CN217757842U - Light and thin through hole knitted jacquard fabric and vamp - Google Patents

Abstract

The utility model relates to a knitted fabric technical field specifically indicates a frivolous thru hole knitting jacquard fabric and vamp, and this knitted fabric is woven by double-sided circular weft knitting machine and is formed, including surface course and bottom, the yarn of weaving of surface course includes first yarn, the yarn of weaving of bottom includes the second yarn, and this knitted fabric includes at least partly thru hole region, in thru hole region, first yarn is provided with looping texture and float line texture along its knit line direction interval on the surface course, the float line texture forms hollow out construction; the needle positions of the second yarns corresponding to the floating thread tissues of the surface layer are in looped tissues on the bottom surface, and the needle positions of the second yarns corresponding to the looped tissues of the surface layer are in spaced, sleeved and connected with the first yarns along the weaving direction. The double-layer knitted fabric with multiple breathable mesh effects is integrally woven through the looping tissues and the floating line tissues arranged at intervals on the surface layer and the weaving tissues of the bottom layer in collocation, and the whole fabric is light and thin and has good breathability.

Description

Light and thin through hole knitted jacquard fabric and vamp

Technical Field

The utility model relates to a knitted fabric technical field specifically indicates a frivolous thru hole knitting jacquard fabric and vamp.

Background

The traditional mesh fabric is mostly woven by a warp knitting machine, the mesh types and the method woven by a circular weft knitting machine are few, formed meshes are mutually transferred on the basis of the fabric, holes are limited and single, because the circular weft knitting machine usually adopts the structure that yarns extend in the transverse direction and are embedded and connected in the longitudinal direction when weaving, the structural size of the meshes is limited to a certain extent, and the stability and the permeability of the fabric formed when through holes are more are poor, so that the circular weft knitting machine is not suitable for vamp fabrics.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, as a first aspect of the present invention, a light and thin through hole knitted jacquard fabric is provided, which is knitted by a double-sided circular weft knitting machine, and includes a surface layer and a bottom layer, the knitting yarn of the surface layer includes a first yarn, the knitting yarn of the bottom layer includes a second yarn, the knitted fabric includes at least a part of through hole regions, in the through hole regions, the first yarn is provided with looping weave and floating weave at intervals along the knitting direction of the surface layer, and the floating weave forms a hollow structure; the needle positions of the second yarns corresponding to the floating thread tissues of the surface layer are in looped tissues on the bottom surface, and the needle positions of the second yarns corresponding to the looped tissues of the surface layer are in spaced, sleeved and connected with the first yarns along the weaving direction.

Furthermore, the knitted fabric further comprises at least one partial semi-transparent area, loop forming tissues and floating thread tissues are arranged on the first yarns of the semi-transparent area at intervals along the weaving direction of the surface layer, the floating thread tissues form a hollow structure, the needle positions of the second yarns corresponding to the floating thread tissues of the surface layer are in the loop forming tissues at the bottom layer, and the needle positions of the second yarns corresponding to the loop forming tissues of the surface layer are in the floating thread tissues.

Furthermore, the knitted fabric further comprises at least one part of the impermeable area, the first yarns of the impermeable area are provided with loop-forming tissues and floating threads at intervals in the weaving direction of the surface layer, the floating threads form a hollow structure, and the second yarns are full-needle loop-forming tissues in the bottom layer.

Further, the second yarns of the knitted fabric comprise A1 yarns and B1 yarns, wherein the A1 yarns and the B1 yarns are in full-needle looping stitch at the bottom layer, and at least part of the B1 yarns are tucked to the surface layer and are connected with the first yarns in a sleeved and embedded mode; the B1 yarn tucking to the surface layer and the first yarn are connected in an embedding mode, namely, the B1 yarn tucking to the surface layer is connected with all loop-forming tissues of the first yarns of the local surface layer to form a local area hollow structure, or the B1 yarn tucking to the surface layer and the first yarns are connected with the loop-forming tissues of the first yarns of the local surface layer at intervals to form a point hollow structure.

Further, the first yarns are monofilaments and the second yarns are multifilaments.

Furthermore, the monofilament is at least one of polyester monofilament, nylon monofilament and TPU monofilament.

Further, the multifilament is at least one of polyester multifilament, nylon multifilament, polypropylene multifilament and polylactic acid multifilament.

Further, the knitted fabric further comprises at least one part of impermeable area, and the first yarns of the impermeable area are arranged at intervals in a loop stitch and a floating stitch along the weaving direction of the surface layer; the second yarns comprise two yarns, wherein one yarn is in a continuous looping tissue, and the other yarn is in a looping tissue and a tucking tissue which are distributed alternately and tucked to the surface layer.

Furthermore, the loop forming weave and the floating stitch of the first yarn of the knitted fabric are arranged at intervals.

As a second aspect of the present invention, there is provided a knitting process of the light and thin knitted fabric with through holes as described above, the knitted fabric includes a surface layer and a bottom layer, and at least a part of the through hole area, in the through hole area, the first yarn is knitted into a loop structure and a float structure at intervals along a knitting direction of the surface layer, and the float structure forms a hollow structure;

the second yarns are knitted into loop structures at needle positions corresponding to the first yarn floating stitch at the bottom layer, the second yarns are connected with the first yarns in a nested manner after needle positions corresponding to the first yarn loop structures are turned over, and the needle positions corresponding to the second yarns and the first yarn loop structures are continuously knitted into loop structures at the bottom layer to form hollow structures;

the second yarns are knitted into loop stitches at the needle positions corresponding to the first yarn floating stitches on the bottom layer, and are connected with the first yarns in a nested manner after needle positions corresponding to the first yarn loop stitches are turned over; and needles of the second yarns corresponding to the loop-forming tissues of the first yarns are knitted into loop-forming tissues after the tuck tissues are knitted at the bottom layer to form a hollow structure.

Furthermore, the mesh size of the through hole area can be adjusted, and the specific adjustment modes comprise the following modes: (1) Increasing the length of the floating threads of the surface layer, for example, the looping texture and the floating thread texture of the surface layer can be arranged at one interval, or can be arranged at two intervals, or can be arranged at three intervals, or can be arranged at two intervals, or the like, but it should be noted that the length of the floating threads is not too long so as to avoid causing the instability of the fabric; (2) When the second yarns are connected with the first yarns in an embedded manner by adopting the turning stitches, the turning stitches can be carried out in two or more continuous lines, and the number of the continuous turning stitches exceeds, the through holes of the formed bottom layer are about large, and the through holes of the corresponding fabric are larger; it should be noted that in the case of continuous needle-turning, the needle-turning can be performed in the same row or staggered, and the number of needle-turning can be the same or different for each row, which can be set according to the desired perforation effect. (3) When the second yarns adopt tuck tissues from tuck to surface layers, the distance between the two tuck tissues is properly prolonged, namely, the length of the floating thread between the two tuck tissues is increased, the bottom through hole can be enlarged, and therefore the size of the through hole and the ventilation effect of the whole fabric are increased.

Furthermore, the knitted fabric further comprises a semi-permeable area, the weaving process of the semi-permeable area is that the first yarns are woven into loop tissues and floating line tissues at intervals on the surface layer along the weaving direction of the surface layer, the floating line tissues form a hollow structure, the second yarns and the needle positions corresponding to the floating line tissues of the surface layer are woven into the loop tissues on the bottom layer, and the second yarns and the needle positions corresponding to the loop tissues of the surface layer are woven into the floating line tissues.

Furthermore, the knitted fabric further comprises at least one part of the impermeable area, the first yarns of the impermeable area are knitted into loop tissues and floating line tissues at intervals in the weaving direction of the surface layer, the floating line tissues form a hollow structure, and the second yarns are knitted in full stitches on the bottom layer.

Further, the second yarns of the knitted fabric comprise A1 yarns and B1 yarns, wherein the A1 yarns and the B1 yarns are in full-needle looping stitch at the bottom layer, and at least part of the B1 yarns are tucked to the surface layer and are connected with the first yarns in a sleeved and embedded mode; the B1 yarn tucking to the surface layer is connected with the first yarn in an embedding manner in such a way that the B1 yarn tucking to the surface layer is connected with all loop-forming tissues of the first yarn of the local surface layer or is connected with the loop-forming tissues of the first yarn of the local surface layer at intervals.

Furthermore, the loop forming stitch and the floating stitch of the knitted fabric are arranged at intervals.

As a third aspect of the present invention, a shoe upper is provided, wherein at least a portion of the shoe upper is the light and thin knitted fabric with through holes.

Compared with the prior art, the utility model discloses the beneficial effect who has does:

the knitting tissue and the float stitch tissue that 1 set up through the surface course interval, the knitting tissue of collocation bottom, the integrative double-deck knitted fabric who has multiple ventilative mesh effect of weaving, and whole surface fabric is whole comparatively frivolous, and the gas permeability is good.

2 adopt the utility model discloses the ventilative mesh double-sided knitted fabric that the weaving method was woven and is obtained, its mesh size is adjustable, has broken the limitation when traditional circular weft knitting machine weaves the mesh, provides a novel weaving method, and weaves the surface fabric overall structure who obtains stable.

3 the utility model discloses a surface course adopts the monofilament, and the bottom adopts multifilament or close skin nature natural fiber yarn, and it can have stiff and smooth nature, wearability and travelling comfort concurrently, can be by wide application in the vamp.

Drawings

Fig. 1 is a schematic view of a fabric structure according to an embodiment of the present invention;

fig. 2 is a schematic view of a knitting structure and a stitch symbol according to embodiment 1 of the present invention;

fig. 3 is a schematic view of another knitting structure and stitch notation according to embodiment 1 of the present invention;

fig. 4 is a schematic view of a knitting structure and a stitch symbol according to embodiment 2 of the present invention.

Fig. 5 is a schematic view of a knitting structure and a stitch symbol according to embodiment 4 of the present invention;

first yarn 1, second yarn 2, ground yarn one 2A, ground yarn two 2B, A1 yarn 20, B1 yarn 21.

Detailed Description

Example 1

The embodiment provides a light and thin through-hole knitted jacquard fabric which is knitted by a double-sided circular weft knitting machine and comprises a surface layer and a bottom layer, wherein knitting yarns of the surface layer comprise first yarns 1, knitting yarns of the bottom layer comprise second yarns 2, as shown in figure 1, the knitted fabric comprises at least one part of through-hole areas, in the through-hole areas, loop-forming tissues and floating thread tissues are arranged on the surface layer at intervals along the knitting direction of the surface layer by the first yarns 1, and the floating thread tissues form hollow structures; the needle positions of the second yarns 2 corresponding to the floating thread tissues of the surface layer are in looped tissues on the bottom surface, and the needle positions of the second yarns 2 corresponding to the looped tissues of the surface layer are in spaced, sleeved and connected with the first yarns 1 along the weaving direction.

The embodiment provides a knitting process of the knitted fabric with the structure as follows:

the knitted fabric comprises a surface layer, a bottom layer and at least one part of a through hole area, wherein in the through hole area, first yarns 1 are knitted into loop tissues and floating thread tissues at intervals in the weaving direction of the surface layer, and the floating thread tissues form a hollow structure;

the second yarns 2 are knitted into loop structures at needle positions corresponding to the floating structures of the first yarns 1 on the bottom layer, and needle positions corresponding to the loop structures of the first yarns 1 are turned over and knitted into loop structures to be connected with the first yarns 1 in an embedded manner;

for example, as shown in fig. 2, the first knitting line of the light and thin perforated knitted fabric is knitting the first yarn 1 with the stitch structure and the float stitch structure every other one, the second knitting line is knitting the stitch structure at the full needle position with the second yarn 2, the 1 st and 5 th knitting lines of the third knitting line are knitting the stitch structure from the bottom stitch to the face layer, the fourth knitting line is knitting the first yarn 1 with the stitch structure and the float stitch structure every other one, the fifth knitting line is knitting the stitch structure at the full needle position with the second yarn 2 except for the tuck at the stitch position and the float stitch structure, the knitting operation of the sixth and seventh knitting lines is the same as the knitting operation of the fourth and fifth knitting lines, the 3 rd and 7 th knitting lines of the eighth knitting line is knitting the stitch structure from the bottom stitch to the face layer, and the knitting operation of the ninth and tenth knitting lines is the same as the knitting operation of the first and second knitting lines.

It should be noted that the needle turning positions and the knitting manners after needle turning are given by this embodiment only as examples, and those skilled in the art can set them in other knitting rows as required, the number of needle turning in each knitting row can be set according to the size and number of the required through holes, and when a plurality of through holes are required in a knitting row, needle turning can be performed on the knitting row for a plurality of times.

Or, in this embodiment, a second knitting process for knitting a through hole region is provided, in which the knitting modes of the first yarns 1 are the same, and the difference is the knitting action of the second yarns 2, in this knitting process, the second yarns are knitted into a stitch at the needle position corresponding to the first yarn float stitch at the bottom layer, and are connected with the first yarns in a nested manner after the needle position corresponding to the first yarn stitch is turned over; and the needle positions of the second yarns corresponding to the loop-forming tissues of the first yarns are knitted into loop-forming tissues after the tuck tissues are knitted into the bottom layer to form a hollow structure.

As shown in fig. 3, the first knitting line performs knitting with a stitch and a float stitch by one for the first yarn 1, the second knitting line includes knitting with a ground yarn 2A and a ground yarn 2B into a stitch and a tuck stitch, wherein the 4/7 th knitting line is tuck knitting with the ground yarn 2A tuck to the face layer, the 2/3 th knitting line for the second yarn in the third knitting line is stitch-over knitting with the ground layer stitch turned over to the face layer, and the knitting operation of the fourth, fifth, and sixth knitting lines is the same as the knitting operation of the first, second, and third knitting lines.

The second yarn 2 of the present embodiment includes a first ground yarn 2A and a second ground yarn 2B, and the two yarns are knitted in the same knitting line during knitting in the needle cylinder, and when tucking is performed on the dial, only one of the yarns is tucked, and the first ground yarn 2A or the second ground yarn 2B is tucked on the dial for knitting, so that a jacquard effect can be presented on the surface layer.

In this embodiment, the mesh size of the through-hole region can be adjusted, and the specific adjustment modes include the following: (1) Increasing the length of the floating threads of the surface layer, for example, the looping texture and the floating thread texture of the surface layer can be arranged at one interval or at two intervals, but the length of the floating threads is not suitable to be too long so as to avoid the instability of the fabric; (2) When the second yarns 2 are connected with the first yarns 1 in an embedded manner by adopting the turning stitches, the turning stitches can be carried out in two or more continuous lines, the more the number of the continuous turning stitches is, the larger the through holes of the formed bottom layer are, and the larger the through holes of the corresponding fabric are; it should be noted that in the case of continuous stitch doubling, the stitches can be doubled in the same weave and the holes formed in the stitches can be different in shape, and the number of stitches doubled in each weave row can be the same or different and can be set according to the desired hole effect. The double-layer knitted fabric with multiple breathable mesh effects is integrally woven by the aid of the looping tissues and the floating threads tissues arranged at intervals of the surface layer and the weaving tissues of the bottom layer in a matching manner, and the whole fabric is light and thin and has good breathability.

Adopt the utility model discloses the two-sided knitted fabric of ventilative mesh that the weaving method was woven and is obtained, its mesh size is adjustable, has broken the limitation when the mesh is woven to traditional circular weft knitting machine, provides a novel weaving method, and weaves the surface fabric overall structure who obtains stable.

Example 2

The present embodiment is an extension embodiment of embodiment 1, and includes, in addition to the through hole region of embodiment 1, at least a part of the semi-transparent region, the first yarn 1 of the semi-transparent region is provided with a looping structure and a floating structure at intervals along the knitting direction of the surface layer, the floating structure forms a hollow structure, the needle position of the second yarn 2 corresponding to the floating structure of the surface layer is a looping structure at the bottom layer, and the needle position of the second yarn 2 corresponding to the looping structure of the surface layer is a floating structure.

The embodiment provides a knitting process of the knitted fabric with the structure as follows:

the knitting method comprises the steps that first yarns 1 are knitted into loop tissues and floating line tissues at intervals in the knitting direction of the surface layer, the floating line tissues form a hollow structure, second yarns 2 and needle positions corresponding to the floating line tissues of the surface layer are knitted into the loop tissues at the bottom layer, and the second yarns 2 are knitted into the floating line tissues corresponding to the loop tissues of the surface layer.

For example, as shown in FIG. 4, the first weave pattern has first yarn 1 knitted with a knit and float weave every other, and the second weave pattern has second yarn 2 knitted with a knit in which the 2/3 th weave is a tuck weave to a face layer, the fifth weave is a float weave, the sixth weave is a knit and the 6/7 th weave is a tuck weave to a face layer. The knitting operation of the third and fourth rows is the same as the knitting operation of the first and second rows.

It should be noted that the floating thread structure of the fifth weave row can also be changed into the floating thread structure of the two weave rows to increase the size of the semi-permeable hole, but it should be noted that the floating thread distance should not be too long so as to avoid affecting the physical property of the fabric, the tuck of the third and seventh weave rows is used for connecting with the surface layer, and the number of the weave rows separated from each other can also be increased according to the needs.

Example 3

This embodiment is another extension of embodiment 1, and includes at least a part of the impermeable area in addition to the permeable area of embodiment 1, the first yarns 1 of the impermeable area are provided with a loop weave and a float weave at intervals along the weaving direction of the surface layer, the float weave forms a hollow structure, the second yarns 2 are provided with a full-needle loop weave at the bottom layer, in the impermeable area, the surface layer is a needle-separated knitting structure, the bottom layer is a full-needle knitting structure, and the impermeable area with alternating single and double knitting rows is formed.

The embodiment exemplarily shows a knitting process of the knitted fabric with the structure as follows:

the first yarns 1 in the impermeable area are woven into loop tissues and floating line tissues at intervals in the weaving direction of the surface layer, the floating line tissues form a hollow structure, and the second yarns 2 are woven in the bottom layer in a full-needle mode.

Example 4

This embodiment is a further extension of embodiment 1, which is different from embodiment 1 in the arrangement of the second yarn 2, and in this embodiment, the second yarn 2 of the knitted fabric includes two kinds of yarns, i.e., A1 yarn 20 and B1 yarn 21, wherein the A1 yarn 20 and the B1 yarn 21 are in a full stitch loop structure at the bottom layer, and wherein part of the stitches of the B1 yarn 21 are tucked to the surface layer to be in nested connection with the first yarn 1.

The embodiment exemplarily shows a knitting process of the knitted fabric with the structure as follows: the first yarns 1 are knitted in the front layer at intervals of a stitch structure and a float structure in the knitting direction thereof, the A1 yarns 20 of the second yarns 2 are knitted on the needle-separated bottom surface, the B1 yarns 21 of the third yarns are knitted on the needle-separated bottom surface, and the stitch structure of the B1 yarns 21 corresponds to the float structure of the A1 yarns 20.

For example, as shown in fig. 5, the first knitting line is knitting with the first yarn 1 by the loop stitch and the float stitch, the second knitting line is knitting with the A1 yarn 20 by the needle bed, the float stitch is knitted by the 2 th to 4 th knitting lines, the B1 yarn 21 is knitting with the float stitch and the 2 nd to 4 th knitting lines are knitting with the loop stitch, the 5 th and 7 th knitting lines of the A1 yarn 20 of the fourth knitting line are needle turned, the knitting operations of the fifth to seventh knitting lines are the same as those of the first to third knitting lines, the knitting operation of the eighth knitting line is the same as that of the fourth knitting line, and the knitting operations of the ninth to eleventh knitting lines are the same as those of the first to third knitting lines.

In the embodiment, the specifications of the yarn A1 and the yarn B1 are different, for example, the color, the thickness and the like, and the yarn A1 and the yarn B1 can form a two-color jacquard effect.

It should be noted that the needle reversing action of the eighth row may also be different from that of the fourth row, for example, the needle reversing position may also be the 1 st and 5 th rows for needle reversing, and those skilled in the art may set the needle reversing action as required.

In the above embodiment, the stitch turning may be from the dial to the needle cylinder, or from the needle cylinder to the dial, which may be arranged according to the corresponding surface layer where the mesh required by the fabric is located.

In the above embodiment, the first yarn 1 is preferably a monofilament, which may be at least one of a polyester monofilament, a polyamide monofilament, and a TPU monofilament, but is not limited thereto, and may also be a polypropylene filament and other monofilament types that can be used for weaving, and in the same fabric, the monofilament may be woven by the same monofilament, or may be woven by two or more monofilaments alternately, which may be selected by those skilled in the art as needed; the second yarn 2 is preferably multifilament, and the multifilament is at least one of polyester multifilament, polyamide multifilament, polypropylene multifilament and polylactic acid multifilament, but is not limited thereto, and may also be other chemical filament multifilament that can be used for weaving, and in addition, the second yarn 2 may also include single yarn or blended yarn spun by natural fiber or cellulose fiber, such as polyester-cotton blended yarn, pure cotton yarn, cotton-nylon blended yarn, cotton-bamboo fiber blended yarn, bamboo fiber-polyester blended yarn, and the like, and yarn spun by natural fiber or cellulose fiber has better hygroscopicity and skin friendliness, and can improve comfort of the fabric.

The surface layer of the embodiment adopts monofilaments, the bottom layer adopts multifilaments or skin-friendly natural fiber yarns, and the natural fiber composite shoe upper has stiffness, smoothness, wear resistance and comfort and can be widely applied to shoe uppers.

It should be noted that in the above embodiments, the stitch and the float stitch of the knitted fabric are arranged at intervals, which is a preferable choice for the knitted fabric to have both air permeability and stability, but not limited thereto, and may also be arranged at intervals, or arranged at intervals, and so on, and those skilled in the art can select them as required.

The knitted fabric can be applied to clothes, vamp fabrics and the like, and at least one part of the clothes or the vamp is made of the light and thin perforated knitted fabric.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (9)

1. A light and thin through hole knitted jacquard fabric is characterized in that: the knitted fabric is knitted by a double-sided circular weft knitting machine and comprises a surface layer and a bottom layer, wherein the knitting yarns of the surface layer comprise first yarns, the knitting yarns of the bottom layer comprise second yarns, the knitted fabric comprises at least one part of through hole areas, in the through hole areas, the first yarns are provided with looping tissues and floating threads at intervals on the surface layer along the knitting direction of the surface layer, and the floating threads form a hollow structure; the needle positions of the second yarns corresponding to the floating thread tissues of the surface layer are in looped tissues on the bottom surface, and the needle positions of the second yarns corresponding to the looped tissues of the surface layer are in spaced, sleeved and connected with the first yarns along the weaving direction.

2. The light and thin through-hole knitted jacquard fabric according to claim 1, wherein: the knitted fabric further comprises at least one partial semi-transparent area, loop forming tissues and floating threads are arranged on the first yarns of the semi-transparent area at intervals in the weaving direction of the surface layer, the floating threads form a hollow structure, needle positions of the second yarns corresponding to the floating threads of the surface layer are in loop forming tissues at the bottom layer, and needle positions of the second yarns corresponding to the loop forming tissues of the surface layer are in the floating threads.

3. The light and thin through-hole knitted jacquard fabric according to claim 1, wherein: the knitted fabric further comprises at least one part of impermeable area, the first yarns of the impermeable area are provided with looping stitches and floating stitches at intervals in the surface layer along the weaving direction of the surface layer, the floating stitches form a hollow structure, and the second yarns are full-needle looping stitches on the bottom layer.

4. The lightweight thin through-hole jacquard knitted fabric according to any one of claims 1 to 3, wherein: the second yarn of the knitted fabric comprises A1 yarn and B1 yarn, wherein the A1 yarn and the B1 yarn are in full-needle looping stitch at the bottom layer, and the B1 yarn is tucked to the surface layer and is connected with the first yarn in an embedded manner; the B1 yarns are tucked to the surface layer and are connected with the first yarns in an embedded mode in such a way that the B1 yarns are connected with all loop-forming tissues of the first yarns of the local surface layer or are connected with the loop-forming tissues of the first yarns of the local surface layer at intervals.

5. The light and thin jacquard knitted fabric with through holes as claimed in any one of claims 1 to 3, wherein: the first yarns are monofilaments and the second yarns are multifilaments.

6. The light and thin through-hole knitted jacquard fabric according to claim 5, wherein: the monofilament comprises at least one of polyester monofilament, nylon monofilament, TPU monofilament and single stranded twisted yarn.

7. The light and thin through-hole jacquard knitted fabric according to claim 5, wherein: the knitted fabric further comprises at least one part of impermeable area, and the first yarns of the impermeable area are arranged at intervals in a loop stitch and a floating stitch along the weaving direction of the surface layer; the second yarns comprise two yarns, wherein one yarn is in a continuous looping tissue, and the other yarn is in a looping tissue and a tucking tissue which are distributed alternately and tucked to the surface layer.

8. The light and thin through-hole knitted jacquard fabric according to claim 5, wherein: the loop forming weave and the floating stitch of the first yarn of the knitted fabric are arranged at intervals.

9. An upper, characterized by: at least a portion of said upper is a light and thin openwork knit fabric according to any one of claims 1-8.

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