CN216885604U - Anti-static high-strength polyester fabric - Google Patents
Anti-static high-strength polyester fabric Download PDFInfo
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- CN216885604U CN216885604U CN202122197671.XU CN202122197671U CN216885604U CN 216885604 U CN216885604 U CN 216885604U CN 202122197671 U CN202122197671 U CN 202122197671U CN 216885604 U CN216885604 U CN 216885604U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
- Y02P70/62—Manufacturing or production processes characterised by the final manufactured product related technologies for production or treatment of textile or flexible materials or products thereof, including footwear
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Abstract
The utility model discloses an anti-static high-strength polyester fabric which comprises a polyester fabric layer, a breathable adhesive layer, an anti-static layer and a waterproof moisture-permeable film, wherein the breathable adhesive layer is arranged on the polyester fabric layer; the polyester fabric layer is formed by interweaving warps and wefts according to satin weave; the warp yarns are polyester core-spun yarns, and the weft yarns are viscose core-spun yarns; the core yarn of the polyester covering yarn comprises high-strength low-shrinkage polyester filament yarns, and the coating layer is made of flame-retardant polyester staple fibers; the core filament of the viscose core-spun yarn comprises high-strength low-shrinkage polyester filament, and the coating layer is made of flame-retardant viscose staple fiber; the anti-static layer is formed by interweaving regenerated anti-static polyester filaments. The strength of the whole polyester fabric can be improved by adopting the polyester fabric layer with the high-strength low-shrinkage polyester filaments as the raw material, and the regenerated anti-static polyester filaments are adopted, so that the polyester fabric has the anti-static capacity, and the surface-compounded waterproof moisture-permeable film enables the fabric to have a good waterproof effect. Can be used as the fabric for clothes, other tents and the like.
Description
Technical Field
The utility model relates to the technical field of textile fabrics, in particular to an anti-static high-strength polyester fabric.
Background
The terylene fabric is a very large chemical fiber garment fabric used in daily life, has the greatest advantage of good crease resistance and shape retention, and is suitable for being used as outdoor articles such as coat clothing, various bags and tents and the like; but current dacron surface fabric prevents that static effect is poor and waterproof strength is low, and it all can produce static under dry environment and when contacting with things such as external metal to reduce the comfort level of people's dress, can't block the infiltration of rainwater simultaneously, influenced people's comfort level with this. How to prepare a polyester fabric which has waterproof and breathable properties and can prevent static electricity and has high strength is a need.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an anti-static high-strength polyester fabric, wherein a polyester fabric layer which adopts high-strength low-shrinkage polyester filaments as raw materials can improve the strength of the whole polyester fabric, and regenerated anti-static polyester filaments are adopted, so that the polyester fabric has anti-static capability, and a waterproof moisture-permeable film compounded on the surface enables the fabric to have good waterproof effect.
In order to solve the technical problem, the utility model aims to realize that:
the utility model relates to an anti-static high-strength polyester fabric which comprises a polyester fabric layer, a breathable adhesive layer, an anti-static layer and a waterproof moisture-permeable film, wherein the anti-static layer is arranged on the polyester fabric layer;
the polyester fabric layer is formed by interweaving warps and wefts according to satin weave; the warp yarns are polyester core-spun yarns, and the weft yarns are viscose core-spun yarns; the core yarn of the polyester core-spun yarn comprises high-strength low-shrinkage polyester filament yarn, and the coating layer is made of flame-retardant polyester staple fiber; the core yarn of the viscose core-spun yarn comprises high-strength low-shrinkage polyester filament, and the coating layer is made of flame-retardant viscose staple fibers; the anti-static layer is formed by interweaving regenerated anti-static polyester filaments.
On the basis of the above scheme and as a preferable scheme of the scheme: the breathable adhesive layer is a polyurethane adhesive.
On the basis of the above scheme and as a preferable scheme of the scheme: the waterproof moisture-permeable membrane is a PTFE microporous membrane, a PU waterproof moisture-permeable membrane or a TPU waterproof moisture-permeable membrane.
On the basis of the above scheme and as a preferable scheme of the scheme: and a polylactic acid fabric layer is compounded on one side of the terylene fabric layer, which is far away from the antistatic layer, through the breathable adhesion layer.
On the basis of the above scheme and as a preferable scheme of the scheme: the polylactic acid fabric layer is formed by interweaving polylactic acid filaments serving as warp yarns and viscose staple fiber yarns serving as weft yarns according to satin weaves, wherein one side of the polylactic acid fabric layer is expressed as a warp floating long line and is a warp surface, and the other side of the polylactic acid fabric layer is expressed as a weft floating long line and is a weft surface.
The utility model has the beneficial effects that: according to the anti-static high-strength polyester fabric, the strength of the whole polyester fabric can be improved by adopting the polyester fabric layer with the high-strength low-shrinkage polyester filaments as the raw material, the regenerated anti-static polyester filaments are adopted, so that the polyester fabric has the anti-static capacity, and the fabric has a good waterproof effect due to the waterproof moisture-permeable film compounded on the surface. Can be used as the fabric for clothes, other tents and the like.
Drawings
FIG. 1 is a schematic structural view of an antistatic high-strength polyester fabric according to a first embodiment;
fig. 2 is a schematic structural view of the anti-static high-strength polyester fabric according to the second embodiment.
The designations in the figures illustrate the following: 1-a terylene fabric layer; 2-a breathable adhesive layer; 3-an antistatic layer; 4-waterproof moisture permeable film; 5-polylactic acid fabric layer.
Detailed Description
The utility model is further described with reference to the following figures and specific examples.
Example one
This embodiment will be described in detail with reference to fig. 1. The antistatic high-strength polyester fabric comprises a polyester fabric layer 1, a breathable adhesive layer 2, an antistatic layer 3 and a waterproof moisture-permeable film 4 in sequence. The terylene fabric layer 1 is adhered with the antistatic layer 3 through the air permeable adhesion layer 2, and the waterproof moisture permeable film 4 is compounded on the surface of the antistatic layer 3. The air-permeable adhesive layer 2 is a polyurethane adhesive, and has air-permeable performance while adhering the terylene fabric layer 1 and the antistatic layer 3. The waterproof moisture-permeable film 4 enables the fabric to have a good waterproof effect and also to be breathable, so that the fabric is breathable and not stuffy when being used.
The polyester fabric layer 1 is formed by interweaving warp yarns and weft yarns according to satin weave; the warp yarns are polyester core-spun yarns, and the weft yarns are viscose core-spun yarns; the core yarn of the polyester core-spun yarn comprises high-strength low-shrinkage polyester filament yarn, and the coating layer is made of flame-retardant polyester staple fiber; the core filament of the viscose core-spun yarn comprises high-strength low-shrinkage polyester filament, and the coating layer is made of flame-retardant viscose staple fiber. The high-strength low-shrinkage polyester filament yarns can improve the strength of the polyester fabric layer 1, so that the strength of the whole composite fabric is higher. And the warp is wrapped with flame-retardant polyester at the outside of high-strength low-shrinkage polyester filament yarn, and the weft is wrapped with flame-retardant viscose at the outside of high-strength low-shrinkage polyester filament yarn, so that the polyester fabric layer 1 has a good flame-retardant effect. The flame-retardant viscose fiber has good moisture absorption performance and can achieve the anti-static effect.
The antistatic layer 3 is formed by interweaving regenerated antistatic polyester filaments, and the regenerated antistatic polyester filaments enable the fabric to have a good antistatic effect.
Further, in this embodiment, the waterproof moisture-permeable membrane is a PTFE microporous membrane, a PU waterproof moisture-permeable membrane, or a TPU waterproof moisture-permeable membrane. In this example, a microporous PTFE membrane having a pore size between water molecules and air molecules is selected so that air can pass through the microporous PTFE membrane.
Example two
This embodiment will be described in detail with reference to fig. 2. According to the anti-static high-strength polyester fabric, the polylactic acid fabric layer 5 is compounded on one side, far away from the anti-static layer, of the polyester fabric layer through the breathable adhesion layer.
The polylactic acid fabric layer is formed by interweaving polylactic acid filaments as warp yarns and viscose staple fiber yarns as weft yarns according to satin weaves, wherein one side shows that the warp floating long lines are a warp surface, and the other side shows that the weft floating long lines are a weft surface.
The fabric is formed by interweaving polylactic acid filaments serving as warp yarns and viscose staple yarns serving as weft yarns according to a satin weave. The specific satin weave may be 5 satins or 8 satins, and one surface of the fabric exhibits warp floats as a warp surface and one surface of the fabric exhibits weft floats as a weft surface due to the satin property, and in this embodiment, the weft surface of the polylactic acid woven fabric is adjacent to the moisture-permeable adhesive layer 2. Because polylactic acid has good bacteriostatic ability, the breeding of bacteria can be avoided. The polylactic acid filament contact layer is contacted with the skin of a user, and the natural functions of skin-friendly and antibacterial, moisture-conducting and sweat-releasing, smoothness and breathability of the polylactic acid fiber are fully exerted on wearing the polylactic acid filament close to the body. And because the polylactic acid filament has poor moisture absorption performance and is difficult to absorb moisture, the body fluid secreted by a user can be guided to the weft surface side from the warp surface side when the user wears the fabric. Because the viscose fiber used on one side of the weft face has good moisture absorption capacity, liquid can be absorbed to one side of the weft face, so that the warp face is kept dry, and the use experience is improved.
The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.
Claims (5)
1. An anti-static high-strength polyester fabric is characterized by comprising a polyester fabric layer, a breathable adhesive layer, an anti-static layer and a waterproof moisture-permeable film;
the polyester fabric layer is formed by interweaving warps and wefts according to satin weave; the warp yarns are polyester core-spun yarns, and the weft yarns are viscose core-spun yarns; the core yarn of the polyester core-spun yarn comprises high-strength low-shrinkage polyester filament yarn, and the coating layer is made of flame-retardant polyester staple fiber; the core filament of the viscose core-spun yarn comprises high-strength low-shrinkage polyester filament, and the coating layer is made of flame-retardant viscose staple fiber; the anti-static layer is formed by interweaving regenerated anti-static polyester filaments.
2. The antistatic high-strength polyester fabric as claimed in claim 1, wherein the breathable adhesive layer is a polyurethane adhesive.
3. The anti-static high-strength polyester fabric according to claim 1, wherein the waterproof moisture-permeable film is a PTFE microporous film, a PU waterproof moisture-permeable film or a TPU waterproof moisture-permeable film.
4. The anti-static high-strength polyester fabric according to claim 1, wherein a polylactic acid fabric layer is compounded on one side of the polyester fabric layer away from the anti-static layer through a breathable adhesive layer.
5. The antistatic high-strength polyester fabric according to claim 4, wherein the polylactic acid fabric layer is formed by interweaving polylactic acid filaments as warp yarns and viscose staple yarns as weft yarns according to a satin weave, and one side of the polylactic acid fabric layer shows that the warp floats are warp surfaces and the other side shows that the weft floats are weft surfaces.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122197671.XU CN216885604U (en) | 2021-09-10 | 2021-09-10 | Anti-static high-strength polyester fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122197671.XU CN216885604U (en) | 2021-09-10 | 2021-09-10 | Anti-static high-strength polyester fabric |
Publications (1)
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CN216885604U true CN216885604U (en) | 2022-07-05 |
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CN202122197671.XU Active CN216885604U (en) | 2021-09-10 | 2021-09-10 | Anti-static high-strength polyester fabric |
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2021
- 2021-09-10 CN CN202122197671.XU patent/CN216885604U/en active Active
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