CN215455816U

CN215455816U - Antibacterial insole

Info

Publication number: CN215455816U
Application number: CN202121073086.2U
Authority: CN
Inventors: 余滕建
Original assignee: Fast Fish Clothing Co ltd
Current assignee: Fast Fish Clothing Co ltd
Priority date: 2021-05-19
Filing date: 2021-05-19
Publication date: 2022-01-11
Anticipated expiration: 2031-05-19

Abstract

The utility model provides an antibacterial insole, which comprises: dry and comfortable layer, sweat guide layer, antibiotic layer, wherein: the dry layer is made of quick-drying materials; the sweat guide layer is positioned below the dry and comfortable layer, the sweat guide layer has thickness, and the sweat guide layer has a rough lower surface; the antibacterial layer is positioned below the sweat guide layer and is made of antibacterial fibers or antibacterial foam, and the antibacterial layer is provided with first air holes. The antibacterial insole is characterized in that the insole body is provided with a dry layer made of a quick-drying material, and the dry layer is in contact with the sole of a user. The dry and comfortable layer made of the quick-drying material reduces the continuous contact of sweat and warm feet, and provides comfort for users; bacterial growth is reduced by the antibacterial layer.

Description

Antibacterial insole

Technical Field

The utility model relates to an insole, in particular to a breathable and antibacterial multilayer insole.

Background

Shoes include vamp and sole, and in order to reduce cost, improve production efficiency, the sole is integrated into one piece usually, along with the consumer to comfortable, ventilative waiting to wear the requirement of experiencing more and more high, often adopt the mode preparation sole of bonding or sewing connection with fashioned multilayer sole, for off-the-shelf pleasing to the eye, the insole can be pasted usually on the sole surface.

A user usually disposes an insole for a shoe separately, and the insole is movably arranged on the surface of a sole in the shoe, and the existing insole usually comprises a decorative layer and a buffer layer, wherein the decorative layer is attached to the upper surface of the buffer layer and is used for contacting with the sole of the foot; the buffer layer is in contact with the inner pad of the sole and is used for absorbing moisture and increasing elasticity.

For people with abundant sweat glands, moisture absorption, air permeability and deodorization are important criteria for selecting insoles, so that an insole with the functions of comfort and deodorization is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an antibacterial insole with a simple structure, which has comfortable and deodorizing functions and is convenient to match with different shoes.

In order to achieve the above object, the antibacterial insole of the present invention comprises: dry and comfortable layer, sweat guide layer, antibiotic layer, wherein:

the dry layer is made of quick-drying materials;

the sweat guide layer is positioned below the dry and comfortable layer, the sweat guide layer has thickness, and the sweat guide layer has a rough lower surface;

the antibacterial layer is positioned below the sweat guide layer and is made of antibacterial fibers or antibacterial foam, and the antibacterial layer is provided with first air holes.

The antibacterial insole is characterized in that the insole body is provided with a dry layer made of a quick-drying material, and the dry layer is in contact with the sole of a user. The dry and comfortable layer made of the quick-drying material reduces the continuous contact of sweat and warm feet, and provides comfort for users; bacterial growth is reduced by the antibacterial layer.

(for example: Nanofine FZO antibacterial fiber)

Preferably, the thickness of the antibacterial layer is larger than that of the sweat guide layer.

Preferably, the sweat guide layer is fixed under the dry layer by a textile process.

Preferably, the shoe pad further comprises a buffer layer, the buffer layer is located below the antibacterial layer, the buffer layer is provided with second air holes, and the buffer layer can be arranged to increase comfort of the shoe pad.

More preferably, the first air hole is smaller than the second air hole, and the insole with the structure is matched with a sole structure with the air holes, so that sweat volatilization is facilitated, and the sweat releasing, antibacterial and deodorizing effects are better.

More preferably, the shoe sole further comprises a slip prevention device, wherein the slip prevention device is positioned below the buffer layer and used for increasing the friction between the shoe sole and reducing the slip of the shoe sole.

More preferably, the buffer layer is made of an EVA foam material.

Preferably, the antibacterial layer is made of deodorant bamboo fibers.

In a preferred embodiment, after the buffer layer is added, the antibacterial insole can have different levels of antibacterial effect by adjusting the thicknesses of the antibacterial layer and the buffer layer.

Drawings

FIG. 1 is a front view of the shoe body structure of the present invention

FIG. 2 is a cross-sectional view taken along line AA in FIG. 1

Description of the main element symbols:

1 Dry layer

2 sweat guiding layer

3 antibacterial layer, 3a first air hole

4 buffer layer, 4a second air hole and 4b pattern

Detailed Description

For the sake of clarity, the antibacterial insole of the present invention will be further described with reference to the accompanying drawings.

The antibacterial insole shown in fig. 1 and 2 comprises: dry layer 1, sweat guide layer 2, antibiotic layer 3, wherein:

the dry layer 1 is made of a quick-drying material, and the quick-drying material has various choices, such as: COOLMAXCOOLMAX is the most common fabric with a relatively wide application range, is developed by DuPont, and has the outstanding characteristics of strong sweat absorption and perspiration functions; MONY-DRYMONI-DRY is a moisture-absorbing quick-drying fabric, is developed by COLUMBIA company, and is mainly characterized by super-strong volatility and water absorption, and besides the above-mentioned two materials, the DRY layer 1 can be made of any quick-drying material.

The sweat guide layer 2 is positioned below the dry and comfortable layer 1, the sweat guide layer 2 has thickness, and the sweat guide layer has a rough lower surface; in this example, the sweat-guiding layer 2 is fixed under the dry layer 1 by weaving.

The antibacterial layer 3 is positioned below the sweat guide layer, the thickness of the antibacterial layer 3 is larger than that of the sweat guide layer 2, the antibacterial layer is made of antibacterial fibers or antibacterial foam, in the example, the antibacterial layer 3 is made of antibacterial foam added with a nano antibacterial finishing agent, namely Nanofine FZO, and the antibacterial layer is provided with a first air hole 3 a.

The antibacterial insole shown in fig. 1 and 2 further comprises a buffer layer 4, wherein the buffer layer 4 is located below the antibacterial layer 3, the buffer layer is made of an EVA (ethylene vinyl acetate) foaming material and is provided with second air holes 4a, and the comfort of the insole can be improved by arranging the buffer layer; in this embodiment, the first air holes 3a are smaller than the second air holes 4a, and the antibacterial insole with the structure is matched with the sole structure with the air holes, so that sweat volatilization is facilitated, and the sweat releasing, antibacterial and deodorizing effects are better.

The thickness of the antibacterial layer 3 and the buffer layer 4 can be adjusted to enable the antibacterial insole to have different levels of antibacterial effects.

In order to increase the friction between the insole and the sole and reduce the sliding of the insole, in practical applications, a non-slip layer may be disposed on the lowest layer of the insole, in this embodiment, as shown in fig. 1, a pattern 4b is disposed below the buffer layer 4 as a non-slip device, which may increase the air permeability of the insole.

In addition to the above examples, the antibacterial layer 3 may be made of deodorant bamboo fiber.

Claims

1. An antimicrobial insole, comprising: dry and comfortable layer, sweat guide layer, antibiotic layer, wherein:

the dry layer is made of quick-drying materials;

2. The antimicrobial insole of claim 1, wherein said antimicrobial layer has a thickness greater than a thickness of said wicking layer.

3. The antimicrobial insole of claim 1, wherein said wicking layer is secured to the underside of said dryness layer by a textile process.

4. The antimicrobial insole of claim 1, further comprising a cushioning layer, said cushioning layer underlying said antimicrobial layer, said cushioning layer having second air holes.

5. The antimicrobial insole of claim 4, wherein said first air hole is smaller than said second air hole.

6. The antimicrobial insole of claim 4, further comprising a slip stop located below the cushioning layer for increasing the friction of the insole with the sole.

7. The antibacterial insole of claim 4, wherein said cushioning layer is made of EVA foam.

8. The antibacterial insole of claim 1, wherein said antibacterial layer is made of odor-resistant bamboo fibers.