CN213896143U - Weft heavy-strip woven fabric - Google Patents

Abstract

The utility model relates to the technical field of cloth, and a heavy strip shuttle of latitude is weaved, including the cloth body, it the cloth body is woven by warp and woof and is formed, the warp is twenty four a circulation, the woof is a thirty circulation, warp and woof are the compound silk of washing the polyamide fibre that forms of dacron and the compound twisting of polyamide fibre. The polyester-polyamide composite yarn formed by twisting polyester and polyamide in a composite mode belongs to high-shrinkage fibers, and has the advantages of water absorption, air permeability, dryness, comfort, bacteria resistance and decontamination, wherein the proportion of the polyamide can reach 30%, the fibers are woven into a fabric and then subjected to printing and dyeing pretreatment, dyeing and sizing, the performance is obviously changed, a very strong velvet effect can be naturally generated, sanding is not needed, the color fastness is obviously improved and improved, the wear resistance is good, the fabric surface is stiff and smooth, the polyester-polyamide composite yarn has development potential in multiple fields of clothes, and meanwhile, through the organization mode of weft-backed change, the increase of the thickness of a fabric body can be ensured without relaxation, and the polyester-polyamide composite yarn is stiff and smooth.

Description

Weft heavy-strip woven fabric

Technical Field

The utility model relates to the technical field of cloth, more specifically say, relate to a heavy strip shuttle of latitude is weaved.

Background

The woven fabric is a fabric woven by vertically interlacing yarns in two directions of warp and weft in a picking mode by a weaving machine, wherein longitudinal yarns are called warp yarns, and transverse yarns are called weft yarns.

The shuttle-woven fabric is widely applied to various high-grade clothes, the shuttle-woven clothes have great difference in processing flow and technological means due to the difference of factors such as style, process, style and the like, but after the existing shuttle-woven fabric is subjected to printing and dyeing pretreatment, dyeing and sizing, manual sanding is needed for generating a velvet effect, so that not only is labor increased, but also the fabric is loose and not stiff.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the problem that exists among the prior art, the utility model aims to provide a heavy strip shuttle of latitude is weaved has solved current shuttle and has weaved through printing and dyeing pretreatment, dyeing and design back, in order to let it produce the fine hair and feel the effect, needs artifical sanding, and the labour that not only increases still can make the surface fabric lax not stiff and smooth problem.

2. Technical scheme

In order to solve the above problem, the utility model adopts the following technical scheme:

a weft heavy-strip woven fabric comprises a fabric body, wherein the fabric body is woven by warp yarns and weft yarns, the warp yarns are twenty-four cycles, the weft yarns are thirty-one cycles, the warp yarns and the weft yarns are polyester-nylon composite yarns formed by composite twisting of polyester and nylon, warp tissue points and weft tissue points are arranged on the surface of the fabric body, the warp yarns at the warp tissue points are positioned at the top of the weft yarns, and the weft yarns at the weft tissue points) are positioned at the top of the warp yarns;

the weave structure of the cloth body is a weft double-change weave, the cloth body comprises twelve first weaves and six second weaves, twelve first weaves are distributed in a rectangular array mode of four transverse groups and three vertical groups, and six second weaves are arranged from top to bottom and are respectively connected with the first weave on the rightmost side.

Preferably, the weft yarns in the first weave include a first course, a second course, a third course, a fourth course, a fifth course, a sixth course, a seventh course, an eighth course, a ninth course and a tenth course, and the warp yarns in the first weave include a first wale, a second wale, a third wale, a fourth wale and a fifth wale.

Preferably, the weft yarns in the second weave comprise a horizontal line A, a horizontal line B, a horizontal line C, a horizontal line D, a horizontal line E and a horizontal line F, and the warp yarns in the second weave comprise a vertical line A, a vertical line B, a vertical line C and a vertical line D.

Preferably, the first row of weave structures sequentially is: weft organization points, warp organization points and weft organization points; the second horizontal row organization structure is as follows in sequence: warp tissue points, weft tissue points, warp tissue points; the third horizontal row organizational structure is as follows in sequence: warp texture points, weft texture points and weft texture points; the fourth horizontal organization structure is as follows in sequence: weft tissue points, warp tissue points; the fifth horizontal organization structure is as follows in sequence: weft organization points, warp organization points, weft organization points and weft organization points; the sixth horizontal row structure is as follows in sequence: warp tissue points, weft tissue points, warp tissue points; the seventh row organization structure is as follows in sequence: weft organization points, weft organization points and warp organization points; the eighth horizontal organization structure is as follows in sequence: warp tissue points, warp tissue points and weft tissue points; the ninth horizontal row organizational structure is as follows in sequence: weft organization points, warp organization points, weft organization points and weft organization points; the tenth row of organizational structure is in order: warp tissue points, weft tissue points, warp tissue points.

Preferably, the a-column organization structure sequentially comprises: weft tissue points, warp tissue points; the vertical arrangement organization structure of B is as follows: warp tissue points, weft tissue points and weft tissue points; the A column and the C column have the same organization structure, and the B column and the D column have the same organization structure.

Preferably, the weight percentages of the terylene and the chinlon are respectively 70 percent and 30 percent.

Preferably, the gram weight of the cloth body is 350 g/square meter, and the width of the cloth body is 145 cm.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

the polyester-polyamide composite yarn formed by twisting polyester and polyamide in a composite mode belongs to high-shrinkage fibers, and has the advantages of water absorption, air permeability, dryness, comfort, bacteria resistance and decontamination, wherein the proportion of the polyamide can reach 30%, the fibers are woven into a fabric and then subjected to printing and dyeing pretreatment, dyeing and sizing, the performance is obviously changed, a very strong velvet effect can be naturally generated, sanding is not needed, the color fastness is obviously improved and improved, the wear resistance is good, the fabric surface is stiff and smooth, the polyester-polyamide composite yarn has development potential in multiple fields of clothes, and meanwhile, through the organization mode of weft-backed change, the increase of the thickness of a fabric body can be ensured without relaxation, and the polyester-polyamide composite yarn is stiff and smooth.

Drawings

FIG. 1 is a schematic view of the organization structure of the present invention;

fig. 2 is a schematic diagram of the weaving of the present invention;

FIG. 3 is an exploded view of the organizational structure of FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of the first tissue of FIG. 3 according to the present invention;

fig. 5 is an enlarged view of the second tissue of fig. 3 according to the present invention.

The reference numbers in the figures illustrate:

1. a cloth body; 11. warp yarns; 12. a weft yarn; 13. a warp tissue point; 14. weft organization points; 2. a first tissue; 21. a first course; 22. a second course; 23. a third course; 24. a fourth course; 25. A fifth row; 26. a sixth course; 27. a seventh course; 28. an eighth row; 29. a ninth course; 30. a tenth row; 211. a first vertical column; 222. a second vertical column; 233. a third vertical column; 244. a fourth vertical column; 255. a fifth vertical column; 3. a second tissue; 31. a, horizontal arrangement; 32. b, horizontal arrangement; 33. c, horizontal arrangement; 34. d, horizontal arrangement; 35. e, horizontal arrangement; 36. f, horizontal arrangement; 311. a is arranged vertically; 322. b, vertical arrangement; 333. c, vertical arrangement; 344. and D is vertical.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "sleeved/connected", "connected", and the like are to be understood in a broad sense, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, a weft heavy-stripe woven fabric comprises a fabric body 1, wherein the fabric body 1 is woven by warp yarns 11 and weft yarns 12, the warp yarns 11 are twenty-four cycles, the weft yarns 12 are thirty-one cycles, the warp yarns 11 and the weft yarns 12 are polyester-nylon composite yarns formed by composite twisting of polyester and nylon, warp tissue points 13 and weft tissue points 14 are arranged on the surface of the fabric body 1, the warp yarns 11 at the warp tissue points 13 are positioned at the tops of the weft yarns 12, and the weft yarns 12 at the weft tissue points 14 are positioned at the tops of the warp yarns 11;

the weave structure of the cloth body 1 is a weft double-change weave, the cloth body 1 comprises twelve first weaves 2 and six second weaves 3, the twelve first weaves 2 are distributed in a rectangular array mode of four transverse groups and three vertical groups, and the six second weaves 3 are arranged from top to bottom and are respectively connected with the rightmost first weave 2.

Specifically, the weft yarns 12 in the first weave 2 include a first course 21, a second course 22, a third course 23, a fourth course 24, a fifth course 25, a sixth course 26, a seventh course 27, an eighth course 28, a ninth course 29, and a tenth course 30, and the warp yarns 11 in the first weave 2 include a first wale 211, a second wale 222, a third wale 233, a fourth wale 244, and a fifth wale 255.

Specifically, weft yarn 12 in second weave 3 includes a course 31, a course 32, a course 33, a course 34, a course 35, and a course 36, and warp yarn 11 in second weave 3 includes a wale 311, a course 322, a course 333, and a course 344.

Specifically, the first row 21 has the following organization structure: weft organization points 14, warp organization points 13 and weft organization points 14; the second row 22 has the following organization structure: warp tissue points 13, weft tissue points 14 and warp tissue points 13; the third row 23 has the following organization structure: warp texture points 13, weft texture points 14 and weft texture points 14; the fourth row 24 of the weave structure is in turn: weft tissue points 14, warp tissue points 13; the fifth row 25 of the organizational structure is in order: weft tissue points 14, warp tissue points 13, weft tissue points 14 and weft tissue points 14; the sixth row 26 sequentially comprises: warp tissue points 13, weft tissue points 14, warp tissue points 13 and warp tissue points 13; the seventh row 27 of the organizational structure is in order: weft tissue points 14, warp tissue points 13; the eighth row 28 of microstructures is in order: warp tissue points 13, weft tissue points 14; the ninth row 29 has the following organization structure: weft tissue points 14, warp tissue points 13, weft tissue points 14 and weft tissue points 14; the tenth row 30 of the organizational structure is in order: warp tissue points 13, weft tissue points 14, warp tissue points 13 and warp tissue points 13.

Specifically, the organization structure of the column a 311 is as follows: weft tissue points 14, warp tissue points 13 and warp tissue points 13; the organization structure of the B column 322 is as follows: warp tissue points 13, weft tissue points 14 and weft tissue points 14; the organization structure of the A column 311 is the same as that of the C column 333, and the organization structure of the B column 322 is the same as that of the D column 344.

Specifically, the weight percentages of the terylene and the chinlon are respectively 70 percent and 30 percent.

Specifically, the weight of the cloth body 1 is 350 g/m, and the width of the cloth body 1 is 145 cm.

In summary, the following steps: the polyester-polyamide composite yarn formed by twisting polyester and polyamide in a composite mode belongs to high-shrinkage fibers, and has the advantages of water absorption, air permeability, dryness, comfort, bacteria resistance and decontamination, wherein the proportion of the polyamide can reach 30%, the fibers are woven into fabric and then subjected to printing and dyeing pretreatment, dyeing and sizing, the performance is obviously changed, a very strong velvet effect can be naturally generated, sanding is not needed, the color fastness is obviously improved and improved, the wear resistance is good, the fabric surface is stiff and smooth, the polyester-polyamide composite yarn has development potential in multiple fields of clothes, and meanwhile, through the organization mode of weft-backed change, the thickness of the fabric body 1 can be increased without loosening, and the polyester-polyamide composite yarn is stiff and smooth. The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the technical scope of the present invention by replacing or changing the technical solution and the improvement concept of the present invention with equivalents and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides a heavy strip shuttle of latitude weaves, includes cloth body (1), its characterized in that: the cloth body (1) is formed by weaving warp yarns (11) and weft yarns (12), the warp yarns (11) are twenty-four-cycle, the weft yarns (12) are thirty-one cycle, the warp yarns (11) and the weft yarns (12) are polyester-nylon composite yarns formed by compounding and twisting terylene and nylon, warp tissue points (13) and weft tissue points (14) are arranged on the surface of the cloth body (1), the warp yarns (11) at the warp tissue points (13) are positioned at the top of the weft yarns (12), and the weft yarns (12) at the weft tissue points (14) are positioned at the top of the warp yarns (11);

the weave structure of cloth body (1) is the two-fold change tissue in latitude, cloth body (1) includes twelve first tissue (2) and six second tissue (3), twelve first tissue (2) distribute with the rectangle array mode of horizontal four groups, vertical three groups, six second tissue (3) are from last to arranging down and are connected with rightmost first tissue (2) respectively.

2. A weft heavy-thread woven fabric according to claim 1, wherein: weft yarns (12) in the first weave (2) comprise a first transverse row (21), a second transverse row (22), a third transverse row (23), a fourth transverse row (24), a fifth transverse row (25), a sixth transverse row (26), a seventh transverse row (27), an eighth transverse row (28), a ninth transverse row (29) and a tenth transverse row (30), and warp yarns (11) in the first weave (2) comprise a first vertical row (211), a second vertical row (222), a third vertical row (233), a fourth vertical row (244) and a fifth vertical row (255).

3. A weft heavy-thread woven fabric according to claim 1, wherein: the weft (12) in the second weave (3) comprises an A transverse row (31), a B transverse row (32), a C transverse row (33), a D transverse row (34), an E transverse row (35) and an F transverse row (36), and the warp (11) in the second weave (3) comprises an A vertical row (311), a B vertical row (322), a C vertical row (333) and a D vertical row (344).

4. A weft heavy-thread woven fabric according to claim 2, wherein: the first row (21) of the organizational structure is as follows in sequence: weft tissue points (14), warp tissue points (13) and weft tissue points (14); the organization structure of the second row (22) is as follows in sequence: the warp structure comprises warp structure points (13), weft structure points (14) and warp structure points (13); the organization structure of the third row (23) is as follows in sequence: warp tissue points (13), weft tissue points (14) and weft tissue points (14); the fourth row (24) of organizational structures is in turn: weft tissue points (14), warp tissue points (13) and warp tissue points (13); the fifth row (25) of organizational structures is in turn: weft organization points (14), warp organization points (13), weft organization points (14) and weft organization points (14); the sixth row (26) sequentially comprises the following structures: the warp structure comprises warp structure points (13), weft structure points (14), warp structure points (13) and warp structure points (13); the organization structure of the seventh row (27) is as follows in sequence: weft tissue points (14), weft tissue points (14) and warp tissue points (13); the organization structure of the eighth row (28) is as follows in sequence: the warp structure comprises warp structure points (13), warp structure points (13) and weft structure points (14); the ninth row (29) of organizational structures is sequentially as follows: weft tissue points (14), warp tissue points (13), weft tissue points (14) and weft tissue points (14); the organization structure of the tenth row (30) is as follows in sequence: warp tissue points (13), weft tissue points (14), warp tissue points (13) and warp tissue points (13).

5. A weft heavy-thread woven fabric according to claim 3, wherein: the organization structure of the A vertical column (311) is as follows in sequence: weft tissue points (14), warp tissue points (13) and warp tissue points (13); the organization structure of the B vertical column (322) is as follows: the warp structure points (13), the weft structure points (14) and the weft structure points (14); the A column (311) and the C column (333) have the same organization structure, and the B column (322) and the D column (344) have the same organization structure.

6. A weft heavy-thread woven fabric according to claim 1, wherein: the weight of the cloth body (1) is 350 g/square meter, and the width of the cloth body (1) is 145 cm.

Images