CN203814723U - High-elastic shoe pad - Google Patents

Abstract

The utility model relates to a high-elastic shoe pad. The high-elastic shoe pad comprises an upper wear-resistant breathable layer, a lower wear-resistant breathable layer and a middle high-elastic deformed layer. The middle high-elastic deformed layer is compounded of two parts including one part being a high-elastic flexible pipe and the other part being a wavy high elastic deformed layer. The high-elastic flexible pipe is arranged at the lowest point of the wavy high elastic deformed layer. The wavy high elastic deformed layer has an upper surface connected with the upper wear-resistant breathable layer and a lower surface connected with the lower wear-resistant breathable layer. The upper wear-resistant breathable layer and the lower wear-resistant breathable layer are arranged at two sides of the wavy high elastic deformed layer and are not connected. An elastic force is produced by deformation of the wavy high elastic deformed layer and the high-elastic flexible pipe under stress and proportional to the deformation of peaks and valleys and of the high-elastic flexible pipe. The high-elastic shoe pad can be used as a sole.

Description

High-elastic shoe-pad

Technical field

The utility model relates to shoe-pad, mainly refers to a kind of high-elastic shoe-pad that has health care.

Background technology

Traditional sock is all that laminates is made and formed mostly.Recently in order to increase the function such as absorbing sweat, protection against the tide, deodorizing, shock-absorbing of shoe-pad, traditional sock is improved to some extent, be mainly manifested on material selection many, the increase also having magnetic, medicine etc.No matter traditional sock is still improved rear shoe-pad, all lacks the function that increases elasticity and the health care to pin and comfortableness aspect.

People is subject to the impact of road surface and sole shape in the time walking, and the impetus of pin is different, in the time of long-time walking, and the friction aggravation of pin and shoe-pad, the shock on pin and ground increases the weight of, and so just easily produces tired and pin is caused to damage.If shoe-pad possesses high-tension, just can solve above-mentioned those problems, play laborsaving, light, comfortablely, protection pin does not sustain damage and the health-care effect of foster pin.While particularly moving, by the shoe-pad of high-tension, that can run is faster, jumping higher.

Publication number CN101564217A, discloses a kind of high-elastic health shoe-pad; Publication number CN101564217A, discloses a kind of shock-absorbing resilient shoes; Publication number CN101564217A, discloses a kind of sole shock element; Publication number CN101564217A, discloses a kind of full-titanium massage insole; Although upper technology all improves to some extent to existing shoe-pad, all there is such or such deficiency, particularly there is no fine solution high-tension problem, effect is undesirable.

Summary of the invention

The purpose of this utility model is to provide a kind of high-elastic shoe-pad that can produce larger elastic force, in shoe-pad, to be provided with the composite high-stretch deformation layer being formed by high resiliency flexible pipe and the high-elastic deformation layer of waveform, high resiliency flexible pipe is in the lowest point of the high-elastic deformation layer of waveform, on high-elastic deformation layer both sides are, lower wear-resisting air-permeable layer, on, lower wear-resisting air-permeable layer does not connect mutually, could realize so wear-resisting air-permeable layer pressurized above time, the high-elastic deformation layer distortion of high resiliency flexible pipe and waveform produces composite elastic, elastic force is large, laborsaving while reaching thus walking, easily, comfortable, protection pin does not sustain damage and the health-care efficacy of foster pin.Particularly, in the time of motion, due to the high-tension that shoe-pad produces, can also realize the faster of race, the higher object of jumping.

Realizing one of the technical solution of the utility model is: this Shoe-pad structure comprises:

Wear-resisting air-permeable layer on one;

Wear-resisting air-permeable layer once;

High-elastic deformation layer in the middle of one; Form by two parts are compound, a part is high resiliency flexible pipe, and another part is the high-elastic deformation layer of waveform, and high resiliency flexible pipe is arranged on the lowest point of the high-elastic deformation layer of waveform, and high resiliency flexible pipe is pipe or oval pipe, wherein

Upper wear-resisting air-permeable layer be connected to the high-elastic deformation layer of waveform above, lower wear-resisting air-permeable layer is connected to below the high-elastic deformation layer of waveform, upper and lower wear-resisting air-permeable layer is divided into the both sides of the high-elastic deformation layer of waveform, and does not mutually connect;

The high-elastic deformation layer of waveform and high resiliency flexible pipe are out of shape and produce elastic force in the time of pressurized, and the size of this elastic force is directly proportional to the distortion size of waveform peak valley and the distortion of high resiliency flexible pipe size sum.

This technical scheme also comprises:

Described high resiliency flexible pipe closed at both ends, has air or inert gas in die.

The material of described high resiliency flexible pipe comprises rubber or plastic cement or silica gel or sponge, and body is thick-walled pipe; The material of the high-elastic deformation layer of described waveform comprises rubber or plastic cement or silica gel or sponge.

Described upper and lower wear-resisting air-permeable layer material comprises rubber or plastic cement or silica gel or sponge or woven fabric or leather or nonwoven or synthetic leather or nylon or polyurethane.

The outside diameter of described high resiliency flexible pipe is 4-10mm, and its wall thickness is 1-3mm; The thickness of the high-elastic deformation layer of described waveform is 3-10mm.

The high-elastic composite deformation layer in described centre is divided into sole position, arch of the foot position and heel position, the composite bed that is wherein only provided with the high-elastic rubber of waveform or plastic deformed layer and high elastic rubber or plastic hose at sole position and heel position, arch of the foot position is physical layer.

Realizing two of the technical solution of the utility model is: this Shoe-pad structure also comprises:

Wear-resisting air-permeable layer on one;

Wear-resisting air-permeable layer once;

High resiliency hose layer in the middle of one; The high resiliency flexible pipe transversely arranged by a row forms, and is provided with for accommodating high property bullet flexible pipe and is out of shape required gap between high resiliency flexible pipe and high resiliency flexible pipe, and this high resiliency flexible pipe comprises round tube or oval pipe, wherein

In the middle of upper wear-resisting air-permeable layer is connected to high resiliency hose layer above, in the middle of lower wear-resisting air-permeable layer is connected to below high resiliency hose layer, the both sides of high resiliency hose layer in the middle of upper and lower wear-resisting air-permeable layer is divided into, upper and lower wear-resisting air-permeable layer does not connect mutually;

High resiliency flexible pipe is out of shape and produces elastic force in the time of pressurized, and the size of this elastic force is directly proportional to the distortion size of high resiliency flexible pipe.

This technical scheme also comprises:

Described high resiliency flexible pipe comprises rubber tube or plastic pipe or silicone tube or sponge tube, and body is thick-walled pipe, and wall thickness is relevant with elastic force.

The described gap for accommodating high resiliency flexible pipe distortion is 0.5 to 1,5 times of high resiliency flexible pipe overall diameter.

Described upper and lower wear-resisting air-permeable layer material comprises rubber or plastic cement or silica gel or sponge or woven fabric or leather or nonwoven or synthetic leather or nylon or polyurethane.

The high-elastic deformation layer in described centre is divided into sole position, arch of the foot position and heel position, is wherein only provided with high resiliency flexible pipe at sole position and heel position, and arch of the foot position is physical layer.

the outside diameter of described high resiliency flexible pipe is 4-10mm; The wall thickness of described high resiliency flexible pipe is 1-3mm.

Realizing three of the technical solution of the utility model is: this Shoe-pad structure also comprises:

Wear-resisting air-permeable layer on one;

Wear-resisting air-permeable layer once;

The high-elastic deformation layer of one intermediate wave shape wave; Wherein

Upper wear-resisting air-permeable layer be connected to the high-elastic deformation layer of waveform above, lower wear-resisting air-permeable layer is connected to below the high-elastic deformation layer of waveform, upper and lower wear-resisting air-permeable layer is divided into the both sides of the high-elastic deformation layer of waveform, and does not mutually connect;

The high-elastic deformation layer of waveform is out of shape and produces elastic force in the time of pressurized, and the size of this elastic force is directly proportional to the distortion size of waveform peak valley.

Technique scheme also comprises:

The material of the high-elastic deformation layer of described waveform comprises rubber or plastic cement or silica gel or sponge, and its thickness is 3-10mm.

Described upper and lower wear-resisting air-permeable layer material comprises rubber or plastic cement or silica gel or sponge or woven fabric or leather or nonwoven or synthetic leather or nylon or polyurethane.

The high-elastic deformation layer of described waveform is divided into sole position, arch of the foot position and heel position, is wherein only provided with the high-elastic deformation layer of waveform at sole position and heel position, and arch of the foot position is physical layer.

Above-mentioned technology can be applied in all kinds of footwear, or as shoe-pad application, or as sole portion structure applications.

The beneficial effect the utlity model has: this shoe-pad is different from general damping insoles, as you know, the size of elastic force is to be determined by the distortion size of elastomeric material, general damping insoles is just provided with one deck rubber layer, because the stress deformation of rubber layer is very little, so can only play the effect of cushion, can not produce elastic force, and the composite elastic layer being formed by high elastic rubber pipe and the high-elastic rubber layer of waveform of this shoe-pad setting, this elastic force equals the elastic force sum of high elastic rubber pipe and the high-elastic rubber layer of waveform, so can produce larger elastic force, this is that rubber layer does not reach.Therefore, it is laborsaving, light, comfortable that this shoe-pad has when walking, and protection pin does not sustain damage and the care characteristics of foster pin, when motion under the effect of high-tension power-assisted, race faster, jumping higher.

Brief description of the drawings

Fig. 1 is the overall structure schematic diagram of one of the utility model, and in the middle of representing, high-elastic deformation layer is by high resiliency flexible pipe and the high-elastic rubber layer of waveform compound composition.

Fig. 2 is the longitudinal sectional drawing of Fig. 1.

Fig. 3 is the exploded view of Fig. 1.

Fig. 4 is two the overall structure schematic diagram of the utility model, and in the middle of representing, high-elastic deformation layer is made up of high resiliency flexible pipe.

Fig. 5 is the longitudinal sectional drawing of Fig. 1.

Fig. 6 is the exploded view of Fig. 1.

Fig. 7 is three the overall structure schematic diagram of the utility model, and in the middle of representing, high-elastic deformation layer is waveform elastomer material layer.

Fig. 8 is the longitudinal sectional drawing of Fig. 7.

Fig. 9 is the exploded view of Fig. 7.

Figure 10 is the schematic diagram that the high-elastic deformation layer middle part of Fig. 1 is physical layer.

Figure 11 is the schematic diagram that the high-elastic deformation layer middle part of Fig. 4 is physical layer.

Figure 12 is the schematic diagram that the high-elastic deformation layer middle part of Fig. 7 is physical layer.

In figure: high-elastic deformation layers in the middle of wear-resisting air-permeable layer on 1,2,21 high resiliency flexible pipes, 211 holes, 22 physical layers, 23 gaps, 3 times wear-resisting air-permeable layer, the high-elastic deformation layer of 24 waveform.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail:

Embodiment 1

As Figure 1-3, this shoe-pad is made up of upper wear-resisting air-permeable layer 1, lower wear-resisting air-permeable layer 3, middle high-elastic deformation layer 2, feature is exactly that middle high-elastic deformation layer 2 is composited by high resiliency flexible pipe 21 and the high-elastic deformation layer 24 of waveform, the height of the high resiliency flexible pipe 21 after compound and the high-elastic deformation layer 24 of waveform can be identical, also can be different, the high-elastic deformation layer 24 of high resiliency flexible pipe 21 and waveform, by the big or small sum of distortion, produces composite elastic, has elastic force greatly and more comfortable feature.

The material that upper wear-resisting air-permeable layer 1 and lower wear-resisting air-permeable layer 3 are used comprises rubber, plastic cement, silica gel, sponge, woven fabric, leather, nonwoven, synthetic leather, nylon, polyurethane etc., and feature is ventilative and wear-resisting.Middle high-elastic deformation layer 2 is key technologies, mainly to realize high-tension by composite deformation, by realizing with high resiliency flexible pipe 21 and the high-elastic deformation layer 24 of waveform, high resiliency flexible pipe 21 comprises rubber tube, plastic pipe, silicone tube, sponge tube etc., high resiliency flexible pipe 21 can be circle or oval, they are interior porose 211 years old, the heavy wall of body is 1-3mm, wall thickness is relevant with elastic force, the outside diameter of body is 4-10mm, the material of the high-elastic deformation layer 24 of waveform comprises rubber, plastic cement, silica gel, sponge etc., the thickness of the high-elastic deformation layer of waveform is 3-10mm for well, high resiliency flexible pipe 21 is arranged on the lowest point of the high-elastic deformation layer 24 of waveform, the high-elastic deformation layer 24 of high resiliency flexible pipe 21 and waveform can be integrated in heat seal.

Upper wear-resisting air-permeable layer 1 be bonded in the high-elastic deformation layer 24 of waveform above, lower wear-resisting air-permeable layer 3 is bonded in below the high-elastic deformation layer 24 of waveform, upper wear-resisting air-permeable layer 1 is not connected mutually with lower wear-resisting air-permeable layer 3, high-elastic deformation layer 2 in the middle of centre is separated with, upper 1 of wear-resisting air-permeable layer is connected and (also can connects the high-elastic deformation layer 24 of high resiliency flexible pipe 21 and shape wave simultaneously with the high-elastic deformation layer 24 of waveform, this will be depending on the height of high resiliency flexible pipe 21), like this in the time being trampled, the high-elastic deformation layer 24 of waveform and high resiliency flexible pipe 21 could be out of shape with stress point, thereby generation elastic force.

Two stomidiums 211 of high resiliency flexible pipe 21 can seal, and there are air or inert gas in the inside, and because gas has compressibility, the effect that this will produce can be better.

Embodiment 2

As shown in figure 10, it is the improvement to embodiment 1, improvement part is high-elastic deformation layer 2 in centre, middle high-elastic deformation layer 2 is divided into sole position, arch of the foot position and heel position, there are the high-elastic deformation layer 24 of waveform and high resiliency flexible pipe 21 at sole position and heel position, and adopt physical layer 22 at arch of the foot position, adopt physical layer 22 can increase the intensity of middle high-elastic deformation layer 2, in addition, arch of the foot position is not main position to producing elastic force.Other structures are all identical with embodiment 1.

Embodiment 3

As Figure 4-Figure 6, be the improvement to embodiment 1, improvement part is high-elastic deformation layer 2 in centre.

2 of middle high-elastic deformation layers use high resiliency flexible pipe 21, and do not use the high-elastic deformation layer 24 of waveform.Concrete structure forms (if not all right by the shape longitudinal arrangement of pin) by several transversely arranged high resiliency flexible pipes 21, between high resiliency flexible pipe and high resiliency flexible pipe, leave that gap 23(is very close to each other just can not be out of shape), gap 23 is the 0.5-1 of high resiliency flexible pipe overall diameter, 5 times, gap 23 is relevant with deflection, deflection size and elastic force are directly proportional, in the time that high resiliency flexible pipe 21 pressurizeds become flat, with regard to the space of Space-Occupying 23, between elastic hose and high resiliency flexible pipe, be not directly connected, if elastic hose is connected with high resiliency flexible pipe very close to each other 23, just can not produce distortion, just can not produce elastic force yet.

The high resiliency flexible pipe 21 arranging will consist of the shape of shoe-pad, upper wear-resisting air-permeable layer 1 be bonded in high resiliency flexible pipe 21 above, lower wear-resisting air-permeable layer 3 is bonded in below high resiliency flexible pipe 21, upper wear-resisting air-permeable layer 1 is not connected mutually with lower wear-resisting air-permeable layer 3, centre is separated with high resiliency flexible pipe 21, and 1 of upper wear-resisting air-permeable layer is connected with high resiliency flexible pipe 21, like this in the time being trampled, high resiliency flexible pipe 21 could be out of shape with stress point, thereby produces elastic force.

Two stomidiums 211 of high resiliency flexible pipe 21 can seal, and there are air or inert gas in the inside, and because gas has compressibility, the effect that this will produce can be better.

Embodiment 4

As shown in figure 11, it is the improvement to embodiment 3, improvement part is high-elastic deformation layer 2 in centre, middle high-elastic deformation layer 2 is divided into sole position, arch of the foot position and heel position, there is high resiliency flexible pipe 21 at sole position and heel position, and adopt physical layer 22 at arch of the foot position, adopt physical layer 22 can increase the intensity of middle high-elastic deformation layer 2, in addition, arch of the foot position is not main position to producing elastic force.Other structures are all identical with embodiment 3.

Embodiment 5

As Figure 7-9, be the improvement to embodiment 3, improvement part is high-elastic deformation layer 2 in centre.

2 of middle high-elastic deformation layers use the high-elastic deformation layer 24 of waveform, and do not use high resiliency flexible pipe 21.

The material of the high-elastic deformation layer 24 of waveform comprises rubber, plastic cement, silica gel, sponge etc.Upper wear-resisting air-permeable layer 1 be bonded in the high-elastic deformation layer 24 of waveform above, lower wear-resisting air-permeable layer 3 is bonded in below the high-elastic deformation layer 24 of waveform, upper wear-resisting air-permeable layer 1 is not connected mutually with lower wear-resisting air-permeable layer 3, centre is separated with the high-elastic deformation layer 24 of waveform, upper 1 of wear-resisting air-permeable layer is connected with the high-elastic deformation layer 24 of waveform, in the time being trampled, the high-elastic deformation layer 24 of waveform could be out of shape with stress point like this, thereby produces elastic force.The thickness of the high-elastic deformation layer 24 of waveform should be between 3-10mm for well.Other structures are all identical with embodiment 3.

Embodiment 6

As shown in figure 12, it is the improvement to embodiment 5, improvement part is high-elastic deformation layer 2 in centre, middle high-elastic deformation layer 2 is divided into sole position, arch of the foot position and heel position, have the sine curve of the similar voltage of waveform high-elastic deformation layer 24(shape at sole position and heel position), and adopt physical layer 22 at arch of the foot position, adopt physical layer 22 can increase in the middle of the intensity of high-elastic composite deformation layer 2, in addition, arch of the foot position is not main position to producing elastic force.Other structures are all identical with embodiment 5.

This shoe-pad can be applicable to the shoe-pad of all kinds of footwear, the interior end, the middle end, is specially adapted to sport footwear.

Claims (8)

1. a high-elastic shoe-pad, is characterized in that comprising:

Wear-resisting air-permeable layer on one;

Wear-resisting air-permeable layer once;

High-elastic deformation layer in the middle of one; Form by two parts are compound, a part is high resiliency flexible pipe, and another part is the high-elastic deformation layer of waveform, and high resiliency flexible pipe is arranged on the lowest point of the high-elastic deformation layer of waveform, and high resiliency flexible pipe comprises round tube or oval pipe, wherein

Upper wear-resisting air-permeable layer be connected to the high-elastic deformation layer of waveform above, lower wear-resisting air-permeable layer is connected to below the high-elastic deformation layer of waveform, upper and lower wear-resisting air-permeable layer is divided into the both sides of the high-elastic deformation layer of waveform, and does not mutually connect;

The high-elastic deformation layer of waveform and high resiliency flexible pipe are out of shape and produce elastic force in the time of pressurized, and the size of this elastic force is directly proportional to the distortion size of waveform peak valley and the distortion of high resiliency flexible pipe size sum.

2. high-elastic shoe-pad as claimed in claim 1, is characterized in that the high-elastic composite deformation layer in described centre is that the high-elastic deformation layer two of high resiliency hose layer or waveform selects one, wherein

High resiliency hose layer both sides connect respectively upper and lower wear-resisting air-permeable layer, and upper and lower wear-resisting air-permeable layer does not connect mutually; Or

The high-elastic deformation layer of waveform both sides connect respectively upper and lower wear-resisting air-permeable layer, and upper and lower wear-resisting air-permeable layer does not connect mutually.

3. high-elastic shoe-pad as claimed in claim 1 or 2, is characterized in that described high resiliency flexible pipe closed at both ends, has air or inert gas in die.

4. high-elastic shoe-pad as claimed in claim 1, is characterized in that the material of described high resiliency flexible pipe comprises rubber or plastic cement or silica gel or sponge, and body is thick-walled pipe; The material of the high-elastic deformation layer of described waveform comprises rubber or plastic cement or silica gel or sponge.

5. high-elastic shoe-pad as claimed in claim 1, is characterized in that described upper and lower wear-resisting air-permeable layer material comprises rubber or plastic cement or silica gel or sponge or woven fabric or leather or nonwoven or synthetic leather or nylon or polyurethane.

6. high-elastic shoe-pad as claimed in claim 1, the outside diameter that it is characterized in that described high resiliency flexible pipe is 4-10mm, its wall thickness is 1-3mm; The thickness of the high-elastic deformation layer of described waveform is 3-10mm.

7. high-elastic shoe-pad as claimed in claim 1, it is characterized in that the high-elastic composite deformation layer in described centre is divided into sole position, arch of the foot position and heel position, the composite bed that is wherein only provided with the high-elastic deformation layer of waveform and high resiliency flexible pipe at sole position and heel position, arch of the foot position is physical layer.

8. high-elastic shoe-pad as claimed in claim 2, it is characterized in that being provided with between the tube and tube of described high resiliency hose layer the gap of accommodating high resiliency flexible pipe distortion, this gap be high resiliency flexible pipe overall diameter 0.5-1.5 doubly.