CN204580075U - A kind of gradient dual intensity sole - Google Patents

Abstract

The utility model discloses a kind of gradient dual intensity sole, comprise bounce-back material module and damping material module, rebounding, material module is mutually nested with damping material module is superposed to whole sole.Bounce-back material module and damping material module comprise half sole and the rear palm respectively, bounce-back material module half sole with the rear palm by being connected inside arch of foot, the half sole of damping material module with the rear palm by being connected outside arch of foot, the half sole of bounce-back material module superposes with the half sole of damping material module is mutually nested, and the rear palm of bounce-back material module superposes with the rear palm of damping material module is mutually nested.Make the stress characteristic of sole meet foot stress characteristic in human motion process and motion requirement, improve the damping property of sole, comfort level and athletic performance.

Description

A kind of gradient dual intensity sole

Technical field

The utility model relates to a kind of Sports shoe sole, particularly relates to a kind of gradient dual intensity sole.

Background technology

In prior art, the material of sole generally all adopts the material of single density, for carrying out rebounding and damping in vola.

But, due to structure and the movement characteristic of Human Sole, the stressed of the foot in human motion process is not uniform, like this, the sole of homogenous material of the prior art is difficult to the stress characteristic and the motion requirement that meet foot, and the damping property of sole, comfort level and athletic performance are all poor.

Summary of the invention

The purpose of this utility model is to provide the good gradient dual intensity sole of a kind of damping property of sole, comfort level and athletic performance.

The purpose of this utility model is achieved through the following technical solutions:

Gradient dual intensity sole of the present utility model, comprise bounce-back material module and damping material module, described bounce-back material module is mutually nested with damping material module is superposed to whole sole.

The technical scheme provided as can be seen from above-mentioned the utility model, the gradient dual intensity sole that the utility model embodiment provides, owing to comprising bounce-back material module and damping material module, rebounding, material module is mutually nested with damping material module is superposed to whole sole, make the stress characteristic of sole meet foot stress characteristic in human motion process and motion requirement, improve the damping property of sole, comfort level and athletic performance.

Accompanying drawing explanation

Fig. 1 a, Fig. 1 b be respectively bi-material in the utility model embodiment in varing proportions (thin degree) combine and produce different mechanics feedback schematic diagrames, wherein: the least of Fig. 1 a is better than Fig. 1 b, the damping property of Fig. 1 b is better than Fig. 1 a;

The generalized section of the gradient dual intensity sole that Fig. 2 provides for the utility model embodiment, forms different mechanics feedbacks at different parts;

Fig. 3 is the material module schematic diagram (left foot, bottom view) that rebounds in the utility model embodiment;

Fig. 4 is the material module schematic diagram (left foot, top view) that rebounds in the utility model embodiment;

Fig. 5 is the material module schematic diagram (left foot, side view, inner side) that rebounds in the utility model embodiment;

Fig. 6 is the material module schematic diagram (left foot, side view, outside) that rebounds in the utility model embodiment;

Fig. 7 is vibration-absorptive material module diagram in the utility model embodiment (left foot, bottom view);

Fig. 8 is vibration-absorptive material module diagram in the utility model embodiment (left foot, top view);

Fig. 9 is vibration-absorptive material module diagram in the utility model embodiment (left foot, side view, inner side);

Figure 10 is vibration-absorptive material module diagram in the utility model embodiment (left foot, side view, outside);

Figure 11 is the combination of two modules in the utility model embodiment: mutually intersect-nested.

In figure:

1, vibration-absorptive material, 2, rebound material, 3, rebound material module half sole below projection, 4, the hollow out position at the rear palm middle part of bounce-back material module, 5, the half sole of material module is rebounded with the rear palm by the position that is connected inside arch of foot, hollow out position in the middle part of the half sole of 6, damping material module, 7, the rear palm projection below of vibration-absorptive material module, 8, the half sole of damping material module with the rear palm by the position that is connected outside arch of foot.

Detailed description of the invention

To be described in further detail the utility model embodiment below.

Gradient dual intensity sole of the present utility model, its preferably detailed description of the invention be:

Comprise bounce-back material module and damping material module, described bounce-back material module is mutually nested with damping material module is superposed to whole sole.

Described bounce-back material module and damping material module comprise half sole and the rear palm respectively, the half sole of described bounce-back material module with the rear palm by being connected inside arch of foot, the half sole of described damping material module with the rear palm by being connected outside arch of foot, the half sole of described bounce-back material module superposes with the half sole of described damping material module is mutually nested, and the rear palm of described bounce-back material module superposes with the rear palm of described damping material module is mutually nested.

The half sole of described bounce-back material module is placed in above the half sole of described damping material module, and be provided with projection below the middle part of the half sole of described bounce-back material module, be provided with hollow out position in the middle part of the half sole of described damping material module, the projection below the half sole of described bounce-back material module is nested in the hollow out position of the half sole of described damping material module;

The rear palm of described bounce-back material module is placed in below the rear palm of described damping material module, and the rear palm middle part of described bounce-back material module is provided with hollow out position, be provided with projection below the rear palm middle part of described damping material module, the rear palm projection below of described damping material module is nested in the hollow out position of the rear palm of described bounce-back material module.

Gradient dual intensity sole of the present utility model, bottom material in two kinds of density is combined by the mode that intersection is nested according to the plantar nervous arch rule of the different stress area of sole, the material of two kinds of density is respectively bounce-back material and vibration-absorptive material, the material correspondence that wherein rebounds bounce-back material module, the corresponding vibration-absorptive material module of vibration-absorptive material, the whole middle end, is made up of these two modules and miscellaneous part.Make the stress characteristic of sole meet foot stress characteristic in human motion process and motion requirement, improve the damping property of sole, comfort level and athletic performance.

Gradient dual intensity sole of the present utility model, its principle is from ergonomics and sport biomechanics, and the stress characteristic of vola zones of different is different, according to this feature for vola zones of different provides different mechanics feedbacks.

In human motion, the effect pedaling the landing and buffering of effect and the rear palm stretched and have an effect of half sole is of great significance athletic performance and injury protection, and meanwhile, when human body lands, half sole also can be impacted, and half sole often also can play the effect of buffering.Therefore human body slaps buffering afterwards, half sole pedals that to stretch be that in main technical movements, the impulsive force that the rear palm bears needs sole to help buffering, and half sole needs to provide support for leg extension and feed back (bounce-back) while providing certain shock-absorbing function.The area that foot contacts sole is at the volley larger, its main stress area concentrates on half sole and the rear palm, and in these stress areas, have some main stress points, larger the closer to main stress point pressure, therefore stress area pressure often distribution gradient, according to foot anatomic characteristic, the main stress point of the rear palm is below calcaneum, and the main stress point of half sole is below first, second, third caput metatarsale and ossa suffraginis (far saving) below.

Specific embodiment:

The utility model adopts dual-density shoe bottom material, and wherein a kind of is bounce-back material, and another kind is vibration-absorptive material.

As shown in Figure 1 a, 1 b, the material of these two kinds of density is combined by the mode that intersection is nested, in longitudinal direction, this bi-material is superimposed in varing proportions can produce different mechanics effects.

Therefore, as shown in Figure 2, if these two kinds of density are superimposed with different ratios (thin degree) in sole zones of different at material according to foot bottom stress rule, just can form different mechanics feedbacks in sole zones of different, make the stressed motion requirement of more fitting of sole.

At half sole for the higher region of material feedback request, bounce-back material is at this regional percentage comparatively large (thicker), correspondingly, the ratio larger (thicker) of stressed larger its elastomeric material of position in this region, and the projection of stressed the best part bounce-back material through sole and the engraved structure corresponding with vibration-absorptive material be nested.

Slap for the higher region of material damping requirement after sole, vibration-absorptive material is at this regional percentage comparatively large (thicker), correspondingly, the ratio larger (thicker) of stressed larger its vibration-absorptive material of position in this region, and the projection of stressed the best part vibration-absorptive material through sole and the engraved structure corresponding with bounce-back material be nested.

Make sole mechanical property in the vertical abundanter by the material of sole zones of different two kinds of density at the different proportion of longitudinal direction.

The shape of bounce-back material monolithic module is as shown in Fig. 3,4,5,6, and bounce-back material module runs through half sole, arch of foot and the rear palm.Tab portion is overall on the upper side in the horizontal direction, and its stressed larger position bounce-back material is thicker.At the privileged site of half sole, i.e. the stressed the best part of half sole, the thickest and consistency of thickness of bounce-back material, when combining with vibration-absorptive material, the rebound projection of material of this part runs through the middle end; The tab portion of module divides with rear palma and is connected inside arch of foot; Rear palma divides overall on the lower side in the horizontal direction, and module is thinner in the stressed larger region of the rear palm, at rear palm privileged site, namely slaps stressed the best part afterwards, module hollow out.

Vibration-absorptive material integral module shape is as shown in Fig. 7,8,9,10, and damping module runs through half sole, arch of foot and the rear palm equally.Tab portion is overall on the lower side in the horizontal direction, and its stressed larger position is thinner, at half sole privileged site, i.e. and stressed maximum position, module hollow out, corresponding with the projection of bounce-back material; The tab portion of module divides with rear palma and is connected outside arch of foot; The rear palm is overall on the upper side in the horizontal direction, and module is thicker in the stressed larger region of the rear palm, at rear palm privileged site, namely slaps stressed the best part afterwards, the thickest and consistency of thickness of vibration-absorptive material, runs through the middle end with the projection of this part vibration-absorptive material during bounce-back combination of materials.

The form of bounce-back material module and vibration-absorptive material module is complementary, and combined rear inside is seamless, the N/R outstanding or depression of configuration.

The combination of bounce-back material module and vibration-absorptive material module is as follows:

Combination as shown in figure 11, two modules due to low after high before bounce-back material module, vibration-absorptive material module is low early and high after, and two modules are complementary in arch of foot connecting portion form, therefore two modules can intersect in arch area, and utilize mutual projection and hollow out to be nested, except part that is protruding and hollow out, remainder superposes mutually.Form after combination as shown in Figure 2.

In the application, bounce-back material module and vibration-absorptive material module can be distinguished with different colours, and the whole middle end, except bounce-back material module and vibration-absorptive material module, also can add the miscellaneous parts (also can not add) such as anti-torsion TPU, support bar.

The performance of the material of two kinds of density is not limited to damping and bounce-back, also can be the material of other two kinds of different physical characteristics.

The characteristic of bi-material is not limited to the difference of density, also can be the bi-material of different colours, different mechanical characteristic, unlike material etc.

In addition, in this sole the end be not limited to two material modules, it is nested also can be that multiple material module superposes mutually.

The combined mode of module is not limited to the combination mentioned in example, also comprises other and uses two or more material for sole of shoe to intersect nested mode.

The stressed maximum region of the palm, front and back is determined according to concrete condition during foot movement, Different Exercise Mode and the maximum region of different crowd plantar pressure all can be distinguished to some extent, the projection of material module and the vibration-absorptive material module of therefore rebounding and the position of hollow out need according to concrete condition and determine, and above-mentioned example is one of concrete condition.

Feature of the present utility model:

Use the end in the material composition of two kinds of different densities, bi-material superposes with nested mutually according to plantar nervous arch rule, makes the mechanical property diversification more of sole, for foot movement provides the most rational damping and feedback.

The above; be only the utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claims.

Claims (3)

1. a gradient dual intensity sole, is characterized in that, comprise bounce-back material module and damping material module, described bounce-back material module is mutually nested with damping material module is superposed to whole sole.

2. gradient dual intensity sole according to claim 1, it is characterized in that, described bounce-back material module and damping material module comprise half sole and the rear palm respectively, the half sole of described bounce-back material module with the rear palm by being connected inside arch of foot, the half sole of described damping material module with the rear palm by being connected outside arch of foot, the half sole of described bounce-back material module superposes with the half sole of described damping material module is mutually nested, and the rear palm of described bounce-back material module superposes with the rear palm of described damping material module is mutually nested.

3. gradient dual intensity sole according to claim 2, it is characterized in that, the half sole of described bounce-back material module is placed in above the half sole of described damping material module, and be provided with projection below the middle part of the half sole of described bounce-back material module, be provided with hollow out position in the middle part of the half sole of described damping material module, the projection below the half sole of described bounce-back material module is nested in the hollow out position of the half sole of described damping material module;

The rear palm of described bounce-back material module is placed in below the rear palm of described damping material module, and the rear palm middle part of described bounce-back material module is provided with hollow out position, be provided with projection below the rear palm middle part of described damping material module, the rear palm projection below of described damping material module is nested in the hollow out position of the rear palm of described bounce-back material module.