CN217579232U - Heat-storage warm-keeping antistatic fabric - Google Patents
Heat-storage warm-keeping antistatic fabric Download PDFInfo
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- CN217579232U CN217579232U CN202221107217.9U CN202221107217U CN217579232U CN 217579232 U CN217579232 U CN 217579232U CN 202221107217 U CN202221107217 U CN 202221107217U CN 217579232 U CN217579232 U CN 217579232U
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Abstract
The utility model relates to a cold-proof antistatic fabric of heat accumulation belongs to the fabrics field. The yarn is formed by interweaving warp yarns and weft yarns, the warp yarns and/or the weft yarns are yarn A and yarn B/conductive yarn plied yarns which are arranged at intervals, the yarn A is polyester yarn or nylon yarn, and the yarn B is polyester yarn or nylon yarn; the twisted yarns of the yarn B/the conductive yarns are arranged at intervals, the fabric is in a strip shape or a grid shape, static electricity on a person is released through the conductive yarns when the fabric is worn, and meanwhile, the fabric adopts graphene terylene or graphene chinlon, so that the fabric has a lasting antistatic heat-storage warm-keeping effect.
Description
Technical Field
The utility model relates to a textile sector, concretely relates to cold-proof antistatic fabric of heat accumulation.
Background
The common heat storage fabric in the market adopts the method that the heat storage auxiliary agent is added by adding ceramic powder into raw materials before spinning or padding by a shaping padder to achieve a certain heat storage function, but the effect is not lasting and is gradually weakened after washing; in the aspect of antistatic property, a certain antistatic effect is basically achieved by adding an antistatic agent through sizing padding, and the antistatic effect of the treated fabric is gradually reduced after the fabric is washed for a short time.
The effect is not lasting, and is one of the technical problems to be solved of the fabric with the heat storage and antistatic functions in the market, and the heat storage and antistatic functions are not effectively and uniformly combined, and especially the requirement on the quality of lining materials is higher and higher.
Disclosure of Invention
Based on above-mentioned background art, the utility model discloses it is anticipated to relate to one kind and to be distinguished from conventional surface fabric in market, adopts on the section raw materials to add graphite alkene melt spinning through the surface fabric and spouts the graphite alkene dacron yarn that contains that the silk comes out, and according to certain tissue specification design with the conductive filament doubling, makes the surface fabric have cold-proof and antistatic properties concurrently.
A heat-storage warm-keeping antistatic fabric is formed by interweaving warp and weft yarns, and is characterized in that: the warp yarns and/or the weft yarns are formed by alternately arranging yarns A and yarns B/conductive yarn plied yarns, the yarns A are polyester yarns or nylon yarns, and the yarns B are polyester yarns or nylon yarns.
Further, the A yarn and the B yarn/conductive yarn are arranged according to the following arrangement ratio of 2-10.
Furthermore, the yarn A and the yarn B are both chinlon or terylene.
Furthermore, the yarn A and the yarn B are graphene polyester yarns, and the conductive yarns are polyester-based conductive yarns.
Further, the yarn A is FDY terylene or DTY terylene with the specification of 50D/48F or 50D/36F; the twisted yarn of the yarn B/the conductive yarn is a twisted yarn of graphene polyester yarn/polyester-based conductive yarn, the specification of the twisted yarn is 50D/36F graphene polyester yarn and 20D/3F polyester-based conductive yarn, and the twist of the twisted yarn is 5-10 twists/cm.
Furthermore, the yarn A and the yarn B are graphene nylon yarns, and the conductive yarn is nylon-based conductive yarn.
Further, the yarn A is nylon yarn with the specification of 50D/48F or 50D/36F; the B yarn/conductive yarn twisted yarn is a graphene nylon yarn/nylon-based conductive yarn twisted yarn, the specification of the B yarn/conductive yarn twisted yarn is 50D/36F graphene nylon yarn and 20D/3F nylon-based conductive yarn, and the twist of the twisted yarn is 5-10 twist/cm.
The fabric prepared by the scheme has the following beneficial effects:
1. through arranging the twisted yarns of the yarn B/the conductive yarn at intervals, the fabric is in a strip shape or a grid shape, static electricity on a person is released through the conductive yarn when the fabric is worn, close fitting and entanglement of clothes caused by the static electricity are eliminated, meanwhile, harm of the static electricity to a human body is eliminated, the uneasiness of the static electricity generated when the human body moves or is worn is eliminated, and the antistatic function is excellent; the antistatic effect of the conductive yarn is permanent, and the antistatic effect cannot be gradually reduced after washing, so that the conductive yarn is washing-resistant and free of dust and is easy to clean.
2. The graphene fiber is adopted, and is subjected to melt spinning and spinning by terylene or chinlon and graphene, so that the graphene fiber has the multifunctional characteristics of far infrared temperature rise, heat preservation, static resistance, antibiosis and the like.
3. The twisted yarns adopt low twist, so that the linear density of the twisted yarns is close to that of the parallel yarns A, the fabric is smooth and smooth after being woven, the problems of obvious horizontal strips and insufficient fineness of the fabric surface caused by the conductive yarns are solved, and the texture of the fabric is improved.
Drawings
Fig. 1 is a structural diagram of the present invention.
The yarn comprises 1, A yarn, 2, B yarn and 3, and conductive yarn.
Detailed Description
Example 1
As shown in fig. 1, the heat-storage warm-keeping antistatic fabric is formed by interweaving warp yarns and weft yarns, wherein the warp yarn 1 (i.e., yarn a) is FDY polyester yarn or DTY polyester yarn, and the weft yarn 2 (i.e., yarn B) is graphene polyester yarn and the weft yarn 3 (i.e., conductive yarn) is twisted yarn of graphene polyester yarn/polyester-based conductive yarn, and the twisted yarn is arranged at intervals of 2-10 (the schematic diagram is 2:1, and is only used for convenience of illustration). The fabric can be designed into plain weave, twill weave or other structural weaves according to design requirements.
The twisted yarns of the graphene polyester yarns/polyester-based conductive yarns in the weft yarns form a strip-shaped loop, so that the fabric has good conductivity and an antistatic effect.
The specification of the warp yarn polyester can be selected to be 50D/48F, the twisted yarn of the graphene polyester yarn/polyester-based conductive yarn in the weft yarn can be formed by doubling and low-twisting the 50D/36F graphene polyester yarn and the 20D/3F polyester-based conductive yarn, and the twist is controlled to be 5-10 twists/m; the folded yarns are basically similar to the specifications of the warp yarns 1 and the weft yarns 1 (by analogy, the specification of the folded yarns is reasonably selected according to the specification of single yarns for twisting), the fabric is smooth and smooth after being woven, the problems that the fabric surface cross strips are obvious and the fabric surface is not fine and smooth enough due to the conductive yarns are solved, and the texture of the fabric is improved.
Example 2
The difference between this embodiment and embodiment 1 is that the warp yarn is graphene polyester yarn.
Example 3
The difference between the embodiment and the embodiment 1 is that the twisted yarns of the fabric warp and weft yarns are respectively graphene polyester yarns and graphene polyester yarns/polyester-based conductive yarns and are arranged at intervals of 2-10. The twisted yarns of the graphene polyester yarns/polyester-based conductive yarns in the warp yarns and the weft yarns are interwoven into a net-shaped loop, so that the fabric has better conductivity.
Example 4
The present embodiment is different from the above embodiments in that the polyester yarn is replaced with the nylon yarn. The nylon-based conductive yarn can be used for more effectively protecting the conductive yarn in the alkali weight reduction treatment process.
In addition, the nylon and the terylene can be matched together for use according to the design style of the fabric.
It should be noted that the above embodiments are only preferred embodiments for clearly explaining the present invention, and those skilled in the art should make various changes and additions without inventive step on the basis of the present invention, which fall within the protection scope of the present invention.
Claims (6)
1. The heat-storage warm-keeping antistatic fabric is formed by interweaving warp yarns and weft yarns, and is characterized in that: the warp yarns and/or the weft yarns are yarn A and yarn B/conductive yarn plied yarns which are arranged at intervals, the yarn A is polyester yarns or nylon yarns, and the yarn B is graphene polyester yarns or graphene nylon yarns.
2. The heat-storage warm-keeping antistatic fabric as claimed in claim 1, characterized in that: the yarn A and the yarn B/conductive silk plied yarn are arranged at intervals of 2-10.
3. The heat-storage warm-keeping antistatic fabric as claimed in claim 1, wherein: the yarn A is polyester yarn or graphene polyester yarn, and the yarn B/conductive yarn plied yarn is graphene polyester yarn/polyester-based conductive yarn plied yarn.
4. The heat-storage warm-keeping antistatic fabric as claimed in claim 1, characterized in that: the yarn A is a nylon yarn or a graphene nylon yarn, and the yarn B is a graphene nylon yarn/nylon-based conductive yarn twisted yarn.
5. The heat-storage warm-keeping antistatic fabric according to claim 3, characterized in that: the yarn A is FDY terylene or DTY terylene with the specification of 50D/48F or 50D/36F; the twisted yarn of the graphene polyester yarn/polyester-based conductive yarn is a twisted yarn of 50D/36F graphene polyester yarn and 20D/3F polyester-based conductive yarn, and the twist of the twisted yarn is 5-10 twists/cm.
6. The heat-storage warm-keeping antistatic fabric according to claim 4, characterized in that: the yarn A is nylon yarn with the specification of 50D/48F or 50D/36F; the twisted yarn of the graphene nylon yarn/nylon-based conductive yarn is a twisted yarn of 50D/36F graphene nylon yarn and 20D/3F nylon-based conductive yarn, and the twist of the twisted yarn is 5-10 twists/cm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202221107217.9U CN217579232U (en) | 2022-05-10 | 2022-05-10 | Heat-storage warm-keeping antistatic fabric |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202221107217.9U CN217579232U (en) | 2022-05-10 | 2022-05-10 | Heat-storage warm-keeping antistatic fabric |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN217579232U true CN217579232U (en) | 2022-10-14 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202221107217.9U Active CN217579232U (en) | 2022-05-10 | 2022-05-10 | Heat-storage warm-keeping antistatic fabric |
Country Status (1)
| Country | Link |
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| CN (1) | CN217579232U (en) |
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2022
- 2022-05-10 CN CN202221107217.9U patent/CN217579232U/en active Active
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