CN210960633U - Pressure-reducing insole - Google Patents

Abstract

The utility model discloses a decompression shoe-pad divide into A, B two sides, and the A face is the planishing face, is fit for daily dress, and the B face is polygonal hole structure or circular honeycomb sunken matrix structure, can imbed the strip of a plurality of corresponding shapes and form the holding surface. When the focus appears on the foot, the B surface is placed under the foot to use, and the support at the corresponding position of the focus is pulled out to achieve the effect of pressure reduction, and when the focus disappears, the foot can be recovered for continuous use. The utility model discloses simple structure, stability can use repeatedly, have improved the adaptability of disease greatly, improve its treatment and quality of life.

Description

Pressure-reducing insole

Technical Field

The utility model relates to a shoe-pad field and medicine field, in particular to decompression shoe-pad.

Background

Various therapeutic shoes and pressure reduction techniques prevent and treat diabetic foot ulcers by correcting plantar pressure. The current interventions for preventing or treating diabetic feet and reducing plantar pressure include four types, braces, treatment shoes and insoles, surgery and other pressure reduction techniques. The brace is limited to be movable and cumbersome to wear, the wide application is limited, the surgical operation has large wound, the recovery is slow, the treatment shoes are relatively expensive, the shoe money is changed according to the season, and the treatment insole has the advantages of simplicity, convenience and good compliance. However, few hospitals in China can tailor treatment shoes and pressure-reducing insoles for diabetics at present.

At present, most of pressure reduction insoles on the market are made of flexible materials, the pressure reduction effect can be achieved on feet with complete skin, but the pressure dispersion effect is difficult to achieve on positions with local injuries. The improvement is often realized by adding a local pressure reducing ring, but the uneven distribution of the pressure on the sole of the foot is also caused, and the use feeling is reduced.

Recently, some cellular pressure relief insoles have been developed, such as DARCO-PegAssist high efficiency cellular pressure relief insoles in the united states, which 18mm thick insoles are constructed of a Poron cushioning layer, a Plastazote foam layer, and an EVA pressure relief column layer, which effectively absorb shock and pressure. The detachable pressure reducing column at the specific part of the sole can be pulled out to realize the fixed-point pressure reduction of the specific area. However, the pressure reducing columns are fixed by tight extrusion, so that the pressure reducing columns around the pulling-out parts are easy to loosen and fall off when in use, and particularly, when the wound area is large and a large amount of pressure reducing columns are pulled out, the force for fixing the pressure reducing columns is greatly reduced, so that the pressure reducing columns are easy to loosen and deform, and the service life is influenced. When in use, the pressure reducing column stabilizing plate is often used in combination with a disposable pressure reducing column stabilizing plate, and the pressure reducing column stabilizing plate cannot be reused.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a decompression shoe-pad, including A face and B face, the A face is the burnishing surface, the B face can imbed the strip of a plurality of hole shapes and form level and smooth holding surface, the strip is antibiotic or water-absorbing material makes.

Preferably, the surface B is provided with a polygonal hole structure, and the strip-shaped objects are embedded into the polygonal hole structure.

Preferably, the surface B is provided with a circular honeycomb-shaped concave matrix structure, and the strips are embedded into the circular honeycomb-shaped concave matrix structure.

Preferably, the surface B is provided with a polygonal hole structure or a circular honeycomb concave matrix structure, the strip is embedded into the polygonal hole structure, and an L ED red-blue light generator or a medical dressing with a corresponding shape is inserted into the circular honeycomb concave matrix structure.

Preferably, the surface B is provided with a polygonal hole structure and a circular honeycomb concave matrix structure, the strips are embedded into the circular honeycomb concave matrix structure, and an L ED red and blue light generator or a medical dressing with a corresponding shape is inserted into the polygonal hole structure.

Preferably, the polygonal hole structure is a square.

The utility model has the advantages that:

the utility model discloses a with similar DARCO-PegAssist product decompression post structure through the mode of embedding prefabricated hole, and the non-extrusion each other, reaches fixed effect, more is favorable to the strip fixed and the reduction after inserting and pulling out, has also guaranteed simultaneously not plug partial structure in the use, can not unexpected not hard up or drop.

The column inserted into the hole can be partially replaced by an L ED red-blue light generator with a corresponding shape, and auxiliary treatment can be carried out when the column is used.

The utility model is simple in operation, intensity is high, the structure is more stable, can restore rapidly and reuse. Meanwhile, a medical application component can be additionally arranged, and the medical effect is improved. In the use, can be through carrying out analysis and detection to patient's plantar pressure gait, through the height and the density that change the strip thing, the variable density is realized to the adjustment packing rate, stably supports and guarantees arch of foot elasticity simultaneously to through variable density to the key decompression of the high sufficient pressure position of sole, the customization is customized, reinforcing shoe-pad soft or hard degree and comfort level.

Drawings

Fig. 1 is a schematic structural view of a plane B according to an embodiment of the present invention;

fig. 2 is a schematic cross-sectional view of a strip on the side B of the embodiment of the present invention;

FIG. 3 is an enlarged view of a hole structure on the side B according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a second surface B of the embodiment of the present invention;

fig. 5 is a schematic cross-sectional view of a strip on the second side B of the embodiment of the present invention;

FIG. 6 is an enlarged view of the hole structure on the surface B of the second embodiment of the present invention;

fig. 7 is a schematic mechanism diagram of a first surface and a second surface a of the present invention.

Wherein, 1, A surface; 2. b surface; 3. a strip-shaped object; 4. a circular honeycomb-shaped concave matrix structure; 5. hexagonal hole structure.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

The first embodiment is as follows:

as shown in fig. 1 to 3 and 7, the pressure-reducing insole comprises an a surface 1 and a B surface 2, wherein the a surface is a flat surface, a plurality of strip-shaped objects 3 in the shape of holes can be embedded into the B surface to form a flat supporting surface, the B surface is provided with a circular honeycomb-shaped concave matrix structure 4, the strip-shaped objects are embedded into the circular honeycomb-shaped concave matrix structure 4, and the strip-shaped objects are made of antibacterial or water-absorbing materials.

In normal times, the flat surface of the surface A faces upwards, and the insole is used for common insoles and is suitable for daily wearing. When the focus appears on the foot, the B face 2 is placed under the foot to be used, and the support at the corresponding position of the focus is pulled out to achieve the effect of pressure reduction. When the focus disappears, the medicine can be recovered for continuous use.

Example two:

as shown in fig. 4-6 and 7, the pressure-reducing insole comprises a surface a 1 and a surface B2, wherein the surface a is a flat surface, the surface B can be embedded with strips 3 in the shape of a plurality of holes to form a flat supporting surface, the surface B is provided with a hexagonal hole structure 5, the strips are embedded into the circular honeycomb-shaped concave matrix structure 4, and the strips are made of antibacterial or water-absorbing materials.

In normal times, the flat surface of the surface A faces upwards, and the insole is used for common insoles and is suitable for daily wearing. When the focus appears on the foot, the B face 2 is placed under the foot to be used, and the support at the corresponding position of the focus is pulled out to achieve the effect of pressure reduction. When the focus disappears, the medicine can be recovered for continuous use.

Example three:

the utility model provides a decompression shoe-pad, includes A face 1 and B face 2, the A face is the planarization face, the strip 3 that a plurality of hole shapes can be inlayed to the B face forms and levels the holding surface, the B face is equipped with square hole shape structure, the strip embedding in circular cellular sunken matrix structure 4, the strip is antibiotic or the material that absorbs water makes.

In normal times, the flat surface of the surface A faces upwards, and the insole is used for common insoles and is suitable for daily wearing. When the focus appears on the foot, the B face 2 is placed under the foot to be used, and the support at the corresponding position of the focus is pulled out to achieve the effect of pressure reduction. When the focus disappears, the medicine can be recovered for continuous use.

Example four:

the utility model provides a decompression shoe-pad, includes A face 1 and B face 2, the A face is the planarization face, the strip 3 that a plurality of hole shapes can be inlayed to the B face forms level and smooth holding surface, the B face is equipped with hexagonal hole structure 5 and circular cellular sunken matrix structure 4, the strip embedding in circular cellular sunken matrix structure 4, strip 3 is antibiotic or water-absorbing material makes in the hexagonal hole structure 5 of not embedding strip, inserts the red blue light generator of L ED of corresponding shape, supplementary antibiotic anti-inflammatory.

In normal times, the flat surface of the surface A faces upwards, and the insole is used for common insoles and is suitable for daily wearing. When the focus appears on the foot, the B face 2 is placed under the foot to be used, and the support at the corresponding position of the focus is pulled out to achieve the effect of pressure reduction. When the focus disappears, the medicine can be recovered for continuous use.

Example five:

the utility model provides a decompression shoe-pad, includes A face 1 and B face 2, the A face is the planarization face, the strip 3 that a plurality of hole shapes can be inlayed to the B face forms level and smooth holding surface, the B face is equipped with hexagonal hole structure 5 and circular cellular sunken matrix structure 4, the strip embedding in hexagonal hole structure 5, strip 3 is antibiotic or water-absorbing material makes in the circular cellular sunken matrix structure 4 of non-embedding strip, inserts corresponding shape's L ED red blue light generator, supplementary antibiotic anti-inflammatory.

In normal times, the flat surface of the surface A faces upwards, and the insole is used for common insoles and is suitable for daily wearing. When the focus appears on the foot, the B face 2 is placed under the foot to be used, and the support at the corresponding position of the focus is pulled out to achieve the effect of pressure reduction. When the focus disappears, the medicine can be recovered for continuous use.

The utility model discloses simple structure, stability can use repeatedly, have improved the adaptability of disease greatly, improve its treatment and quality of life.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes, modifications and/or alterations to the present invention may be made by those skilled in the art after reading the technical disclosure of the present invention, and all such equivalents may fall within the scope of the present invention as defined by the appended claims.

Claims (7)

1. A decompression insole is characterized by comprising a surface A and a surface B, wherein the surface A is a flat surface, the surface B can be embedded into strips in the shape of a plurality of holes to form a flat supporting surface, and the strips are made of antibacterial or water-absorbing materials.

2. The pressure reducing insole according to claim 1, wherein said B-side is provided with a polygonal hole structure, and said strips are embedded in said polygonal hole structure.

3. The pressure reducing insole according to claim 1, wherein said B-side is provided with a circular honeycomb-like depression matrix structure, said strips being embedded in said circular honeycomb-like depression matrix structure.

4. The pressure reduction insole according to claim 1, wherein said B-side is provided with a polygonal hole structure or a circular honeycomb-like depression matrix structure, said strips are embedded in said polygonal hole structure, and said circular honeycomb-like depression matrix structure is inserted with a L ED red-blue light generator or a medical dressing of corresponding shape.

5. The pressure reduction insole according to claim 1, wherein said B-side is provided with a polygonal hole structure and a circular honeycomb depression matrix structure, said strips are embedded in said circular honeycomb depression matrix structure, and said polygonal hole structure is inserted with L ED red-blue light generator or medical dressing of corresponding shape.

6. A pressure relief insole according to claim 2, 4 or 5, wherein said polygonal hole structure is hexagonal.

7. A pressure relief insole according to claim 2, 4 or 5, wherein said polygonal hole pattern is square.

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