CN2409221Y - Ultra-soft dry reverse-osmosis-prevention all-fibre netty shell fabric - Google Patents

Abstract

The utility model relates to an ultra-soft dry reverse-osmosis-prevention all-fibre netty shell fabric, which is characterized in that the utility model is composed of a hydrophobic fiber net surface layer 1 and a hydrophilic fiber net inner layer 2 which are formed compositely. The composite shell fabric can be provided with liquid penetration holes 3 of various shapes, which can form warp and weft staggered arrangement or interwoven arrangement, or form certain of patterns. The surface tension of water is low owing to the utilization of a hydrophobic net layer and a hydrophilic fiber net layer. Since liquid can be drained by hydrophilic fiber, and liquid can be repelled by hydrophobic fiber, the utility model has the functions of one-way liquid penetration and reverse osmosis prevention. The utility model, with the advantages of ultra softness, complete liquid penetration, dry and comfortable surface, excellent skin contacting performance, no allergic reaction, etc., is particularly suitable for the shell fabric of sanitary articles, such as sanitary towels, napkins, etc.

Description

Super soft, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention

The utility model relates to the amenities material, particularly a kind of super softness, dry and comfortable, full fiber netty shell fabric of reverse-osmosis-prevention that is specially adapted to amenitiess such as sanitary napkin, panty liner, baby diaper, medical bed mattress.

Existing amenities as: health by the lining of, baby diaper, all with common non-woven fabric or PE making hole film.Make lining with common non-woven fabric, its weak point is: sepage speed is slow, sepage is not thorough, institute's sepage body easily returns and oozes, and causes the surface not dry and comfortable, influences result of use; Make lining with the PE making hole film, its weak point is: plastic sense is strong, skin-friendly and flexibility are poor, in use, easily causes allergic reaction.

The purpose of this utility model designs a kind of sepage faster exactly, and sepage is complete, skin-friendly is good, good permeability, no anaphylactoid super softness, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention.

The purpose of this utility model is to realize that by such technical scheme promptly a kind of super softness, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention is characterized in that: by hydrophobic fiber net top layer with hydrophilic fibers net internal layer is compound constitutes.

On composite, be processed with liquid-leadage hole or do not process liquid-leadage hole, by in the fibre web between fiber pore carry out sepage.

The utility model utilize hydrophobic fiber stratum reticulare and hydrophilic fibers stratum reticulare to the surface tension of water poor-hydrophilic fibers draining fluids rapidly, hydrophobic fiber can repel liquid, thus have unidirectional sepage, and reverse-osmosis-prevention leak function.

The utility model compared with prior art has: lining is made up of two-layer full fiber web of different nature, have sepage rapidly, gas permeability and advantage such as skin-friendly is fabulous, the surface is dry and comfortable, anti-back infiltration, super soft, no allergic reaction use are comfortable.

Said structure of the present utility model is further specified by accompanying drawing.

The utility model is by following accompanying drawing:

Fig. 1 is a structure cutaway view of the present utility model;

Fig. 2 is the mesh longitude and latitude plane of example 1 circular liquid-leadage hole of the present utility model;

Fig. 3 is the mesh dislocation plane of example 2 circular liquid-leadage holes of the present utility model;

Fig. 4 is the mesh longitude and latitude plane of example 3 square liquid-leadage holes of the present utility model;

Fig. 5 is the mesh dislocation plane of example 4 square liquid-leadage holes of the present utility model;

Fig. 6 is the mesh longitude and latitude plane of example 5 bar shaped liquid-leadage holes of the present utility model;

Fig. 7 is the mesh dislocation plane of example 6 bar shaped liquid-leadage holes of the present utility model;

Fig. 8 is the mesh longitude and latitude plane of example 7 oval liquid-leadage holes of the present utility model;

Fig. 9 is the mesh dislocation plane of example 7 oval liquid-leadage holes of the present utility model;

Figure 10 is the mesh longitude and latitude plane of example 9 rhombus liquid-leadage holes of the present utility model;

Figure 11 is the mesh dislocation plane of example 10 rhombus liquid-leadage holes of the present utility model;

Figure 12 is the mesh longitude and latitude plane of example 11 regular hexagon liquid-leadage holes of the present utility model;

Figure 13 is the mesh dislocation plane of example 12 regular hexagon liquid-leadage holes of the present utility model;

Figure 14 is the mesh longitude and latitude plane of example 13 triangle liquid-leadage holes of the present utility model;

Figure 15 is mesh dislocation (one) plane of example 14 triangle liquid-leadage holes of the present utility model;

Figure 16 is mesh dislocation (two) plane of example 15 triangle liquid-leadage holes of the present utility model.

Referring to accompanying drawing 1, it is characterized in that of the super softness among the figure, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention: constitute by hydrophobic fiber net top layer 1 and hydrophilic fibers net internal layer 2 are compound.

Above-mentioned hydrophobic fiber stratum reticulare 1 and hydrophilic fibers stratum reticulare 2 can be through heat bonding or chemistry, physical adhesion and compound formation.

A most preferred embodiment of the present utility model is to be processed with liquid-leadage hole 3 on above-mentioned composite material.

Referring to accompanying drawing 2, in the present embodiment, the mesh 3 of sepage is circular mesh, and it is arranged as longitude and latitude and arranges.

Referring to accompanying drawing 3, in the present embodiment, the mesh 3 of sepage is circular mesh, and it is arranged as dislocation and arranges.

Referring to accompanying drawing 4, in the present embodiment, the mesh 3 of sepage is square mesh, and it is arranged as longitude and latitude and arranges.

Referring to accompanying drawing 5, in the present embodiment, the mesh 3 of sepage is square mesh, and it is arranged as dislocation and arranges.

Referring to accompanying drawing 6, in the present embodiment, the mesh 3 of sepage is the bar shaped mesh, and it is arranged as longitude and latitude and arranges.

Referring to accompanying drawing 7, in the present embodiment, the mesh 3 of sepage is the bar shaped mesh, and it is arranged as dislocation and arranges.

Referring to accompanying drawing 8, in the present embodiment, the mesh 3 of sepage is oval mesh, and it is arranged as longitude and latitude and arranges.

Referring to accompanying drawing 9, in the present embodiment, the mesh 3 of sepage is oval mesh, and it is arranged as dislocation and arranges.

Referring to accompanying drawing 10, in the present embodiment, the mesh 3 of sepage is a diamond-shaped meshes, and it is arranged as longitude and latitude and arranges.

Referring to accompanying drawing 11, in the present embodiment, the mesh 3 of sepage is a diamond-shaped meshes, and it is arranged as dislocation and arranges.

Referring to accompanying drawing 12, in the present embodiment, the mesh 3 of sepage is the regular hexagon mesh, and it is arranged as longitude and latitude and arranges.

Referring to accompanying drawing 13, in the present embodiment, the mesh 3 of sepage is the regular hexagon mesh, and it is arranged as dislocation and arranges.

Referring to accompanying drawing 14, in the present embodiment, the mesh 3 of sepage is the triangle mesh, and it is arranged as longitude and latitude and arranges.

Referring to accompanying drawing 15, in the present embodiment, the mesh 3 of sepage is the triangle mesh, and it is arranged as dislocation and arranges.

Referring to accompanying drawing 16, in the present embodiment, the mesh 3 of sepage is the triangle mesh, and it is arranged as dislocation and arranges.

That mesh shape of the present utility model also can be is square, bar shaped, polygon, rhombus, can be the longitude and latitude proper alignment on lining, also can be dislocation arrangement, and can become the herringbone proper alignment again, also can change the various patterns of size composition in hole.

What the utility model was applicable to amenitiess such as making sanitary napkin, panty liner, baby diaper, medical bed mattress touches the skin lining.

Claims (4)

1. super soft, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention is characterized in that: by hydrophobic fiber net top layer (1) and the compound formation of hydrophilic fibers net internal layer (2).

2. super softness according to claim 1, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention is characterized in that: be processed with liquid-leadage hole (3) on the composite material.

3. super softness according to claim 2, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention is characterized in that: liquid-leadage hole is circular or oval or polygon or triangle or bar shaped.

4. according to claim 2 or 3 described super softnesses, dry and comfortable, the full fiber netty shell fabric of reverse-osmosis-prevention, it is characterized in that: the mesh of sepage (3) is the longitude and latitude proper alignment, also can be dislocation arrangement, or arranged in patterns.

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