CN205728370U - A kind of Moisture absorption shoe-pad - Google Patents

Abstract

This utility model relates to a kind of Moisture absorption shoe-pad, including shoe pad substrate layer, a buffer tree lipid layer it is bonded with above described shoe pad substrate layer, a non-woven fabrics surface layer it is bonded with above described buffer tree lipid layer, upper surface at described non-woven fabrics surface layer is bonded with a biphase air-permeable layer of hydrophobic water suction by adhesive, upper surface in described buffer tree lipid layer then offers the cavity volume of a plurality of indent, and is all filled with diatom ooze material in the cavity volume of each indent.Top layer of the present utility model is provided with hydrophobic water suction silk, steam in footwear is due to the effect of hydrophobic material, will not gather on top layer, all it is transferred to non-woven fabrics surface layer by absorbent material portion, thus the dry comfortable of this shoe insole surface can be kept, this shoe pad is contained within these environment-friendly materials of diatom ooze simultaneously, can effectively moisture absorption, and the humidity environment in footwear is automatically adjusted to optimum level, it is greatly improved snugness of fit.

Description

A kind of Moisture absorption shoe-pad

Technical field

This utility model relates to footwear material technical field, particularly relates to a kind of Moisture absorption shoe-pad.

Background technology

Shoes are one way of life articles for use indispensable in people's daily life.In the wearing process of shoes, the change of footwear humidity environment is the key factor affecting wearing comfort.When summer, the most damp and the hottest in footwear, easily produce tinea pedis, particularly when human body is run, foot distributes amount of heat, and footwear humidity can be made to raise rapidly, general just like " foot bath ".Therefore, develop a kind of can effectively moisture absorption shoe pad for improve shoes snugness of fit significant.

Utility model content

Therefore, for above-mentioned problem, the utility model proposes a kind of Moisture absorption shoe-pad.

For realizing above-mentioned technical problem, the solution that this utility model is taked is: a kind of Moisture absorption shoe-pad, including shoe pad substrate layer, a buffer tree lipid layer it is bonded with above described shoe pad substrate layer, a non-woven fabrics surface layer it is bonded with above described buffer tree lipid layer, upper surface at described non-woven fabrics surface layer is bonded with a biphase air-permeable layer of hydrophobic water suction by adhesive, upper surface in described buffer tree lipid layer then offers the cavity volume of a plurality of indent, and is all filled with diatom ooze material in the cavity volume of each indent.

Improve further: described buffer tree lipid layer includes layer of silica gel or rubber layer.

Improve further: the thickness of described non-woven fabrics surface layer is 0.8-1.5mm.

Improve further: the described biphase air-permeable layer of hydrophobic water suction includes hydrophobic water suction silk, and the side of the close non-woven fabrics surface layer of described hydrophobic water suction silk is absorbent material, and opposite side is hydrophobic material.

Improve further: described diatom ooze material is full of the cavity volume of whole indent.

Diatom ooze primary raw material is derived from the diatom mineral kieselguhr that ocean seaweed plant was formed through 1 years.Diatom is one way of life seaweeds in ocean, and diatom deposition also forms diatom mineral after the mineralising of 1 years, and it is mainly composed of opal, and quality is soft, porous.Ultramicroscope shows, diatom mineral are a kind of micron-sized porous material (micro-pore diameter about 0.1-0.2 microns), porosity is up to 90%, rule, fitly it is arranged in circle and aciculiform, minute aperture quantity in its unit are goes out thousands of times more than Linesless charcoal, prominent molecular lattice structure feature, determines the function of its uniqueness.Therefore so that diatom ooze has elimination formaldehyde, purifies the function such as air, regulation humidity, releasing negative oxygen ion, fire protection flame retarding, self-cleaning, deodorization and sterilization.

nullBy using preceding solution，The beneficial effects of the utility model are: the particular design of this utility model each level order is to draw through repetition test，It it not simple superposition，This shoe pad top layer is provided with hydrophobic water suction silk，Steam in footwear is due to the effect of hydrophobic material，Will not gather on top layer，All it is transferred to non-woven fabrics surface layer by absorbent material portion，Thus the dry comfortable of this shoe insole surface can be kept，This shoe pad is contained within these environment-friendly materials of diatom ooze simultaneously，Can effectively moisture absorption，And the humidity environment in footwear is automatically adjusted to optimum level，It is greatly improved snugness of fit，Diatom ooze is because of the molecular structure of its uniqueness simultaneously，Absorption and decomposition to moisture can produce " water fall effect "，Water-molecule dissociation is just being become、Anion，Anion has extremely strong sterilizing ability，Bacteriostasis rate is up to more than 96% after testing，Can effectively kill the various antibacterials in footwear、Mycete，In addition anion also can effectively deodorization，Notable for treatment tinea pedis effect.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

In conjunction with the drawings and specific embodiments, this utility model is further illustrated.

nullWith reference to Fig. 1，This utility model embodiment disclose be，A kind of Moisture absorption shoe-pad，Including shoe pad substrate layer 1，In the present embodiment，Described shoe pad substrate layer 1 selects polyurethane foaming layer，A buffer tree lipid layer 2 it is bonded with above described shoe pad substrate layer 1，The most described buffer tree lipid layer 2 selects layer of silica gel，Rubber layer is selected also dependent on needs in actual production，A non-woven fabrics surface layer 3 it is bonded with above described buffer tree lipid layer 2，The thickness of the most described non-woven fabrics surface layer 3 is 0.9mm，In actual production，As long as the thickness of this non-woven fabrics surface layer 3 all can implement the purpose of this utility model between 0.8-1.5，Upper surface at described non-woven fabrics surface layer 3 is bonded with a biphase air-permeable layer of hydrophobic water suction 4 by adhesive，The most described biphase air-permeable layer of hydrophobic water suction 4 includes hydrophobic water suction silk，The side of the close non-woven fabrics surface layer 3 of described hydrophobic water suction silk is absorbent material，Opposite side is hydrophobic material，Upper surface in described buffer tree lipid layer 2 then offers the cavity volume 5 of a plurality of indent，And in the cavity volume 5 of each indent, all it is filled with diatom ooze material 6，And in the present embodiment，Described diatom ooze material 6 is filled with the cavity volume 5 of whole indent.

Diatom ooze primary raw material is derived from the diatom mineral kieselguhr that ocean seaweed plant was formed through 1 years.Diatom is one way of life seaweeds in ocean, and diatom deposition also forms diatom mineral after the mineralising of 1 years, and it is mainly composed of opal, and quality is soft, porous.Ultramicroscope shows, diatom mineral are a kind of micron-sized porous material (micro-pore diameter about 0.1-0.2 microns), porosity is up to 90%, rule, fitly it is arranged in circle and aciculiform, minute aperture quantity in its unit are goes out thousands of times more than Linesless charcoal, prominent molecular lattice structure feature, determines the function of its uniqueness.Therefore so that diatom ooze has elimination formaldehyde, purifies the function such as air, regulation humidity, releasing negative oxygen ion, fire protection flame retarding, self-cleaning, deodorization and sterilization.

nullBy using preceding solution，The beneficial effects of the utility model are: the particular design of this utility model each level order is to draw through repetition test，It it not simple superposition，This shoe pad top layer is provided with hydrophobic water suction silk，Steam in footwear is due to the effect of hydrophobic material，Will not gather on top layer，All it is transferred to non-woven fabrics surface layer by absorbent material portion，Thus the dry comfortable of this shoe insole surface can be kept，This shoe pad is contained within these environment-friendly materials of diatom ooze simultaneously，Can effectively moisture absorption，And the humidity environment in footwear is automatically adjusted to optimum level，It is greatly improved snugness of fit，Diatom ooze is because of the molecular structure of its uniqueness simultaneously，Absorption and decomposition to moisture can produce " water fall effect "，Water-molecule dissociation is just being become、Anion，Anion has extremely strong sterilizing ability，Bacteriostasis rate is up to more than 96% after testing，Can effectively kill the various antibacterials in footwear、Mycete，In addition anion also can effectively deodorization，Notable for treatment tinea pedis effect.

Although specifically showing in conjunction with preferred embodiment and describing this utility model; implement this technical scheme method and approach is a lot; the above is only preferred implementation of the present utility model; but those skilled in the art should be understood that; in the spirit and scope of the present utility model limited without departing from appended claims; this utility model can be made a variety of changes in the form and details, be protection domain of the present utility model.

Claims (5)

1. a Moisture absorption shoe-pad, including shoe pad substrate layer, a buffer tree lipid layer it is bonded with above described shoe pad substrate layer, a non-woven fabrics surface layer it is bonded with above described buffer tree lipid layer, it is characterized in that: the upper surface at described non-woven fabrics surface layer is bonded with a biphase air-permeable layer of hydrophobic water suction by adhesive, upper surface in described buffer tree lipid layer then offers the cavity volume of a plurality of indent, and is all filled with diatom ooze material in the cavity volume of each indent.

A kind of Moisture absorption shoe-pad the most according to claim 1, it is characterised in that: described buffer tree lipid layer includes layer of silica gel or rubber layer.

A kind of Moisture absorption shoe-pad the most according to claim 1, it is characterised in that: the thickness of described non-woven fabrics surface layer is 0.8-1.5mm.

A kind of Moisture absorption shoe-pad the most according to claim 1, it is characterised in that: the described biphase air-permeable layer of hydrophobic water suction includes hydrophobic water suction silk, and the side of the close non-woven fabrics surface layer of described hydrophobic water suction silk is absorbent material, and opposite side is hydrophobic material.

A kind of Moisture absorption shoe-pad the most according to claim 1, it is characterised in that: described diatom ooze material is full of the cavity volume of whole indent.