KR20110045439A - Outsole where the shocking absorption with the direction which is various is possible - Google Patents

Abstract

The present invention relates to a shoe sole capable of absorbing shock in multiple directions, and more particularly, a plurality of upper portions protruding in a semicircular shape at upper and lower ends of the shock absorbing means respectively installed on the front and rear axles and injecting air therein. The shock absorber and the plurality of lower shock absorbers protruding in a cylindrical shape are configured to be in contact with each other, thereby effectively absorbing and cushioning shocks caused by loads applied at an inclined angle as well as impacts due to vertical loads. By acting, the present invention relates to a shoe sole capable of absorbing shock in multiple directions to improve the fit and more effectively prevent injury to the spine and joints.

According to the present invention, in the shoe sole is provided with a plurality of shock absorbers having a cylindrical shape on the front and rear axle, respectively, vertically at regular intervals and the inside of the shock absorbing means (10) filled with air, The shock absorber of the shock absorbing means is divided into upper and lower parts and the upper shock absorber and the lower shock absorber which are in contact with each other, the upper shock absorber is formed in a semi-circular shape and the lower shock absorber is formed in a cylindrical shape, As the upper shock absorber and the lower shock absorber are compressed at various angles, they can effectively absorb and cushion the shock caused by the load acting at an inclined angle as well as the impact caused by the vertically loaded load. A shoe sole capable of absorbing shock in one direction is provided.

Description

Outsole where the shocking absorption with the direction which is various is possible}

The present invention relates to a shoe sole capable of absorbing shock in multiple directions, and more particularly, a plurality of upper portions protruding in a semicircular shape at upper and lower ends of the shock absorbing means respectively installed on the front and rear axles and injecting air therein. The shock absorber and the plurality of lower shock absorbers protruding in a cylindrical shape are configured to be in contact with each other, thereby effectively absorbing and cushioning shocks caused by loads applied at an inclined angle as well as impacts due to vertical loads. By acting, the present invention relates to a shoe sole capable of absorbing shock in multiple directions to improve the fit and more effectively prevent injury to the spine and joints.

In general, the sole is the sole of the shoe, and serves to mitigate the small and large impact transmitted to the body through the foot due to the load of the wearer when the shoe touches the ground.

Therefore, the shoe sole should effectively exert a shock absorbing ability to comfort the foot and to protect the spine or knee by effectively alleviating the shock transmitted to the body through the foot.

To this end, a shoe sole has been developed that is equipped with a shock absorbing means for absorbing and absorbing shock through various structures on the rear axle of the sole or the front and rear axles, of which the performance is recognized, the most applied to the sole is a plurality of shocks having a cylindrical shape Absorbent body or a plurality of buffered spring body is a structure installed vertically at regular intervals.

This is a structure that absorbs the impact generated when the sole touches the ground while the plurality of shock absorbers or the shock absorbing spring body is individually compressed in the vertical direction by the load of the wearer.

Accordingly, by applying the shoe sole provided with the shock absorbing means to the shoe, whenever the load of the wearer is transmitted to the ground through the shoe sole, a plurality of shock absorbers or a plurality of shock absorbing springs constituting the shock absorbing means to the load of the wearer By adaptively vertically compressing proportionally, it absorbs the shock at that time, improving the fit of the shoes and preventing injury to the spine or joints.

However, the shock absorber or the shock absorbing body of the shock absorbing means can effectively absorb the shock when the load of the wearer acts vertically, but the shock absorber or the shock absorbing spring of the shock absorber does not absorb the shock properly when the load of the wearer acts at an inclined angle. .

That is, since the shock absorber or the buffer spring is in the form of a vertical column, compression is easy in the vertical direction, but compression is not properly performed in the inclined direction other than the vertical direction.

Therefore, when the shoe sole provided with the conventional shock absorbing means acts at an inclined angle of the wearer, the shock absorber is not properly absorbed, and thus, the shoe sole cannot be exerted. As a result, the shock was not absorbed properly, so that the foot was not comfortable, and the spine and joints had to be strained.

Therefore, the conventional shock absorbing means was able to effectively alleviate the impact when landing after jumping vertically, but could not properly mitigate the impact when running or running.

The present invention has been invented to solve the above problems, so that the impact absorbing means of the shoe sole can effectively mitigate the impact when the load of the wearer acts in the vertical direction as well as the impact when in the inclined direction. In order to achieve the bottom of the shoe, a plurality of shock absorbers having a cylindrical shape on each of the front and rear axle is vertically installed at regular intervals, the inside of the shoe sole is provided with shock absorbing means (10), the shock absorbing means The shock absorber is divided into two upper and lower parts, the upper shock absorber and the lower shock absorber is composed of a separate, the upper shock absorber is formed in a semi-circular shape and the lower shock absorber is formed in a cylindrical shape to absorb the shock in multiple directions Its purpose is to provide a possible shoe sole.

The shoe sole capable of absorbing the shock in the multi-direction of the present invention has a structure that can effectively absorb and cushion the shock when the load of the wearer acts in the vertical direction as well as the shock when the load of the wearer acts in the inclined direction. As it has, the shoes are more comfortable and do not strain the joints or spine, thereby improving the fit of the shoes, thereby effectively preventing the injury of the joints or the spine.

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

FIG. 1 is a perspective view of the present invention, FIG. 2 is a sectional view taken along the line “A-A” of FIG. 1, and FIG. 3 is a sectional view taken along the line “B-B” of FIG.

The shoe sole 100 capable of absorbing the shock in the multi-direction of the present invention forms a bottom of the shoe, and a plurality of shock absorbers each having a cylindrical shape on the front and rear axles are vertically installed at regular intervals, and the inside is filled with air. In the sole 10 is installed, the shock absorbing body of the shock absorbing means 10 is divided into two vertically divided into an upper shock absorber 11 and the lower shock absorber 12, the upper shock absorber ( 11) is formed in a semi-circular shape and the lower shock absorber 12 is characterized by consisting of a structure formed in a cylindrical shape.

The shock absorbing means 10 has a structure in which air is injected therein to further increase the shock absorbing effect of the upper shock absorber 11 and the lower shock absorber 12.

A plurality of acupressure protrusions 13 are formed to protrude at a predetermined interval on the upper end of the shock absorbing means 10 is configured to have a pressure function.

The shoe sole 100 capable of absorbing the shock in the multi-direction of the present invention configured as described above (100) forms a bottom surface of the shoe as shown in FIG. 1, and the impact caused by the load of the wearer when walking or running shoes is worn. It will alleviate the shoe's fit and prevent spinal and joint injuries.

In particular, the sole 100 capable of absorbing shock in the multi-direction of the present invention is characterized in that it can effectively alleviate the impact caused by the load applied at an inclined angle as well as the impact caused by the vertically applied load.

2 and 3, this is achieved by a structure in which the shock absorber installed in the shock absorbing means 10 provided in the rear and front shafts is divided into two vertically.

That is, the shock absorber is divided into two parts up and down, and the upper shock absorber 11 protruding downward in a semicircular shape so as to be in contact with each other, and the lower shock absorber 12 protruding upward in a cylindrical shape.

Therefore, when the load of the wearer is applied in the vertical direction, such as an operation of jumping vertically and landing, the shock absorbing means 10 is vertically compressed while the upper shock absorber 11 and the lower shock absorber 12 are in contact with each other up and down. The shock is absorbed and cushioned with the air injected into the interior of the.

That is, in this case, the upper shock absorber 11 and the lower shock absorber 12 are vertically compressed as in the action of the conventional shock absorbing means to which the shock absorber formed of one vertical pillar is applied, thereby alleviating the impact.

However, when the load of the wearer is applied in the inclined direction instead of the vertical direction due to the operation of walking or running unlike the above, the upper shock absorber 11 and the lower shock absorber 12 are obliquely corresponding to the inclined angle. While contacting and compressed in the wrong direction to absorb and buffer the shock delivered to the body with the air injected into the shock absorbing means (10).

That is, the upper shock absorber 11 and the lower shock absorber 12 are compressed to contact each other eccentrically at an angle corresponding to the angle to which the load is applied, thereby alleviating the impact. This is because the shock absorber is divided into upper shock absorber 11 and the lower shock absorber 12 as described above, respectively.

In this case, since the upper shock absorber 11 is formed in a semicircular shape, the upper shock absorber 11 may be in contact with the lower shock absorber 12 at various angles. Can be buffered.

Therefore, it is possible to completely solve the problem of the shock absorbing means applied to the conventional shoe sole that the impact absorbing capacity is not properly compressed due to the impact absorber of the vertical column shape that is not divided into two vertically, the impact absorbing ability is reduced.

Accordingly, even if the load of the wearer is applied in any direction, the shock absorption effect is effectively absorbed and buffered regardless of the direction, thereby improving the wearing comfort of the shoes and preventing the injury of the joint or the spine more effectively.

Here, a plurality of acupressure protrusions 13 are formed on the upper end of the shock absorbing means 10 at regular intervals, so as to absorb the shock applied to the body and press the sole of the wearer at the same time, thereby releasing the fatigue of the foot. The effect of promoting blood circulation can also be achieved.

1 is a perspective view of the present invention

2 is a cross-sectional view taken along the line “A-A” of FIG. 1.

3 is a cross-sectional view taken along the line “B-B” of FIG. 1.

[Description of Drawings]

10: shock absorbing means 11: upper shock absorber

12: lower shock absorber 13: acupressure protrusion

100: sole

Claims (2)

A shoe sole which forms a bottom of a shoe and has a plurality of shock absorbers each having a cylindrical shape on the front axle and the rear axle at a predetermined interval vertically, and the shock absorbing means 10 filled with air inside the shoe sole, the shock absorbing means 10 ), The shock absorber is divided into upper and lower parts and separated into an upper shock absorber 11 and a lower shock absorber 12 which are in contact with each other. The upper shock absorber 11 is formed in a semicircular shape and the lower shock absorber 12 is As the upper shock absorber 11 and the lower shock absorber 12 are compressed at various angles, the upper shock absorber 11 and the lower shock absorber 12 are compressed in a plurality of angles. A shoe sole capable of absorbing shock in multiple directions, characterized by being able to absorb and cushion shocks effectively by acting as a load. The shoe sole according to claim 1, wherein a plurality of acupressure protrusions (13) are protruded at a predetermined interval on the upper end of the shock absorbing means (10) and thus have a pressure bearing function.

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