JP4695674B2 - Knitted fabric with wavy hem - Google Patents

Description

  The present invention relates to a knitted fabric with a wavy hem in which an end line of a unit knitted fabric is wavy.

The knitted fabric is usually knitted by connecting unit knitted fabrics having a predetermined width necessary for various clothing, and after knitting, the unit knitted fabric is separated into unit knitted fabrics. In the method of cutting with a laser, there is a problem that unraveling (fraying) is likely to occur. Conventionally, the unraveling has been prevented by stitching a patch cloth or another fabric. There is a problem that the sewing of the patch and the other fabric is easily noticeable from the outer clothing.
Therefore, a cut yarn is provided between the unit knitted fabrics, and an elastic connecting structure for connecting each unit knitted fabric and the drawn yarn is provided, and when the cut yarn is removed, the elastic connected structure is drawn into each unit knitted fabric. By doing so, there is also known a method in which the unit knitted fabric is separated for each unit knitted fabric, and the unraveling is prevented without sewing the application cloth or another fabric.

Recently, an attempt has been made to improve the design by making the end line of the unit knitted fabric wavy when forming the hem by separating the unit knitted fabric with the above-described yarn.
For example, there is known a knitted fabric having corrugated hem portions formed alternately with different elastic yarn and / or elastic yarn structures and body fabric portions. According to this technique, there is no looseness of seams. It is said that a knitted fabric having a corrugated hem portion having a good wearing feeling and excellent aesthetics is obtained (see Patent Document 1).
JP 2004-68224 A

However, in the prior art as described in Patent Document 1, the knitting structure is changed at the end line of the unit knitted fabric, and the wavy pattern is formed by alternately forming the structures having different swings. The degree was low. Specifically, with the change in the knitting structure at the end line, it is difficult to form a wave shape or to form a shape other than a curved shape (for example, a trapezoidal shape). Moreover, it was hard to say that the form stability was sufficient.
Therefore, the problem to be solved by the present invention is that when the outer garment is worn as an inner garment, the end line of the unit knitted fabric is not conspicuous, the wear feeling is excellent, and a highly flexible wave shape is formed. An object of the present invention is to provide a knitted fabric with wavy hem which is extremely excellent in design properties and has high form stability.

The present inventor has intensively studied to solve the above problems. And as a result of performing trial and error to obtain a knitted fabric in which the end line of the unit knitted fabric is not conspicuous from the outer garment when worn as an inner garment, when the end line is formed in a wavy shape, Compared to finding that it is less noticeable from the outer garment, as a method of forming this wave shape, it is easy and high degree of freedom by following the contraction of the elastic device inserted while greatly meandering across multiple wales As a result, it was found that a wave shape having high form stability can be generated, and the present invention was completed.
That is, the knitted fabric with wavy hem according to the present invention is
A knitted fabric with a wavy hem in which the end line of the unit knitted fabric is wavy, and a mechanism elastic yarn for forming the wavy shape of the end line is inserted near the inner side of the end line. The insertion shape of the elastic yarn approaches the end line at the closest part for each approach to the end line until the interval between the set elastic thread and the end line at the closest part reaches a range of 1 to 10 wales. The farthest separation portion for each separation is in the form of meandering so as to separate until the distance between the set elastic yarn and the end line in the most separated portion is in the range of 15 to 56 wales, and the end line extends over a plurality of wales. by following the contraction of the gimmick elastic yarn to increase meandering, characterized in that wavy said end line is formed.

  The knitted fabric with wavy hem according to the present invention is clearly shaped like a straight line because the end line of the unit knitted fabric is wavy when the influence on the outer garment when worn as an inner garment is seen. There is an advantage that cannot be expressed. In addition, the wavy shape of the end line of the unit knitted fabric is formed not by the swing width of the knitting yarn but by following the contraction of the device elastic yarn meandering greatly. It can be produced and has high form stability.

Hereinafter, the knitted fabric with wavy hem according to the present invention will be specifically described. However, the scope of the present invention is not limited to these descriptions, and modifications other than the following examples can be made as appropriate without departing from the spirit of the present invention.
[Knitted fabric with wavy hem]
In the knitted fabric with wavy hem according to the present invention, the wavy shape of the end line is formed by following the contraction of the in-process elastic yarn inserted while greatly meandering over a plurality of wales.
Furthermore, you may have the power switch part which is made into a wave form with a setting elastic thread. Thus, also in the power switching part, by making the shape wavy, it is possible to make the outer clothing less noticeable, and to improve the design and form stability.

In the present invention, an area that has an appropriate power corresponding to each use of the knitted fabric and is a basic texture of the knitted fabric is referred to as a non-power switching unit, and the non-power switching unit. A region where the power is relatively increased or decreased is referred to as a power switching unit.
In the knitted fabric according to the present invention, for example, in the embodiment shown in FIG. 1, the unit knitted fabrics 10 on both sides are connected to the unit knitted fabric 10 via a pulling yarn 20 and an elastic connecting structure 30. A switching unit 11 and a power switching unit 12 are provided, and a mechanism elastic yarn 13 that is greatly meandering is inserted. The state in which the end line 14 of the unit knitted fabric is wavy following the contraction of the tackle elastic yarn 13 is shown.

In the example shown in FIG. 1, a power switching unit 12a is provided continuously from the end line 14 of the unit knitted fabric. By providing this power switching unit 12a, it is possible to improve the stability of the fabric in the vicinity of the end line 14 of the unit knitted fabric, and to impart characteristics according to the use of the knitted fabric, such as providing a fit. be able to. For example, the width of the power switching unit 12a can be set to 1 to 7 cm, and the power thereof is within 3 times or 1/3 times or more than 1/3 times or 3 times that of the non-power switching unit. It can be changed step by step within the range.
In the present invention, “power” is a value obtained by the following measurement method.
2.5 cm x 16.0 cm test pieces were taken in the vertical and horizontal directions, and these test pieces were stretched at a constant speed with an upper grip of 2.5 cm, a lower grip of 3.5 cm, and a grip interval of 10.0 cm. The machine was operated at a speed of 30 ± 2 cm / min, attached to a mold tensile tester, and pulled repeatedly three times, and the load required for pulling to an elongation of 80% at the third extension was defined as power (g).

Next, in the example illustrated in FIG. 1, the power switching unit 12 b is further provided at a position away from the end line 14 of the unit knitted fabric (inside the unit knitted fabric 10). The power switching unit 12b has a function of imparting a body shape correction function such as hip up to the knitted fabric.
Further, in the example shown in FIG. 1, the in-process elastic yarn 13 is inserted not only in the position adjacent to the end line 14 but also in the power switching units 12a and 12b. In this way, in addition to the position adjacent to the end line 14, the trapped elastic yarn 13 may be inserted into a desired position where a wavy shape is desired, and the trapped elastic yarn 13 is inserted over the entire range of the power switching units 12a and 12b. According to the embodiment shown in FIG. 1, it is possible to perform control such as forming a uniform wave shape over the entire range of the power switching units 12 a and 12 b or loosening the wave shape step by step. However, the present invention is not limited to this form. For example, the device elastic yarn 13 may extend from the power switching units 12a and 12b to the non-power switching unit 11 beyond the boundary lines 15a and 15b, It may be inserted only inside the non-power switching unit.

As described above, the undulation in the knitted fabric according to the present invention is applied to the end line 14 of the unit knitted fabric, but the present invention is not limited to this, and the power switching unit 12a and the body fabric connected to the end line 14 are not limited thereto. The present invention can also be applied to the internal power switching unit 12b. In the knitted fabric with wavy hem according to the present invention, whether or not the end line 14 other than the unit knitted fabric is wavy is arbitrary, and may be determined according to the purpose.
In the knitted fabric before separation shown in FIG. 1, the elastic connecting structure 30 connects the punched yarn 20 and the end line 14 of the unit knitted fabric on both sides thereof. An elastic connective structure 30 is disposed between one united yarn 20 and the unit knitted fabric 10 on both sides thereof. At this time, both elastic connecting structures 30 are independent structures, and when the pulling yarn 20 is unwound, each elastic connecting structure 30 is divided into unit knitted fabrics 10 on both sides and drawn together. Is adopted.

  The non-power switching unit 11 and the power switching unit 12 can adopt a knitting structure suitable for each garment, and a technique common to a normal knitted fabric can be applied. Specifically, the non-power switching unit 11 provides stretchability by combining a knitted structure made of elastic yarn with a knitted structure made of inelastic yarn, and the power switching unit 12 sets the fineness of the elastic yarn. The power can be switched by changing or combining another elastic yarn. These knitted structures include conventionally known ones such as a tricot structure such as half, satin, and mesh, and a power net. , 6-course satin nets, twin powers, and other raschel structures such as mesh-like, or a structure with four or more sheets can be used.

As thickness of the inelastic thread | yarn used for the ground organization in the said non-power switching part 11 or the power switching part 12, 17-78 dtex is preferable, for example, and 22-44 dtex is more preferable. The thickness of the elastic yarn is preferably 33 to 480 tex, and more preferably 44 to 310 dtex. When the thickness of the elastic yarn is changed between the non-power switching unit 11 and the power switching unit 12, the difference is preferably set to 1/3 or more and 3 times or less.
The extraction thread 20 and the elastic connecting structure 30 may also be those usually employed. Although only one place is shown in FIG. 1, a plurality of these are usually provided at a desired interval according to the use of the unit knitted fabric.

As the knitting structure constituting the cut yarn 20 and the end line 14 of the unit knitted fabric, for example, a knitting structure having a repeating unit such as 01/10 // 10/10 // can be employed.
The drawn yarn 20 is usually made of an inelastic yarn, and its thickness is preferably, for example, 33 to 200 dtex.
Also, the yarn forming the end line 14 is usually made of an inelastic yarn, and the thickness is preferably 15 to 55 dtex, for example.
As the elastic connective structure 30, a structure similar to a knitted fabric having a normal separation structure can be adopted. For example, it is possible to employ a structure in which both unit knitted fabrics 10 and the cut yarn 20 are inserted so as to shift every few courses. Specifically, as the elastic connective structure 30, for example, a knitted structure having repeating units such as 22/00/22/11/33/11 /, 33/22/33/00/11/00 //, and the like. Can be adopted.

By knitting the elastic connecting structure 30 with elastic yarns, the portion where the drawn yarn portions are connected when the knitted fabric is separated is smoothly drawn toward the unit knitted fabric 10 on both sides. The thickness of the elastic yarn is preferably 88 to 560 dtex, for example.
The above-described knitted fabric can be combined with a knitted structure that becomes a pattern or a pattern of inelastic yarn or elastic yarn, for example, depending on the purpose.
[Device elastic thread]
Next, a detailed description will be given of the device elastic yarn 13 that is inserted in a meandering manner across a plurality of wales, which is essential in the knitted fabric with wavy hem according to the present invention.

FIG. 2 is an enlarged view of the place where the gimmick elastic yarn 13 is inserted in the knitted fabric, and differs from the knitted fabric shown in FIG. 1 in that the gimmick elastic yarn 13 is not contracted immediately after knitting. .
It is preferable to exemplify a form in which the tacking elastic yarn 13 is inserted by being swung so as to approach or leave a plurality of wales with respect to the end line 14 of the unit knitted fabric. The term “over a plurality of wales” means that the case of being shaken on the same wales is not included.
Since the end line 14 becomes wavy by following the contraction of the gimmick elastic yarn 13, it is preferable that the gimmick elastic yarn 13 has a sufficient shrinkage force sufficient to cause the wave shape. .

The mechanism elastic yarn 13 is not limited to one, and a plurality may be used. In FIG. 2, fifteen hooked elastic yarns (three sets of five hooked elastic yarns) are inserted separately for each wale.
In order to obtain a sufficient contraction force, for example, as the mechanism elastic yarn 13, one or a plurality of mechanism elastic yarns that are inserted in a band shape or in a uniform manner are used. Or the total thickness is preferably 117 dtex or more. More preferably, it is 260 dtex or more, More preferably, it is 780 dtex. As described above, by setting the number and fineness of the in-process elastic yarn appropriately, it is possible to impart sufficient contractility to the in-process elastic yarn 13.

It is preferable that the hooked elastic yarn 13 is close to the end line 14 at a portion closest to the end line 14 until an interval a between the hooked elastic yarn 13 and the end line 14 is in a range of 1 to 10 wales. . If there is an interval of 1 wal or more, it is possible to avoid that the set elastic yarn overlaps with the yarn forming the end line, and if the interval is within 10 wal, the end line 14 by following the contraction of the set elastic yarn 13 is avoided. This is because the corrugated formation is sufficiently performed and an excellent appearance is obtained. The range of 1-5 wales is more preferred.
It is preferable that the hooked elastic yarn 13 is separated at the most distant portion from the end line 14 until the interval b between the hooked elastic yarn 13 and the end line 14 is in the range of 15 to 56 wales. . This is because if the spacing is 15 wales or more, the undulating formation is sufficiently performed by following the contraction of the trimmed elastic yarn 13 and an excellent appearance is obtained. This is because the contraction force of the above can be sufficiently transmitted to the end line 14.

  It is preferable that the mechanism elastic yarn 13 has 6 or more courses where the closest distance between the closest part and the most separated part is the narrowest. In FIG. 2, the adjacent distance between the closest part and the farthest separation part is an interval c, an interval d, an interval e, etc. Among these intervals, the interval at the narrowest interval is 6 courses or more. Some are preferred. The spacing may be appropriately determined in consideration of the type of wave and the intended use of the product.However, if the distance between the closest part and the farthest separation part is too narrow, the wave becomes too small and is easily noticeable from the outer clothing. There is a risk of occurrence of creaking, and reverse forces are too close to each other, affecting each other and canceling the forces, so that the wavy shape of the end line 14 causes the meandering of the setting elastic yarn 13. There is a risk that it will be too small or uneven. 40-120 course is more preferable.

  As described above, in the present invention, the mechanism elastic yarn 13 is inserted while greatly meandering over a plurality of wales, and therefore, when inserted while being shaken on the same wal, the large meandering is not included. . Therefore, the closest part and the most separated part may be formed over a plurality of courses on the same wale, but the adjacent distance between the closest part and the most separated part at this time is a value obtained as follows. And That is, when the closest approach part and the most distant part cover a plurality of courses, the interval is obtained with reference to the center course. Specifically, in the case of an odd number 2n + 1 (n is an integer of 0 or more, hereinafter the same), the n + 1 course is used as a reference. When there are even 2n courses, there is no course in the center, so one course is divided into 0.5 courses and an imaginary course is assumed, and the n + 0.5 course is used as a reference. To give a simple example, the distance between the closest part and the farthest separation part shown in FIG. 3 is 23 courses in (a), 21 courses in (b), and 12.5 courses in (c).

As shown in FIG. 3, the device elastic yarn 13 has a small meander in the large meander, the swing width of one small meander is within 3 wales, and the number of course skips is within 3 courses. Some are preferred. In this way, if the movement has a small swing width and the number of course skips is not so large, a force for causing the end line 14 to follow due to the contraction of the in-process elastic yarn 13 is sufficiently generated. The single swing width is more preferably within a range of 2 wales, and a combination of a 1 wal swing width and a 2 wal swing width is particularly preferable. The course skip number is more preferably 1 to 2 courses, and particularly preferably 1 course.
In the above, the in-process elastic yarn 13 has been described in relation to the end line 14 of the unit knitted fabric. However, by arranging the in-process elastic yarn 13 in the same manner in relation to the desired wales, the desired wales are deformed into a wave shape. be able to. Thereby, for example, a wavy power switching unit can be formed.

[Specific example of wavy]
4 to 8 schematically show how the wavy shape of the end line is formed in accordance with the large meandering of the laid elastic yarn 13, taking various shapes as examples.
FIGS. 4 to 8 show examples in which the end line 14 of the unit knitted fabric is wavy, but for the sake of simplicity, the drawing yarn 20 and the elastic connective structure 30 are not shown.
FIG. 4 employs a curved shape and represents an example in which each arc has the same size.
FIG. 4A shows a state before the trapped elastic yarn 13 is contracted, and each portion of the trapped elastic yarn 13 expands and contracts in the direction indicated by the arrow in FIG. Become. In FIG. 4B, the end line 14 is also deformed in a curved shape following the contraction of the in-process elastic thread 13. If the punched yarn is removed from the state shown in FIG. 4B, the state shown in FIG. 4C is obtained, and the unit knitted fabric 10 of the knitted fabric with wavy hem having the curved end line 14 is obtained. Since these things are common also to (a)-(c) in FIGS. 5-8, those description is abbreviate | omitted below.

FIG. 5 employs a curved shape as a wave shape as in FIG. 4, but differs in that the size of the arc is changed. In FIG. 5, arcs of different sizes are alternately arranged, but the arrangement can be changed as appropriate.
FIG. 6 adopts a trapezoidal shape as a wave shape. Unlike the above curved shape, it is bent with an angle. Such a shape having an angle actually tends to be slightly round after deformation. The same applies to the embodiments shown in FIGS.
FIG. 7 adopts a triangular shape as a wave shape. It has a unique appearance by changing the length of the hypotenuse.

8 adopts a combination of trapezoidal shape and triangular shape as a wave shape, and the unit knitted fabric on the right side in FIG. 8 has a wavy hem formed so that the triangular shape protrudes at regular intervals, and the left side in FIG. In the unit knitted fabric, wavy hems are formed so that the trapezoidal shape protrudes at regular intervals.
Examples of the wavy shape in the knitted fabric with wavy hem according to the present invention include various shapes such as a combination of the curved shape, trapezoidal shape, and triangular shape, and various changes in the curvature of the arc. Is extremely flexible.
4 to 8, the hooked elastic yarn 13 that approaches or separates from the end lines 14 on both sides of the two end lines 14 that sandwich the punched yarn 20 is illustrated, but even on only one side. Good. However, in the configuration shown in FIGS. 4 to 8 in which the trapped elastic yarn 13 that approaches or separates from the end lines 14 on both sides is inserted, the contracting force of the trapped elastic yarn 13 acts on both sides, so that the force is balanced from the left and right. Is preferable in that.

4 to 8, only a single mechanism elastic yarn 13 that is approaching or leaving the end line 14 is illustrated on the left and right sides, but a plurality of similar mechanism elastic yarns are inserted into adjacent wales. May be. By arranging a plurality of tackle elastic yarns, the contraction force is increased, the wavy formation is improved, and the shape stability is excellent. Moreover, there is also an advantage that the wavy shape can be gradually relaxed by loosening the meandering step by step as the distance from the end line 14 increases. As described above, a plurality of gimmick elastic yarns may be inserted at the respective portions.
Although FIGS. 4 to 8 show examples in which the end line 14 of the unit knitted fabric is wavy, modifications other than the end line 14 are made in the same manner. The description is omitted because it overlaps with the above.

[Knitting yarn]
As the knitting yarn used for the knitted fabric with wavy hem according to the present invention, conventionally known yarns can be used. The knitting yarn can be divided into an inelastic yarn and an elastic yarn.
As the inelastic yarn used for the knitted fabric with wavy hem according to the present invention, basically the same yarn material as that of a normal knitted fabric can be used.
The non-elastic yarn is not limited to a yarn having no elasticity at all, but may be a yarn having less elasticity or stretchability than the elastic yarn. Specifically, in the present specification, the inelastic yarn means a yarn having an elongation of less than 100%. A yarn having an elongation of less than 60% is preferable.

Natural fibers such as cotton, synthetic fibers such as nylon, semi-synthetic fibers and regenerated fibers can also be used. Any form such as a filament yarn, a spun yarn, and a twisted yarn composed of these fibers may be used.
The thickness of the inelastic yarn may be appropriately set according to the purpose of use, and the specific preferable range for each purpose is as described above. Basically, it is preferable to have a thickness that can be covered so that the elastic yarn is not exposed on the surface of the knitted fabric. In addition, if it is as thin and strong as possible, it becomes easy to manufacture a thin knitted fabric. If the non-elastic yarn is too thick, the stretchability of the fabric is deteriorated, the surface texture and the touch are also deteriorated, and fraying is likely to occur.

As the elastic yarn used for the knitted fabric with wavy hem according to the present invention, basically the same yarn material as that of a normal knitted fabric can be used.
As the material of the elastic yarn, the same material as the elastic yarn used in a normal knitted fabric can be adopted. For example, polyurethane elastic yarn can be used. A highly elastic polyurethane yarn known as spandex can be used. A coated elastic yarn obtained by coating an elastic yarn with an inelastic yarn can also be used.
An elastic yarn having an elongation of 200% or more can be used. Preferably, the elongation is 400% or more.
The thickness of the elastic yarn may be set as appropriate according to the purpose of use, and the specific preferable range for each purpose is as described above. Basically, the thicker the elastic yarn, the stronger the stretchability. However, if the elastic yarn is too thick, the fabric becomes thicker or the appearance quality is lowered.

[Manufacture of knitted fabric with wavy hem]
For knitting, basically, a knitting device and a knitting method common to ordinary knitted fabrics can be applied.
As the knitting machine, a tricot knitting machine, a Russell knitting machine, and a knitting machine with a jacquard mechanism can be used.
The knitted knitted fabric becomes a knitted fabric product through processing steps performed on a normal knitted fabric such as set processing, scouring processing, and dyeing processing.
In particular, by the set process, the elastic yarn is bonded by causing thermal fusion at the crossing portion or the stitch portion of the yarns, so that resistance to tearing is increased and burst strength is improved. The processing conditions for the set processing differ depending on the types and characteristics of the inelastic yarn and elastic yarn to be used, but usually heat setting processing at 180 to 195 ° C. is employed.

[Use]
It can be used for applications where ordinary knitted fabric is used. In particular, it is suitable for various apparel and the like that require a knitted fabric with good appearance and wearing feeling. Since the end line of the fabric and the power switching portion are difficult to be recognized from the outer clothing, it is particularly suitable for inner clothing such as foundation clothing.

In the following, as the knitted fabric according to the present invention, the knitted fabric shown in FIG. 1 is actually created and will be specifically described as an example, but the present invention is not limited to these.
As the knitting device, RSE6EL manufactured by KARL MAYER was used.
FIGS. 9 and 10 schematically show individual knitting structures of each yarn constituting the unit knitted fabric 10 of the knitted fabric, the cut yarn 20 and the elastic connecting structure 30.
9 shows the knitting structures A to C constituting the ground structure, the knitting structure X constituting the end yarn 14 of the unit knitted fabric formed on the left and right of the punching yarn 20 and the punching yarn, the punching yarn 20 and the end line 14. 10 shows a knitted structure Y of the elastic connected structure 30 that connects the two, and FIG. 10 shows the knitted structure Z by the set elastic yarn 13 inserted while meandering over a plurality of wales.

Each knitting organization A to C and X to Z was knitted with the following thread use.
筬 [G1]
(Knitting A): Nylon 33-26-2M94 (manufactured by Toray Industries, Inc.)
筬 [G2]
(Knitting B): Nylon 33-26-2M94 (manufactured by Toray Industries, Inc.)
筬 [G3]
(Organization organization X)
Thread: Nylon 66, 56/2 / 2T-17 semi-dal (manufactured by Toray Industries, Inc.)
End line of unit knitted fabric: nylon 66, wooly 33T-26 semidal (manufactured by Toray Industries, Inc.)
筬 [G4]
(Organization organization C)
Non-power switching unit: Lycra 156-127C (manufactured by Operontex)
Power switching unit: Lycra 156-127C (repeat with 2 and 1) (manufactured by Operon Tex)
(Knitting organization Y): Lycra 156-127C (manufactured by Operontex)
筬 [G5], 筬 [G6]
(Knitting structure Z): Lycra 117-127C // 2 (2 lines aligned) (manufactured by Operontex)
The knitting structure A is an inelastic yarn structure knitted by the first ridge [G1] of the knitting device, and the knitting structure B is an inelastic yarn structure knitted by the second ridge [G2]. The knitting organizations A and B are knitted in a half set.

The knitting structure C is an elastic yarn structure knitted by the fourth ridge [G4].
The knitting structure X is an inelastic yarn structure knitted by the third ridge [G3].
The knitting structure Y is an elastic yarn structure knitted by the fourth ridge [G4].
The knitting structure Z is a structure of a set elastic yarn knitted by the fifth ridge [G5] and the sixth ridge [G6].
In FIG. 9, the knitted structure A of inelastic yarn knitted by 筬 [G1] and the knitted structure B of inelastic yarn knitted by 筬 [G2] are both 12/21/12/10/01 / It consists of 10 // repeating units.

The knitted structure X of the inelastic yarn knitted with the collar [G3] is composed of 10/01 // repeating units.
The knitting structure C and the knitting structure Y of the elastic yarn knitted with the collar [G4] are composed of repeating units of 22/11/33/11/22/00 //.
The knitted structure Z of the laid elastic yarns knitted by 筬 [G5] and 筬 [G6] is formed by two adjacent laid elastic yarns being threaded in nine strips adjacent to each other (18 in total). ) The movement of the in-process elastic yarn constituting the knitting structure Z is as shown in FIG. 2, and FIG. 10 shows a part of the in-motion of the in-process elastic yarn shown in FIG. In this knitting structure Z, the in-process elastic yarn knitted with the kite [G6] is knitted with a gap from the in-process elastic yarn knitted with the kite [G5], and the interval is 11 wales. Then, as shown in FIG. 10, the hook elastic yarn of [G5] and the hook elastic yarn of [G6] meander large as a whole while meandering with a small swing width of 1 wal or 2 wales. ing.

In FIG. 2, the positional relationship between the knitted elastic yarn 13 constituting the knitted structure Z and the end line 14 is the most among the intervals corresponding to the interval a of 3 wales, the interval b of 27 wales, and the intervals c to e. The narrow area was 105 courses.
The garment made of the knitted fabric with wavy hem formed as described above has excellent design properties, and the end line of the unit knitted fabric is not conspicuous from the outer garment. Further, the wavy power switching unit is also inconspicuous from the outer clothing while having a desired power.

  The knitted fabric with wavy hem of the present invention can be suitably used as a material for inner clothing such as pants, girdle, bra, shorts and stockings. It is possible to provide highly fashionable inner garments in which the edge line of the fabric and the power switching portion are not noticeable in appearance.

Overall schematic diagram of knitted fabric with wavy hem of the present invention Partial enlarged view of knitted fabric with wavy hem of the present invention Reference diagram for determining the distance between the closest part and the farthest part Example of corrugated knitted fabric with corrugated hem of the present invention Example of corrugated knitted fabric with corrugated hem of the present invention Example of corrugated knitted fabric with corrugated hem of the present invention Example of corrugated knitted fabric with corrugated hem of the present invention Example of corrugated knitted fabric with corrugated hem of the present invention Knitting organization chart of each knitting yarn other than the device elastic yarn 13 constituting the knitted fabric of the embodiment Knitting organization chart of the device elastic yarn 13 inserted into the knitted fabric of the embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Unit knitted fabric 11 Power switching part 12 Non-power switching part 13 Mechanism elastic thread meandering greatly 14 End line of unit knitted fabric 15 Boundary line of power switching part and non-power switching part 20 Pull-out thread 30 Elastic connecting structure G1-G6 筬A to C, X to Z

Claims (6)

A knitted fabric with a wavy hem in which the end line of the unit knitted fabric is wavy, and a mechanism elastic yarn for forming the wavy shape of the end line is inserted near the inner side of the end line. The insertion shape of the elastic yarn approaches the end line at the closest part for each approach to the end line until the interval between the set elastic thread and the end line at the closest part reaches a range of 1 to 10 wales. The farthest separation portion for each separation is in the form of meandering so as to separate until the distance between the set elastic yarn and the end line in the most separated portion is in the range of 15 to 56 wales, and the end line extends over a plurality of wales. wherein by following the contraction of the gimmicks elastic yarn, characterized in that wavy said end line is formed, wavy hem with knitted fabric to increase meandering. The trick elastic yarn spacing adjacent closest portion and the most separated portions, at the narrow most spacing is 6 courses or wavy hem with knitted fabric of claim 1. The knitted fabric with a wavy hem according to claim 1 or 2 , wherein a plurality of the set elastic yarns are inserted separately for each wale. The trick elastic yarn has a small meandering into the large meander, one swing width of the small meandering is within three wales, the number of jump course is within 3 course, Claims 1 to 3 A knitted fabric with wavy hem as described in any of the above. 1 to 4 wherein the thickness of one or a total of the elastic yarns, in which one or a plurality of hooked elastic yarns are inserted in a band shape or in a uniform manner, is 260 dtex or more. A knitted fabric with wavy hem as described in any of the above. The knitted fabric with wavy hem according to any one of claims 1 to 5 , wherein end lines of adjacent unit knitted fabrics are connected via a thread.

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