CN215913476U - Shock attenuation antiskid sandals of lightweight - Google Patents

Abstract

The utility model provides a portable shock-absorbing anti-skidding sandal, which relates to the technical field of sandal manufacturing and comprises a sole and an upper belt arranged on the sole, wherein the sole consists of a three-layer structure, namely an insole, a foam layer and an oxford bottom layer of the sole from inside to outside; the oxford bottom layer is fixedly adhered to the foam layer, and anti-skid patterns and drainage grooves for skid resistance are arranged on the oxford bottom layer; the foam layer is a polyurethane layer made by foaming; the insole is provided with raised bumps, the bumps are uniformly and densely distributed on the insole, and the bumps are used for preventing slipping. The device can effectively prevent slipping and is comfortable to wear.

Description

Shock attenuation antiskid sandals of lightweight

Technical Field

The utility model relates to the technical field of sandal manufacturing, in particular to a portable shock-absorbing anti-skidding sandal.

Background

The sandal is an open type footwear, which is a shoe that can be worn by both men and women, but has a richer style for women, by fixing the sole to the foot through a strap, a clip column, or through the arch and the ankle.

Because of its extremely simple construction, sandals are the earliest human foot wear in history, which evolved from the original wrap. Sandals have been introduced during ancient times and their appearance and structure appear as "straps or ropes tied to a solid pair of soles".

Sandals can be divided into various types: the utility model has the styles of flat bottom, wedge heel, high heel, fish mouth, bandage, herringbone, toe sleeve, etc. Wearing with bare feet is mainly used, and socks can also be used. Sometimes sandals are indistinguishable from other types of footwear, but it is generally believed that the sandals expose a large portion of the foot, particularly the toes.

Sandals are usually matched in summer, but can be worn in spring and autumn (only one needs to pay attention to keeping warm, and a pair of socks is preferably added). There are also sandal styles that are worn specifically in winter.

Sandals among the prior art are usually in order to save the cost, and its sole material is comparatively ordinary, and its shock attenuation effect is poor, and is uncomfortable to wear, and simultaneously, current sandals antiskid effect is poor, and it is comparatively dangerous to wear on comparatively moist ground.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a novel portable shock-absorbing anti-skidding sandal which can solve the technical problems in the background art.

The utility model is realized by adopting the following technical scheme: a portable shock-absorbing anti-skidding sandal comprises a sole and an upper belt arranged on the sole, wherein the sole consists of a three-layer structure, namely an insole, a foam layer and an oxford bottom layer of the sole from inside to outside in sequence; the oxford bottom layer is fixedly adhered to the foam layer, and anti-skid patterns and drainage grooves for skid resistance are arranged on the oxford bottom layer; the foam layer is a polyurethane layer made by foaming; the insole is provided with raised bumps, the bumps are uniformly and densely distributed on the insole, and the bumps are used for preventing slipping.

The shoe pad has the advantages that the back of the shoe pad is provided with the magic tape, the foam layer is provided with the corresponding magic tape, and the shoe pad is fixed on the foam layer through the magic tape.

The preferred embodiment of the utility model is that the insole is also provided with a rubber plate which is in a regular hexagonal structure and is arranged in the middle of the insole; the rubber plate is provided with a plurality of massage bead placing holes, and the massage beads are placed in the massage bead placing holes.

A preferred embodiment of the utility model is that the massage beads are shorter in height than the bumps.

A preferred embodiment of the utility model is that the rubber plate is adhesively fixed in the insole.

The preferred embodiment of the utility model is that the foam layer is provided with heel air cushion placing holes and half sole air cushion placing holes; the heel air cushion placing hole and the half sole air cushion are arranged in a penetrating mode from the side wall of the foam layer, and the air cushions are placed in the heel air cushion placing hole and the half sole air cushion.

A preferred embodiment of the utility model is that the air cushion is provided with an air column.

The preferred embodiment of the utility model is that the anti-skid patterns arranged on the outer surface of the oxford layer of the sole comprise wave anti-skid patterns and cross anti-skid patterns; the wave anti-skid patterns are arranged on the heel and the front palm part; the crossed anti-skid patterns are arranged on the arch part; and drainage grooves are arranged at intervals on the cross anti-skid patterns.

Compared with the prior art, the anti-skid sole has the advantages that the anti-skid patterns are arranged on the sole and are made into the combination of the cross-shaped patterns and the wavy patterns, so that the anti-skid performance is improved, meanwhile, the air cushion is additionally arranged in the foam layer for supporting and buffering, the comfort level of foot feel is improved, meanwhile, the lugs are arranged on the foot pad for increasing the friction force during contact, and the sole is placed on the sole to skid.

Drawings

FIG. 1 is a schematic view of the construction of a sole of the device of the present invention;

FIG. 2 is a schematic view of the construction of an insole of the apparatus of the present invention;

FIG. 3 is a schematic view of the exterior bottom surface of the Oxford layer of the apparatus of the present invention;

fig. 4 is a schematic diagram of the air cushion structure of the device of the present invention.

In the figure:

1. a sole; 11. shoe-pad; 12. an oxford layer; 121. a water discharge tank; 122. wave anti-skid patterns; 123. crisscross anti-slip patterns; 13. a foam layer; 14. a heel cushion placement hole; 15. a half sole air cushion placing hole; 3. a rubber plate; 31. a massage bead placement hole; 4. a bump; 5. an air cushion; 51. and (4) air columns.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

The utility model is further explained with reference to the accompanying drawings, and the lightweight shock-absorbing anti-slip sandal shown in fig. 1-4 comprises a sole 1 and an upper belt arranged on the sole 1, wherein the sole 1 is composed of a three-layer structure, namely an insole 11, a foam layer 13 and an oxford bottom layer of the sole 1 from inside to outside; the oxford bottom layer is fixed on the foam layer 13 in an adhesive mode, and anti-skid patterns and drainage grooves 121 for skid resistance are arranged on the oxford bottom layer; the foam layer 13 is a polyurethane layer made by foaming; the insole 11 is provided with raised bumps 4, the bumps 4 are uniformly and densely distributed on the insole 11, and the bumps 4 are used for preventing slipping.

Preferably, the back of the insole 11 is provided with a magic tape, the foam layer 13 is provided with a corresponding magic tape, and the insole 11 is fixed on the foam layer 13 through the magic tape.

Preferably, the insole 11 is further provided with a rubber plate 3, and the rubber plate 3 is of a regular hexagonal structure and is arranged in the middle of the insole 11; the rubber plate 3 is provided with a plurality of massage bead placement holes 31, and the massage beads are placed in the massage bead placement holes 31.

Preferably, the height of the massage beads is less than the height of the bumps 4.

Preferably, the rubber plate 3 is fixed in the insole 11 by gluing.

Preferably, a heel air cushion 5 placing hole and a half sole air cushion 5 placing hole are arranged on the foam layer 13; the heel air cushion 5 placing hole and the half sole air cushion 5 penetrate through the side wall of the foam layer 13, and the air cushion 5 is placed in the heel air cushion 5 placing hole and the half sole air cushion 5.

Preferably, an air column 51 is arranged on the air cushion 5.

Preferably, the anti-slip patterns arranged on the outer surface of the oxford layer 12 of the sole 1 comprise a wave anti-slip pattern 122 and a cross anti-slip pattern 123; the wave antiskid patterns 122 are arranged on the heel and the front palm part; the crossed anti-skid patterns 123 are arranged on the arch part; the crisscross anti-slip patterns 123 are provided with drainage grooves 121 at intervals.

The implementation principle of the device of the utility model is as follows: the anti-skid patterns are arranged on the sole 1, the anti-skid patterns are made into cross and wave pattern combinations, the wave anti-skid patterns 122 for the half sole and the heel have good anti-skid effects due to wear blocks, and the cross patterns are adopted in the middle arch part, so that the anti-skid performance is improved due to the combined use; simultaneously, increase air cushion 5 in foam blanket 13 and be used for supporting and the buffering, increased the comfort level of feel, simultaneously, set up the frictional force when lug 4 is used for the increase contact on the callus on the sole, place the skid of sole on sole 1, this device has stronger antiskid and cushioning effect.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (8)

1. The utility model provides a shock attenuation antiskid sandals of lightweight, includes sole (1) and sets up the upper band on sole (1), its characterized in that: the sole (1) is composed of a three-layer structure, namely an insole (11), a foam layer (13) and an oxford bottom layer of the sole (1) from inside to outside in sequence;

the oxford bottom layer is fixed on the foam layer (13) in an adhesive mode, and anti-skid patterns and drainage grooves (121) for skid resistance are arranged on the oxford bottom layer;

the foam layer (13) is a polyurethane layer made by foaming;

the anti-skid insole is characterized in that raised bumps (4) are arranged on the insole (11), the bumps (4) are uniformly and densely distributed on the insole (11), and the bumps (4) are used for preventing skidding.

2. A lightweight shock-absorbing anti-slip sandal as claimed in claim 1 further comprising: the back of the insole (11) is provided with a magic tape, the foam layer (13) is provided with a corresponding magic tape, and the insole (11) is fixed on the foam layer (13) through the magic tape.

3. A lightweight shock-absorbing anti-slip sandal as claimed in claim 1 further comprising: the insole (11) is also provided with a rubber plate (3), and the rubber plate (3) is of a regular hexagonal structure and is arranged in the middle of the insole (11);

the rubber plate (3) is provided with a plurality of massage bead placing holes (31), and the massage beads are placed in the massage bead placing holes (31).

4. A lightweight shock-absorbing anti-slip sandal as claimed in claim 1 further comprising: the height of the massage beads is less than that of the bumps (4).

5. A lightweight shock-absorbing anti-slip sandal as claimed in claim 1 further comprising: the rubber plate (3) is fixed in the insole (11) in an adhesive manner.

6. A lightweight shock-absorbing anti-slip sandal as claimed in claim 1 further comprising: a heel air cushion (5) placing hole and a half sole air cushion (5) placing hole are formed in the foam layer (13);

the heel air cushion (5) placing hole and the half sole air cushion (5) penetrate through the side wall of the foam layer (13), and the air cushion (5) is placed in the heel air cushion (5) placing hole and the half sole air cushion (5).

7. The lightweight shock-absorbing anti-slip sandal as set forth in claim 6 further comprising: an air column (51) is arranged on the air cushion (5).

8. A lightweight shock-absorbing anti-slip sandal as claimed in claim 1 further comprising: the anti-skid patterns arranged on the outer surface of the oxford layer (12) of the sole (1) comprise wave anti-skid patterns (122) and cross anti-skid patterns (123);

the wave antiskid patterns (122) are arranged on the heel and the front palm part;

the crossed anti-skid patterns (123) are arranged on the arch part;

the cross anti-skid patterns (123) are provided with drainage grooves (121) at intervals.

Images