CN208550175U - A kind of damping improved sole - Google Patents

Abstract

The utility model relates to damping improved soles, including EVA indsole, wear-resisting egative film and TPU shock reducing structure, TPU shock reducing structure is coated on the convex platform in EVA indsole, lower convex platform on wear-resisting egative film is outer and fitting is packed between EVA indsole rear heel and wear-resisting egative film rear heel, lower convex platform top surface is equipped with the first ladder bulge loop that cross-sectional area is gradually reduced from lower to upper, convex platform bottom surface is equipped with the second ladder bulge loop that cross-sectional area is gradually reduced from top to bottom, and the interior outside of EVA indsole rear heel is in the pilot face from EVA indsole rear heel center in respective lateral, and the pilot face width on the outside of EVA indsole rear heel is greater than the pilot face width on the inside of rear heel.The utility model can realize the function of correction step appearance while having good damping, be conducive to that foot center is guided to shift towards medial heel, it is smoothly transitted as heel contacts to earth process and steadily from lateral heel to medial heel, is more in line with foot movement biomechanics characteristic.

Description

A kind of damping improved sole

Technical field

The utility model relates to footwear technologies, more particularly to a kind of damping improved sole.

Background technique

Sports, health and psychological regulation to people play the role of highly beneficial, therefore are praised highly by many people.It is real Verify bright, a people often takes a step forward during road-work, and the ground shock power that foot is subject to can reach he or she's body 6-7 times of weight.If impact force cannot be effectively reduced, if things go on like this, even if there is no obvious movement damages for foot Wound, can also generate the fatigues of aching such as some recessiveness for being difficult to ignore or chronic injury, including muscle, joint and tissue.Therefore, it transports Dynamic shoes bumper and absorbing shock function is most important.

The bumper and absorbing shock function of sport footwear mainly faces the reaction of sole by dispersion sole to the pressure of shoes and ground Power is realized.According to sport biomechanics experiment it is found that most people are to be contacted to earth with first landing on the outside of rear heel in foot Early period and liftoff later period, rear foot heel and forefoot part will appear relatively high pressure peak, suffered by rear heel position Impact force is very big.Therefore, how effectively to disperse sole to the pressure and ground of shoes in face of sole reaction force at The piths of shoes Functional Designs.

But current shock-absorbing sole generally only considers how effective disperses impact forces, and cannot be according to most people's Foot-biomechanics feature makes targeted design, to reach the effect of correction walks appearance or guidance center of gravity transfer.

Utility model content

A kind of damping improved sole in order to overcome the technical defects existing in the prior art, the utility model provides.

The technical solution that the utility model uses is:

A kind of damping improved sole, including EVA indsole, wear-resisting egative film and TPU shock reducing structure, the wear-resisting egative film rear heel Top surface is convex to be provided with lower convex platform, the EVA indsole at lower convex platform opposite position under projection be equipped with convex platform, it is described TPU shock reducing structure is coated on outside convex platform, lower convex platform and is bonded and is packed between EVA indsole rear heel and wear-resisting egative film rear heel, The lower convex platform top surface is equipped with the first ladder bulge loop that cross-sectional area is gradually reduced from lower to upper, and the convex platform bottom surface is equipped with The second ladder bulge loop that cross-sectional area is gradually reduced from top to bottom, and the interior outside of the EVA indsole rear heel is in from EVA Pilot face of the indsole rear heel center in respective lateral, and the pilot face width on the outside of EVA indsole rear heel is greater than EVA indsole Pilot face width on the inside of rear heel.

Preferably, the outside height of the EVA indsole rear heel is lower than the inside height of EVA indsole rear heel.

Preferably, the pilot face is clinoplain.

Preferably, the pilot face is inclination arc surface.

Preferably, the pilot face is the cascaded surface risen progressively from the indsole rear heel center EVA to the respective side of sole.

The utility model has the beneficial effects that

1, the second ladder bulge loop being gradually reduced from top to bottom is arranged in the utility model on convex platform, sets on lower convex platform Set the first ladder bulge loop being gradually reduced from lower to upper, when followed by Ground shock waves shoe heel, the first ladder bulge loop It is gradually compressed in opposite directions with the second ladder bulge loop, internal layer can squeeze the bulge loop for being sequentially arranged in outer layer and as spring after being compressed It is compressed, after center of gravity transfer or the liftoff power of going, the deformation of the first ladder bulge loop and the second ladder bulge loop successively restores, can be continuous Moderate rebound power-assisted is provided, so that the damping of the present embodiment sole can be enhanced by the first ladder bulge loop and the second ladder bulge loop Property and rebound effect, and its more damping property of terraced number and rebound effect are stronger.

2, the interior outside of the utility model EVA indsole rear heel be in from EVA indsole rear heel center in respective lateral Pilot face, pilot face is clinoplain or inclination arc surface or cascaded surface, in this way when the interior outside of EVA indsole rear heel is pressurized Also damping effect further can be played by the deformation of TPU shock reducing structure after impact, improve the buffering and damping effect of sole and worn Comfort level, and the pilot face width on the outside of EVA indsole rear heel be greater than EVA indsole rear heel on the inside of pilot face width, The function that correction step appearance can be achieved is conducive to that foot center is guided to shift towards medial heel, with heel contact to earth process and from Lateral heel steadily smoothly transits to medial heel, is more in line with foot movement biomechanics characteristic.Further, the EVA The outside height of indsole rear heel is lower than the inside height of EVA indsole rear heel, can further function as correction step appearance, guidance in this way The effect of foot center is shifted towards medial heel.

3, the utility model EVA indsole is preferably made of modified anti-shrink EVA material foaming, and thermal contraction deformation is small, high Bullet is soft, and consumer's dress can be allowed more comfortable, persistently endurable, can also guarantee the assembly between EVA indsole and TPU shock reducing structure Structural stability.

Detailed description of the invention

Fig. 1 is the utility model damping improved sole perspective view.

Fig. 2 is the shoe heel cross-sectional view of the utility model embodiment 1.

Fig. 3 is the shoe heel cross-sectional view of the utility model embodiment 2.

Fig. 4 is the shoe heel cross-sectional view of the utility model embodiment 3.

Description of symbols:

10, EVA indsole；12, the second ladder bulge loop；13, pilot face；20, wear-resisting egative film；22, the first ladder bulge loop；30, TPU shock reducing structure.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing:

Embodiment 1:

As shown in Figs. 1-2, the present embodiment provides a kind of damping improved sole, including EVA indsole 10, wear-resisting egative film 20 and TPU shock reducing structure 30, the top surface of wear-resisting 20 rear heel of egative film is convex to be provided with lower convex platform, the EVA indsole 10 it is convex under Projection is equipped with convex platform under at platform opposite position, and the TPU shock reducing structure 30 is coated on outside convex platform, lower convex platform and is bonded and is fixedly mounted with Between 20 rear heel of 10 rear heel of EVA indsole and wear-resisting egative film.

The embodiment of the present invention lower convex platform top surface is equipped with the first ladder bulge loop that cross-sectional area is gradually reduced from lower to upper 22, the convex platform bottom surface is equipped with the second ladder bulge loop 12 for being gradually reduced from top to bottom of cross-sectional area, when heel lands punching When hitting shoe heel, the first ladder bulge loop 12 and the gradually opposite compression of the second ladder bulge loop 22, meeting after internal layer is compressed It squeezes the bulge loop for being sequentially arranged in outer layer and is compressed as spring, after center of gravity transfer or the liftoff power of going, the first ladder is convex The deformation of ring 22 and the second ladder bulge loop 12 successively restores, and can continuously provide moderate rebound power-assisted, to pass through the first ladder Bulge loop 22 and the second ladder bulge loop 12 can enhance the damping property and rebound effect of the present embodiment sole, and its more damping of terraced number Property and rebound effect are stronger.In addition, can be respectively set in the mating surface of the first ladder bulge loop 22 and the second ladder bulge loop 12 slow Shake groove.The first ladder bulge loop 22 and its corresponding second ladder bulge loop 12 are arranged two groups or three along sole time interval respectively Group.

In addition, the interior outside of 10 rear heel of EVA indsole be in from 10 rear heel center of EVA indsole in respective lateral Clinoplain formula pilot face 13, in this way when 10 rear heel of EVA indsole interior outside be pressurized impact after also can further by Damping effect is played in the deformation of TPU shock reducing structure 30, improves the buffering and damping effect and wearing comfort of sole, and EVA indsole 13 width of pilot face on the outside of 10 rear heels is greater than 13 width of pilot face on the inside of 10 rear heel of EVA indsole, it can be achieved that correction step The function of appearance is conducive to that foot center is guided to shift towards medial heel, as heel contacts to earth process and steady from lateral heel It smoothly transits to medial heel, is more in line with foot movement biomechanics characteristic.And using TPU damping made of TPU material Body hardness 30 is larger, can play good supporting role, prevent wearer from coming to harm during the motion.Further, institute The outside height for stating 10 rear heel of EVA indsole is lower than the inside height of 10 rear heel of EVA indsole, can further function as correction in this way Appearance, guidance foot center are walked towards the effect of medial heel transfer.

Embodiment 2:

As shown in Figure 1,3, the present embodiment provides a kind of damping improved sole, including EVA indsole 10, wear-resisting egative film 20 and TPU shock reducing structure 30, the top surface of wear-resisting 20 rear heel of egative film is convex to be provided with lower convex platform, the EVA indsole 10 it is convex under Projection is equipped with convex platform under at platform opposite position, and the TPU shock reducing structure 30 is coated on outside convex platform, lower convex platform and is bonded and is fixedly mounted with Between 20 rear heel of 10 rear heel of EVA indsole and wear-resisting egative film.

The embodiment of the present invention lower convex platform top surface is equipped with the first ladder bulge loop that cross-sectional area is gradually reduced from lower to upper 22, the convex platform bottom surface is equipped with the second ladder bulge loop 12 for being gradually reduced from top to bottom of cross-sectional area, when heel lands punching When hitting shoe heel, the first ladder bulge loop 12 and the gradually opposite compression of the second ladder bulge loop 22, meeting after internal layer is compressed It squeezes the bulge loop for being sequentially arranged in outer layer and is compressed as spring, after center of gravity transfer or the liftoff power of going, the first ladder is convex The deformation of ring 22 and the second ladder bulge loop 12 successively restores, and can continuously provide moderate rebound power-assisted, to pass through the first ladder Bulge loop 22 and the second ladder bulge loop 12 can enhance the damping property and rebound effect of the present embodiment sole, and its more damping of terraced number Property and rebound effect are stronger.

In addition, the interior outside of 10 rear heel of EVA indsole be in from 10 rear heel center of EVA indsole in respective lateral Inclination arc surface pilot face 13, in this way when 10 rear heel of EVA indsole interior outside be pressurized impact after also can further by Damping effect is played in the deformation of TPU shock reducing structure 30, improves the buffering and damping effect and wearing comfort of sole, and EVA indsole 13 width of pilot face on the outside of 10 rear heels is greater than 13 width of pilot face on the inside of 10 rear heel of EVA indsole, it can be achieved that correction step The function of appearance is conducive to that foot center is guided to shift towards medial heel, as heel contacts to earth process and steady from lateral heel It smoothly transits to medial heel, is more in line with foot movement biomechanics characteristic.And using TPU damping made of TPU material Body hardness 30 is larger, can play good supporting role, prevent wearer from coming to harm during the motion.Further, institute The outside height for stating 10 rear heel of EVA indsole is lower than the inside height of 10 rear heel of EVA indsole, can further function as correction in this way Appearance, guidance foot center are walked towards the effect of medial heel transfer.

Embodiment 3:

As shown in Fig. 1,4, the present embodiment provides a kind of damping improved sole, including EVA indsole 10, wear-resisting egative film 20 and TPU shock reducing structure 30, the top surface of wear-resisting 20 rear heel of egative film is convex to be provided with lower convex platform, the EVA indsole 10 it is convex under Projection is equipped with convex platform under at platform opposite position, and the TPU shock reducing structure 30 is coated on outside convex platform, lower convex platform and is bonded and is fixedly mounted with Between 20 rear heel of 10 rear heel of EVA indsole and wear-resisting egative film.

The embodiment of the present invention lower convex platform top surface is equipped with the first ladder bulge loop that cross-sectional area is gradually reduced from lower to upper 22, the convex platform bottom surface is equipped with the second ladder bulge loop 12 for being gradually reduced from top to bottom of cross-sectional area, when heel lands punching When hitting shoe heel, the first ladder bulge loop 12 and the gradually opposite compression of the second ladder bulge loop 22, meeting after internal layer is compressed It squeezes the bulge loop for being sequentially arranged in outer layer and is compressed as spring, after center of gravity transfer or the liftoff power of going, the first ladder is convex The deformation of ring 22 and the second ladder bulge loop 12 successively restores, and can continuously provide moderate rebound power-assisted, to pass through the first ladder Bulge loop 22 and the second ladder bulge loop 12 can enhance the damping property and rebound effect of the present embodiment sole, and its more damping of terraced number Property and rebound effect are stronger.

In addition, the interior outside of 10 rear heel of EVA indsole be in from 10 rear heel center of EVA indsole in respective lateral Pilot face 13, the pilot face 13 is the cascaded surface risen progressively from 10 rear heel center of EVA indsole to the respective side of sole, 30 corresponding position of TPU shock reducing structure adaptation fits in pilot face 13, in this way after the interior outside of 10 rear heel of EVA indsole is pressurized impact Damping effect further can be played by the deformation of TPU shock reducing structure 30, improve the buffering and damping effect of sole and comfortable and easy to wear Degree, and the pilot face 13 that 13 width of pilot face on the outside of 10 rear heel of EVA indsole is greater than on the inside of 10 rear heel of EVA indsole is wide Degree, it can be achieved that correction step appearance function, be conducive to that foot center is guided to shift towards medial heel, contact to earth process with heel and It steadily smoothly transits from lateral heel to medial heel, is more in line with foot movement biomechanics characteristic.And use TPU material Manufactured TPU shock reducing structure hardness 30 is larger, can play good supporting role, wearer is prevented to be hurt during the motion Evil.Further, the outside height of 10 rear heel of EVA indsole is lower than the inside height of 10 rear heel of EVA indsole, in this way may be used Correction step appearance, guidance foot center are further functioned as towards the effect of medial heel transfer.

The EVA indsole 10 of above-described embodiment 1-3 is preferably made of modified anti-shrink EVA material foaming, and deformation is heat-shrinked Small, high-elastic softness can allow consumer's dress more comfortable, persistently endurable, can also guarantee EVA indsole 10 and TPU shock reducing structure 30 Between assembling structure stability.And it is modified the preferably use of anti-shrink EVA material and is grouped as by group as follows according to parts by weight: The platform that 43 parts of platform moulds 7470,5 parts moulds the antishrinking agent 203# of 7350,6 parts of 3745,10 parts of poly- 3312,7 parts of the Tao Shi of platform, 1 Zinc oxide, 7 parts of the anti-wear agent, 2 parts of filler, 0.3 part of activating agent, 0.65 part of crosslinking agent, 2.3 parts of foaming of part Agent, 4 parts of colorant.

The basic principles and main features and advantages of the present invention of the invention have been shown and described above, the industry Technical staff is it should be appreciated that the present utility model is not limited to the above embodiments, and described in the above embodiment and specification It is to illustrate the principles of the present invention, under the premise of not departing from the inventive spirit of the present invention and range, the utility model is also had Various changes and modifications, these various changes and improvements fall within the scope of the claimed invention, the requires of the utility model Protection scope is defined by the appending claims and its equivalent thereof.

Claims (5)

1. a kind of damping improved sole, including EVA indsole, wear-resisting egative film and TPU shock reducing structure, the top of the wear-resisting egative film rear heel Face is convex to be provided with lower convex platform, the EVA indsole at lower convex platform opposite position under projection be equipped with convex platform, the TPU Shock reducing structure is coated on outside convex platform, lower convex platform and is bonded and is packed between EVA indsole rear heel and wear-resisting egative film rear heel, special Sign is that the lower convex platform top surface is equipped with the first ladder bulge loop that cross-sectional area is gradually reduced from lower to upper, the convex platform Bottom surface is equipped with the second ladder bulge loop that cross-sectional area is gradually reduced from top to bottom, and the interior outside of the EVA indsole rear heel In the pilot face from EVA indsole rear heel center in respective lateral, and the pilot face width on the outside of EVA indsole rear heel is big Pilot face width on the inside of EVA indsole rear heel.

2. damping improved sole according to claim 1, which is characterized in that the outside height of the EVA indsole rear heel Lower than the inside height of EVA indsole rear heel.

3. damping improved sole according to claim 1, which is characterized in that the pilot face is clinoplain.

4. damping improved sole according to claim 1, which is characterized in that the pilot face is inclination arc surface.

5. damping improved sole according to claim 1, which is characterized in that the pilot face is from EVA indsole rear heel The cascaded surface that center is risen progressively to the respective side of sole.