KR200321714Y1 - Sole having improved heel - Google Patents

Abstract

In the design of the sole with improved heel, the ground surface 9 of the heel portion 8 of the sole 7 is formed to be generally flat so as to be round with the ground in contact with the ground in the front-rear direction and not inclined in the left-right direction. And preferably cushioning elastically absorbed in response to the impact of the wearer's weight and walking in the rear axle portion between the midsole member 10 constituting the sole 7 and the outsole member 20 adhered to the bottom And a member 30. The cushion member is made of a material having excellent mechanical strength and fast elastic recovery force. The cushion member is formed of an upper surface portion 31 and a lower surface portion 32 and has a space portion 33 for expansion and contraction opened laterally between the upper and lower portions. This shoe has a very stable landing motion, and especially effective shock absorption reduces the ankle shock, comfortable walking, and by returning the absorbed shock as energy, it has the effect of reducing stamina consumption. In addition, by using a cushion member, a separate light emitting device can be added to produce a glittering effect when walking, and a separate wheel device can be easily combined to enjoy roller skating. .

Description

Sole having improved heel}

The present invention relates to an outsole with improved heel, in particular, the heel of the sole is improved to maintain the stability of the landing operation and relates to an optimal shock absorbing structure for the improved heel.

The function of the shoe is not only to wrap and protect the foot, but also to increase the efficiency of various sports and labor as well as comfortable walking through the ergonomic design of the foot. The sole of the person is arched and slightly curved, which functions as a recoil of the foot when walking, shock reduction during landing, and nerve protection of the sole. Therefore, the bottom of the shoe must also be shaped to fit the arch of the foot, so that comfortable walking is possible. In practice, a moderately high heel has been proven in many experiments to be effective in allowing the lower extremity muscles (ie, the hips, thighs, and lower thighs to tense up) and to be able to walk properly. . There are differences depending on the person and the environment, but the height of the heel is generally considered to be dangerous if the height is more than 3cm and 7cm.

Shoes for comfortable walking should consider the stability of the landing operation. For reference, referring to FIG. 1, which shows a landing operation of a conventional sneaker, the ground surface 3 of the rear axle 2 of the sole 1 is generally flat, and the rear surface 4 is formed to have a generally semicircular contour. . And the corner (5) where the bottom (3) and the back (4) meet is almost right angles. The landing motion of these soled shoes is divided into imaginary lines and solid lines in the drawing. The process is carried out in two stages of grounding at a time That is, since the rotation and ground at the maximum moment corresponding to the length from the edge 5 to the toe, the impact at the time of landing is relatively large. In addition, referring to Figure 2 seen from the rear, the rear axle (4) is a semi-circular contour, so that the first landing posture tilted to the side is very unstable, especially when the ground is uneven. Severe. This not only creates anxiety for the wearer, but also causes loss of foot, causing the feet to sprain, and also causing uneven wear of the sole and impeding gait correction. On the other hand, in the landing operation as shown in Fig. 2, since the initial landing surface is narrow, the absorption of the shock is not smooth, and the fatigue is increased.

For comfortable walking, it should be able to absorb the shock when landing with stability of landing operation. Soles for absorbing shocks vary in material, but hard materials, such as the heel of a shoe, are not suitable for long walks or long runs, as the impact of the heel touching the ground is transmitted to the body. On the other hand, thick and flexible materials, such as sneaker soles, have a good shock absorbing effect but take some time to recover after contraction, resulting in more energy consumption for the next operation after landing, thus increasing ankle fatigue.

Looking at the prior art for improving the shock absorbing function of the outsole, Patent Nos. 2000-0024085 and 2000-0048904, published room yarn 1996-0000187, registered utility models 20-0225738 and 20-0265533, such as metal coil springs or air pockets Has been proposed to increase the impact mitigation effect when landing by mounting on the sole of the sole. However, metal coil springs and air pockets are difficult to achieve sufficient performance without significantly increasing the height of the existing heel considering its volume and sufficient shrinkage movement, and thus the effect is low and most of them have not been put to practical use.

Shoes for comfortable walking needs to be comprehensively considered not only the height of the heel but also the functions such as safe landing operation and shock mitigation upon landing. However, as described above, although the landing operation of the existing shoe heel has an unstable problem, the conventional solution has not been proposed.

In addition, metal coil springs or air pockets as previously proposed to enhance the shock absorbing effect at the time of landing requires a sufficient expansion space on their own, whereas the space that can be provided on the sole heel of a suitable height is small Not only is it difficult to achieve an effective shock-absorbing function, but in a closed stretched space, the shock is not emitted to the outside, but rather it is adversely affected by the reaction to the body that transmits the shock to the body. There is a need for a structure that can be diffused to the outside.

The object of the present invention is to provide an outsole with an improved heel in consideration of the stability of the landing motion for comfortable walking, and secondly to effectively absorb the shock on the improved heel, but not to transmit the absorbed shock to the body. It is to provide a sole that is given an optimal shock absorbing function to the outside.

1 is a side view showing a landing operation of a shoe having a conventional sole,

FIG. 2 is a rear view of the landing operation of FIG. 1 as seen from arrow II; FIG.

Figure 3 is a side view showing the landing operation of the shoe is applied to the improved heel sole according to the present invention,

4 is a rear view of the landing operation of FIG. 3 as viewed from the arrow IV direction;

Figure 5 is a side view of the shoe with a cushion for the shock absorption and the outsole improved heel according to the present invention,

6 is a perspective view of the cushion shown in FIG. 5, FIG.

7 is a perspective view showing a spring member and an auxiliary shock absorber for using the cushion of the other structure for the shock absorbing and the sole of the improved heel according to the present invention,

8 is a cross-sectional view of the auxiliary shock absorber shown in FIG.

* Explanation of symbols for main parts of the drawings

7: outsole 8: rear heel

9: ground plane 30,30 ': cushion member

33: space 34: reinforcement

40: spring member 50: auxiliary shock absorber

Sole with improved heel according to the present invention to achieve the first object, as the sole for waiting on the sole of the shoe is formed so that the rear axle is round to the cloud contact after landing with respect to the ground in the front and rear direction and generally does not tilt in the left and right direction. It is characterized in that it is formed flat, the second purpose, corresponding to the shape of the heel portion of the sole, buried therein or bonded therein, and elastically absorbs the wearer's weight and impact during walking and radiates to the outside It further comprises a cushion member.

Preferably, in constructing the cushion member, a material having superior mechanical strength and a high elastic recovery force than the material of the sole is used, and the upper surface portion and the ground surface which are generally flat or gently curved with respect to the upper surface side of the heel portion It may be formed to have a space portion which is curved in the same shape as the bottom of the rear shaft portion and has a space portion that is laterally opened for stretching between the upper and lower portions, and more preferably a cylindrical reinforcement inscribed into the space portion to increase strength. It is possible to install a high-strength high-elastic material leaf spring or auxiliary shock absorber in the reinforcement portion to have a further portion, and preferably to increase the elastic recovery force to the reinforcement portion.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 3 shows the landing operation of the shoe is applied to the outsole improved heel according to the first object of the present invention. In FIG. 3, reference numeral 6 denotes a sole, and 7 denotes an outsole having improved heel according to the present invention. The rear axle 8 of the sole 7 is thicker than the toe of its front as usual and at the same time the ground plane 9 which touches the ground is rounded forward and backward and is generally flat in the left and right directions (see Fig. 4) and is generally semi-cylindrical. Has the shape of.

Looking at the landing operation of the shoe by the heel portion (8) improved to the semi-cylindrical as described above, from the initial position of the landing shown by the solid line in the drawing until the entire floor represented by the virtual line in the drawing becomes the posture, The ground surface 9 of the rear shaft portion 8 of (7) is grounded in the form of rolling contact. At this time, the geometric center P of the semi-cylindrical heel portion 8 ground plane 9 hardly changes its position from the initial landing to the completion. In addition, the length from the center P to the tip of the foot, which acts as a moment to reach the ground after the entire ground rotates after the landing, is shorter than before. In other words, the soft ground and small moments significantly reduce the impact of the final ground. On the other hand, referring to Fig. 4, which shows the posture of the initial landing, the ground plane 9 of the rear axle 8 is generally flat in the left and right directions, so that the grounding posture is grounded in a safe posture without inclination. Therefore, the stability of the landing operation as described above, as well as a function to correct the gait, it is also possible to solve the problem of uneven wear of the sole.

FIG. 5 shows a shock absorbing structure which is suitable for the improved heel portion 8 of the sole 7 as described above and at the same time can achieve the best performance. The sole 7 according to this embodiment includes a midsole member 10, an outsole member 20, and a cushion member 30. The midsole member 10 is conventional and is thickly formed of a flexible elastic material mainly of the polyurethane series. The thin outsole member 20 bonded to the bottom of the midsole member 10 is also conventional, and is molded from synthetic rubber having a high frictional force against the ground and excellent wear resistance. The cushion member 30 bonded between the midsole member 10 and the heel portion of the outsole member 20 is for absorbing the impact by elastically responding to the wearer's weight and the impact at the time of landing, mechanical strength and elastic recovery force The polyester elastomer (for example, KOPEL of Kolon Emulsification) which is excellent in this etc. is used. As shown in FIG. 6, the cushion member 30 has an upper surface portion 31 and a lower surface portion 32 and has a half-moon-shaped space portion 33 that is largely opened to the left and right sides for stretching. The upper surface portion 31 is generally flat or gently curved to correspond to the shape of the heel. The lower surface portion 32 is curved to correspond to the shape of the ground plane 9 of the improved rear shaft portion described above. In FIG. 5, the outsole member 20 bonded under the midsole member 10 is removed to directly ground to the lower surface 32 of the cushion member 30, or the cushion member 30 is connected to the midsole member 10. Can be buried in the heel of the stomach.

The landing operation of the shoe with the sole according to the present embodiment is the same as FIG. 3 for the previous embodiment, the space 33 of the cushion member 30 is contracted with respect to the large impact applied to the heel during landing The shock will be absorbed. In particular, in the cushion member 30, the space 33 is largely opened to the left and right, so that the absorbed shock is diverted to the outside, so that the shock at the time of landing is hardly transmitted to the body. The cushion member 30 is returned to the energy for the next operation to restore the fast elastic recovery force after shrinking. Therefore, the shock absorbing effect and the impact is stored as energy and returned to provide the effect of reducing the energy consumption of the wearer walking.

7 shows a deformed cushion member 30 ′ and a spring member 40 and an auxiliary shock absorber 50 that may be added thereto. The deformed cushion member 30 ′ has a cylindrical reinforcement support portion 34 integrally formed by integrating the space portion 33 between the upper surface portion 31 and the lower surface portion 32. The reinforcement 34 increases the strength and elastic recovery of the cushion member 30 ', and in particular, the spring member 40 and / or the auxiliary shock absorber 50, which will be described later, can exhibit greater strength and elastic recovery. Will be. Therefore, it is suitable for the wearer of a large weight or a high impact environment, and expands the selection of the cushion member material based on the same strength or elastic recovery force.

The spring member 40 may be made of a high strength, high elasticity synthetic resin such as a metal C-shaped leaf spring or the aforementioned polyester elastomer, and preferably has a flange portion 41a, 41b that is cylindrical and extended at both ends as shown in the drawing. It may be provided in a shape so as not to be separated laterally in close contact with the inner circumferential surface of the reinforcing support part 34, or may be provided in the insert molding method in the reinforcing support part 34 when the cushion member 30 ′ is formed.

Auxiliary shock absorber 50 is for the stronger shock absorption, as shown in Figure 8 using a elastic material is inserted into the coil capsule in the cylindrical capsule body 51 and the cap 52 to fit snugly to the reinforcement support 34 One or a plurality of 53 are incorporated. One of the spring member 40 or the auxiliary shock absorber 50 is for use selectively, but may be used together as necessary.

Although not shown separately, it will be possible to fill the cushioning material made of an elastic material such as rubber, such as the auxiliary shock absorber does not have a built-in spring.

As described through the above embodiments, the outsole improved heel according to the present invention is effective for comfortable walking with stability of the landing operation, and also effective for correcting the gait by maintaining a correct posture.

The present invention, in particular, by using a shock absorbing cushion suitable for the sole with improved heel, while absorbing the impact effectively while walking, the absorbed shock to the outside to protect the body by spreading to the outside, with fast elastic recovery By returning energy from contraction, it has the effect of reducing stamina.

Claims (7)

An outsole for improving the heel of the shoe, wherein the grounding surface of the rear axle is formed to be rounded in contact with the ground in the forward and backward directions and is generally flat so as not to tilt in the left and right directions. The sole according to claim 1, wherein the heel is improved by embedding a cushion member having a resilient shock absorbing buried in or attached to the heel portion. The sole according to claim 2, wherein the cushion member is formed of an upper surface portion and a lower surface portion corresponding to the shape of the rear shaft portion, and a space portion opened laterally between the upper and lower portions thereof. 4. The sole according to claim 3, wherein the cushion member is inscribed in the space portion between the upper and lower surfaces to have a cylindrical reinforcement support for increasing strength and elastic recovery. The sole according to claim 4, wherein the sole includes the spring member, which is an elastic body that is in close contact with or embedded in the inner circumferential surface of the reinforcing support part of the cushion member to further increase the elastic restoring force. The sole according to claim 4, wherein at least one spring is built in the elastic material capsule which can be inserted into the reinforcing support of the cushion member, and includes an auxiliary shock absorber that elastically absorbs an impact. The sole according to claim 4, wherein a cushioning material made of an elastic material is filled in the reinforcing support of the cushion member.