KR20100003436A - A sole for masai walking shoes - Google Patents

Abstract

PURPOSE: A sole of Masai working footwear is provided, which can realize Masai working by forming the angle of inclination of heel at 25~45 degrees. CONSTITUTION: A sole of Masai working footwear comprises a midsole(20) in which a sensitizer space part(22) is formed so that a soft sensitizer(40) can be install to the lower part and the angle of inclination of heel is formed at 25~45 degrees and which forms an arc shape; a soft sensitizer which is formed into the swollen arc shape of the curved surface; an insole(10) in which front and rear shanks(29-1) are built; an outsole(30) which is made of polyester or polyurethane and in which the angle of inclination of the heel is formed at 25~45 degrees.

Description

Sole for Masai Walking shoes

The present invention relates to a sole of a masai walking shoe that can reproduce the masai walking, and more particularly, the soft sensing body is mounted on the lower part from the center to the rear end, and the arc shape of the convex surface is convex from the front part to the rear part. It is formed so that the angle of inclination of the heel is 25-45 degrees, and it is possible to manufacture the professional shoes for Masai walking that can reproduce Masai walking, and preserve the original shape of the sole and shoes, and restore the shape of the sole with high frequency of bending during walking. This is excellent and has an effect of improving the stability of walking, and relates to the sole of the masai walking shoes with a soft sensor that can prevent the soft sensor from being damaged by hydrolysis.

The present invention relates to a sole structure of professional shoes for masai walking, which can reproduce masai walking. In Korean Patent No. 10-377822, the names of the reference numerals are 1: shoe, 2: upper, 3: shoe sole, 10: insole, 12: midsole, 13: outsole In Korean Patent No. 10-377822, there is no heel of the shoe, and the sole of the shoe has a curved sole (shaped arc), and the walking shoes like Masai walking are specialized in Masai Walking (active rolling walking shoes). Shoes) and a method of walking as shown in FIGS. 2 to 4 of Korean Patent No. 10-377822 is described as "Masai Walking (Masai Walking)."

The Korean Walking Association, the World Walking Association, the footwear industry, and general consumers call shoes like the Masai Barefoot Technology shoes that walk like a Masai without the heel of the shoe and the sole of the shoe is curved. Books, newspapers, magazines and television broadcasts are called Masai Walking Shoes or Masai Walking Shoes.

In general, the movement of the foot on the ground during walking is a three-step process, in which the left and right feet repeat the landing step by the heel, the center moving step from the heel to the heel, and the step of the heel pushing off the ground. In conventional shoes, the shape of the heel is formed at a right angle to the ground, and in the case of shoes, a sharp edge is formed on the heel so that this edge touches the ground first during the landing stage. Because of its linear shape, the impact at the time of landing is large, and the movement to the center movement stage, which is the next stage of landing, is performed at once, so that a sudden impact force is transmitted to each joint of the leg and body as well as the ankle joint. It becomes unnatural.

The present invention has been made to improve the problems appearing in the above-described conventional shoes, as the sole structure of the professional shoes for Masai walking that can reproduce the Masai walking, the midsole is a soft sensing body having a hardness of 15 to 30 is built in the midsole to facilitate It can be manufactured simply and can prevent the soft sensor from being damaged by hydrolysis, which preserves the original shape of the sole and shoes, and also improves the shape of the sole with high frequency of bending during walking and improves the stability of walking. The purpose of the present invention is to provide a midsole for mounting a rolling shoe with an effective soft sensor.

In the present invention, the sensor space is formed so that the soft sensor can be mounted on the lower part from the center to the rear end, and the arc shape of the curved surface is convex from the front part to the rear part, and the inclination angle of the heel is 25 to 45 degrees. Is formed.

According to the present invention, a soft sensing body is mounted on the lower part of the front part from the front part to the rear part, and forms a convex curved arc shape from the front part to the rear part, and is formed such that the inclination angle of the heel is 25 to 45 degrees. It is possible to manufacture professional shoes for reproducible masai walking and it is very useful for the shoe industry because it can prevent the soft sensor from being damaged by hydrolysis phenomenon.

According to the present invention, the waist shank 29 formed with the slit and the rib in the sole of the masai walking shoe, which can reproduce the masai walking composed of the upper, the insole, the insole, the midsole and the convex curved outsole, corresponds to the rear portion from the upper center portion to the rear portion. Built into the site, the material is made of any one selected from polyester and polyurethane with a hardness of 40 to 60, the sensor space portion 22 so that the soft sensor 40 can be mounted on the lower portion from the center to the rear end. Is formed, the midsole 20 to form an arc-shaped convex shape of the convex from the front to the rear portion, the inclination angle of the heel is 25 to 45 degrees; The inner cushion material 44 is made of any one selected from a soft polyester sponge and a soft polyurethane sponge having a hardness of 15 to 30, and extends from the front portion to the rear portion of the midsole 20 under the midsole 20. In the center, the rear part is formed in an oval shape thicker than the center part, and in the center part, the front part is formed in a tapered inclined shape that becomes thinner than the rear part, and the lower part extends from the front part to the rear part. A soft sensor 40 formed in a convex curved arc shape; It is mounted on the upper portion of the midsole 20, the material is made of a non-woven fabric having a hardness of 25 to 30 is mounted on the upper surface of the midsole 20, the front and rear shanks (29-1) formed with slits and ribs therein is built-in Insole 10 is made; It is mounted on the lower part of the mid sole 20, made of any one selected from polyester and polyurethane having a hardness of 70 to 80, is formed in the arc shape of the curved surface convex from the front portion to the rear portion, the inclination angle of the heel It relates to a sole of a masai walking shoe, characterized in that consisting of the outsole 30 formed to be 25 to 45 degrees.

In the present invention, the sensor is bonded to both surfaces of the waterproof layer (42, 42 '), the waterproof layer (42, 42') is a polyol coating layer, polyol fabric bonding layer, polyester pad of 40 to 60 hardness and hardness 40 It is characterized by any one selected from the polyurethane pad of -60.

1 to 3, the masai walking shoe of the present invention is a shoe in which a soft sensing body called a masai senser is built in the lower part of the midsole 20. Masai walking professional shoes with a soft sensor body of the present invention is a normal shoe composed of upper, outsole and insole and the sole of the shoe is composed of insole 10, midsole 20 and outsole 30, there is no heel of the shoe The sole of the shoe is formed in an arc shape having a curved surface, and thus Masai Barefoot Technology shoes, Masai walking shoes or Masai walking shoes.

1 to 3, in the shoe of the present invention, the rear axle of the outsole 30 is formed in an arc of an inclined curved shape having a main inclination angle of 25 to 45 degrees and the main inclination angle of the shoe squeeze to the ground, and the main inclination angle is 25 degrees or less. If the rolling action of the professional shoes for Masai walking is not achieved and the main inclination angle is 45 degrees or more, the inclination is too steep and it may be unstable and unstable when wearing shoes or standing.

In the masai walking shoe of the present invention, the midsole 20 is equipped with a soft sensor 40 according to the inclined curved shape at the bottom. In the Masai walking shoe of the present invention, the soft sensing body 40 is mounted on the lower part of the midsole 20 from the front part to the rear part of the midsole 20, and the rear part is formed in an elliptical shape whose thickness is thicker than the center part at the center part. The front portion is formed in a tapered inclined shape whose thickness becomes thinner than the rear portion in the central portion, and the lower portion is formed in a curved arc-shaped shape that is convex from the front portion to the rear portion.

In addition, the soft sensing body in the professional shoes for masai walking of the present invention is further mounted to the side pads 42, 42 'on both sides of the inner cushion member 44 from the center to the rear portion, the material of the side pad is 40 hardness Since it consists of any one selected from -60 polyester and polyurethane, it can prevent the soft sensor from being damaged by hydrolysis. In addition, in the masai walking shoe of the present invention, the soft sensing body is additionally mounted on both sides of the inner cushion member 44 from the front part to the rear part, and the side pads 46 and 46 'are additionally mounted, and the material of the side pad is 40 hardness. Since it consists of any one selected from -60 polyester and polyurethane, it can prevent the soft sensor from being damaged by hydrolysis.

In order to manufacture the finished product of the midsole 20, the professional shoe for the masa walking of the present invention first manufactures the inner cushion material 44 made of any one selected from soft polyester sponge and soft polyurethane sponge having a hardness of 15 to 30. After the side pads 42, 42 ', 46, 46' made of any one selected from polyester and polyurethane having a hardness of 40 to 60, the side pads are attached to both sides of the inner cushion member 44. To produce a soft sensor 40. The professional shoe for masa walking of the present invention is attached to the lower portion of the midsole 20 by attaching the soft sensing body 40 to produce a finished product of the midsole 20 in a state in which the soft sensing body of the midsole is built and manufactured inside the shoe. The midsole 20 is made of any one selected from polyester and polyurethane having a hardness of 40 to 60, and the midsole is too soft when the hardness of the midsole is 40 or less. If the hardness of the midsole is not more than 60 does not play a role there is a problem that the midsole does not act as an elastomer.

The masai walking shoe of the present invention has a hardness of 15 to 30 inside the midsole 20, and most preferably, a soft sensor 40 having a hardness of 28 can be incorporated to increase elasticity and resilience. In the present invention, if the hardness of the soft sensor 40 is less than 15 is too soft so that the sensor does not act as a support, if the hardness of the soft sensor 40 is more than 30 is too hard, there is a problem that the sensor does not act as an elastic body. .

In the shoe of the present invention, the midsole 20 has a semi-elliptic type soft sensor 40 having a main inclination angle of 25 to 45 degrees of the heel formed by the heel with respect to the ground. Soft sensor 40 mounted on the midsole of the shoe of the present invention reduces the hardness in half and increases the buffering effect in case the sensor is not built.

In the midsole of the present invention, the soft sensing body 40 is formed so that the soft sensing body 40 can be placed in parallel with the ground when the shoes are landed to increase the buffering efficiency due to the contraction, and the contraction during the landing and centering steps. The soft sensor, which is reconstituted in the detachment stage, generates a repulsive force, thereby improving walking efficiency. In the midsole in which the soft sensing body of the present invention is embedded, the soft sensing body of the midsole may be manufactured in a state of being in close contact with the lower portion of the midsole or in a bonded form using an adhesive.

The midsole 20 in the masa walking shoes of the present invention is formed in the shape of a plate modeling the shape of the sole and the surface of the sole, and the waist shank (shank) (29) on the waist portion from the upper middle part of the midsole 20 to the rear portion ) Is built in, and the front and rear shanks (29-1) are built from the inner front of the insole to the rear, so that the two shanks are supported by the ground while walking and the rolling movement is made. The waist shank 29 embedded in the midsole of the present invention is formed with one or a plurality of slits 29a. The slit allows the molding liquid to flow smoothly during the production of the midsole, and when the fluid is solidified, the shank itself is firmly fixed and supported within the midsole. The slit is divided into slits in which a plurality of slits with open ends are formed or closed are preferably selected according to the viscosity of the fluid. The shank is formed with one or a plurality of ribs (29b) to prevent the shank itself is bent to increase the strength of the shank, it is preferable to form a through hole with a small slit size to strengthen the adhesive strength. .

In the shoe of the present invention, the midsole 20 has a waist shank 29 inserted therein, and the front and rear shanks 29-1 are embedded in the insole, which preserves the sole of the sole and the shoe and flexes during walking. The sole with high frequency of deformation is restored smoothly to its original shape, and it improves the stability of walking when walking and adds a repulsive force during the step of departure to promote light walking. In the shoe of the present invention, the shank may be formed in any shape and material, but it is preferable to form the shape of the plate by shaping the shape of the midsole and insole and the shape of the surface using synthetic resin (PVC) material, and the bending angle is relatively high when walking. The large shank forms a number of slits that open to the front end at a certain position in the front and divides into several equal parts to facilitate the bending of the anterior gingiva area, and the center waist of the shank is bead-shaped rib for reinforcement. (29b) is formed in the front and rear direction so that the molding liquid can be smoothly flow during the production of the midsole (20).

Rolling shoes equipped with a midsole of the present invention can observe the movement of the foot on the ground is divided into a landing stage, a center movement stage and a departure phase when walking. Rolling shoes equipped with the midsole of the present invention, when the landing in the landing stage, the heel comes in contact with the ground, because the ground area of the sole is wide, the impact amount due to the landing is relatively reduced and the soft sensing body shrinks in parallel with the ground, cushioning efficiency This high and soft landing is achieved, and the midsole with a soft sensor reduces the hardness in half and increases the buffering effect in case the sensor does not have a built-in sensor. Rolling shoes equipped with a midsole of the present invention, when the walking motion is connected to the center movement step, the bottom surface of the curved rear axial rolls along the ground and the impact force is continuously absorbed and absorbed. In addition, the midsole is equipped with a rolling shoe of the present invention because the center is gradually moved along the curved shape, the ankle joint, leg and each joint of the body does not cause a sudden impact and smooth and natural walking is made. Rolling shoes equipped with the midsole of the present invention is the heel of the sole out of the ground at the step of leaving the ground, the resilient force generated while the contraction of the soft sensor was retracted in the previous step is generated and the pedestrian's foot in the direction of progress, high walking efficiency It is possible to walk lightly.

In the rolling shoe equipped with the midsole of the present invention, the sole of the sole and the shoe are well preserved by the waist-shaped shank 29 inserted into the midsole 22, and the original of the sole having a high frequency of bending and deformation during walking Restoration to the shape is smooth and the shape of the sole is elastic and solid, so the walking stability is not only high, but also the rebounding force is added by the restoring force at the step of release, pushing the front gum in the direction of walking, making the walking light and walking efficiency. high.

Insole 10 in the masa walking professional shoes of the present invention is mounted on the upper portion of the midsole 20, the material is made of a non-woven fabric of hardness 25 to 30, the shape of the sole is elastic and firmly maintained so that the stability of walking In addition, the resilience is added by the restoring force at the departure stage, the light walking is made and the walking efficiency is high. If the hardness of the insole 10 is less than 25 so soft that the insole does not serve as a support, if the hardness of the insole is more than 30 there is a problem that the insole does not act as an elastomer.

Outsole 30 in the professional shoes for masa walking of the present invention is mounted on the lower portion of the midsole 20, made of any one selected from polyester and polyurethane with a hardness of 70 to 80, convex across the front to the rear It is formed in the shape of a curved arc, and is formed so that the inclination angle of the heel is 25 to 45 degrees. If the hardness of the outsole 30 is less than 70 is too soft so that the outsole does not serve as a support, if the outsole hardness is more than 80, there is a problem that the outsole does not act as an elastic body.

1 is an exploded perspective view showing the sole of the masai walking shoe of the present invention.

Figure 2 is an exploded perspective view of the sole of the masai walking shoe of the present invention.

Figure 3 is a perspective view of the sole of the masai walking shoe of the present invention.

Figure 4 is a perspective view of the sensor in the sole of the Masai walking shoe of the present invention.

Figure 5 is a perspective view showing a sensor in the sole of the Masai walking shoe of the present invention.

Figure 6 is a plan view showing the shank in the sole of the masai walking shoe of the present invention.

Figure 7 is a side cross-sectional view of the shank in the sole of the masai walking shoe of the present invention.

Figure 8 is a plan view showing the shank in the sole of the masai walking shoe of the present invention.

9 is a perspective view showing a professional shoe for masai walking of the present invention.

* Explanation of symbols for main parts of the drawings

10: Insole 20: Midsole

22: space part 29: waist shank

29-1: Front and rear shank 30: Outsole

40: sensor 42, 42 ', 46, 46': side pad

44: cushioning material

Claims (2)

In the sole of a masai walking shoe that can reproduce a masai walking consisting of an upper, insole, insole, midsole and a convex curved outsole, the sole has a slit and rib-shaped waist shank 29 corresponding to the rear portion at the upper center portion. It is built in the waist, the material is made of any one selected from polyester and polyurethane of hardness 40 to 60, the sensor space portion 22 so that the soft sensor 40 can be mounted on the lower portion from the center to the rear end. A midsole 20 formed of a convex curved shape convex from the front part to the rear part, and formed so that the inclination angle of the heel is 25 to 45 degrees; The inner cushion material 44 is made of any one selected from a soft polyester sponge and a soft polyurethane sponge having a hardness of 15 to 30, and extends from the front portion to the rear portion of the midsole 20 under the midsole 20. In the center, the rear part is formed in an oval shape thicker than the center part, and in the center part, the front part is formed in a tapered inclined shape that becomes thinner than the rear part, and the lower part extends from the front part to the rear part. A soft sensor 40 formed in a convex curved arc shape; It is mounted on the upper portion of the midsole 20, the material is made of a non-woven fabric having a hardness of 25 to 30 is mounted on the upper surface of the midsole 20, the front and rear shanks (29-1) formed with slits and ribs therein is built-in Insole 10 is made; It is mounted on the lower portion of the midsole 20, made of any one selected from polyester and polyurethane with a hardness of 70 to 80, is formed in the shape of a convex curved convex from the front to the rear, the inclination angle of the heel Outsole of Masai walking shoes, characterized in that consisting of outsole 30 formed to be 25 to 45 degrees. The method of claim 1, wherein the sensing body has a waterproof layer (42, 42 ') is bonded to both surfaces, the waterproof layer (42, 42') is a polyol coating layer, polyol fabric bonding layer, polyester pad of 40 to 60 hardness And a sole selected from the group consisting of a polyurethane pad having a hardness of 40 to 60.

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