High-elastic health shoe pad
Technical field
The present invention relates to shoe pad and sole, are primarily referred to as a kind of high-elastic health shoe pad that can be used for sole.
Background technology
Traditional sock is all mostly that laminates sewing is formed.Recent absorbing sweat, protection against the tide, deodorization, shock-absorbing in order to increase shoe pad
Etc. function, traditional sock is improved to some extent, be mainly manifested on material selection it is many, also increased magnetic, medicine etc..No matter pass
System shoe pad still improve after shoe pad, all lack the function of increasing in terms of elasticity and the health care to foot and comfortableness.
People is affected when on foot by road surface and sole shape, and the impetus of foot is different, is walked in long-time
When, foot aggravates with the friction of shoe pad, and foot increases with the shock on ground, is so easy for producing fatigue and foot is caused to damage.Such as
Fruit shoe pad possesses high-tension, it is possible to solve the problems, such as those described above, plays laborsaving, light, comfortable, protect the foot against damage and
The health-care effect of foster foot.When particularly moving, by the shoe pad of high-tension, can run faster, jump it is 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,
Disclose a kind of full-titanium massage insole;Although upper technology all improves to some extent to existing shoe pad, all exist such or such
Deficiency, particularly without high-tension is solved the problems, such as very well, effect is undesirable.
The content of the invention
It is an object of the invention to provide a kind of high-elastic health shoe pad that can produce bigger elastic force, is arranged in shoe pad
By the composite high-stretch deformation layer being made up of high resiliency flexible pipe and the high-elastic deformation layer of waveform, high resiliency flexible pipe is in the high-elastic change of waveform
The lowest point of shape layer, high-elastic deformation layer both sides are upper and lower wear-resisting air-permeable layer, and upper and lower wear-resisting air-permeable layer is mutually not connected to, such ability
When realization wear-resisting air-permeable layer above is pressurized, high resiliency flexible pipe and the high-elastic deformation layer deformation of waveform produce composite elastic, elastic force
Greatly, thus reach it is laborsaving, light, comfortable during walking, protect the foot against damage and foster foot health-care effect.Particularly in motion
When, due to the high-tension that shoe pad is produced, moreover it is possible to realize running faster, the higher purpose of jump.
Realize that one of technical scheme is:This Shoe-pad structure includes:
Wear-resisting air-permeable layer on one;
Once wear-resisting air-permeable layer;
High-elastic deformation layer in the middle of one;Constituted by two parts are compound, a part is high resiliency flexible pipe, and another part is waveform
High-elastic deformation layer, 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 is connected to above the high-elastic deformation layer of waveform, under wear-resisting air-permeable layer to be connected to waveform high-elastic
Below deformation layer, upper and lower wear-resisting air-permeable layer is divided into the both sides of the high-elastic deformation layer of waveform, and is mutually not connected to;
The high-elastic deformation layer of waveform and high resiliency flexible pipe deform when pressurized and produce elastic force, the size and wave of the elastic force
The deformation size of shape peak valley and the deformation size sum of high resiliency flexible pipe are directly proportional.
The technical scheme also includes:
The high resiliency flexible pipe closed at both ends, there is air or noble gases in die.
The material of the high resiliency flexible pipe includes rubber or plastic cement or silica gel or sponge, and body is thick-walled pipe;The wave
The material of the high-elastic deformation layer of shape includes rubber or plastic cement or silica gel or sponge.
The upper and lower wear-resisting ventilative layer material includes rubber or plastic cement or silica gel or sponge or weaving cloth or leather or nothing
Spin cloth or synthetic leather or nylon or polyurethane.
The outside diameter of the high resiliency flexible pipe is 4-10mm, and its wall thickness is 1-3mm;The high-elastic deformation layer of the waveform
Thickness is 3-10mm.
The high-elastic composite deformation layer in the centre is divided into sole position, arch of the foot position and heel, wherein only in foot palm part
Position and heel are provided with the composite bed of waveform elastomer or plastic deformed layer and high elastic rubber or plastic hose, arch of the foot
Position is physical layer.
Realize that the two of technical scheme is:This Shoe-pad structure also includes:
Wear-resisting air-permeable layer on one;
Once wear-resisting air-permeable layer;
One middle high resiliency hose layer;It is made up of the transversely arranged high resiliency flexible pipe of a row, high resiliency flexible pipe and high resiliency
The gap being provided between flexible pipe needed for for housing high property bullet flexible pipe deformation, the high resiliency flexible pipe includes round tube or ellipse
Pipe, wherein
Upper wear-resisting air-permeable layer is connected between above high resiliency hose layer, under wear-resisting air-permeable layer be connected between high resiliency
Below hose layer, upper and lower wear-resisting air-permeable layer is divided into the both sides of middle high resiliency hose layer, and upper and lower wear-resisting air-permeable layer is mutual
It is not connected to;
High resiliency flexible pipe deforms when pressurized and produces elastic force, the size of the elastic force and the deformation size of high resiliency flexible pipe into
Direct ratio.
The technical scheme also includes:
The high resiliency flexible pipe includes rubber tube or plastic pipe or silica gel tube or sponge tube, and body is thick-walled pipe, wall thickness with
Elastic force is relevant.
The gap for housing the deformation of high resiliency flexible pipe is 0.5 to 1,5 times of high resiliency flexible pipe overall diameter.
The upper and lower wear-resisting ventilative layer material includes rubber or plastic cement or silica gel or sponge or weaving cloth or leather or nothing
Spin cloth or synthetic leather or nylon or polyurethane.
The high-elastic deformation layer in the centre is divided into sole position, arch of the foot position and heel, wherein only at sole position and
Heel is provided with high resiliency flexible pipe, and arch of the foot position is physical layer.
The outside diameter of the high resiliency flexible pipe is 4-10mm;The wall thickness of the high resiliency flexible pipe is 1-3mm.
Realize that the three of technical scheme is:This Shoe-pad structure also includes:
Wear-resisting air-permeable layer on one;
Once wear-resisting air-permeable layer;
The high-elastic deformation layer of one middle waveform;Wherein
Upper wear-resisting air-permeable layer is connected to above the high-elastic deformation layer of waveform, under wear-resisting air-permeable layer to be connected to waveform high-elastic
Below deformation layer, upper and lower wear-resisting air-permeable layer is divided into the both sides of the high-elastic deformation layer of waveform, and is mutually not connected to;
The high-elastic deformation layer of waveform deforms when pressurized and produces elastic force, the size of the elastic force and the deformation of waveform peak valley
Size is directly proportional.
Above-mentioned technical proposal also includes:
The material of the high-elastic deformation layer of the waveform includes rubber or plastic cement or silica gel or sponge, and its thickness is 3-10mm.
The upper and lower wear-resisting ventilative layer material includes rubber or plastic cement or silica gel or sponge or weaving cloth or leather or nothing
Spin cloth or synthetic leather or nylon or polyurethane.
The high-elastic deformation layer of the waveform is divided into sole position, arch of the foot position and heel, wherein only at sole position
The high-elastic deformation layer of waveform is provided with heel, 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 application.
The device have the advantages that:This shoe pad is different from general damping insoles, it is equally known that the size of elastic force
It is to be determined by the deformation size of elastomeric material, general damping insoles are only provided with one layer of rubber layer, due to rubber layer
Stress deformation very little, so cushion can only be played a part of, elastic force will not be produced, and this shoe pad is provided that by high resiliency rubber
The composite elastic layer of sebific duct and waveform elastomer layer composition, the elastic force is equal to high elastic rubber pipe and waveform elastomer
The elastic force sum of layer, so bigger elastic force can be produced, this is that rubber layer is not reached.Therefore, when this shoe pad has walking
It is laborsaving, light, comfortable, the care characteristicses of damage and foster foot are protected the foot against, during motion under the effect of high-tension power-assisted, race
Faster, jump is higher.
Description of the drawings
Fig. 1 is the overall structure diagram of one of the present invention, represents middle high-elastic deformation layer by high resiliency flexible pipe and wave
The compound composition of shape elastomer layer.
Fig. 2 is the longitudinal sectional drawing of Fig. 1.
Fig. 3 is the exploded view of Fig. 1.
Fig. 4 is the overall structure diagram of the two of the present invention, represents that middle 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 the overall structure diagram of the three of the present invention, represents that middle 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 of the high-elastic deformation layer middle part for physical layer of Fig. 1.
Figure 11 is the schematic diagram of the high-elastic deformation layer middle part for physical layer of Fig. 4.
Figure 12 is the schematic diagram of the high-elastic deformation layer middle part for physical layer of Fig. 7.
In figure:Wear-resisting air-permeable layer on 1, high-elastic deformation layer, 21 high resiliency flexible pipes in the middle of 2, between 211 holes, 22 physical layers, 23
Gap, wear-resisting air-permeable layer, the high-elastic deformation layer of 24 waveforms under 3.
Specific embodiment
With reference to the accompanying drawings and examples the invention will be further described:
Embodiment 1
As Figure 1-3, this shoe pad by upper wear-resisting air-permeable layer 1, under wear-resisting air-permeable layer 3, middle high-elastic deformation layer 2 constitute,
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 after being combined
Elastic hose 21 can be with identical with the height of the high-elastic deformation layer 24 of waveform, it is also possible to difference, high resiliency flexible pipe 21 and waveform
High-elastic deformation layer 24 produces composite elastic by deforming size sum, the characteristics of big and more comfortable with elastic force.
Upper wear-resisting air-permeable layer 1 and under the material that uses of wear-resisting air-permeable layer 3 include rubber, plastic cement, silica gel, sponge, weaving cloth,
Leather, non-woven fabrics, synthetic leather, nylon, polyurethane etc., feature is ventilative and wear-resisting.Middle high-elastic deformation layer 2 is crucial skill
Art, mainly realizes high-tension by composite deformation, is by using high resiliency flexible pipe 21 and the high-elastic deformation layer 24 of waveform
Come what is realized, high resiliency flexible pipe 21 includes rubber tube, plastic pipe, silica gel tube, sponge tube etc., and high resiliency flexible pipe 21 can be round
Or ellipse, there is hole 211 in it, the heavy wall of body is 1-3mm, and wall thickness is relevant with elastic force, and the outside diameter of body is 4-10mm,
The material of the high-elastic deformation layer 24 of waveform includes rubber, plastic cement, silica gel, sponge etc., and the thickness of the high-elastic deformation layer of waveform is 3-
Preferably, high resiliency flexible pipe 21 is arranged on the lowest point of the high-elastic deformation layer 24 of waveform to 10mm, and high resiliency flexible pipe 21 and waveform are high-elastic
Deformation layer 24 can be integrated with heat seal.
Upper wear-resisting air-permeable layer 1 is bonded in above the high-elastic deformation layer 24 of waveform, under wear-resisting air-permeable layer 3 be bonded in waveform
Below high-elastic deformation layer 24, upper wear-resisting air-permeable layer 1 wear-resisting air-permeable layer 3 with is mutually not connected to, and centre is separated with middle high-elastic change
Shape layer 2, upper wear-resisting air-permeable layer 1 is only connected with the high-elastic deformation layer 24 of waveform (can also be while connect high resiliency flexible pipe 21 and wave
The high-elastic deformation layer 24 of shape, this will be depending on the height of high resiliency flexible pipe 21), so when being trampled, the high-elastic deformation layer of waveform
24 and high resiliency flexible pipe 21 could deform with stress point, so as to produce elastic force.
Two stomidiums 211 of high resiliency flexible pipe 21 can be closing, and there are air or noble gases in the inside, because gas has
Compressibility, the effect that this to be produced can be more preferable.
Embodiment 2
As shown in Figure 10, it is improvement to embodiment 1, improvement part is in middle high-elastic deformation layer 2, middle high-elastic deformation layer
2 points is sole position, arch of the foot position and heel, has the high-elastic deformation layer 24 of waveform and height at sole position and heel
Elastic hose 21, and physical layer 22 is adopted at arch of the foot position, the strong of middle high-elastic deformation layer 2 can be increased using physical layer 22
Degree, in addition, arch of the foot position is not main position to producing elastic force.Other structures are all same as Example 1.
Embodiment 3
As Figure 4-Figure 6, it is improvement to embodiment 1, improvement part is in middle high-elastic deformation layer 2.
Middle high-elastic deformation layer 2 uses high resiliency flexible pipe 21, and does not use the high-elastic deformation layer 24 of waveform.Concrete structure
It is made up of several transversely arranged high resiliency flexible pipes 21(If the shape longitudinal arrangement for pressing foot is not all right), high resiliency flexible pipe with
Gap 23 is left between high resiliency flexible pipe(It is very close to each other to deform), gap 23 is the 0.5-1 of high resiliency flexible pipe overall diameter,
5 times, gap 23 is relevant with deflection, and deflection size and elastic force are directly proportional, and when high resiliency flexible pipe 21 is flat by buckling, just occupies
The space in gap 23, is not directly connected between elastic hose and high resiliency flexible pipe, if elastic hose is hose connection with high resiliency
Without gap 23, cannot be deformed, would not also produce elastic force.
The high resiliency flexible pipe 21 for arranging will consist of the shape of shoe pad, and upper wear-resisting air-permeable layer 1 is bonded in high resiliency flexible pipe
Above 21, under wear-resisting air-permeable layer 3 be bonded in below high resiliency flexible pipe 21, upper wear-resisting air-permeable layer 1 and under the phase of wear-resisting air-permeable layer 3
Mutually it is not connected to, centre is separated with high resiliency flexible pipe 21, upper wear-resisting air-permeable layer 1 is only connected with high resiliency flexible pipe 21, is so being trampled
When, high resiliency flexible pipe 21 could deform with stress point, so as to produce elastic force.
Two stomidiums 211 of high resiliency flexible pipe 21 can be closing, and there are air or noble gases in the inside, because gas has
Compressibility, the effect that this to be produced can be more preferable.
Embodiment 4
As shown in figure 11, it is improvement to embodiment 3, improvement part is in middle high-elastic deformation layer 2, middle high-elastic deformation layer
2 points is sole position, arch of the foot position and heel, has high resiliency flexible pipe 21 at sole position and heel, and in arch of the foot
Position adopts physical layer 22, and using physical layer 22 intensity of middle high-elastic deformation layer 2 can be increased, in addition, arch of the foot position is to producing
Raw elastic force is not main position.Other structures are all same as Example 3.
Embodiment 5
As Figure 7-9, it is improvement to embodiment 3, improvement part is in middle high-elastic deformation layer 2.
Middle high-elastic deformation layer 2 uses the high-elastic deformation layer 24 of waveform, and does not use high resiliency flexible pipe 21.
The material of the high-elastic deformation layer 24 of waveform includes rubber, plastic cement, silica gel, sponge etc..Upper wear-resisting air-permeable layer 1 is bonded in
Above the high-elastic deformation layer 24 of waveform, under wear-resisting air-permeable layer 3 be bonded in below the high-elastic deformation layer 24 of waveform, it is upper wear-resisting
The wear-resisting air-permeable layer 3 with of gas-bearing formation 1 is mutually not connected to, and centre is separated with the high-elastic deformation layer 24 of waveform, upper wear-resisting air-permeable layer 1 and ripple
The high-elastic deformation layer 24 of shape wave connects, and so when being trampled, the high-elastic deformation layer 24 of waveform could deform with stress point, so as to
Produce elastic force.The thickness of the high-elastic deformation layer 24 of waveform should be between 3-10mm preferably.Other structures are all same as Example 3.
Embodiment 6
As shown in figure 12, it is improvement to embodiment 5, improvement part is in middle high-elastic deformation layer 2, middle high-elastic deformation layer
2 points is sole position, arch of the foot position and heel, has the high-elastic deformation layer 24 of waveform at sole position and heel(Shape
The sine curve of the similar voltage of shape), and physical layer 22 is adopted at arch of the foot position, middle high spring-go can be increased using physical layer 22
The intensity of fastening deformation layer 2, in addition, arch of the foot position is not main position to producing elastic force.Other structures all with the phase of embodiment 5
Together.
This shoe pad can be applicable to shoe pad, inner bottom, the middle bottom of all kinds of footwear, be particularly well-suited to sport shoess.