KR100775362B1 - Shoes with elastic bodies - Google Patents

Abstract

A shoe combined with an elastic body is provided to prevent turning portions of a coil spring from coming into contact with each other in compressing the coil spring by gradually expanding or reducing the diameter of the coil spring. A shoe having bottom and middle soles(20,26) and a cover(25) is composed of: a plate type bottom sole protecting sheet(21) formed in the shape of the sole of the foot, wherein the bottom side of the bottom sole protecting sheet comes into contact with the ground; a plate-shaped elastic body(22) stacked in the center of the upside of the bottom sole protecting sheet and bulged in a downward direction; a bottom sole body(23) stacked on the entire upside of the bottom sole protecting sheet including the plate-shaped elastic body and provided with at least one of a recessed groove(G) and a recessed hole penetrating through the bottom of the recessed groove, wherein one of the recessed groove and the recessed hole is formed on the upper surface; and at least one block-shaped elastic body(24) inserted into each recessed groove or the recessed hole.

Description

Shoes with elastic bodies

1 shows a coil spring used in a conventional shoe,

  (A) is a perspective view before compression,

  (B) is a perspective view after compression.

Figure 2 is an exploded perspective view of an embodiment of the present invention shoes.

Figure 3 is an exploded cross-sectional view of an embodiment of the present invention shoes.

Figure 4 is a cross-sectional view of the embodiment of the shoe combination of the present invention.

5 is a block-like elastic body constituting the present invention,

  (A) is a perspective view of a block-shaped elastic body in the shape of a cone,

  (B) is a perspective view of a block-shaped elastic body shaped like a cylinder,

  (C) is a perspective view of a block-shaped elastic body in the shape of a saga column,

Figure 6 shows the coil spring constituting the shoe of the present invention,

  (A) is a perspective view of a coil spring that looks like a cone,

  (B) is a perspective view of the coil spring which looks like a pyramid.

Figure 7 is a cross-sectional view of the first embodiment of the sole body and the plate-like elastic body constituting the present invention.

Figure 8 is a cross-sectional view of a second embodiment of the sole body and the plate-like elastic body constituting the present invention.

9 is a cross-sectional view of a third embodiment of the sole body and the plate-like elastic body of the present invention.

Figure 10 shows another embodiment of the coil spring constituting the shoe of the present invention,

  (A) is a perspective view of a jar coil spring,

  (B) is a perspective view of an elongate coil spring.

         ((Explanation of symbols for main part of drawing))

   20. Sole 21. Sole protection 22. Plate-like elastomer

   23. Sole body 24. Block type elastic body 25. Upper

   26. midsole 24A. Elastic block

   24B, 24B ', 24B' ', 24B' ''. Coil Spring

   E. Protrusion G. Indentation N. Crevice

S _C. Center bottom S _E. Rear bottom

According to the present invention, at least one of a block-like elastic body and at least one of a plate-like elastic body having a curvature is coupled to the sole of a shoe, thereby minimizing a shock transmitted to a human body and making walking easier, and a coil type and a plate type. It relates to a shoe in which an elastic body is coupled.

In the early years, shoes developed as people walked simply played a role of protecting the feet from being uncomfortable and injured.However, with the improvement of living standards and the development of shoe manufacturing technology, walking, mountain, orthodontic, and specific Shoes have been used depending on the purpose of exercise.

In particular, as the importance of health has risen, sports shoes have made rapid progress, and new materials and structures have been continuously developed. However, in terms of physical health, the first thing to solve in terms of physical health is It is a problem of cushioning.

The problem of breathability is that almost all shoes except slippers have almost a closed shape inside, except for slippers, in order to achieve the basic purpose of enveloping and protecting the feet. Due to the nature of the shoes there is a fundamentally inevitable aspect, but the development of a variety of breathable materials and excellent ventilation structure suitable for shoes is being developed.

More important in terms of physical health as compared to the breathability is cushioning, if the shoes are not well cushioned, not only can the foot feel easily, but also the impact of contact with the sole of the shoe and the ground is transmitted to the brain through the spinal cord to the body. Shoes should have sufficient cushioning because they are known to have a negative impact.

Although the problem of cushioning has been solved in many parts by the development of various materials having excellent shock absorbing properties, it is not possible to solve all of the problems of cushioning by using only materials having excellent cushioning properties.

Therefore, in order to minimize the impact of the shoe combined with the air cushion in the sole is published in Korean Utility Model Publication No. 1995-0005782, the air cushion is very effective in absorbing the shock, but a long time, such as a conventional air tube As it is used, there is a disadvantage in that the air inside is gradually leaked and cannot serve as a cushion.

Developed in order to solve the disadvantages of the air cushion as described above, the airbag for shoes equipped with a shock absorbing spring and a method of manufacturing the same is published in Korean Patent Laid-Open Publication No. 2004-100800, the airbag, Coil spring is coupled to each of the outer circumferential surface of a plurality of upright columnar support, the air and the spring filled inside the airbag can complement each other to absorb the shock.

However, in the case of the above structure, since the coil spring of a column shape having a constant diameter is used, when the impact such as walking or jumping is applied, the upper and lower turns of the spring come into contact with the turn, thereby limiting the amount of shock absorption. In addition, the spring may be damaged by the contact of the turn and the turn of the spring, the thickness of the shoe sole has to be thick because the spring has a certain height even at the maximum compression.

That is, as shown in FIG. 1A, the conventional general cylindrical coil spring 11 has a structure wound in a spiral shape while maintaining the same diameter W over the entire height.

Therefore, the spring minimum height h ₂ when the above-mentioned coring spring is maximally compressed is the maximum height h ₁ of the uncompressed spring minus (spring wire diameter) x (number of turns). and, the minimum height (h ₂₎ less than a may be compressed there, because the cylindrical coil spring the to mount the shoe sole must bar to a thickness of the sole should be thicker than the minimum height (h ₂₎ of the spring, than the thickness of the sole is required There is a disadvantage that can only be thickened.

The present invention has been made to solve all the problems of conventional shoes combined with a cylindrical coil spring, and prevents the turn and contact of the coil spring contact to prevent noise generation and contact wear, while at the same time maximum compression The height of the coil spring at the time is very low as the diameter of the coil spring wire rod, and to compensate for the elastic force of the coil spring to make walking easier, in particular, to provide a more effective shoes for the elderly walking, the object of the present invention There is this.

The above object of the present invention is achieved by a block-like elastic body having an external shape such as a pillar or a cone, and a plate-like elastic body having a curved surface.

The shoe in which the elastic body of the present invention is coupled has a technical feature in that the shock is first absorbed by the block-like elastic body, the residual shock is absorbed by the plate-like elastic body, and the shoe is advanced.

As described above, the shoe of the present invention has a structural feature in that one or more block-type and plate-shaped elastic bodies are respectively coupled to the sole.

In general, a shoe includes a sole that is in contact with the floor, an upper coupled to the upper edge of the sole, and a midsole that is laminated to the upper sole of the sole, and in particular, in the case of sneakers, the sole provides cushioning properties. Sole body made of a flexible material such as urethane and having a suitable thickness, typically 1cm or more; The upper surface is tightly coupled to the bottom of the sole body and may be made of a plate- or sheet-like sole protective skin having a slightly superior wear resistance than the sole body, and typically having a thickness of 5 mm or less.

And, the sole constituting the shoe of the present invention is also composed of the sole body and the sole protection bar as described above, one or more block-shaped elastic body is inserted and coupled to the inside of the sole body, one or more plate-like elastic body is the sole body and the sole protective skin It is a structure interposed between the center part.

That is, the length and width of the plate-like elastic body is smaller than the length and width of the bottom of the sole body, the plate-like elastic body of the sole body including the plate-like elastic body in the state coupled to the bottom center of the sole body The upper surface is tightly coupled.

The shoe of the present invention having the structure as described above has a technical feature on the block-shaped elastic body and the plate-shaped elastic body, and look at each as follows.

The block-type elastic body, the elastic block made of a flexible material such as urethane, rubber, silicone and excellent circular recovery when elastic deformation; It is composed of a coil spring embedded in the elastic block, the coil spring embedded in the elastic block is not a coil spring of a general cylindrical structure spirally wound to have a constant diameter, the outer diameter gradually increases from one end to the other end or The technical feature is that it is a coil spring which reduces the contour of a cone or pyramid.

In this case, in order to improve the durability of the coil spring, the shape of the cone is more preferable than the pyramid so as not to cause a bent portion in the coil spring wire rod, but may be in the shape of the pyramid as necessary.

When the coil spring constituting the present invention is compressed, the upper and lower turns are not overlapped or contacted with each other, for example, the upper turn having a smaller diameter does not contact the outer circumferential surface of the lower turn inner diameter having a larger diameter immediately below it. The rate of change of the diameter of the coil spring for each turn, i.e. the diameter increase or decrease, should be adjusted so that it can be retracted.

When the coil spring constituting the present invention is completely compressed by winding in the shape of the horn as described above, all the turns of the coil spring are in contact with each other on the same plane, and the maximum height at the time of full compression is a wire rod for the spring forming the coil spring. It is equal to the diameter of.

Of course, since the coil spring is embedded in the elastic block and cannot be completely compressed, the coil spring absorbs the shock by the interaction of the elastic block and the coil spring.

The plate spring may be made of a metal or a hard synthetic resin or the like, and is an approximately downward convex plate spring, in which one or two or more sheets are coupled in a stack-coupled state as necessary, and serves to move the heel portion of the foot upward.

That is, when the sole is in close contact with the floor and the plate spring is elastically deformed into the shape of a flat plate, when the heel starts to lift for walking the battery, the elastic force accumulated in the plate spring helps the heel to move upward, thereby making walking easier.

Details of the effects and the resulting effects, including the object and technical configuration of the present invention will be clearly understood by the following description with reference to the drawings showing a preferred embodiment of the present invention.

2 is an exploded perspective view of the shoe of the first embodiment of the present invention, and FIG. 3 is an exploded cross-sectional view of the shoe of the first embodiment.

As shown, the shoe is coupled to the elastic body of the present invention,

Plate-shaped sole protective skin 21 having a sole shape that the bottom is in contact with the floor;

One or more plate-like elastic bodies 22 which are laminated and coupled to a central portion of the upper surface of the sole protective skin 21 and are downwardly convex;

A sole body 23 laminated on the entire upper surface of the sole protective skin 21 including the plate-shaped elastic body 22 and having one or more recessed grooves G formed thereon;

At least one block-shaped elastic body 24 which is inserted into and inserted into each recessed groove G of the sole body 23;

An upper 25 coupled to an upper edge of the sole body 23;

The sole body 23 is composed of a sole-like midsole 26 is laminated to the upper surface of the sole body (23).

At this time, the sole protective skin 21 and the sole body 23 is referred to as the sole 20.

In addition, each recess groove G formed on the upper surface of the sole body 23 may have a structure of a recess hole penetrating the sole body 23 up and down by penetrating the bottom surface thereof. In the case where the bottom surface of the block-shaped elastic body 24 is in contact with the bottom surface of the recessed groove (G), in the case of the recessed hole, the bottom surface of the block-shaped elastic body 24 is the same surface as the bottom surface of the sole body 23 In the upper surface of the block-shaped elastic body 24 may be lower than the upper surface of the sole body 23, may form the same surface, may be high.

That is, when the upper surface of the block-shaped elastic body 24 is lower than the upper surface of the sole body 23, the first primary shock absorption is made by the sole body 23, and then the secondary shock absorbed by the block-shaped elastic body 24. When the upper surface of the block-shaped elastic body 24 and the upper surface of the sole body 23 is the same, the first shock absorption is made together by the sole body 23 and the block-shaped elastic body 24, the block When the upper surface of the elastic member 24 is higher than the upper surface of the sole body 23, the first primary shock absorption is made by the block-shaped elastic body 24, so that the secondary shock absorption is made by the sole body 23. do.

And, the block-shaped elastic body 24, as shown in Figure 4, the elastic block 24A of the columnar or polyhedral shape made of a flexible material;

It is embedded in the elastic block 24A, it is a structure consisting of a coil spring (24B) wound spirally to increase or decrease the diameter from the lower end to the upper end.

At this time, the elastic block 24A, as shown in Figure 5, may have a variety of shapes as needed, such as conical (or inverted conical), cylindrical, square column shape, the structure of the coil spring (24B) Similarly, if necessary, the overall cushioning property of the block-shaped elastic body 24 can be adjusted by appropriately increasing the elastic block 24A rather than the outer size of the coil spring 24B.

In addition, in the case of the coil spring 24B, as shown in FIG. 6, a conical coil spring 24B whose diameter or cross-sectional area is gradually reduced or increased from one end to the other end may be increased as necessary. However, the pyramidal coil spring 24B 'may be shaped.

And, the number of block-type elastic body 24 is one or more, the number used may vary depending on the use of the shoe, in general, it is preferable to be coupled to the front and rear portions of the sole body 23 one by one, front, rear The block-shaped elastic body 24 is preferably positioned at the front and rear ends of the upper surface of the plate-shaped elastic body 22, respectively.

That is, when two or more block-shaped elastic bodies 24 are used, two block-shaped elastic bodies 24 which are respectively positioned at the foremost and the rearmost relative to the sole are positioned on the front and rear ends of the plate-shaped elastic bodies 22, respectively. Only when it is possible to maximize the interaction force between the block-shaped elastic body 24 and the plate-shaped elastic body 22.

In addition, the plate-like elastic body 22 is in close contact with the bottom surface of the sole body 23 constituting the sole 20, wherein the plate-like elastic body 22 is a downwardly convex shape, as shown in FIG. The upper surface of the central portion in the longitudinal direction of (22) is not in close contact with the bottom of the sole body 23, so that a gap N is formed between the sole body 23 and the sole body 23.

Of course, the bottom surface of the sole body 23 is convex downward so as to have the same curvature as the plate elastic body 22, or the bottom surface of the sole body 23 is forcedly bent to be downward convex, and then the top surface of the plate elastic body 22 The bottom of the sole body 23 may be closely coupled.

However, rather than tightly coupling the upper surface of the plate-like elastic body 22 and the bottom of the sole body 23, as shown in FIG. 7, a gap N is formed, but as shown in FIG. It is also preferable that a plurality of projections E contacting the upper surface of the plate-shaped elastic body 22 protrude to the bottom surface of the sole body 23 in which the gap N is formed.

Further, as shown in FIG. 9, the gap N is necessarily formed so that the longitudinal center bottom face S _C of the sole body 23 is convex upward, and a plurality of the bottom parts S _{C are} formed on the center bottom face S _C. The projection E may be formed to protrude.

That is, by forming the gap N between the plate-like elastic body 22 and the sole body 23, the elastic force of the plate-like elastic body 22 can be utilized to the maximum, and the plate-like elastic body 22 is formed on the plurality of protrusions E. By being supported by it, durability is improved while preventing or minimizing plastic deformation due to repeated elastic deformation.

At this time, the bottom surface of the protrusions (E) may be made in contact with the upper surface of the plate-shaped elastic body 22, or may be made to be somewhat spaced apart.

And, in order to reduce the impact transmitted to the heel, it may be desirable to incline upward toward the rear outer side of the sole 20 so that the bottom of the rear portion of the sole 20 corresponding to the heel does not touch the floor. The bottom surface S _E of the sole body 23 constituting the sole 20 may be inclined upwardly, and then the sole protective skin 21 of the flexible material may be coupled to the bottom of the sole body 23.

In addition, the shoe with the elastic body of the present invention configured as described above is the most effective when the block-shaped elastic body and the plate-like elastic body are coupled together, but if necessary, may combine only one of the block-shaped elastic body and the plate-shaped elastic body. have.

In addition, in the case of the conical or pyramidal coil springs 24B and 24B 'constituting the block-shaped elastic body, as shown in FIG. 10, the diameter gradually decreases toward both ends with the center in the height direction of the coil spring. Jar-shaped coil spring 24B "or the elongate coil spring 25B '' 'whose diameter gradually increases toward both ends may be formed.

At this time, in order to prevent or minimize contact between the turns when the coil spring is compressed, it is preferable that the same diameters of the two turns are different from each other about the center part in the height direction.

For example, in the case of the jar-shaped coil spring 24B ", the diameter of the second turn of the upturn and the diameter of the second turn of the upturn are different from the center of the height in the height direction. It is good to be wound by the diameter between turns or the diameter between 2nd and 3rd turns downwards.

The structure of the shoe combined with the elastic body of the present invention as described above, including special sneakers, slippers, gentleman shoes, hiking shoes, safety shoes, medical, etc., and can be applied to all kinds of shoes with a sole, It is not limited to kind.

As described above, the shoe is coupled to the elastic body of the present invention, the diameter of the coil spring constituting the block-like elastic body is a structure that is enlarged or reduced in diameter when each turn of the coil spring and the turn does not come into contact with each other when the noise is generated It does not cause the compression stop impact of the spring caused by the momentary stop of elastic compression as the turn and turn of the spring are in contact with each other, and the shock absorption distance is longer than that of the cylindrical coil spring, so that the shock can be absorbed more efficiently. Of course, there is an advantage that the walking is easier by the plate-like elastic body.

Claims (7)

In the shoes, including the sole and upper and midsole, Sole-shaped sole protection plate 21 of the bottom surface is in contact with the bottom; At least one plate-like elastic body 22 laminated and coupled to an upper surface central portion of the sole protective skin 21; Sole body coupled to the entire upper surface of the sole protective skin 21 including the plate-like elastic body 22, one or more recessed grooves (G) or one of the recessed holes through which the bottom of the recessed grooves (G) is formed on the upper surface 23; Shoes having an elastic body is characterized in that it comprises one or more block-shaped elastic body 24 is inserted into each recessed groove (G) or recess hole. In the shoes, including the sole and upper and midsole, Sole-shaped sole protection plate 21 of the bottom surface is in contact with the bottom; Sole body 23 is laminated and coupled to the upper surface of the sole protective skin 21, one or more recessed groove (G) or one of the recessed hole through which the bottom of the recessed groove (G) is formed; Shoes having an elastic body is characterized in that it comprises one or more block-shaped elastic body 24 is inserted into each recessed groove (G) or recess hole. The method of claim 1 or 2, wherein the block-shaped elastic body 24,  An elastic block 24A having a columnar or polyhedral shape and made of a flexible material; The conical coil spring 24B embedded in the elastic block 24A, spirally wound so as to increase in diameter from one end to the other end, and wound so that the flat section area gradually increases from one end to the other end. Pyramidal coil spring 24B ', the diameter of the jar-shaped coil spring 24B "which gradually decreases in diameter toward both ends around the center in the height direction, and the diameter gradually increases toward both ends in the center of the height direction Footwear with an elastic body, characterized in that made of any one of the elongated coil spring (24B '' '). The method of claim 1, wherein the plate-shaped elastic body 22 Shoes with an elastic body, characterized in that the downward convex shape. Shoes according to claim 1, characterized in that a gap (N) is formed between the bottom of the sole body (23) and the upper surface of the plate-shaped elastic body (22). [6] The shoe of claim 5, wherein a plurality of protrusions (E) protrude from the bottom of the sole body (23) forming the gap (N). According to claim 1, wherein the sole body 23, That the rear end bottom face (S _E) is not to touch the floor upwardly inclined an elastic body is bonded shoe, characterized in that.

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