JP2021019980A - Air cushion device of shoes having cushioning and relaxation effect - Google Patents

Abstract

To provide an air cushion device for shoes, a device that relieves impact and has relaxation effect.SOLUTION: The shoes are equipped with a heel part air cushion 1 in which a spring 11 is installed and, in an outer peripheral part, there are each provided a first single direction air valve 12 and a second single direction air valve 13, with outside air taken in by the second single direction air valve 13. Further, the shoes are equipped with a toe part air cushion 2 and, in the outer peripheral part, there are each provided an air relief valve 22 and an air inlet port 21. With a force imparted to the heel part air cushion 1, the inside air flows into the toe part air cushion 2 through the first single direction air valve 12, a tube 4, and the air inlet port 21. Further, the air inside the toe part air cushion 2 is gradually discharged from the air relief valve 22.SELECTED DRAWING: Figure 1

Description

Technical field to which the invention belongs

The present invention relates to an air cushioning device for shoes having a cushioning and relaxing effect, and particularly, an air cushioning device for shoes having an effect of softening an impact on the sole of a foot when walking or jumping when used by installing it in a shoe. Regarding.

Various forms of shoe insoles have been disclosed so far, but a relatively common insole is the form shown in FIG. 7 of US Patent US07331121B2. The embodiment has an airbag and an air-filled structure, which are connected to each other, and when the heel portion pushes the air-filled structure, the air inside the air-filled structure is sent to the airbag, so that the airbag expands. It has the effect of softening the impact on the forefoot. When the heel portion rises and the pressure applied to the air-filled structure is released, the air-filled structure takes in outside air and expands. This has the effect of softening the impact of the forefoot and heel. However, while this design can provide comfort when worn, if the filling structure is repeatedly trampled, air will be continuously pumped into the airbag, and if there is too much air filling inside the airbag, the airbag will It may inflate excessively and cause discomfort due to the forefoot being pinched between the airbag and the toe of the shoe. Also, if a large stepping force is applied during jumping, there is too much air in the airbag, and there is a possibility that it will burst due to being stepped on with a large force, and the moment the airbag bursts, the body will be out of balance and fall. There is no denying the danger of doing so.

Therefore, the present invention provides a shoe air cushioning device that cushions the impact and has a relaxing effect, and the air cushion on the toe of the shoe allows air to escape by itself, causing the airbag to expand excessively, thereby causing the forefoot to rise. The challenge is to solve the conventional problem of being caught between the toes of an airbag and shoes and having discomfort.

In order to solve the above problems, the present invention provides an air cushioning device for shoes having a cushioning and relaxation effect. The shoe air cushion device of the present invention includes a heel air cushion, a spring is installed inside the heel air cushion, and a first unidirectional air valve and a first unidirectional air valve are provided on the outer peripheral portion of the heel air cushion, respectively. It has a second unidirectional air valve. The heel air cushion takes in external air through the second unidirectional air valve. Further, the shoe air cushion device of the present invention includes a toe air cushion, and the toe air cushion has an air relief valve and an air inlet, respectively, on the outer peripheral portion thereof. The toe air cushion communicates with the tube by the air inlet and the first unidirectional air valve. When pressure is applied to the heel portion air cushion, the air inside the heel portion air cushion flows into the heel portion air cushion by the first unidirectional air valve, the tube, and the air inlet, and inside the heel portion air cushion. Air is gradually expelled from the air relief valve. The maximum flow rate of air released by the air relief valve is smaller than the maximum flow rate of air entering at the air inlet of the heel air cushion.

With the above contents, the present invention not only improves the drawbacks of the conventional shoe air cushioning device, but also its structure cushions the impact when the sole of the foot is lowered. When landing when jumping, the air relief valve of the shoe toe air cushion slowly releases air, and the internal space of the shoe toe air cushion gradually becomes smaller, so that the forefoot slowly lowers and cushions the impact. Is clear.

That is, the shoe air cushion device having a cushioning and relaxation effect of the present invention is characterized in that the impact of the forefoot is softened by slowly relaxing the expansion of the toe air cushion while improving the conventional drawbacks. It is a thing.
[Effect of the invention]

It is a three-dimensional drawing of this invention. It is a figure which showed the state which the heel stepped on the heel part air cushion in this invention. It is a figure which showed the state which the heel stepped on the heel part air cushion, and the air flowed in this invention. It is a figure which showed the state which the heel was raised and the toe stepped on in this invention. It is a figure which showed the state which the heel is raised and the toe is stepped on and air flows in this invention. It is a figure which showed the state which the 1st air adjustment valve and the 2nd air adjustment valve were installed in this invention. In the present invention, the first air regulating valve and the second air regulating valve are installed, and the heel is stepped on to show the state in which the air of the heel air cushion flows. In the present invention, the first air regulating valve and the second air regulating valve are installed, and the heel is raised, and the toes are stepped on to allow air to flow. It is a three-dimensional view of the air relief valve in this invention. 9 is a cross-sectional view taken along the line XII-XII of FIG. 9 is a cross-sectional view taken along the line XIII-XIII of FIG.

The shoe air cushioning device having a cushioning and relaxation effect of the present invention will be described in detail with reference to the drawings. Shown in FIG. 1 is a shoe air cushioning device having a cushioning and relaxation effect of the present invention. The shoe air cushion device having a cushioning and relaxation effect includes a heel air cushion 1, and the heel air cushion is provided with a spring 11 inside the heel air cushion 1 and is provided on an outer peripheral portion of the heel air cushion 1. Each has a first unidirectional air valve 12 and a second unidirectional air valve 13. The heel air cushion 1 takes in external air through the second unidirectional air valve 13. Further, the shoe air cushion device having a cushioning and relaxation effect of the present invention is provided with a toe air cushion 2, and an air relief valve 22 and an air inlet 21 are provided on the outer peripheral portion thereof, respectively. The toe air cushion 2 communicates with the tube 4 by the air inlet 21 and the first unidirectional air valve 12. When a force is applied to the heel air cushion 1, air inside the heel air cushion 1 flows into the toe air cushion 2 by the first unidirectional air valve 12, the tube 4, and the air inlet 21. Further, the air inside the toe air cushion 2 is gradually discharged from the air relief valve 22, and the maximum flow rate of the air released from the air relief valve 22 enters from the air inlet 21 of the toe air cushion 2. Less than the maximum flow rate of air. The heel air cushion 1 released from the pressure swells due to the installation of the spring 11, and the air outside the heel air cushion 1 is released from the second unidirectional air valve 13 to the heel air. It flows inside the cushion 1.

The present invention can also be installed inside the sole 100 (also inside the midsole and insole) as shown in FIGS. 2 to 5. It can also be used separately in combination with the inner sole 200. When the heel steps on the heel airbag 1, air is gradually filled in the toe airbag 2, and the air inside the toe airbag 2 is gradually released from the air release valve 22, and the toe airbag is released. The cushion 2 does not bulge too much and the forefoot is not pinched between the airbag and the toes of the shoe as in the case of a conventional airbag of an air cushion, causing discomfort. Further, due to the structure in which the air inside the toe air cushion 2 is gradually released from the air escape valve 22, when the heel is raised and the toe steps on the toe air cushion 2, the internal space becomes smaller due to the installation of the air escape valve 22. , Slowly lower your toes to soften the impact.

In the present invention, as shown in FIG. 6, the air relief valve 22 and the second unidirectional air valve 13 communicate with the pipe 3. A through hole 31 is installed on the peripheral side surface of the through pipe 3. This will be described with reference to FIGS. 7 and 2. When the heel steps on the heel air cushion 1 and applies a force to the heel air cushion, a part of the air released by the air escape valve 22 is discharged from the through hole 31 to the outside of the through pipe 3. The other air released by the air relief valve 22 flows to the second unidirectional air valve 13. This will be described with reference to FIGS. 8 and 4. When the heel is raised, the toe is stepped on, and the pressure of the heel air cushion is released, the air taken in by the heel air cushion 1 is released from the air release valve 22 into the pipe 3 respectively. The heel portion air cushion 1 is entangled with the toe portion air cushion 2 by showing a state in which the tube 4 and the passage pipe 3 are in parallel with each other, so that the tube 4 and the through pipe 3 flow into the through pipe 3 from the through hole 31. There is no.

This will be described with reference to FIGS. 7 and 2. FIG. 7 shows a state in which the heel is stepping on the heel air cushion 1. The tube 4 includes a third unidirectional air valve 41 and a first connecting pipe 42 in the form of a three-way joint, and the third unidirectional air valve 41 has a first unidirectional air valve 12 and the like. The toe portion air cushion 2 is connected between the air inlets 21 and further includes a first air regulating valve 5, and the third unidirectional air valve 41 has two opposite ends, each having a first end portion. There are 411 and a second end portion 412, and air only flows from the first end portion 411 toward the second end portion 412, and the first end of the first connecting pipe 42 communicates with the air inlet 21. The second end of the first connecting pipe 42 communicates with the second end portion 412 of the third unidirectional air valve 41. The third end of the first connecting pipe 42 communicates with the first air regulating valve 5. When the air inside the toe air cushion 2 is saturated, the air flowing toward the air inlet 21 is discharged from the first air regulating valve 5 at this time. In this structure, if the heel is stepped on too frequently, the air relief valve 22 is used in combination to maintain a state in which the toe air cushion 2 is not overfilled.

This will be described with reference to FIGS. 7 and 2. FIG. 7 shows a state in which the heel is stepping on the heel air cushion 1. Of these, the tube 4 includes a second connecting pipe 43 that exhibits a form of a three-way joint, and further includes a second air regulating valve 6. The first end of the second connecting pipe 43 communicates with the first end portion 411 of the third unidirectional air valve 41. The second end of the second connecting pipe 43 communicates with the first unidirectional air valve 12. The third end of the second connecting pipe 43 communicates with the second air regulating valve 6. The second air regulating valve 6 controls the amount of air flowing inside the heel air cushion 1 to the third unidirectional air valve 41.

As shown in FIG. 6, the second air adjusting valve 6 includes an adjusting button 61. The adjustment button 61 controls the air pressure value of the air flowing through the toe air cushion 2 inside the heel air cushion 1. Since there are differences in the weight, stepping pressure, and frequency of each person, this structure adjusts the amount of air discharged from the second air regulating valve 6 according to different users and usage methods, thereby causing the heel air. The pressure value of the air flowing through the toe air cushion 2 inside the cushion 1 is controlled.

This will be described with reference to FIGS. 1 and 9 to 11. Of these, the air relief valve 22 has an air inlet portion 221 and an air relief valve 222 at two opposite ends, respectively. The air release valve 22 communicates with the inside of the toe portion air cushion 2 by the air inlet portion 221. The air entry portion 221 and the air escape portion 222 penetrate to form a hollow portion 223. The hollow portion 223 has a large diameter portion 2231, and the large diameter portion 2231 communicates with the small diameter portion 2232. The small diameter portion 2232 is located at one end of the air relief portion 222, and has an opening 2233 at the intersection of the large diameter portion 2231 and the small diameter portion 2232. The large diameter portion 2231 has an adjusting ball 224, and when air enters from the air entering portion 221, the air pushes the adjusting ball 224, and a part of the adjusting ball 224 stops at the edge of the opening 2233. The inner edge of the adjusting ball 224 and the opening 2233 is incompletely tightly packed so that air can pass through with a gap between the two. In this structure, the air relief valve 22 has elasticity, and the stronger the pressure when the heel air cushion 1 is lowered, the stronger the force of the adjusting ball 224 pushed by the air. At the same time, the gap between the adjusting ball 224 and the inner edge of the opening 2233 becomes smaller, and the speed at which air escapes becomes slower. Therefore, the air relief valve 22 provides an appropriate buffering speed by adjusting the speed at which air is released by the difference in the force for lowering the toe air cushion 2.

Although the examples of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to these examples, and there are design changes within a range that does not deviate from the gist of the present invention. However, it is included in the present invention.

1 Heel air cushion 11 Spring 12 1st unidirectional air valve 13 2nd unidirectional air valve 2 Toe air cushion 21 Air inlet 22 Air escape valve 221 Air inlet 222 Air escape
223 Hollow part 2231 Large diameter part 2232 Small diameter part 2233 Opening 224 Adjusting ball 225 Gap 3 Passing pipe 31 Through hole 4 Tube 41 Third unidirectional air valve 411 First end 412 Second end 42 First connecting pipe 43 2 Connecting pipe 5 1st air regulating valve 6 2nd air regulating valve 61 Adjusting button 100 Sole 200 Inner sole

Claims (3)

An air cushioning device for shoes that has a cushioning and relaxation effect.
A spring is installed inside the spring, and the outer peripheral portion thereof has a first unidirectional air valve and a second unidirectional air valve, respectively, and the heel portion air that takes in external air by the second unidirectional air valve. With cushions
Each of its outer peripheral portions has an air release valve and an air inlet, and when pressure is applied to the heel air cushion, the air inlet and the first unidirectional air valve communicate with each other with the tube. The air inside is flowed into the inside by the first unidirectional air valve, the tube, and the air inlet, the air inside the inside is gradually discharged from the air relief valve, and the maximum of the air released by the air relief valve. An air cushioning device for shoes having a buffering and relaxing effect, wherein the flow rate includes a toe air cushion smaller than the maximum flow rate of air ingress at the air inlet of the heel air cushion. The air escape portion of the air relief valve and the air inlet portion of the second unidirectional air valve communicate with each other with the passage, and a through hole is provided on the peripheral side surface of the passage to exert a force on the heel air cushion. Is added, a part of the air released by the air relief valve is discharged from the through hole to the outside of the through pipe, and the other air released by the air release valve is sent to the second unidirectional air valve. When the pressure of the heel air cushion is released, the air taken in by the heel air cushion is released from the air relief valve into the pipe and flows into the pipe through the hole. By exhibiting the tube and the pipe in parallel, the heel air cushion does not entangle with the toe air cushion, and the tube is in the form of a third unidirectional air valve and a three-way joint. With a first connecting pipe, the third unidirectional air valve is connected between the first unidirectional air valve and the air inlet of the toe air cushion to further adjust the first air. The third unidirectional air valve is provided with a valve, and the two opposing ends are the first end and the second end, respectively, and air only flows from the first end toward the second end. The first end of the first connecting pipe communicates with the air inlet, and the second end of the first connecting pipe communicates with the second end of the third unidirectional air valve. The third end of the first connecting pipe communicates with the first air regulating valve, and when the air inside the toe air cushion is saturated, the air flowing toward the air inlet is at this time the first. Discharged from the air regulating valve, the tube comprises a second connecting tube in the form of a three-way joint, further comprising a second air regulating valve, the first end of the second connecting tube being the third single. The second end of the second connecting pipe communicates with the first one end portion of the directional air valve, the second end of the second connecting pipe communicates with the first unidirectional air valve, and the third end of the second connecting pipe communicates with the second. Communicating with the air regulating valve, the second air regulating valve controls the amount of air flowing inside the heel air cushion to the third unidirectional air valve, and the second air regulating valve presses the adjusting button. The air cushion of a shoe having the cushioning and relaxation effect according to claim 1, wherein the adjustment button controls the pressure value of the air flowing through the toe air cushion inside the heel air cushion. apparatus. The air escape valve has an air inlet portion and an air escape valve at two opposite ends, respectively, and the air escape valve communicates with the inside of the toe portion air cushion by the air inlet portion, and the air inlet portion and the said The air escape portion penetrates to form a hollow portion, the hollow portion has a large diameter portion, the large diameter portion communicates with the small diameter portion, and the small diameter portion is one end of the air escape portion. It is located in, has an opening at the intersection of the large diameter portion and the small diameter portion, has an adjusting ball in the large diameter portion, and when air enters from the air entry portion, the air pushes the adjusting ball. By pushing, a part of it stops at the edge of the opening, and the adjusting ball and the inner edge of the opening are incompletely tightly packed so that air can pass through with a gap between them. The air cushioning device for shoes, which has a cushioning and relaxing effect according to claim 1.