CN216040092U - Woven fabric with double rows of trim meshes - Google Patents

Abstract

The utility model provides a braided fabric with double rows of flanged meshes, which comprises a surface layer, an intermediate layer, a bottom layer, a first jacquard unit and a second jacquard unit. The surface layer is formed by weaving the first ground comb units, the middle layer is formed by weaving the second ground comb units, and the bottom layer is formed by weaving the third ground comb units. The first jacquard unit is connected with the first ground comb unit, and the second jacquard unit is connected with the first ground comb unit and the first jacquard unit. The braided fabric with the double rows of flanged meshes is provided with a flanged mesh area, the flanged mesh area is arranged on the surface layer, the flanged mesh area is provided with meshes, the meshes are formed by weaving a first jacquard unit, and a second jacquard unit is respectively connected with two sides of the meshes. Through the special structural configuration, the mesh still has the original characteristics, and the mesh is further decorated by one layer.

Description

Woven fabric with double rows of trim meshes

Technical Field

The utility model provides a braided fabric with meshes, in particular to a braided fabric with double rows of edging meshes.

Background

With the continuous development and growth of the knitting industry and the development of the warp knitting technology, the market is full of the warp knitting products with the eight flowers. Warp knitting technology is widely applied in life and various industries. Under the intense competitive environment, new technologies are continuously researched and developed, and old technologies are eliminated. The improvement of the mesh in the industry at present focuses on the size of the mesh, the effect of the through holes, and the like, and the technology for improving the mesh decoration is still rare, and besides, the comfortable hand feeling and the excellent structural stability are achieved on the premise of abundant visual changes, and the technology for weaving is more challenging.

In view of this, how to increase the product identification and improve the structural stability of the knitted fabric is an important research for the related manufacturers.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a braided fabric with double rows of flanged meshes, and the special structural configuration of a first jacquard unit and a second jacquard unit enables the second jacquard unit to achieve the flanged effect around the meshes, thereby increasing the identification degree of products.

One embodiment of the present invention provides a knitted fabric having double row trim meshes, comprising a face layer, an intermediate layer, a bottom layer, a first jacquard unit and a second jacquard unit. The surface layer is woven by first ground comb unit and is formed, and the intermediate level is woven by second ground comb unit and is formed, and the bottom is woven by third ground comb unit and forms, and wherein the intermediate level sets up between surface layer and bottom, and first ground comb unit of second ground comb unit connection and third ground comb unit make surface layer and bottom be connected. The first jacquard unit is connected with the first ground comb unit, and the second jacquard unit is connected with the first ground comb unit and the first jacquard unit. The braided fabric with the double rows of flanged meshes is provided with a flanged mesh area, the flanged mesh area is arranged on the surface layer, the flanged mesh area is provided with meshes, the meshes are formed by weaving a first jacquard unit, and a second jacquard unit is respectively connected with two sides of the meshes.

The knitted fabric having the double row of trim meshes according to the foregoing embodiment may further have a flat layout region in which the first jacquard unit is connected to the face layer, the second jacquard unit is connected to the base layer, and the first jacquard unit and the second jacquard unit are thick weaves.

The braid having the double row of trim meshes according to the foregoing embodiment may further have a single jacquard area provided at the face layer, in which the second jacquard unit covers the first jacquard unit and the second jacquard unit forms a V-point jacquard at the face layer.

The knitted fabric having the double row of trim meshes according to the foregoing embodiment may further have a double jacquard region provided at the face layer, in which the second jacquard unit covers the first jacquard unit, the second jacquard unit forms a plurality of V-point patterns at the face layer, and the V-point patterns overlap each other.

The braid having the double row of net holes of the selvage according to the previous embodiment, wherein the third ground comb unit may be a plain open weave.

The knitted fabric having double row of net holes with selvedges according to the foregoing embodiment, wherein the first ground comb unit, the second ground comb unit and the third ground comb unit may be transparent yarns, respectively.

The knitted fabric with double rows of flanged meshes according to the foregoing embodiment, wherein the material of the first ground comb unit, the material of the first jacquard unit, the material of the second ground comb unit, and the material of the third ground comb unit may be respectively dacron, chinlon, cationic yarn, spandex, thermoplastic polyester, thermoplastic polyurethane, doubled yarn, covering yarn, or functional yarn.

Drawings

In order to make the aforementioned and other objects, features, and advantages of the utility model, as well as others which will become apparent, reference is made to the following description of the preferred embodiments of the utility model in which:

FIG. 1 is a schematic view of a braid having double row trim meshes according to an embodiment of the present invention;

FIG. 2 shows an enlarged view of a portion of the braid with double row of trim meshes according to FIG. 1;

FIG. 3 shows a schematic cross-sectional view of the braid with double row of trim meshes according to FIG. 1;

FIG. 4 shows a flow chart of a method of manufacturing a braid with double row trim meshes according to FIG. 1;

FIG. 5 shows a bar weave configuration of the braid with double row of trim meshes according to FIG. 4;

FIG. 6A is a schematic view showing a lapping structure of the first ground comb unit according to FIG. 4;

FIG. 6B shows a schematic view of the original pick of the first jacquard unit according to FIG. 4;

FIG. 6C shows a schematic view of the original inlay stitch according to the second jacquard unit of FIG. 4;

FIG. 6D is a schematic view showing a lapping structure of the second ground comb unit according to FIG. 4;

FIG. 6E is the schematic view showing the lapping structure of the third ground comb unit according to FIG. 4;

FIG. 7 shows a schematic view of the first jacquard unit according to FIG. 4 in an offset state at the rimmed mesh area;

FIG. 8A is a schematic diagram showing the second jacquard unit according to FIG. 4 in an offset state at the left row of the meshes;

FIG. 8B shows a schematic diagram of the second jacquard unit according to FIG. 4 in a shifted state in the middle of the mesh;

FIG. 8C shows the second jacquard unit according to FIG. 4 in an offset state at the right row of the meshes;

FIG. 9A is a schematic diagram showing the first jacquard unit according to FIG. 4 in an offset state in the flat cloth area;

FIG. 9B is a schematic diagram showing the second jacquard unit according to FIG. 4 in an offset state in the flat cloth area;

FIG. 10 is a schematic diagram showing the second jacquard unit according to FIG. 4 in an offset state in a single jacquard area; and

FIG. 11 is a schematic diagram showing the second jacquard unit according to FIG. 4 in an offset state in the double jacquard area.

Detailed Description

A plurality of embodiments of the present invention will be described below with reference to the accompanying drawings. For the purpose of clarity, numerous implementation details are set forth in the following description. It should be understood, however, that these implementation details are not to be interpreted as limiting the utility model. That is, in some embodiments of the utility model, these implementation details are not necessary. In addition, for the sake of simplicity, some conventional structures and elements are shown in the drawings in a simple schematic manner; and repeated elements will likely be referred to using the same reference numerals.

Referring to fig. 1,2,3, 4 and 5, fig. 1 is a schematic view illustrating a braid 100 with double row trim meshes according to an embodiment of the present invention, fig. 2 is a partially enlarged view illustrating the braid 100 with double row trim meshes according to fig. 1, fig. 3 is a schematic cross-sectional view illustrating the braid 100 with double row trim meshes according to fig. 1, fig. 4 is a flowchart illustrating a method 200 for manufacturing the braid with double row trim meshes according to fig. 1, and fig. 5 is a bar weave configuration diagram illustrating the braid 100 with double row trim meshes according to fig. 4. An embodiment of the present invention provides a braid with double row trim meshes 100, wherein the braid with double row trim meshes 100 of fig. 1 can be manufactured by the method for manufacturing a braid with double row trim meshes 200 of fig. 4, and the details of each embodiment will be described together.

As shown in fig. 1,2 and 3, referring to fig. 5, the knitted fabric 100 having double row selvage meshes includes a surface layer 110, a middle layer 120 and a bottom layer 130, the surface layer 110 is knitted by a first combing unit 310, the middle layer 120 is knitted by a second combing unit 340, the bottom layer 130 is knitted by a third combing unit 350, wherein the middle layer 120 is disposed between the surface layer 110 and the bottom layer 130, and the second combing unit 340 connects the first combing unit 310 and the third combing unit 350, so that the surface layer 110 is connected with the bottom layer 130. The braid with double row of trim meshes 100 also includes a first jacquard unit 320 and a second jacquard unit 330. The first jacquard unit 320 is connected to the first ground comb unit 310, and the second jacquard unit 330 is connected to the first ground comb unit 310 and the first jacquard unit 320.

As shown in fig. 1 and 2, the knitted fabric 100 having double row of net holes has a net hole area 140, the net hole area 140 is provided on the face layer 110, the net hole area 140 has a net hole 150, the net hole 150 is knitted by a first jacquard unit 320, second jacquard units 330 are respectively connected to both sides of the net hole 150, and the second jacquard unit 330 is overlaid on the first jacquard unit 320.

Further, the second jacquard unit 330 can weave the both sides of the mesh 150 into a V-shape, so that the original monotonous mesh 150 has more decoration effect, the appearance of the mesh 150 can be more impact, and the product identification of the woven fabric 100 with double-row edged meshes can be increased. In addition, the user can see through the bottom layer 130 through the mesh 150 and can also observe the effect of the fish wire generated by the first ground comb unit 310 and the third ground comb unit 350.

On the other hand, the second carding unit 340 is woven to form the middle layer 120 and connect the surface layer 110 and the bottom layer 130, thereby increasing the stability of the whole structure of the knitted fabric 100 with the double row of net holes, and increasing the stiffness of the knitted fabric 100 with the double row of net holes, so that the knitted fabric 100 with the double row of net holes has a solid and comfortable hand feeling.

The third ground comb unit 350 may be a plain weave. Specifically, the second combing unit 340 weaves back and forth between the surface layer 110 and the bottom layer 130, which is easy to form the problem of monofilament exposure on the surface of the surface layer 110 and the surface of the bottom layer 130, thereby reducing the comfort level of cloth cover hand feeling. The problem of the monofilament exposure of the bottom layer 130 can be solved by the structural configuration that the third combing unit 350 is a plain weave. In addition, the problem of the monofilament exposure of the cover 110 can be solved by covering the first and second jacquard units 320 and 330.

The braid 100 with double row of trim meshes may further have a flat layout area 160, in which a first jacquard unit 320 is connected to the face layer 110, a second jacquard unit 330 is connected to the bottom layer 130, and the first jacquard unit 320 and the second jacquard unit 330 are thick weaves, at the flat layout area 160. Thereby, the first jacquard unit 320 covers the first ground comb unit 310, so that the surface layer 110 shows the color of the first jacquard unit 320; the second jacquard unit 330 covers the third combing unit 350 so that the bottom layer 130 exhibits the color of the second jacquard unit 330.

The braid 100 with double row trim meshes may further have a single jacquard area 170 disposed at the face layer 110, in which single jacquard area 170 the second jacquard unit 330 covers the first jacquard unit 320, and the second jacquard unit 330 forms a V-point jacquard at the face layer 110.

The braid 100 with the double row of trim meshes may further have a double jacquard area 180 disposed at the face layer 110, in which the second jacquard unit 330 covers the first jacquard unit 320, the second jacquard unit 330 forms a plurality of V-point patterns at the face layer 110, and the V-point patterns overlap each other, in the double jacquard area 180.

Further, in the single jacquard area 170, the V-point patterns formed by the second jacquard unit 330 do not overlap with each other; in the double jacquard area 180, the V-point patterns formed by the second jacquard unit 330 overlap with each other, and the double jacquard area 180 may form a more saturated pattern than the single jacquard area 170. Thereby, the braid 100 having the double row of trim meshes can provide diverse and rich cloth visual effects on the same surface.

In the embodiment of FIG. 1, the colors of first and second jacquard units 320 and 330 may be different colors, thereby making border mesh area 140 more colorful. The first ground comb unit 310, the second ground comb unit 340 and the third ground comb unit 350 may be transparent yarns, respectively. Therefore, the colors of the first jacquard unit 320 and the second jacquard unit 330 can be more highlighted.

The material of the first floor comb unit 310, the material of the first jacquard unit 320, the material of the second jacquard unit 330, the material of the second floor comb unit 340 and the material of the third floor comb unit 350 may be respectively terylene, chinlon, cationic yarn, spandex, thermoplastic polyester, thermoplastic polyurethane, doubled yarn, covering yarn, covered yarn or functional yarn. Therefore, the knitted fabric 100 with double rows of flanged meshes can be matched with the materials of all yarns to meet the requirements of various handfeels and vision. The process of manufacturing the braid with double row trim meshes 100 of fig. 1 will be explained in detail below with the method 200 of manufacturing the braid with double row trim meshes of fig. 4.

Referring again to fig. 4 and 5, as shown in fig. 4, a method 200 for manufacturing a woven fabric with double row of trim meshes includes a configuration step 210 and a weaving step 220.

First, as shown in fig. 5, in the configuration step 210, the first ground comb unit 310, the first jacquard unit 320, the second jacquard unit 330, the second ground comb unit 340 and the third ground comb unit 350 are sequentially disposed on a two-needle bed machine (not shown), wherein the two-needle bed machine has a front needle bed 301 and a back needle bed 302, and the first ground comb unit 310, the first jacquard unit 320, the second jacquard unit 330, the second ground comb unit 340 and the third ground comb unit 350 are sequentially disposed on the two-needle bed machine from the front needle bed 301 to the back needle bed 302.

Specifically, in fig. 5, the machine model of the double-needle bed machine may be RDPJ6/2, and the first ground comb unit 310 may further include a comb joint (not separately labeled), in the embodiment of fig. 5, the comb joint does not thread, but the utility model is not limited thereto, and in other embodiments, the comb joint may thread and be added to the knitting stroke to generate a richer fabric effect.

In the embodiment of figure 5, the first and second jacquard units 320 and 330 may be subdivided into two and a half bars, respectively. In detail, the first jacquard unit 320 may include a first sub-jacquard unit 321 and a first sub-jacquard unit 322, and the second jacquard unit 330 may include a second sub-jacquard unit 331 and a second sub-jacquard unit 332. The first sub-jacquard unit 321 and the first sub-jacquard unit 322 may travel the same or different weaving paths, and the second sub-jacquard unit 331 and the second sub-jacquard unit 332 may travel the same or different weaving paths, thereby forming different cloth effects at different positions of the woven fabric 100 having double-line edged meshes.

In addition, in the configuration step 210, the first ground comb unit 310, the first jacquard unit 320, the second jacquard unit 330, the second ground comb unit 340, and the third ground comb unit 350 are connected to a positive type yarn feeding device (not shown) that feeds yarn to the first ground comb unit 310, the first jacquard unit 320, the second jacquard unit 330, the second ground comb unit 340, and the third ground comb unit 350 in a positive manner. In the arrangement of a general double-needle bed machine, a creel type yarn feeding device is generally used, however, the creel type yarn feeding device consumes a very high labor cost and a considerable amount of time, which results in a considerable cost. Therefore, the effect of reducing the cost is achieved by the active yarn feeding device and the special machine configuration. Furthermore, the yarn feeding amount of the second jacquard unit 330 can be precisely controlled by the active yarn feeding device, so as to achieve the most ideal edging effect.

As shown in fig. 5, the double-bed machine has a tension bar 303, the first jacquard unit 320 and the second jacquard unit 330 respectively have a plurality of tension pieces 304, the tension pieces 304 are connected with the tension bar 303, wherein in fig. 5, the first jacquard unit 320 and the second jacquard unit 330 respectively include two tension pieces 304. Each tension sheet 304 and the tension bar 303 have an inclination angle θ therebetween, which may be 25 ° to 35 °. The first, second and third ground comb units 310, 320, 330, 340 and 350 have a comb pitch distance therebetween, which may be 3 to 5 mm.

Generally, only one tension sheet is disposed in each yarn unit, however, the problem of cloth cover defect caused by tension sensitivity and weaving difficulty is alleviated by disposing a plurality of tension sheets 304 in each yarn unit. In addition, the distance between the comb nodes is adjusted to be tighter, so that the yarn can be better off-looped and the weaving can be smoother. By means of the arrangement of the double-needle bed machine and each yarn unit, the method 200 for manufacturing the knitted fabric with double rows of flanged meshes can be smoothly executed.

Then a weaving step 220 is performed. In the knitting step 220, the first ground comb unit 310 is knitted on the front needle bed 301 to form the face layer 110. The first jacquard unit 320 is knitted on the front needle bed 301, and the first jacquard unit 320 is controlled to be shifted so that the first jacquard unit 320 is knitted into a perforated structure at the position of the face layer 110, and the mesh 150 is formed on the face layer 110. The offset state of the second jacquard unit 330 is controlled such that the second jacquard unit 330 is woven on both sides of the mesh 150 to form the rimmed mesh region 140 at the position of the face layer 110. The third ground comb unit 350 is knitted on the back needle bed 302 to form the bottom layer 130, and the second ground comb unit 340 is knitted on the front needle bed 301 and the back needle bed 302 to connect the face layer 110 and the bottom layer 130.

By the weaving method, the mesh 150 with double-row edging effect is obtained, and the visual impact of the braided fabric 100 with double-row edging mesh can be increased; in addition, through the weaving of the second ground comb unit 340, it is also possible to maintain excellent structural stability and comfortable cloth cover touch at the same time with the advantage of unique visual effect.

The weaving step 220 may further comprise controlling the deflection of the first jacquard unit 320 such that the first jacquard unit 320 weaves a thick weave at another location of the face layer 110 and forms the land 160 at another location of the face layer 110. In the flat cloth zone 160, the second jacquard unit 330 can be knitted into a thick structure by knitting the second jacquard unit 330 at the back needle bed 302 and controlling the offset state of the second jacquard unit 330.

The knitting step 220 may further include knitting the second jacquard unit 330 at the front needle bed 301, and controlling an offset state of the second jacquard unit 330 such that the second jacquard unit 330 forms a V-point jacquard at another position of the face layer 110, the V-point jacquard covering the first jacquard unit 320, and forming the single jacquard area 170.

The knitting step 220 may further include knitting the second jacquard unit 330 at the front needle bed 301, and controlling the offset state of the second jacquard unit 330 such that the second jacquard unit 330 forms a plurality of V-point patterns at further positions of the face layer 110, the V-point patterns overlapping the first jacquard unit 320, and the V-point patterns overlapping each other and forming the double-pattern area 180.

In addition, the weaving step 220 may further include weaving the third ground comb unit 350 into a plain weave, thereby preventing the problem of the second ground comb unit 340 that the monofilaments are exposed.

The method of making the selvedge mesh zone 140, the plait zone 160, the single jacquard zone 170 and the double jacquard zone 180 of the knit 100 with double selvedge meshes will be described below in practice and with the actual yarn paths.

Please refer to fig. 6A, fig. 6B, fig. 6C, fig. 6D and fig. 6E. Fig. 6A is a schematic diagram of a yarn laying structure of the first ground comb unit 310 according to fig. 4, fig. 6B is a schematic diagram of an original yarn laying structure of the first jacquard unit 320 according to fig. 4, fig. 6C is a schematic diagram of an original yarn laying structure of the second jacquard unit 330 according to fig. 4, fig. 6D is a schematic diagram of a yarn laying structure of the second ground comb unit 340 according to fig. 4, and fig. 6E is a schematic diagram of a yarn laying structure of the third ground comb unit 350 according to fig. 4.

Specifically, the first ground comb unit 310, the second ground comb unit 340, and the third ground comb unit 350 have a lapping weave, respectively. The first jacquard unit 320 and the second jacquard unit 330 respectively have an original yarn-laying organization and a jacquard yarn-laying organization, wherein the first jacquard unit 320 and the second jacquard unit 330 respectively perform deviation according to jacquard control information. The original pick-up stitch is a yarn stitch before the first jacquard unit 320 and the second jacquard unit 330 are shifted, and the jacquard pick-up stitch is a yarn stitch after the first jacquard unit 320 and the second jacquard unit 330 are shifted and the yarn is further drawn and changed. The deflection of the first jacquard unit 320 and the second jacquard unit 330 is controlled by controlling jacquard control information, thereby achieving the effect of pattern change.

More specifically, the inlay weave, the original inlay weave, and the jacquard inlay weave respectively have inlay numbers, which may represent weaving paths of the first ground comb unit 310, the first jacquard unit 320, the second jacquard unit 330, the second ground comb unit 340, and the third ground comb unit 350. Additionally, the jacquard control information may receive an offset signal, which is represented by the letters H and T, wherein the letter H represents a no offset signal and the letter T represents an offset signal. The method of knitting the different regions of the fabric 100 with double row of trim meshes will be explained in detail below.

Please refer to fig. 7, and also refer to fig. 6A. Fig. 7 shows a schematic diagram of the offset state of the first jacquard unit 320 in the rimming mesh area 140 according to fig. 4. As shown in fig. 6A, the lapping number of the lapping structure of the first ground comb unit 310 is set to 1000/0111//, so as to match the first jacquard unit 320 to make a hole in the front needle bed 301. As shown in fig. 7, the padding number of the original padding of the first jacquard unit 320 is set to 1011/1211//, and the offset signal is set to TTHH-hhhhh, so that the jacquard padding is 2111/1211//, and holes can be formed in any area by matching with the padding of the first jacquard unit 320.

Please refer to fig. 8A, 8B and 8C. FIG. 8A shows the displacement of the second jacquard unit 330 according to FIG. 4 in the left row of the mesh 150, FIG. 8B shows the displacement of the second jacquard unit 330 according to FIG. 4 in the middle of the mesh 150, and FIG. 8C shows the displacement of the second jacquard unit 330 according to FIG. 4 in the right row of the mesh 150. As shown in fig. 6C, the original stitch of the secondary jacquard unit 330 is set to have a lapping number of 1110/1112//, and then different offset signals are received according to the position of the mesh 150, so that the secondary jacquard unit 330 weaves on both sides of the mesh 150.

In particular, as shown in FIG. 8A, the offset signal is set to HHHHHH-HTHT, the jacquard lapping is 1110/1011//, and the second Jacquard unit 330 can be woven in the left column of mesh 150. As shown in FIG. 8B, the offset signal is set to THTH-HTHT, so that the jacquard lapping pattern is 0100/1011//, and so that the second Jacquard unit 330 can be woven in the middle of mesh 150. As shown in fig. 8C, the offset signal is set to THTH-TTTT, the jacquard lapping is 0100/0001//, and the secondary jacquard unit 330 can be woven in the right row of the mesh 150. By perfect cooperation between the above-mentioned combinations of inlay stitches, a desired edging effect is achieved on both sides of the mesh 150.

Please refer to fig. 9A and 9B. Fig. 9A is a schematic diagram illustrating an offset state of the first jacquard unit 320 in the flat cloth section 160 according to fig. 4, and fig. 9B is a schematic diagram illustrating an offset state of the second jacquard unit 330 in the flat cloth section 160 according to fig. 4. In the flat cloth zone 160, the first and second jacquard units 320 and 330 may be thick-textured to form a thick flat cloth. Specifically, as shown in fig. 9A, the first jacquard unit 320 is knitted on the front needle bed 301, and the offset signal is set to hhhhhh-TTHH, so that the jacquard lapping structure of the first jacquard unit 320 is 1011/2311//. As shown in fig. 9B, the second jacquard unit 330 is knitted on the back needle bed 302, and the offset signal is set to HHTT-hhhhhhhhhhhh, so that the jacquard inlay weave of the second jacquard unit 330 is 110 (-1)/1112//.

Referring to FIG. 10, the second jacquard unit 330 according to FIG. 4 is shown in an offset state in the single jacquard area 170. As shown in fig. 10, in the single jacquard area 170, the offset signal of the second jacquard unit 330 is set to THTH-TTTT, so that the jacquard lapping weave is 0100/0001//. As shown in fig. 1 and 2, the second jacquard unit 330 forms V-point patterns on the surface layer 110, and the V-point patterns do not overlap with each other.

Referring to fig. 11, a schematic diagram of the second jacquard unit 330 according to fig. 4 in an offset state in the double jacquard area 180 is shown. As shown in FIG. 11, in double jacquard area 180, the offset signal of the second jacquard unit 330 is set to THTH-HTHT, so that the jacquard lapping pattern is 0100/1011//. As shown in fig. 1 and 2, the second jacquard unit 330 forms a plurality of V-point patterns on the surface layer 110, and the V-point patterns overlap each other.

The braided fabric with double rows of flanged meshes is configured through the special structure of the second jacquard unit, so that the meshes can still keep the original characteristics, the original monotonous meshes are further decorated by one layer, and the product identification degree of the braided fabric with double rows of flanged meshes can be increased.

Although the present invention has been described with reference to the above embodiments, it should be understood that various changes and modifications may be made therein by those skilled in the art without departing from the spirit and scope of the utility model.

[ notation ] to show

-1,0,1,2,3: yarn laying number

100 braided fabric with double rows of trim meshes

110: surface layer

120 intermediate layer

130 bottom layer

140 mesh zone of trim

150 mesh of

160 flat cloth area

170 single jacquard area

180 double jacquard area

200 method for manufacturing braided fabric with double rows of edge meshes

210 configuration step

220 weaving step

301 front needle bed

302 back needle bed

303 tension rod

304 tension sheet

310 first ground comb unit

320 first merchant card unit

321,322 first subsidiary Merchant Unit

330 second merchant card unit

331,332 second sub-jacquard unit

340 second ground comb unit

350 third ground comb unit

Theta is the tilt angle.

Claims (7)

1. A woven fabric having double rows of trim meshes, comprising:

the surface layer is formed by weaving the first ground comb units;

the middle layer is formed by weaving the second ground comb units;

the bottom layer is formed by weaving a third ground comb unit, wherein the middle layer is arranged between the surface layer and the bottom layer, and the second ground comb unit is connected with the first ground comb unit and the third ground comb unit so as to connect the surface layer with the bottom layer;

the first jacquard unit is connected with the first ground comb unit; and

the second jacquard unit is connected with the first ground comb unit and the first jacquard unit;

wherein the knitting that has double row net hole of borduring has the net hole area of borduring, and this net hole area of borduring sets up in this surface course, and this net hole area of borduring has the net hole, and this net hole is woven by this first merchant card unit and forms, and the both sides of this net hole are connected respectively to this second merchant card unit.

2. The double row of trim meshes in accordance with claim 1, further comprising a lay down area, wherein the first jacquard unit is connected to the face layer, the second jacquard unit is connected to the bottom layer, and the first and second jacquard units are thick weave.

3. The double row trim mesh fabric of claim 1, further comprising a single jacquard area disposed on the facing, wherein the second jacquard unit overlaps the first jacquard unit and forms a V-point jacquard on the facing in the single jacquard area.

4. The double row trim mesh fabric of claim 1, further comprising a double jacquard area disposed on the facing, wherein the second jacquard unit overlaps the first jacquard unit when the double jacquard area is disposed, the second jacquard unit forms a plurality of V-point patterns on the facing, and the V-point patterns overlap each other.

5. Knit with double row of edged meshes according to claim 1, characterized in that the third ground comb unit is a plain open weave.

6. The knit fabric having double row of selvage meshes according to claim 1, wherein the first ground comb unit, the second ground comb unit and the third ground comb unit are respectively transparent yarns.

7. The double row edged mesh fabric as claimed in claim 1, wherein the material of the first ground comb unit, the material of the first jacquard unit, the material of the second ground comb unit and the material of the third ground comb unit are respectively terylene, chinlon, cationic yarn, spandex, thermoplastic polyester, thermoplastic polyurethane, doubled yarn, covering yarn or functional yarn.

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