, a large number of spaces A partitioned by the sinker loops SL1 and SL2 are formed, and a heat insulating effect is obtained. In addition, since the length of one side of the triangular shape of the cross section of the ridge M1, M2 formed by the sinker loops SL1, SL2 is longer, the height of the mountain is compared with the ridge M formed by the Lynx structure R1. As a result, the thickness of the knitted fabric itself can be obtained, and an effect rich in elasticity can be obtained.

  With a very simple component of the base fabric of the lynx structure and the elastic elastic yarn knitted into it, many characteristics such as a reliable pile-like surface effect, elasticity, thinness and flexibility are obtained at the same time.

In the present embodiment, the base fabric G is formed of a Lynx structure R1 [L1 (1-0 / 2-2), L2 (0-0 / 1-2)] formed by two sheets. As shown in FIG. 1A, this Lynx structure R1 is basically a structure in which one needle loop N and one semicircular sinker loop S are sequentially repeated.
Then, the stretchable elastic yarn K3 is knitted with the denby structure D (1-2 / 1-0) by the Osamu L3.

As the knitting yarn K used for knitting the base fabric G, raw yarns of nylon long fibers (50 dtex / 36 filaments) are used for both the fibers L1 and L2.
The raw silk here refers to a yarn that has not been crimped by Woolley or the like.
A polyurethane yarn (22 dtex) is used as the elastic elastic yarn K3 for the L3.

  Since the pile-like tricot fabric T knitted with such a setting uses raw yarn as the knitting yarn K, the pile-like tricot fabric T has a certain stiffness and sharpness in flexibility.

In this embodiment, the lynx structure R2 [L1 (1-0 / 3-3), L2 (0-0 / 2-3)] formed by the two cloths shown in FIG. Form with.
Then, it is the same as in the first embodiment that the elastic elastic yarn K3 is knitted with the denby structure D (1-2 / 1-0) by the rib L3.
As the knitting yarn of the base fabric G, cupra rayon (Bemberg, 84 dtex / 24 filament) is used for the Lisa L1, polyester long fiber (84 dtex / 72 filament) is used for the Lusa L2, and polyurethane yarn (22 dtex) is used for the Lusa L3.
As compared with the first embodiment, a pile-like tricot ground T having a thick, high density, elasticity, and heat insulation effect can be obtained.

In the present embodiment, a knitted fabric is formed with the same structure as in the first embodiment, but a spun yarn (60 count) in which polyester and cotton are blended is used as the knitting yarn K used for forming the base fabric, and the expansion and contraction of OSA L3 is performed. As the elastic yarn K3, a polyurethane yarn having a thickness of 45 dtex is used.
By using such a yarn, in addition to the pile-like effect expressed from the principle of the present invention, a soft surface effect by the fluff of the spun yarn can be obtained, and at the same time, the polyurethane yarn can be made thinner and more flexible Sex is obtained.

In the present embodiment, the structure, thread type, and the like are the same as those set in the first and second embodiments. However, as shown in the schematic diagram of FIG. A stripe pattern is obtained by arranging wrinkle-free portions MU that are not formed at regular intervals.
A portion where the elastic elastic yarn K3 is not used becomes flat, and the used portion forms a ridge and exhibits a pile-like surface effect. Many changes can be obtained by setting in this way.

Various changes can be made to the present invention without departing from the scope of the claims.
The pile-like tricot fabric T of the present invention is mainly used for inner garments, but is naturally used for outer garments as well as automotive interior materials, seat materials such as chairs and sofas, or industrial textile materials such as interior-related materials. Can be used.
Furthermore, the knitted fabric structure of the present invention is not limited to tricot fabrics, and can be sufficiently used for other warp knitted fabrics such as raschel fabrics.
It goes without saying that various changes can be made to the structure of the base fabric and the structure of the stretchable elastic yarn other than those described above.

FIG. 1A is a substantial diagram of the links organization R1. FIG. 1B is an organization chart of the links organization R1. FIG. 1C is a structure diagram in which the elastic elastic yarn K3 is knitted with the Denby structure D in the Lynx structure R1. FIG. 1 (D) is a schematic diagram of a pile-like tricot place T on which a ridge M is formed. FIG. 1 (E) is a schematic cross-sectional view of a pile-like tricot fabric T on which a ridge M is formed. FIG. 1F is an organization chart of the links organization R2. FIG. 1G is a schematic cross-sectional view of a pile-like tricot fabric T on which the ridges M1 and M2 are formed. FIG. 2 is a schematic diagram of a pile-like tricot ground T having a portion which is not a portion where the ridge M is formed. FIG. 3A is a conventional pile warp knitted fabric organization chart having a half organization as a ground organization. FIG. 3B is a structure diagram of a half structure. FIG. 3C is a schematic cross-sectional view in which a stretchable elastic yarn is knitted into a half structure.

Explanation of symbols

N Needle loop S Sinker loop SL1, SL2 Sinker loop W Wale K Knitting yarn K3 Elastic elastic yarn SW Single loop NW Double loop L1 Osa (front)
L2 Osa (middle)
L3 Osa (back)
M 畝 M1 畝 M2 ＭＳ MS 畝 part with MU 畝 part without 畝
P pile

Claims (10)

  Each wale belongs to each wale, and a base fabric is formed by a lynx structure connected by entanglement between sinker loops projecting on both sides of each wale, and at the same time, the sinker loops entangled with the base fabric Stretch elastic yarns are stretched between adjacent wales so as to be positioned below and knitted, and the adjacent wales are attracted to each other by contraction of the elastic elastic yarns, so that the sinker loop group can be A pile-like tricot ground characterized by the formation of   The base fabric is formed of a lynx structure [(L1 (1-0 / 2-2), L2 (0-0 / 1-2)]) knitted with two sheets of cloth. The listed pile-like tricot.   The one or more other wales are provided between two wales to which the sinker loops entangled with each other, and the sinker loops belonging to the other wales are also entangled with each other. Pile-like tricot.   The base fabric is formed of a lynx structure [L1 (1-0 / 3-3), L2 (0-0 / 2-3)] knitted with two sheets of cloth. 2. Pile-like tricot ground.   The pile-like tricot fabric according to claim 1, wherein the elastic elastic yarn is knitted by being stretched between wales with a denby structure (1-2 / 1-0).   The pile-like tricot fabric according to claim 1, wherein the elastic elastic yarn is a polyurethane yarn.   The pile-like tricot fabric according to claim 1, wherein the elastic elastic yarn is a woolen processed yarn of synthetic fiber.   2. A pile-like tricot fabric according to claim 1, wherein the knitting yarn forming the base fabric is a spun yarn obtained by blending synthetic fiber and cotton.   2. A pile-like tricot fabric according to claim 1, wherein the knitting yarn forming the base fabric is a continuous continuous fiber raw yarn of synthetic fiber.   A pile-like tone according to claim 1, wherein stretchable elastic yarns are knitted into a predetermined portion of the base fabric to form a wrinkled portion and a wrinkled portion by forming a wrinkled portion and a non-formed portion. Tricot ground.

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