CN212499241U - Ice-feeling breathable fabric - Google Patents
Ice-feeling breathable fabric Download PDFInfo
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- CN212499241U CN212499241U CN202020996464.3U CN202020996464U CN212499241U CN 212499241 U CN212499241 U CN 212499241U CN 202020996464 U CN202020996464 U CN 202020996464U CN 212499241 U CN212499241 U CN 212499241U
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Abstract
The utility model discloses an ice-feeling breathable fabric, which comprises a lace layer, a PTFE (polytetrafluoroethylene) film, a skin-friendly layer and an antibacterial layer, wherein the skin-friendly layer comprises a plurality of first ice yarns, a plurality of second ice yarns and a plurality of third ice yarns, the first ice yarns, the second ice yarns and the third ice yarns are sequentially arranged, and the antibacterial layer comprises bamboo fibers and silver ion antibacterial fibers; the first ice silk body is wound into an upper interweaving ring and a lower interweaving ring, and the upper interweaving ring and the lower interweaving ring are sequentially arranged; the second ice silk sequentially penetrates through the upper interweaving rings; the third ice silk sequentially penetrates through the plurality of lower interweaving rings; the two bamboo fiber yarns are used as a group and are interwoven with the second ice yarn and the third ice yarn between two adjacent first ice yarns in a wave shape; the silver ion antibacterial fiber filaments are formed by interweaving two silver ion antibacterial fiber filaments, which are taken as a group, with the first ice filament and the two bamboo fiber filaments between the adjacent second ice filaments and the third ice filaments. The utility model discloses can provide a lace fabric that has ice sensation, antibiotic, close skin for the user.
Description
Technical Field
The utility model belongs to the technical field of the fabrics and specifically relates to indicate an ice feel breathable fabric.
Background
Because the lace can improve the beauty of the garment, the lace is popular with women. When people choose summer clothes, the clothes can be ventilated or not and the clothes are comfortable after wearing the clothes except the appearance of the clothes. The close-fitting garment made of the lace fabric needs to pay more attention to the air permeability and skin-friendly property of the lace fabric, the comfort level of the existing lace fabric is often neglected for pursuing the appearance, and the lace fabric is poor in air permeability, low in comfort level and easy to breed bacteria due to poor air permeability.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the technical problem that will solve is: the ice-feeling breathable fabric overcomes the defects of poor air permeability and low comfort level of lace fabrics in the prior art.
In order to solve the technical problem, the utility model discloses a technical scheme be:
an ice-feeling breathable fabric comprises a lace layer, a PTFE (polytetrafluoroethylene) film, a skin-friendly layer and an antibacterial layer, wherein the PTFE layer and the antibacterial layer are sequentially clamped between the lace layer and the skin-friendly layer;
the skin-friendly layer and the antibacterial layer are interwoven into a whole;
the skin-friendly layer comprises a plurality of first ice filaments, a plurality of second ice filaments and a plurality of third ice filaments, wherein the first ice filaments, the second ice filaments and the third ice filaments are sequentially arranged, and the antibacterial layer comprises bamboo fiber filaments and silver ion antibacterial fiber filaments;
the first ice silk is wound into an upper interweaving ring and a lower interweaving ring, and the upper interweaving ring and the lower interweaving ring are alternately arranged;
the second ice silk and the third ice silk are alternately arranged;
the second ice silk sequentially penetrates through the upper interweaving rings;
the third ice silk sequentially penetrates through the plurality of lower interweaving rings;
the two bamboo fiber yarns are taken as a group and are respectively interwoven with the second ice yarn and the third ice yarn between two adjacent first ice yarns in a wave shape;
the silver ion antibacterial fiber filaments are formed by interweaving two silver ion antibacterial fiber filaments, which are taken as a group, with the first ice filament and the two bamboo fiber filaments between the adjacent second ice filaments and the third ice filaments.
Furthermore, the filament density of the bamboo fibers is 146-151 dtex, and the filament density of the silver ion antibacterial fibers is 182-185 dtex.
Furthermore, the linear density of the first ice silk is 102 to 107dtex, and the linear densities of the second ice silk and the third ice silk are 131 to 135 dtex.
Further, the first ice silk, the second ice silk, the third ice silk and the silver ion antibacterial fiber silk are perpendicular to each other respectively;
the bamboo fiber filaments and the first ice filaments are parallel to each other.
Furthermore, the lace layer, the PTFE film and the antibacterial layer are bonded with each other through a polyurethane adhesive.
The beneficial effects of the utility model reside in that: the PTFE membrane is arranged, so that sweat and moisture evaporated on the surface of the skin can be discharged through the PTFE membrane, and the air permeability of the fabric is ensured; the antibacterial layer is arranged, so that the service life of the clothes can be prolonged, and the health of a user can be ensured at the same time; the moisture content of the ice silk is most in line with the physiological requirements of human skin, so that the ice silk has the characteristics of smoothness, coolness, ventilation and the like, and the ice silk is used as the material of the skin-friendly layer, so that the comfort level can be improved, and the ice silk can bring cool feeling to users; because the skin-friendly layer is in direct contact with the skin, grease, scurf and the like are easy to remain, and the antibacterial layer and the skin-friendly layer are interwoven into a whole to play an antibacterial role. The utility model discloses can provide the lace fabric that has ice sensation, antibiotic, close skin for the user.
Drawings
Fig. 1 is a schematic structural view of an ice-feeling breathable fabric according to an embodiment of the present invention;
fig. 2 is a schematic structural view of an ice-feeling breathable fabric according to an embodiment of the present invention;
fig. 3 is an interlaced structure of the antibacterial layer and the skin-friendly layer in the embodiment of the present invention.
Description of reference numerals:
1. a bud thread layer;
2. a PTFE membrane;
3. a skin-friendly layer; 31. a first ice silk; 32. a second ice silk; 33. a third ice silk; 311. weaving loops on the fabric; 312. a lower interwoven ring;
4. an antimicrobial layer; 41. bamboo fiber; 42. silver ion antibacterial fiber filaments;
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.
Referring to fig. 1-3, an ice-feeling breathable fabric comprises a lace layer 1, a PTFE film 2, a skin-friendly layer 3, and an antibacterial layer 4, wherein the PTFE layer 2 and the antibacterial layer 4 are sequentially sandwiched between the lace layer 1 and the skin-friendly layer 3;
the skin-friendly layer 3 and the antibacterial layer 4 are interwoven into a whole;
the skin-friendly layer 3 comprises a plurality of first ice filaments 31, a plurality of second ice filaments 32 and a plurality of third ice filaments 33, wherein the first ice filaments 31, the second ice filaments 32 and the third ice filaments 33 are sequentially arranged, and the antibacterial layer 4 comprises bamboo fiber filaments 41 and silver ion antibacterial fiber filaments 42;
the first ice silk 31 is wound into upper interweaving circles 311 and lower interweaving circles 312, and the upper interweaving circles 311 and the lower interweaving circles 312 are alternately arranged;
the second ice filaments 32 and the third ice filaments 33 are alternately arranged;
the second ice filaments 32 sequentially pass through the plurality of upper weaving loops 311;
the third ice filaments 33 sequentially pass through the plurality of lower interweaving rings 312;
the bamboo fiber filaments 41 are in a wave shape with two as a group and are respectively interwoven with the second ice filaments 32 and the third ice filaments 33 between two adjacent first ice filaments 31;
the silver ion antibacterial fiber filaments 42 are formed by interweaving two silver ion antibacterial fiber filaments in a group with the first ice filament 31 and the two bamboo fiber filaments between the adjacent second ice filaments 32 and the adjacent third ice filaments 33.
The utility model discloses a theory of operation lies in:
the first ice silk body is wound into an upper interweaving ring and a lower interweaving ring, and the second ice silk sequentially passes through the upper interweaving rings;
the third ice silk sequentially passes through the plurality of lower interweaving rings;
the bamboo fiber yarns are interwoven with the second ice yarns and the third ice yarns between two adjacent first ice yarns in a wave shape by taking the two bamboo fiber yarns as a group;
the silver ion antibacterial fiber yarns are formed by interweaving the first ice yarn and the two bamboo fiber yarns between the adjacent second ice yarn and the third ice yarn as a group, so that the antibacterial layer and the skin-friendly layer are interwoven into a whole;
and compounding the lace layer, the PTFE layer and the antibacterial layer into the lace fabric.
From the above description, the beneficial effects of the present invention are: the PTFE membrane is arranged, so that sweat and moisture evaporated on the surface of the skin can be discharged through the PTFE membrane, and the air permeability of the fabric is ensured; the antibacterial layer is arranged, so that the service life of the clothes can be prolonged, and the health of a user can be ensured at the same time; the moisture content of the ice silk is most in line with the physiological requirements of human skin, so that the ice silk has the characteristics of smoothness, coolness, ventilation and the like, and the ice silk is used as the material of the skin-friendly layer, so that the comfort level can be improved, and the ice silk can bring cool feeling to users; because the skin-friendly layer is in direct contact with the skin, grease, scurf and the like are easy to remain, and the antibacterial layer and the skin-friendly layer are interwoven into a whole to play an antibacterial role.
Furthermore, the linear density of the bamboo fiber filament 41 is 146-151 dtex, and the linear density of the silver ion antibacterial fiber filament 42 is 182-185 dtex.
According to the description, the linear density of the bamboo fiber yarns and the silver ion antibacterial fiber yarns is set, so that the antibacterial layer is finer and softer.
Furthermore, the linear density of the first ice silk 31 is 102 to 107dtex, and the linear density of the second ice silk 32 and the third ice silk 33 are 131 to 135 dtex.
According to the description, the linear density of the first ice silk, the second ice silk and the third ice silk can increase the skin-friendly performance of the skin-friendly layer, so that the skin-friendly layer is softer and finer, and the comfort level of the skin-friendly layer is improved.
Further, the first ice silk 31, the second ice silk 32, the third ice silk 33 and the silver ion antibacterial fiber silk 42 are perpendicular to each other;
the bamboo fiber filaments 41 and the first ice filaments 31 are parallel to each other.
From the above description, it can be known that the first ice silk and the bamboo fiber silk are vertically interwoven with the second ice silk, the third ice silk and the silver ion antibacterial fiber silk, so that the skin-friendly layer and the antibacterial layer can be tightly combined, and the antibacterial layer can play an antibacterial role in the skin-friendly layer.
Further, the lace layer 1, the PTFE film 2 and the antibacterial layer 4 are bonded with each other by polyurethane adhesive.
As can be seen from the above description, the polyurethane adhesive is an aqueous adhesive and has the characteristic of bending resistance, and because the lace fabric needs to be bent frequently, the polyurethane adhesive can be selected to improve the stability among the lace layer, the PTFE layer and the antibacterial layer.
The embodiment of the utility model discloses a do:
an ice-feeling breathable fabric comprises a lace layer 1, a PTFE (polytetrafluoroethylene) film 2, a skin-friendly layer 3 and an antibacterial layer 4, wherein the PTFE layer 2 and the antibacterial layer 4 are sequentially clamped between the lace layer 1 and the skin-friendly layer 3;
the skin-friendly layer 3 and the antibacterial layer 4 are interwoven into a whole;
the skin-friendly layer 3 comprises a plurality of first ice filaments 31, a plurality of second ice filaments 32 and a plurality of third ice filaments 33, wherein the first ice filaments 31, the second ice filaments 32 and the third ice filaments 33 are sequentially arranged, and the antibacterial layer 4 comprises bamboo fiber filaments 41 and silver ion antibacterial fiber filaments 42;
the first ice silk 31 is wound into upper interweaving circles 311 and lower interweaving circles 312, and the upper interweaving circles 311 and the lower interweaving circles 312 are alternately arranged;
the second ice filaments 32 and the third ice filaments 33 are alternately arranged;
the second ice filaments 32 sequentially pass through the plurality of upper weaving loops 311;
the third ice filaments 33 sequentially pass through the plurality of lower interweaving rings 312;
the bamboo fiber filaments 41 are in a wave shape with two as a group and are respectively interwoven with the second ice filaments 32 and the third ice filaments 33 between two adjacent first ice filaments 31;
the silver ion antibacterial fiber filaments 42 are formed by interweaving the first ice filaments 31 and the two bamboo fiber filaments 41 between the adjacent second ice filaments 32 and the adjacent third ice filaments 33 in a group of two silver ion antibacterial fiber filaments.
Preferably, the linear density of the bamboo fiber 41 is 151dtex, and the linear density of the silver ion antibacterial fiber 42 is 185 dtex.
Preferably, the linear density of the first ice silk 31 is 107dtex, and the linear densities of the second ice silk 32 and the third ice silk 33 are 135 dtex.
Referring to fig. 3, the first ice silk 31 is perpendicular to the second ice silk 32, the third ice silk 33 and the silver ion antibacterial fiber silk 42 respectively;
the bamboo fiber filaments 41 and the first ice filaments 31 are parallel to each other.
Preferably, the lace layer 1, the PTFE film 2 and the antibacterial layer 4 are bonded to each other by a polyurethane adhesive.
The embodiment of the utility model discloses an embodiment two is:
an ice-feeling breathable fabric comprises a lace layer 1, a PTFE (polytetrafluoroethylene) film 2, a skin-friendly layer 3 and an antibacterial layer 4, wherein the PTFE layer 2 and the antibacterial layer 4 are sequentially clamped between the lace layer 1 and the skin-friendly layer 3;
the skin-friendly layer 3 and the antibacterial layer 4 are interwoven into a whole;
the skin-friendly layer 3 comprises a plurality of first ice filaments 31, a plurality of second ice filaments 32 and a plurality of third ice filaments 33, wherein the first ice filaments 31, the second ice filaments 32 and the third ice filaments 33 are sequentially arranged, and the antibacterial layer 4 comprises bamboo fiber filaments 41 and silver ion antibacterial fiber filaments 42;
the first ice silk 31 is wound into upper interweaving circles 311 and lower interweaving circles 312, and the upper interweaving circles 311 and the lower interweaving circles 312 are alternately arranged;
the second ice filaments 32 and the third ice filaments 33 are alternately arranged;
the second ice filaments 32 sequentially pass through the plurality of upper weaving loops 311;
the third ice filaments 33 sequentially pass through the plurality of lower interweaving rings 312;
the bamboo fiber filaments 41 are in a wave shape with two as a group and are respectively interwoven with the second ice filaments 32 and the third ice filaments 33 between two adjacent first ice filaments 31;
the silver ion antibacterial fiber filaments 42 are formed by interweaving the first ice filaments 31 and the two bamboo fiber filaments 41 between the adjacent second ice filaments 32 and the adjacent third ice filaments 33 in a group of two silver ion antibacterial fiber filaments.
Preferably, the linear density of the bamboo fiber 41 is 146dtex, and the linear density of the silver ion antibacterial fiber 42 is 182 dtex.
Preferably, the linear density of the first ice silk 31 is 102dtex, and the linear densities of the second ice silk 32 and the third ice silk 33 are both 131 dtex.
Referring to fig. 3, the first ice silk 31 is perpendicular to the second ice silk 32, the third ice silk 33 and the silver ion antibacterial fiber silk 42 respectively;
the bamboo fiber filaments 41 and the first ice filaments 31 are parallel to each other.
Preferably, the lace layer 1, the PTFE film 2 and the antibacterial layer 4 are bonded to each other by a polyurethane adhesive.
The third embodiment of the present invention is:
an ice-feeling breathable fabric comprises a lace layer 1, a PTFE (polytetrafluoroethylene) film 2, a skin-friendly layer 3 and an antibacterial layer 4, wherein the PTFE layer 2 and the antibacterial layer 4 are sequentially clamped between the lace layer 1 and the skin-friendly layer 3;
the skin-friendly layer 3 and the antibacterial layer 4 are interwoven into a whole;
the skin-friendly layer 3 comprises a plurality of first ice filaments 31, a plurality of second ice filaments 32 and a plurality of third ice filaments 33, wherein the first ice filaments 31, the second ice filaments 32 and the third ice filaments 33 are sequentially arranged, and the antibacterial layer 4 comprises bamboo fiber filaments 41 and silver ion antibacterial fiber filaments 42;
the first ice silk 31 is wound into upper interweaving circles 311 and lower interweaving circles 312, and the upper interweaving circles 311 and the lower interweaving circles 312 are alternately arranged;
the second ice filaments 32 and the third ice filaments 33 are alternately arranged;
the second ice filaments 32 sequentially pass through the plurality of upper weaving loops 311;
the third ice filaments 33 sequentially pass through the plurality of lower interweaving rings 312;
the bamboo fiber filaments 41 are in a wave shape with two as a group and are respectively interwoven with the second ice filaments 32 and the third ice filaments 33 between two adjacent first ice filaments 31;
the silver ion antibacterial fiber filaments 42 are formed by interweaving two silver ion antibacterial fiber filaments in a group with the first ice filament 31 and the two bamboo fiber filaments between the adjacent second ice filaments 32 and the adjacent third ice filaments 33.
Preferably, the linear density of the bamboo fiber 41 is 148dtex, and the linear density of the silver ion antibacterial fiber 42 is 184 dtex.
Preferably, the linear density of the first ice silk 31 is 105dtex, and the linear densities of the second ice silk 32 and the third ice silk 33 are both 134 dtex.
Referring to fig. 3, the first ice silk 31 is perpendicular to the second ice silk 32, the third ice silk 33 and the silver ion antibacterial fiber silk 42 respectively;
the bamboo fiber filaments 41 and the first ice filaments 31 are parallel to each other.
Preferably, the lace layer 1, the PTFE film 2 and the antibacterial layer 4 are bonded to each other by a polyurethane adhesive.
To sum up, the utility model provides a pair of ventilative surface fabric of ice sense interweaves antibiotic layer and close skin layer into an organic whole, when can making close skin layer possess the comfort level, can also be antibiotic, ensures user's health, and close skin layer adopts the ice silk, can feel for the user provides ice-cold body, can increase the comfort level of lace surface fabric. The utility model discloses can provide a lace fabric that has ice sensation, antibiotic, close skin for the user.
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 ice-feeling breathable fabric is characterized by comprising a lace layer, a PTFE (polytetrafluoroethylene) film, a skin-friendly layer and an antibacterial layer, wherein the PTFE layer and the antibacterial layer are sequentially clamped between the lace layer and the skin-friendly layer;
the skin-friendly layer and the antibacterial layer are interwoven into a whole;
the skin-friendly layer comprises a plurality of first ice filaments, a plurality of second ice filaments and a plurality of third ice filaments, wherein the first ice filaments, the second ice filaments and the third ice filaments are sequentially arranged, and the antibacterial layer comprises bamboo fiber filaments and silver ion antibacterial fiber filaments;
the first ice silk is wound into an upper interweaving ring and a lower interweaving ring, and the upper interweaving ring and the lower interweaving ring are alternately arranged;
the second ice silk and the third ice silk are alternately arranged;
the second ice silk sequentially penetrates through the upper interweaving rings;
the third ice silk sequentially penetrates through the plurality of lower interweaving rings;
the two bamboo fiber yarns are taken as a group and are respectively interwoven with the second ice yarn and the third ice yarn between two adjacent first ice yarns in a wave shape;
the silver ion antibacterial fiber filaments are formed by interweaving two silver ion antibacterial fiber filaments, which are taken as a group, with the first ice filament and the two bamboo fiber filaments between the adjacent second ice filaments and the third ice filaments.
2. The ice-feeling breathable fabric according to claim 1, wherein the filament density of the bamboo fibers is 146-151 dtex, and the filament density of the silver ion antibacterial fibers is 182-185 dtex.
3. The ice-feeling breathable fabric according to claim 1, wherein the linear density of the first ice yarns is 102-107 dtex, and the linear density of the second ice yarns and the linear density of the third ice yarns are 131-135 dtex.
4. The ice-feeling breathable fabric according to claim 1, wherein the first ice yarns, the second ice yarns, the third ice yarns and the silver ion antibacterial fiber yarns are perpendicular to each other;
the bamboo fiber filaments and the first ice filaments are parallel to each other.
5. The ice-feeling breathable fabric according to claim 1, wherein the lace layer, the PTFE film and the antibacterial layer are bonded to each other through a polyurethane adhesive.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020996464.3U CN212499241U (en) | 2020-06-03 | 2020-06-03 | Ice-feeling breathable fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020996464.3U CN212499241U (en) | 2020-06-03 | 2020-06-03 | Ice-feeling breathable fabric |
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CN212499241U true CN212499241U (en) | 2021-02-09 |
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CN202020996464.3U Active CN212499241U (en) | 2020-06-03 | 2020-06-03 | Ice-feeling breathable fabric |
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CN (1) | CN212499241U (en) |
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2020
- 2020-06-03 CN CN202020996464.3U patent/CN212499241U/en active Active
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