KR101781465B1 - Portable hydrogen water generating pot to be only gas emission when reduce pressure - Google Patents

Abstract

The present invention relates to a portable water producing container, comprising: a water storage portion in which water is stored; A hydrogen generator installed in the lower part of the water storage part to generate hydrogen in the electrolysis and supply the water in the water storage part to the water storage part; A lid which is coupled to the upper part of the water storage part and opens and closes the water storage part, A cap housing integrally formed on a bottom of the lid of the portion where the vent hole is formed; A cap detachably fixed to the cap housing and having a pore at a lower end thereof; A Teflon sheet inserted into the cap housing to be closely contacted to prevent pores; The other end of the Teflon sheet is attached to the bottom of the Teflon sheet, and the Teflon sheet is stretched. When the Teflon sheet is stretched and pressed at a pressure higher than the set pressure, it is twisted and reduced in length to open the pores. And a silicon nozzle for blocking open pores while the momentarily twisted portion is returned by the capillary tube. The present invention also relates to a portable,

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a portable,

The present invention relates to a portable water producing container, and more particularly, to a portable water producing container in which only a gas is released at a reduced pressure, .

Generally, hydrogenated water is produced by a method such as magnetization treatment, ultrasonic treatment, ore treatment, mineral treatment, or electrolysis. Of these methods, an electrolysis method is mainly used, and hydrogen water produced by electrolysis is referred to as electrolytic hydrogen water.

Electrolytic water, also called alkaline ionized water, can be used for drinking water, cosmetics, industrial and agricultural use. In addition, electrolytic water has an effect on dermatitis such as atopic dermatitis, skin whitening, aging, lifestyle-related diseases, and can be used in cosmetics due to anti-aging and moisturizing effects, has superior cleaning power than ultrapure water in semiconductor and display technology, It is effective in growth promotion and insect pest prevention effect in the field, and has excellent effect in long-term circular preservation of foods.

Because of this effect, a portable water-producing container capable of drinking water from a portable water bottle at the bottom of the portable water bottle and drinking water from the water bottle while carrying it in a bag or a backpack has been developed.

The structure of the portable water producing container is briefly described. A water storage portion is located in the middle, a water generating device is installed in the lower portion, and a lid for opening and closing the water storage portion is formed in the upper portion. The portable water producing container may be operated by the water generating device operated with water filled in the water reservoir and sufficiently dissolve the water in the water, and then the lid is opened and closed whenever necessary.

The shape of the lid can also be attached and detached at the top of the water reservoir by a bolt / nut method, or can be opened and closed in a one-touch manner.

Hydrogen generated in the hydrogen generating unit is partially dissolved in the water of the water storage part and partly collected in the upper part of the water storage part in the gaseous state. When the hydrogen in the gaseous state is collected, the pressure is increased. The water producing vessel may explode.

In order to prevent such an explosion, the water reservoir is supersaturated with hydrogen, and when the pressure rises, a nozzle capable of releasing gas to lower the pressure is formed. The nozzle is instantly opened when the hydrogen pressure of the water reservoir rises above the set pressure, and the hydrogen is instantaneously discharged, which closes as soon as the pressure is lowered.

However, the problem lies in the usage behavior of the portable water producing container. Since the water-producing container is portable, it is carried by hand or carried in a bag or a backpack, which can cause the bottom of the container to go up, and the position of the container to be tilted horizontally can not be specified. In other words, you can not expect the ideal usage pattern every time the lid part goes up and the bottom goes down.

In the ideal state where the lid part goes up and the bottom goes down, if the pressure of the water reservoir rises and the nozzle is opened, only hydrogen gas is relatively light on the upper part of the water reservoir and hydrogen gas is instantaneously released to lower the pressure and the nozzle is closed . On the contrary, if the lid part goes down and the bottom goes up and the pressure of the water storage part rises and the nozzle is opened, water is also present in the part of the lid where the nozzle is formed so that not only hydrogen gas but also water is discharged. If water is released from a bag or backpack, the bag or backpack will get wet, and the contents inside it will get wet, of course.

In this way, if the inside of a bag or a backpack is wetted, or if it flows down to the user's hands, the merchantability of the portable water producing container can not be avoided.

1. Korean Patent Laid-Open No. 10-2016-27145 (Feb. 2. Korean Patent Publication No. 10-2016-33467 (Feb. 3. Korean Patent No. 10-160484 (Mar. 14, 2014) 4. Korean Patent Publication 10-2015-92822 (2015.08.17)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a hydrogen storage tank, in which hydrogen gas is supersaturated in a water storage portion, To provide a portable water producing container.

In order to achieve the above object, the present invention provides a portable water producing container comprising: a water storage part for storing water; A hydrogen generator installed in the lower part of the water storage part to generate hydrogen in the electrolysis and supply the water in the water storage part to the water storage part; A lid which is coupled to the upper part of the water storage part and opens and closes the water storage part, A cap housing integrally formed on a bottom of the lid of the portion where the vent hole is formed; A cap detachably fixed to the cap housing and having a pore at a lower end thereof; A Teflon sheet inserted into the cap housing to be closely contacted to prevent pores; The other end of the Teflon sheet is attached to the bottom of the Teflon sheet, and the Teflon sheet is stretched. When the Teflon sheet is stretched and pressed at a pressure higher than the set pressure, it is twisted and reduced in length to open the pores. And a silicone nozzle for blocking the open pores when the instantly twisted portion is returned by the capillary tube.

The silicon nozzle may be a flexible silicone head which is formed as a hemispherical shape to block the pores, a rigid silicon plate that supports the Teflon sheet, a flexible silicone material which is momentarily twisted at a predetermined pressure or more while connecting the soft silicone head and the rigid silica board The cap housing is detachable from the cap housing to remove water introduced into the cap housing, and even when the cap housing is used for a long time, the silicon nozzle and the Teflon sheet are disassembled And the silicone nozzle and the Teflon sheet can be replaced. The soft silicone pillar has a diameter that is relatively thinner than a soft silicone head or a hard silicon plate, so that a pressure is applied to the soft silicone head, Pressure when delivered to the silicon pillar And a cross groove is formed on the upper surface of the hard silicon plate so that hydrogen gas passing through the pores of the cap can flow into the upper surface of the hard silicon plate, And the groove is formed to extend to the outer wall of the hard silicon plate.

According to the present invention, when hydrogen is supersaturated in the hydrogen-containing water container and the pressure rises, when the set pressure is exceeded, the decompression device is operated to release the gas in the water storage portion and the pressure is immediately lowered. At this time, Even if it is horizontal or horizontal, only water is released without releasing water. In addition, when the silicon nozzle blocking the pore is pressurized, it is operated by twisting due to its elasticity without being operated by the tactical part such as a spring, so that the function of the nozzle is stable and the structure becomes simple, Do not.

In addition, the hydrogen gas introduced into the cap housing through the pores is disconnected from the pressure of the water storage part when the pores are instantaneously introduced into the cap housing, so that the cap housing functions as a cushion of pressure, Hydrogen gas is not released instantaneously through the Teflon sheet but is released slowly and passes through a nozzle having a narrow cross section, so that the noise is not generated in a specific way, so that the hydrogen gas is quietly discharged, thereby reducing a user's discomfort.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view of a hydrogen-producing container according to the present invention.
2 is a sectional view of a main portion of a hydrogen-producing container according to the present invention.
3 is an exploded perspective view of a main portion of a hydrogen-producing container according to the present invention.
FIG. 4 is a cross-sectional view of an operation state of the hydrogen-producing container according to the present invention before the pores are opened.
FIG. 5 is a cross-sectional view of an operation state of a hydrogen-producing container according to the present invention, in which pores are open.

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

1 to 3, the portable water producing container according to the present invention comprises a water storage part 100, a hydrogen generating part 200, and a lid 300.

The water storage part 100 stores water that can be consumed, and the hydrogen generation part 200 is installed at a lower part of the water storage part to electrolyze the water in the water storage part to generate hydrogen to supply hydrogen to the water storage part . The lid 300 is detachably coupled to the upper end of the water reservoir so that the lid 300 can be opened or closed while drinking or drinking water. The lid may be provided with a separate access port on one side to allow the user to drink or pour water from the reservoir without opening the lid fully. A male thread portion ms is formed on the upper end of the water storage portion 100 and a female thread portion fs corresponding to the female thread portion ms is formed on the lid 300 so that the lid 300 can be attached and detached while rotating the lid 300 in normal and reverse directions. Since the water storage part 100 and the lid 300 are engaged with the male screw part ms and the female screw part fs, the water storage part 100 and the lid 300 are not opened even when pressure is generated in the water storage part 100 when they are engaged, .

A vent hole vh capable of discharging the hydrogen gas to the outside when hydrogen generated in the hydrogen generator 200 is dissolved in the water of the water reservoir 100 and is supersaturated to increase the pressure is provided on one side of the lid 300, Respectively.

A cap housing 310 protruding downward is formed at the bottom of the lid 300 formed with the vent hole vh. The lower portion of the cap housing 310 is opened, and the upper portion is communicated with the vent hole vh.

In the cap housing 310, a Teflon sheet 330 that closes the vent hole vh is seated. Here, the Teflon sheet means teflon, that is, a polyfluorinated ethylene-based synthetic fiber. The Teflon sheet may have the same diameter as the inner diameter of the cap housing 310 or may be slightly larger than the inner diameter of the Teflon sheet 330 so that the Teflon sheet may be in close contact with the vent hole vh and close to the inner wall of the cylindrical cap housing 310, So that it is strongly adhered to the inner wall of the cap housing 310. When the Teflon sheet 330 is pressurized, hydrogen gas passes through and water does not pass through.

If the outer circumferential surface of the Teflon sheet 330 is not in close contact with the inner wall of the cap housing 310, a gap may be formed between the cap housing 310 and the outer circumferential surface of the Teflon sheet 330 so that water may be discharged through the vent hole. It is preferable that the outer circumferential surface of the seat 330 strongly adheres to the inner wall of the cap housing.

The cap housing (310) is detachably press-fitted into the cap (320) that closes the cap housing with the bottom open. The cap 320 has an upper portion opened and a lower portion closed but a pore 322 formed at the lower end thereof. The outer diameter of the cap 320 is equalized to the inner diameter of the cap housing 310. The cap 320 may be fastened to the cap housing by a bolt / nut method. Alternatively, the cap 320 may be detachably attached to the inner wall of the cap housing 310 by forming a tab on the outer circumference of the cap 320, have.

A silicon nozzle 340 is mounted between the cap housing 310 and the cap 320. One end of the silicon nozzle is in close contact with the pores of the cap housing 310 and the other end is in contact with the bottom of the Teflon sheet 330 to support the Teflon sheet 330. The silicon nozzle 340 includes a soft silicone head 342 of a flexible material that blocks the pores and a rigid silicon plate 344 that supports the Teflon sheet and a soft silicone cylinder 346 .

The length of the silicon nozzle 340 is formed to be 1 to 2 mm longer than the distance from the Teflon sheet 330 seated on the cap housing 310 to the pores 322 of the press- And when the cap 320 is pressed, the soft silicone head 342 is compressed so as to be closely attached to the pores.

The soft silicone head 342 is formed in a hemispherical shape so that it functions as a substantial nozzle that can open and close the pores 322 with only slight changes. Since the soft silicone head 342 is a soft silicone having a stretchable material, the soft silicone head 342 is pressed when the pores are closed. Therefore, even when the soft silicone head or pores are processed, the pores 322 and the soft silicone head 342 No clearance is generated between them.

The rigid silicon plate 344 is relatively rigid to support the Teflon sheet 330 in a stable manner while the upper surface thereof is formed with a cross groove 348 through which the fluid can freely move. The cross grooves 348 are formed by forming a (+) flow path on the hard silicon plate 344, and may be formed in a straight line as long as the fluid can move only freely, can do. The hard silicon plate 344 is formed to be substantially equal to the diameter of the Teflon sheet 330 to support the entire surface of the Teflon sheet 330 so that the fluid introduced into the cap housing 310 can be moved to the cross groove 348 (Outer circumferential surface) of the hard silicon plate 344 is formed.

The soft silicon pillar 346 is a flexible silicone of a flexible material similar to the soft silicone head 342 and is formed as a straight column of relatively small diameter than the soft silicone head 342 or hard silicon plate 344. [ The reason why the soft silicon pillar 346 is formed to be relatively thin is that when a force acts on the soft silicon head 342 at a pressure higher than a set pressure when an external force is applied to the soft silicon pillar 342, The stress is concentrated on the relatively thin soft silicon pillars 346 so as to momentarily distort at a critical pressure (a pressure at which the soft silicon pillars twist instantaneously).

The operation of the portable water producing container according to the present invention will now be described.

When the hydrogen generated by the hydrogen generator 200 is dissolved in the water of the water reservoir 100 and is supersaturated to increase the pressure, the pressure is reduced by the soft silicone head 342 ).

When pressure is applied to the soft silicone head 342, pressure is also applied to the soft silicone post 346. When applied above the set pressure, the soft silicon pillar 346 will momentarily bend or twist from the state of FIG. 4 to the state of FIG. 5 without bearing the pressure. The bending or twisting of the soft silicon pillar 346 means that the length of the soft silicon pillar 346 is shortened so that the soft silicone head 342 retracts back and the pore 322 opens.

As shown in FIG. 5, when the pores 322 are opened, hydrogen gas supersaturated in the water storage part 100 flows into the cap housing 310 through the pores 322. The hydrogen gas introduced into the cap housing 310 flows into the Teflon sheet 330 along the cruciform groove 348 of the hard silicon plate 344 and the hydrogen gas introduced into the Teflon sheet 330 flows into the cap housing 310 through Teflon The sheet 330 passes through the fine pores of the tissue and is discharged to the outside through the vent hole vh.

A part of the water in the water storage part 100 may be introduced when the hydrogen gas is introduced into the cap housing 310 by opening the pores 322. The inflow water is discharged only by the hydrogen gas by the Teflon sheet 330, Is not released.

When the hydrogen gas flows into the cap housing 310 as the pores 322 are opened, the pressure of the water storage part 100 is instantaneously lowered, so that the soft silicone head 342 is restored by the restoring force and the pores 322 are closed do. Without the Teflon sheet 330, the hydrogen gas is released instantaneously through the vent hole (vh), but since the Teflon sheet is present, the hydrogen gas in the cap housing can not be discharged at once and relatively slowly escapes. An increase in pressure by the gas means that the gas is compressed.

When the supersaturated hydrogen gas pressure of the water storage part 100 rises and becomes equal to or higher than the set pressure, the hydrogen gas flows into the cap housing 310 when the pores 322 are opened, The pores are closed immediately by the restoring force of the silicon pillars 346 and the hydrogen gas in the cap housing 310 passes relatively slowly through the Teflon sheet 330 and the vent hole vh through the pores 322 And is discharged to the outside.

When the pores 322 are closed, the pressure of the water storage part 100 is cut off, so that the cap housing 310 and the water storage part 100 are separated from each other and are in different pressure states. In other words, the cap housing 310 functions as a cushion of pressure, which allows the hydrogen gas to escape by the Teflon sheet 330, but can not escape instantly and slowly escape until the pressure drops for a few seconds.

Without the Teflon sheet 330, the pores 322 are opened, and the hydrogen gas introduced is instantaneously discharged to the outside through the vent hole vh. This will result in a distinctive unpleasant noise when the fluid passes through nozzles with reduced cross-section, and an unpleasant feeling of discomfort to the user as well as to other people as it arouses as it arouses when drinking or following water. .

100: water storage part 200: hydrogen generating part
300: cap 310: cap housing
320: Cap 322: Porcelain
330: Teflon sheet 340: Silicon nozzle
342: soft silicone head 344: hard silicon plate
346: soft silicone pillars 348:
vh: vent hole

Claims (5)

In a portable water producing container,
A water storage part (100) in which water is stored;
A hydrogen generator 200 installed at a lower portion of the water reservoir to generate hydrogen in the electrolysis to supply water to the water reservoir;
A lid 300 coupled to the upper part of the water storage part to open and close the water storage part and to allow the water to be sucked /
A cap housing 310 integrally formed on a bottom of the lid of the vent hole;
A cap 320 which is press-fitted and fixed to the cap housing and has a pore at a lower end thereof;
A Teflon sheet 330 inserted into the cap housing to be closely contacted with the Teflon sheet to prevent pores therein;
The other end of the Teflon sheet is supported while the other end of the Teflon sheet is in close contact with the bottom of the Teflon sheet. When the Teflon sheet is stretched and pressed at a predetermined pressure or higher, the curved or pored holes are opened A silicone nozzle 340 for blocking open pores as a momentarily twisted portion is restored by a restoring force;
Wherein the gas is discharged only at the time of decompression.
The method according to claim 1,
Wherein the silicon nozzle has a soft silicone head which is formed of a hemispherical elastic material and blocks the pores, a rigid silicon plate that supports the Teflon sheet, a soft elastic material that is momentarily twisted at a pressure higher than a predetermined pressure while connecting the soft silicone head and the rigid silica board, Wherein the container is made of a silicon pillar.
The method according to claim 1,
The cap can be detached from the cap housing to remove water flowing into the cap housing. Even if the cap housing is used for a long time, the silicone nozzle and the Teflon sheet can be disassembled and cleaned, Wherein the gas is discharged only at the time of decompression.
3. The method of claim 2,
The soft silicone pill has a diameter smaller than that of a soft silicone head or a hard silicon plate, so that when pressure is applied to the soft silicone head and the pressure is transferred to the soft silicone column, pressure (stress) Wherein the gas is discharged only at the time of decompression.
3. The method of claim 2,
Wherein a cruciform groove is formed on the upper surface of the hard silicon plate so that the hydrogen gas passing through the pores of the cap can flow into the crucible and the crucible is extended to the outer wall of the rigid silicon plate. A water producing container.

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