KR200462266Y1 - Shoes for absorbing sock - Google Patents

Abstract

It provides a shock absorbing shoes with an improved structure to excellent shock absorption. The shock absorbing shoe includes a body member and a bottom member, and the bottom member is formed by protruding downwardly from a base portion having an inner space formed at a portion corresponding to the heel and a portion corresponding to the heel at the base portion to apply external force. A pumping unit including at least one protrusion that is elastically deformed to move toward the inner space of the ground base part, an air receiving part disposed in the inner space of the base part, and an air access part formed to allow external air to enter and exit the air receiving part; It is disposed in the inner space of the base portion, and formed to surround the pumping unit, and when the external force is applied to the protrusion includes an elastic unit to compress the air receiving portion of the pumping unit, and to restore the initial shape when the external force is removed. Accordingly, the compression of the pumping unit and the elastic unit is maximized by the protrusion, so that the shock transmitted to the foot of the user can be more effectively absorbed than the conventional shock absorbing shoes.

Description

Shock absorbing shoes {Shoes for absorbing sock}

The present invention relates to shock absorbing shoes, and more particularly to shock absorbing shoes used to protect the foot when walking.

The structure of the shoe is developed in various ways depending on the purpose of use. An example of the structure of a conventional shoe, the upper part and the sole part that covers the upper part of the foot as a whole and maintains the appearance design and the shape of the shoe, and the sole is made from the bottom, outsole, midsole and insole. And it is generally laminated in the order of the insole.

When the user walks or jogs, an impact is transmitted to the feet. In order to prevent such a shock, there is an example in which the midsole is made of an elastic material to absorb the shock due to weight during walking or exercising. However, the structure in which only the material of the midsole is changed has a limit in obtaining a sufficient effect in shock absorption.

The object of the present invention is to provide a shock-absorbing shoes with an improved structure to excellent shock absorption.

Shock absorbing shoes according to the present invention for achieving the above object, and includes a body member and a bottom member, the bottom member is a base portion formed with an internal space in a portion corresponding to the heel, and the foot in the base portion Protruding downward from the portion corresponding to the heel and at least one protrusion which is elastically deformed to move toward the inner space of the base portion when an external force is applied, an air receiving portion disposed in the inner space of the base portion, and the air receiving portion A pumping unit including an air access unit formed to allow external air to enter and exit the air pump unit, and disposed in the inner space of the base unit to surround the pumping unit, and when an external force is applied to the protrusion, the air receiving unit of the pumping unit Compressed, and includes an elastic unit that is restored to the initial shape when the external force is removed.

Shock absorbing shoes according to the present invention, by the compression of the pumping unit and the elastic unit is maximized by the protrusion, it is possible to effectively absorb the shock transmitted to the user's foot than the conventional shock absorbing shoes.

1 is a view showing the inside of the shock absorbing shoes according to an embodiment of the present invention.
Figure 2 is a perspective view of the shock absorbing shoes shown in FIG.
Figure 3 is a cross-sectional view showing a state in which the shock absorbing shoes shown in Figure 1 is not in contact with the ground.
4 is a cross-sectional view showing a state in which the shock absorbing shoes shown in FIG. 1 are in contact with the ground;
Figure 5 is an exploded perspective view showing an extract of the air receiving portion and the elastic unit in the shock absorbing shoes shown in FIG.

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

1 and 2, the shock absorbing shoe 100 according to the preferred embodiment of the present invention includes a body member 110 and a bottom member 120.

Body member 110 is formed to surround the side of the foot, the lower side is formed to be open. Body member 110 serves to protect the outer surface of the foot.

The bottom member 120 is formed to close the lower side of the body member 110. The sole is in contact with the top surface of the bottom member 120. Shock is repeatedly applied to the foot when the user walks, and some impact is absorbed by the bottom member 120.

In the shock absorbing shoe 100 according to the preferred embodiment of the present invention, the bottom member 120 includes a base 130, a protrusion 140, a pumping unit 150, and an elastic unit 160. .

The base portion 130 has an inner space formed at a portion corresponding to the heel. The base portion 130 may be made of a material having excellent elasticity.

The protrusion 140 protrudes downward from a portion corresponding to the heel in the base 130. That is, the protrusion 140 may protrude in an arc shape from the bottom surface of the base 130. One or more protrusions 140 may be provided. An external force is applied to the protrusion 140 while the user walks. When the user stands on the ground and the protrusion 140 contacts the ground, the protrusion 140 is elastically deformed to move toward the inner space of the base 130. Then, when the user removes the foot from the ground and the ground and the protrusion 140 are not in contact, the protrusion 140 is elastically restored to the initial position from the inner space of the base 130.

The material of the protrusion 140 may be made of the same material as the base 130. Alternatively, the protrusions 140 and the base 130 may be made of different materials, and the protrusions 140 may be coupled to the base 130. Bonding of the base 130 and the protrusion 140 may use an adhesive material. Alternatively, it is also possible to combine the base 130 and the protrusion 140 in a specific temperature of heat.

The pumping unit 150 absorbs the shock generated when walking. The pumping unit 150 for this includes an air accommodating part 151 and an air access part 154. The air accommodating part 151 is formed in the inner space of the base part 130. The air receiving portion 151 is filled with air in the atmosphere. The air inlet 154 is formed to allow external air to enter and exit the air accommodating part 151. Since no air is applied to the air accommodating part 151, the air accommodating part 151 is to be restored to its initial shape, so that outside air is filled into the air accommodating part 151 through the air access part 154. . When the external force acts while the air is filled in the air accommodating part 151, the external shock is reduced by the air pressure inside the air accommodating part 151, so that the air inside the air accommodating part 151 is the air entry part. It is discharged to the outside through 154.

The elastic unit 160 is disposed in the inner space of the base unit 130 and is formed to surround the pumping unit 150. The elastic unit 160 generates an elastic force so that the pumping unit 150 can be easily restored to its initial shape. When an external force is applied to the protrusion 140, the elastic unit 160 compresses the air accommodating part 151 of the pumping unit 150, and restores the initial shape when the external force is removed. The elastic unit 160 serves to absorb the shock generated when walking.

A process in which a shock is absorbed in the shock absorbing shoe 100 while the user walks with the shock absorbing shoe 100 having the above-described structure is walking.

As shown in FIGS. 3 and 4, in the process of walking by a user, a process of repeatedly contacting and falling of the protrusion 140 and the ground is performed. When the protrusion 140 is formed on the bottom surface of the base portion 130, the protrusion portion 140 is formed on the bottom surface of the base portion 130 than when the protrusion portion 140 is not formed on the bottom surface of the base portion 130. 140, the contact area can be reduced when the ground contact. Accordingly, as soon as the user steps on the ground, a lot of force is applied to the protrusion 140, and the protrusion 140 is moved to the inner space of the base 130 so that the elastic unit 160 and the pumping unit 150 are Squeeze the lower side. The upper side of the elastic unit 160 and the pumping unit 150 is supported by the user's foot, therefore, the elastic unit 160 and the pumping unit 150 can be compressed to the maximum and maximize the shock absorption. . At the moment when the user steps from the ground, the pumping unit 150 and the elastic unit 160 are easily restored to their initial shape by the restoring force of the pumping unit 150 and the elastic force of the elastic unit 160.

The shock absorbing shoes 100 having the structure as described above is the compression of the pumping unit 150 and the elastic unit 160 by the protrusion 140, the user's foot than the conventional shock absorbing shoes 100 It can effectively absorb the shock transmitted to the.

On the other hand, referring to Figure 5, as an example of the detailed structure of the elastic unit 160 described above, the first plate portion 161, the second plate portion 162, the connecting portion 163, the first spring portion 164 and the second spring portion 165 may be included.

The first plate portion 161 is disposed to contact the upper surface of the air receiving portion 151.

The second plate portion 162 is disposed to contact the bottom surface of the air receiving portion 151. An example of the first plate portion 161 and the second plate portion 162 may be a leaf spring. In addition, as an example of the shape of the first plate portion 161 and the second plate portion 162 may have an arc shape.

One end of the connecting portion 163 is rotatably coupled to the side of the first plate portion 161, and the other end is rotatably coupled to the side of the second plate portion 162.

The first spring portion 164 generates an elastic force so that the first plate portion 161 maintains a specific angle with the connection portion 163. The second spring portion 165 generates an elastic force so that the second plate portion 162 maintains a specific angle with the connection portion 163. To this end, the first spring portion 164 and the second spring portion 165 may be a torsion spring. The torsion spring is formed to have a predetermined angle at both ends, and when the angle of both ends is changed by an external force, a torsion spring generates a force to restore the original angle. One end of the first spring portion 164 is fixed to the first plate portion 161, and the other end is fixed to the connection portion 163. One end of the second spring part 165 is fixed to the second plate part 162 and the other end is fixed to the connection part 163.

Meanwhile, as a modification of the air accommodating part 151, the air accommodating part 151 may further include an extension part 152 extending toward a portion corresponding to the toe of the base part 130. In addition, a plurality of air circulation holes 153 may be formed on the upper surface of the extension part 152. In this case, a plurality of unshown through holes may be formed on the upper surface of the base 130 to correspond to the air circulation hole 153. In this process, the air accommodating part 151 is contracted and restored to its initial shape by the structure, and the heated air inside the shock absorbing shoe 100 is discharged to the air inlet part 154 through the air accommodating part 151. Can be. In addition, the outside air may be introduced through the air access unit 154 to pass through the air receiving unit 151 to be supplied into the shock absorbing shoes 100. Accordingly, it is possible to reduce the fatigue of the user's feet by the heated air inside the shock-absorbing shoes 100 during walking.

It will be understood by those skilled in the art that various modifications, substitutions and alterations can be made hereto without departing from the spirit and scope of the invention as defined by the appended claims. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention, but are intended to be described, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas which are within the scope of the same should be interpreted as being included in the scope of the present invention.

100: shock absorbing shoes 110: body member
120: bottom member 130: base portion
140: protrusion 150: pumping unit
151: air receiving portion 152: extension portion
153: air circulation hole 154: air inlet
160: elastic unit 161: first plate portion
162: second plate portion 163: connecting portion
164: first spring portion 165: second spring portion

Claims (3)

In the body member formed to surround the side of the foot, the lower side is opened, and the bottom member for closing the lower side of the body member,
The bottom member is;
A base portion having an inner space formed at a portion corresponding to the heel;
At least one protrusion which protrudes downward from a portion corresponding to the heel in the base portion and is elastically deformed to move toward an inner space of the base portion when an external force is applied;
A pumping unit including an air accommodating part disposed in the inner space of the base part, and an air access part configured to allow external air to enter and exit the air accommodating part; And
An elastic unit disposed in the inner space of the base part to surround the pumping unit and compressing the air receiving unit of the pumping unit when an external force is applied to the protrusion, and restoring to an initial shape when the external force is removed;
Shock absorbing shoes comprising a. The method of claim 1,
The elastic unit is:
A first plate part disposed to contact the upper surface of the air accommodating part;
A second plate portion disposed to contact the bottom surface of the air receiving portion;
One end is rotatably coupled to the side of the first plate portion, and the other end is rotatably coupled to the side of the second plate portion;
A first spring portion generating an elastic force so that the first plate portion maintains a specific angle with the connection portion; And
A second spring unit generating an elastic force so that the second plate unit maintains a specific angle with the connection unit;
Shock absorbing shoes comprising a. The method of claim 1,
The air accommodating part further includes an extension part extended toward a portion corresponding to the toe on the base part, and a plurality of air circulation holes are formed on an upper surface of the extension part.
The upper surface of the base portion shock absorbing shoes, characterized in that a plurality of through-holes are formed to correspond to the air circulation hole.

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