KR100927194B1 - The shoe - Google Patents

Abstract

PURPOSE: Footwear equipped with impact absorbing sole is provided, which absorbs an impact over the whole of a sole and reduces the weight of the footwear. CONSTITUTION: Footwear equipped with impact absorbing sole comprises an outsole(10) which forms a swollen form downward; a midsole(20) which is connected to an outsole and in which a reentrant groove is formed in the side facing a sole; an impact absorbing sole(30) which is positioned in the reentrant groove and is equipped with plural honeycomb shock absorbing grooves which are arranged in the lattice type; an insole(40) which is arranged to the upper side of the midsole; and the upper(50) which is combined with the outsole and is arranged in the upper part of the insole.

Description

The shoe

The present invention relates to a shoe.

In general, shoes require cushion performance as well as ventilation performance. At this time, if the cushion performance is not good, the shoe wearer not only feels the fatigue of the foot easily, but the impact applied to the shoe sole during walking is transmitted to the brain through the spinal cord, which adversely affects health.

In addition, as the materials having excellent shock absorbing performance are gradually developed, the problem caused by the above-mentioned shock is partially solved. Accordingly, shoe manufacturers are using the material having excellent cushioning performance, and at the same time, various cushion structures such as air bags are applied to the inside of the shoe sole to further improve the cushioning performance.

In addition, recently, shoes have been developed so that the soles are convex downward, and these shoes for shock absorption are called cloud movement shoes, active walking shoes or Masai walking shoes.

However, according to the conventional shoe sole, the bottom surface is convex downward, so that the locus of the weight of the shoe wearer is moved forward from the rear of the shoe sole to the front during the walking step, but especially in the center of the foot, the weight is moved outward from the foot. Since it is not supported, the upright walking posture was not maintained while being inclined to the inside of the foot.

Moreover, in order to improve the cushioning performance and at the same time reduce the weight, the conventional shoe sole is made of soft rubber or soft synthetic resin. However, a small bubble-like cell is formed in the process of forming a soft rubber, and water is soaked into the rubber material of the shoe through the cell, so that hydrolysis is performed. There was a problem.

And, in order to improve the waterproof coating on the exposed surface of the soft sole, but not only increases the cost, there is a problem that the rubber material is hydrolyzed to absorb the moisture as the waterproof layer is damaged.

In addition, in the conventional shoes in which the shock absorbing member is formed only on the heel portion, unlike the shock absorbing member being coupled over the entire bottom surface of the midsole, the landing feeling of the heel portion when walking is completely different from the landing feeling in the rest of the sole. Because it is different, you cannot walk comfortably.

The problem to be solved by the present invention is to reduce the weight of the entire shoe, and to absorb the shock throughout the sole, as well as to ensure that the correct pedestrian footing is maintained while walking without hydrolysis occurs, To provide.

The shoe according to an embodiment of the present invention, the sole is formed in the convex shape, the sole is connected to the sole, the midsole is formed in the indentation groove formed on the surface facing the outsole, the indentation groove, the sole And a shock absorbing window that is softer than the midsole and has a plurality of honeycomb shock absorbing grooves disposed adjacent to each other in a lattice shape, an insole disposed on an upper surface of the midsole, and an upper portion of the insole, wherein an edge portion is formed above the insole. And an upper coupled to the sole, wherein the shock absorbing window is convex downward when inserted into the recess, and the shock absorbing window is gradually thickened from one edge toward the center based on a longitudinal cross section. Lose.

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The plurality of honeycomb shock absorbing grooves are larger in size from the inside of the foot toward the outside of the foot, and the movement trajectory of the center of gravity of the shoe wearer on the floor plan during the walking process is from the rear end of the insole to the outside of the center of the insole. Can pass through the front end of the insole.

The wall thickness T1 of the honeycomb shock absorbing groove close to the inside of the foot may be thicker than the wall thickness T2 of the honeycomb shock absorbing groove near the outside of the foot.

According to an embodiment of the present invention, by combining a soft shock absorbing window having a honeycomb-shaped through hole excellent in shock absorption performance to the entire bottom surface of the midsole, it is possible to absorb the impact of the shock-absorbing structure by the honeycomb through hole. Therefore, it is possible to absorb the shock caused by the weight in the whole walking process, which is made of three levels of grounding, which is good for health.

In addition, when the trajectory of the center of gravity of the shoe wearer is moved from the rear of the shoe sole to the front in the walking step, in particular, the weight is supported to the outside of the foot at the center of the foot, and thus the upright walking posture is maintained because the weight is not inclined inside the foot. There is.

In addition, since the lightweight shock absorbing window is coupled to the entire bottom of the midsole, the overall weight of the shoe can be reduced. Therefore, the sole can be used as much as the reduced weight of the shoe, it is possible to prevent the hydrolysis of the shoe material due to the water absorption because the cell is not formed in the sole during the molding process.

And, unlike the conventional shoes in which the shock absorbing member is coupled to only the heel portion, the shoe according to an embodiment of the present invention is coupled to the shock absorbing window over the entire bottom of the midsole, from the heel to the toe part when walking Since the landing is the same, you can walk comfortably.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Like parts are designated by like reference numerals throughout the specification.

Then, a shoe according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2, and FIGS. 9 and 10.

1 is a cross-sectional view showing a shoe according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing the shoe shown in Figure 1, Figure 9 is a bottom showing the midsole of the shoe according to an embodiment of the present invention 10 is a perspective view showing a shock absorbing window of a shoe according to an embodiment of the present invention.

1 and 2, and 9 and 10, the shoe 100 according to an embodiment of the present invention, the sole 10, midsole 20, shock absorbing window 30, insole 40 And upper 50.

Sole 10 is a shoe according to an embodiment of the present invention, when walking in the state wearing the shoe as a component that the bottom surface is landed on the ground, unlike the sole of the conventional shoe that was configured flat, Sole 10 in the bottom convex bottom.

Therefore, when walking while wearing the shoe 100, since the ground and the sole 10 keeps in contact with the arch from the rear to the front of the sole 10, the impact applied to the knee during walking Most can be reduced. Therefore, three levels of grounding to the latter, middle, and first half of the sole 10 can be implemented.

In addition, unlike conventional shoe soles in which the external water is absorbed through the cells formed in the soft rubber during the molding process and hydrolysis is performed, the cells are formed in the hard sole 10 according to an embodiment of the present invention. Since the change in physical properties due to hydrolysis does not occur, the problem of periodically replacing the sole has been solved.

The midsole 20 is a component that is coupled in a stacked state on the upper surface of the sole 10, and can absorb the impact applied to the knees while walking together with the sole 10 once again. In particular, in one embodiment of the present invention, the bottom surface of the midsole 20, that is, the contact surface between the sole 10 and the midsole 20 has a seating groove 21 is formed in the entire remaining portion except the rim, seating groove 21 ) Is coupled to each other in the state in which the shock absorbing window 30 is inserted.

Since the shock absorbing window 30 is formed of a softer material than the sole 10 and the midsole 20 in the shoe according to the exemplary embodiment of the present invention, the shock absorbing window 30 may not only exhibit superior shock absorbing power than conventional shoes. Technical features of the present invention to reduce the weight of the shoe. The shock absorbing window 30 is inserted into the seating groove 21 of the midsole 20, and has a plurality of honeycomb shock absorbing grooves 31 arranged in a lattice shape.

In addition, the size of the plurality of honeycomb-type shock absorbing grooves 31 formed generally in the shock absorbing window 30 increases in size from the inside of the foot toward the outside of the foot. On the other hand, the wall thickness T1 formed by the outermost honeycomb type shock absorbing groove close to the inner edge of the foot of the shock absorbing window 30 is the outermost honeycomb near the outer edge of the foot of the shock absorbing window 30. It is formed thicker than the wall thickness (T2) formed by the type shock absorbing groove.

In addition, the shock absorbing window 30 is fixed while being sealed between the midsole 20 and the insole 40 that are tightly coupled in a state of being inserted into the seating groove 21 of the midsole 20, so that the water of the material due to water absorption It can be prevented from disassembling to maintain excellent cushioning performance for a long time.

In particular, the wall thickness (T1) formed by the honeycomb shock absorbing groove close to the inside of the foot is formed thicker than the wall thickness (T2) formed by the honeycomb shock absorbing groove near the outside of the foot, the weight of the shoe wearer in the walking step When the trajectory of the center is moved from the rear of the sole of the shoe to the front, the outside of the foot is first compressed in the center of the foot so that the weight is supported outside the foot, so that the upright walking posture is easy, unlike the conventional shoes that were inclined to the inside of the foot. Is maintained.

In addition, unlike conventional shoes in which the shock absorbing member is coupled only to the heel portion, the shoe 100 according to the embodiment of the present invention has a shock absorbing window 30 coupled to the entire bottom surface of the midsole 20. There is a technical feature of the present invention because the landing feeling is the same from the heel to the toe part when walking, so that the user can comfortably walk.

Insole 40 has an inner space in the state coupled with the upper 50, the foot of the shoe wearer may be seated in the inner space.

Then, the weight center of the shoe wearer is moved in the step of landing by wearing the shoe according to an embodiment of the present invention, will be described with reference to Figs.

In addition, the shoes shown in Figures 4, 6, and 8 are based on the right shoes.

First, FIG. 3 is a state diagram showing a first step of wearing and landing a shoe according to an embodiment of the present invention. FIG. 4 is a plan view showing a first step of moving a weight center of a shoe wearer in the shoe in FIG. 3. to be.

Referring to FIGS. 3 and 4, when the shoe wearer 200 starts walking while wearing the shoe 100, the shoe wearer 200 first touches the heel of the shoe, that is, the second half of the sole 10.

At this time, the shock absorbing window 30 laminated on the upper surface of the sole 10 is compressed and deformed by the weight of the shoe wearer, and at the same time absorbs the shock due to the weight.

In the plan view of the sole 10, the center of gravity of the shoe wearer is located at the center of the rear half of the sole 10.

And, Figure 5 is a use state diagram showing the intermediate step of moving the weight, Figure 6 is a plan view showing the intermediate step of moving the weight center of the shoe wearer in FIG.

Referring to FIGS. 5 and 6, following the landing by the first heel, when the wearer 20 0 further walks while wearing the shoe 100, the weight of the shoe wearer is the shoe sole 10. Is moved to the center of the.

At this time, the shock absorbing window 30 laminated on the upper surface of the sole 10 is compressed and deformed by the weight of the shoe wearer, and at the same time absorbs the shock due to the weight.

In the plan view of the sole 10, the center of gravity of the shoe wearer is located outside the center of the sole 10. As such, the reason why the center of gravity of the shoe wearer is located on the outer side of the sole 10 rather than in the center of the sole 10 is that the size of the honeycomb shock absorbing groove 31 formed in the shock absorbing window 30 is the inside of the foot. Because the size is larger toward the outside of the foot, because the outside of the foot is pressed before the inside of the foot by the weight of the shoe wearer.

And, in the shoe according to an embodiment of the present invention and the conventional shoe is formed with the bottom surface convex, look at comparing the sense of stability according to the wearing respectively.

First, in the conventional shoes, when the center portion of the sole that is in contact with the ground, when using public transport such as subway or bus, the convex rigid down, even though standing on the floor of public transportation in a situation where the speed changes rapidly It is difficult to maintain balance while standing because of the phenomenon of rolling back and forth due to the sole or midsole.

However, in the shoe 100 according to the embodiment of the present invention, when walking, the convex bottom of the sole 10 is grounded in an arched state while the shock absorbing windows 30 are stacked, and in particular, While standing on the floor of public transport, the center of the shock-absorbing window (30) is squeezed, so that the convex hard sole is further pressed closer to the midsole, reducing the phenomenon of rolling back and forth by the sole of the shoe to maintain balance Will be easier.

In addition, Figure 7 is a state diagram showing the last step of the shoe falling off the ground, Figure 8 is a plan view showing the last step of the center of gravity of the shoe wearer in FIG.

Referring to FIGS. 7 and 8, when the shoe wearer 200 starts to walk in a state in which the shoe 100 is worn, the shoe wearer 200 lands on the front end of the shoe, that is, the sole of the sole 10.

At this time, the shock absorbing window 30 laminated on the upper surface of the sole 10 is compressed and deformed by the weight of the shoe wearer, and at the same time absorbs the shock due to the weight.

In the plan view of the sole 10, the center of gravity of the shoe wearer is located at the center of the first half of the sole 10.

And, the shock absorbing window of the shoe according to an embodiment of the present invention, will be described with reference to FIGS.

10 is a perspective view showing the shock absorbing window of the shoe according to an embodiment of the present invention, Figure 11 is a cross-sectional view showing the shock absorbing window from the front in Figure 10, Figure 12 is a side of the shock absorbing window in Figure 10 It is a cross-sectional view shown.

10 to 12, the shock absorbing window 30 of the shoe according to the embodiment of the present invention is softer than the sole 10 or the midsole 20, and the seating groove 21 of the midsole 20. ), And a plurality of honeycomb shock absorbing grooves 31 are arranged in a lattice form. In addition, the plurality of honeycomb shock absorbing grooves 31 are formed to penetrate toward the sole 10 and the midsole 20.

Here, the size of the plurality of honeycomb-type shock absorbing groove 31 is increased in size from the inside of the foot toward the outside of the foot, the wall thickness formed by the honeycomb-type shock absorbing groove close to the inner edge of the foot in the shock absorbing window 30 ( T1) is made thicker than the wall thickness T2 formed by the honeycomb shock absorbing groove adjacent to the outer edge of the foot.

In addition, the shock absorbing window of the shoe according to another embodiment of the present invention, will be described with reference to FIG.

Referring to Figure 13, the shock absorbing window 30 of the shoe according to another embodiment of the present invention, unlike the through-shaped honeycomb-type shock absorbing groove 31 shown in Figures 10 to 12, the part is blocked As formed, an opening may be formed toward the midsole 20 (see reference numeral 32), and an opening may be formed toward the sole and insole, respectively, as a centrally blocked structure (see reference numeral 33).

As such, when a portion of the honeycomb shock absorbing groove is not penetrated and is blocked, the honeycomb shock absorbing groove is not buckled in one direction when the honeycomb shock absorbing groove is to be squeezed, thereby uniformly absorbing the shock. It works.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of the present invention.

1 is a cross-sectional view showing a shoe according to an embodiment of the present invention,

Figure 2 is an exploded perspective view showing the shoe shown in Figure 1,

3 is a use state diagram showing the first step of wearing a shoe, according to an embodiment of the present invention, landing,

Figure 4 is a plan view showing a first step in which the center of gravity of the shoe wearer is moved in the shoe,

5 is a use state diagram showing the intermediate stage of moving weight,

Figure 6 is a plan view showing an intermediate step of moving the center of gravity of the shoe wearer in Figure 5,

7 is a use state diagram showing the last step of shoes falling from the ground,

FIG. 8 is a plan view illustrating a final step in which the center of gravity of the shoe wearer is moved in FIG. 7;

Figure 9 is a perspective view showing the midsole of the shoe according to an embodiment of the present invention from the bottom,

10 is a perspective view showing a shock absorbing window of the shoe according to an embodiment of the present invention,

FIG. 11 is a cross-sectional view of the shock absorbing window shown in FIG. 10 from the front,

12 is a cross-sectional view of the shock absorbing window in FIG.

<Description of the symbols for the main parts in the drawings>

10: Outsole 20: Midsole

21: seating groove 30: shock absorbing window

31,32,33: honeycomb shock absorbing groove 40: insole

50: upper 100: shoes

200: wearer G: ground

Claims (5)

delete Sole that forms convex down, The midsole is connected to the sole, the recess is formed on the surface facing the sole, A shock absorbing window positioned in the recessed groove and having a plurality of honeycomb shock absorbing grooves that are softer than the sole and the midsole and are disposed in a lattice shape adjacent to each other; An insole disposed on an upper surface of the midsole; and Disposed above the insole, the upper portion of which includes an upper coupled to the sole; In the state inserted into the recess groove, the shock absorbing window is convex downward, the shock absorbing window is gradually thickened from one edge toward the center on the basis of the longitudinal cross section, The plurality of honeycomb shock absorbing grooves are larger in size from the inside of the foot toward the outside of the foot, and the movement trajectory of the center of gravity of the shoe wearer on the floor plan during the walking process is from the rear end of the insole to the outside of the center of the insole. Shoes passing through the front end of the insole. Sole that forms convex down, The midsole is connected to the sole, the recess is formed on the surface facing the sole, A shock absorbing window positioned in the recessed groove and having a plurality of honeycomb shock absorbing grooves that are softer than the sole and the midsole and are disposed in a lattice shape adjacent to each other; An insole disposed on an upper surface of the midsole, and Disposed above the insole, the upper portion of which includes an upper coupled to the sole; In the state inserted into the recess groove, the shock absorbing window is convex downward, the shock absorbing window is gradually thickened from one edge toward the center on the basis of the longitudinal cross section, The wall thickness (T1) formed by the honeycomb shock absorbing groove close to the inside of the foot is thicker than the wall thickness (T2) formed by the honeycomb shock absorbing groove adjacent to the outside of the foot. delete delete

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