CN219249335U

CN219249335U - Antibacterial type hypotonic insole

Info

Publication number: CN219249335U
Application number: CN202320363973.6U
Authority: CN
Inventors: 陈宗荣
Original assignee: Fujian Dana Shoes And Clothing Co ltd
Current assignee: Fujian Dana Shoes And Clothing Co ltd
Priority date: 2023-03-02
Filing date: 2023-03-02
Publication date: 2023-06-27
Anticipated expiration: 2033-03-02

Abstract

The utility model relates to an antibacterial type Haibu insole in the technical field of insoles, which comprises a wear-resistant layer which is in contact with the bottom end of a shoe and is used for preventing the sole from skidding, wherein a supporting layer which is used for supporting the Haibu insole is sewed at the top end of the wear-resistant layer, a heat-insulating layer which is used for insulating the foot of a wearer is bonded on the top end surface of the supporting layer, a moisture-absorbing layer which is used for dehumidifying the Haibu insole is bonded on the top end surface of the heat-insulating layer, a latex layer which is used for being matched with the sole of the wearer is sewed at the top end surface of the moisture-absorbing layer, and the latex layer is sewed with the wear-resistant layer. Through setting up the hygroscopic layer, and the hygroscopic layer is woven with fibrilia material about making each other alternately and forms, and fibrilia has higher hydroscopicity, can in time absorb the moisture on the surface of the beautiful shoe-pad of hypotonic, can dehumidify the surface of the beautiful shoe-pad of hypotonic to guarantee the dry degree on the surface of the beautiful shoe-pad of hypotonic, thereby play the antibiotic effect to the beautiful shoe-pad of hypotonic.

Description

Antibacterial type hypotonic insole

Technical Field

The utility model relates to the technical field of insoles, in particular to an antibacterial type Haiboli insole.

Background

The insole is mainly used for improving the comfort of feet when people walk, and when the existing insole is used, moisture can be generated, water mist is formed at the bottom of the insole, and beriberi is bred.

For example, a sole with a chinese patent application No. CN202220292501.1, an arch support pad is disposed at an arch position on an upper surface of the sole body, the arch support pad is in smooth transition with a front section of the sole body, the arch support pad is disposed flush with a rear section of the sole body, and a support bracket extending from a heel position to an arch position is folded at an outer edge of the arch support pad; the sole of the upper surface of the insole body is provided with an arc bulge. It has the following drawbacks:

when the shoe pad is used, because people walk for a long time and the inside of the shoes is airtight, generated moisture can be condensed at the bottom of the shoe pad, bacteria can be bred, beriberi is generated, and accordingly the health of people can be affected.

Disclosure of Invention

In order to solve the problems that when the insole is used, the generated moisture is condensed at the bottom of the insole and bacteria are bred to generate beriberi because people walk for a long time and the inside of the shoes is airtight, and the health of people is affected, the utility model provides the following technical scheme:

an antibacterial type hypothalamic insole, comprising a hypothalamic insole for improving the comfort of a wearer's foot in a shoe, characterized in that: the hypothalamic insole comprises a wear-resistant layer which is in contact with the bottom end of a shoe and used for preventing the sole from slipping, a supporting layer used for supporting the hypothalamic insole is sewn at the top end of the wear-resistant layer, an insulating layer used for insulating the foot of a wearer is bonded on the top end face of the supporting layer, a moisture absorption layer used for dehumidifying the hypothalamic insole is bonded on the top end face of the insulating layer, a latex layer used for being matched with the sole of the wearer is sewn at the top end face of the moisture absorption layer, and the latex layer is sewn with the wear-resistant layer.

Further, the bottom end of the wear-resistant layer is fixedly provided with a plurality of anti-slip strips for preventing the hypothalamus insoles from slipping, and the plurality of anti-slip strips are distributed on the bottom end face of the wear-resistant layer in a linear array.

Further, the edge part of the latex layer is fixedly provided with a rubber protection edge pad for protecting the foot of a wearer, and the bottom end of the rubber protection edge pad extends to the side wall of the wear-resistant layer.

Further, the bottom end surface of the latex layer is provided with ventilation holes for ventilating the Haiboli insoles, and the ventilation holes are uniformly distributed on the top end of the latex layer and the side surface of the rubber protection edge pad.

Further, protruding particle points for massaging the soles of the wearer are fixedly arranged on the bottom end surface of the latex layer, and the protruding particle points are fixed between two adjacent ventilation holes.

Further, an air cushion for buffering and protecting the heels of the wearer is arranged at the left end of the latex layer, the air cushion is in contact with the top end of the wear-resistant layer, and an arch support pad for supporting the inner side of the foot in the arch region of the sole of the human foot is arranged at the left end of the air cushion.

Compared with the prior art, the utility model has the beneficial effects that:

through setting up the hygroscopic layer, and the hygroscopic layer is woven with fibrilia material about making each other alternately and forms, and fibrilia has higher hydroscopicity to can in time absorb the moisture on the surface of the beautiful shoe-pad of hypotonic, can dehumidify the surface of the beautiful shoe-pad of hypotonic, thereby guarantee the dry degree on the surface of the beautiful shoe-pad of hypotonic, thereby play the antibiotic effect to the beautiful shoe-pad of hypotonic.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a front partial cross-sectional view of the present utility model;

fig. 4 is an enlarged view of fig. 3 a in accordance with the present utility model.

In the drawings, the list of part names represented by the reference numerals is as follows:

100-of a Haiboli insole, 101-of an air cushion 1, 102-of an arch support, 103-of ventilation holes, 104-of convex particle points, 110-of a rubber edge protection pad, 120-of a non-slip strip, 130-of a wear-resistant layer, 140-of a support layer, 150-of a heat preservation layer, 160-of a moisture absorption layer and 170-of a latex layer.

Detailed Description

Preferred embodiments for carrying out the present utility model are described in detail below, and a clear and complete description thereof is provided with reference to the accompanying drawings.

Referring to fig. 1-4, the present utility model provides an antibacterial type maritime shoe pad.

The insole has the main functions of improving the comfort of feet when people walk, and when the insole is used for a long time, moisture can be generated and water mist is formed at the bottom of the insole, so that beriberi can be bred. It is necessary to replace the material of the existing insole, which is the marigold insole 100 for use in the shoe to enhance the comfort of the wearer's foot.

The marigold insole 100 includes a wear-resistant layer 130 contacting the bottom end of the shoe for preventing the sole from slipping, and the wear-resistant layer 130 is formed by the material polyester fiber through the braiding machine to be cross-braided with each other, thereby increasing the service life of the marigold insole 100. The bottom end of the wear-resistant layer 130 is fixedly provided with a plurality of anti-slip strips 120 for preventing the maritime shoe pad 100 from slipping, and the plurality of anti-slip strips 120 are distributed on the bottom end surface of the wear-resistant layer 130 in a linear array. And the plurality of anti-slip strips 120 are adhered to the bottom end surface of the wear-resistant layer 130 by glue with higher viscosity, so that the anti-slip capability of the bottom end of the maritime shoe pad 100 can be improved, and the abrasion of the bottom of the maritime shoe pad 100 can be reduced.

The supporting layer 140 for supporting the maritime shoe pad 100 is sewn on the top end of the wear-resistant layer 130, the supporting layer 140 is woven by wool fibers, and the supporting layer 140 is sewn and pressed on the bottom end surface of the wear-resistant layer 130 by a sewing machine, so that the whole of the maritime shoe pad 100 is conveniently supported. And the insect repellent is coated between the supporting layer 140 and the wear-resistant layer, so that mosquitoes are prevented from entering the shoes when the shoes of a wearer are not worn for a long time, and a certain insect repellent and antibacterial effect is achieved.

The thermal insulation layer 150 for thermal insulation of the foot of the wearer is adhered to the top end surface of the supporting layer 140, the thermal insulation layer 150 is woven by polyphenyl materials, and the thermal insulation layer is adhered to the top end surface of the supporting layer 140 by glue with higher viscosity, so that the thermal insulation effect of the Haiboli insole 100 can be improved. The top end surface of the heat preservation 150 is adhered with the moisture absorption layer 160 for dehumidifying the hypotonic insole 100, the moisture absorption layer 160 is formed by interweaving fibrilia materials up and down and left and right through a braiding machine, and the fibrilia has higher water absorbability, so that the moisture on the surface of the hypotonic insole 100 can be absorbed in time, the surface of the hypotonic insole 100 can be dehumidified, the dryness of the surface of the hypotonic insole 100 is ensured, the use of the hypotonic insole 100 is facilitated, and the antibacterial effect on the hypotonic insole 100 is further achieved.

The top surface of the moisture absorption layer 160 is sewed with a latex layer 170 for matching with the sole of the wearer, and the latex layer 170 is made of softer rubber, so that the interior of the hypothalamic insole 100 is softer, and the comfort of the hypothalamic insole 100 can be improved. And the emulsion layer 170 is sewn by a sewing machine to thread the midsole through the edge of the emulsion layer 170 and the bottom edge of the wear layer 130. Thereby securing the firmness of the maritime shoe pad 100. The edge of the latex layer 170 is fixedly provided with the rubber edge protection pad 110 for protecting the foot of a wearer, the bottom end of the rubber edge protection pad 110 extends to the side wall of the wear-resistant layer 130, and the rubber edge protection pad 110 is stitched on the side wall of the wear-resistant layer 130 through the midsole routing, so that the sole is wrapped to a certain extent, and the comfort of the use of the insole is improved.

The ventilation holes 103 for ventilating the Haiboli insole 100 are formed in the top end surface of the latex layer 170, and the ventilation holes 103 are uniformly distributed on the top end of the latex layer 170 and the side surface of the rubber protection edge pad 110, so that the ventilation property of the rubber protection edge pad 110 can be improved, and the antibacterial effect can be further achieved. The top end surface of the latex layer 170 is fixedly provided with a plurality of convex particle points 104 for massaging the sole of the wearer, and each convex particle point 104 is fixed between two adjacent ventilation holes 103. The convex particle 104 is made of soft latex and is adhered to the top end surface of the latex layer 170 by glue with higher viscosity, so that a part of massage effect on the sole of the wearer can be achieved.

The left end of the latex layer 170 is provided with an air cushion 101 for cushioning and protecting the wearer's heel, and the air cushion 101 is in contact with the top end of the wear layer 130. The air cushion 101 is made of high-elasticity latex, so that the heel can be buffered, the comfort level of the hypotenuse insole 100 is further improved, the left end of the air cushion 101 is provided with an arch support pad 102 for supporting the inner side of the foot in the arch area of the sole of a human foot, the arch support pad 102 is adhered to the left end face of the air cushion 101 through high-viscosity glue, and the arch support pad 102 is made of high-elasticity latex, so that the comfort level of the hypotenuse insole 100 can be improved according to the foot-shaped change of the human. And the arch is supported by the arch support pad 102, the heel is supported by the air cushion 101, and the sole is supported by the latex layer 170, so that the sole is free from void feel, and the comfort of the hypothalamic insole 100 is further improved.

Based on the above description and the drawings, one skilled in the art will be able to understand and practice the present utility model. Furthermore, any non-inventive modifications to the present utility model that would not be made by a person skilled in the art without the inventive effort would still fall within the scope of the present utility model.

Claims

1. An antimicrobial type hypothalamic insole comprising a hypothalamic insole (100) for use in a shoe to improve the comfort of the foot of a wearer, characterized in that: the utility model provides a beautiful shoe-pad of sea (100) include with shoes bottom contact be used for preventing sole wearing layer (130) that skidded, supporting layer (140) that are used for carrying out the support to the beautiful shoe-pad of sea (100) are sewed up on the top of wearing layer (130), bond on the terminal surface of supporting layer (140) and be used for carrying out heat retaining heat preservation (150) to the wearer foot, the top face bonding of heat preservation (150) has moisture absorption layer (160) that are used for carrying out dehumidification to the beautiful shoe-pad of sea (100), the top face of moisture absorption layer (160) is sewed up and is used for carrying out matched with latex layer (170) with the wearer's sole, and latex layer (170) and wearing layer (130) are sewed up.

2. An antimicrobial hypothalamic insole according to claim 1, characterized in that: the anti-slip strips (120) used for preventing the hypothalamic insoles (100) from slipping are fixedly arranged at the bottom ends of the wear-resistant layers (130), the number of the anti-slip strips (120) is multiple, and the anti-slip strips (120) are distributed on the bottom end surfaces of the wear-resistant layers (130) in a linear array.

3. An antimicrobial hypothalamic insole according to claim 2, characterized in that: the edge part of the latex layer (170) is fixedly provided with a rubber protection edge pad (110) for protecting the foot of a wearer, and the bottom end of the rubber protection edge pad (110) extends to the side wall of the wear-resistant layer (130).

4. An antimicrobial hypothalamic insole according to claim 3, characterized in that: the top end face of the latex layer (170) is provided with ventilation holes (103) for ventilating the Haiboli insole (100), and the ventilation holes (103) are distributed on the top end of the latex layer (170) and the side face of the rubber protection edge pad (110).

5. An antimicrobial hypothalamic insole according to claim 4, characterized in that: protruding particle points (104) for massaging the soles of the wearer are fixedly arranged on the top end face of the latex layer (170), and the protruding particle points (104) are fixed between two adjacent ventilation holes (103).

6. An antimicrobial hypothalamic insole according to claim 1, characterized in that: the left end of the emulsion layer (170) is provided with an air cushion (101) for buffering and protecting the heels of a wearer, the air cushion (101) is contacted with the top end of the wear-resistant layer (130), and the left end of the air cushion (101) is provided with an arch support pad (102) for supporting the inner side of the foot in the arch region of the sole of a human foot.