CN217922535U - Knitting twisting rib fabric - Google Patents

Abstract

The utility model discloses a knitting twisting rib fabric relates to the fabric, and it is relatively poor to aim at solving moisture absorption ventilative and ultraviolet resistance performance, easily causes the problem of injury to the user body surface, and its technical scheme main points are: including ventilative layer and the anti ultraviolet layer of the connection of sewing up each other, be equipped with a plurality of bleeder vents and moisture absorption portion on the ventilative layer, the anti ultraviolet layer is by sley bar GB1, sley bar GB2, sley bar GB3 and sley bar GB4 weave and are formed with a plurality of anti ultraviolet lines that are located the bleeder vent opening part, sley bar GB3 and sley bar GB4 locate between sley bar GB1 and sley bar GB2, the utility model discloses an opening part at the bleeder vent sets up anti ultraviolet line, can reduce light and shine skin, and because silk has certain ultraviolet resistance, make the surface fabric have certain ultraviolet resistance performance, through moisture absorption portion and bleeder vent, improved the dress and the gas permeability of surface fabric, through ramie fibre and bamboo fibre, improved the moisture absorption gas permeability and the bacterinertness of surface fabric, make more comfortable.

Description

Knitting twisting rib fabric

Technical Field

The utility model relates to a fabric, more specifically say, it relates to a knitting twisting rib fabric.

Background

The rib fabric is a knitted fabric with a front side and a back side sequentially formed with wales by one yarn, has the detachability, the curling property and the extensibility of plain fabric, and simultaneously has larger elasticity, and is used for leisure style clothes, but in the prior art, the rib fabric has poor functions of moisture absorption, ventilation and ultraviolet resistance, so that the rib fabric feels uncomfortable when being worn.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

The present invention aims to solve the above problems and provide a knitting and twisting rib fabric.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a knitting twisting rib fabric, includes the ventilative layer and the anti ultraviolet layer of the connection of sewing up each other, be equipped with a plurality of bleeder vents and moisture absorption portion on the ventilative layer, the anti ultraviolet layer is woven by sley bar GB1, sley bar GB2, sley bar GB3 and sley bar GB4 and is formed with a plurality of anti ultraviolet lines that are located the bleeder vent opening part, sley bar GB3 and sley bar GB4 are located between sley bar GB1 and sley bar GB2, just sley bar GB1 and sley bar GB 2's fibre number all is greater than sley bar GB3, sley bar GB 4's fibre number.

Through adopting above-mentioned technical scheme, opening part through at the bleeder vent sets up the ultraviolet resistance lines, can reduce the ultraviolet resistance and shine on the body surface, because sley bar GB1 and sley bar GB 2's fibre number all is greater than sley bar GB3, sley bar GB 4's fibre number, can let the air permeability between sley bar GB1 and the sley bar GB2 better like this, through combining together with the bleeder vent, under the effect of guaranteeing ultraviolet resistance performance, through moisture absorption portion, can absorb and volatilize sweat on the body surface, so the gas permeability of surface fabric and the travelling comfort when wearing have been improved comprehensively.

The utility model discloses further set up to: the breathable layer is woven into tuck stitches through a plurality of composite yarns I, composite yarns II and composite yarns III, and the titer of the composite yarns II is larger than that of the composite yarns I and the composite yarns III.

By adopting the technical scheme, the third dimension of the fabric is improved, the contact area of the breathable layer and the body surface is reduced, the distance between the ultraviolet-resistant line and the body surface is increased, and the breathability between the breathable layer and the body surface is improved.

The utility model discloses further set up to: three composite yarns II are arranged between every three composite yarns I and every two composite yarns III, the tuck weave takes nine paths as a cycle, wherein the eighth path and the ninth path are used for weaving ribbing, the first path, the second path and the third path are used for weaving tucking and floating threads at a lower needle, the fourth path, the fifth path, the sixth path and the seventh path are used for weaving tucking at the lower needle, and the air holes are formed at the tuck position.

Through adopting above-mentioned technical scheme, through set up three compound yarn two between per three compound yarn one and per two compound yarn three, further improved the third dimension of surface fabric for area of contact between ventilative layer and the body surface reduces, and for the body surface and the gas between ventilative layer has improved more runners like this, has further improved ventilative and heat dispersion, makes and wears more comfortablely.

The utility model discloses further set up to: the structural organization of the tuck stitch is as follows from left to right: the structural organization of the first path, the seventh path, the eighth path and the ninth path is looping, looping and looping in sequence; the structural organization of the second path is looping, floating and looping in sequence; the structural organization of the third path is looping, floating thread and looping in sequence; the structural organization of the fourth path, the fifth path and the sixth path is looping, tucking and looping in sequence.

By adopting the technical scheme, the stability of weaving among the first composite yarn I, the second composite yarn and the third composite yarn is improved by weaving the first path, the seventh path, the eighth path and the ninth path into loops, loops and ribbing, the structure of the second path is organized into a loop, a floating line, a loop and a third path, and the structure of the fourth path, the fifth path and the sixth path is organized into a loop, a tuck and a loop, air holes are formed, so that the air permeability of the fabric is improved.

The utility model discloses further set up to: the structure organization from bottom to top of sley bar GB1 and sley bar GB2, sley bar GB3 and sley bar GB4 is:

the yarn laying number of the guide bar GB1 is 1-0/1-2I, and one thread is empty;

the yarn laying number of the guide bar GB2 is 4-5/4-3I, and one thread is empty;

the yarn laying number of the guide bar GB3 is 3-4/3-2/3-4/2-1/3-4/3-2/1/0/2-3/3-4/2-1/3-4/3-2I, one thread and one empty;

the yarn laying number of the guide bar GB4 is 2-1/1-0/2-3/3-4/2-1/3-4/4-5/4-3/3-2/2-1/3-4/2-1/1-0/1-2I, and one thread is empty.

Through adopting above-mentioned technical scheme, weave with moisture absorption portion through sley bar GB1 and sley bar GB2, improved compound yarn one and moisture absorption portion between joint strength, weave through sley bar GB3 and sley bar GB4, improved sley bar GB1, sley bar GB2 and moisture absorption portion's fastness to connection, synthesized the life who has improved the surface fabric, and still further improved the ultraviolet resistance performance of surface fabric ventilation portion, play certain guard action to the body surface.

The utility model discloses further set up to: sley bar GB1 and sley bar GB2 all form through a plurality of ultraviolet resistance yarn one and a twisting of ventilative yarn, sley bar GB3 and sley bar GB4 all form through two twists of a plurality of ultraviolet resistance yarn and ventilative yarn, ultraviolet resistance yarn one and ultraviolet resistance yarn two all form through a plurality of silks twisting, ventilative yarn one and ventilative yarn two are respectively formed through a plurality of flax mixed yarn, thin tweed yarn twists, just the fibre number of ventilative yarn one is greater than the fibre number of ventilative yarn two.

Through adopting above-mentioned technical scheme, because the silk has better ultraviolet resistance and antistatic properties, can improve ultraviolet resistance performance and antistatic properties of ultraviolet resistance yarn one and ultraviolet resistance yarn two, because wash flax mixed yarn and have better gas permeability and crease resistance, the chiffon yarn all has better gas permeability, can improve sley bar GB3 and sley bar GB 4's gas permeability, and because the fibre number of ventilative yarn one is greater than the fibre number of ventilative yarn two, can improve the crease resistance of surface fabric, the life of surface fabric and the comfort level when wearing have been improved.

The utility model discloses further set up to: the composite yarn II is formed by twisting a plurality of moisture-absorbing yarns I and skin-friendly yarns I, the moisture-absorbing yarns I are formed by twisting a plurality of ramie fibers, and the skin-friendly yarns I are formed by twisting a plurality of tencel yarns.

By adopting the technical scheme, because the ramie fiber has better moisture absorption and air permeability, antibacterial and bacteriostatic properties and wear resistance, the moisture absorption and air permeability, antibacterial property and wear resistance of the second composite yarn can be improved, and the second composite yarn has better skin-friendly property through the tencel, so that the moisture absorption and air permeability, antibacterial property and skin-friendly property of the fabric are comprehensively improved, and the comfort level of the fabric during wearing is further improved.

The utility model discloses further set up to: compound yarn one and compound yarn three all include yarn core and a plurality of be that Z twists with the fingers to twine the antibiotic yarn on the yarn core and be S twist with the fingers to twine the moisture absorption yarn two on the yarn core, antibiotic yarn is located between yarn core and the moisture absorption yarn two, the yarn core forms through a plurality of polypropylene fibre yarn twists, antibiotic yarn forms through a plurality of bamboo fiber twists, moisture absorption yarn two forms through a plurality of hemp fiber twists.

Through adopting above-mentioned technical scheme, because the second moisture absorption yarn is S to twist with fingers to twine on the yarn core, and antibiotic yarn locates between yarn core and the second moisture absorption yarn, so not only improved the firm in connection nature between yarn core, antibiotic yarn and the second moisture absorption yarn, still improved the gas permeability of compound yarn one and compound yarn three, so further improved the gas permeability of surface fabric.

To sum up, the utility model discloses following beneficial effect has:

through setting up the ultraviolet resistance lines at the opening part of bleeder vent, can reduce the ultraviolet resistance and shine on the body surface, because sley bar GB1 and sley bar GB 2's fibre number all is greater than sley bar GB3, sley bar GB 4's fibre number, can let the air permeability between sley bar GB1 and the sley bar GB2 better like this, through combining together with the bleeder vent, under the effect of ensureing ultraviolet resistance performance, through the portion of absorbing moisture, can absorb sweat on the body surface and volatilize, so the travelling comfort when the gas permeability of surface fabric and dress has been improved comprehensively.

Drawings

Fig. 1 is a schematic structural view of a middle permeable layer of the present invention;

FIG. 2 is a drawing of the artistic conception of the middle ventilation layer of the present invention;

FIG. 3 is a diagram of the laying movement of the guide bars GB1, GB2, GB3 and GB4 according to the present invention;

FIG. 4 is a schematic view of the construction of guide bars GB1 and GB2 of the present invention;

FIG. 5 is an enlarged schematic view at A in FIG. 4;

fig. 6 is a schematic structural view of a first composite yarn and a third composite yarn of the present invention;

FIG. 7 is an enlarged schematic view at B in FIG. 6;

fig. 8 is a schematic structural diagram of the present invention.

Reference numerals are as follows: 1. a breathable layer; 2. an anti-ultraviolet layer; 3. air holes are formed; 4. a moisture absorption part; 5. a first composite yarn; 6. a second composite yarn; 7. a third composite yarn; 8. anti-ultraviolet yarn I; 9. polyester-flax blended yarn; 10. a yarn core; 11. a second moisture-absorbing yarn; 12. an antimicrobial yarn; 13. a polypropylene yarn; 14. and a first breathable yarn.

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail below with reference to the accompanying drawings in the embodiments of the present invention.

Example (b):

please refer to fig. 1 and fig. 2, a knitting twisting rib cloth, including the ventilative layer 1 and the uvioresistant layer 2 of mutual sewing connection, be equipped with a plurality of bleeder vents 3 and moisture absorption portion 4 on the ventilative layer 1, ventilative layer 1 is located the one side that the surface fabric faces the body surface, uvioresistant layer 2 is by sley bar GB1, sley bar GB2, sley bar GB3 and sley bar GB4 are woven and are formed with a plurality of uvioresistant lines that are located the 3 opening part of bleeder vent, uvioresistant line is used for reducing the opening size of bleeder vent 3, thereby the area of contact of body surface and ultraviolet has been reduced, play the guard action to the body surface, sley bar GB3 and sley bar GB4 locate between sley bar GB1 and sley bar GB2, and sley bar GB1 and sley bar GB 2's fineness all are greater than sley bar GB3, the fineness of sley bar GB4, sley bar GB1 and sley bar GB 2's fineness are 80D, the fineness of sley bar GB3 and sley bar GB4 is 50D.

Referring to fig. 1 and 2, the air permeable layer 1 is knitted by a plurality of first composite yarns 5, second composite yarns 6 and third composite yarns 7 to form tuck stitches, the fineness of the second composite yarns 6 is greater than that of the first composite yarns 5 and the third composite yarns 7, three second composite yarns 6 are arranged between every three first composite yarns 5 and every two third composite yarns 7, the tuck stitches take nine paths as a circulation, wherein, the eighth path and the ninth path are knitted with ribs, the first path, the second path and the third path are knitted with tuck and float threads on a lower needle, the fourth path, the fifth path, the sixth path and the seventh path are knitted with tuck on the lower needle, the vent holes 3 are formed at the tuck places, and the structural organization of the tuck stitches sequentially comprises from left to right: the structural organization of the first path, the seventh path, the eighth path and the ninth path is looping, looping and looping in sequence; the structural organization of the second path is looping, floating and looping in sequence; the structural organization of the third path is looping, floating thread and looping in sequence; the structural organization of the fourth path, the fifth path and the sixth path is looping, tucking and looping in sequence.

Referring to fig. 1 and 2, the structural organization of the guide bars GB1 and GB2, GB3 and GB4 is from bottom to top: the yarn laying number of the guide bar GB1 is 1-0/1-2I, and one thread is empty; the yarn laying number of the guide bar GB2 is 4-5/4-3I, and one thread is empty; the yarn laying number of the guide bar GB3 is 3-4/3-2/3-4/2-1/3-4/3-2/1/0/2-3/3-4/2-1/3/4/3-2I, one is threaded and one is empty; the yarn laying number of the guide bar GB4 is 2-1/1-0/2-3/3-4/2-1/3-4/4-5/4-3/3-2/2-1/3-4/2-1/1-0/1-2I, and one thread is empty.

Referring to fig. 1 and 2, the guide bar GB1 and the guide bar GB2 are formed by twisting a plurality of ultraviolet-resistant yarns i 8 and breathable yarns i 14, the guide bar GB3 and the guide bar GB4 are formed by twisting a plurality of ultraviolet-resistant yarns ii and breathable yarns ii, the ultraviolet-resistant yarns i 8 and the ultraviolet-resistant yarns ii are formed by twisting a plurality of silks, the breathable yarns i 14 and the breathable yarns ii are formed by twisting a plurality of polyester-flax blended yarns 9 and tweed yarns ii, respectively, and the fineness of the breathable yarns i 14 is greater than that of the breathable yarns ii, the fineness of the breathable yarns i 14 is 75D, and the fineness of the breathable yarns ii is 45D.

Referring to fig. 1 and 2, the second composite yarn 6 is formed by twisting a plurality of first moisture-absorbing yarns and a plurality of first skin-friendly yarns, the first moisture-absorbing yarns are formed by twisting a plurality of ramie fibers, the first skin-friendly yarns are formed by twisting a plurality of tencel yarns, the first composite yarn 5 and the third composite yarn 7 both comprise a yarn core 10, a plurality of antibacterial yarns 12 wound on the yarn core 10 in a Z-twisting direction and a plurality of second moisture-absorbing yarns 11 wound on the yarn core 10 in an S-twisting direction, the antibacterial yarns 12 are arranged between the yarn core 10 and the second moisture-absorbing yarns 11, the yarn core 10 is formed by twisting a plurality of polypropylene yarns 13, the antibacterial yarns 12 are formed by twisting a plurality of bamboo fibers, and the second moisture-absorbing yarns 11 are formed by twisting a plurality of hemp fibers.

The working principle is as follows: when wearing, moisture absorption portion 4 can contact with the body surface, and can absorb sweat on the body surface, because the fibre number of compound yarn two 6 is greater than compound yarn one 5 and compound yarn three 7's fibre number, the third dimension of surface fabric has been improved, the area of contact of ventilative layer 1 and body surface has been reduced, the interval between anti ultraviolet line and the body surface has been increased, the gas permeability between ventilative layer 1 and the body surface has been improved, through setting up anti ultraviolet line at the opening part of bleeder vent 3, can reduce illumination on the body surface, and because silk has better ultraviolet resistance and antistatic properties, the ultraviolet resistance and the antistatic properties of surface fabric have been improved, play the guard action to the body surface, travelling comfort when wearing has been improved, and because the fibre number of sley bar GB1 and sley bar GB2 all is greater than three sley bar GB3, sley bar GB 4's fibre number, can make the gas permeability between sley bar GB1 and the sley bar GB2 better, and through set up two 6 between per three compound yarn one 5 and per two compound yarn three lines of body surfaces, the fibre number of layers 1 makes the ventilative layer and more comfortable and the surface fabric of contact between ventilative layer improve the heat dispersion, and more comfortable runners of wearing, make the body surface fabric more improve.

The stability of the weaving among the first composite yarn 5, the second composite yarn 6 and the third composite yarn 7 is improved by the structural organization of the first path, the seventh path, the eighth path and the ninth path, such as the looping, the loop forming and the loop forming, and the weaving of the rib, the structure of the second path is organized into a loop, a floating line, a loop and a third path, and the structure of the fourth path, the fifth path and the sixth path is organized into a loop, a tuck and a loop, being formed with bleeder vent 3, having improved the gas permeability of surface fabric, weaving with moisture absorption portion 4 through sley bar GB1 and sley bar GB2, improved the joint strength between compound yarn 5 and moisture absorption portion 4, through the weaving of sley bar GB3 and sley bar GB4, improved sley bar GB1, sley bar GB2 and moisture absorption portion 4's fastness to connection nature.

Through the ramie fiber, the moisture absorption gas permeability, the bacterinertness and the wearability of compound yarn two 6 have been improved, make the surface fabric have better moisture absorption gas permeability, the bacterinertness, because moisture absorption yarn two 11 is S to twist with the fingers to twine on yarn core 10, and antibiotic yarn 12 locates between yarn core 10 and moisture absorption yarn two 11, so not only improved yarn core 10, the firm in connection nature between antibiotic yarn 12 and the moisture absorption yarn two 11, compound yarn one 5 and compound yarn three 7' S gas permeability has still been improved, so comfort level when further having improved the dress.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the principles of the present disclosure.

Claims (8)

1. A knitting twisting rib fabric is characterized in that: including ventilative layer (1) and the anti ultraviolet layer (2) of the connection of sewing up each other, be equipped with a plurality of bleeder vents (3) and moisture absorption portion (4) on ventilative layer (1), anti ultraviolet layer (2) are woven by sley bar GB1, sley bar GB2, sley bar GB3 and sley bar GB4 and are formed with a plurality of anti ultraviolet lines that are located bleeder vent (3) opening part, sley bar GB3 and sley bar GB4 are located between sley bar GB1 and sley bar GB2, just sley bar GB1 and sley bar GB 2's denier all is greater than sley bar GB3, sley bar GB 4.

2. A knitting-twisted rib fabric according to claim 1, characterized in that: the air-permeable layer (1) is woven into tuck stitches through a plurality of first composite yarns (5), second composite yarns (6) and third composite yarns (7), and the titer of the second composite yarns (6) is larger than that of the first composite yarns (5) and the third composite yarns (7).

3. A knitting-twisting rib fabric according to claim 2, wherein: three composite yarns II (6) are arranged between every three composite yarns I (5) and every two composite yarns III (7), the tuck weave uses nine paths as a cycle, wherein the eighth path and the ninth path are used for weaving ribbing, the first path, the second path and the third path are used for weaving tucking and floating threads on a lower needle, the fourth path, the fifth path, the sixth path and the seventh path are used for weaving tucking on the lower needle, and the air holes (3) are formed in the tuck position.

4. A knitting-twisted rib fabric according to claim 3, wherein: the structural organization of the tuck stitch sequentially comprises from left to right: the structural organization of the first path, the seventh path, the eighth path and the ninth path is looping, looping and looping in sequence; the structural organization of the second path is looping, floating and looping in sequence; the structural organization of the third path is looping, floating thread and looping in sequence; the structural organization of the fourth path, the fifth path and the sixth path is looping, tucking and looping in sequence.

5. A knitting-twisted rib fabric according to claim 1, characterized in that: the structural organization from bottom to top of sley bar GB1 and sley bar GB2, sley bar GB3 and sley bar GB4 is: the yarn laying number of the guide bar GB1 is 1-0/1-2I, and one thread is empty; the yarn laying number of the guide bar GB2 is 4-5/4-3I, and one thread is empty; the yarn laying number of the guide bar GB3 is 3-4/3-2/3-4/2-1/3-4/3-2/1-0/2-3/3-4/2-1/3-4/3-2 | | | and one thread and one empty; the yarn laying number of the guide bar GB4 is 2-1/1-0/2-3/3-4/2-1/3-4/5/4-3/3-2/1/3-4/2-1/1-0/1-2I, and one thread is empty.

6. A knitting-twisted rib fabric according to claim 1, characterized in that: sley bar GB1 and sley bar GB2 all form through a plurality of anti ultraviolet yarn one (8) and ventilative yarn one (14) twisting, sley bar GB3 and sley bar GB4 all form through a plurality of anti ultraviolet yarn two and two twists of ventilative yarn, anti ultraviolet yarn one (8) and anti ultraviolet yarn two all form through a plurality of silk twists, ventilative yarn one (14) and ventilative yarn two are respectively formed through a plurality of flax blended yarn (9), thin tweed yarn twists, just the fineness of ventilative yarn one (14) is greater than the fineness of ventilative yarn two.

7. A knitting-twisted rib fabric according to claim 2, characterized in that: the composite yarn II (6) is formed by twisting a plurality of moisture-absorbing yarns I and skin-friendly yarns I, the moisture-absorbing yarns I are formed by twisting a plurality of ramie fibers, and the skin-friendly yarns I are formed by twisting a plurality of tencel yarns.

8. A knitting-twisted rib fabric according to claim 2, characterized in that: composite yarn (5) and three (7) of composite yarn all include yarn core (10) and a plurality of Z twist to twine antibiotic yarn (12) on yarn core (10) and be S twist to twine moisture absorption yarn two (11) on yarn core (10), antibiotic yarn (12) are located between yarn core (10) and moisture absorption yarn two (11), yarn core (10) are twisted through a plurality of polypropylene fibre yarns (13) and are formed, antibiotic yarn (12) are twisted through a plurality of bamboo fibre and are formed, moisture absorption yarn two (11) are twisted through a plurality of hemp fibre and are formed.

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