CN105386199A - Splicing type cut-pattern yarn-dyed fabric and preparation method thereof - Google Patents

Abstract

The invention relates to a splicing type cut-pattern yarn-dyed fabric and a preparation method thereof. The splicing type cut-pattern yarn-dyed fabric comprises warp yarn and weft yarn, a plurality of color regions are arranged in the direction of the weft yarn, and the weft yarn is provided with the warp yarn corresponding to the color regions. The knitting process includes the steps that the warp yarn corresponding to the color regions are knitted in, and other warp yarn are floated out. The method is ingenious in design, the problem that cut patterns are easy to fall can be solved, and the problems that printed fabric and a traditional knitting method of splicing and sewing are long in production cycle, blurry and not clear in boundaries of spliced patterns, tedious in operation, low in fabric utilization rate and uneven in fabric surface and the like can be further solved.

Description

Spliced clipping and carving color-woven fabric and preparation method thereof

Technical field

The present invention relates to textile technology field, particularly relate to a kind of spliced clipping and carving color-woven fabric and preparation method thereof.

Background technology

The spliced pattern of traditional color-woven fabric, generally takes fabric stamp or splicing to make.Stamp composed pattern, need first weave cotton cloth prints to fabric by different patterns again and gets on, and not only increase production cycle and cost, and composed pattern unclear boundaries is unintelligible.And splicing is made, each pattern flower pattern need be made into cloth, then the fabric of each design is cut out on request be sewn into together.Not only complex operation, fabric utilization rate are low, and cloth cover is out-of-flatness also.

General cutting motif fabric just inweaves to some extent at flower point place, and inweave a little less, therefore flower point the insecure of lock easily comes off.

Summary of the invention

Based on this, the object of this invention is to provide a kind of preparation method of spliced clipping and carving color-woven fabric.

Concrete technical scheme is as follows:

A kind of preparation method of spliced clipping and carving color-woven fabric, described spliced clipping and carving color-woven fabric comprises warp thread and weft yarn, several color regions are provided with along weft direction described in every bar, described in every bar, weft yarn is made up of the yarn corresponding with described color region, the weaving step of weft yarn is: the yarn corresponding with described color region inweaves, all the other yarn emersions.

Wherein in some embodiments, weaving of described color region takes change filling density to weave.

Wherein in some embodiments, described in every bar, weft yarn is made up of the yarn of 2-4 number of colors.

Wherein in some embodiments, described yarn emersion is of a size of 0.5-8 inch.

Wherein in some embodiments, described yarn emersion is of a size of 1-5 inch.

Another object of the present invention is to provide a kind of spliced clipping and carving color-woven fabric.

Concrete technical scheme is as follows:

The spliced clipping and carving color-woven fabric that above-mentioned preparation method prepares.

Principle of the present invention and beneficial effect:

One section that the preparation method of spliced clipping and carving color-woven fabric of the present invention adopts weft yams to replace in proportion inweaves one section of emersion and adopts change filling density to weave, weft yarn inweaves, the dislocation of emersion unified or stagger, unanimously or not etc., warp yarn does not adopt the weave of single or double according to patterning requirement to flotation line length.

According to the patterning requirement of fabric, can adopt solid color bar or the arrangement of rice grain pattern bar through the arrangement of broadwise flower pattern, warp yarn weave can adopt one side weave or two-sided weave.Weft yams weave can adopt a section of replacing in proportion to inweave one section of emersion, and weft yarn inweaves, the dislocation of emersion unified or stagger, and flotation line length is not unanimously or etc.

Method design of the present invention is ingenious, not only can solve the caducous problem of clipping and carving, also can solve printed fabric and splice the problems such as the production cycle existed in the classical production process of making long, composed pattern unclear boundaries is unintelligible, complex operation, fabric utilization rate are low, cloth cover out-of-flatness.Its each pattern is woven into one, and flower pattern junction can not produce phenomenon of hardening, soft, and tissue-welding firmly, forever, is applicable to dress ornament, bed necessaries, family's decorations etc.

The manufacture method of spliced clipping and carving color-woven fabric of the present invention, does not need extras, and production weaved by normal Woven Fabrics loom.Spliced cutting motif fabric after having weaved, cloth cover has float, and float cut by shearing machine.The preparation method of spliced clipping and carving color-woven fabric of the present invention, to the specification, weave, size etc. of fabric also without strict restriction, a lot of splicing money all can consider that the method adopting this to invent realizes.

Accompanying drawing explanation

Fig. 1 is the present invention's spliced clipping and carving color-woven fabric legend one;

Fig. 2 is the present invention's spliced clipping and carving color-woven fabric legend two;

Fig. 3 is the present invention's spliced clipping and carving color-woven fabric legend three;

Fig. 4 is the present invention's spliced clipping and carving color-woven fabric legend four;

Fig. 5 is the present invention's spliced clipping and carving color-woven fabric legend five;

Fig. 6 is the present invention's spliced clipping and carving color-woven fabric legend six;

Fig. 7 is the present invention's spliced clipping and carving color-woven fabric legend seven;

Fig. 8 is the present invention's spliced clipping and carving color-woven fabric legend eight;

Fig. 9 is the present invention's spliced clipping and carving color-woven fabric legend nine;

Figure 10 is the present invention's spliced clipping and carving color-woven fabric legend ten;

Figure 11 is the present invention's spliced clipping and carving color-woven fabric legend 11;

Figure 12 is the present invention's spliced clipping and carving color-woven fabric legend 12;

Figure 13 is the design front view of the spliced clipping and carving color-woven fabric of embodiment 1;

Figure 14 organizes schematic diagram for the spliced clipping and carving color-woven fabric shown in Figure 13;

The plain weave that Figure 15 is the spliced clipping and carving color-woven fabric shown in Figure 13 and flotation line inweaves in the ratio alternative expression of 1:1, emersion organize schematic diagram;

The flotation line that Figure 16 is the spliced clipping and carving color-woven fabric shown in Figure 13 and plain weave in 1:1 ratio alternative expression emersion, inweave organize schematic diagram;

Figure 17 is the plain weave schematic diagram of the spliced clipping and carving color-woven fabric shown in Figure 13;

Figure 18 is the design front view of the spliced clipping and carving color-woven fabric of embodiment 2;

Figure 19 organizes schematic diagram for the spliced clipping and carving color-woven fabric shown in Figure 18;

Figure 20 is the plain weave schematic diagram of the spliced clipping and carving color-woven fabric shown in Figure 18;

What 1/3 twill that Figure 21 is the spliced clipping and carving color-woven fabric shown in Figure 18 and 3/1 twill were alternately arranged in 1:1 ratio two-sidedly organizes schematic diagram;

What 3/1 twill that Figure 22 is the spliced clipping and carving color-woven fabric shown in Figure 18 and 1/3 twill were alternately arranged in 1:1 ratio two-sidedly organizes schematic diagram;

Figure 23 in the spliced clipping and carving color-woven fabric shown in Figure 18 as shown in Figure 20,21 weave and flotation line inweave in the ratio alternative expression of 1:1, emersion organize schematic diagram;

The flotation line that Figure 24 is the spliced clipping and carving color-woven fabric shown in Figure 18 with as shown in Figure 20,21 weave in 1:1 ratio alternative expression emersion, inweave organize schematic diagram;

Figure 25 in the spliced clipping and carving color-woven fabric shown in Figure 18 as shown in Figure 20,22 weave and flotation line inweave in the ratio alternative expression of 1:1, emersion organize schematic diagram;

The flotation line that Figure 26 is the spliced clipping and carving color-woven fabric shown in Figure 18 with as shown in Figure 20,22 weave in 1:1 ratio alternative expression emersion, inweave organize schematic diagram.

Detailed description of the invention

For more easily understanding the present invention, below in conjunction with specific embodiment, technical solution of the present invention is elaborated.The present invention is given more typical embodiment in accompanying drawing.But the present invention can have many different connecting methods, is not limited to embodiment described herein.Oppositely, the object of these embodiments is provided to be make to understand more thoroughly comprehensively disclosure of the present invention.

According to the preparation method of spliced clipping and carving color-woven fabric provided by the present invention, first, one section that weft yams is replaced in proportion inweaves one section of emersion, weft yarn inweaves, the switch of emersion unified (as Fig. 1) or stagger (as Fig. 2,3), flotation line length consistent (as Fig. 1,2) or not etc. (as Fig. 3), secondly, the yarn of emersion need be cut on shearing machine.Inweave according to it, the rule of emersion and the change of tissue, mainly contain two class methods for designing:

(1) weft yarn in proportion alternative expression inweave, emersion, weft yarn inweaves, the dislocation of emersion unified or stagger, flotation line length is not unanimously or etc., warp-wise adopts one side weave, the warp-wise solid colour formed, the strip of broadwise color changeable and the splicing such as grid (as Fig. 4), grid and grid (as Fig. 5), rice grain pattern grid (as Fig. 6), checkering (as Fig. 7) flower pattern;

(2) weft yarn in proportion alternative expression inweave, emersion, weft yarn inweaves, the dislocation of emersion unified or stagger, flotation line length is not unanimously or etc., warp-wise adopts two-sided weave, the strip through broadwise color changeable of formation and the splicing such as grid (as Fig. 4), grid and grid (as Fig. 5), rice grain pattern grid (as Fig. 6), checkering (as Fig. 7,8,9,10,11,12) flower pattern;

The preparation method of spliced clipping and carving color-woven fabric of the present invention, there is no strict restriction to the specification, weave, size etc. of fabric, and a lot of splicing money all can consider that the method adopting this to invent realizes.

Embodiment 1

The spliced clipping and carving color-woven fabric of one in this example, formed by warp thread and weft yarns, warp-wise adopts one side weave, weft yarn in proportion alternative expression inweave, emersion, weft yarn inweaves, the dislocation of emersion unified or stagger, flotation line length unanimously or not etc., is not made up of some cell stripes grid pattern cycle arrangement.Now illustrate for the splicing (as Figure 13) of grid and grid.

With reference to Figure 13 and Figure 14, the spliced clipping and carving color-woven fabric flower type structure 100 of embodiment 1, comprise that dark yarn inweaves, the dark lattice part 110 of light color yarn emersion, light color yarn inweave, the shallow lattice part 130 of dark yarn emersion and the dislocation 120 of broadwise weave color.Dark lattice part 110 comprises two kinds of tissues, and deeply organize A through bar 1111, dark bottom 1112, dark latitude bar 1113 organizes B, shallow lattice part 130 comprises two kinds of tissues, shallowly organizes C through bar 1311, shallow bottom 1312, shallow latitude bar 1313 organizes D.As can be seen from organizing B, D, when yarn inweaves in dark lattice part 110, simultaneously at shallow lattice part 130 emersion, when dark lattice part 110 emersion, inweave in shallow lattice part 130 simultaneously, inweave, the dislocation 120 of emersion is unified, flotation line length is consistent.

Wherein, dark lattice part 110 changes shallow lattice part 130 at broadwise dislocation 120 place.Dark lattice part 110 all has one or more dark district 111 connected successively through broadwise, each dark district 111 has at least one dark unit 1110 and each dark unit 1110 had in the dark district 111 of multiple dark unit 1110 can repeat to arrange.Each dark unit 1110 have one dark in bar 1111, dark bottom 1112, dark latitude bar 1113.Shallow lattice part 130 all has one or more light district 131 connected successively through broadwise, each light district 131 has at least one light unit 1310 and each light unit 1310 had in the light district 131 of multiple light unit 1310 can repeat to arrange.Each light unit 1310 have one shallow through bar 1311, shallow bottom 1312, shallow latitude bar 1313.

Above-mentioned spliced clipping and carving color-woven fabric flower type structure 100, by the ingenious change of fabric tissue, in conjunction with the collocation of color, achieves the transformation from dark lattice part 110 to shallow lattice part 130.Seamless being merged that can realize flower pattern connects, soft, is connected firmly, can the various knotty problems that exist of the spliced pattern fabric of solution of high degree, thus improves the quality of spliced fabric, reduces unnecessary operation.

Be appreciated that flower type structure 100 can by various fabrics organization formation, if meet inweave, the principle of emersion and carry out changing at broadwise dislocation 120 place.

Be appreciated that dark lattice part 110 can be identical with the size of shallow lattice part 130, also can be different.

Be appreciated that dark lattice part 110 has at least one dark district 111, and the quantity in the dark district 111 that has of dark lattice part 110, size can be identical, also can be different; Shallow lattice part 130 has at least one light district 131, and the quantity in the light district 131 that has of shallow lattice part 130, size can be identical, also can be different.Further, the quantity in the light district 131 that the dark district 111 that dark lattice part 110 has has with shallow lattice part 130, size can be identical, also can be different.

Be appreciated that each dark district 111 has at least one dark unit 1110, and the quantity of the dark unit 1110 that has of each dark district 111, size can be identical, also can be different; Each light district 131 has at least one light unit 1310, and the quantity of the light unit 1310 that has of each light district 131, size can be identical, also can be different.Further, the quantity of the light unit 1310 that the dark unit 1110 that each dark district 111 has has with each light district 131, size can be identical, also can be different.

Be appreciated that each dark unit 1110 has deeply through bar 1111, dark bottom 1112, dark latitude bar 1113, its size can be identical, also can be different; Each light unit 1310 has that shallow its size can be identical through bar 1311, shallow bottom 1312, shallow latitude bar 1313, also can be different.Further, the dark shallow size through bar 1311, shallow bottom 1312, shallow latitude bar 1313 had through bar 1111, dark bottom 1112, dark latitude bar 1113 and each light unit 1310 that each dark unit 1110 has can be identical, also can difference.

Be appreciated that each tissue deeply through bar 1111, dark bottom 1112 can be identical with each shallow tissue through bar 1311, shallow bottom 1312, also can be different.

Being appreciated that each dark latitude bar 1113 inweaves with each shallow latitude bar 1313, the ratio of emersion can be 1:1, also can be 2:1,2:2 etc.

Be appreciated that each dark latitude bar 1113 inweaves with each shallow latitude bar 1313, the broadwise dislocation 120 of emersion can be unified, also can stagger.

With reference to Figure 15,16,17, in conjunction with Figure 14, concrete, dark latitude bar 1113 be organized as plain weave and flotation line inweaves in the ratio alternative expression of 1:1, emersion, shallow latitude bar 1313 be organized as flotation line and plain weave in 1:1 ratio alternative expression emersion, inweave, dark latitude bar 1113 and shallow latitude bar 1313 to achieve by the change organized in broadwise dislocation 120 inweave, the replacing of emersion.Deeply through bar 1111, dark bottom 1112, shallow through bar 1311, shallow bottom 1312 be organized as plain weave.

Concrete, in the present embodiment, broadwise is at dark latitude bar 1113 place and shallow latitude bar 1313 place, dark yarn and light color yarn are alternately arranged in the ratio of 1:1, dark latitude bar 1113 conjunctive tissue B, plain weave and flotation line form intertexture rule in the ratio of 1:1, make to define dark yarn at dark latitude bar 1113 place and inweave, the cloth cover effect of light color yarn emersion; Shallow latitude bar 1313 conjunctive tissue D, flotation line and plain weave form intertexture rule in the ratio of 1:1, make to define dark yarn emersion, the cloth cover effect that light color yarn inweaves at shallow latitude bar 1313 place.Warp-wise is dark through bar 1111 and 1112 places, dark bottom, and dark yarn and bottom yarn are alternately arranged by a certain percentage, conjunctive tissue A, make to define one section of dark color at warp-wise, the vertical bar effect of one section of background color; Shallow through bar 1311 and shallow bottom 1312 place, light color yarn and bottom yarn are alternately arranged by a certain percentage, conjunctive tissue C, make to define one section of light color at warp-wise, the vertical bar effect of one section of background color.Combine through broadwise and see, namely form dark unit 1110 and light unit 1310.Dark unit 1110 is through the reciprocal arrangement of broadwise by certain number of times, and form dark district 111, dark district 111, through the reciprocal arrangement of broadwise by certain number of times, forms dark lattice part 110; Light color unit 1310 is through the reciprocal arrangement of broadwise by certain number of times, and form light district 131, light district 131, through the reciprocal arrangement of broadwise by certain number of times, forms shallow lattice part 130.Dark lattice part 110 and shallow lattice part 130, by the tissue change at broadwise dislocation 120 place, form this spliced clipping and carving color-woven fabric flower type structure 100.

Continue with reference to Figure 13 and Figure 14, dark lattice part 110 only comprises a dark district 111, and the dark unit 1110 in each dark district 111 repeats to arrange number of times; Shallow lattice part 130 only comprises a light district 131, and the light unit 1310 in each light district 131 repeats to arrange number of times.

More specifically, dark district 111 comprises the identical dark unit 1110 of 5 of warp-wise repeated arrangement, the set repeated arrangement that the dark unit 1110 that 5 of broadwise repeated arrangement are thus identical is formed; Light color district 131 comprises the identical light unit 1310 of 5 of warp-wise repeated arrangement, the set repeated arrangement that the light unit 1310 that 5 of broadwise repeated arrangement are thus identical is formed.The dark shallow width through bar 1311, shallow bottom 1312, shallow latitude bar 1313 through bar 1111, dark bottom 1112, dark latitude bar 1113 and each light unit 1310 of each dark unit 1110 is as follows:

Deeply formed by 8 dark plain weaves through bar 1111 in dark unit 1110, dark bottom 1112 is formed by the plain weave of warp-wise 28 foundation look, broadwise 24 foundation look, dark latitude bar 1113 by dark with light color and plain weave and flotation line weave formed for reciprocal 6 times in the ratio of 1:1.

Shallowly in light color unit 1310 to be formed by 8 light plain weaves through bar 1311, shallow bottom 1312 is formed by the plain weave of warp-wise 28 foundation look, broadwise 24 foundation look, and shallow latitude bar 1313 is formed for reciprocal 6 times in the ratio of 1:1 by light color and dark and flotation line and plain weave weave.

The length general control of every section of flotation line is between 0.5 ~ 8 inch, preferably 1 ~ 5 inch, concrete, and in the present embodiment, the length of every section of flotation line is 1.8 inches.

Further, this spliced pattern can be made into by tatting weave, does not need extra equipment.Cloth cloth cover after casting off has float, need cut float on shearing machine.

Embodiment 2

The connecting method of embodiment 2 is compared with the connecting method of embodiment 1, something in common is: be all formed by warp thread and weft yarns, weft yarn in proportion alternative expression inweave, emersion, weft yarn inweaves, the dislocation of emersion unified or stagger, flotation line length unanimously or not etc., is not made up of some cell stripes grid pattern cycle arrangement.Difference is: embodiment 1 warp-wise adopts one side weave, and embodiment 2 warp-wise adopts two-sided weave.Now illustrate for the splicing of checkering (as Figure 18).

With reference to Figure 18 and Figure 19, the spliced clipping and carving color-woven fabric flower type structure 200 of embodiment 2, comprise that broadwise light color yarn inweaves, dark yarn emersion, warp-wise light color yarn manifests, the shallow lattice part 210 and 250 that dark yarn is hidden, the dark yarn of broadwise inweaves, light color yarn emersion, and the dark yarn of warp-wise manifests, the dislocation 220 of the dark lattice part 230 and 240 that light color yarn is hidden and broadwise weave color and the dislocation 260 of warp-wise weave color.Shallow lattice part 210 comprises three kinds of tissues, shallowly organizes B through bar 2111, A is organized in shallow bottom 2112, shallow latitude bar 2113 organizes E; Shallow lattice part 250 comprises three kinds of tissues, shallowly organizes J through bar 2511, K is organized in shallow bottom 2512, shallow latitude bar 2513 organizes N; Dark lattice part 230 comprises three kinds of tissues, deeply organizes D through bar 2311, C is organized in dark bottom 2312, dark latitude bar 2313 organizes F; Dark lattice part 240 comprises three kinds of tissues, deeply organizes H through bar 2411, G is organized in dark bottom 2412, dark latitude bar 2413 organizes M.In broadwise, as can be seen from organizing E, F, when yarn inweaves in shallow lattice part 210, simultaneously at dark lattice part 230 emersion; As can be seen from organizing M, N, when yarn inweaves in dark lattice part 240, simultaneously at shallow lattice part 250 emersion.At warp-wise, as can be seen from organizing B, H, when dark yarn is hidden in shallow lattice part 210, light color yarn is when shallow lattice part 210 manifests, and dark yarn manifests in dark lattice part 240 simultaneously, and light color yarn is hidden in dark lattice part 240; As can be seen from organizing D, J, when light color yarn is hidden in dark lattice part 230, when dark yarn divides 230 to manifest in deep, light color yarn manifests in shallow lattice part 250 simultaneously, and dark yarn is hidden in shallow lattice part 250.Broadwise inweaves, the dislocation of emersion 220 unified, and flotation line length is consistent, and warp-wise manifests, hiding dislocation 260 is unified.

Wherein, in broadwise, shallow lattice part 210 changes dark lattice part 230 at broadwise dislocation 220 place, and dark lattice part 240 changes shallow lattice part 250 at broadwise dislocation 220 place; At warp-wise, shallow lattice part 210 changes dark lattice part 240 at warp-wise dislocation 260 place, and dark lattice part 230 changes shallow lattice part 250 at warp-wise dislocation 260 place.Shallow lattice part 210 all has one or more light district 211 connected successively through broadwise, each light district 211 has at least one light unit 2110 and each light unit 2110 had in the light district 211 of multiple light unit 2110 can repeat to arrange.Each light unit 2110 have one shallow through bar 2111, shallow bottom 2112, shallow latitude bar 2113.Dark lattice part 230 all has one or more dark district 231 connected successively through broadwise, each dark district 231 has at least one dark unit 2310 and each dark unit 2310 had in the dark district 231 of multiple dark unit 2310 can repeat to arrange.Each dark unit 2310 have one dark in bar 2311, dark bottom 2312, dark latitude bar 2313.Dark lattice part 240 all has one or more dark district 241 connected successively through broadwise, each dark district 241 has at least one dark unit 2410 and each dark unit 2410 had in the dark district 241 of multiple dark unit 2410 can repeat to arrange.Each dark unit 2410 have one dark in bar 2411, dark bottom 2412, dark latitude bar 2413.Shallow lattice part 250 all has one or more light district 251 connected successively through broadwise, each light district 251 has at least one light unit 2510 and each light unit 2510 had in the light district 251 of multiple light unit 2510 can repeat to arrange.Each light unit 2510 have one shallow through bar 2511, shallow bottom 2512, shallow latitude bar 2513.

Be appreciated that flower type structure 200 can by various fabrics organization formation, if meet inweave, the principle of emersion and carry out changing at broadwise dislocation 220 place and warp-wise dislocation 260 place.

Be appreciated that the size of shallow lattice part 210, dark lattice part 230, dark lattice part 240, shallow lattice part 250 can be identical, also can be different.

Be appreciated that shallow lattice part 210 has at least one light district 211, and the quantity in the light district 211 that has of shallow lattice part 210, size can be identical, also can be different; Dark lattice part 230 has at least one dark district 231, and the quantity in the dark district 231 that has of dark lattice part 230, size can be identical, also can be different; Dark lattice part 240 has at least one dark district 241, and the quantity in the dark district 241 that has of dark lattice part 240, size can be identical, also can be different; Shallow lattice part 250 has at least one light district 251, and the quantity in the light district 251 that has of shallow lattice part 250, size can be identical, also can be different.Further, the quantity in the light district 251 that the dark district 241 that the dark district 231 that the light district 211 that shallow lattice part 210 has, dark lattice part 230 have, dark lattice part 240 have, shallow lattice part 250 have, size can be identical, also can be different.

Be appreciated that each light district 211 has at least one light unit 2110, and the quantity of the light unit 2110 that has of each light district 211, size can be identical, also can be different; Each dark district 231 has at least one dark unit 2310, and the quantity of the dark unit 2310 that has of each dark district 231, size can be identical, also can be different; Each dark district 241 has at least one dark unit 2410, and the quantity of the dark unit 2410 that has of each dark district 241, size can be identical, also can be different; Each light district 251 has at least one light unit 2510, and the quantity of the light unit 2510 that has of each light district 251, size can be identical, also can be different.And, the quantity of the light unit 2510 that the dark unit 2410 that the dark unit 2310 that the light unit 2110 that each light district 211 has, each dark district 231 have, each dark district 241 have, each light district 251 have, size can be identical, also can be different.

Be appreciated that each light unit 2110 has that shallow its size can be identical through bar 2111, shallow bottom 2112, shallow latitude bar 2113, also can be different; Each dark unit 2310 has deeply through bar 2311, dark bottom 2312, dark latitude bar 2313, and its size can be identical, also can be different; Each dark unit 2410 has deeply through bar 2411, dark bottom 2412, dark latitude bar 2413, and its size can be identical, also can be different; Each light unit 2510 has that shallow its size can be identical through bar 2511, shallow bottom 2512, shallow latitude bar 2513, also can be different.And, the shallow dark size through bar 2411 had through bar 2111 and each dark unit 2410 that each light unit 2110 has is corresponding identical, and the dark shallow size through bar 2511 had through bar 2311 and each light unit 2510 that each dark unit 2310 has is corresponding identical.The shallow latitude bar 2113 that each light unit 2110 has is corresponding identical with the size of the dark latitude bar 2313 that each dark unit 2310 has, and the size of the shallow latitude bar 2513 that the dark latitude bar 2413 that each dark unit 2410 has has with each light unit 2510 is corresponding identical.The size of the shallow bottom 2512 that the dark bottom 2412 that the dark bottom 2312 that the shallow bottom 2112 that each light unit 2110 has, each dark unit 2310 have, each dark unit 2410 have, each light unit 2510 have can be identical, also can be different.And, the shallow dark size through bar 2411 had through bar 2111 or each dark unit 2410 that each light unit 2110 has, the dark shallow size through bar 2511 had through bar 2311 or each light unit 2510 that each dark unit 2310 has, the size of the shallow latitude bar 2113 that each light unit 2110 has or the dark latitude bar 2313 that each dark unit 2310 has, the size of the dark latitude bar 2413 that each dark unit 2410 has or the shallow latitude bar 2513 that each light unit 2510 has, the shallow bottom 2112 that each light unit 2110 has, the dark bottom 2312 that each dark unit 2310 has, the dark bottom 2412 that each dark unit 2410 has, the size of the shallow bottom 2512 that each light unit 2510 has can be identical, also can be different.

Be appreciated that each shallow bottom 2112, dark bottom 2312, the tissue of bottom 2412, shallow bottom 2512 can be identical deeply, also can be different; Each shallow through bar 2111, deeply through bar 2311, dark through bar 2411, the shallow tissue through bar 2511 can be identical, also can be different.

Be appreciated that each shallow latitude bar 2113, dark latitude bar 2313, dark latitude bar 2413, shallow latitude bar 2513 inweave, the ratio of emersion can be 1:1, also can 2:1,2:2 etc.

Be appreciated that each shallow latitude bar 2113, dark latitude bar 2313, dark latitude bar 2413, shallow latitude bar 2513 inweave, the broadwise dislocation 220 of emersion can be unified, also can stagger; Each shallow through bar 2111, deeply through bar 2311, deeply can unify through bar 2411, the shallow warp-wise dislocation 260 manifesting, hide through bar 2511, also can stagger.

With reference to Figure 20-24, in conjunction with Figure 19, concrete, shallow latitude bar 2113 and dark latitude bar 2413 be organized as plain weave and flotation line inweaves in the ratio alternative expression of 1:1, emersion, dark latitude bar 2313 and shallow latitude bar 2513 be organized as flotation line and plain weave in 1:1 ratio alternative expression emersion, inweave.Shallow latitude bar 2113 and dark latitude bar 2313, dark latitude bar 2413 and shallow latitude bar 2513 to be achieved by the change of tissue in broadwise dislocation 220 inweave, the replacing of emersion.Shallow through bar 2111 be organized as deeply through bar 2311 the two-sided tissue that 1/3 twill is alternately arranged in 1:1 ratio with 3/1 twill, deeply through bar 2411 and be shallowly organized as through bar 2511 the two-sided tissue that 3/1 twill and 1/3 twill be alternately arranged in 1:1 ratio.Shallow through bar 2111 and deeply through bar 2411, deeply through bar 2311 and shallow to be achieved by the change of tissue in warp-wise dislocation 260 through bar 2511 manifest, replacing of hiding.Shallow bottom 2112, dark bottom 2312, dark bottom 2412, shallow bottom 2512 be organized as plain weave.

Concrete, in the present embodiment, broadwise is at shallow latitude bar 2113 place and dark latitude bar 2313 place, light color yarn and dark yarn are alternately arranged in the ratio of 1:1, shallow latitude bar 2113 conjunctive tissue E, as Figure 20, weave shown in 21 and flotation line form intertexture rule in the ratio of 1:1, make to define light color yarn at shallow latitude bar 2113 place to inweave, the cloth cover effect of dark yarn emersion, dark latitude bar 2313 conjunctive tissue F, flotation line with as Figure 20, weave shown in 21 forms intertexture rule in the ratio of 1:1, make to define light color yarn emersion at dark latitude bar 2313 place, the cloth cover effect that dark yarn inweaves, at dark latitude bar 2413 place and shallow latitude bar 2513 place, dark yarn and light color yarn are alternately arranged in the ratio of 1:1, dark latitude bar 2413 conjunctive tissue M, as shown in Figure 20,22, weave and flotation line form intertexture rule in the ratio of 1:1, make to define dark yarn at dark latitude bar 2413 place to inweave, the cloth cover effect of light color yarn emersion, shallow latitude bar 2513 conjunctive tissue N, flotation line forms intertexture rule with weave as shown in Figure 20,22 in the ratio of 1:1, make to define dark yarn emersion, the cloth cover effect that light color yarn inweaves at shallow latitude bar 2513 place.Warp-wise shallow through bar 2111 place and dark in bar 2411 place, dark yarn and light color yarn are alternately arranged in the ratio of 1:1, shallow through bar 2111 conjunctive tissue B, make to define dark yarn through bar 2111 place hide shallow, the cloth cover effect that light color yarn manifests, dark in bar 2411 conjunctive tissue H, make to manifest deeply defining dark yarn through bar 2411 place, the cloth cover effect that light color yarn is hidden; Warp-wise is deeply through bar 2311 place and shallow through bar 2511 place, light color yarn and dark yarn are alternately arranged in the ratio of 1:1, dark in bar 2311 conjunctive tissue D, make to define light color yarn through bar 2311 place hide dark, the cloth cover effect that dark yarn manifests, shallow through bar 2511 conjunctive tissue J, make to define light color yarn through bar 2511 place manifest shallow, the cloth cover effect that dark yarn is hidden.Through broadwise in shallow bottom 2112, dark bottom 2312, dark bottom 2412, shallow bottom 2512 place, bottom solid color respectively conjunctive tissue A, C, G, K forms the solid color effect of bottom.In conjunction with seeing, namely form light unit 2110, dark unit 2310, light unit 2410, dark unit 2510.Light color unit 2110 is through the reciprocal arrangement of broadwise by certain number of times, and form light district 211, light district 211, through the reciprocal arrangement of broadwise by certain number of times, forms shallow lattice part 210; Dark unit 2310 is through the reciprocal arrangement of broadwise by certain number of times, and form dark district 231, dark district 231, through the reciprocal arrangement of broadwise by certain number of times, forms dark lattice part 230; Dark unit 2410 is through the reciprocal arrangement of broadwise by certain number of times, and form dark district 241, dark district 241, through the reciprocal arrangement of broadwise by certain number of times, forms dark lattice part 240; Light color unit 2510 is through the reciprocal arrangement of broadwise by certain number of times, and form light district 251, light district 251, through the reciprocal arrangement of broadwise by certain number of times, forms shallow lattice part 250.Shallow lattice part 210 and dark lattice part 230, dark lattice part 240 and shallow lattice part 250 are at the tissue change of broadwise by dislocation 220 place, shallow lattice part 210 at the tissue change of warp-wise by dislocation 260 place, forms this spliced clipping and carving color-woven fabric flower type structure 200 with shallow lattice part 250 with dark lattice part 240, dark lattice part 230.

Continue with reference to Figure 18 and Figure 19, shallow lattice part 210 only comprises a light district 211, and the light unit 2110 in each light district 211 repeats to arrange number of times; Dark lattice part 230 only comprises a dark district 231, and the dark unit 2310 in each dark district 231 repeats to arrange number of times; Dark lattice part 240 only comprises a dark district 241, and the dark unit 2410 in each dark district 241 repeats to arrange number of times; Shallow lattice part 250 only comprises a light district 251, and the light unit 2510 in each light district 251 repeats to arrange number of times.

More specifically, light district 211 comprises the identical light unit 2110 of 5 of warp-wise repeated arrangement, the set repeated arrangement that the light unit 2110 that 5 of broadwise repeated arrangement are thus identical is formed 5 times; Dark district 231 comprises the identical dark unit 2310 of 5 of warp-wise repeated arrangement, the set repeated arrangement that the dark unit 2310 that 5 of broadwise repeated arrangement are thus identical is formed 5 times; Dark district 241 comprises the identical dark unit 2410 of 5 of warp-wise repeated arrangement, the set repeated arrangement that the dark unit 2410 that 5 of broadwise repeated arrangement are thus identical is formed 5 times; Light color district 251 comprises the identical light unit 2510 of 5 of warp-wise repeated arrangement, the set repeated arrangement that the light unit 2510 that 5 of broadwise repeated arrangement are thus identical is formed 5 times.Each light unit 2110 shallow through bar 2111, shallow bottom 2112, shallow latitude bar 2113, dark unit 230 dark in bar 2311, dark bottom 2312, dark latitude bar 2313, dark unit 240 dark in bar 2411, dark bottom 2412, dark latitude bar 2413, the shallow width through bar 2511, shallow bottom 2512, shallow latitude bar 2513 of light unit 2510 is as follows:

Shallowly in light color unit 211 to be formed in conjunction with the weave in Figure 21 in reciprocal the arrangement for 6 times of 1:1 ratio with light color by dark through bar 2111, shallow bottom 2112 is formed by the plain weave of warp-wise 24 foundation look, broadwise 24 foundation look, and shallow latitude bar 2113 is formed in conjunction with the weave in Figure 23 in reciprocal the arrangement for 6 times of the ratio of 1:1 with dark by light color.

Deeply formed in conjunction with the weave in Figure 21 in reciprocal the arrangement for 6 times of 1:1 ratio with dark by light color through bar 2311 in dark unit 231, dark bottom 2312 is formed by the plain weave of warp-wise 24 foundation look, broadwise 24 foundation look, and dark latitude bar 2313 is formed in conjunction with the weave in Figure 24 in reciprocal the arrangement for 6 times of the ratio of 1:1 with dark by light color.

Deeply formed in conjunction with the weave in Figure 22 in reciprocal the arrangement for 6 times of 1:1 ratio with light color by dark through bar 2411 in dark unit 241, dark bottom 2412 is formed by the plain weave of warp-wise 24 foundation look, broadwise 24 foundation look, and dark latitude bar 2413 is formed in conjunction with the weave in Figure 25 in reciprocal the arrangement for 6 times of the ratio of 1:1 with light color by dark.

Shallowly in light color unit 251 to be formed in conjunction with the weave in Figure 22 in reciprocal the arrangement for 6 times of 1:1 ratio with dark by light color through bar 2511, dark bottom 2512 is formed by the plain weave of warp-wise 24 foundation look, broadwise 24 foundation look, and shallow latitude bar 2513 is formed in conjunction with the weave in Figure 26 in reciprocal the arrangement for 6 times of the ratio of 1:1 with light color by dark.

Concrete, in the present embodiment, the length of every section of flotation line is 1.8 inches.

From above-mentioned explanation and embodiment, the method for designing of spliced clipping and carving color-woven fabric provided by the present invention, inweave by adopting the assorted yarn alternative expression of broadwise, emersion, weft yarn inweaves, the dislocation of emersion is unified or stagger, flotation line length is not unanimously or etc., coordinate the single or double weave of warp-wise, flower pattern can be formed clear attractive in appearance, Fancy Yarns grips firmly, respond well spliced fabric, and do not need extra equipment to reach, with short production cycle, simple to operate, fabric utilization rate is high, cloth cover is smooth, soft, solve a difficult problem for traditional fabrics spliced together technology, raise the new page of fabrics spliced together technology.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (6)

1. the preparation method of a spliced clipping and carving color-woven fabric, it is characterized in that, described spliced clipping and carving color-woven fabric comprises warp thread and weft yarn, several color regions are provided with along weft direction described in every bar, described in every bar, weft yarn is made up of the yarn corresponding with described color region, the weaving step of weft yarn is: the yarn corresponding with described color region inweaves, all the other yarn emersions.

2. the preparation method of spliced clipping and carving color-woven fabric according to claim 1, is characterized in that, weaving of described color region takes change filling density to weave.

3. the preparation method of spliced clipping and carving color-woven fabric according to claim 1, it is characterized in that, described in every bar, weft yarn is made up of the yarn of 2-4 number of colors.

4. the preparation method of the spliced clipping and carving color-woven fabric according to any one of claim 1-3, is characterized in that, described yarn emersion is of a size of 0.5-8 inch.

5. the preparation method of spliced clipping and carving color-woven fabric according to claim 4, is characterized in that, described yarn emersion is of a size of 1-5 inch.

6. the spliced clipping and carving color-woven fabric that the preparation method described in any one of claim 1-5 prepares.