KR101748749B1 - Portable deive for hydrogen water conversion - Google Patents

Abstract

The present invention relates to a bottle housing (100c) or general drinking water bottle for containing drinking water; And an electric device 110. The portable device 100 includes a lid 115, a waterproof packing 116 and a capsule inlet end 117. The portable device 100 is connected to a rechargeable capsule- An encapsulated lid portion 100a for use; An LED illuminating part 112 protruding from the central area of the fixed frame 113 and occupying about two thirds of the length of the LED illuminating part 112 formed at the end of the fixed frame 113, In addition to the stick type electrolytic apparatus including the LED illumination unit 112, a fixed frame 113 for fastening with the upper outer circumferential surface of the bottle housing 100c, and a spiral type fastening unit And a hydrogen generator unit 100b having a coupling end 114 for converting the drinking water into hydrogen water through the operation of the stick-type electrolytic unit installed in the upper end of the bottle housing 100c, ); The hydrogen generating unit 111 and the LED illuminating unit 112 in the hydrogen generator unit 100b formed between the lower portion of the capsule lid unit 100a and the upper portion of the bottle housing 100c, Type electrolytic device converts the drinking water enclosed and contained by the bottle housing 100c and the hydrogen generator unit 100b into hydrogen water and the hydrogen generator 111 is connected to the first electrode plate 111a and the second electrode And the electrode plates 111a and 111b are connected to the first pole power supply line 112a and the second pole power supply line 112b in the LED lighting unit 112, The first pole power supply line 112a and the second pole power supply line 112b which can be formed of one of a positive polarity and a negative polarity are connected to the PCB 115 of the capsular lid portion 100a, (not shown), a printed circuit board (PCB) or an optical PCB (not shown), and a rechargeable battery. The first electrode 112a and the second electrode The line 112b is connected to the rechargeable battery of the electric device 110 and is supplied with power under the control of the electric device 110. The line 112b is connected to the first electrode plate 111a and the second electrode plate 111b, Power is supplied to the generator 111 to generate hydrogen in the form of bubble generation by the hydrogen generator 111 so that the drinking water is converted into hydrogen water while being dissolved in the drinking water and the first electrode plate 111a And the second electrode plate 111b are formed to be inclined outward from the center, and when the first electrode plate 111a and the second electrode plate 111b are joined together, the tilting directions are the same, The pores of the first electrode plate 111a and the second electrode plate 111b are not overlapped with each other and the pore surface is maximized and the LED illumination unit 112 on the hydrogen generation unit 111 is arranged inside the LED rod 112 The first pole power supply line 112a and the second pole power supply line 112b are sequentially formed in a concentric shape, The LED lighting unit 112 provides a light source for visually confirming the state of generation of hydrogen by electrolysis generated in the hydrogen generator 111 located at the center inside the upper part of the water bottle among the stick type electrolysis apparatus, Each of the one electrode plate 111a and the second electrode plate 111b is formed in a plate shape having a curved bottom and extends downward through a lower surface of the fixed frame 113 to form a first electrode plate 111a, The first electrode plate 111a and the second electrode plate 111b have a structure in which they are in contact with the drinking water of the bottle housing 100c or the general drinking water bottles through supporting rods supporting the second electrode plates 111b, The supporting member is formed to be spaced apart from both sides with respect to a vertical center line where the first electrode plate 111a and the second electrode plate 111b overlap.
This provides an effect that the drinking water can be converted into the drinking water through the operation of the stick-type electrolytic apparatus mounted inside the top of the bottle (bottle).
In addition, the present invention provides an effect of preventing electrical hazards due to leakage of generated water in a closed capsule structure for more convenient use.
In addition, the present invention has an effect of providing a portable and easy-to-use method.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electrolytic water producing method, and more particularly, to an electrolytic water generating method using electrolytic water, And more particularly, to a handheld portable apparatus for preventing water from generating electric water from occurring due to leakage of generated water and adopting a portable and easy-to-use system.

Generally, hydrogenated water refers to water in which hydrogen is dissolved at a high dissolved amount.

These hydrogenated hydrogels prevent the aging process and prevent diabetes, hypertension, arteriosclerosis, cancer and dementia by antioxidative action of dissolved hydroxyl radicals (hydroxyl radicals) , Fatigue recovery, sexual function improvement, athletic ability improvement, strengthening of immunity, hangover is reported to be effective.

As a device capable of producing hydrogenated water, a hydrogen generating unit part for generating hydrogen water, which is conventionally considered to be a core, is bulky and has a large structure because of its very complicated structure, The volume of the device is large and is formed in the lower part of the container, resulting in a leakage of generated water.

1. Hydrogen-Water Generator (Patent Application No. 10-2013-0014417) 2. Hydrogen water conversion device of spring water or purifying water (Utility Model Application No. 20-2011-0008674)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a portable device for converting a drinking water into a drinking water by operating a stick-type electrolytic device mounted inside a bottle.

It is another object of the present invention to provide a portable device for converting hydrogen into water for preventing electrical hazards due to leakage of generated water in a closed capsule structure for more convenient use.

In addition, the present invention provides a handheld portable device for providing a portable and easy-to-use method.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the portable device for switching water for drinking water according to an embodiment of the present invention includes a bottle housing 100c for storing drinking water or a common drinking water bottle; And an electric device 110. The portable device 100 includes a lid 115, a waterproof packing 116 and a capsule inlet end 117. The portable device 100 is connected to a rechargeable capsule- An encapsulated lid portion 100a for use; An LED illuminating part 112 protruding from the central area of the fixed frame 113 and occupying about two thirds of the length of the LED illuminating part 112 formed at the end of the fixed frame 113, In addition to the stick type electrolytic apparatus including the LED illumination unit 112, a fixed frame 113 for fastening with the upper outer circumferential surface of the bottle housing 100c, and a spiral type fastening unit And a hydrogen generator unit 100b having a coupling end 114 for converting the drinking water into hydrogen water through the operation of the stick-type electrolytic unit installed in the upper end of the bottle housing 100c, ); The hydrogen generating unit 111 and the LED illuminating unit 112 in the hydrogen generator unit 100b formed between the lower portion of the capsule lid unit 100a and the upper portion of the bottle housing 100c, Type electrolytic device converts the drinking water enclosed and contained by the bottle housing 100c and the hydrogen generator unit 100b into hydrogen water and the hydrogen generator 111 is connected to the first electrode plate 111a and the second electrode And the electrode plates 111a and 111b are connected to the first pole power supply line 112a and the second pole power supply line 112b in the LED lighting unit 112, The first pole power supply line 112a and the second pole power supply line 112b which can be formed of one of a positive polarity and a negative polarity are connected to the PCB 115 of the capsular lid portion 100a, (not shown), a printed circuit board (PCB) or an optical PCB (not shown), and a rechargeable battery. The first electrode 112a and the second electrode The line 112b is connected to the rechargeable battery of the electric device 110 and is supplied with power under the control of the electric device 110. The line 112b is connected to the first electrode plate 111a and the second electrode plate 111b, Power is supplied to the generator 111 to generate hydrogen in the form of bubble generation by the hydrogen generator 111 so that the drinking water is converted into hydrogen water while being dissolved in the drinking water and the first electrode plate 111a And the second electrode plate 111b are formed to be inclined outward from the center, and when the first electrode plate 111a and the second electrode plate 111b are joined together, the tilting directions are the same, The pores of the first electrode plate 111a and the second electrode plate 111b are not overlapped with each other and the pore surface is maximized and the LED illumination unit 112 on the hydrogen generation unit 111 is arranged inside the LED rod 112 The first pole power supply line 112a and the second pole power supply line 112b are sequentially formed in a concentric shape, The LED lighting unit 112 provides a light source for visually confirming the state of generation of hydrogen by electrolysis generated in the hydrogen generator 111 located at the center inside the upper part of the water bottle among the stick type electrolysis apparatus, Each of the one electrode plate 111a and the second electrode plate 111b is formed in a plate shape having a curved bottom and extends downward through the lower surface of the fixed frame 113 to form a first electrode plate 111a, The first electrode plate 111a and the second electrode plate 111b have a structure in which they are in contact with the drinking water of the bottle housing 100c or the general drinking water bottles through supporting rods supporting the second electrode plates 111b, The supporting member is formed to be spaced apart from both sides with respect to a vertical center line where the first electrode plate 111a and the second electrode plate 111b overlap.

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The portable water-converting apparatus according to the embodiment of the present invention provides the effect of converting the drinking water into the hydrogen-containing water through the operation of the stick-type electrolytic apparatus mounted inside the top of the water bottle (bottle).

In addition, according to another embodiment of the present invention, the handheld portable device for converting hydrogen may provide an effect of preventing electrical hazards due to leakage of generated water in a closed capsule structure for more convenient use.

In addition, the portable device for hydrogen-water conversion according to another embodiment of the present invention has an effect of providing a portable and easy-to-use method.

1 is a cross-sectional view showing a portable device 100 for hydrogen-water conversion according to an embodiment of the present invention.
Fig. 2 is a view for explaining the configuration of the capsule-type lid portion 100a in the portable water-purifying device 100 of Fig.
FIG. 3 is a view for explaining the configuration of the hydrogen generator unit 100b of the portable water purifier 100 shown in FIG.
4 is a view for explaining the configuration of the hydrogen generator 111 of the hydrogen generator unit 100b of FIG.
5 is a view showing the internal configuration of the LED illumination unit 112 of the hydrogen generator unit 100b of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a cross-sectional view showing a portable device 100 for hydrogen-water conversion according to an embodiment of the present invention. Fig. 2 is a view for explaining the configuration of the capsule-type lid portion 100a in the portable water-purifying device 100 of Fig. FIG. 3 is a view for explaining the configuration of the hydrogen generator unit 100b of the portable water purifier 100 shown in FIG. 4 is a view for explaining the configuration of the hydrogen generator 111 of the hydrogen generator unit 100b of FIG. 5 is a view showing the internal configuration of the LED illumination unit 112 of the hydrogen generator unit 100b of FIG.

Referring first to FIG. 1, a portable device 100 for converting hydrogen into water includes a capsular lid 100a, a hydrogen generator unit 100b, and a bottle housing 100c.

The capsule type lid portion 100a includes the electric device portion 110 and includes the lid 115, the waterproof packing 116 and the capsule inlet end 117 so that the portable water purifying device 100 can be recharged To be used as a retractable capsule-type device in which the device is inserted.

The hydrogen generator unit 100b includes a stick type electrolytic apparatus including the hydrogen generator 111 and the LED illumination unit 112 as well as a fixing frame 113 for fastening to the upper outer peripheral surface of the bottle housing 100c, And a helical fastening end 114 corresponding to a universal fastening end capable of directly fastening a drinking water bottle.

That is, the hydrogen generator unit 100b is formed to convert the drinking water into hydrogen water through the operation of the stick-type electrolytic unit installed in the upper end of the bottle housing 100c.

Here, the stick-type electrolytic apparatus includes an LED lighting unit 112 that protrudes from a central region of the fixed frame 113 and occupies about two-thirds of the length of the fixed frame 113, (111).

On the other hand, a frame fixing end 113a formed of a flexible material is formed in an upper portion of the fixed frame 113 adjacent to the capsule lid portion 100a.

In the hydrogen generator unit 100b formed between the lower portion of the capsule-type lid unit 100a and the upper portion of the bottle housing 100c through the above-described structure, the hydrogen generator unit 111, the sticker including the LED illumination unit 112, Type electrolytic device is adapted to convert the drinking water enclosed and contained by the bottle housing 100c and the hydrogen generator unit 100b into hydrogen water.

4, the hydrogen generator 111 includes a first electrode plate 111a and a second electrode plate 111b, and each of the electrode plates 111a and 111b has a cross section as shown in FIG. 5 And the first and second pole power supply lines 112a and 112b in the LED lighting unit 112, respectively.

That is, the first pole power supply line 112a and the second pole power supply line 112b are connected to the electric device 110 formed on the lid 115 of the capsule-type lid 100a. Meanwhile, the electric device 110 includes a rechargeable battery in addition to a PCB (printed circuit board) or an optical PCB (optical PCB).

That is, the first pole power supply line 112a and the second pole power supply line 112b, each of which can be configured as one of a (+) pole and a (-) pole, are connected by a rechargeable battery of the electric device 110, The hydrogen generator 111 supplies power to the hydrogen generator 111 including the first electrode plate 111a and the second electrode plate 111b under the control of the control unit 110 Bubble generation, so that the drinking water is converted into the drinking water while being dissolved in the drinking water.

Referring to FIG. 4, a first electrode plate 111a and a second electrode plate 111b, which are electrode plates of a special structure of hydrogen generation principle, are vertically mounted and are connected to each other, In FIG. 4, the first electrode plate 111a and the second electrode plate 111b are separated from each other by an electrolytic process for the existing drinking water to produce a certain amount of hydrogen in the form of bubble generation. When the pores are formed by being inclined from the center to the outside and are superimposed at the same time, the pores are formed so as not to overlap each other, so that the pore surface can be maximized.

5, the first pole power line 112a and the second pole power line 112b are sequentially concentrically formed in the LED rod 112 in the upper part of the hydrogen generating unit 111, As shown in FIG. 5, the first pole power supply line 112a is formed as a (+) pole power supply line, and the second pole power supply line 112 is formed as a (-) pole power supply line. With such a configuration, the LED lighting unit 112 visually confirms the generation state of hydrogen by electrolysis generated in the hydrogen generator 111 located at the center inside the upper part of the water bottle in the stick type electrolyzer.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: Portable handheld device for water conversion
100a: capsule-shaped lid part
100b: hydrogen generator unit
100c: Bottle housing
111: hydrogen generator
112: LED lighting part
113: Fixed frame
113a: frame fixing end
114: helical fastening end
115: Lid
116: Waterproof packing
117: Capsule inlet end

Claims (9)

A bottle housing (100c) for storing drinking water or a common drinking water bottle;
And an electric device 110. The portable device 100 includes a lid 115, a waterproof packing 116 and a capsule inlet end 117. The portable device 100 is connected to a rechargeable capsule- An encapsulated lid portion 100a for use; And
An LED illumination unit 112 that projects from the central area of the fixed frame 113 and occupies about 2/3 of the length of the fixed frame 113, a hydrogen generation unit 111 formed at the end of the LED illumination unit 112 corresponding to the remaining length, In addition to the stick type electrolytic apparatus comprising the illumination unit 112, a fixing frame 113 for fastening with the upper outer circumferential surface of the bottle housing 100c and a spiral fastening unit corresponding to a general purpose fastening unit, And a hydrogen generator unit 100b having an end 114 and formed to serve to convert drinking water into hydrogen water through the operation of the stick-type electrolytic apparatus mounted in the upper end of the bottle housing 100c, ; / RTI >
In the hydrogen generator unit 100b formed between the lower portion of the capsule lid portion 100a and the upper portion of the bottle housing 100c, the hydrogen generating portion 111, the LED illuminating portion 112, Is adapted to convert the drinking water enclosed and contained by the bottle housing (100c) and the hydrogen generator unit (100b) into hydrogen water,
The hydrogen generating unit 111 includes a first electrode plate 111a and a second electrode plate 111b and the electrode plates 111a and 111b are connected to a first pole power source Line 112a and the second pole power line 112b, respectively,
The first pole power supply line 112a and the second pole power supply line 112b which can be formed of one of a positive polarity and a negative polarity are mounted on a cover 115 of a capsule- ) Substrate or an optical PCB (not shown) and a rechargeable battery,
The first pole power supply line 112a and the second pole power supply line 112b are connected to the rechargeable battery of the electric device part 110 and are supplied with power under the control of the electric device part 110, The first electrode plate 111a and the second electrode plate 111b to generate hydrogen in the form of bubbles by the hydrogen generator 111 so that the water is dissolved in the drinking water, To be converted to hydrogenated water,
When the pores of the first electrode plate 111a and the second electrode plate 111b are formed by being tilted outward from the center and the first electrode plate 111a and the second electrode plate 111b are joined together, And the pores of the first electrode plate 111a and the second electrode plate 111b do not overlap with each other so that the pore surface is maximized,
The LED lighting unit 112 on the hydrogen generating unit 111 includes a first pole power supply line 112a and a second pole power supply line 112b formed in a concentric shape in sequence within the LED rod 112,
The LED illumination unit 112 provides a light source for visually confirming the generation state of hydrogen generated by the electrolysis generated in the hydrogen generator 111 located at the center inside the upper part of the water bottle among the stick type electrolysis apparatus,
Each of the first electrode plate 111a and the second electrode plate 111b is formed in a plate shape having a curved bottom and extends downward through a lower surface of the fixed frame 113 to form a first electrode plate 111a And the second electrode plate 111b with the drinking water of the bottle housing 100c or the general drinking water bottle,
The supporting points of the first electrode plate 111a and the second electrode plate 111b are formed as far as possible on both sides with reference to the vertical center line where the first electrode plate 111a and the second electrode plate 111b overlap each other Of the mobile phone.
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