KR101198699B1 - Shock-absorbing and Vibration structure of shoes - Google Patents

Abstract

PURPOSE: Shoes are provided to reduce stress and fatigue due to long time wearing and to allow a massage effect. CONSTITUTION: Shoes comprise an outsole(10), a midsole(20), an insole(30), an upper(40), a vibration generating and shock absorbing unit(50). The vibration generating and shock absorbing unit comprises an operation body and a support. On the top of the support, a leaf plate, a moving plate, and an iron vibration plate are formed. The load of a user is delivered to the leaf plate, moving plate moves, the first magnet of the moving plate moves forward a second magnet, and the second magnet receives lifting power due to mutual repulsion.

Description

Shoes with vibration and damping means {Shock-absorbing and Vibration structure of shoes}

The present invention relates to shoes worn by all ages, and more particularly, the vibration generation and cushioning means embedded in the outsole of the shoe causes the vibration according to the wearer's walking to reduce the foot massage effect and fatigue at the same time walking It is for a shoe with a built-in vibration and cushioning means to absorb the impact of.

In general, shoes are shoes that can be worn by men or women using natural or artificial leather, and are usually made of rubber outsoles corresponding to soles and midsoles of various materials corresponding to the inner surface of shoes. It is made of a midsole and an insole called an insole or insole that is positioned on top of the midsole and provides a cushioning feeling in a worn state, and an upper of leather molded to cover the wearer's foot.

Thus, in the state provided with the outsole and the midsole and the insole and the upper, respectively, using a separate shoe last (Shoe last) to perform the orthopedic operation for the upper and the fixing the midsole to the lower part of the upper, The outsole is adhesively fixed to the lower part of the midsole in the above state, and when the adhesive fixing between the outsole and the upper ends is completed, a normal shoe can be completed through a process of placing and placing a separate insole inside the shoe.

However, the shoe of the type described above is worn for a long time because the outsole is made of a hard rigid elastic material compared to the general form of sneakers due to the characteristics of the shoe, because the fatigue of the foot is higher and the weight is concentrated on the heel compared to the sneakers and the sneakers. You will feel a lot of pressure.

Therefore, in order to improve the problems of the shoes as described above, the study on the increase of the cushion feeling and the fatigue of the foot by applying the cushioning material and the elastic form of various materials to the insole is continuously repeated, but due to the original characteristics of the shoes The situation is not reasonably solved.

In addition, although an air cushion or a spring shock absorber has been applied for the purpose of absorbing the shock acting on the foot with respect to the outsole or midsole or insole of the shoe as described above, it does not achieve the purpose of an effective form.

In particular, as a separate vibrating means is built into the outsole of the shoes to enter the roots, a number of products have been devised to reduce the fatigue of the foot by generating numerous vibrations from the vibrating means by the pressure during walking. The same shoe also does not effectively reduce the fatigue of the foot, as well as the production process is very complicated and requires a highly skilled worker is extremely uneconomical problem.

The present invention is to solve the problems as described above, in the shoe made of a combination of the outsole and the midsole and insole and the upper, forming a separate vibration and cushioning means on the upper portion of the outsole, the vibration generated in the midsole And forming a through hole through which the upper portion of the buffer means protrudes, and by forming an accommodating portion in the insole to allow vibration and the upper portion of the buffer means to protrude.

When walking while wearing shoes, the weight of the user is transmitted to the vibration generating and cushioning means through the heel, so that the vibration induced and the walking shock are absorbed, thereby providing a massage effect on the muscle cells through the wavelength caused by the vibration. It is an object of the present invention to provide a shoe with a built-in vibration and shock absorbing means having a feature that effectively alleviates the impact in a state to significantly reduce the stress and fatigue caused by long time wearing.

The present invention for achieving the object as described above, in the shoe is formed in the midsole and the insole and the upper is fixed to the top of the outsole sequentially, the outsole forms a settled groove on the upper surface and vibration generated and buffered in the settling groove Insertion means is formed, the midsole is formed through the hole so that the upper portion of the vibration generating and buffering means, the insole is formed in the receiving portion of the inclined upward fusion so that the upper portion of the vibration generating and buffering means is embedded from the lower side, The weight of the shoe wearer by walking is transmitted to the vibration generating and buffering means through the heel, so that the vibration caused by the pressurization and the shock during walking is configured to be made.

The present invention effectively alleviates the walking impact acting directly on the human body through the heel, significantly reducing the pain or fatigue even when wearing shoes for a long time, as well as the vibration generating portion acting from the pressing force caused by the user's weight, the muscle cells By repeating the contraction and relaxation of the to produce a continuous massage effect on the weight-intensive feet to prevent the foot swelling while also reducing the fatigue of the foot, the vibration action that causes the user's interest is to wear and walk It provides the pleasure of walking while doubling the pleasure of the user, thereby improving the activity of the user, which can contribute to health.

1 is an exploded perspective view of the shoe according to the present invention
2 is a cross-sectional view of the shoe according to the invention
Figure 3 is a bottom perspective view of the insole of the shoe according to the invention
Figure 4 is a side cross-sectional view of the insole of the shoe in accordance with the present invention
5 is an exploded perspective view of the vibration and cushioning means of the shoe in accordance with the present invention
Figure 6 is a side cross-sectional view of the vibration and cushioning means of the shoe in accordance with the present invention
Figure 7 is an operation cross-sectional view of the vibration and cushioning means of the shoe in accordance with the present invention

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

Figure 1 is an exploded perspective view of the shoe according to the invention, Figure 2 is a full sectional view of the shoe according to the invention, Figure 3 is a bottom perspective view of the insole of the shoe according to the invention, Figure 4 is a shoe of the shoe according to the invention A side cross-sectional view of the insole.

The shoe according to the present invention, as shown in the general type of shoes as shown in the outsole 10 corresponding to the shoe outsole, the midsole 20 for preventing the shape of the outsole 10 and deformation of the inside of the shoe, and Located in the upper portion of the midsole 20 is made of an insole 30 to provide a cushioning feeling in the wearing state, the upper side is fixed to the upper 40 to determine the overall shape and design of the shoe.

At this time, the outsole 10 is formed with a settle groove 11 downward from the upper surface, the settle groove 11 is formed at a position corresponding to the rear side of the outsole 10, that is, the heel of the user. It is.

In addition, the midsole 20 is formed with a through hole 21 having the same shape as the settle groove 11, and the bottom surface of the insole 30 is the same as the settle groove 11 and the through hole 21. The accommodating part 31 by the upward melting | fusing in form is formed, and the said accommodating part 31 has an inclined form.

In particular, the insole 30 is formed of the upper skin material 32 and the lower air vent material 33 is spaced apart and between the skin material 32 and the air vent material 33 (ortholiet) material As the used foamed resin layer 34 is formed, the skin material 32 is made of natural or artificial leather or textile materials such as fabric, and is directly in contact with the sole of the wearer. 33) serves as a vent member between the midsole 20 and the insole 30 in contact with the upper surface of the midsole 20, preferably a mesh fabric.

In addition, the foamed resin layer 34 as described above is formed to have a cross-sectional shape in which the thickness gradually increases from the front heel toward the heel, which increases the cushioning force on the heel where the user's weight is concentrated. In order to provide more fit and comfort in walking conditions, the thickness of the foamed resin layer 34 is thicker than the heel as a reason for making the thickness of the front heel thinner than the heel due to moisture caused by summer heat and poor breathability inside the shoe. To minimize the smell and athlete's foot caused.

The shoe having such a structure is provided, but when a separate vibration generating and buffering means 50 is inserted and fixed inside the settled groove 11 of the outsole 10, the vibration generating and buffering means 50 of the The upper part is projected upward through the through hole 21 of the midsole 20 and the upper part of the vibration generating and buffering means 50 is located inside the accommodating part 31 of the insole 30. Generation and the buffer means 50 is not visible at all, and only the heel portion of the insole 30 is to produce a state in which the melted upward inclined.

At this time, the vibration generation and the shock absorbing means 50 is composed of the upper actuator 51 and the lower support body 52, as shown in Figure 5, these actuators 51 and the support 52 is one side The ends are hinged to each other so that the actuator 51 has a rotatable coupling state from the support 52.

In addition, an upper portion of the support 52 as described above is formed with an arched spring plate 53 and the bottom surface of the spring plate 53 is a flow plate in the hinged state and the end of the spring plate 53 ( 54 is located, and the upper portion of the flow plate 54 is fixed to the steel vibration piece 55 formed with a second magnetic body 57 at the end.

In particular, a separate first magnetic body 56 is embedded in the upper portion of the flow plate 54, such that the first magnetic body 56 and the second magnetic body 57 have repulsive force. The same polarity will have to be placed and fixed so as to face each other.

Accordingly, when the arch spring plate 53 is hinged to one side end of the actuator 51 on the support 52 in a state placed in the upper portion as described above, the actuator 51 is arched in the bottom surface. Since the projecting interference with the tip of the spring plate 53 is made, the actuator 51 is inclined as shown in FIG. 6 and maintains a rotationally developed state from the support 52.

The vibration generating and damping means 50 in this state is inserted into the settling groove 11 of the outsole 10 and the upper actuator 51 of the vibration generating and damping means 50 has an inclined state and the insole 30 In the state inserted into the receiving portion 31 of the), when the heel is lowered by the user's wearing and walking, the user's weight is transmitted through the heel while pressing the upper surface of the insole 30 and the pressing force is By pressing the actuator 51 in the upwardly deployed state to be rotated downward.

In addition, as the actuator 51 is rotated downward, the pressing force is transmitted to the spring plate 53, and as the spring plate 53 is pressed, both ends of the spring plate 53 are separated from each other. The sliding plate 54 is hinged to one end of the spring plate 53.

Therefore, when the fluid plate 54 is slid as described above, the first magnet body 56 embedded in the fluid plate 54 is moved together, and the first magnet body 56 is the steel vibration piece 55. When the first magnetic body 57 and the second magnetic body 57 formed in the close proximity to each other by the mutual repulsive force of the first magnetic body 56 and the second magnetic body 57 receives the force to move upward Will be.

At this time, since the steel vibrating piece 55 is attached to the first magnet body 56 of the flow plate 54 by the attraction due to the iron material, sliding to the fluid plate 54 as described above occurs. At the same time, the attraction force between the first magnetic body 56 and the steel vibrating piece 55 and the repulsive force between the first magnetic body 56 and the second magnetic body 57 simultaneously occur, and the fluid plate 54 continues to move. When the first magnetic body 56 is close to the lower portion of the second magnetic body 57, the repulsive force generated between the two magnets is greater than the attraction force with the steel vibration piece 55, the steel vibration piece ( 55 is momentarily separated from the first magnet body 56 to be bounced upward.

As described above, the steel vibrating piece 55 is separated from the first magnetic body 56 as if it bounces upward, and thus, the steel vibrating piece 55, as well as the second magnetic body 57, due to the elastic force of the steel vibrating piece 55 itself. Is to do a myriad of vibration movement in the up and down direction, such vibration movement is to be transmitted through the support body 51 as well as the actuator 51 to affect the heel of the user.

This vibration force is actively being researched in various fields with the human body. Due to the decrease in bone density and muscular atrophy of astronauts after long periods of gravity-free space travel, re-space travel took considerable time, and some of the astronauts could travel in space due to severe bone loss and muscular atrophy. There were no astronauts.

Efforts to solve this problem began to study the effect of the vibration method of the upper and lower body on the human body, and the findings found that it recovers in a very short time (Jegal Dong-geun, 2005). Such vibrational movement is known to be applied as a useful method for treating osteoporosis by growing muscle fibers and developing bone resistance by rapidly progressing muscle contraction and relaxation due to minute vibrational energy (Rittweger et al., 2000).

In addition, as described above, the vibration generating and the shock absorbing means 50 causing the vibration force by the pressing force in the walking state, when the user's heel is lifted by walking, the load that presses the actuator 51 is removed. Therefore, the actuator 51 in the downwardly rotated state is rotated upward to have an inclined state of the initial state by the restoring force of the spring plate 53, and the upwardly rotated actuator 51 is accommodated under the insole 30. It is to be located in the part 31.

Therefore, when the user starts to walk and the weight is loaded on the front heel and the heel is lifted from the ground, the actuator 51 is inclined upward. In the situation where the user's feet are in close contact with the ground, the weight of the user is on the heel. Since the actuator 51 in the inclined upward state by such a load rotates downward by the pressing force, the moving plate 54 and the elastic vibration of the steel vibration piece 55 are thereby generated.

In addition, when the user's heel is lifted due to the walking action, the spring plate 53 is restored, and as a result, the repulsive force between the first magnetic body 56 and the second magnetic body 57 is weakened as the fluid plate 54 retreats. Due to the attraction between the first magnetic body 56 and the steel vibrating piece 55, the steel vibrating piece 55 is adhered to the first magnetic body 56 in close contact with each other.

Therefore, when the user starts walking in the state of wearing the shoe of the present invention, the actuator 51 continuously rotates downward and returns upward, thereby generating repetitive vibration, and the vibration force is transmitted to the human body through the user's foot. As you will produce a continuous massage effect.

In addition, the downward rotation of the actuator 51 and the elastic force of the spring plate 53 serves to attenuate the accumulation of pain or fatigue on the heel by walking the user's weight is concentrated on the heel, When the heel lifted upward, the first contact is made with respect to the actuator 51 protruding upwardly inclined, while pressing the actuator 51 downward by the weight and load of the user. As a result, the heel portion of the user is not primarily pressed and pressed against the upper surface of the insole 30 at a time, but primarily buffers the load while pressing the actuator 51 first and descends. Since the heel portion in close contact with the upper surface of the insole 30, the filling with the ground acting on the heel relatively compared to conventional shoes The price can be reduced.

In particular, when the vibration generating and the shock absorbing means 50 is formed to embed a separate third magnetic body 58 on the bottom surface of the actuator 51, the steel vibration piece 55 and the second magnetic body ( It is possible to increase the kinetic force of the 57, that is, the vibration force, the third magnet body 58 is formed buried in the bottom surface of the actuator 51, the third magnet body 57 is the second magnetic body 57 As the polarity is disposed to have mutual repulsion, the second magnetic body 57 rising by the repulsive force from the first magnetic body 56 receives the repulsive force by the upper third magnetic body 58 and eventually the first magnetic body. The second magnet body 57 between the magnet body 56 and the third magnet body 58 is to produce a myriad vibration state by the repulsive force in the up and down direction.

Therefore, when the shoe of the present invention is worn due to the increased vibration and reasonable shock absorbing action, it is possible to reduce fatigue and stress of the foot through the continuous massage effect by vibration, and the vibration is transmitted to the human body through the foot, which is interesting. Since the user will try to continuously move to feel the vibration psychologically, as a result can produce a physical exercise effect can contribute to the user's health.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

10: Outsole 11: Settle Home
20: midsole 21: through hole
30: insole 31: receiving unit
32: skin material 33: ventilation material
34: foamable resin layer
40: upper
50: vibration and buffer means 51: actuator
52 support body 53 spring plate
54 fluidized plate 55 steel vibration piece
56: first magnet 57: second magnet
58: third magnet

Claims (4)

The midsole 20 and the insole 30 and the upper 40 are sequentially fixed to the upper portion of the outsole 10,
The outsole 10 forms a settled groove 11 on the upper surface and inserts the vibration generating and buffering means 50 into the settled groove 11, and the vibration generating and buffering means 50 in the midsole 20. The through hole 21 is formed to protrude from the upper portion of the insole 30 is formed in the inclined upward melting receiving portion 31 so that the upper portion of the vibration generating and the buffer means 50 is embedded from the lower side,
In the shoe with the vibration generation and shock absorbing means is built so that the weight of the shoe wearer by walking is transmitted to the vibration generating and buffer means 50 through the heel, and the vibration caused by the pressurization and cushioning of the shock when walking is made,
The vibration generating and damping means 50 is composed of an actuator 51 and a support body 52, one side of which is hinged to each other, the spring plate 53 and the fluid plate (melted upwardly on the upper portion of the support 52) 54) and the steel vibrating piece 55,
The spring plate 53 and the flow plate 54 are hinged to one end of each other so that the flow plate 54 is slid by the pressure expansion action of the spring plate 53, the upper portion of the flow plate 54 The first magnetic body 56 is fixed and formed, and the second magnetic body 57 is fixed to the upper portion of the steel vibrating piece 55 so that mutual repulsion with the first magnetic body 56 is generated.
When the pressing force of the actuator 51 due to the user's load during walking is transmitted to the spring plate 53 and the flow plate 54 is slid, the first magnetic body 56 of the flow plate 54 is the second magnetic body. Movement toward 57, the second magnetic body 57 is subjected to the lifting force by the mutual repulsive force in accordance with the movement of the first magnetic body 56, the movement of the first magnetic body 56 When the upward repulsive force of the second magnetic body 57 is greater than the attraction force of the steel vibrating piece 55 attached to the first magnetic body 56, the steel vibrating piece 55 is immediately upward from the first magnetic body 56. Shoe with vibration generation and shock absorbing means, characterized in that configured to be generated by the vibration vibrating piece 55, the upper and lower steel vibration piece 55 with the second magnetic body (57).
The method of claim 1,
The actuator 51 is a shoe with a vibration generating and cushioning means, characterized in that the bottom surface is fixed to the third magnet body (58) which is mutually repulsive with the second magnet body (57). delete delete

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