KR20210122702A - Method for knitting tubular knitted fabric - Google Patents

Abstract

Provided by the present invention is a method for knitting a cylindrical knitted fabric, which prevents bleeding from easily occurring around a border between a front stitch and a back stitch when forming a cylindrical knitted fabric having a rib structure of n×m by plating knitting. The method for knitting a cylindrical knitted fabric uses a flat-knitting machine having a first needle bed (FB) and a second needle bed (BB) opposed to each other in the front-rear direction to form a cylindrical knitted fabric having a rib structure of n×m by plating knitting. When forming the rib structure of n×m, a first distance and a second distance are set to 1.5 stitch or less by narrowing a stitch interval of a portion of a first stitch row (11) and a stitch interval of a portion of a second stitch row (12). The first distance is a distance in a knitting width direction between two stitches (3, 4) linked by a first cross-over yarn (1) crossing between the first needle bed (FB) and the second needle bed (BB). The second distance is a distance in a knitting width direction between two stitches (5, 6) linked by a second cross-over yarn (2) crossing between the first needle bed (FB) and the second needle bed (BB).

Description

Knitting method of a tubular knitted fabric {METHOD FOR KNITTING TUBULAR KNITTED FABRIC}

The present invention relates to a knitting method for a tubular knitted fabric in which a tubular knitted fabric having an n×m rib structure is knitted by plating knitting.

In Patent Document 1, a flat knitting machine having a first needle bed and a second needle bed opposed to the front and back is used, and a tubular shape having a rib structure of n × m is used. A technique for knitting a knitted fabric by plating knitting is disclosed. Here, the plating knitting is performed by using a single knitting needle (編針) is a knitting method that knits at the same time. In this plating knitting, when knitting a front stitch, the first knitting yarn is disposed on the front side of the knitted fabric, and the second knitting yarn is disposed on the back side of the knitted fabric. Further, in the case of knitting a back stitch, the second knitting yarn is disposed on the front side of the knitted fabric, and the first knitting yarn is disposed on the back side of the knitted fabric. On the other hand, the n x m rib structure is a knitting structure in which n continuous front stitches in the knitting width direction and m continuous back stitches in the knitting width direction are alternately arranged. n and m are natural numbers of 1 or more.

As an example of the knitting of the rib structure, the knitting process diagram of FIG. 6 shows the procedure for knitting the 2x2 rib structure. "S+number" in the left column of Fig. 6 is the number of the knitting process. In the column on the right, the bonding state of the stitches in the needle bed is shown. Black dots in the right column indicate knitting needles, circle marks indicate stitches, black circle marks indicate stitches knitted in each step, and bold arrows indicate transfers. Capital letters outside the cell indicate the position of the knitting needle.

In S0 of FIG. 6, the first stitch row 11 coupled to the knitting needles A, C, E, G, I, K at one interval of the first needle bed FB, and the second needle bed BB ) shows a state in which the second stitch row 12 coupled to the knitting needles B, D, F, H, J, L of one interval is connected in a tubular shape. From this state, in S1, a plurality of stitches constituting the first stitch row 11 are distributed to the first needle bed FB and the second needle bed BB. Specifically, the stitches coupled to the knitting needles A, G, and I of the FB are moved to the knitting needles A, G, and I of the BB, respectively. When a new first stitch row 11 is continuously knitted by plating knitting in the wale direction of the first stitch row 11 in the state of S1, in the wale direction of the stitches coupled to the first needle bed FB. A continuous stitch is a front stitch, and a stitch that is continuous in the wale direction of a stitch coupled to the second needle bed BB is a back stitch. Accordingly, the new first stitch row 11 has a rib structure of 2×2. The new first stitch string 11 returns to the same arrangement as the first stitch string 11 of S0. In S2, a plurality of stitches constituting the second stitch row 12 are distributed to the first needle bed FB and the second needle bed BB. Specifically, the stitches coupled to the knitting needles B, H, and J of the second needle bed BB are moved to the knitting needles B, H, and J of the first needle bed FB, respectively. By performing plating knitting continuously in the wale direction of the second stitch row 12 in the state S2, a new second stitch row 12 having a rib structure of 2×2 is knitted.

Japanese Patent Laid-Open No. 2005-213706

When a tubular knitted fabric having an nxm rib structure is knitted by plating knitting, yarn mixing is likely to occur in the vicinity of the boundary between the front stitch and the back stitch adjacent in the knitting width direction in the rib structure. Mixing refers to a state in which a part of the knitting yarn to be arranged on the back side of the knitted fabric is exposed to the front side of the knitted fabric and becomes conspicuous.

The present invention has been made in view of the above circumstances, and when a tubular knitted fabric having an nxm rib structure is knitted by plating knitting, a tubular shape in which mixing hardly occurs near the boundary between the front stitch and the back stitch An object of the present invention is to provide a method for knitting a knitted fabric.

<1> The method for knitting a tubular knitted fabric of the present invention comprises:

A method for knitting a tubular knitted fabric in which a tubular knitted fabric having a rib structure of n×m is knitted by plating knitting using a flat knitting machine having a first needle bed and a second needle bed facing back and forth in,

A state in which a first stitch row is coupled to the first needle bed in a state in which co-stitching is included in its knitting width, and a second stitch row is coupled to the second needle bed in a state in which co- needle is included in its knitting width After step A,

A plurality of stitches of the first stitch row are distributed to the first needle bed and the second needle bed, and a new first stitch row connected in the wale direction of the first stitch row and having a rib structure of n×m is knitted and a step B of returning the stitch arrangement of the new first stitch row to the state before distribution;

A plurality of stitches of the second stitch row are distributed to the first needle bed and the second needle bed, and a new second row of stitches connected in the wale direction of the second row of stitches and having a rib structure of n×m is knitted. Then, the process C of returning the stitch arrangement of the new second stitch row to the state before distribution is repeated.

In the step A, the first stitch row is arranged by filling the gap between the partial stitches in the first stitch row, and the second stitch row is formed by filling the gap between the partial stitches in the second stitch row. place it

In the step B, when distributing a plurality of stitches constituting the first stitch row, the first distance is set to 1.5 stitches or less.

In the step C, the second distance is set to 1.5 stitches or less when distributing a plurality of stitches constituting the second stitch row.

The first distance is a distance in a knitting width direction of two stitches connected to a first crossing thread passing between the first needle bed and the second needle bed,

The second distance is a distance in a knitting width direction of two stitches connected to a second crossing thread passing between the first needle bed and the second needle bed.

<2> As an aspect of the knitting method of the tubular knitted fabric of the present invention,

In the process A,

The bonding width of the first stitch row is narrower by p needle than the first bonding width,

The coupling width of the second stitch row is narrower by q needles than the second coupling width,

The first coupling width is a coupling width when each stitch of the first stitch row is coupled to a knitting needle at an interval of 1 stitch,

The second coupling width is a coupling width when each stitch of the second stitch row is coupled to a knitting needle at an interval of one stitch,

The p is the same as the number of the first intersecting yarn formed in the step B,

The q may have the same form as the number of the second intersecting yarns formed in the step C.

<3> As an aspect of the knitting method of the tubular knitted fabric of the present invention,

In the step A, there may be a form in which the stitch arrangement of the first stitch row and the stitch arrangement of the second stitch row are point-symmetrical.

<4> As an aspect of the knitting method of the tubular knitted fabric of the present invention,

Both n and m may be equal to or greater than 2, and the first distance and the second distance may be one stitch.

In the knitting method of the tubular knitted fabric of the present invention, when knitting the rib structure in steps B and C, the distance in the knitting width direction of two stitches connected by intersecting yarns is shorter than in the prior art. Therefore, mixing hardly occurs in the vicinity of the boundary between the front stitch and the back stitch adjacent in the knitting width direction in the first stitch row and the second stitch row. A mechanism in which mixing is unlikely to occur will be described with reference to FIG. 2 in Embodiment 1 to be described later.

In addition, the reason that the distance in the knitting width direction of the two stitches connected by the intersecting yarn in steps B and C can be made shorter than in the prior art is that the coupling width of the first stitch row and the coupling width of the second stitch row are narrowed in step A, because there is

According to the knitting method of the tubular knitted fabric of <2>, only the distance between the two stitches connected by the intersecting yarn is narrowed in the steps B and C, and the distance between the other stitches is not narrowed. Accordingly, the appearance of the tubular knitted fabric is not damaged due to the non-uniform size of the stitches constituting the rib structure.

According to the knitting method of the tubular knitted fabric of the above <3>, the knitting operation such as transfer or racking performed in step B and the knitting operation performed in step C are point-symmetrical. Therefore, steps B and C can be repeated in the same pattern.

In the knitting method of the tubular knitted fabric according to <4>, both n and m are 2 or more. As shown in Embodiments 1, 3, and 4 to be described later, if both n and m are two or more, the first distance and the second distance can be one stitch. As a result, the occurrence of the mixing is further suppressed.

1 is a knitting process diagram of a tubular knitted fabric having a 2x2 rib structure shown in Embodiment 1. FIG.
In Fig. 2, (A) is a schematic diagram showing the feeding state of the first knitting yarn and the second knitting yarn in the knitting of the rib structure according to the first embodiment, and (B) is the first knitting yarn in the conventional knitting of the rib structure. It is a schematic diagram showing the sudden yarn state of the knitting yarn and the second knitting yarn.
Fig. 3 is a knitting process diagram of a tubular knitted fabric having a 1x1 rib structure shown in the second embodiment.
Fig. 4 is a knitting process diagram of a tubular knitted fabric having a 3x3 rib structure shown in Embodiment 3;
Fig. 5 is a knitting process diagram of a tubular knitted fabric having a 4x4 rib structure shown in the fourth embodiment.
Fig. 6 is a knitting process diagram showing a procedure for knitting a 2x2 rib structure by a conventional knitting method.

<Embodiment 1>

In the first embodiment, an example in which a tubular knitted fabric having a rib structure of 2×2 is knitted by plating knitting using the knitting method of the tubular knitted fabric of the present invention 1 and 2 will be described. The knitting method of the tubular knitted fabric of this example is used, for example, when knitting a hem, cuffs, or collar in knitwear such as a sweater. Of course, the tubular knitted fabric knitted by the knitting method of the tubular knitted fabric of this example is not limited to knitwear, and may be, for example, an industrial material such as a cover.

The method of viewing FIG. 1 is the same as that of FIG. 6 . However, the first fed yarn section 8 for feeding the first knitting yarn Y8 and the second feeding yarn section 9 for feeding the second knitting yarn Y9 are indicated by inverted triangle marks.

In S0 of Figure 1, the first stitch row 11 coupled to the knitting needles (A, C, E, G, I, K) at one interval in the first needle bed (FB), and the second A state in which the second stitch row 12 coupled to the knitting needles B, D, F, H, J, L at one interval in the two needle bed BB is connected in a tubular shape is shown. Here, the arrangement of S0 is an example, and the arrangement at the start of knitting is not limited to the arrangement of S0.

In this example, it is planned to knit the front stitch continuously to the stitches of the knitting needles C, E, and K of the FB and the back stitch are knitted consecutively to the stitches of the knitting needles A, G, I of the FB. That is, in the process after S0, continuing in the wale direction of the first stitch row 11 of the plain structure, a new first stitch row 11 having a rib structure of 2×2 is knitted. On the other hand, it is planned to knit the front stitch continuously to the stitches of the BB knitting needles (B, H, J) and the back stitch continuously to the stitches of the BB knitting needles (D, F, L). That is, in the process after S0, a new second stitch row 12 having a rib structure of 2×2 is knitted continuously in the wale direction of the second stitch row 12 of the plain structure. The 2x2 rib structure includes at least one rib unit which is the smallest unit of the rib structure. The rib unit having a 2x2 rib structure is composed of two front stitches and two back stitches arranged in the knitting width direction. In S0 and S1 to be described later, white wedge marks are applied to stitches serving as front stitches, and black wedge marks are applied to stitches serving as back stitches. 1, one rib unit is formed continuously in the wale direction of the stitches of the knitting needles C, E, G, I of the first needle bed FB, and the knitting needles D of the second needle bed BB, One rib unit is formed continuously in the wale direction of F, H, J).

Here, when the rib structure is first knitted like the hem of the rib structure in knitwear, the knitting of the rib structure may start from the arrangement of S1, which will be described later.

In S1, the first stitch row 11 is arranged by filling the gap between some stitches in the first stitch row 11, and the gap between some stitches in the second stitch row 12 is filled. The second stitch row 12 is arranged (Step A). In this example, while making the coupling width of the first stitch row 11 narrower than the coupling width (first coupling width) of the first stitch row 11 in S0 by p needle, in S0 The coupling width of the second stitch row 12 is smaller than the coupling width (second coupling width) of the second stitch row 12 by q needles. The natural number p is equal to the number of first intersecting yarns 1 formed in S2 to be described later, and the natural number q is equal to the number of second intersecting yarns 2 formed in S3 to be described later. In the case of this example, p=3 and q=3.

In the arrangement of the first stitch row 11 and the second stitch row 12 in S1, a co-stitch for backstitching is ensured within the knitting width of the stitch rows 11 and 12 . Also, in the arrangement of both stitch rows 11 and 12, the stitch row ( 11, 12) fills in the gaps of some stitches.

A specific arrangement of S1 will be described. In this example, in S0, the gap between two stitches that are continuous in the knitting width direction and become backstitches is filled. Specifically, the gap between the two stitches of the knitting needles G and I of the FB and the gap between the two stitches of the knitting needles D and F of the BB are filled. Further, in S0, the gap between the end stitch of the rib unit and the outer stitch adjacent to the outside of the rib unit is filled. Specifically, in the FB, the interval between the stitch (end stitch) of the knitting needle C and the stitch (outer stitch) of the knitting needle A, the stitch (end stitch) of the knitting needle I in the FB and the knitting needle ( The spacing of the stitches (outer stitch) K), the spacing between the stitches (end stitches) of the knitting needle D and the stitches of the knitting needle B (outer stitches) in the BB, and the knitting needles J in the BB The gap between the stitch (end stitch) and the stitch (outer stitch) of the knitting needle L is filled.

The stitch arrangement of the first stitch row 11 and the stitch arrangement of the second stitch row 12 are point-symmetrical. More specifically, with respect to the center of the barrel (refer to the × table) composed of the first stitch row 11 and the second stitch row 12, the stitch arrangement of the first stitch row 11 and the second row of stitches The stitch arrangement in (12) is point-symmetrical.

In S2, a new first stitch row 11 connected in the wale direction of the first stitch row 11 and having a rib structure of 2×2 is knitted (Step B). First, a plurality of stitches constituting the first stitch row 11 are distributed to the first needle bed FB and the second needle bed BB. In this distribution, the first in the knitting width direction of the two stitches 3 and 4 connected by the first intersecting yarn 1 passing between the first needle bed FB and the second needle bed BB. The distance should be less than 1.5 stitches. The stitch 3 is a first front stitch that is coupled to the first needle bed FB and becomes a front stitch. The stitch 4 is a first back stitch that is coupled to the second needle bed BB and becomes a back stitch. In this example, by setting the stitch arrangement of the first stitch arrangement 11 and the stitch arrangement of the second stitch arrangement 12 as shown in S1, the stitches serving as backstitches of the first stitch string 11 are produced. The first distance becomes one needle only by moving the needle bed BB with the co-needle. In addition, since only the first distance in the first stitch row 11 is narrowed and the intervals of other stitches are not narrowed, the size of each stitch constituting the rib structure cannot become non-uniform.

Further, in S2, plating knitting is carried out in which the first feeding sand dunes 8 are preceded and the second fed sand dunes 9 are following toward the right side of the paper. In the case of knitting the front stitch, the first knitting yarn Y8 fed from the first feeding yarn opening 8 appears on the front side, and the second knitting yarn Y9 fed from the second feeding yarn opening 9 is hidden on the back side. all. In the case of knitting the back stitch, the appearance of the first knitting yarn Y8 and the second knitting yarn Y9 is opposite to that of the front stitch. The arrangement of the newly knitted first stitch row 11 is returned to the same state as that of S1. The step of returning the arrangement of the first stitch row 11 may be performed in accordance with the distribution of the stitches of the second stitch row 12 in the following S3 if conditions such as a racking pitch are satisfied.

In S3, a new second stitch row 12 connected in the wale direction of the second stitch row 12 and having a rib structure of 2×2 is knitted (Step C). The new second stitch row 12 is connected to the new first stitch row 11 knitted in S2 in a tubular shape. First, a plurality of stitches constituting the second stitch row 12 are distributed to the first needle bed FB and the second needle bed BB. In this distribution, the second in the knitting width direction of the two stitches 5 and 6 connected by the second intersecting yarn 2 passing between the first needle bed FB and the second needle bed BB. The distance should be less than 1.5 stitches. The stitch 5 is a second front stitch that is coupled to the second needle bed BB and becomes a front stitch. The stitch 6 is a second backstitch coupled to the first needle bed FB and serving as a backstitch. In this example, by setting the stitch arrangement of the first stitch arrangement 11 and the stitch arrangement of the second stitch arrangement 12 as shown in S1, the stitches serving as backstitches of the second stitch string 12 are produced. The second distance becomes one needle only by moving the needle bed (FB) with the co-needle. Also, since only the second distance is narrowed and the intervals between other stitches are not narrowed, the size of each stitch constituting the rib structure cannot be made non-uniform.

Further, in S3, plating knitting is carried out in which the first feeding sand dunes 8 precede and the second feeding sand dunes 9 follow toward the left side of the paper. The arrangement of the newly knitted second stitch row 12 is returned to the same state as that of S1. The step of returning the arrangement of the second stitch row 12 may be performed in accordance with the distribution of the stitches of the first stitch row 11 in the second S2 if conditions such as the racking pitch are satisfied.

Here, the knitting operation performed in S3 is point-symmetric with the knitting operation performed in S2. Therefore, the knitting of the rib structure of the first stitch row 11 and the knitting of the rib structure of the second stitch row 12 can be repeated in the same pattern.

Thereafter, by alternately repeating S2 and S3, a tubular knitted fabric having a 2×2 rib structure can be knitted. In the case of knitting the plain structure continuous to the rib structure, it is sufficient to knit the plain structure after the arrangement of stitches of the rib structure is set to S0.

In the knitting method of the tubular knitted fabric of this example, when knitting the rib structure in steps B and C, the first distance and the second distance are shorter than in the conventional example shown in FIG. Therefore, mixing hardly occurs between the front stitch and the back stitch adjacent in the knitting width direction in the first stitch row 11 and the second stitch row 12 . A mechanism in which mixing hardly occurs between the front stitch and the back stitch will be described with reference to FIG. 2 .

Fig. 2 is a view of the needle bed as viewed from above the needle bed gap. The dashed-dotted line is a reference line along the progress direction of the rapid sand dunes (8, 9). The knitting needle 7 is a knitting needle for knitting a front stitch, and the knitting needle 70 is a knitting needle for knitting a back stitch. The distance D is a distance between the knitting needle 7 and the knitting needle 70 . As shown in FIG. 2A , the first knitting yarn Y8 and the second knitting yarn Y9 caught on the knitting needle 7 for knitting the front stitch are bound to the position of the knitting needle 7 . Both knitting yarns Y8 and Y9 are separated from left and right toward the yarn feeding openings 8 and 9. Here, if the distance (D) between the knitting needle 7 on which both knitting yarns (Y8, Y9) is hung and the knitting needle 70 on which both knitting yarns (Y8, Y9) are next is close, both knitting yarns (Y8, Y9) are Both knitting yarns Y8 and Y9 are caught by the knitting needle 70 in a state in which they are hardly separated from side to side. Accordingly, the positional relationship between the first knitting yarn Y8 and the second knitting yarn Y9 fixed by the knitting needle 7 is easily maintained even when the backstitch is knitted by the knitting needle 70 . Therefore, mixing hardly occurs between the front stitch and the back stitch.

On the other hand, if the distance D between the knitting needle 7 and the knitting needle 70 is long as shown in FIG. are separated. Therefore, when the backstitch is knitted with the knitting needle 70, there is a possibility that the positional relationship of the two knitting yarns Y8 and Y9 is shifted between the front stitch and the backstitch, and mixing occurs between the front stitch and the backstitch. easy.

<Embodiment 2>

In Embodiment 2, an example in which a tubular knitted fabric having a 1x1 rib structure is knitted by plating knitting will be described with reference to FIG. In Fig. 3, only the knitting of the first stitch row 11 will be described. In addition, the knitting of the second stitch row 12 may be the same as that of the first stitch row 11 .

S0 shows a state in which stitches serving as front stitches and stitches serving as backstitches are alternately combined. One co-needle is arranged between two stitches arranged in the knitting width direction.

In S1, the gap between the stitch serving as the front stitch and the stitch serving as the back stitch is filled (Step A). The stitch arrangement of the first stitch row 11 and the stitch arrangement of the second stitch row 12 are point-symmetrical.

In S2, the stitches to be backstitched in the first stitch row 11 are moved to the second needle bed BB. In the case of this example, the first distance that is the distance in the knitting width direction between the stitches 3 and 4 connected by the first intersecting yarn 1 is one or two stitches. So, in S3, BB is racked by 0.5 pitch to the right. As a result, all of the first distances are 1.5 stitches or less. Therefore, if the new first stitch row 11 is knitted by plating knitting in the state of S3, mixing between the front stitch and the back stitch hardly occurs.

<Embodiment 3>

In Embodiment 3, an example in which a tubular knitted fabric having a 3x3 rib structure is knitted by plating knitting will be described with reference to FIG. Also in Fig. 4, only the knitting of the first stitch row 11 will be described.

In S0, 8 stitches constituting the first stitch row 11 are coupled to the first needle bed FB, and 8 stitches constituting the second stitch row 12 are coupled to the second needle bed BB. The combined state is shown.

In S1, the coupling width of the first stitch row 11 and the coupling width of the second stitch row 12 are narrowed (step A). The bonding width of both stitch rows 11 and 12 is narrowed by 3 stitches. The bonding width of both stitch rows 11 and 12 is narrowed by the number of knitting needles equal to the number of first intersecting yarns 1 in S2. In this example, the stitch arrangement of the first stitch column 11 and the stitch arrangement of the second stitch column 12 are point-symmetrical.

In S2, the stitches to be backstitched in the first stitch row 11 are moved to the second needle bed BB. As a result, the first distance, which is the distance in the knitting width direction of the stitches 3 and 4 connected by the first intersecting yarn 1, is equivalent to one stitch. Accordingly, when the new first stitch row 11 is knitted by plating knitting from the state of S2, mixing between the front stitch and the back stitch is unlikely to occur.

<Embodiment 4>

In Embodiment 4, an example in which a tubular knitted fabric having a 4x4 rib structure is knitted by plating knitting will be described with reference to FIG. Also in Fig. 5, only the knitting of the first stitch row 11 will be described.

In S0, 10 stitches constituting the first stitch row 11 are coupled to the first needle bed FB, and 10 stitches constituting the second stitch row 12 are coupled to the second needle bed BB. The combined state is shown.

In S1, the coupling width of the first stitch row 11 and the coupling width of the second stitch row 12 are narrowed (step A). The bonding width of both stitch rows 11 and 12 is narrowed by 3 stitches. The bonding width of both stitch rows 11 and 12 is narrowed by the number of knitting needles equal to the number of first intersecting yarns 1 in S2. In this example, the stitch arrangement of the first stitch string 11 and the stitch arrangement of the second stitch string 12 are not point-symmetrical.

In S2, the stitches to be backstitched in the first stitch row 11 are moved to the second needle bed BB. As a result, the first distance, which is the distance in the knitting width direction of the stitches 3 and 4 connected by the first intersecting yarn 1, is equivalent to one stitch. Accordingly, when the new first stitch row 11 is knitted by plating knitting from the state of S2, mixing between the front stitch and the back stitch is unlikely to occur.

<Other embodiments>

The method for knitting a tubular knitted fabric of the present invention can also be used for knitting a rib structure in which n and m are 4 or more. In addition, it is possible to use it for knitting a rib structure in which n and m are different numbers. For example, the knitting method of the tubular knitted fabric of the present invention can also be used for knitting a 2×1 rib structure or a 3×2 rib structure or the like.

In the case of arranging the rib structure and the plain structure in the wale direction, the rib structure is knitted according to the knitting width of the plain structure knitted in a half-gauge state (1×1 half-gauge state) at 1-stitch intervals. The number of stitches in the width direction may be larger than the number of stitches in the knitting width direction of the plane structure. In addition, a plain structure may be knitted in a 1x1 half-gauge state by superimposing some stitches in the rib structure in a 1x1 half-gauge state.

A place where a rib unit is not provided may exist in a part of the knitting width direction of the first stitch row 11 and the second stitch row 12 provided with the rib structure. Further, different rib units may be mixed. In addition, although the number of co-needles arranged in the knitting width direction is set to one in the present embodiment, there may be places where two or more co-needles are partially arranged.

1: 1st intersection
2: 2nd intersection
3, 4, 5, 6: Stitch
7, 70: knitting needle
8 : 1st grade yarn Y8 : 1st knitting yarn
9: 2nd grade yarn Y9: 2nd knitting yarn
11: first stitch row
12: second stitch row
FB : 1st needle bed BB : 2nd needle bed

Claims (4)

A tubular knitted fabric having a rib structure of n × m is plated by using a flat knitting machine having a first needle bed and a second needle bed facing back and forth. In the knitting method of a tubular knitted fabric knitted by plating knitting,
A first stitch row is coupled to the first needle bed in a state in which co-stitches are included within its knitting width, and a second stitch row is coupled to the second needle bed in a state in which co-needles are included in its knitting width. After step A of the state in which it is
A plurality of stitches of the first stitch row are distributed to the first needle bed and the second needle bed, and a new first stitch row connected in the wale direction of the first stitch row and having a rib structure of n×m is knitted and a step B of returning the stitch arrangement of the new first stitch row to the state before distribution;
A plurality of stitches of the second stitch row are distributed to the first needle bed and the second needle bed, and a new second row of stitches connected in the wale direction of the second row of stitches and having a rib structure of n×m is knitted. and repeating step C of returning the stitch arrangement of the new second stitch row to the state before distribution,
In the step A, the first stitch row is arranged by filling the gap between the partial stitches in the first stitch row, and the second stitch row is formed by filling the gap between the partial stitches in the second stitch row. place,
In the step B, when distributing a plurality of stitches constituting the first stitch row, the first distance is 1.5 stitches or less;
In the step C, when distributing a plurality of stitches constituting the second stitch row, the second distance is set to 1.5 stitches or less;
The first distance is a distance in a knitting width direction of two stitches connected to a first crossing thread passing between the first needle bed and the second needle bed,
The second distance is a distance in the knitting width direction of two stitches connected to a second crossing thread passing between the first needle bed and the second needle bed.
A method for knitting a tubular knitted fabric, characterized in that.
According to claim 1,
In the process A,
The bonding width of the first stitch row is narrower by p needle than the first bonding width,
The coupling width of the second stitch row is narrower by q needles than the second coupling width,
The first coupling width is a coupling width when each stitch of the first stitch row is coupled to a knitting needle at an interval of 1 stitch,
The second coupling width is a coupling width when each stitch of the second stitch row is coupled to a knitting needle at an interval of one stitch,
The p is the same as the number of the first intersecting yarn formed in the step B,
The q is equal to the number of the second intersecting yarns formed in the step C.
A method of knitting a tubular knitted fabric.
3. The method of claim 1 or 2,
In the step A, a method for knitting a tubular knitted fabric in which the stitch arrangement in the first stitch row and the stitch arrangement in the second stitch row are point-symmetrical.
4. The method according to any one of claims 1 to 3,
A method for knitting a tubular knitted fabric, wherein both n and m are 2 or more, and the first distance and the second distance are one stitch.

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