CN211390437U - Knitted fabric with flame-retardant function - Google Patents
Knitted fabric with flame-retardant function Download PDFInfo
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- CN211390437U CN211390437U CN201922417108.1U CN201922417108U CN211390437U CN 211390437 U CN211390437 U CN 211390437U CN 201922417108 U CN201922417108 U CN 201922417108U CN 211390437 U CN211390437 U CN 211390437U
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Abstract
The utility model belongs to the technical field of the fabrics, especially, a looped fabric with fire-retardant function, including the looped fabric, the lower fixed surface of looped fabric bonds the ice silk layer, and the last fixed surface of looped fabric bonds and has the silicon rubber fiber layer, and the last fixed surface of silicon rubber fiber layer bonds and has the polyamide layer. This looped fabric with fire-retardant function, it has the silicon rubber fibrous layer to bond through the last fixed surface who sets up the looped fabric, the last fixed surface of silicon rubber fibrous layer bonds and has the polyamide layer, the last fixed surface on polyamide layer bonds and has the polyimide fibrous layer, it realizes carrying out fire-retardant measure to the looped fabric through the fire-retardant layer of multilayer to have reached, the fire-retardant layer of multilayer all has the characteristics that the heating is not melted simultaneously, and then avoided causing the effect of burning to human skin, it is when wearing to have solved current looped fabric, in case looped fabric and burning source contact, not only flame retardant efficiency is poor, easily cause the problem of serious burn to human skin.
Description
Technical Field
The utility model relates to a fabrics technical field especially relates to a looped fabric with fire-retardant function.
Background
The knitted fabric is a fabric formed by bending yarns into loops by using a knitting needle and interlooping the loops, and is classified into a single-side weft (warp) knitted fabric and a double-side weft (warp) knitted fabric according to a processing method. The knitted fabric has rebound elasticity and is not easy to deform.
Present looped fabric is when wearing, in case the looped fabric contacts with the burning things which may cause a fire disaster, synthetic fiber heating in the looped fabric easily melts, becomes liquid, drips to spatter and causes serious burn in human skin, and the gas permeability is poor simultaneously, does not have antibiotic deodorant effect, and then leads to the looped fabric suitability poor.
Therefore, a knitted fabric having a flame retardant function is required.
SUMMERY OF THE UTILITY MODEL
Based on current looped fabric when wearing, in case looped fabric and burning source contact, not only flame retardant efficiency is poor, easily causes serious burn to human skin, and the gas permeability is poor moreover, does not have antibiotic deodorant effect, and then leads to the poor technical problem of looped fabric suitability, the utility model provides a looped fabric with flame retardant function.
The utility model provides a looped fabric with flame retardant function, including the looped fabric, the lower fixed surface of looped fabric bonds the ice silk layer, the last fixed surface of looped fabric bonds and has the silicon rubber fibre layer, the last fixed surface of silicon rubber fibre layer bonds and has the polyamide layer, the last fixed surface on polyamide layer bonds and has the polyimide fibre layer, the last fixed surface on polyimide fibre layer bonds and has the aramid fiber layer, the last fixed surface on aramid fiber layer bonds and has the basalt fibre layer.
The modified polyacrylonitrile fiber layer is fixedly bonded on the upper surface of the modified polyacrylonitrile fiber layer, the aluminum silicate fiber layer is fixedly bonded on the upper surface of the aluminum silicate fiber layer, the ceramic fiber layer is fixedly bonded on the upper surface of the ceramic fiber layer, and the silver fiber layer is fixedly bonded on the upper surface of the ceramic fiber layer.
Preferably, the knitted fabric is made of a linen fabric, ice silk is arranged inside the ice silk layer, and silicon rubber fibers are arranged inside the silicon rubber fiber layer pairs;
through above-mentioned technical scheme, increased the gas permeability of looped fabric, improved the comfort level when wearing under the hot environment simultaneously, carry out fire-retardant measure to the looped fabric simultaneously.
Preferably, polyamide is arranged inside the polyamide layer, and polyimide fibers are arranged inside the polyimide fiber layer;
through above-mentioned technical scheme, the polyamide layer uses with the cooperation of polyimide fibre layer, carries out double-deck fire-retardant measure to the looped fabric.
Preferably, aramid fibers are arranged inside the aramid fiber layer, and basalt fibers are arranged inside the basalt fiber layer;
through the technical scheme, the aramid fiber layer and the basalt fiber layer are matched for use, and double-layer flame retardant measures are carried out on the knitted fabric.
Preferably, the polyphenylene sulfide fiber layer is provided with polyphenylene sulfide fibers, and the polysulfonamide fibers are arranged inside the polysulfonamide fiber layer;
through the technical scheme, the polyphenylene sulfide fiber layer and the polysulfonamide fiber layer are matched for use, and double-layer flame-retardant measures are carried out on the knitted fabric.
Preferably, modacrylic fibers are arranged inside the modacrylic fiber layer, and aluminum silicate fibers are arranged inside the aluminum silicate fiber layer;
through the technical scheme, the modified polyacrylonitrile fiber layer and the aluminum silicate fiber layer are matched for use, and double-layer flame retardant measures are carried out on the knitted fabric.
Preferably, ceramic fibers are arranged inside the ceramic fiber layer, and silver fibers are arranged inside the silver fiber layer;
through above-mentioned technical scheme, realize carrying out multilayer fire-retardant measure to the looped fabric, the fire-retardant layer of multilayer all has the heating simultaneously and is not melted the characteristics, and then has avoided causing the effect of burning to human skin, and silver fibrous layer makes the looped fabric have antibiotic deodorant effect.
The utility model provides a beneficial effect does:
1. through the lower fixed surface bonding ice silk layer that sets up the looped fabric, reached the gas permeability that increases the looped fabric, improved the effect of the comfort level when wearing under the hot environment simultaneously, it is poor to have solved current looped fabric gas permeability, leads to the poor problem of looped fabric suitability.
2. There is the silicon rubber fibrous layer through the last fixed surface who sets up the looped fabric bonding, the last fixed surface of silicon rubber fibrous layer bonds and has the polyamide layer, the last fixed surface on polyamide layer bonds and has the polyimide fibrous layer, it realizes carrying out fire-retardant measure to the looped fabric through the fire-retardant layer of multilayer to have reached, the fire-retardant layer of multilayer all has the characteristics that the heating is not melted simultaneously, and then avoided causing the effect of burning to human skin, when having solved current looped fabric and wearing, in case looped fabric and burning source contact, not only flame retardant efficiency is poor, easily cause the problem of serious burn to human skin.
3. The silver fiber layer is bonded on the upper surface of the ceramic fiber layer, the antibacterial and deodorant effect of the knitted fabric is increased, the problem that the existing knitted fabric does not have the antibacterial and deodorant effect, and the applicability of the knitted fabric is poor is solved.
Drawings
Fig. 1 is a schematic view of a knitted fabric with a flame retardant function.
In the figure: 1. knitted fabric; 2. a layer of ice silk; 3. a silicone rubber fiber layer; 4. a polyamide layer; 5. a polyimide fiber layer; 6. an aramid fiber layer; 7. a basalt fiber layer; 8. a polyphenylene sulfide fiber layer; 9. a polysulfonamide fiber layer; 10. a layer of modacrylic fiber; 11. a layer of aluminium silicate fibres; 12. a ceramic fiber layer; 13. a silver fiber layer.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1, a knitted fabric with a flame retardant function comprises a knitted fabric 1, wherein a rayon layer 2 is fixedly bonded to the lower surface of the knitted fabric 1, and a silicone rubber fiber layer 3 is fixedly bonded to the upper surface of the knitted fabric 1;
further, the knitted fabric 1 is made of a linen fabric, ice silk is arranged inside the ice silk layer 2, and silicon rubber fibers are arranged inside the silicon rubber fiber layer 3;
further, through above-mentioned technical scheme, increased the gas permeability of looped fabric 1, improved the comfort level when wearing under the hot environment simultaneously, carry out fire-retardant measure to looped fabric 1 simultaneously.
Further, through the lower fixed surface bonding ice silk layer 2 that sets up looped fabric 1, reached the gas permeability that increases looped fabric 1, improved the effect of the comfort level when wearing under the hot environment simultaneously, it is poor to have solved current looped fabric 1 gas permeability, leads to the poor problem of looped fabric 1 suitability.
A polyamide layer 4 is fixedly bonded on the upper surface of the silicon rubber fiber layer 3, and a polyimide fiber layer 5 is fixedly bonded on the upper surface of the polyamide layer 4;
furthermore, polyamide is arranged inside the polyamide layer 4, and polyimide fibers are arranged inside the polyimide fiber layer 5;
further, through above-mentioned technical scheme, polyamide layer 4 uses with polyimide fiber layer 5 cooperation, carries out double-deck fire-retardant measure to looped fabric 1.
An aramid fiber layer 6 is fixedly bonded on the upper surface of the polyimide fiber layer 5, and a basalt fiber layer 7 is fixedly bonded on the upper surface of the aramid fiber layer 6.
Furthermore, aramid fibers are arranged inside the aramid fiber layer 6, and basalt fibers are arranged inside the basalt fiber layer 7;
further, according to the technical scheme, the aramid fiber layer 6 and the basalt fiber layer 7 are matched for use, and double-layer flame retardant measures are carried out on the knitted fabric 1.
The upper surface of the basalt fiber layer 7 is fixedly bonded with a polyphenylene sulfide fiber layer 8, and the upper surface of the polyphenylene sulfide fiber layer 8 is fixedly bonded with an polysulfonamide fiber layer 9;
further, the polyphenylene sulfide fiber layer 8 is provided with polyphenylene sulfide fibers, and the polysulfonamide fibers are arranged inside the polysulfonamide fiber layer 9;
further, according to the technical scheme, the polyphenylene sulfide fiber layer 8 and the polysulfonamide fiber layer 9 are matched for use, and double-layer flame retardant measures are carried out on the knitted fabric 1.
A modified polyacrylonitrile fiber layer 10 is fixedly bonded on the upper surface of the polysulfonamide fiber layer 9, and an aluminum silicate fiber layer 11 is fixedly bonded on the upper surface of the modified polyacrylonitrile fiber layer 10;
furthermore, modacrylic fibers are arranged inside the modacrylic fiber layer 10, and aluminum silicate fibers are arranged inside the aluminum silicate fiber layer 11;
further, according to the technical scheme, the modified polyacrylonitrile fiber layer 10 and the aluminum silicate fiber layer 11 are matched for use, and double-layer flame retardant measures are carried out on the knitted fabric 1.
Further, it has silicon rubber fiber layer 3 to bond through the last fixed surface who sets up looped fabric 1, the last fixed surface of silicon rubber fiber layer 3 bonds and has polyamide layer 4, the last fixed surface of polyamide layer 4 bonds and has polyimide fiber layer 5, it realizes carrying out fire-retardant measure to looped fabric 1 through the fire-retardant layer of multilayer to have reached, the fire-retardant layer of multilayer all has the characteristics that the heating is not melted simultaneously, and then avoided causing the effect of burning to human skin, current looped fabric 1 when wearing has been solved, in case looped fabric 1 contacts with the burning source, not only flame retardant efficiency is poor, easily cause the problem of serious burn to human skin.
The ceramic fiber layer 12 is fixedly bonded on the upper surface of the aluminum silicate fiber layer 11, and the silver fiber layer 13 is fixedly bonded on the upper surface of the ceramic fiber layer 12.
Further, ceramic fibers are arranged inside the ceramic fiber layer 12, and silver fibers are arranged inside the silver fiber layer;
further, through above-mentioned technical scheme, realize carrying out multilayer fire-retardant measure to looped fabric 1, multilayer fire-retardant layer all has the heating simultaneously and is not melted the characteristics, and then has avoided causing the effect of burning to human skin, and silver fibrous layer makes looped fabric 1 have antibiotic deodorant effect.
Further, the silver fiber layer is bonded through the upper surface fixing of the ceramic fiber layer 12, the antibacterial and deodorant effect of the knitted fabric 1 is increased, the problem that the existing knitted fabric 1 does not have the antibacterial and deodorant effect, and the applicability of the knitted fabric 1 is poor is solved.
Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.
Claims (7)
1. A knitted fabric with a flame retardant function comprises a knitted fabric (1) and is characterized in that: the lower surface of the knitted fabric (1) is fixedly bonded with an ice silk layer (2), the upper surface of the knitted fabric (1) is fixedly bonded with a silicone rubber fiber layer (3), the upper surface of the silicone rubber fiber layer (3) is fixedly bonded with a polyamide layer (4), the upper surface of the polyamide layer (4) is fixedly bonded with a polyimide fiber layer (5), the upper surface of the polyimide fiber layer (5) is fixedly bonded with an aramid fiber layer (6), and the upper surface of the aramid fiber layer (6) is fixedly bonded with a basalt fiber layer (7);
the modified polyacrylonitrile fiber basalt fiber composite material is characterized in that a polyphenylene sulfide fiber layer (8) is fixedly bonded to the upper surface of the basalt fiber layer (7), an polysulfonamide fiber layer (9) is fixedly bonded to the upper surface of the polyphenylene sulfide fiber layer (8), a modified polyacrylonitrile fiber layer (10) is fixedly bonded to the upper surface of the polysulfonamide fiber layer (9), an aluminum silicate fiber layer (11) is fixedly bonded to the upper surface of the modified polyacrylonitrile fiber layer (10), a ceramic fiber layer (12) is fixedly bonded to the upper surface of the aluminum silicate fiber layer (11), and a silver fiber layer (13) is fixedly bonded to the upper surface of the ceramic fiber layer (12).
2. The knitted fabric with flame retardant function according to claim 1, wherein: the knitted fabric (1) is made of linen fabric, ice silk is arranged inside the ice silk layer (2), and silicon rubber fibers are arranged inside the silicon rubber fiber layer (3).
3. The knitted fabric with flame retardant function according to claim 1, wherein: the polyamide fiber composite material is characterized in that polyamide is arranged inside the polyamide layer (4), and polyimide fibers are arranged inside the polyimide fiber layer (5).
4. The knitted fabric with flame retardant function according to claim 1, wherein: aramid fibers are arranged inside the aramid fiber layer (6), and basalt fibers are arranged inside the basalt fiber layer (7).
5. The knitted fabric with flame retardant function according to claim 1, wherein: the polyphenylene sulfide fiber layer (8) is provided with polyphenylene sulfide fibers, and the polysulfonamide fibers are arranged inside the polysulfonamide fiber layer (9).
6. The knitted fabric with flame retardant function according to claim 1, wherein: the modified polyacrylonitrile fiber is arranged inside the modified polyacrylonitrile fiber layer (10), and the aluminum silicate fiber is arranged inside the aluminum silicate fiber layer (11).
7. The knitted fabric with flame retardant function according to claim 1, wherein: ceramic fibers are arranged inside the ceramic fiber layer (12), and silver fibers are arranged inside the silver fiber layer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201922417108.1U CN211390437U (en) | 2019-12-30 | 2019-12-30 | Knitted fabric with flame-retardant function |
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CN201922417108.1U CN211390437U (en) | 2019-12-30 | 2019-12-30 | Knitted fabric with flame-retardant function |
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CN211390437U true CN211390437U (en) | 2020-09-01 |
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CN201922417108.1U Active CN211390437U (en) | 2019-12-30 | 2019-12-30 | Knitted fabric with flame-retardant function |
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CN (1) | CN211390437U (en) |
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2019
- 2019-12-30 CN CN201922417108.1U patent/CN211390437U/en active Active
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