WO2018221945A1 - Portable tumbler having hydrogen-containing water production function - Google Patents

Abstract

A portable tumbler having a hydrogen-containing water production function is disclosed. According to one aspect of the present invention, provided is the portable tumbler having the hydrogen-containing water production function, the tumbler comprising: a housing part having a first accommodation space, formed therein, for accommodating water; an outer container part coupled to the housing part so as to form, at the upper side of the housing part, a second accommodation space for accommodating the water; a lid part for closing the upper surface of the outer container part; an inner container part simultaneously coupled to a first connection passage, which is formed while passing through the upper surface of the housing part and connected to the first accommodation space, and an open hole formed while vertically passing through the lid part, so as to connect the first accommodation space to an outer space of the outer container part such that a supply passage for water supplied to the first accommodation space and a discharge passage for oxygen and ozone generated in the first accommodation space are provided; an ion exchange membrane formed while passing through the upper surface of the housing part, so as to close a second connection passage for connecting the first accommodation space to the second accommodation space; and an electrolysis part including an anode disposed at the first accommodation space side and a cathode disposed at the second accommodation space side with respect to the ion exchange membrane in the second connection passage.

Description

Portable tumbler with hydrogen water production

The present invention relates to a portable tumbler equipped with a hydrogen-containing water production function.

It is known that the physical condition of a person can be closely related to the drinking water of a person.

First, the human body regulates the osmotic pressure in the cell through the balance of metal ions. To this end, various minerals, such as calcium, potassium, and magnesium, which are necessary for the human body, can be supplied through the drinking water. Can be.

Next, since most of the human body is made of acid, it is preferable to drink slightly alkaline water to neutralize it. In addition to neutralizing efficacy, weak alkaline water is known to help cancer, to help antioxidants and enzymes in the body, and to enhance immunity by improving food decomposition and digestive absorption.

Hydrogen-containing water not only exerts the above-mentioned effects, but hydrogen-containing water also has a radioactive detoxification effect when the contamination of radioactive bodies due to radioactive leakage at the time of the Fukushima nuclear power plant accident in Japan in 2011 became a serious social problem internationally. As it turns out, the international community's demand for hydrogen-containing water is accelerating rapidly.

Hydrogen-containing water can also convert free radicals into water that can be absorbed or released into the body. Specifically, since hydrogen can cross the cell membrane, it can bind to harmful free radicals in the cell, and the free radicals combined with hydrogen can be converted to water. Therefore, the hydrogen-containing water has been found to bring excellent effects to various diseases such as cancer, diabetes, cerebral infarction caused by excessive free radicals in the body and is in the spotlight.

Embodiments of the present invention may provide a portable tumbler equipped with a hydrogen-containing water production function.

According to an aspect of the invention, the housing portion is formed a first receiving space for receiving water therein; An outer container part coupled to the housing part to form a second accommodation space accommodating water on the housing part; A lid part for closing an upper surface of the outer container part; The imaginary first accommodating space is formed in the outer space of the outer container by being coupled to the first connecting passage formed through the upper surface of the housing part to be connected to the first accommodating space and the opening hole formed through the lid part. An inner container portion providing a supply passage of water supplied to the first accommodation space and a discharge passage of oxygen and ozone generated in the first accommodation space by connecting to the first accommodation space; An ion exchange membrane formed through the upper surface of the housing to close a second connection passage connecting the first accommodation space to the second accommodation space; And an electrolysis unit including a positive electrode disposed at the first accommodating space side and a negative electrode disposed at the second accommodating space side with respect to the ion exchange membrane in the second connection passage. A portable tumbler with function can be provided.

A door coupled to the lid part to open and close a drinking appliance formed by penetrating the lid part up and down; And a cover member detachably coupled to the lid part to close the open top surface of the opening hole, the cover member extending from the inner circumferential surface of the opening hole to the opposite side of the drinking opening so that the open top surface of the opening hole is connected to the cover member. In the closed state by the discharge port that can provide a discharge passage of the oxygen and ozone generated in the first receiving space may be formed through the lid portion horizontally.

It may further include a mist injector coupled to the lid portion and spraying hydrogen-containing water generated in the second accommodation space in a mist state.

A flexible tube coupled to the lid to provide a discharge passage of hydrogen collected at an upper portion of the second receiving space; And a mask coupled to the outer end of the flexible tube and in close contact with the face of the human body.

It may further include a connecting portion of the double pipe structure connecting the housing portion and the inner container portion.

The inner container portion, the pipe member is inserted into the outer tube and the opening of the connecting portion; And a funnel member inserted into the inner tube of the connection part and having a top outer circumferential surface in close contact with an inner circumferential surface of the pipe member. have.

The filter unit may further include a filter seated on the funnel member and filtering ozone discharged from the first accommodation space.

According to embodiments of the present invention, the water receiving space has a structure that is separated up and down around the second connecting passage in which the ion exchange membrane is installed, the hydrogen-containing water is generated in the second receiving space, and is generated incidentally thereto Oxygen and ozone may be generated in the first accommodation space and discharged to the outside through the inner container. In addition, the inner container may be utilized as a supply passage of water supplied to the first accommodation space. That is, the inner container may be utilized as a supply passage of water as well as a discharge passage of oxygen and ozone.

According to some embodiments of the present invention, the inner container portion is provided with a funnel member having an upper outer circumferential surface in close contact with an inner circumferential surface of the pipe member and a first gas discharge groove formed on the upper outer circumferential surface, such that water supply and gas discharge are caused through the inner container portion. It can be made smoothly.

According to some embodiments of the present disclosure, since the inner container portion may be equipped with a filter unit for filtering ozone, oxygen generated in the first accommodation space may be discharged in a state where ozone is removed. In addition, when the user drinks the hydrogen-containing water through the drinking apparatus, it is possible to prevent the intake of some ozone discharged without being filtered by the filter unit during the drinking by closing the open upper surface of the opening hole with the cover member, Oxygen and ozone generated in the first accommodation space may be bypassed through the outlet even when the open top surface of the open hole is closed. In particular, it is possible to minimize the possibility of inhalation of ozone during drinking by having the outlet of the outlet formed on the opposite side of the drinking appliance.

1 is a perspective view showing a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention.

2 is a cross-sectional view showing a vertically cut portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention.

3 is a view showing a housing part.

4 is a cross-sectional view taken along line II ′ of FIG. 3.

FIG. 5 is an enlarged view of a portion A of FIG. 3.

6 is a view showing the outer container.

7 is a view showing a lid portion.

8 is a view showing a connecting portion.

9 is a perspective view showing the inner container in an exploded state.

10 is a perspective view showing the filter unit in a disassembled state.

FIG. 11 is a partial cutaway perspective view of the filter unit of FIG. 10 cut vertically; FIG.

12 is a partial cutaway perspective view of the valve assembly cut vertically.

13 is a cross-sectional view showing a state in which water is injected into a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention.

14 is a cross-sectional view showing a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention in a state in which hydrogen-containing water is being produced.

FIG. 15 is an enlarged view of a portion B of FIG. 14.

16 is a cross-sectional view showing a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention for drinking through a drinking appliance.

17 is a cross-sectional view showing another example in which a mist injector is provided with a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention.

18 is a cross-sectional view illustrating another example in which a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention is provided with a flexible tube and a mask.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the present application, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components, unless specifically stated otherwise. In addition, throughout the specification, "on" means to be located above or below the target portion, and does not necessarily mean to be located above the gravity direction.

In addition, the coupling does not only mean that the components are in direct contact with each other in the contact relationship between the components, but also other components are interposed between the components, The concept is to be used until the components are in contact with each other.

Since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to the illustrated.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

Hereinafter, a preferred embodiment of a portable tumbler equipped with a hydrogen-containing water production function according to the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding components are the same drawings. The numbering and duplicate description thereof will be omitted.

1 is a perspective view showing a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention, Figure 2 is a vertically cut portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention It is sectional drawing shown.

1 and 2, the portable tumbler 10 equipped with a hydrogen-containing water production function according to an embodiment of the present invention includes a housing part 100, an outer container part 200, a lid part 300, The connection part 400 may include an inner container part 500 and a filter part 600.

3 is a view showing a housing part.

2 and 3, a male screw 110 may be formed on the upper outer circumferential surface of the housing part 100 to screw the outer container part 200. On the other hand, unless there is a separate description of the present specification, the upper and lower divisions are considered to be set on the basis of FIG.

The first accommodating space 120 may be formed in the housing part 100. The first accommodating space 120 may be divided into an upper space 121 and a lower space 125 with respect to the separator plate 130. The upper space 121 may be connected to the first connection passage 122 and the second connection passage 123 formed through the upper surface of the housing part 100, and the lower space 125 may be formed as an enclosed space. Can be.

4 is a cross-sectional view taken along line II ′ of FIG. 3.

Referring to FIG. 4, the first connection passage 122 may be disposed on the central axis of the housing part 100, and the plurality of second connection passages 123 may be radially centered on the first connection passage 122. It can be arranged as.

The separating plate 130 may be coupled to the housing part 100 through fastening means (not shown) such as a bolt, and formed of a transparent material so that light may propagate from the lower space 125 to the upper space 121. Can be.

FIG. 5 is an enlarged view of a portion A of FIG. 3.

Referring to FIG. 5, the ion exchange membrane 140 and the electrolysis unit 150 may be coupled to the housing unit 100.

The ion exchange membrane 140 may not pass water but may pass cations such as hydrogen ions (H ⁺ ).

The ion exchange membrane 140 may be a cation exchange membrane.

The ion exchange membrane 140 may be coupled to the housing part 100 to close the second connection passage 123. Therefore, the water contained in the second accommodating space 210 cannot be moved to the first accommodating space 120 by being blocked by the ion exchange membrane 140, and the water accommodated in the first accommodating space 120 is the second accommodating space. You will not be able to move to 210.

The electrolysis unit 150 may electrolyze water contained in the first accommodation space 120 and the second accommodation space 210.

The electrolysis unit 150 may include a negative electrode 151 and a positive electrode 153. The negative electrode 151 and the positive electrode 153 may be respectively coupled to the housing part 100 and disposed in the second connection passage 123. Specifically, the negative electrode 151 may be disposed on the second receiving space 210 side of the second connection passage 123 about the ion exchange membrane 140, and the positive electrode 153 may be the second connection passage 123. In the first receiving space 120 with respect to the ion exchange membrane (140).

Chemical reaction formulas of the negative electrode 151 and the positive electrode 153 are as follows.

Scheme 1

^{_{Cathode: 4H 2 O + 4e - →}} 2H 2 + 4OH -

Positive _{electrode: 2H 2 0 → O 2 +} 4H + + 4e -

Referring to Scheme 1, hydrogen (H ₂ ) and hydroxide ions (OH ⁻ ) may be generated in the second receiving space 210 side of the second connection passage 123, and the second connection passage 123 may be formed. In the accommodation space 120 side, oxygen (O ₂ ) may be generated. Meanwhile, some of the oxygen (O ₂ ) generated in the first accommodation space 120 side of the second connection passage 123 reacts with water contained in the first accommodation space 120 to generate ozone ( O ₃ ).

Scheme 2

_{O 2 + H 2 0 → O} 3 + 2H + + 2e -

Referring to Schemes 1 and 2, in addition to oxygen (O ₂ ), hydrogen ions (H ⁺ ) may be generated at the side of the first receiving space 120 of the second connection passage 123. The hydrogen ions (H ⁺ ) may be transferred to the second receiving space 210 of the second connection passage 123 through the ion exchange membrane 140 and converted into hydrogen (H ₂ ) at the negative electrode 151. Since hydrogen (H ₂ ) has high solubility in water, the hydrogen (H ₂ ) may be dissolved in water contained in the second accommodating space 210 to generate hydrogen-containing water, and particularly, the second accommodating space 210 may have hydroxide ions (OH ⁻ ). Since they exist together, it is possible to produce hydrogen-containing water which is slightly alkaline. In contrast, since oxygen (O ₂ ) is mostly present in a gaseous state at room temperature, the pressure of the first accommodation space 120 may be increased. On the other hand, ozone (O ₃ ) is unstable in itself, so most of it can be dissolved in water, decomposed or spontaneously reduced and converted to oxygen (O ₂ ). However, ozone (O ₃ ), even in a very small amount may cause discomfort or harmful effects on the human body due to the peculiar smell, an appropriate treatment method is required.

The light source 160, the battery 165, the gyro sensor 170, and the circuit board 175 may be mounted in the housing part 100, specifically, the lower space 125.

The light source 160 may emit light by electricity supplied from the battery 165. The light source 160 is disposed below the second connection passage 123 in the lower space 125 such that the light emitted from the light source 160 is separated from the plate 130, the upper space 121, and the second connection passage ( It may propagate to the second receiving space 210 through the 123 in sequence.

The battery 165 may receive and store electricity from an external power source through a power terminal 180 (refer to FIG. 1) formed on an outer side surface of the housing unit 100. The power supply terminal 180 may be a USB charging terminal. The battery 160 may supply electricity to various electric devices mounted on the housing part 100, for example, the electrolysis part 150, the light source 160, and the like.

The gyro sensor 170 may detect an inclined angle based on the upright state of the housing part 100.

When the angle detected by the gyro sensor 170 is greater than or equal to a preset value, the circuit board 175 may stop the electrolysis reaction of water by cutting off electricity supplied from the battery 165 to the electrolysis unit 150.

6 is a view showing the outer container.

2 and 6, a female screw 220 may be formed on the lower inner circumferential surface of the outer container 200 to be screwed to the housing 100. The female screw 220 may engage the male screw 110. The outer container part 200 may be easily coupled to the housing part 100 by detachable coupling to facilitate the internal cleaning. Meanwhile, since the first connection passage 122 is disposed on the central axis of the housing part 100, the outer container part 200 is rotated when the outer container part 200 is rotated to be screwed to the housing part 100. The inner container portion 500 coupled through the lid portion 300 may be naturally inserted into the first connection passage 122 and coupled thereto.

The outer container part 200 may be coupled to the housing part 100 to form a second accommodation space 210 on the upper side of the housing part 100. The second accommodation space 210 may be connected to the first accommodation space 120 through the second connection passage 123.

The outer container part 200 may be formed in a hollow cylindrical or columnar shape that is opened up and down.

The outer container part 200 may be formed of a transparent material so that the light irradiated from the light source 160 to the second receiving space 210 can be seen from the outside.

7 is a view showing a lid portion.

2 and 7, an opening hole 310 may be formed in the lid part 300 to vertically penetrate the lid part 300.

The lid part 300 may be detachably coupled to the upper end of the outer container part 200, and may close the open upper surface of the outer container part 200.

The lid 300 may be provided with a drinking appliance 320 penetrating up and down the lid 300, the lid 300 is coupled to the door 330 for opening and closing the drinking appliance 320 is coupled to the user It is possible to drink the hydrogen-containing water through the drinking appliance 320 without separating the portion 300 from the outer container portion 200. In this case, in order to prevent the user from inhaling ozone (O ₃ ) that may be discharged through the opening hole 310 during drinking, the cover member 340 closing the open upper surface of the opening hole 310 in the lid part 300. ) Can be detachably combined. In addition, even in the state in which the opening hole 310 is closed by the cover member 340, the lid part 300 bypasses and discharges oxygen (O ₂ ) and ozone (O ₃ ) generated in the first accommodation space 120. The outlet 350 may be formed to be. The outlet 350 may be formed by horizontally penetrating the lid portion 300 so as to extend horizontally from the inner circumferential surface of the opening hole 310 to the outer circumferential surface of the lid portion 300. In particular, the outlet of the outlet 350 is disposed on the opposite side of the drinking opening 320 around the opening hole 310 to minimize the possibility of the user inhaling ozone (O ₃ ) while drinking hydrogen-containing water.

8 is a view showing a connecting portion.

2 and 8, the connection part 400 may be inserted into the first connection path 122 to connect the housing part 100 and the inner container part 500.

The connection part 400 may be formed in a double pipe structure. That is, the connection part 400 may include an outer tube 410 and an inner tube 420. The outer tube 410 may be inserted into the first connection passage 122 to be coupled to the housing part 100, and the inner tube 420 may be disposed inside the outer tube 410 to provide the first bracket 430. It can be coupled to the outer tube 410 through.

9 is a perspective view showing the inner container in an exploded state.

2 and 9, the inner container part 500 is coupled to the first connection passage 122 and the opening hole 310 to supply the water supply passage and the first accommodation space to the first accommodation space 120. The discharge passage of oxygen (O ₂ ) and ozone (O ₃ ) generated at 120 may be provided at the same time. The inner container part 500 may be coupled to the first connection passage 122 of the housing part 100 through the connection part 400.

The inner container part 500 may include a pipe member 510, a funnel member 520, and a support member 530.

The pipe member 510 may be coupled to the outer tube 410 and extend upward.

The funnel member 520 may be coupled to the inner tube 420, the upper outer peripheral surface of the funnel member 520 may be in close contact with the inner peripheral surface of the pipe member 510. On the other hand, the first gas discharge groove 521 may be formed on the upper outer peripheral surface of the funnel member 520. The first gas discharge groove 521 may extend upward and downward to form a shape in which both ends are open. Therefore, the water supplied to the funnel member 520 through the open upper surface of the pipe member 510 may move to the first receiving space 120 through the inner tube 420, in the first receiving space 120 Oxygen (O ₂ ) and ozone (O ₃ ) generated and moved through the space between the outer tube 410 and the inner tube 420 move upward through the space between the pipe member 510 and the funnel member 520. Thus, the first gas discharge groove 521 and the pipe member 510 may be discharged to the outside through the open upper surface in order. On the other hand, the first gas discharge groove 521 may be formed in plurality.

The support member 530 may be formed in an annular shape and may be coupled to the upper outer circumferential surface of the pipe member 510, and may include a plurality of spokes 531 extending radially to the inner circumferential surface of the outer container part 200. As a result, the support member 530 can be stably supported so that the pipe member 510 does not shake even when the lid part 300 is separated from the outer container part 200.

FIG. 10 is a perspective view of the filter unit in an exploded state, and FIG. 11 is a partial cutaway perspective view of the filter unit of FIG. 10.

2, 10, and 11, the filter unit 600 may be coupled to the inner container 500, and may filter ozone (O ₃ ) generated in the first accommodating space 120. .

The filter unit 600 may include a lower case 610, an upper case 620, a filter member 630, a sealing member 640, and a valve assembly 650.

The lower case 610 may be detachably coupled to the upper case 620, and may cooperate with the upper case 620 to form a third accommodating space for accommodating the filter member 630 and the valve assembly 650. have. The lower case 610 and the upper case 620 may be detachably coupled to each other, thereby facilitating replacement of the filter member 630 and maintenance of the valve assembly 650.

The lower case 610 may be seated on the funnel member 520.

The lower case 610 may include a lower pipe region 611, a tapered region 613, an outer pipe region 617, and an inner pipe region 619.

The lower pipe region 611 may be formed in a pipe shape. The lower pipe region 611 may be inserted into the funnel member 520.

The tapered region 613 extends upward from the upper end of the lower pipe region 611 and may be formed in a pipe shape in which diameter increases as the height thereof increases. The tapered region 613 may be in close contact with the inner circumferential surface of the funnel member 520.

The outer pipe region 617 may extend upward from the upper end of the tapered region 613 and may have a pipe shape. A female screw is formed on the inner circumferential surface of the outer pipe region 617 and may be screwed to the upper case 620 having a male screw formed on the outer circumferential surface. As another example, male threads may be formed on the outer circumferential surface of the outer pipe region 617 and female threads may be formed on the inner circumferential surface of the upper case 620 to be screwed together.

The inner pipe region 619 may protrude from the inner circumferential surface of the tapered region 613 to extend upward, and may have a pipe shape. The inner space of the inner pipe region 619 may be connected to the inner space of the lower pipe region 611. Meanwhile, the second gas discharge groove 614, the first through hole 615, and the second through hole 616 may be formed in the tapered region 613. The second gas discharge groove 614 is formed on the outer circumferential surface of the tapered region 613 to pass the oxygen O ₂ and ozone O ₃ discharged through the first gas discharge groove 521 into the second through hole 616. Can be guided. The first through hole 615 may be formed at the lower end of the tapered region 613. The first through hole 615 may connect an inner space of the lower pipe region 611 and an inner space of the inner pipe region 619. The second through hole 616 is formed in the tapered region 613 to connect the inner space of the inner pipe region 619 to the second gas discharge groove 614. As a result, oxygen (O ₂ ) and ozone (O ₃ ) discharged through the first gas discharge groove (521) are guided along the second gas discharge groove (614) and then pass through the second through hole (616). It may flow into the inner space of the inner pipe region 619. Meanwhile, a plurality of second gas discharge grooves 614 and second through holes 616 may be formed.

The upper case 620 may be formed in a pipe shape opened up and down.

An open upper surface of the upper case 620 may be coupled to the mesh network 621 of the net structure.

The filter member 630 may be disposed above the third accommodation space formed by the lower case 610 and the upper case 620.

Filter member 630 can be filtered to a first receiving space ozone (O ₃₎ in an oxygen (O ₂₎ and ozone (O ₃₎ to be discharged (120), and passes through the oxygen (O _2). Oxygen (O ₂ ) passing through the filter member 630 may be discharged to the outside through the mesh network 621.

The sealing member 640 may be coupled to the outer circumferential surface of the lower case 610 or the upper case 620. The sealing member 640 has a clearance between the pipe member 510 and the filter unit 600 without the oxygen (O ₂ ) and ozone (O ₃ ) discharged from the first accommodation space 120 without passing through the filter unit 600. It can be prevented from being discharged through.

The sealing member 640 may be formed of, for example, an O-ring made of silicon.

The valve assembly 650 may be disposed below the third receiving space formed by the lower case 610 and the upper case 620.

The valve assembly 650 may open or close the open upper surface of the inner pipe region 619 according to the pressure of the first accommodation space 120. In detail, the valve assembly 650 may close the open upper surface of the inner pipe region 619 when the pressure of the first accommodation space 120 is less than the preset value, and the pressure of the first accommodation space 120 may be closed. When the value is equal to or greater than the preset value, the opened upper surface of the inner pipe region 619 may be opened. As a result, the valve assembly 650 may prevent the water contained in the first accommodating space 120 from pouring through the inner container part 500 even when the tumbler 10 is shaken or fallen, and the first accommodating space 120 is provided. Various devices disposed in or adjacent to the first accommodating space 120, for example, the ion exchange membrane 140, may be damaged due to the high pressure formed by accumulation of oxygen (O ₂ ) and ozone (O ₃ ) generated in Can be prevented. The pressure of the first accommodating space 120, which serves as a reference for opening and closing the opened upper surface of the inner pipe region 619 by the valve assembly 650, is determined by physical properties of various devices disposed in or adjacent to the first accommodating space 120, For example, it may be set in consideration of the breaking strength of the ion exchange membrane 140.

12 is a partial cutaway perspective view of the valve assembly cut vertically.

Referring to FIG. 12, the valve assembly 650 may include a stopper 651, a second bracket 653, and an elastic member 655.

The stopper 651 may be disposed above the inner pipe region 619.

The stopper 651 may be formed in a shape capable of closing the open upper surface of the inner pipe region 619.

The second bracket 653 may be disposed in the third accommodating space formed by the lower case 610 and the upper case 620 to constrain the vertical movement. The second bracket 653 needs to be vertically constrained to support the elastic member 655 that presses the stopper 651 toward the inner pipe region 619. The second bracket 653 may be fixed to the inner circumferential surface of the lower case 610 or the upper case 620, but is not fixed to the lower case 610 and the upper case 620, as shown in the drawing, and the filter member 630. ) May be in close contact with the inner circumferential surface of the tapered region 613 to constrain the vertical movement. In the latter case, replacement of the filter member 630 and maintenance of the valve assembly 650 may be relatively easy.

The second bracket 653 may be formed in a pipe shape having a flange 654 protruding from the upper inner circumferential surface to support the elastic member 655.

The elastic member 655 may be coupled to the second bracket 653, and may press the stopper 651 toward the inner pipe region 619. The physical properties of the elastic member 655, such as an elastic modulus, may be determined according to the pressure of the first accommodation space 120, which serves as a reference for opening and closing the opened upper surface of the inner pipe region 619.

13 is a cross-sectional view showing a state in which water is injected into a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention.

Referring to FIG. 13, the user may inject water through the open upper surface of the pipe member 510 after separating the cover member 340 and the filter part 600 from the inner container part 500. Water injected through the open upper surface of the pipe member 510 may be introduced into the upper space 121 through the inner space of the funnel member 520 and the inner tube 420 in turn. At this time, the gas filling part of the upper space 121 is a space between the outer tube 410 and the inner tube 420, a space between the pipe member 510 and the funnel member 520 and the first gas discharge groove ( It may be discharged to the outside through the open upper surface of the pipe member 510 in turn through the 521. The user may combine the filter unit 600 to the inner container 500 when water injection is completed. When the hydrogen-containing water production time has elapsed while the filter unit 600 is coupled to the inner vessel 500, oxygen (O ₂ ) and ozone (O ₃ ) are formed at the upper space 121 side of the second connection passage 123. ) May continue to be generated. However, since the upper surface of the inner pipe region 619 is closed by the stopper 651, the oxygen O ₂ and the ozone O ₃ accumulate in the upper space 121 so that the pressure of the upper space 121 is increased. Can be increased.

FIG. 14 is a cross-sectional view illustrating a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention in a state in which hydrogen-containing water is being produced. FIG. 15 is an enlarged view of a portion B of FIG. 14.

Referring to FIGS. 14 and 15, when the pressure in the upper space 121 increases and exceeds the predetermined value, the stopper 651 closing the upper surface of the inner pipe region 619 compresses the elastic member 655. As it rises, the upper surface of the inner pipe region 619 can be opened. As a result, oxygen (O ₂ ) and ozone (O ₃ ) accumulated in the upper space 121 or newly generated in the upper space 121 are spaces between the outer tube 410 and the inner tube 420, and the pipe Filter through the space between the member 510 and the funnel member 520, the first gas exhaust groove 521, the second gas exhaust groove 614, the second through hole 616, and the inner pipe region 619. It may flow into the member 630. Oxygen (O _2), but it may be through the filter member 630, the mesh network 621 to pass through the exit to the outside, ozone (O ₃₎ may be filtered by the filter element 630. Meanwhile, oxygen (O ₂ ) and ozone (O ₃ ) newly accumulated in the upper space 121 or newly generated in the upper space 121 are different from each other, that is, the inner tube 420 and the inside of the funnel member 520. The filter member 630 may be introduced into the filter member 630 through the space, the first through hole 615, and the inner pipe region 619.

16 is a cross-sectional view showing a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention for drinking through a drinking appliance.

Referring to FIG. 16, the user may open the drinking appliance 320 by manipulating the door 330 and drink the hydrogen-containing water through the drinking appliance 320. In this case, the open upper surface of the opening hole 310 may be closed by the cover member 340, and oxygen (O ₂ ) and ozone (O ₃ ) generated in the first accommodating space 120 during the drinking may be closed. It may be discharged by bypass through the discharge port 350 formed in the (300).

17 is a cross-sectional view showing another example in which a mist injector is provided with a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention.

Referring to FIG. 17, a mist injector 360 for spraying hydrogen-containing water generated in the second accommodating space 210 in a mist state may be coupled to the lid part 300. The user may operate the mist injector 360 to spray the hydrogen-containing water to the skin in a mist state to achieve a cosmetic effect.

18 is a cross-sectional view showing another example in which a portable tumbler equipped with a hydrogen-containing water production function according to an embodiment of the present invention is provided with a flexible tube and a mask.

Referring to FIG. 18, a lid 300 may be coupled to a flexible tube 370 and a mask 380 that a user can use to suck hydrogen. The flexible tube 370 may be coupled to the lid part 300 to provide a discharge passage of hydrogen collected on the upper portion of the second receiving space 210, and the mask 380 may be outside the flexible tube 370. Is coupled to the end can be in close contact with the user's face.

As mentioned above, although preferred embodiment of this invention was described, the person of ordinary skill in the art should add, change, delete, add, etc. the component within the range which does not deviate from the idea of this invention described in the claim. The present invention may be modified and changed in various ways, which will also be included within the scope of the present invention.

[Description of the code]

10: tumbler 100: housing portion

110: external thread 120: first receiving space

121: upper space 122: first connecting passage

123: second connecting passage 125: lower space

130: separator 140: ion exchange membrane

150: electrolytic unit 151: negative electrode

153: positive electrode 160: light source

165: battery 170: gyro sensor

175: circuit board 180: power supply terminal

200: outer container portion 210: second receiving space

220: female thread 300: lid portion

310: opening hole 320: drinking equipment

330: door 340: cover member

350: outlet 360: mist injector

370: flexible tube 380: mask

400: connecting portion 410: outer tube

420: inner tube 430: first bracket

500: inner container 510: pipe member

520: funnel member 521: first gas discharge groove

530: support member 531: spoke

600: filter unit 610: lower case

611: lower pipe area 613: taper area

614: second gas discharge groove 615: first through hole

616: second through hole 617: outer pipe region

619: inner pipe area 620: upper case

621: mesh network 630: filter member

640: sealing member 650: valve assembly

651: stopper 653: second bracket

654: flange 655: elastic member

Claims (7)

1. A housing part having a first accommodation space accommodating water therein;

   An outer container part coupled to the housing part to form a second accommodation space accommodating water on the housing part;

   A lid part for closing an upper surface of the outer container part;

   The imaginary first accommodating space is formed in the outer space of the outer container by being coupled to the first connecting passage formed through the upper surface of the housing part to be connected to the first accommodating space and the opening hole formed through the lid part. An inner container portion providing a supply passage of water supplied to the first accommodation space and a discharge passage of oxygen and ozone generated in the first accommodation space by connecting to the first accommodation space;

   An ion exchange membrane formed through the upper surface of the housing to close a second connection passage connecting the first accommodation space to the second accommodation space; And

   Hydrogen-containing water production function characterized in that it comprises an electrolysis unit including a positive electrode disposed on the side of the first accommodating space and the negative electrode disposed on the side of the second accommodating membrane in the second connection passage; It is equipped with a portable tumbler.
2. The method of claim 1,

   A door coupled to the lid part to open and close a drinking appliance formed by penetrating the lid part up and down; And

   A cover member is detachably coupled to the lid to close the open upper surface of the opening.

   An outlet opening extending from the inner circumferential surface of the opening to the opposite side of the drinking opening so as to provide a discharge passage of oxygen and ozone generated in the first accommodation space even when the open top surface of the opening is closed by the cover member; Portable tumbler with a hydrogen-containing water production function, characterized in that formed through the lid portion horizontally.
3. The method of claim 1,

   And a mist injector coupled to the lid and configured to spray hydrogen-containing water generated in the second accommodation space in a mist state in a mist state.
4. The method of claim 1,

   A flexible tube coupled to the lid to provide a discharge passage of hydrogen collected at an upper portion of the second receiving space; And

   Portable tumbler with a hydrogen-containing water production function characterized in that it further comprises a mask coupled to the outer end of the flexible tube is in close contact with the human face.
5. The method according to any one of claims 2 to 4,

   Portable tumbler with a hydrogen-containing water production function characterized in that it further comprises a connecting portion of the double pipe structure connecting the housing portion and the inner container.
6. The method of claim 5,

   The inner container portion,

   A pipe member inserted into the outer tube and the opening of the connection part; And

   Is inserted into the inner tube of the connecting portion, the upper outer peripheral surface includes a funnel member in close contact with the inner peripheral surface of the pipe member,

   Portable tumbler with a hydrogen-containing water production function, characterized in that the first gas discharge groove is formed on the outer peripheral surface of the upper end of the funnel member extending upward and downward.
7. The method of claim 6,

   Portable tumbler equipped with a hydrogen-containing water production function, characterized in that it further comprises a filter seated on the funnel member, and filtering ozone discharged from the first receiving space.

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