KR20170009311A - Device for generating a hydrogen water - Google Patents

Abstract

The present invention relates to a device for generating hydrogen water, and more specifically, to a device for generating hydrogen water, which enables atopy, various types of skin troubles, etc. occurring due to a congenital or acquired cause in the middle of washing a face or taking a bath to be mitigated by means of sterilization action of ozone and hypochloride, and which enables residual pesticide and impurities to be removed in the middle of washing a vegetable or a fruit by means of dissolved hydrogen and active hydrogen. The device for generating hydrogen water comprises a hydrogen water generator in which electrodes are installed, in an exposed manner, on an outside of a waterproof case in which a control board configured to control electrolysis of water is installed such that power can be supplied from a battery and then water can be electrolyzed. Hydrogen water is generated by electrolyzing clusters of water to 60 Hz or less at a frequency of 120 to 150 Hz and electrolyzing bases included in tap water, and thus pores of a skin can be sterilized, thereby maintaining a stable, healthy skin. Furthermore, mesh formation, incision and perforation are performed by using an undivided electrolysis method, and thus ions are separated and oxygen and hydrogen gases are simultaneously generated during electrolysis and electrolyzed water rich in hydrogen and active hydrogen dissolved in water is supplied, thereby providing effects of preventing aging, mitigating skin troubles, and providing astringent action.

Description

[0001] The present invention relates to a device for generating a hydrogen water,

 More particularly, the invention relates to a device for producing hydrogen peroxide, which can improve atopy and various skin troubles commonly caused by congenital or acquired skin during cleansing and bathing by the sterilizing action of ozone and hypochlorous acid, The present invention relates to an apparatus for producing hydrogen water, which can remove residual pesticides and foreign matter when vegetables and fruits are washed using active hydrogen.

Generally, an electrolytic apparatus is an apparatus for generating hydrogen gas and oxygen gas by electrolyzing electrolytic solution. An electrolytic cell constituting a part of the electrolytic apparatus is a part that performs a role of electrolyzing the supplied electrolytic solution.

The electrolytic cell generally has a structure in which a plurality of thin electrode plates are positioned between the electrodes at both ends, and when a voltage is applied to the electrodes at both ends, electric charge is conducted to a plurality of electrode plates disposed therebetween, Is performed. The larger the number of electrode plates, the larger the gas generating capacity.

However, in the conventional electrolytic cell, since the electrode plate is constituted by separately separated parts, the gasket is tightly adhered to both sides of the electrode plate to maintain the airtightness. Such a conventional structure, even if the gasket is brought into close contact with the edge of the electrode plate, It was difficult to completely bring the electrode plate into close contact with the gasket. Therefore, there is a phenomenon that the charge is pushed from the excited portion between the electrode plate and the gasket to the edge of the electrode plate, and the charge separated from the anode falls to the opposite side, .

As a prior art for solving the above problems, Korean Patent Publication No. 10-1151808 discloses a plasma display panel comprising a pair of electrode parts connected to a power source having different polarities, and a pair of electrode parts, A first gas passage forming portion and a second gas passage forming portion are formed on an inner upper portion of the electrode plate frame, and an electrolyte passage forming portion And an electrode plate inserted in the frame frame by insert injection molding. The first gas passage forming portion, the second gas passage forming portion and the electrolyte passage forming portion are provided with holes The diaphragm is inserted into the electrode plate frame, the first gas communication hole and the second gas communication hole are formed in the upper portion, Wherein the gasket has a ring structure in which a first gas passage forming portion and a second gas passage forming portion are formed in an inner upper portion and an electrolyte passage forming portion is formed in an inner lower portion, And the first gas generated on one surface of the electrode flows through the holes of the first gas passage forming portions and on the opposite surface of the electrode, The second gas is discharged to the outside through the holes of the second gas passage forming portions and the electrolyte solution supplied from the outside flows into the holes through the holes of the electrolyte passage forming portions.

Since the electrode plate is inserted into the electrode plate frame, the electrolysis efficiency of the electrode plate is lower than that of the electrode plate.

In addition, in the case of insert molds, since the cleanliness of the surface of the insert must be kept clean, the processing cost is high and the initial cost is increased. Further, since the insert process is required to insert the electrode plate during insert molding, .

There is a problem that the electrolysis efficiency is lowered due to the phenomenon that the first gas and the second gas are mixed with each other so that the first gas and the second gas are separated from each other at the portion where the electrode plate and the portion for fixing the diaphragm, .

Korean Registered Patent No. 10-1151808 (June 10, 2012 announcement)

A first object of the present invention is to solve the above-mentioned problems, and a first object of the present invention is to electrolyze water of 120 Hz ~ 150 Hz of general water to make 60 Hz band or less, electrolyze the base contained in water, Hypochlorous acid, ozone, and so on, so as to sterilize the inside of the skin pores so that a healthy and healthy skin can be maintained.

The second object of the present invention is to provide electrolytic water rich in hydrogen and active hydrogen dissolved in water by simultaneously generating ions and oxygen and hydrogen gas during electrolysis by mesh-shape or incision and puncture in a non-septic electrolytic method.

A third object of the present invention is to sterilize bacteria present in vegetables or skin by using an electrode coated with titanium on the titanium surface by mixing platinum and IrO ₂ (iridium oxide) in the form of titanium mesh, and using dissolved hydrogen and active hydrogen Vegetables, fruits or skin cleansing water.

According to an aspect of the present invention, there is provided a battery pack comprising: a case having a battery installed therein; a case having a control board connected to the battery so as to electrically operate; And an electrode member connected to the control board so as to be electrically operated so that water can be electrolyzed and installed on the outer surface of the case.

The hydrogen-water generator of the present invention is further characterized by a charging and mounting member detachably installed to charge the battery.

The case of the present invention is characterized in that a transparent cover provided with a ceiling is coupled to the upper part to prevent water from flowing into the case, and the operation state can be confirmed.

The case of the present invention is characterized in that a cover is provided on the outer peripheral surface so that the electrode member is positioned between the case and the cover.

The electrode member of the present invention comprises a first electrode and a second electrode spaced apart from each other at a predetermined interval so that water can be electrolyzed, and an upper electrode fixing member is provided on the upper portion of the first electrode and the second electrode, The distance between the first electrode and the second electrode is uniformly spaced from the distance between the first electrode and the second electrode by coupling the electrode lower fixing member to the lower portion of the first electrode and the second electrode.

The upper electrode fixing member and the lower electrode fixing member of the present invention are formed with upper gap retaining protrusions and lower gap retaining protrusions at equal intervals so as to be spaced apart from each other between the first electrode and the second electrode, An upper support protrusion and a lower support protrusion, which support the outer circumferential surface, are formed, respectively.

The electrode member of the present invention is provided with a connecting member at a lower portion thereof. The connecting member is formed in the same cylindrical shape as the case, has a predetermined space at the inside thereof, and constitutes the connecting member body with one side thereof opened. Wherein the electrode member is provided with an electrode member groove having a connecting member through-hole so that the lower portion of the electrode member is located on the lower surface of the electrode member, and a fastening protrusion is formed on the inner side of the electrode member, A guide hole is formed at a predetermined interval on a side surface of the connecting member body and a plurality of elastic pieces are formed on the bottom surface of the connecting member body so as to be convex on one side.

The connecting member of the present invention has a switching protrusion at a lower portion thereof, and is characterized in that the switching cover rotatably couples and serves as a switch.

The present invention relates to a water supply system for a water treatment system, comprising: a water-containing water generator for exposing an electrode in an exposed form to the outside of a waterproof case provided with a control board for controlling water electrolysis inside to electrolyze water to which the battery is supplied; And a charging and dismounting member for detachably installing a water-containing water generating unit so that the battery can be charged with power.

The hydrogen generator of the present invention comprises a battery, a control board, a charging terminal, and a pin connection terminal for controlling power supply, charging, and water electrolysis, and is formed in a circular shape so as to form an electrode member coupling groove and a case hole A case; A transparent cover having a ceiling for screwing the battery and the control board installed inside the case into the upper part of the case so as to protect the control board from water; A connecting member having a guide hole and having a connecting member hole to form an electrode member groove and switching a power source for applying a battery power to the electrode, the connecting member having a guide hole; An electrode member installed in an exposed form between the outer circumference of the case and the connecting member so as to electrolyze water; And a switching cover having a switching member for supplying power of the battery to the electrode member and rotatably installed at a lower portion of the connecting member.

The cover of the present invention is transparent in shape to be transparent in the shape of a cylinder so that light emitted from the control board can be checked to confirm whether the operation is to be performed or not, and a seal is provided on the outer surface of the cylinder to seal water between the case and the cover .

The case of the present invention comprises: a case body having a predetermined space inside thereof with one side thereof opened and being formed into a cylindrical shape so as to be waterproofed by screwing with the lid; A pin connection terminal protruding from a bottom surface of the case space so as to be able to apply a power of the battery to the electrode member; A battery mounting groove formed in the space portion of the case body so as to be recessed downwardly so that the battery can be installed; A charging terminal protruding from a bottom surface of the case to the inside of the battery mounting groove so as to be charged by supplying power to the battery; And an electrode installation member having an electrode member defect groove and a case hole so that the electrode member is coupled to the outer periphery so that the hydrogen gas is discharged to the outside of the case, and protruded outward around the upper portion of the case body.

The electrode member of the present invention comprises an electrode upper fixing member formed of a first electrode and a second electrode spaced apart from each other at a predetermined interval so as to allow water to be electrolyzed, and connected to an upper portion of the first electrode and the second electrode; And an electrode lower fixing member coupled to a lower portion of the first electrode and the second electrode.

The upper electrode fixing member and the lower electrode fixing member of the present invention are formed with upper gap retaining protrusions and lower gap retaining protrusions at regular intervals so that the first electrode and the second electrode are spaced apart from each other, And upper support protrusions and lower support protrusions are formed to support the outer circumferential surface to fix the spaced apart states.

The connecting member of the present invention is formed in the same cylindrical shape as the case shape and has a certain space in the inside and forms a connecting member body with one side being opened and a coupling protrusion along the circumference of the upper end portion of the connecting member body, The coupling protrusion is formed with an electrode member groove having a connecting member through-hole so that the lower portion of the electrode member is located above the coupling member, and the coupling member is fixed to the inner side of the coupling member. Wherein a plurality of elastic pieces are formed on the bottom surface of the connecting member body so as to be convex on one side.

The filling and mounting member of the present invention comprises: a receiving holder having a receiving groove formed with a holder projection for filling and mounting the water generating unit; A support panel installed below the support holder; A filling member fixed to the bottom of the holder through a bolt; A gasket provided between the support holder and the support panel; And a control unit.

The charging member of the present invention includes a charging panel formed with a charging circuit to be able to apply power to the battery and coupled to a lower portion of the support holder; A connector installed on one side of the charging panel so as to be exposed to one side of the receiving holder so that power can be applied to the charging panel; And a charging terminal provided on the charging panel and protruding from the holder protrusion of the receiving holder so as to receive power supplied from the connector through the charging circuit and supply power to the small water generator.

According to the present invention, a cluster of water is electrolyzed at a frequency of 120 Hz to 150 Hz to make a volume of 60 Hz or less, thereby electrolyzing the base contained in the water to generate residual chlorine, hypochlorous ozone, etc., It has the effect of keeping the skin.

The present invention relates to an electrolytic water treatment system for electrolytic water treatment, which comprises ion-isolation and oxygen and hydrogen gas simultaneously generated by electrolytic electrolysis in the form of a mesh-free membrane electrolytic cell, thereby supplying electrolytic water rich in hydrogen and active hydrogen dissolved in water to prevent aging, Action, and whitening astringent effect.

The present invention uses dissolved hydrogen and active hydrogen as a cleaning water for vegetables, fruit or skin by using a plurality of electrodes coated on a titanium surface by mixing platinum and IrO ₂ (iridium oxide) in the shape of a titanium mesh, It collects large bubbles and has the effect of completely separating the foreign substances attached to the surface when it bursts.

The present invention has the effect that the storage period of sterilized vegetables and fruits can be kept longer than twice, and the lead can be maintained for a long time.

According to the present invention, since the electrode structure for removing impurities is maximally utilized by maximizing the convection phenomenon of water, the convective phenomenon between the electrodes can be polarized to facilitate sterilization and removal of foreign matter.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a hydrogen-water generating apparatus according to the present invention. FIG.
2 is an exploded perspective view showing a configuration of a hydrogen-water generator according to the present invention;
3 is a cross-sectional view showing a combined structure of the hydrogen-water generator of FIG. 2;
4 is a perspective view showing the configuration of the case of Fig.
Fig. 5 is a perspective view showing the configuration of a connecting member engaged with the case of Fig. 2; Fig.
Fig. 6 is a perspective view showing an electrode member provided between the case of Fig. 2 and the connecting member; Fig.
FIG. 7 is an exploded perspective view showing the detailed structure of the electrode member of FIG. 6;
FIG. 8 is an exploded perspective view showing the configuration of the filling and mounting member of FIG. 1; FIG.
9 is a block diagram showing a state in which a hydrogen-producing device according to the present invention is put into water to generate hydrogen.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail.

It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for similar elements in describing each drawing. The terms first, second, etc. may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

For example, the term "and / or" includes any combination of a plurality of related listed items or any of a plurality of related listed items.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be construed as ideal or overly formal in meaning unless explicitly defined in the present application Should not.

The specific terminology used in the following description is provided to aid understanding of the present invention, and the use of such specific terminology may be changed into other forms without departing from the technical idea of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration of a hydrogen-producing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a hydrogen-water generating apparatus according to the present invention, FIG. 2 is an exploded perspective view showing a configuration of a hydrogen-water generator according to the present invention, FIG. 3 is a sectional view showing a combined structure of the hydrogen- Fig. 4 is a perspective view showing the configuration of the case of Fig. 2, Fig. 5 is a perspective view showing the configuration of the connecting member engaged with the case of Fig. 2, FIG. 7 is an exploded perspective view showing the detailed configuration of the electrode member of FIG. 6, FIG. 8 is an exploded perspective view showing the configuration of the filling and mounting member of FIG. 1, and FIG. 9 is a perspective view Fig. 8 is a configuration diagram showing a state where hydrogen is produced by putting the apparatus into water. Fig.

1 to 9, the present invention includes a hydrogen generator 100 for electrolyzing water by providing an electrode on the outer periphery of a case 110 where a battery 170 and a control board 180 are installed inside, And a charging and mounting member 200 detachably installed so that the battery 170 is charged with power and the water eliminator 100 can be mounted.

The hydrostatic generator 100 includes a case 110 formed in a cylindrical shape having a predetermined space portion 111-1 in an opened state and having a top open to control power supply, charging, and water electrolysis, A transparent lid 120 screwed on the upper part of the case 110 so as to check the state of the case 110 and a connecting member 130 An electrode member 140 which is coupled between the case 110 and the connecting member 130 so as to be able to electrolyze water and installed in an exposed form on the outer circumference of the case 110, And a switching cover 150 that is coupled to the electrode member 140 and performs a switch operation so that the electrode member 140 is electrolyzed.

The hydrogen generator 100 may further include an outer cover 160. The outer cover 160 may be disposed on the outer side of the electrode member 140 disposed on the outer circumference of the case 110, 140 are positioned between the case 110 and the outer cover 160. In addition, the outer cover 160 constitutes a display unit 161 so that the on / off state of the water generator 100 can be confirmed by rotating the switching cover 150.

The hydrogen generator may further include a battery 170 and a control board 180. The battery 170 may be installed inside the case 110 to supply power to the electrode member 130 so that water can be electrolyzed. And the power source. The control board 180 has an LED (not shown) for controlling the power supply of the battery 170 and controlling the operation of the battery 170, and is installed inside the case 110.

The case 110 has a circular case body 111 formed with a space 111-1 and a battery mounting groove 111-2 in which a battery 170 is installed, . A screw is formed on the inside of the upper part of the case body 111 so as to be able to engage with the transparent lid 120. The battery mounting groove 111-2 is formed with a terminal fixing protrusion 111-3 having a hole penetrating from the top to the bottom. The power terminal 112 is installed in the hole of the terminal fixing protrusion 111-3 so as to protrude upward from the battery mounting groove 111-2 while one side is protruded from the outer bottom surface of the case 110. [ A pin connection terminal 113 is installed on the bottom surface of the case member 110 so as to protrude outward from the space part 111-1 of the case 110 so as to electrolyze water by applying power to the electrode member 140. [ The first connecting piece 141-1 and the second connecting piece 142-1 of the electrode member 140 to be described later are connected to the outside of the case 110 where the pin connecting terminal 113 is installed Thereby forming a groove 114.

An electrode mounting member 115 for discharging hydrogen and fixing the electrode member 140 is formed on the outer circumference of the upper portion of the case 110. An electrode member 140 is disposed under the electrode mounting member 115, An electrode member engaging groove 115-1 is formed so that the upper portion can be engaged with the case member 115 and a case through hole 115-2 is formed so that hydrogen generated in the electrode member 140 is discharged.

A case mounting protrusion 116 is formed to be able to engage with the connecting member 130 in the downward direction of the case 110. The case mounting protrusion 116 is formed with a fastening protrusion 116 of the connecting member 130, A mounting hole 116-1 is formed at a predetermined interval so that the mounting hole 133 can be coupled.

The transparent lid 120 has a screw so as to be able to engage with a screw formed on the inner surface of the case 110, and is formed to be transparent. In addition, a sealing ring 121 is provided on a portion where the screw is formed, so that watertightness is formed between the case 110 and the transparent lid 120.

The connecting member 130 is formed in a circle having the same shape as that of the case 110 and has a predetermined space in the inside thereof and has a connecting member body 131 coupled to a lower portion of the case 110 with one side thereof opened, An electrode member engaging protrusion 132 formed at the outer periphery of the connecting member body 131 so as to be able to engage with a lower portion of the member 140, The electrode member positioning groove 132-2 formed in the electrode member engaging projection 132 and the mounting hole 116-1 of the case mounting projection 116 formed in the case 110 (Not shown) on the inside of the connecting member 130 so as to be able to be fixedly coupled with the connecting member 130; A plurality of elastic pieces 134 formed on the bottom surface of the connecting member body 131, A plurality of guide holes 135 formed on the outer circumferential surface of the connecting member body 131 so as to be able to be engaged and rotatable with the countering cover 150 and the charging and mounting member 200, A terminal connection groove 136 formed at the bottom of the connection member body 131 so as to allow power to be applied and a switching protrusion 153 of the switching cover 150 to be inserted into one side of the terminal connection groove 136 And an inlet hole 137 formed in the bottom surface of the connecting member body 131.

The electrode member 140 may include a first electrode 141 and a second electrode 142 spaced apart from each other by a predetermined distance so as to allow water to be electrolyzed and the first electrode 141 and the second electrode 142, An upper electrode fixing member 143 disposed above the first electrode 141 and the second electrode 142 to maintain a gap between the first electrode 141 and the second electrode 142, And an electrode lower fixing member 144 provided below the first electrode 141 and the second electrode 142 so as to maintain a gap therebetween.

The first electrode 141 is formed in a plate shape having a mesh or an electrode hole and is exposed to the outer periphery of the case 110 to electrolyze the water by an electrical action with the second electrode 142 to generate hydrogen do. A first connection piece 141-1 is formed on the first electrode 141 so as to be coupled to the pin connection terminal 113 of the case 110 to receive power of the battery 170. [

The second electrode 142 is formed in the shape of a plate having a mesh or an electrode hole so as to be exposed to the outer periphery of the case 110 to electrolyze the water by the electric action with the first electrode 141 to generate hydrogen do. A second connecting piece 142-2 is formed on the second electrode 142 so as to be coupled to the pin connecting terminal 113 of the case 110 so that the power of the battery 170 can be received.

The upper electrode fixing member 143 is formed in a circular strip shape and includes a plurality of upper gap retaining projections 143-1 so as to maintain a constant distance between the first electrode 141 and the second electrode 142, Shaped upper and lower support protrusions 143-2 so as to support the outer sides of the first electrode 141 and the second electrode 142 at regular intervals on both side edges of the strip- .

The lower electrode fixing member 144 is formed in a circular strip shape and includes a plurality of lower spacing protrusions 144-1 so as to maintain a constant distance between the first electrode 141 and the second electrode 142, And the lower supporting protrusions 144-2 are formed on both side edges of the strip shape so as to support the outer sides of the first electrode 141 and the second electrode 142 at regular intervals. .

The upper portion of the first electrode 141 and the upper portion of the second electrode 142 are positioned between the upper gap retaining protrusion 143-1 and the upper support protrusion 143-2, The lower portion of the two-electrode 142 is positioned between the lower gap retaining protrusion 144-1 and the lower retaining protrusion 144-2 and is engaged and fixed.

The switching cover 150 is rotatably installed under the connection member 130 so that the power of the battery 170 can be applied to the electrode member 140.

The switching cover 150 is formed with a cover body 151 having a through hole 151-1 formed to penetrate from the upper portion to the lower portion of the cover body 151, A plurality of recesses 152 are formed so that the user can recognize the ON / OFF state of the switch cover 150. A plurality of recesses 152 are formed at one side of the recess 150, The switching protrusion 153 is formed with a switching member 154 made of a metal material so that the power of the battery 170 can be applied to the electrode member 140. [ Install it.

A plurality of locking protrusions 155 are formed on the inner surface of the switching cover 150 so as to engage with the guide holes 135 formed in the connection member 130 and the locking protrusions 155 coupled to the guide holes 135. [ Is installed to move along the guide hole (135) when the switching cover (150) rotates.

An outer cover 160 having a cylindrical shape is provided at one side of the case 110 so that the electrode member 140 is positioned between the case 110 and the outer cover 160. The display unit 161 is further formed on one side of the outer cover 160 so that the on / off state of the switching cover 150 can be confirmed when the switching cover 150 is rotated.

The filling and mounting member 200 includes a support holder 210, a support panel 220, a filling member 230, and a gasket 240.

The receiving holder 210 is formed in a circular shape when the receiving recess 211 has an inner receiving recess 211 so that the water generating device 100 can be attached and detached. And a plurality of terminal protrusions 213 are formed in the holder protrusions 212. The terminal protrusions 212 are formed in the holder protrusions 212 so that the terminal protrusions 212 can be coupled to the terminal protrusions 136. [

A plurality of support projections (not shown) are formed at a predetermined distance from the holder protrusions 212 so that the connection members 130 can be coupled to the seating recesses 211 in a parallel state.

The support panel 220 is coupled to a lower portion of the support holder 210 through a bolt to facilitate installation on a wall or floor. The support panel 220 has a panel fixing hole 222 and a panel fixing protrusion 221. When the support panel 220 is coupled to the lower portion of the support holder 210, So that it can be assembled easily.

The charging member 230 includes a charging panel 231 having a charging circuit for applying power to the battery 170 and fixing the charging member 230 to the inside of the bottom of the supporting holder 210 through a bolt, A connector 232 installed at one side of the charging panel 213 so as to apply power to the charging panel 213 and a power supply unit 230 connected to the water supply unit And a charging terminal 233 provided on the charging panel 231 to supply power to the terminal protrusion 213 of the holder protrusion 212. [

The gasket 240 is installed between the support holder 210 and the support panel 220 to prevent water or foreign matter from flowing between the support holder 210 and the support panel 220. In addition, the gasket 240 forms a gasket coupling protrusion 241 at a predetermined interval so as to be coupled to the panel fixing protrusion 221 formed on the receiving panel.

The operation of the hydrogen-water generating apparatus according to the present invention constructed as above will be described.

First, in order to wash a toilet, a bath, a vegetable or a fruit in a bathtub, a washstand or a sink tank, a fruit washing basket or the like, the water tank 100, which is connected to the filling and mounting member 200, ) With one hand and rotate the switching cover (150) with the other hand.

A plurality of locking protrusions 155 formed on the inner surface of the switching cover 150 are rotated along the guide holes 135 and the switching member 154 provided on the switching protrusion 153 is rotated, So that the power of the battery 170 is applied to the electrode member 140.

The power source of the battery 170 is supplied to the control board 180. The control board 180 is applied to the electrode member 140 through the pin connection terminal 113, Electrolyzes water while applying different polarities to the first electrode 141 and the second electrode 142.

The first electrode 141 and the second electrode 142 generate hydrogen by applying their polarities to each other in an intersecting manner, and applying the polarity of the power source to the first electrode 141 and the second electrode 142 at an intersection includes a first electrode 141, The second electrode 142 is cleaned so that the user can maintain a clean state without any additional maintenance.

The user places the user in the water contained in a bathtub, washstand or sink tank, or a fruit washing basket, as described above.

Water is introduced into the water between the first electrode 141 and the second electrode 142. At this time, the water initially introduced into the case hole 115- 2 through the connecting member hole 132-2 and the upper hole 143-3 and the lower hole 144-3 formed in the connecting member 130. When the incoming water is electrolyzed, And is discharged to the case through hole 115-2 formed in the case 110 via the upper through hole 143-3.

After a predetermined time, water convects, water flows into the lower portion of the electrode member 140, and water is discharged together with hydrogen.

The hydrogen produced as described above is made finer by 60 Hz or less through electrolysis, and the hydrogen is dissolved in water. And a typical water cluster is 1200Hz ~ 150Hz.

More specifically, the electrode upper fixing member 143 and the electrode lower fixing member 144 of the electrode member 140 provided between the case 110 and the connection member 130 Water flows into the formed upper through hole 143-3 and the lower through hole 143-3 and the inflow water is positioned between the first electrode 141 and the second electrode 142, And the second electrode 142, the power is applied to electrolyze the water.

During electrolysis, the (+) ion is reduced in the (-) pole and the (-) ion in the (+) pole. (-) Microfine fish can get oxygen by oxidation reaction, and at the (+) pole, reduction reaction occurs and hydrogen can be obtained. The volume ratio of hydrogen to oxygen obtained by this reaction is 2: 1, and the overall reaction formula is as follows.

(-) _{electrode: 4H 2 O + 4e- → 2H} 2 + 4OH -

(+) Pole: 2H ₂ O? O ₂ + 4H ⁺ + 4e-

-------------------------------------

Overall reaction: 6H ₂ O → 2H ₂ + O ₂ + 4OH ^- + 4H ⁺

→ 2H ₂ O → 2H ₂ + O ₂

Hydrogen generated as the water is electrolyzed is discharged to the case through holes formed in the circumference of the case 110 and the upper through hole 143-3 of the upper electrode fixing member 143. [

The hydrogen discharged into the upper through-hole 143-3 and the case vent hole 115-2 is dissolved in water, dissolved in water, washed with water, washed, bath or vegetables, , Fruits and the like are formed into large bubbles by gathering minute bubbles on the surface, and the action of separating the foreign matter adhering to the surfaces of the skin, vegetables, fruits and the like is performed.

When electricity is generated in the electrode member 140, the light is emitted from the LED of the control board 180 installed inside the case 110, so that the user can check the operation state of the LED.

Then, when a certain amount of hydrogen is generated, the controller automatically turns off to stop the production of water and to cause proper dissolution.

The amount of dissolved hydrogen is 400 to 650 ppb, the ORP (Oxidation Reduction Potential) value is -250 to -300 mv, and the pH value is 7.5 to 7.8.

When the power of the battery 170 is exhausted in the process of generating the hydrogenated water, in order to charge the battery 170, the user draws the bottom of the water generating unit 100 into the seating groove 211 of the charging and mounting member 200, The protrusion 212 is engaged with the terminal connection groove 136 formed in the lower portion of the connection member 130.

The charging jack of the adapter is inserted into the connector 232 of the charging member 230 in a state where the water generating device 100 is mounted in the seating groove 211 of the charging and mounting member 200 to apply power.

The power supplied through the connector 232 is stably supplied via a charging circuit formed in the charging panel 231. A power source passed through the charging circuit 233 is supplied to the lower portion of the case 110 through the charging terminal 233. [ And power is applied to the power terminal 112 protruded to the lower portion of the connecting member 130.

The power supplied to the power terminal 112 is applied to the control board 180 electrically connected to the power terminal 112 and the control board 180 is electrically connected to the battery 170, To charge the power source.

If the battery 170 is fully charged while being charged, the control board 180 cuts off the power so as to prevent the battery 170 from being overcharged.

As described above, the water-containing water generator 100 in a state in which the battery 170 is fully charged is put into the water contained in the bathtub, the washstand, the sink bath, the fruit washing basket, etc. and washed, The skin is prevented from aging, problems are improved and convergence occurs, and vegetables and fruits are easily washed and washed, so that healthy vegetables and fruits can be consumed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood that various modifications and changes may be made thereto without departing from the scope of the present invention.

100: Hydrogen generator 110: Case
111: Case body 111-1:
111-2: Battery mounting groove 111-3: Terminal fixing projection
112: Power terminal 113: Pin connection terminal
114: connection groove 115: electrode mounting member
115-1: Electrode member engaging groove 115-2: Case passage
116: Case mounting projection 116-1: Installation hole
120: transparent cover 121: sealing
130: connecting member 131: connecting member body
132: connection part recombination projection 132-1: electrode member position groove
132-2: connection member through-hole 133: fastening projection
134: elastic piece 135: guide ball
136: terminal connection groove 136-1: terminal connection
137: inlet hole 140: electrode member
141: first electrode 141-1: first connection piece
142: second electrode 142-1:
143: electrode upper fixing member 143-1: upper gap maintaining projection
143-2: Upper support projection 143-3: Upper support hole
144: electrode lower fixing member 144-1: lower gap maintaining projection
144-2: lower support projection 144-3: lower hole
150: switching cover 151: cover body
151-1: through hole 152: groove
153: switching protrusion 154: electrode member
160: outer cover 161:
170: Battery 180: Control board
200: Charging and mounting member 210: Support holder
211: seat groove 212: holder projection
213: Terminal protrusion hole 220: Support panel
230: charging member 231: charging panel
232: Connector 233: Charging terminal
240: gasket 241: gasket engaging projection

Claims (16)

In the hydrogen-containing water producing apparatus,
A case 110 having a battery 170 installed on the inside thereof and a control board 180 connected to the battery 170 so as to electrically operate to control the water to be electrolyzed;
An electrode member 140 connected to the control board 180 so as to electrically operate water to be electrically connected to the outer surface of the case 110;
And a water-containing-water generator (100) including the hydrogen-containing gas.
The method according to claim 1,
In the hydrogen-water generator 100,
A charging and mounting member 200 detachably installed to charge the battery 170 with electric power;
And the water-containing-water generating device further comprises:
The method according to claim 1,
The case 110
A transparent cover 120 is installed on the upper part to confirm the operation state,
Wherein the transparent cover (120) is provided with a seal (121) to prevent water from flowing into the case (110).
The method according to claim 1,
In the case 110,
Wherein an electrode member (140) for electrolyzing water is provided between the case (110) and the outer cover (160) by providing an outer cover (160) on the outer circumferential surface.
The method according to claim 1,
The electrode member 140
And a first electrode 141 and a second electrode 142 formed in a mesh shape or a hole so as to be spaced apart from each other at a predetermined interval so as to be able to electrolyze water,
An upper electrode fixing member 143 is disposed on the upper portion of the first electrode 141 and the second electrode 142 so that the gap between the first electrode 141 and the second electrode 142 is uniformly spaced,
The electrode lower fixing member 144 is coupled to the lower portion of the first electrode 141 and the second electrode 142 so that the gap between the first electrode 141 and the second electrode 142 is uniformly spaced. Wherein the first and second signals are generated by a plurality
6. The method of claim 5,
The electrode upper fixing member 143 and the electrode lower fixing member 144
Respectively,
The upper gap retaining protrusion 143 and the lower gap retaining protrusion 144 are formed in the lower part and the upper part of the belt shape so that the gap between the first electrode 141 and the second electrode 142 is separated,
An upper support protrusion 143 for supporting an outer circumferential surface of the first electrode 141 and the second electrode 142 so as to fix the first electrode 141 and the second electrode 142 in a spaced- And the support protrusions (144) are formed on the lower part and the upper part of the belt shape, respectively.
The method according to claim 1,
The electrode member 140
And a connecting member 130 is installed at a lower portion,
The connecting member (130)
The case 110 is formed in the same shape as the shape and has a space on the inside and a connecting member body 131 in a state where one side is open,
An electrode member coupling protrusion 132 is formed along an edge of an upper end of the coupling member body 131,
The electrode member engaging protrusion 132 is formed with an electrode member position groove 132-1 having a connecting member through hole 132-2 so that the lower portion of the electrode member 130 faces upward,
A fastening protrusion 133 is formed inside the connection member body 131 at a predetermined distance to be coupled to the case 110 to fix the electrode member 140,
A guide hole 135 is formed at a predetermined interval on the side surface of the connecting member body 131 so that the switching member 150 is rotatably installed
Characterized in that a plurality of resilient pieces (143-3) are formed on the bottom surface of the connecting member body (131) so as to be convex on one side.
8. The method of claim 7,
The connecting member 130
A switching cover 150 is installed to be rotatable so as to serve as a switch,
The switching cover 150
A cover body 151 having a through hole 151-1 formed to penetrate from the upper part to the lower part is formed,
One side of the elastic piece 134 is drawn on the bottom surface of the cover body 151 to form a plurality of recesses 152 so that the user can recognize the ON / OFF state of the switch cover 150,
A switching protrusion 153 is formed at one side of the plurality of grooves 152 to be inserted into the insertion hole 137 of the connection member 130 to serve as a switching member,
A switching member 154 made of a metal is installed on the switching protrusion 153 so that the power of the battery 170 can be applied to the electrode member 140,
So that it can engage and rotate with the guide hole 135 formed in the connecting member 130
And a plurality of engaging projections (155) are formed on the inner surface of the cover body (151).
In the hydrogen-containing water producing apparatus,
A water generator 100 for electrolyzing water by installing an electrode on the outer circumference of the case 110 where the battery 170 and the control board 180 are installed inside;
A charging and mounting member (200) detachably installed to charge the battery (170) and to allow the water removal unit (100) to receive the power;
And a water supply unit for supplying water to the water supply unit.
10. The method of claim 9,
The hydrostatic generator (100)
A battery 170, a control board 180, a power terminal 112 and a pin connection terminal 113 so as to control power supply, charging, and water electrolysis, and has an electrode member engaging groove 115 -1) and a case through hole 115-2;
A transparent cover 120 having a sealing ring 121 for screwing the battery 170 and the control board 180 onto the upper portion of the case 110 so as to protect the control board 180 from water;
An electrode member position groove 132-1 having a connecting member through hole 132-2 and a connecting member 130 having a guide hole 135 so as to be able to be switched and installed under the case 110;
An electrode member 140 installed in an exposed form between the case 110 and the connecting member 130 so as to electrolyze water;
A switching cover 150 having a switching protrusion 153 for allowing the power supply of the battery 170 to be supplied to the electrode member 140 and rotatably installed below the connection member 130;
An outer cover 160 installed outside the case 110;
And a water supply unit for supplying water to the water supply unit.
11. The method of claim 10,
The case 110
A case body 111 having a predetermined space 111-1 on the inner side in an opened state and being formed into a cylindrical shape so as to be waterproofed by screwing with the transparent lid 120;
A battery mounting groove 111-2 formed in the space portion 111-1 of the case body 111 so as to be recessed downward so that the battery 170 can be installed;
A power terminal 112 protruding from the battery installation groove so as to be charged by supplying power to the battery 170;
A pin connecting terminal 113 protruding from the space 111-1 to the outside of the case body 111 so that the power of the battery 170 can be applied to the electrode member 140;
The electrode member 140 has an electrode member defect groove 115-1 and a case hole 115-2 so as to be coupled to the outer periphery of the case body 111 so that hydrogen is discharged to the outside of the case body 111, An electrode mounting member 115 formed so as to protrude from the electrode assembly 110;
And a water supply unit for supplying water to the water supply unit.
11. The method of claim 10,
The electrode member 140
The first electrode 141 and the second electrode 142 are spaced apart from each other at regular intervals so as to be able to electrolyze water,
An upper electrode fixing member 143 coupled to upper portions of the first electrode 141 and the second electrode 142 to maintain a gap between the first electrode 141 and the second electrode 142;
An electrode lower fixing member 144 that is coupled to the lower portion of the first electrode 141 and the second electrode 141 to maintain a gap between the first electrode 141 and the second electrode 142;
And a water supply unit for supplying water to the water supply unit.
11. The method of claim 10,
The electrode upper fixing member 143 and the electrode lower fixing member 144
The upper gap retaining protrusions 143-1 and the lower gap retaining protrusions 144-1 are formed at regular intervals so that the gap between the first electrode 141 and the second electrode 142 is uniformly spaced,
An upper support protrusion 143-2 and a lower support protrusion 144-2 are formed to support the outer circumferential surface so as to fix the gap between the first electrode 141 and the second electrode 142, Wherein the first and second signals are generated by a plurality
11. The method of claim 10,
The connecting member 130
The connection member body 131 is formed in a cylindrical shape having the same shape as that of the case 110 and has a predetermined space on the inside and one side thereof opened,
An electrode member coupling protrusion 132 is formed along an edge of an upper end of the coupling member body 131,
An electrode member position groove 132-1 having a connecting member through hole 132-2 is formed in the electrode member engaging projection 132 so that the electrode member 140 is positioned at a lower portion of the electrode member 140,
A fastening protrusion 133 is formed at a predetermined interval inside the connection member body 131 to be coupled to the case 110 so as to fix the electrode member 140,
A plurality of resilient pieces (134), one side of which is convex, are formed on the bottom surface of the connecting member body (131)
Wherein a guide hole (135) is formed at a predetermined interval on a side surface of the connecting member body (131).
10. The method of claim 9,
The filling and mounting member (200)
A supporter holder 210 having a seating groove 211 in which holder projections 212 are formed so as to fill and mount the hydrostatic generator 100;
A support panel 220 installed below the support holder 210;
A charging member (230) for fixing the battery (170) through a bolt to the lower portion of the support holder (210) so as to be charged in the water generator;
A gasket 240 installed between the support holder 210 and the support panel 220 so as to prevent foreign matter from entering;
Wherein the hydrogen-containing gas is a hydrogen-containing gas.
16. The method of claim 15,
The filling member (230)
A charging panel 231 having a charging circuit formed therein for applying power to the battery 170 and coupled to the lower portion of the support holder 210;
A connector 232 installed at one side of the charging panel 231 so as to be able to apply power to the charging panel 231 and exposed to one side of the receiving holder 210;
A charging terminal 233 protruding from the holder protrusion 212 of the support holder 210 for installing the charging panel 231 to receive power supplied from the connector 232 through the charging circuit and to supply power to the water- );
And a water supply unit for supplying water to the water supply unit.

Images