CN211446119U - Antibacterial double-layer net-shaped lace structure - Google Patents
Antibacterial double-layer net-shaped lace structure Download PDFInfo
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- CN211446119U CN211446119U CN201921470288.3U CN201921470288U CN211446119U CN 211446119 U CN211446119 U CN 211446119U CN 201921470288 U CN201921470288 U CN 201921470288U CN 211446119 U CN211446119 U CN 211446119U
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Abstract
The utility model relates to the technical field of garment materials, in particular to an antibacterial double-layer reticular lace structure, which comprises a lace bottom layer and a lace surface layer which are woven by taking lace bodies as yarns; the utility model provides an antibacterial double-deck netted lace structure through being provided with the contact layer, has played the effect that prevents skin direct and lace layer contact, and viscose fiber quality is lighter simultaneously, and is transparent and gas permeability good, and viscose fiber is a natural silk material simultaneously, can not take place the anaphylactic phenomenon with user's skin, is fit for the sensitive personnel's of skin use, is provided with nanometer anion layer simultaneously between contact layer and the lace layer, and nanometer anion layer can produce the anion when using, and the anion has antibacterial, improves neurasthenia, the effect of insomnia; the lace fabric adopts a double-layer net-shaped structure, so that the tensile strength and the stretch-breaking resistance of the fabric are improved while the elasticity of the fabric is improved, and the lace fabric is durable.
Description
Technical Field
The utility model relates to a garment materials technical field, concretely relates to antibacterial double-deck netted flower bud silk structure.
Background
The fabric is used for making clothes, can explain the style and the characteristics of the clothes, and directly controls the expression effects of the color and the shape of the clothes.
The lace is light, thin and transparent in texture, has an elegant and mysterious artistic effect, is widely applied to clothes of women, is deeply loved by women, but along with the development of times, people pay more attention to the functionality of the garment fabric, and the existing lace needs more performances besides the heat preservation function.
In the prior art, the utility model patent with application number "201320593623.5" discloses a compound lace of ultraviolet protection, it includes ultraviolet coating and antibacterial fiber layer, so ultraviolet resistance and antibiotic effect have been had, but in the use, a lot of people have the allergy problem to the lace, though the surface fabric has made the improvement from the functionality, but the sensitive personnel of skin still can not normally wear this kind of surface fabric, and tensile strength is relatively poor, very easily torn to make and make clothing and not durable by the lace surface fabric, current lace surface fabric hygroscopicity is also relatively poor moreover.
SUMMERY OF THE UTILITY MODEL
In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: provides a bacteriostatic double-layer net lace structure which is suitable for sensitive people and has good durability.
In order to solve the technical problem, the utility model discloses a technical scheme be: a bacteriostatic double-layer mesh lace structure comprises a lace bottom layer and a lace surface layer which are formed by weaving lace bodies as yarns;
the lace body comprises viscose fibers, a nanometer negative ion layer and a contact layer from inside to outside;
the three viscose fibers are stacked in a triangular shape, the nanometer negative ion layer is coated on the outer surfaces of the three viscose fibers, and the contact layer is coated on the outer surface of the nanometer negative ion layer;
the lace bottom layer is a hollow structure formed by interweaving a plurality of regular hexagonal coils in a staggered manner;
the lace surface layer is formed by interweaving a plurality of rhombic coils in a staggered mode, solid round points are arranged at intersection points, and the lace surface layer is woven on the lace bottom layer.
The beneficial effects of the utility model reside in that: the utility model provides an antibacterial double-deck netted lace structure through being provided with the contact layer, has played the effect that prevents skin direct and lace layer contact, and viscose fiber quality is lighter simultaneously, and is transparent and gas permeability good, and the cotton is heavier when it with the lace blending, will lead to the lace flagging, the feel of the lace of destruction, and viscose fiber is a natural silk material simultaneously, can not take place allergic phenomenon with user's skin, suitable skin sensitive personnel's use, is provided with nanometer anion layer between contact layer and the lace layer simultaneously, nanometer anion layer can produce the anion when using, and the anion has antibacterial, improves neurasthenia, the effect of insomnia; the lace fabric adopts a double-layer net-shaped structure, so that the tensile strength and the stretch-breaking resistance of the fabric are improved while the elasticity of the fabric is improved, and the lace fabric is durable.
Drawings
Fig. 1 is a schematic structural view of a bacteriostatic double-layer mesh lace structure according to a specific embodiment of the present invention;
fig. 2 is a schematic structural view of a lace body of a bacteriostatic double-layer mesh lace structure according to an embodiment of the present invention;
description of reference numerals:
1. a lace bottom layer;
2. a lace surface layer;
3. a lace body; 31. viscose fibers; 32. a nano-anion layer; 33. and a contact layer.
Detailed Description
In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.
The utility model discloses the most crucial design lies in:
referring to fig. 1 and 2, the bacteriostatic double-layer mesh lace structure of the present invention comprises a lace bottom layer 1 and a lace surface layer 2 woven by using a lace body 3 as a yarn;
the lace body 3 comprises viscose fibers 31, a nanometer negative ion layer 32 and a contact layer 33 from inside to outside;
the three viscose fibers 31 are stacked in a triangular shape, the nanometer anion layer 32 is coated on the outer surfaces of the three viscose fibers 31, and the contact layer 33 is coated on the outer surface of the nanometer anion layer 32;
the lace bottom layer 1 is a hollow structure formed by interweaving a plurality of regular hexagonal coils in a staggered manner;
the lace surface layer 2 is formed by interlacing and interweaving a plurality of rhombic coils, solid round points are arranged at intersection points, and the lace surface layer 2 is woven on the lace bottom layer 1.
As can be seen from the above description, the utility model has the advantages that: the utility model provides an antibacterial double-deck netted lace structure through being provided with the contact layer, has played the effect that prevents skin direct and lace layer contact, and viscose fiber quality is lighter simultaneously, and is transparent and gas permeability good, and the cotton is heavier when it with the lace blending, will lead to the lace flagging, the feel of the lace of destruction, and viscose fiber is a natural silk material simultaneously, can not take place allergic phenomenon with user's skin, suitable skin sensitive personnel's use, is provided with nanometer anion layer between contact layer and the lace layer simultaneously, nanometer anion layer can produce the anion when using, and the anion has antibacterial, improves neurasthenia, the effect of insomnia; the lace fabric adopts a double-layer net-shaped structure, so that the tensile strength and the stretch-breaking resistance of the fabric are improved while the elasticity of the fabric is improved, and the lace fabric is durable.
Further, the nano negative ion layer 32 is formed by coating nano negative ion powder.
As can be seen from the above description, the nano negative ions can generate negative ions under the condition of temperature change, the negative ions have good sterilization effect, and simultaneously, after the user inhales the negative ions, the heart blood vessel capability of the user can be improved, and the health care function is achieved.
Further, the thickness of the contact layer 33 is 0.5-1mm, and the thicknesses of the lace bottom layer 1 and the lace surface layer 2 are equal.
From the above description, if the thickness of the contact layer is greater than 1mm, the overall weight of the lace structure will be greatly increased, and the light and thin feeling of the lace fabric will be affected, and meanwhile, if the thickness of the contact layer is less than 0.5mm, the thickness of the viscose fiber will be thinner, and the limited contact between the skin and the lace cannot be blocked.
Further, an ultraviolet-proof layer is arranged on the upper layer of the lace, and the thickness of the ultraviolet-proof layer is 0.1-0.2 mm.
Furthermore, the ultraviolet-proof layer is formed by coating transparent ultraviolet-proof glass paint.
According to the description, the transparency of the upper layer of the lace is not affected by the arrangement of the ultraviolet-proof layer, the ultra-strong ultraviolet-proof performance is achieved, the skin of a user is protected, the thickness of the ultraviolet-proof layer is 0.1-0.2mm, and the performance is good.
Referring to fig. 1 and fig. 2, a first embodiment of the present invention is:
a bacteriostatic double-layer mesh lace structure comprises a lace bottom layer 1 and a lace surface layer 2 which are woven by taking a lace body 3 as a yarn;
the lace body 3 comprises viscose fibers 31, a nanometer negative ion layer 32 and a contact layer 33 from inside to outside;
the three viscose fibers 31 are stacked in a triangular shape, the nanometer anion layer 32 is coated on the outer surfaces of the three viscose fibers 31, and the contact layer 33 is coated on the outer surface of the nanometer anion layer 32;
the lace bottom layer 1 is a hollow structure formed by interweaving a plurality of regular hexagonal coils in a staggered manner;
the lace surface layer 2 is formed by interlacing and interweaving a plurality of rhombic coils, solid round points are arranged at intersection points, and the lace surface layer 2 is woven on the lace bottom layer 1;
the nanometer anion layer 32 is formed by coating nanometer anion powder;
the thickness of the contact layer 33 is 0.7mm, and the thicknesses of the lace bottom layer 1 and the lace surface layer 2 are equal.
And an ultraviolet-proof layer is arranged on the upper layer of the lace, and the thickness of the ultraviolet-proof layer is 0.15 mm.
The ultraviolet-proof layer is formed by coating transparent ultraviolet-proof glass paint.
To sum up, the utility model provides an antibacterial double-deck netted lace structure through being provided with the contact layer, has played the effect that prevents skin direct and lace layer contact, and viscose fiber quality is lighter simultaneously, and is transparent and gas permeability good, and the cotton is heavier when its and lace blending, will lead to the lace flagging, the feel of the lace of destruction, and viscose fiber is a natural silk material simultaneously, can not take place allergic phenomenon with user's skin, is suitable for the sensitive personnel's of skin use, is provided with nanometer anion layer between contact layer and the lace layer simultaneously, and nanometer anion layer can produce the anion when using, and the anion has antibacterial, improves neurasthenia, the effect of insomnia; the lace fabric adopts a double-layer net-shaped structure, so that the elasticity of the fabric is improved, and simultaneously, the tensile strength and the stretch-breaking resistance of the fabric are also improved, so that the lace fabric is durable;
the nanometer negative ions can generate negative ions under the condition of temperature change, the negative ions have good sterilization effect, and simultaneously, after a user inhales the negative ions, the heart blood vessel capability of the user can be improved, and the health care function is realized;
if the thickness of the contact layer is larger than 1mm, the whole weight of the lace structure is greatly increased, the light and thin feeling of the lace fabric is affected, and meanwhile, if the thickness of the contact layer is smaller than 0.5mm, the thickness of the viscose fiber is thin, and the limited contact between the skin and the lace cannot be prevented;
through the arrangement of the ultraviolet-proof layer, the transparency of the upper layer of the lace cannot be influenced, the ultra-strong ultraviolet-proof performance is achieved, the skin of a user is protected, the thickness of the ultraviolet-proof layer is 0.1-0.2mm, and the performance is good.
The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.
Claims (5)
1. An antibacterial double-layer mesh lace structure is characterized by comprising a lace bottom layer and a lace surface layer, wherein the lace bottom layer and the lace surface layer are formed by weaving lace bodies serving as yarns;
the lace body comprises viscose fibers, a nanometer negative ion layer and a contact layer from inside to outside;
the three viscose fibers are stacked in a triangular shape, the nanometer negative ion layer is coated on the outer surfaces of the three viscose fibers, and the contact layer is coated on the outer surface of the nanometer negative ion layer;
the lace bottom layer is a hollow structure formed by interweaving a plurality of regular hexagonal coils in a staggered manner;
the lace surface layer is formed by interweaving a plurality of rhombic coils in a staggered mode, solid round points are arranged at intersection points, and the lace surface layer is woven on the lace bottom layer.
2. The bacteriostatic double-layer mesh lace structure according to claim 1, wherein the nano anion layer is formed by coating nano anion powder.
3. The bacteriostatic double-layer mesh-shaped lace structure according to claim 1, wherein the thickness of the contact layer is 0.5-1mm, and the thicknesses of the lace bottom layer and the lace surface layer are equal.
4. The bacteriostatic double-layer mesh-shaped lace structure according to claim 1, wherein an ultraviolet-proof layer is arranged on the upper layer of the lace, and the thickness of the ultraviolet-proof layer is 0.1-0.2 mm.
5. The bacteriostatic double-layer mesh-like lace structure according to claim 4, wherein the ultraviolet-proof layer is formed by coating transparent ultraviolet-proof glass paint.
Priority Applications (1)
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CN201921470288.3U CN211446119U (en) | 2019-09-05 | 2019-09-05 | Antibacterial double-layer net-shaped lace structure |
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CN201921470288.3U CN211446119U (en) | 2019-09-05 | 2019-09-05 | Antibacterial double-layer net-shaped lace structure |
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