TWM527445U - Multi-layer woven fabric for vamp - Google Patents

Description

Multilayer fabric weave structure

The present invention relates to a fabric weave structure, and more particularly to a multi-layer fabric weave structure which is woven using a rope.

In the textile field, the industry has developed a variety of functional products by utilizing the advantages of high structural change of the multi-layer woven products, especially clothing or shoes worn on the human body, and most of the aforementioned products are Several of the same needs are lightweight, breathable, comfortable and innovative.

Generally, the multi-layer fabric weaving structure on the market is mostly used in clothing or medical rehabilitation products. In response to the medical rehabilitation function requirements of these products, the related textile products are woven with yarns of different materials, such as elastic knee pads and elasticity. Pantyhose.

However, the common characteristics of the above products are extremely high in weaving density, so that the functions of keeping warm and shielding the human body are exerted, so that the materials and the weaving method are limited, and the gas permeability is poor and the appearance changes are monotonous, even in The upper design of the footwear products with lower shielding requirements is still similar to the general The material of the clothing and the way of weaving are made. This manufacturing habit hinders the creative development of the footwear product and does not strengthen the support of the instep required for the upper.

In order to break through the manufacturing thinking of the related products on the related products, the present invention proposes a multi-layered cloth weave structure which is woven with ropes and other materials, in addition to reducing the weaving density to provide good breathability, and also by the ropes. The material characteristics are used to open a number of through-holes to further improve the venting function of the woven fabric structure, and because the strength of the rope is much larger than that of the general textile yarn material, the multi-layer fabric woven structure is easy to create a rich three-dimensional feeling. It also increases its practical support effect.

According to an embodiment of the present invention, a multi-layer cloth weave structure is provided, which comprises a plurality of warp knitting units and a plurality of weft ropes, and each warp knitting unit is interwoven to form a plurality of channels, each of which is further provided by a latitudinal rope. And positioning, and the outer diameter of each zonal rope is greater than or equal to 1 mm.

Since the multi-layer cloth weave structure adopts a rope with higher strength than the general textile material as the weaving main body, the warp knitting unit and the weft rope can be woven to maintain the three-dimensional structure without pulling into a plane, and the rope has a large Friction and hardness, so that each channel and the weft rope between the gap, improve the permeability of the multi-layer cloth weave structure, and the high-strength rope is more suitable for the upper or demand appearance of the footwear products And the support surface of the bag.

In the above-mentioned multi-layer cloth weaving structure, each of the warp knitting units may be adjacent to each other, that is, the warp knitting unit may be plural when weaving One unit. In addition, each of the foregoing warp knitting units and the respective ropes may be interwoven in a plain weave manner, and the outer diameter of any of the weft ropes may be larger than the outer diameter of any of the warp knitting units. The channels through which the latitudinal ropes are inserted may be separated by an interval, and at least one of the warp knitting units may form a through hole corresponding to a space, and the through holes may penetrate the multi-layer cloth weaving structure.

Since the weft rope and the warp knitting unit have the difference in thickness, the plurality of side-by-side warp knitting units can thicken the warp knitted fibers, so that the warp knitting unit does not completely close to the weft rope because it is too thin. Therefore, it is possible to keep the gap of the passage not filled. With such a structure, the through holes can also be directly opened on the adjacent warp knitting unit to further enhance the ventilation effect.

According to another embodiment of the present invention, a multi-layer cloth weave structure is provided that is woven on a shoe body, the multi-layer cloth weave structure comprising a plurality of warp knit units and a weft rope. Each warp knitting unit is interwoven to form a plurality of channels, and provides a weft rope through positioning. In this embodiment, the zonal rope is bent in a reverse direction after passing through a passage to form a plurality of bending sections, and the bending section is correspondingly limited to the shoe body, so that the latitudinal rope can be shuttled to the plurality of ropes by a single rope body. The channel is fixed with the warp knitting unit in conjunction with the shoe body.

In the above-mentioned multi-layer fabric weaving structure, each of the warp knitting units may be adjacent to each other, that is, the warp knitting unit may be plural in one knitting. In addition, each of the foregoing warp knitting units and the rope may be interwoven in a plain weave manner, and the outer diameter of the weft rope may be larger than the outer diameter of any warp knitting unit. The respective passages through which the latitudinal rope runs may be separated by an interval And at least one warp knitting unit corresponding to a space may form a through hole, and the through hole may penetrate the multi-layer cloth weaving structure.

According to the embodiment, the multi-layer cloth weave structure can be directly positioned on the shoe body, and the knitting relationship with the warp knitting unit is completed only by a single weft rope, so that the multi-layer cloth weave structure can be combined with The shoe bodies are manufactured separately, and the shape of the two is also easier to correct.

100‧‧‧Multilayer fabric weave structure

110‧‧‧ warp knitting unit

120‧‧‧ latitudinal rope

P‧‧‧ channel

S‧‧‧through hole

C‧‧‧Bend section

D‧‧‧ interval

1 is a perspective view showing a structure of a multi-layer cloth weave structure according to an embodiment of the present invention; and FIG. 2 is a cross-sectional view showing a cross-sectional line of a multi-layer cloth weave structure of FIG. 1; A schematic diagram of an application according to an embodiment of the present invention is shown; and FIG. 4 is a schematic diagram of an application according to another embodiment of the present invention.

1 is a perspective view showing the structure of a multi-layer cloth weave structure according to an embodiment of the present invention. Fig. 2 is a cross-sectional view showing the A-A line of the multi-layered cloth woven structure of Fig. 1. Referring to FIGS. 1 and 2 together, the multi-layered cloth weave structure 100 includes a plurality of warp knitting units 110 and a plurality of weft ropes 120. Taking FIG. 1 as an example, the warp knitting unit 110 is interlaced by a pair of double strips, and forms a plurality of channels P in FIG. 2, one for each channel P. The zonal ropes 120 are positioned throughout, and the outer diameter of these latitudinal ropes 120 is greater than 1 mm.

In the above embodiment, the warp knitting units 110 may be adjacent to each other, and as shown in FIG. 1, the warp knitting units 110 and the weft ropes 120 may be woven by a plain weave, and any weft rope 120 The outer diameter of the warp knitting unit 110 may be larger than the outer diameter of any warp knitting unit 110, and the passage P through which the weft ropes 120 are inserted may be separated by an interval d. At the position of the interval d, at least one warp knitting unit 110 may be corresponding. A through hole S is formed at a position of the interval d, and these through holes S can directly penetrate the cloth weave structure. In addition, the through hole S may be directly perforated on the warp knitting unit 110 or may be produced by a weaving method. For example, the through hole S in FIG. 1 may be created by a partial weaving relationship of the two warp knitting units 110.

FIG. 3 is a schematic view showing an application according to an embodiment of the present invention. As shown in Fig. 3, when the multi-layer cloth weave structure 100 is used as the upper of the shoe body, the warp knitting unit 110 and the weft rope 120 can be sewn to other parts of the shoe body, for example, with a leather or rubber air cushion. The other parts are seamed; the foregoing selection is a general technique in the related art, and thus the implementation details thereof will not be described in detail.

Since the multi-layer cloth weave structure 100 is integrally knitted with the shoe body without separately sewing on any base cloth, the through hole S therebetween can directly communicate with the inside of the shoe body to achieve good ventilation effect.

It can be seen from the above embodiment that the multi-layer cloth weave structure 100 is modified by the weft rope 120 having an outer diameter of more than 1 mm as a material for weaving, and the multi-layer cloth weaving knot is used because the material used in the warp and weft direction or the thickness is different. The passage P of the structure 100 can generate a plurality of slits for air circulation, and cooperate with the plurality of through holes S provided, in addition to greatly improving the air permeability of the multi-layered cloth weave structure 100, and creating an appearance texture in addition to the footwear product. Enhance the practical value of the support strength.

Figure 4 is a schematic view showing the application according to another embodiment of the present invention. Continuing to refer to FIG. 4, the main features of the multi-layered cloth weave structure 100 of the present embodiment are the same as those described above, and the detailed description thereof will not be repeated. The difference between the present embodiment and the foregoing example is that the multi-layer cloth weave structure 100 may only comprise a single weft rope 120, and the weft rope 120 has a plurality of bending sections C, and the bending sections C provide the weft direction. The rope 120 is fixed to the shoe body.

As shown in FIG. 4, in the embodiment, a plurality of cloth materials can be sewn into a tubular shape and disposed on the outer edge of the shoe, and the aforementioned bending portion C is disposed and positioned in the tubular cloth materials, so that Another weaving mode is achieved in the state of the single zonal rope 120.

In addition, since the structure of the multi-layered cloth weave structure 100 in this embodiment can be pre-shaped, it can be independent of the manufacture of the shoe body, and only needs to be stitched at the time of final sewing. Moreover, the design of the single zonal rope 120 can also relatively easily correct the dimension of the multi-layer fabric woven structure 100 during stitching, providing better processing conditions.

The aforementioned warp knitting units 110 may be adjacent to each other side by side. Moreover, the outer diameter of the aforementioned weft rope 120 may be greater than or equal to 1 mm and larger than the outer diameter of any of the warp knitting units 110.

The warp knitting unit 110 and the weft rope 120 can also be woven by a plain weave, and the passage P through which each weft rope 120 runs. It is also possible to separate at an interval d. At least one of the warp knitting units 110 may be formed with a through hole S at the position of the interval d, and the through holes S may directly penetrate the multi-layer cloth weave structure 100.

Through the above embodiments, the present invention can make the upper of the shoe body relatively quick and simple in the manufacturing process, and the single zonal rope 120 can also be extended or contracted in the warp direction when the shoe body is in motion, compared with Embodiments in which a plurality of zonal ropes 120 are each sewn, such a structure is more in line with the motion requirements of the upper.

According to the embodiment disclosed above, the present invention has at least the following advantages: First, the multi-layer cloth weave structure is woven by using a weft rope and a warp knitting unit, and the support strength of the shoe upper or the bag is effectively improved. And to avoid the shortcomings of the footwear or bag on the market due to the dense and airtight weaving. Secondly, most of the through holes are opened on the upper, and the main body of the upper with the latitudinal ropes not only greatly improves the breathability, but also gives the three-dimensional texture of the footwear products, taking into consideration the practical and ornamental value. Third, the multi-layered cloth weave structure used in the present invention is easy to be sewn with the shoe body, which makes the footwear product easier to manufacture or modify the shoe type.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Any one skilled in the art can make various changes and retouchings without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached.

100‧‧‧Multilayer fabric weave structure

110‧‧‧ warp knitting unit

120‧‧‧ latitudinal rope

S‧‧‧through hole

Claims (11)

A multi-layer cloth weave structure comprising: a plurality of warp knitting units; and a plurality of weft ropes, each of which has an outer diameter of 1 mm or more; wherein the warp knitting units are interwoven to form a plurality of channels, and each of the channels A latitudinal rope is positioned for penetration. The multi-layered fabric weave structure of claim 1, wherein the warp-knitted units are adjacent to each other. The multi-layer fabric weave structure according to claim 1, wherein the outer diameter of any of the weft ropes is larger than the outer diameter of any of the warp knitting units. The multi-layer fabric weave structure according to claim 1, wherein each of the channels is separated by an interval, and at least one of the warp knitting units forms a through hole corresponding to the space, and each of the through holes penetrates the through hole Multilayer fabric weave structure. The multi-layered fabric weave structure of claim 1, wherein the warp knitting units are interwoven with the weft ropes in a plain weave. A multi-layer cloth weave structure woven on a shoe body, the multi-layer cloth weave structure comprising: a plurality of warp knitting units; and a weft rope having a plurality of bending segments, and the bending segments Corresponding limits are located on the shoe body; wherein the warp knitting units are interwoven to form a plurality of channels for the latitudinal rope to be positioned therethrough. The multi-layered cloth weave structure of claim 6, wherein the warp-knitted units are adjacent to each other. The multi-layer fabric weave structure according to claim 6, wherein the outer diameter of the weft rope is greater than or equal to 1 mm. The multi-layer fabric weave structure according to claim 6, wherein the outer diameter of the weft rope is larger than the outer diameter of any of the warp knitting units. The multi-layer cloth weave structure according to claim 6, wherein each of the channels is separated by an interval, and at least one of the warp knitting units forms a through hole corresponding to the space, and each of the through holes penetrates the through hole Multilayer fabric weave structure. The multi-layer fabric weave structure of claim 6, wherein the warp knitting units are interwoven with the weft rope in a plain weave.