CN218804437U - Antibacterial and deodorant sofa fabric - Google Patents

Abstract

The application discloses antibiotic deodorization sofa fabric, it relates to the field of surface fabric, and it includes the surface fabric main part, the surface fabric main part is including compound antibiotic basic unit, activated carbon base cloth layer and ventilative layer in proper order, ventilative layer is woven by polyhexamethylene adipamide filament yarn of GB1 sley bar, polyhexamethylene adipamide filament yarn of GB2 sley bar, the compound spacer yarn of GB3 sley bar and the polyhexamethylene adipamide filament yarn of GB4 sley bar and is formed. This application has the effect that improves sofa fabric deodorization performance.

Description

Antibacterial and deodorant sofa fabric

Technical Field

The application relates to the field of fabrics, in particular to an antibacterial and deodorant sofa fabric.

Background

The sofa is furniture with high utilization rate, and people can select sofa fabrics with different textures in order to endow different rendering effects to indoor environments. The sofa fabric is of various types, such as pure cotton sofa cloth or all-wool sofa cloth.

However, since the pure cotton sofa cloth or the all-wool sofa cloth has good water absorption, especially in summer, sweat on the surface of human skin is easily absorbed by the cloth, and further bacteria are easily bred and smells are easily emitted.

SUMMERY OF THE UTILITY MODEL

In order to improve the deodorization performance of the sofa fabric, the application provides an antibacterial deodorization sofa fabric.

The application provides an antibiotic deodorization sofa fabric adopts following technical scheme:

the utility model provides an antibiotic deodorization sofa fabric, includes the surface fabric main part, the surface fabric main part is including compound antibiotic basic unit, activated carbon base cloth layer and ventilative layer in proper order, ventilative layer is woven by the polyhexamethylene adipamide filament yarn of GB1 sley bar, the polyhexamethylene adipamide filament yarn of GB2 sley bar, the compound interval yarn of GB3 sley bar and the polyhexamethylene adipamide filament yarn of GB4 sley bar and is formed.

Through adopting above-mentioned technical scheme, adopted the activated carbon layer that has good deodorization effect in this application to synthesize the deodorization performance who improves, and GB1 sley bar, GB2 sley bar and GB4 sley bar have adopted the polyhexamethylene adipamide filament that has good wearability and fatigue strength in this application, thereby synthesized the mechanical properties and the deodorization effect that improve this application.

Optionally, the weave structure of the polyhexamethylene adipamide filaments of the GB1 bar is 10/00, 12/22 and the threading structure is full-through; the weave structure of the polyhexamethylene adipamide filament of the GB2 guide bar is 23/33 and 10/00, and the threading structure is full threading; the weave structures of the composite spacing yarns of the GB3 guide bar are 12/22 and 21/10, and the threading structure is full threading; the weave structure of the polyhexamethylene adipamide filaments of the GB4 bar is 00/13, 33/20 and the threading structure is full-penetration.

By adopting the technical scheme, the organization structures of the GB1 guide bar, the GB2 guide bar, the GB3 guide bar and the GB4 guide bar are limited, so that a three-dimensional layer structure with gaps and dimensional stability is formed, and the air permeability and moisture permeability effects of the product are given; after the antibiotic basic unit that will have good antibiotic effect in this application, the active carbon basis that has good deodorization performance and the ventilative layer that has good ventilation effect are compound to antibiotic, deodorization and ventilation effect of this application overall structure have been improved.

Optionally, the specification of the composite spacing yarn of the GB3 guide bar is 20D/1F, and the composite spacing yarn includes a bamboo fiber yarn; the specifications of the polyhexamethylene adipamide filaments used in the GB1 bar, the GB2 bar and the GB4 bar are all 44D/11F.

Through adopting above-mentioned technical scheme, GB3 sley bar has adopted the bamboo fiber yarn that has good moisture absorption ventilative, antibiotic antibacterial in this application to the antibiotic air permeability who has synthesized the improvement.

Optionally, the composite spacing yarn further comprises a flax fiber yarn, and the composite spacing yarn is formed by mutually winding the bamboo fiber yarn and the flax fiber yarn.

Through adopting above-mentioned technical scheme, the flax fiber yarn that the GB3 sley bar used in this application has good fire resistance, and its peculiar smell of flax fiber yarn can be to the rate of escherichia coli and golden staphylococcus fungus pearl over 90%, and then the antibacterial property of neutralization improvement this application.

Optionally, the let-off quantity of the GB1 guide bar is 1290 mm/wax; the let-off quantity of the GB2 guide bar is 1470 mm/wax; the let-off quantity of the GB3 guide bar is 5300 mm/wax; the let-off quantity of the GB4 guide bar is 2290 mm/wax.

Through adopting above-mentioned technical scheme, this application is through injecing the let-off warp volume of GB1 sley bar, GB2 sley bar, GB3 sley bar and GB4 sley bar to improve the clearance between different yarns in the ventilative layer, thereby improved the ventilative deodorization effect of this application.

Optionally, the antibacterial layer is formed by warp knitting of composite warp and composite weft, the composite weft comprises antibacterial moisture-conducting acrylic fiber yarns, and the composite warp comprises soybean fiber yarns.

Through adopting above-mentioned technical scheme, this application has adopted the soybean fiber yarn of soft feeling to improve the close skin nature of this application, and the antibiotic wet acrylic fiber line that leads who adopts in this application has antibiotic, mould proof, moisture absorption, soft, antistatic performance, can give the bacterinertness and the antistatic properties of this application.

Optionally, the composite weft further comprises a polyurethane fiber line, and one or two polyurethane fiber lines are arranged between two adjacent antibacterial moisture-conducting acrylic fiber lines.

Through adopting above-mentioned technical scheme, polyurethane fiber line has performances such as good elasticity, wearability, resistant sweat, resistant dry-cleaning, acid and alkali-resistance, has improved the frictional force between this application and ground, improves the antiskid effect of this application.

(8) Optionally, the composite warp yarn further comprises a mint yarn, and one or two soybean fiber yarns are arranged between every two adjacent mint yarn.

Through adopting above-mentioned technical scheme, used mint yarn has natural antibacterial function in this application, all has good antibacterial activity to staphylococcus aureus, escherichia coli, candida albicans, and then can further improve the antibacterial performance of this application.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the application adopts the active carbon layer with excellent deodorization effect, thereby comprehensively improving the deodorization performance, and the polyhexamethylene adipamide filaments endow the breathable layer with excellent wear resistance and structural strength, thereby comprehensively improving the mechanical property and the deodorization effect of the application;

2. through the organizational structure of injecing GB1 sley bar, GB2 sley bar, GB3 sley bar and GB4 sley bar in this application to formed and had the clearance and have dimensional stability's three-dimensional layer structure, thereby endowed the product ventilation effect.

Drawings

FIG. 1 is a schematic view of the overall structure of embodiment 1;

FIG. 2 is a schematic view for embodying the GB1 bar, GB2 bar, GB3 bar and GB4 bar threading configurations in example 1;

FIG. 3 is a schematic representation of the organization of the GB1 bar in example 1;

FIG. 4 is a schematic representation of the organization of the GB2 bar in example 1;

FIG. 5 is a schematic view of the organization of the GB3 guide bar in example 1;

FIG. 6 is a schematic view of the organization structure of the GB4 guide bar in example 1;

FIG. 7 is a schematic view showing the construction of an antibacterial substrate in example 1;

FIG. 8 is a schematic structural view of the composite spacer yarn of example 2;

FIG. 9 is a schematic view showing the structure of an antibacterial substrate in example 3;

reference numerals: 1. an antimicrobial substrate; 11. compounding warp yarns; 111. soybean fiber yarn; 112. mint yarns; 12. compounding wefts; 121. antibacterial moisture-conducting acrylic fiber yarn; 122. a polyurethane fiber yarn; 2. an activated carbon base cloth layer; 3. a breathable layer; 31. GB1 guide bar; 32. GB2 guide bar; 33. GB3 guide bar; 34. GB4 guide bar; 35. polyhexamethylene adipamide filaments; 36. compounding spacer yarns; 361. bamboo fiber yarns; 362. flax fiber yarn.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses an antibacterial and deodorant sofa fabric.

Example 1

Referring to fig. 1, the antibacterial and deodorant sofa fabric comprises a fabric main body, wherein the fabric main body comprises an antibacterial base layer 1, an activated carbon base fabric layer 2 compounded on the upper surface of the antibacterial base layer 1 in a hot-pressing manner, and a breathable layer 3 compounded on the upper surface of the activated carbon base fabric layer in a hot-pressing manner. The activated carbon base cloth layer 2 having excellent adsorption and deodorization performance can be selected from activated carbon base cloth sold by Shang Jiang Longyou Shanbo non-woven technology Co.

Referring to fig. 2 and 3, the air-permeable layer 3 is a spacer fabric structure having excellent moisture absorption and sweat releasing functions, which is formed by processing two kinds of yarns, i.e., polyhexamethylene adipamide filament 35 and composite spacer yarn 36, by an RD4N type double needle bed warp knitting machine of a machine number E32, and the air-permeable layer 3 is woven by four guide bars, i.e., GB1 guide bar 31, GB2 guide bar 32, GB3 guide bar 33 and GB4 guide bar 34. The threading configurations of the yarns used by the GB1 bar 31, the GB2 bar 32 and the GB4 bar 34 are all full-penetration.

Referring to FIGS. 3 and 4, the GB1 bar 31, the GB2 bar 32 and the GB4 bar 34 each employ 44D/11F polyhexamethylene adipamide filaments 35 having excellent elasticity, the polyhexamethylene adipamide filaments 35 being commercially available from nylon 66 filament available from Dupont chemical fibers, inc. of Cixi. The polyhexamethylene adipamide filaments 35 of the GB1 bar 31 were knitted with a lapping number of 01/10, a 12/21 movement pattern and with a controlled let-off of 1290 mm/wax for the GB1 bar 31, and the polyhexamethylene adipamide filaments 35 of the GB2 bar 32 were knitted with a lapping number of 23/33, a 10/00 movement pattern and with a controlled let-off of 1470 mm/wax for the GB2 bar 32.

Referring to FIGS. 5 and 6, the GB3 guide bar 33 employs a 20D/1F gauge composite spacer yarn 36, wherein the composite spacer yarn 36 is a bamboo fiber yarn 361 having an excellent antibacterial effect, and the bamboo fiber yarn 361 is available from a bamboo fiber colored spun yarn sold by Weifang Zize textile Limited. The composite spacer yarn 36 of the GB3 bar 33 is knitted with a laying number of 12/22 and a 21/10 movement mode and with the let-off amount of the GB3 bar 33 controlled to be 5300 mm/wax, and the polyhexamethylene adipamide filament 35 of the GB4 bar 34 is knitted with a laying number of 00/13 and a 33/20 movement mode and with the let-off amount of the GB4 bar 34 controlled to be 2290 mm/wax.

Referring to fig. 7, the antibacterial base layer 1 is woven by composite weft yarns 12 and composite warp yarns 11 through a warp knitting machine, wherein the composite warp yarns 11 are soybean fiber yarns 111 with excellent skin-friendly performance, and the soybean fiber yarns 111 can be selected from soybean fiber fine cotton blended yarns sold by Weifang Zeuzu textile Limited. The composite weft 12 is an antibacterial moisture-conducting acrylic fiber wire 121, wherein the antibacterial moisture-conducting acrylic fiber wire 121 is formed by twisting antibacterial moisture-conducting acrylic fibers, and the antibacterial moisture-conducting acrylic fibers are prepared by adopting a high-tech Chitosante activating agent and have the functions of moisture absorption, softness, static resistance, fullness, crease resistance and the like.

The implementation principle of the antibacterial and deodorant sofa fabric in the embodiment of the application is as follows: when weaving the breathable layer 3, the GB1 bar 31 drives the polyhexamethylene adipamide filaments 35 to weave in the following motion: the GB1 guide bar 31 drives the polyhexamethylene adipamide filament 35 to swing in from the needle space 1 and swing out from the needle space 0 to form a first stitch row; then, the GB1 guide bar 31 is swung in from the needle space 0 and is swung out from the needle space 0 to form a second stitch row; then, the GB1 guide bar 31 is swung in from the needle space 1 and is swung out from the needle space 2 to form a third stitch row; finally, the GB1 guide bar 31 is arranged in the needle space 2 and arranged out of the needle space 2 to form a fourth stitch row; the four courses form the minimum stitch cycle of GB1, and then GB1 bar 31 is swung in again from the needle space 1, thus starting the knitting of the next stitch cycle, repeating this according to this knitting rule;

the GB3 guide bar 33 drives the polyhexamethylene adipamide filament 35 to weave according to the following movement modes: the GB2 guide bar 32 drives the polyhexamethylene adipamide filament 35 to swing in from the needle space 2 and swing out from the needle space 3 to form a first stitch row; then, the GB2 guide bar 32 is swung in from the needle space 3 and is swung out from the needle space 3 to form a second stitch row; then, the GB2 guide bar 32 is swung in from the needle space 1 and is swung out from the needle space 0 to form a third stitch row; finally, the GB2 guide bar 32 is swung in from the needle space 0 and is swung out from the needle space 0 to form a fourth stitch row; the four courses form the minimum stitch cycle of GB2, and then the GB2 bar 32 is again swung in from the needle room 2, thus starting the knitting of the next stitch cycle, repeating this according to this knitting rule;

the GB3 guide bar 33 drives the composite spacing yarns 36 to weave according to the following motion modes: the GB3 guide bar 33 drives the polyhexamethylene adipamide filament 35 to swing in from the needle space 1 and swing out from the needle space 2 to form a first coil row; then, the GB3 bar 33 is put in from the needle space 2 and put out from the needle space 2 to form a second stitch row; then, a GB3 guide bar 33 is arranged in from the needle space 2 and arranged out from the needle space 1 to form a third stitch row; finally, the GB3 guide bar 33 is swung in from the needle space 1 and is swung out from the needle space 0 to form a fourth stitch row; the four courses form the minimum stitch cycle of GB3, and then the GB3 bar 33 is swung in again from the needle space 1, thus starting the knitting of the next stitch cycle, repeating this according to this knitting rule;

the GB4 guide bar 34 drives the polyhexamethylene adipamide filament 35 to weave according to the following movement mode: the GB4 guide bar 34 drives the polyhexamethylene adipamide filament 35 to swing in from the needle space 0 and swing out from the needle space 0 to form a first stitch row; then, the GB4 guide bar 34 is put in from the needle space 1 and put out from the needle space 3 to form a second stitch row; then, a GB4 guide bar 34 is arranged in the needle space 3 and arranged out of the needle space 3 to form a third stitch row; finally, the GB4 guide bar 34 is swung in from the needle space 2 and is swung out from the needle space 0 to form a fourth stitch row; the four courses form the minimum stitch cycle of GB4, and then the GB4 bar 34 is swung in again from the needle space 0, thus starting the knitting of the next stitch cycle, repeating this according to this knitting rule;

and four guide bars of GB1 guide bar 31, GB2 guide bar 32, GB3 guide bar 33 and GB4 guide bar 34 start to weave simultaneously, and finally the weaving of the whole breathable layer 3 is finished. And then compounding the antibacterial base layer 1, the activated carbon base cloth layer 2 and the breathable layer 3 to obtain the fabric main body.

Example 2

Referring to fig. 8, the present example is different from example 1 in that the composite spacer yarn 36 line in the present application is formed by winding a bamboo fiber yarn 361 and a flax fiber yarn 362 having superior air permeability by a twine through a twisting machine, wherein the flax fiber yarn 362 may be twisted by a color-spun flax yarn sold by weifang golden national media limited.

Example 3

Referring to fig. 9, the present embodiment is different from embodiment 1 in that the composite warp 11 in the present embodiment is composed of mint yarn 112 and soybean fiber yarn 111 which are arranged at intervals, wherein the mint yarn 112 with excellent antibacterial performance can be purchased from mint yarn 112 sold by celadon grass fiber technologies ltd; the composite weft 12 is composed of antibacterial moisture-conductive acrylic fiber threads 121 and polyurethane fiber threads 122 having excellent elasticity, which are arranged at intervals.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An antibiotic deodorization sofa fabric which is characterized in that: the novel antibacterial fabric comprises a fabric main body, the fabric main body comprises an antibacterial base layer (1), an activated carbon base cloth layer (2) and a breathable layer (3) which are sequentially compounded, wherein the breathable layer (3) is formed by weaving polyhexamethylene adipamide filaments (35) of a GB1 guide bar (31), polyhexamethylene adipamide filaments (35) of a GB2 guide bar (32), composite spacing yarns (36) of a GB3 guide bar (33) and polyhexamethylene adipamide filaments (35) of a GB4 guide bar (34).

2. The antibacterial and deodorant sofa fabric according to claim 1, wherein the antibacterial and deodorant sofa fabric comprises: the weave structure of the polyhexamethylene adipamide filament (35) of the GB1 bar (31) is 10/00 and 12/22, and the threading structure is full-penetration; the weave structure of the polyhexamethylene adipamide filament (35) of the GB2 bar (32) is 23/33 and 10/00, and the threading structure is full-penetration; the weave structure of the composite spacing yarn (36) line of the GB3 guide bar (33) is 12/22 and 21/10, and the threading structure is full threading; the poly (hexamethylene adipamide) filaments (35) of the GB4 bar (34) have a weave structure of 00/13, 33/20 and a threading structure of full penetration.

3. The antibacterial and deodorant sofa fabric according to claim 2, characterized in that: the GB3 guide bar (33) has a composite spacer yarn (36) line specification of 20D/1F, the composite spacer yarn (36) line comprises a bamboo fiber yarn (361); the polyhexamethylene adipamide filaments (35) used in the GB1 bar (31), the GB2 bar (32) and the GB4 bar (34) all have a specification of 44D/11F.

4. The antibacterial and deodorant sofa fabric according to claim 3, wherein the antibacterial and deodorant sofa fabric comprises: the composite spacing yarn (36) further comprises a linen fiber yarn (362), and the composite spacing yarn (36) is formed by mutually winding the bamboo fiber yarn (361) and the linen fiber yarn (362).

5. The antibacterial and deodorant sofa fabric according to claim 4, wherein the antibacterial and deodorant sofa fabric comprises the following components in parts by weight: the let-off quantity of the GB1 guide bar (31) is 1290 mm/wax; the let-off quantity of the GB2 guide bar (32) is 1470 mm/wax; the let-off quantity of the GB3 guide bar (33) is 5300 mm/wax; the let-off quantity of the GB4 guide bar (34) is 2290 mm/wax.

6. The antibacterial and deodorant sofa fabric according to any one of claims 1 to 5, wherein: the antibacterial layer is formed by warp knitting of composite warp (11) and composite weft (12), the composite weft (12) comprises antibacterial moisture-conducting acrylic fiber threads (121), and the composite warp (11) comprises soybean fiber yarns (111).

7. The antibacterial and deodorant sofa fabric according to claim 6, wherein the antibacterial and deodorant sofa fabric comprises: the composite weft (12) further comprises a polyurethane fiber line (122), and one or two polyurethane fiber lines (122) are arranged between every two adjacent antibacterial moisture-conducting acrylic fiber lines (121).

8. The antibacterial and deodorant sofa fabric according to claim 6, wherein the antibacterial and deodorant sofa fabric comprises: the composite warp (11) further comprises mint yarns (112), and one or two soybean fiber yarns (111) are arranged between every two adjacent mint yarns (112).

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