KR101175557B1 - Check valve and shoes installed this - Google Patents

Abstract

        The present invention relates to a reverse displacement using a thin film and a shoe equipped with the same. More specifically, the inside of the cylindrical tube has a rounded triangular shape in which a flexible thin film is roundly attached and installed by two sides. The present invention relates to a reverse displacement using a thin film and a shoe having the same so as to prevent a reverse flow of a fluid flowing through a cylindrical tube.

According to the present invention, a flexible thin film is attached to the inside of the cylindrical tube, and the thin film is formed in a triangular shape with one corner rounded and rolled round to be attached to the inner surface of the cylindrical tube by two sides. Reverse displacement; And an inlet pipe, an exhaust pipe, and a pump, which allow fresh air to flow in and out of the shoe, and the reverse valve is installed in the intake pipe and the exhaust pipe, respectively.

Description

Reverse valve using thin film and shoes equipped with it {Check valve and shoes installed this}

The present invention relates to a reverse displacement using a thin film and a shoe equipped with the same, and more particularly, a thin film having a triangular shape rounded at one corner inside a cylindrical tube is roundly rolled and installed by two sides. The present invention relates to a reverse displacement using a thin film and a shoe having the same so as to prevent backflow of the fluid flowing through the clearance.

 The conventional reverse displacement is a reverse displacement mainly developed for industrial or medical use, and there is no reverse displacement attached to the inside of a tube with an inner diameter of about 1.0 mm.

It is well known that by letting fresh air in and out of the shoe, the toes can walk refreshing without sweating and burning.

The patent application based on this idea relates to a method of attaching a pump mechanism to an insole of a shoe, or to a mechanism in which a pump mechanism is attached to a shoe body and a pump acts on each step to blow fresh air into the shoe. There are dozens of patent applications.

It is widely known that fresh air is allowed to walk in and out of the shoe as described above. However, in reality, a shoe or insole of a shoe is provided with a mechanism for allowing fresh air to flow into the shoe. (Liner) does not exist in the market.

The present invention is an invention of reverse displacement that is mounted inside an intake pipe and an exhaust pipe of a pump for satisfying the aforementioned mechanism. The invention is a pump reverse displacement that allows the air inside the shoe to flow in and out while walking in shoes, and has been invented by developing a reverse displacement that does not feel discomfort inside the shoe.

The present invention provides a reverse displacement in which a roll-shaped thin film is attached to an inside of a cylindrical tube having an inner diameter of about 1.0 to 20.0 mm.

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In addition, the present invention provides a shoe provided with an inlet pipe, an exhaust pipe and a pump for allowing fresh air to enter and exit the inside of the shoe, and a reverse valve provided with the reverse valve at the intake pipe and the exhaust pipe, respectively.
In addition, the present invention provides a reverse displacement that is installed inside the blood vessel or the flow of blood flow pipe to prevent the reverse flow of the reverse flow.

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The effect by this invention is demonstrated.

The idea of attaching the reverse displacement to the intake pipe of the pressure pump and the pipe of the exhaust pipe is already well known and is a necessary concept when considering the reverse displacement pump. However, such a reverse check pump does not exist in the market. Do not.

The above phenomenon can be solved by employing the reverse displacement of the present invention, and the reverse displacement pump of a simple mechanism can be invented.

The reverse displacement of the present invention can be formed by simply rolling a thin film having a triangular shape with one rounded corner and attaching it to the inside of the cylindrical tube through the two sides, so that the structure is very simple. Therefore, it can be produced at a very low price.

By developing a pressure pump having a reverse displacement according to the present invention, it becomes a reverse displacement pump that allows air in and out of shoes .

These shoes are particularly suitable for shoes worn by athletes, safety shoes mandated at construction sites and factories, military boots worn by soldiers, women's sports that take precedence over design, and the latest fashion rain boots. The air stays inside, causing odor with water generated from the feet, or causing athlete's foot.

When the pump having the reverse displacement of the present invention is attached to the shoe in such a state, and the air inside the shoe is allowed to go in and out, it is possible to alleviate the unpleasant feeling caused by the freshness and bad smell to all those who wear such shoes.

EMBODIMENT OF THE INVENTION Hereinafter, the form of this invention is described with reference to drawings based on an Example.

[Example 1]

In the first embodiment of the present invention, as shown in Figure 4, the flexible thin film 2 is attached to the inside of the cylindrical tube 1, the thin film 2 is formed in a triangular shape rounded corners rounded It is a reverse displacement 100 using a thin film, characterized in that the installation is attached to the inner surface of the cylindrical tube 1 by two sides.

In this embodiment, a cylindrical tube 1 having an inner diameter of 1.5 mm shown in FIG. 1 is cut at an angle of 60 degrees, and divided into two split tubes 1a and 1b as shown in FIG. 3, a rounded triangular thin film 2 is rolled round in a roll shape as shown in Fig. 3 and attached to the inner surface of the cut surface of one side pipe 1a using the two sides, and then the cut surface and one side of the other side pipe 1b. The cut surface of the split pipe 1a is originally combined.

In this case, the cylindrical tube 1 is cut at an angle of 60 ° according to the embodiment, which is to cut in an inclined direction, and the cutting angle A may be within an angle range of 30 to 70 °.

In the above embodiment, the cutting angle A of the cylindrical tube 1 is 60 °. The cutting angle A of about 60 degrees is determined when the inner diameter of the cylindrical tube 1 is 1.5 mm. This is because it is the best angle for attaching the two sides to the cut surface of the cylindrical tube 1.

The operation of the thin film 2 attached to the inside of the cylindrical tube 1 will now be described.

As shown in FIG. 4, the gas flowing from one side of the cylindrical tube 1 to the other side naturally passes through the interior of the cylindrical tube 1 through the flexible thin film 2.

At this time, when gas passes through the inside of the thin film 2 attached to the inner side of the cylindrical tube 1, in theory, friction resistance is generated somewhat between the gas and the inner surface of the thin film 2, but in fact, the gas and the thin film The inner surface of (2) passes through with little frictional resistance.

However, unlike the above, as shown in FIG. 5, the gas flowing from the other side of the cylindrical tube 1 to the one side is blocked by the flexible thin film 2 and does not pass through the interior of the cylindrical tube 1. I can't.

That is, when gas is to flow from the other side of the cylindrical tube (1) to flow to one side, when the gas passes along the interior of the flexible membrane (2) there is a slight frictional resistance on the inner surface of the gas and the membrane (2) Will occur.

Then, due to the frictional resistance, the upper side of the periphery of the thin film 2 is pushed down while the thin film 2 is spread to correspond to the cut surface of the cylindrical tube (1). Therefore, the thin film 2 is inverted and in close contact with the inner surface of the cylindrical tube 1 as shown in FIG. 5 to completely block the gas introduced from the other side of the cylindrical tube 1.

Moreover, although description of this invention was demonstrated with gas, it can respond to the fluid containing a liquid.

[Example 2]

In the second embodiment of the present invention, the exhaust pipe 4 is installed at the inner end of the shoe body 6, and the intake pipe 3 is installed at the inner rear end of the shoe body 6 so as to communicate with the outside, and the exhaust pipe 4 ) And the intake pipe 3 are connected by a pump 5 installed in the inner heel portion of the shoe body 6, and the reverse displacement of claim 1 in the exhaust pipe 4 and the intake pipe 3, respectively. 100 is a shoe 200 equipped with a reverse side installed.

This is a shoe in which the inner leading air of the shoe body 6 is automatically replaced as shown in FIGS. 6 and 7, which is provided with no discomfort, and has an intake pipe 3 and an exhaust pipe having an inner diameter of 1.5 mm ( 4) are respectively installed at the inner end of the shoe body 6 and the inner rear end of the shoe body 6, each having a thickness of 0.02 mm flexible within the intake pipe 3 and the exhaust pipe 4, respectively. The reverse side 100 of the first embodiment including the 2) is installed, and the pump 5 for introducing fresh air into the inner tip of the shoe is created in the inner heel portion of the shoe 200.

Therefore, when walking in the shoe 200, the pump 5 installed in the shoe body (6) is naturally pumped by the pressure of the wearer while the fresh air is sucked through the intake pipe (3) after the exhaust pipe (4) Because the exhaust through the inner end of the shoe body (6), the interior of the shoe 200 is always replaced with fresh air.

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Herein, the action of the second embodiment of the present invention will be described by the intake and exhaust of the pump 5 as follows.

When the heel of the wearer touches the pump 5 during walking, the air chamber of the pump 5 is pressurized. As the air chamber is compressed and the pressure is increased, the reverse displacement 100 installed in the intake pipe 3 is closed and at the same time. The stationary valve 100 installed in the exhaust pipe 4 is opened and fresh air stored in the air chamber is discharged to the inner tip of the shoe body 6.

In addition, since the pump 5 is not pressurized when the heel of the wearer does not touch the pump 5 during walking, the air chamber of the pump 5 is expanded so that the pressure decreases and the reverse displacement 100 installed in the intake pipe 3 is 100. ) Is opened and at the same time the reverse valve 100 installed in the exhaust pipe 4 is closed so that fresh air from outside is sucked into the air chamber of the pump 5.

At this time, near the sole of the sole of the inner side of the shoe body 6, the shoe 200 is made to have a little space even if the shape of the shoe 200 is small, so that the intake pipe of the intake pipe 3 is placed there to receive fresh air from the outside. Attach.
In order to prevent the inflow of rainwater or dust from the tip of the intake pipe 3, measures must be taken such as protecting with a reverse osmosis membrane which allows air to pass but blocks moisture and dust.
In addition, the intake port of the intake pipe (3) and the exhaust port of the exhaust pipe (4) for letting in and out of the air inside the shoe body (6) is speculated that there are many methods professionally, but this is a problem of the manufacturer of the shoe (200) The present invention assumes the sole of the sole of the shoe body 6 as an example.

By repeating the walking as described above, the pump is opened and closed by the opening and closing action of the reverse valve 100 installed inside the intake pipe 3 and the reverse valve 100 installed inside the exhaust pipe 4 operated in the reverse direction. After fresh air flows into the air chamber of (5), it can be blown to the inner end of the shoe body (6).

The pump employing the reverse displacement of the present invention can be attached to the heel portion of the shoe so that fresh air can be replaced in the tip portion inside the shoe where air is difficult to enter.

As described above, the reverse displacement pump according to the present invention includes various shoes worn by sports athletes, safety shoes mandated to be worn at construction sites and factories, boots worn by soldiers, boots worn by women who prioritize design, and design boots and cookhouses. White boots or rubber boots worn by the fish market cannot be listed.

In all of these shoes, air stays at the tip of the shoe, causing bad smell or athlete's foot.

According to the invention of the reverse displacement of the present invention, it is possible to give refreshing to the toes when walking of those who wear such shoes, to reduce the cause of unpleasantness and athlete's foot due to bad smell, and contribute to all human society wearing shoes. have.

When air is injected into a hot air balloon, the hot air balloon is made into a cylindrical tube as a reverse valve to prevent backflow due to the internal pressure of the balloon which has started to swell when the hot air balloon is inflated. When the reverse displacement of the present invention is attached to the inside of the tube, even a child with a small lung capacity can easily inflate a balloon.

In addition, it is sure to contribute not only to artificial blood flow and medical relationships of the heart, but also to reverse flow to prevent backflow of various fluids.

1 is a perspective view of a cylindrical tube constituting the reverse displacement of the present invention.

2 is a perspective view of a cut cylindrical tube constituting the reverse finger of the present invention.

3 is a block diagram of a thin film constituting the reverse displacement of the present invention.

4 and 5 are perspective views showing the action of the reverse displacement of the present invention.

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Figure 6 is a longitudinal sectional view of the shoe equipped with a reverse finger of the present invention.

Figure 7 is a cross-sectional view of the shoe equipped with a reverse finger of the present invention.

※ Explanation of codes for main parts of drawing
1: cylindrical pipe 1a, 2a: split pipe
2: thin film 3: intake pipe
4: exhaust pipe 5: pump
6: shoe body A: cutting angle

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100: reverse 200: shoes

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Claims (4)

A flexible thin film 2 is attached to the inside of the cylindrical tube 1, and the thin film 2 has a triangular shape with a rounded corner and rolled round in a roll shape so that all of its outer circumferential surfaces contact the inner surface of the cylindrical tube 1. Reverse displacement using a thin film, characterized in that attached to the inner surface of the cylindrical tube (1) by two sides of the phase. delete An exhaust pipe 4 is installed at the inner end of the shoe body 6, and an intake pipe 3 is provided at the inner rear end of the shoe body 6 so as to communicate with the outside, and the exhaust pipe 4 and the intake pipe 3 are provided. Is connected by a pump (5) installed in the inner heel portion of the shoe body (6), characterized in that the reverse displacement 100 of claim 1 is installed in the exhaust pipe (4) and the intake pipe (3), respectively Shoes with one reverse. delete

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