KR100935696B1 - Shank - Google Patents

Abstract

PURPOSE: A shank is provided, which makes the front of the midsole more flexible and prevents the shank from coming through the top of the midsole. CONSTITUTION: A shank comprises a body(100); an upper rib(110) formed in the upper side of the body; a bottom rib formed in the lower side of the body; a plurality of penetration holes(130) pass through the upper side and lower side of the body; a plurality of slits(140,140a) is formed in the front and rear of the body; and a connection rib(150) which interlinks the slits to each other. The thickness of the body becomes thinner towards the front of the body.

Description

Shank

The present invention relates to a shank embedded in the midsole, and more particularly, to a shank in which the thickness of the body front portion becomes thinner toward the front.

In general, urban people walk on the hard floor, using hard soled shoes, using only the front and heel of their feet. As a result, the impact on the ground is not effectively absorbed and the walking posture is distorted and deformed, thereby adversely affecting the joints or the spine.

Recently, in order to solve this problem, less fatigue than the general gait has been released shoes that can be so-called masai walking, which is an advantageous way to walk long.

Such a masai walking shoe is a conventional shoe composed of upper, outsole and insole, as disclosed in Korean Patent No. 882849 (hereinafter referred to as the prior art), and the sole of the shoe is composed of insole, midsole, and outsole, and the heel of the shoe It is formed in an inclined shape, and the sole of the shoe is formed in an arc shape having a curved surface, and a lower center protrusion is formed at the center of the lower part to reproduce the foot landing of Masai walking. There is a space in front and rear of the lower center projection, so you can walk like the Maasai.

That is, in the prior art masai walking shoes, the bottom surface of the heel of the sole is rolled in accordance with the movement track of the heel to the ankle joint during walking (rolling) smoothly, according to the movement track of the heel in the front and rear direction It is formed in a curved shape.

At this time, the midsole is built in a shank formed in the form of a plate to enable a certain thickness and elasticity, modeling the shape of the sole and the surface of the sole, thereby reinforcing the strength and elasticity of the shoe.

In these masai walking shoes, the thickness of the midsole front was relatively thinner than the thickness of the midsole rear.

On the other hand, in the shank incorporated in the conventional midsole, the thickness of the front part of the body and the thickness of the center part of the body are constant.

Therefore, in the process of embedding the shank between the upper surface and the lower surface of the midsole, the shank is located at the correct position between the upper surface and the lower surface of the midsole (that is, the middle portion between the upper surface and the lower surface of the midsole) If not disposed, there was a problem that the shank penetrates into the upper surface of the midsole, in particular the midsole, the defect of the product occurs.

In addition, the body of the conventional shank, since the thickness of the front portion where the toe is placed and the center portion where the user's heel is substantially constant, the bending action of the front portion generated while the user walks is not made easily, so the user feels the shank There was a problem that lighter walking was not made because the strength of the built-in midsole is hard.

The present invention is to solve the above problems, when the shank is embedded in the midsole, even if the front portion of the shank body is slightly offset from the center between the upper surface and the lower surface of the midsole, the shank is drilled into the upper surface of the midsole It is an object of the present invention to provide a shank that does not come out and makes the elasticity of the midsole front part more flexible.

Shank of the present invention for achieving the above object, the body; The body is characterized in that the thickness becomes thinner toward the front of the body from 3/4 to 2/3 of the body length from the rear.

According to this configuration, in the process of embedding the shank in the midsole, even if the shank is slightly shifted from the center between the upper and lower surfaces of the midsole, the front portion of the shank body is prevented from penetrating into the upper surface of the midsole. .

In addition, since the thickness of the shank front part is relatively thinner than the thickness of the center part, the elasticity of the midsole front part can be made more flexible by the shank.

In other words, since the thickness becomes thinner from a certain portion of the center portion where the user's heel is located to the front portion where the toe is placed, the bending action of the front portion generated by the user is very easy, and the user feels very elastic. You can walk more lightly.

On the other hand, the shank of the present invention, the upper rib formed on the upper surface of the body; A lower rib formed on the lower surface of the body; A plurality of through holes penetrating the upper and lower surfaces of the body; A plurality of slits formed on the front part or the rear part of the body and spaced apart so that the front or rear part of the body is opened; It includes a connecting rib for connecting the slit and the slit.

According to this configuration, since the body front part of the present invention, which is relatively thinner than the thickness of the conventional shank body front part, is more likely to be damaged than the conventional shank body, the slit is formed by a connecting rib connecting the slit and the slit. The front part of the body can be prevented from being broken.

As described above, the shank of the present invention has the following advantages.

1) In the process of incorporating the shank of the present invention in a midsole made of polyester or polyurethane material, even if the shank is slightly shifted from the center between the upper and lower surfaces of the midsole, the front of the shank body Piercing into the top surface of the additional midsole is prevented.

2) Since the thickness of the shank front part is relatively thinner than the thickness of the center part, the shank makes the elasticity of the midsole front part more flexible.

In other words, since the thickness becomes thinner from a certain portion of the center portion where the user's heel is located to the front portion where the toe is placed, the bending action of the front portion generated by the user is very easy, and the user feels very elastic. You can walk more lightly.

3) Since the body front part of the present invention, which is relatively thinner than the thickness of the conventional shank body front part, is more likely to be damaged than the conventional shank body, the front of the body in which the slit is formed by the connecting rib connecting the slit and the slit. The damage to the parts can be prevented.

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

For reference, among the configurations of the present invention to be described below, the same configuration as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

As shown in FIG. 1, the shank of the present invention is composed of a thin plate-shaped body 100 having a smooth curved surface in an S-shape in which the shape and shape of the shoe sole are viewed from the side.

The body 100 is preferably made of a synthetic resin material such as PVC, which is elastic.

The body 100 becomes thinner from the rear toward the front of the body at 3/4 to 2/3 of the body length.

This means that when the user walks in the shoe having the body 100 embedded in the midsole, the thickness of the front part 200 of the body 100, which is a portion where the user's heel and toes are bent, becomes thinner toward the front. do.

According to this configuration, the thickness (L1) of the central portion 300 of the body 100 is thicker than the thickness (L2) of the portion moved forward by a predetermined distance from the central portion 300, the thickness (L2) is the body ( 100) It is thicker than the thickness L3 of the foremost portion 210 (ie, thickness L1> thickness L2> thickness L3).

On the other hand, in the shank incorporated in the conventional midsole, the thickness of the front part of the body and the thickness of the center part of the body are constant.

In typical masai walking shoes, the thickness of the midsole front was relatively thinner than the thickness of the midsole rear.

Therefore, in the process of embedding the conventional shank in the midsole, if the front portion of the shank body is not disposed in the correct position between the upper and lower surfaces of the midsole (ie, the intermediate portion between the upper and lower surfaces of the midsole), There was a problem that the front part of the shank body penetrates into the upper surface of the midsole.

In addition, the body of the conventional shank, since the thickness of the front portion where the toe is placed and the center portion where the user's front heel is substantially constant, the bending action of the front portion generated while the user walks is not easily performed, so the user feels the shank There was a problem that the lighter walking is not made to feel the strength of the built-in midsole.

However, since the thickness of the shank body 100 front part 200 of the present invention becomes thinner toward the front, the thickness of the foremost part 210 of the shank body 100 disposed between the upper and lower surfaces of the midsole. (L3) is the thinnest, it is possible to minimize the area occupied by the end of the shank body 100 front portion 200 between the upper surface and the lower surface of the midsole.

Thus, in disposing the shank body 100, in particular the front part 200 of the shank body 100, between the top and bottom surfaces of the midsole, the shank is at the center between the top and bottom surfaces of the midsole. Even if it is slightly offset, it is possible to prevent the end of the front portion 200 of the shank body 100 to penetrate the upper surface of the midsole.

In addition, the body 100 of the shank of the present invention, since the thickness is thinner toward the front portion 200 where the toes are placed at a portion of the central portion 300 where the user's front heel is located, the user's walking occurs. Since the bending action of the front part 200 is made very easy, a resilience force is added when restoring after bending to push the front heel in the walking direction, so that the user feels very elastic and makes the walking more light.

On the other hand, the thickness (L4) of the rear portion 400 of the body 100 is the same as the thickness (L3) of the foremost portion 210 of the body 100, than the thickness (L1) of the central portion 300 of the body (100) It is preferable to form thin.

At this time, the position of the rear portion 300 of the body 100, the front of the rearmost portion 410 of the body 100, preferably about 1/10 point of the length of the body 100.

2 to 3, the shank of the present invention, the upper rib 110 formed on the upper surface of the body 100, and the lower rib 120 formed on the lower surface of the body 100 And a plurality of through holes 130 penetrating the upper and lower surfaces of the body 100 and the front part 200 or the rear part 400 of the body 100, wherein the body 100 A plurality of slits 140 and 140a are spaced apart from each other so that the front or rear surface of the cuff is opened, and a connecting rib 150 connecting the slits 140 and the slits 140 is configured.

The upper rib 110 and the lower rib 120 are formed in plural to be spaced apart from each other in the longitudinal direction in the middle portion of the body 100.

Therefore, the shank is increased in strength by the upper rib 110 and the lower rib 120.

In the present invention, the number of the upper ribs 110 is formed of four, the number of the lower ribs 120 is formed of two, but limited to the number as long as it meets the properties of the shank to reinforce the strength and elasticity of the shoe Do not leave

On the other hand, the plurality of through-holes 130 are formed to increase the adhesive strength of the midsole and the shank.

That is, during the process of embedding the shank in the midsole, if the molding liquid of the midsole easily penetrates and hardens into the through hole 130, the shank is more reliably adhered to the midsole.

On the other hand, during the process of embedding the shank in the midsole, the front of the shank is fixed by the slit 140 formed to open to the front end at a predetermined position on the front of the body 100, likewise rear at a certain position of the rear of the body 100 The rear surface of the shank is fixed by the slit 140a formed to open to the end, so that the shank can be molded in a fixed position without moving forward and backward in the midsole.

In addition, since the molding liquid of the midsole penetrates and adheres between the slits 140 and 140a and the slits 140 and 140a, the adhesive strength between the shank and the midsole is increased.

On the other hand, relatively thinner than the thickness of the conventional shank body front portion, the body 100, the front portion 200 of the present invention is more likely to break compared to the conventional shank body, connecting the slit 140 and the slit 140 It is possible to prevent the front portion of the body 100 in which the slit 140 is formed by the connecting rib 150 to be damaged.

In addition, as the through-hole 130 described above, the connecting rib 150 is formed, the molding liquid of the midsole penetrates into the space 160 formed between the body 100 and the connecting rib 150 In addition, the adhesive strength between the shank and the midsole is increased.

According to such a configuration, when the shank of the present invention is embedded in a midsole made of polyester, polyurethane, or the like, even if the shank is slightly shifted from the center between the upper and lower surfaces of the midsole, The end of the shank body 100 front 200 is prevented from penetrating the upper surface of the midsole.

In addition, since the thickness of the front portion 200 of the shank body 100 is relatively thinner than the thickness of the central portion 300, by the shank, it is possible to make the elasticity of the midsole front portion more flexible (flexible).

That is, since the thickness becomes thinner from the predetermined portion of the central portion 300 where the user's heel is located to the front portion 200 where the toe is placed, the bending action of the front portion 200 generated while the user walks is Made very easy, the user feels very resilient and makes lighter walking.

In addition, by the connecting rib 150 connecting the slit 140 and the slit 140, the strength of the shank body 100 front portion 200 of the present invention, which is relatively thinner than the thickness of the conventional shank body front portion is When the shank is reinforced and embedded in the midsole, the adhesive area between the shank and the midsole becomes large, thereby increasing the adhesive strength.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified or modified within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. It can be modified.

The shank of the present invention is applied to the masai walking shoe is formed in a curved shape in the front and rear direction according to the movement trajectory of the heel so that the rolling (rolling) movement can be made smoothly according to the movement trajectory of the heel for walking ankle. Is suitable.

1 is a side view of the present invention shank.

2 is a plan view of the present invention shank.

3 is a bottom view of the present invention shank.

<Explanation of symbols for the main parts of the drawings>

100: body 110: upper rib 120: lower rib

130: through hole 140,140a: slit 150: connecting rib

160: space 200: front portion 210: foremost portion

300: center 400: rear 410: rear

Claims (2)

delete Body; The body becomes thinner from the rear toward the front of the body at 3/4 to 2/3 of the body length, An upper rib formed on an upper surface of the body; A lower rib formed on the lower surface of the body; A plurality of through holes penetrating the upper and lower surfaces of the body; A plurality of slits formed on the front and rear portions of the body and spaced apart so that the front and rear surfaces of the body are opened; Shank including a connecting rib for connecting the slit and the slit.

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