CN112899848A - Moisture-conducting and vapor-permeable woven belt and manufacturing method thereof - Google Patents
Moisture-conducting and vapor-permeable woven belt and manufacturing method thereof Download PDFInfo
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- CN112899848A CN112899848A CN202110073116.8A CN202110073116A CN112899848A CN 112899848 A CN112899848 A CN 112899848A CN 202110073116 A CN202110073116 A CN 202110073116A CN 112899848 A CN112899848 A CN 112899848A
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D1/00—Woven fabrics designed to make specified articles
- D03D1/0094—Belts
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D11/00—Double or multi-ply fabrics not otherwise provided for
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D13/00—Woven fabrics characterised by the special disposition of the warp or weft threads, e.g. with curved weft threads, with discontinuous warp threads, with diagonal warp or weft
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D15/00—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
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- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2331/00—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
- D10B2331/04—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyesters, e.g. polyethylene terephthalate [PET]
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Abstract
The invention discloses a moisture-conducting and vapor-permeable woven belt and a manufacturing method thereof, which consists of a left woven belt 1, a right woven belt 3 and discontinuous woven belt vapor-permeable holes 2, wherein the left woven belt 1 is connected with the right woven belt 3 through the discontinuous woven belt vapor-permeable holes 2. The moisture-conducting and vapor-permeable woven belt has the dual functions of moisture-conducting and vapor-permeable, so that the moisture-conducting and vapor-permeable woven belt is used for sports and fitness woven belts, the moisture adhesion effect between human skin and fabrics is not caused, the function and the sports performance of human sports are not influenced, and the added value of the fabrics is improved.
Description
Technical Field
The invention relates to a woven belt and a processing method thereof, in particular to a moisture-conducting and vapor-permeable woven belt and a manufacturing method thereof.
Background
At present, woven belts circulating in markets at home and abroad are common plain woven belts generally and have no special function. The multifunctional wet-stick type body-building agent is used during sports and fitness, and comprises a body contact part, a moisture conduction function is not good when a large amount of human body sweats (liquid sweat), a moisture permeation function is not good when a small amount of human body sweats (gaseous sweat), the moisture permeation function is not good, the drying is slow, the comfort of the human body is seriously affected, the wet-stick effect is caused, and the functionality and the sports performance of human body sports are affected.
Disclosure of Invention
One of the purposes of the invention is to provide a moisture and vapor permeable woven belt.
The second purpose of the invention is to provide a manufacturing method of the moisture-guiding and vapor-permeable woven belt.
These and other objects of the present invention will be further elucidated by the following detailed description and description.
The moisture-conducting and steam-permeable woven belt comprises a left woven belt 1, a right woven belt 3 and discontinuous woven belt steam-permeable holes 2, wherein the left woven belt 1 is connected with the right woven belt 3 through the discontinuous woven belt steam-permeable holes 2.
Further, in the moisture-permeable and breathable woven belt of the invention, the left woven belt 1 is composed of a fabric outer layer 1-1, a fabric air layer 1-2 and a fabric inner layer 1-3, and the fabric air layer 1-2 is arranged between the fabric outer layer 1-1 and the fabric inner layer 1-3.
In the moisture-guiding and air-permeable woven belt, the right woven belt 3 consists of a fabric outer layer 3-1, a fabric air layer 3-2 and a fabric inner layer 3-3, wherein the fabric air layer 3-2 is arranged between the fabric outer layer 3-1 and the fabric inner layer 3-3.
In the moisture-guiding and vapor-permeable woven belt, the fabric outer layer 1-1 of the left woven belt 1 is connected with the fabric outer layer 3-1 of the right woven belt 3 through discontinuous woven belt vapor-permeable holes 2.
In the moisture-guiding and air-permeable woven belt, the fabric air layer 1-2 and the fabric inner layer 1-3 of the left woven belt 1 are not connected with the fabric air layer 3-2 and the fabric inner layer 3-3 of the right woven belt 3.
The manufacturing method of the moisture-conducting and vapor-permeable woven belt comprises the following steps:
A. the warp yarns of the J1 and J2 layers are combined to weave the inner layer 1-3 of the left woven tape 1 of the fabric, the warp yarns of the J3 and J4 layers are combined to weave the outer layer 1-1 of the left woven tape 1 of the fabric, the warp yarns of the J5 and J6 layers are combined to weave the outer layer 3-1 of the right woven tape 3, and the warp yarns of the J7 and J8 layers are combined to weave the inner layer 3-3 of the right woven tape 3;
B. when the inner layer 1-3 and the J3 of the left woven belt 1 of the fabric are woven by combining the J1 layer warp yarn and the J2 layer warp yarn, and the outer layer 1-1 of the left woven belt 1 of the fabric is woven by combining the J4 layer warp yarn and the J3 layer warp yarn, 50-80 weft yarns are continuously input, the left air layer fabric 1-2 is woven, the length of the air layer part fabric is 25-40 weft yarns, then the positions of the J2 and the J3 are exchanged up and down, 10-20 weft yarns are continuously input, a connecting fabric is woven, and the length of the connecting fabric is 10-20;
C. when the inner layer 3-3 and the outer layer 3-1 of the fabric right woven belt 3 are woven by combining the J5 layer warp yarn and the J6 layer warp yarn, the J7 layer and the J8 layer warp yarn, 50-80 weft yarns are continuously input to weave the right air layer fabric 3-2, the length of the air layer part fabric is 25-40 weft yarns, then the positions of the J6 layer and the J7 layer are exchanged up and down, 10-20 weft yarns are continuously input to weave the connecting fabric, and the length of the connecting fabric is 10-20 weft yarns;
D. in the process of inputting and weaving 50-80 and 10-20 60-100 weft yarns, the left woven belt 1 and the right woven belt 3 of the fabric are not connected by yarns, a woven belt steam penetration hole 2 is formed in the middle, and the length of the hole is 35-60 weft yarns;
E. then J1, J2, J3, J4, J5, J6, J7 and J8 return to the initial position, then S1, S2, S3-S4 and S5 warp exchange positions in J4 and J5, 20-30 weft yarns are continuously input, yarn connection is established between the fabric left woven tape 1 and the fabric right woven tape 3, the connection length is 20-30 weft yarns, and the width is 3-5 warp yarns;
F. and then repeating the process, continuously weaving to form a whole moisture-conducting and vapor-permeable woven belt blank, and finally cleaning and hydrophilic finishing to form the moisture-conducting and vapor-permeable woven belt product.
In the manufacturing method of the moisture-permeable and vapor-permeable woven belt, the warp yarn polyester filament single fiber linear density of the J1, J2, J7 and J8 layers is 2.5-4.0D, and the warp yarn polyester filament single fiber linear density of the J3, J4, J5 and J6 polyester filament single fiber linear density is 1.0-2.0D. In the step F, when in use, the fabric formed by J1, J2, J3 and J4 layers of warp yarns is turned 180 degrees anticlockwise to form the fabric structure shown in the figure 1, and finally, the fabric is cleaned and subjected to hydrophilic finishing to realize the best effect.
In the method for manufacturing the moisture-permeable and vapor-permeable woven belt, the arrangement mode of the warp yarns is as shown in the table I:
wherein: j1 is a first layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J2 is a second layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J3 is a third layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J4 is a fourth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J5 is a fifth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J6 is a sixth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J7 is a seventh layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, and J8 is an eighth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt; s1, S2, S3 … … SX, SY and SZ are transverse position numbers of a specific warp yarn in a layer of warp yarns, and O is a cross section of the warp yarn.
Drawings
FIG. 1 is a schematic cross-sectional view of a moisture and vapor permeable fabric strip according to the present invention.
In fig. 1, symbol 1 represents a left braid, symbol 2 represents a braid steam vent, symbol 3 represents a right braid, symbol 1-1 represents a fabric outer layer, symbol 1-2 represents a fabric air layer, symbol 1-3 represents a fabric inner layer, symbol 3-1 represents a fabric outer layer fabric air layer, and symbol 3-3 represents a fabric inner layer.
In the moisture-conducting and vapor-permeable woven belt of the invention, the working principle of the moisture-conducting and vapor-permeable fabric is as follows: in the left woven belt 1 and the right woven belt 3, the fabric double layers are discontinuously separated, a left woven belt inner layer 1-3 and a right woven belt inner layer 3-3 are woven by terylene with thicker single fibers (thicker capillaries are formed between fibers), a left woven belt outer layer 1-1 and a right woven belt outer layer 3-1 are woven by terylene with thinner single fibers (thinner capillaries are formed between fibers), the inner layers contact with a human body, when a large amount of sweat (liquid sweat) of the human body is produced, the thickness of the capillaries formed by two layers of raw materials is different, an additional pressure difference is formed at the interface of the two layers of the fabric, the sweat of the human body is automatically absorbed into the inner layer from the skin surface of the human body and then is pumped out to the outer layer from the inner layer, the surface of the outer layer is evaporated and dried, the human body is conveyed to the surface of the outer layer while producing sweat, the backflow phenomenon cannot occur, when the sweat (gaseous sweat) of the human body is produced in a small amount, the gaseous, therefore, the inner layer of the fabric is kept dry and comfortable, the wet adhesion effect between the skin of a human body and the fabric is not caused, the functionality and the sports performance of human sports are not influenced, the dual functions of moisture conduction and vapor permeation are realized, and the added value of the fabric is improved.
The moisture-conducting and vapor-permeable woven belt can be used for clothes, caps, bandages, bands and the like in the environments of sports, body building, physical labor strengthening, high-temperature working, indoor, leisure and the like.
The specific implementation mode is as follows:
the following specific examples are given to further illustrate the invention, but they are not intended to limit the invention.
Example 1
Step 1: the cross section structure of the moisture-conducting and vapor-permeable woven belt is designed as shown in figure 1, the woven belt is composed of a left woven belt 1, a right woven belt 3 and discontinuous woven belt vapor-permeable holes 2, wherein the left woven belt 1 is connected with the right woven belt 3 through the discontinuous woven belt vapor-permeable holes 2. The left woven belt 1 consists of a fabric outer layer 1-1, a fabric air layer 1-2 and a fabric inner layer 1-3, wherein the fabric air layer 1-2 is arranged between the fabric outer layer 1-1 and the fabric inner layer 1-3; the right woven belt 3 consists of a fabric outer layer 3-1, a fabric air layer 3-2 and a fabric inner layer 3-3, wherein the fabric air layer 3-2 is arranged between the fabric outer layer 3-1 and the fabric inner layer 3-3. The fabric outer layer 1-1 of the left woven belt 1 is connected with the fabric outer layer 3-1 of the right woven belt 3 through discontinuous woven belt steam through holes 2. The fabric air layer 1-2 and the fabric inner layer 1-3 of the left woven belt 1 are not connected with the fabric air layer 3-2 and the fabric inner layer 3-3 of the right woven belt 3.
Step 2: the warp arrangement mode is shown in table I.
In table one, J1 is the first layer warp for weaving the moisture and vapor permeable woven tape, J2 is the second layer warp for weaving the moisture and vapor permeable woven tape, J3 is the third layer warp for weaving the moisture and vapor permeable woven tape, J4 is the fourth layer warp for weaving the moisture and vapor permeable woven tape, J5 is the fifth layer warp for weaving the moisture and vapor permeable woven tape, J6 is the sixth layer warp for weaving the moisture and vapor permeable woven tape, J7 is the seventh layer warp for weaving the moisture and vapor permeable woven tape, and J8 is the eighth layer warp for weaving the moisture and vapor permeable woven tape.
S1, S2, S3 … … SX, SY and SZ are transverse position numbers of a specific warp yarn in a layer of warp yarns, and O is a cross section of the warp yarn.
The design requirement of the warp yarn is as follows: the linear density of the warp yarn polyester filament monofilaments of the J1, J2, J7 and J8 layers is 2.5D, and the linear density of the J3, J4, J5 and J6 polyester filament monofilaments is 1.0D.
And step 3, the manufacturing method of the moisture-conducting and vapor-permeable woven belt comprises the following weaving principle and process parameters (see table I):
j1, J2, J3 and J4 layers of warp yarns are combined to weave a left woven tape 1, J5, J6, J7 and J8 layers of warp yarns are combined to weave a right woven tape 3, J1 and J2 layers of warp yarns are combined to weave a fabric inner layer 1-3 of the left woven tape 1 of the fabric, J3 and J4 layers of warp yarns are combined to weave a fabric outer layer 1-1 of the fabric inner layer 1, J5 and J6 layers of warp yarns are combined to weave a fabric outer layer 3-1 of the right woven tape 3, and J7 and J8 layers of warp yarns are combined to weave a fabric inner layer 3-3 of the right woven tape 3.
When the J1 and J2 layers of warp yarns are combined to weave the inner layer 1-3 and the J3 of the left woven belt 1 and the J4 layer of warp yarns are combined to weave the outer fabric layer 1-1 of the left woven belt 1, 80 weft yarns are continuously input to weave the left fabric air layer 1-2, 40 weft yarns are part of the fabric length of the left fabric air layer 1-2 (the J1 and the J2 layers of warp yarns are combined to weave 40 weft yarns, and the J3 and the J4 layers of warp yarns are combined to weave 40 weft yarns), then the positions of the J2 and the J3 are switched up and down, 20 weft yarns are continuously input to weave the connecting fabric, and the connecting fabric length is 20 weft yarns (the J3 and the J2 layers of warp yarns are combined to. Meanwhile, when the J5 and J6 layers of warp yarns are combined to weave the inner fabric layer 3-3 of the right woven tape 3 and the J7 and J8 layers of warp yarns are combined to weave the outer fabric layer 3-1 of the right woven tape 3, 80 weft yarns are continuously input to weave the air layer 2-2 of the right fabric, 40 weft yarns are woven in the air layer 2-2 of the right fabric in part of the length of the fabric (40 weft yarns are woven in the J5 and J6 layers of warp yarns, and 40 weft yarns are woven in the J7 and J8 layers of warp yarns), then the positions of the J6 and the J7 are vertically exchanged, 20 weft yarns are continuously input to weave the connecting fabric, and the length of the connecting fabric is 20 weft yarns (20 weft yarns are woven in the J7 and J6. In the process of inputting and weaving 80 and 20 weft yarns, namely 100 weft yarns, the left woven belt 1 and the right woven belt 3 are not connected by yarns, a woven belt steam penetration hole 2 is formed in the middle, and the length of the hole is 60 weft yarns. Then J1, J2, J3, J4, J5, J6, J7 and J8 return to the initial position, and then S1, S2, S3, S4 and S5 warp exchange positions in J4 and J5, wherein 20 weft yarns are continuously input, and the left woven belt 1 and the right woven belt 3 are connected through yarns, wherein the length of each weft yarn is 20, and the width of each warp yarn is 5. And then repeating the process, continuously weaving to form a whole moisture-conducting and vapor-permeable woven belt blank, and finally cleaning and hydrophilic finishing to form the moisture-conducting and vapor-permeable woven belt product. In use, the fabric formed by the layers of J1, J2, J3 and J4 warp yarns is turned 180 degrees counterclockwise to form the fabric structure shown in FIG. 1. Finally, the fabric is cleaned and hydrophilically finished to achieve the best results.
Example 2
Step 1: the cross section structure of the moisture-conducting and vapor-permeable woven belt is designed as shown in figure 1, the woven belt is composed of a left woven belt 1, a right woven belt 3 and discontinuous woven belt vapor-permeable holes 2, wherein the left woven belt 1 is connected with the right woven belt 3 through the discontinuous woven belt vapor-permeable holes 2. The left woven belt 1 consists of a fabric outer layer 1-1, a fabric air layer 1-2 and a fabric inner layer 1-3, wherein the fabric air layer 1-2 is arranged between the fabric outer layer 1-1 and the fabric inner layer 1-3; the right woven belt 3 consists of a fabric outer layer 3-1, a fabric air layer 3-2 and a fabric inner layer 3-3, wherein the fabric air layer 3-2 is arranged between the fabric outer layer 3-1 and the fabric inner layer 3-3. The fabric outer layer 1-1 of the left woven belt 1 is connected with the fabric outer layer 3-1 of the right woven belt 3 through discontinuous woven belt steam through holes 2. The fabric air layer 1-2 and the fabric inner layer 1-3 of the left woven belt 1 are not connected with the fabric air layer 3-2 and the fabric inner layer 3-3 of the right woven belt 3.
Step 2: the warp arrangement mode is shown in table I.
In table one, J1 is the first layer warp for weaving the moisture and vapor permeable woven tape, J2 is the second layer warp for weaving the moisture and vapor permeable woven tape, J3 is the third layer warp for weaving the moisture and vapor permeable woven tape, J4 is the fourth layer warp for weaving the moisture and vapor permeable woven tape, J5 is the fifth layer warp for weaving the moisture and vapor permeable woven tape, J6 is the sixth layer warp for weaving the moisture and vapor permeable woven tape, J7 is the seventh layer warp for weaving the moisture and vapor permeable woven tape, and J8 is the eighth layer warp for weaving the moisture and vapor permeable woven tape.
S1, S2, S3 … … SX, SY and SZ are transverse position numbers of a specific warp yarn in a layer of warp yarns, and O is a cross section of the warp yarn.
The design requirement of the warp yarn is as follows: the linear density of the warp yarn polyester filament monofilaments of the J1, J2, J7 and J8 layers is 4.0D, and the linear density of the J3, J4, J5 and J6 polyester filament monofilaments is 2.0D.
And step 3, the manufacturing method of the moisture-conducting and vapor-permeable woven belt comprises the following weaving principle and process parameters (see table I):
j1, J2, J3 and J4 layers of warp yarns are combined to weave the left fabric 1, J5, J6, J7 and J8 layers of warp yarns are combined to weave the right fabric 3, J1 and J2 layers of warp yarns are combined to weave the inner fabric layers 1-3 of the left fabric 1, J3 and J4 layers of warp yarns are combined to weave the outer fabric layer 1-1 of the left fabric 1, J5 and J6 layers of warp yarns are combined to weave the outer fabric layer 3-1 of the right fabric 3, and J7 and J8 layers of warp yarns are combined to weave the inner fabric layer 3-3 of the right fabric 3.
When the J1 and J2 layers of warp yarns are combined to weave the fabric inner layer 1-3 and the J3 of the left fabric 1 and the J4 layers of warp yarns are combined to weave the fabric outer layer 1-1 of the left fabric 1, 50 weft yarns are continuously input to weave the left fabric air layer 1-2, 25 weft yarns are woven in the left fabric air layer 1-2 part of the fabric length (25 weft yarns are woven in the J1 and J2 layers of warp yarns in a combined mode, 25 weft yarns are woven in the J3 and J4 layers of warp yarns in a combined mode), then the positions of the J2 and the J3 are switched up and down, 10 weft yarns are continuously input to weave the connecting fabric, and the connecting fabric length is 10 weft yarns. Meanwhile, when the J5 and J6 layers of warp yarns are combined to weave the inner fabric layer 3-3 and the J7 of the right fabric 3, and the J8 layers of warp yarns are combined to weave the outer fabric layer 3-1 of the right fabric 3, 50 weft yarns are continuously input to weave the air layer 2-2 of the right fabric, 25 weft yarns are continuously input to the air layer 2-2 of the right fabric for part of the fabric length (25 weft yarns are combined to weave by the J5 and J6 layers of warp yarns, 25 weft yarns are combined to weave by the J7 and J8 layers of warp yarns), then the positions of the J6 and the J7 are vertically exchanged, 10 weft yarns are continuously input to weave the connecting fabric, and the length of the connecting fabric is 10. During the input weaving process of the 50 weft yarns and the +10 weft yarns which are 60 weft yarns, the left fabric 1 and the right fabric 3 have no yarn connection, and the mesh belt steam penetration hole 2 is formed in the middle, and the length of the hole is 35 weft yarns. Then J1, J2, J3, J4, J5, J6, J7 and J8 return to the initial position, and then S1, S2 and S3 warp yarns in J4 and J5 are exchanged, 20 weft yarns are continuously input, and the left fabric 1 and the right fabric 3 are in yarn connection, wherein the length is 20 weft yarns, and the width is 3 warp yarns. And then repeating the process, continuously weaving to form a whole moisture-conducting and vapor-permeable woven belt blank, and finally cleaning and hydrophilic finishing to form the moisture-conducting and vapor-permeable woven belt product. In use, the fabric formed by the layers of J1, J2, J3 and J4 warp yarns is turned 180 degrees counterclockwise to form the fabric structure shown in FIG. 1. Finally, the fabric is cleaned and hydrophilically finished to achieve the best results.
Compared with the prior art, the invention has the following advantages and prominent effects:
watch two
In table two, moisture permeability is characterized: and (3) dripping a drop of water to the surface of the inner layer of the fabric by using an acid burette, and observing whether the water is totally guided to the outer layer of the fabric within 1 minute and whether the inner layer of the fabric is dried.
And (3) characterization of vapor permeability: the method comprises the steps of cutting a fabric by adopting a water vessel method, fixedly covering the fabric on an opening of a self-made container filled with water with the same weight and height, wherein the opening is in a rectangle with the size of 3cm multiplied by 4cm, then putting the rectangular opening into an oven with the preset temperature of 50 ℃ before, taking out the rectangular opening after 1 hour, and respectively weighing the evaporation capacity of the water, thereby obtaining the moisture permeability for representing the vapor permeability.
Claims (9)
1. The utility model provides a lead wet ventilative meshbelt which characterized in that comprises left side meshbelt 1, right meshbelt 3 and discontinuous meshbelt steam-permeable hole 2, wherein left side meshbelt 1 is connected with right meshbelt 3 through discontinuous meshbelt steam-permeable hole 2.
2. The moisture permeable and breathable webbing according to claim 1, wherein the left webbing 1 is formed of a fabric outer layer 1-1, a fabric air layer 1-2 and a fabric inner layer 1-3, the fabric air layer 1-2 being between the fabric outer layer 1-1 and the fabric inner layer 1-3.
3. The moisture-permeable and breathable webbing according to claim 1, wherein the right webbing 3 is formed of a fabric outer layer 3-1, a fabric air layer 3-2 and a fabric inner layer 3-3, the fabric air layer 3-2 being between the fabric outer layer 3-1 and the fabric inner layer 3-3.
4. The moisture and vapor permeable fabric of claim 1, wherein the fabric outer layer 1-1 of the left fabric tape 1 is connected to the fabric outer layer 3-1 of the right fabric tape 3 through discontinuous fabric vapor permeable holes 2.
5. The moisture and air permeable woven belt according to claim 1, wherein the fabric air layer 1-2 and the fabric inner layer 1-3 of the left woven belt 1 are not connected to the fabric air layer 3-2 and the fabric inner layer 3-3 of the right woven belt 3.
6. Method for manufacturing a moisture and vapour permeable fabric strip according to any of claims 1 to 5, characterised in that it comprises the steps of:
A. the warp yarns of the J1 and J2 layers are combined to weave the inner layer 1-3 of the left woven tape 1 of the fabric, the warp yarns of the J3 and J4 layers are combined to weave the outer layer 1-1 of the left woven tape 1 of the fabric, the warp yarns of the J5 and J6 layers are combined to weave the outer layer 3-1 of the right woven tape 3, and the warp yarns of the J7 and J8 layers are combined to weave the inner layer 3-3 of the right woven tape 3;
B. when the inner layer 1-3 and the J3 of the left woven belt 1 of the fabric are woven by combining the J1 layer warp yarn and the J2 layer warp yarn, and the outer layer 1-1 of the left woven belt 1 of the fabric is woven by combining the J4 layer warp yarn and the J3 layer warp yarn, 50-80 weft yarns are continuously input, the left air layer fabric 1-2 is woven, the length of the air layer part fabric is 25-40 weft yarns, then the positions of the J2 and the J3 are exchanged up and down, 10-20 weft yarns are continuously input, a connecting fabric is woven, and the length of the connecting fabric is 10-20;
C. when the inner layer 3-3 and the outer layer 3-1 of the fabric right woven belt 3 are woven by combining the J5 layer warp yarn and the J6 layer warp yarn, the J7 layer and the J8 layer warp yarn, 50-80 weft yarns are continuously input to weave the right air layer fabric 3-2, the length of the air layer part fabric is 25-40 weft yarns, then the positions of the J6 layer and the J7 layer are exchanged up and down, 10-20 weft yarns are continuously input to weave the connecting fabric, and the length of the connecting fabric is 10-20 weft yarns;
D. in the process of inputting and weaving 50-80 and 10-20 60-100 weft yarns, the left woven belt 1 and the right woven belt 3 of the fabric are not connected by yarns, a woven belt steam penetration hole 2 is formed in the middle, and the length of the hole is 35-60 weft yarns;
E. then J1, J2, J3, J4, J5, J6, J7 and J8 return to the initial position, then S1, S2, S3-S4 and S5 warp exchange positions in J4 and J5, 20-30 weft yarns are continuously input, yarn connection is established between the fabric left woven tape 1 and the fabric right woven tape 3, the connection length is 20-30 weft yarns, and the width is 3-5 warp yarns;
F. and then repeating the process, continuously weaving to form a whole moisture-conducting and vapor-permeable woven belt blank, and finally cleaning and hydrophilic finishing to form the moisture-conducting and vapor-permeable woven belt product.
7. The method for manufacturing the moisture-permeable and air-permeable woven belt according to claim 6, wherein the warp yarn polyester filament single fiber linear density of the J1, J2, J7 and J8 layers is 2.5-4.0D, and the warp yarn polyester filament single fiber linear density of the J3, J4, J5 and J6 polyester filament single fiber linear density is 1.0-2.0D.
8. The method as claimed in claim 6, wherein in step F, the fabric formed by the warp yarns of the layers J1, J2, J3 and J4 is turned 180 degrees counterclockwise to form the fabric structure shown in FIG. 1, and finally the fabric is cleaned and hydrophilically finished to achieve the best effect.
9. The method of claim 6, wherein the warp yarns are arranged in a manner of:
wherein: j1 is a first layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J2 is a second layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J3 is a third layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J4 is a fourth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J5 is a fifth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J6 is a sixth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J7 is a seventh layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, J8 is an eighth layer warp yarn for weaving the moisture-conducting and vapor-permeable woven belt, S1, S2, S3 … … SX, SY and SZ are the transverse position number of a specific warp yarn in a certain layer of the warp yarns.
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CN2503082Y (en) * | 2001-10-12 | 2002-07-31 | 东莞三立贴合织带有限公司 | Ventilating strap weaving |
DE102011111061A1 (en) * | 2011-08-24 | 2013-02-28 | Rheinisch-Westfälische Technische Hochschule Aachen | Fabric, particularly band fabric, has fabric layers, which are connected together, particularly by extending pile threads between fabric layers |
CN203360718U (en) * | 2013-06-18 | 2013-12-25 | 格伦雷文纺织科技(苏州)有限公司 | Outdoor double-layer functional fabric |
CN106811861A (en) * | 2017-03-23 | 2017-06-09 | 无锡百和织造股份有限公司 | Oval-section half-side coarse-denier half-side fine-denier terylene one-way moisture-transfer belt and manufacturing method thereof |
CN109183241A (en) * | 2018-11-20 | 2019-01-11 | 中国人民解放军海军军医大学海军医学研究所 | A kind of surface has the wet-guide quick-drying fabric of rough pattern |
CN208884077U (en) * | 2018-09-26 | 2019-05-21 | 广东前进牛仔布有限公司 | A kind of one-way wet-guide fabric |
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Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2503082Y (en) * | 2001-10-12 | 2002-07-31 | 东莞三立贴合织带有限公司 | Ventilating strap weaving |
DE102011111061A1 (en) * | 2011-08-24 | 2013-02-28 | Rheinisch-Westfälische Technische Hochschule Aachen | Fabric, particularly band fabric, has fabric layers, which are connected together, particularly by extending pile threads between fabric layers |
CN203360718U (en) * | 2013-06-18 | 2013-12-25 | 格伦雷文纺织科技(苏州)有限公司 | Outdoor double-layer functional fabric |
CN106811861A (en) * | 2017-03-23 | 2017-06-09 | 无锡百和织造股份有限公司 | Oval-section half-side coarse-denier half-side fine-denier terylene one-way moisture-transfer belt and manufacturing method thereof |
CN208884077U (en) * | 2018-09-26 | 2019-05-21 | 广东前进牛仔布有限公司 | A kind of one-way wet-guide fabric |
CN109183241A (en) * | 2018-11-20 | 2019-01-11 | 中国人民解放军海军军医大学海军医学研究所 | A kind of surface has the wet-guide quick-drying fabric of rough pattern |
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