CN105671585A - Hydrogen anion generation device - Google Patents

Abstract

The invention provides a hydrogen anion generation device. The hydrogen anion generation device has an anion generation part; and emitted anions can keep indoor air more comfortable. Upper and lower electrode boards include such core fittings as diaphragms (ion separation films); the installation of the core fittings has a certain distance to generate hydrogen and oxygen; and through materials and electroplating treatment, the generation of impurities on polar plates is inhibited to improve the electrical conductivity so as to reach the maximum hydrogen quantity in a short time. The hydrogen anion generation device is simple in structure, small and light, and is mobile electric equipment suitable for families and enterprises.

Description

Hydride ion generating means

[technical field]

The present invention is the water manufactured containing a large amount of hydrogen and the dual-purpose hydride ion generation device manufacturing anion and transmitting anion from the water containing a large amount of hydrogen.

[background technology]

In general, existing hydride ion is the hydrogen by dissolving high power capacity in water, and hydride ion so is that hydrogen exists (hydroxyl) in active oxygen gas, has antioxidation, it is prevented that aging, diabetes. Hypertensive arteriosclerosis, prophylaxis of cancer and dementia there is effect, it is possible to improving beautifying skin, fat-reducing, fatigue and sexual function, it is provided that motor capacity, enhancing immunity, alleviation is still drank after a night.

So, a kind of hydride ion that Korean published Patent number is No. 2011-0039647 (patent documentation 1) manufactures device, inside is divided into the 1st by barrier film, 2 tank houses, form the electrolysis bath for electrolysis, described 1st tank house includes the inflow district flowing into the formation of electrolysis bath bottom surface, the discharge opening that the hydride ion that described 1st tank house flows into is formed from upper part of the electrolytic cell spues, described 2nd tank house forms the oxygen discharge region of the electrolysis bath being easily discharged oxygen, described 1st tank house installs minus plate, described 1st tank house installs positive plate, contact with each other, meanwhile, the electrode of membrane contacts has the catalyst increasing electric current density, so constitute electrolysis hydrogen anion and generate device.

But, the partial volume that the hydride ion generation device of patent documentation 1 generates is big, structure is complicated, cost is high, and the family or the enterprise that are not therefore suitable for general small sized product are used.

And, only simple hydride ion manufactures function, does not possess other difference in functionalitys, has the shortcoming that can not meet consumer demand. Technical literature formerly:

(patent documentation 0001) be Republic of Korea's open source literature the 2011-0039647th (2011.4.20 is open) 1..

[summary of the invention]

The problem that this invention address that the intension of described prior art, aim to provide a kind of miniaturization, lightness, high with minimum hydrogen oxide dissolution rate as far as possible, artificial intelligence, according to voltage-regulation hydrogen generating capacity, use the hydride ion generating means of hydrogen at short notice to greatest extent simultaneously.

And, it is a further object to provide a kind of hydride ion that can launch anion in air and manufacture device.

For reaching above-mentioned purpose, the hydride ion of the present invention generates device, and pedestal includes power suppling part, and the energy of desorption on described pedestal holds water simultaneously and manufactures device with the container generating hydride ion to complete hydride ion,

Described container part inner space forms container, and described container bottom is the base closed; The described base of described internal tank configures hydrogen-oxygen generation module; Also include,

Described hydrogen-oxygen generation module is the lower case of non-conducting material; Described lower case configures the lower electrode plate of conductive metal porous plate material; In described lower electrode plate, configuration is for the barrier film of ion isolation; Described barrier film configures the upper electrode plate of conductive metal porous plate material; Specific thickness includes the lower electrode plate configured on described lower electrode plate and described barrier film and the barrier film distance to lower partition; The gauge strips of regulation has the barrier film configured on described barrier film and described battery lead plate and the upper electrode plate distance to upper baffle plate; In described upper electrode plate, the described lower case of configuration is in conjunction with the upper case of non-conductive material; The hydride ion comprising all features manufactures device.

Invention effect is:

The hydride ion of the present invention generates device, simple in construction, miniaturization and lightness, being the mobile electrical devices being suitable for family and enterprise's use, upper and lower battery lead plate includes the installation of the core parts such as barrier film (ion separation membrane) and has certain distance, to generate hydrogen and oxygen, by material and electroplating processes, suppress the generation of impurity on pole plate simultaneously, improve electrical conductivity, reach in the short time, to generate hydrogen amount to greatest extent.

And, battery lead plate and the fixing shell structure of barrier film (ion separation membrane), it is possible to the dissolving of maximum hydrogen, it is desirable to minimize the dissolving of oxygen.

And, hydride ion generates device and has anion generating unit, and the anion of transmitting can make room air keep more comfortable.

[accompanying drawing explanation]

Fig. 1 is the overall schematic of the hydride ion generation device of embodiments of the invention.

Fig. 2 is the exploded perspective view of the container part of the hydride ion generation device of embodiments of the invention.

Fig. 3 is the assembling oblique view of the container part of the hydride ion generation device of embodiments of the invention.

Fig. 4 is the assembling sectional view of the container part of the hydride ion generation device of embodiments of the invention.

Fig. 5 is the schematic cross-section of the hydrogen-oxygen generation module of embodiments of the invention.

Fig. 6 is the exploded perspective view of the power suppling part of the hydride ion generating means of embodiments of the invention.

[symbol description]

100: container part

110: container 120: base

121: adapter 122: sealing gasket 125: power connector end

130: hydrogen-oxygen generation module 131: lower case

131a: oxygen discharge region 132: lower electrode plate

133: lower partition 134: barrier film (ion separation membrane)

135: upper baffle plate 136: upper electrode plate

137: upper body 138: electrode

140: shank 150: cap

151: switch

200: cap 205: power-supply unit

201:PCB plate 210: anion generating unit

211: anion generator 212: blower fan

213: anion discharge region 214: anion emission box

220: fore shell 221: plate

230: back cover 231: air filter

240: pedestal

[detailed description of the invention]

Hereinafter, embodiments of the invention are described in detail referring to drawing. But, additional embodiment is adapted to assist in the understanding of the present invention, and the present invention is not limited to the present embodiment, and skill generally in the art is known this technology or is easily achieved the technology of degree, does not describe in detail at this.

Fig. 1 is the overall schematic of the hydride ion generation device of embodiments of the invention.

Referring to Fig. 1, the hydride ion of the present invention generates device, pedestal (240) includes power suppling part (200), energy of desorption on pedestal (240) holds water to generate the container (100) of hydride ion simultaneously, including, base (120) is formed on container (110) bottom, when described pedestal (240) is installed, power suppling part (200) supply power supply gives described container part (100), increases the hydrogen content of the water of preservation in described container (110).

Described power suppling part (200) has anion generating unit (210), and the front-back of described anion generating unit (210) is respectively provided with fore shell (220) and back cover (230).

Fig. 2 is the exploded perspective view of the container part of the hydride ion generation device of embodiments of the invention. Fig. 3 is the assembling oblique view of the container part of the hydride ion generation device of embodiments of the invention. Fig. 4 is the assembling sectional view of the container part of the hydride ion generation device of embodiments of the invention. Fig. 5 is the schematic cross-section of the hydrogen-oxygen generation module of embodiments of the invention.

Fig. 2 and Fig. 4 describes described container part (100), the internal water capacity is received water storage space and is formed container (110), described container (110) bottom is the base (120) closed, the described base (120) upper configuration hydrogen-oxygen generation module (130) that described container (110) is internal.

Base described here (120) has the adapter (121) of connection container (110), between described adapter (121) and hydrogen-oxygen generation module (130), uses the sealing gasket (122) that the rubber preventing leaking or silicon materials support.

And, described container (110) top has fixing shank (140), and container (110) upper end is provided with cap (150), and described cap (150) has switch (151).

Fig. 2 and Fig. 5 describes hydrogen oxygen generator unit (130), the module that hydride ion manufactures dissolves hydrogen-ion by electrically decomposing, include lower case (131) from the bottom up, lower electrode plate (132), lower partition (133), barrier film (134), upper baffle plate (135), upper electrode plate (136) and upper body (137), and described lower electrode plate (132) and upper electrode plate (136) are electrically connected electrode respectively.

Described lower case (131) and upper body (137) be combined with each other formation inner space to realize the profile of hydrogen-oxygen generation module, and these can adopt the non-conductive synthetic resin materials such as ABS resin to make.

The porous plate that the described housing (131) of described lower electrode plate (132) upper configuration electrical conductivity sheet metal manufactures.

Described barrier film (134) is arranged in described lower electrode plate (132), and mainly the polymeric membrane of silicon materials manufactures, and has zwitterion and separates (cut-out) function.

Described upper electrode plate (136) configures described barrier film (134), uses electrical conductivity sheet metal processing and manufacturing to become porous plate state.

Here described lower electrode plate (132) and upper electrode plate (136) are that titanium material is made respectively, surface platinum gold-plated. Titanium thickness is 0.5mm-1mm, and the gold-plated film thickness of platinum is 0.2 μm-0.5 μm, and when so constituting water 1.8L-2L, hydrogen-ion concentration is the best hydride ion formation condition of 1.0-1.6PPM.

The thickness that described lower partition (133) specifies is the processing water route of non-conductive synthetic resin material forming, the distance of the regulation between the lower electrode plate (132) and the barrier film (134) that configure between described lower electrode plate (132) and barrier film (134).

And, the thickness that described upper baffle plate (135) specifies is the processing water route of non-conductive synthetic resin material molding, the distance of the regulation between the barrier film (134) and the upper electrode plate (136) that configure between described barrier film (134) and upper electrode plate (136).

Described electrode (138) is the bottom in described container (110), for being electrically connected upper electrode plate (136) and lower electrode plate (132), these electrodes (138) form the electrode terminal (not shown) on corresponding pedestal (240).

Therefore, when described container part (100) has pedestal (240) installation of described power suppling part (200), electrode terminal and described electrode (138) are electrically connected to each other, and are supplied to described hydrogen-oxygen generation module (130) to generate hydrogen and oxygen by power supply.

The described lower electrode plate (132) of described lower case (131) forms the oxygen holding the oxygen generated and launches airspace (S), described oxygen is launched airspace (S) and is formed at least one oxygen discharge region (131a) on lower case (131) wall, at this moment, the lower surface of the described lower electrode plate (132) of described oxygen discharge region (131a) upper surface and collinear on position or lower position have wind, oxygen and the dissolving of anion gas in such water reach to minimize.

The effect of hydrogen-oxygen generation module (130) described in following description.

It is upper electrode plate (136) from the bottom up respectively in bottom and upper body (131) (137), barrier film (134) and lower electrode plate (132), water discharge in configuration status container (110), upper electrode plate (136) and lower electrode plate (132) respectively negative electricity stream and positive electricity stream, the upper hydrogen-ion generating microbubble form of the upper electrode plate (136) that water, electricity and gas decomposes, the upper oxygen ion generating microbubble form of lower electrode plate (132).

Hydrogen-ion is that the open space that upper body (137) top is formed passes through the hydrogen usage in dissolving container (110) water in the water ramped up, by the rising of the microbubble form oxygen ion that barrier film (134) prevention lower electrode plate (132) generates, the oxygen that the bottom surface portions of lower electrode plate (132) is formed is launched the unity mutually of airspace (S) and is gradually become big water droplet.

Like this, in oxygen transmitting airspace (S), huge oxygen unity forms pockets of bubble and contacts stop on the bottom surface of lower electrode plate, it is discharged in water by oxygen discharge region (131a), now oxygen rises with huge block form, can not be dissolved in water, emit from air.

Position on same line of the upper surface of described oxygen discharge region (131a) here and the lower surface of described lower electrode plate (132) or location below, oxygen discharge region (131a) can not discharge the oxygen bottom surface to lower electrode plate (132).

Now, micro-oxygen ion of lower case (131) is at the cohesion in bulk of the bottom surface of lower electrode plate (132), and the oxygen of the block type after expansion drips to be launched from the water surface, and result can minimize the capacity of water oxygen gas, maximizes and manufactures pure hydrogen.

But the mensuration that each pole plate (132) (136) is the resistance value to electric current utilizes in container (110) whether hold water. Namely, automatic water level measurement, therefore the bottom in container, whether above-mentioned hydrogen-oxygen generation module (130) namely has the water level of water, when low water level being detected, whether automatic decision cuts off voltage or the electric current of upper electrode plate (136) and lower electrode plate (132), it is prevented that unnecessary electric energy loss, cut off supply of electric power by the state of water simultaneously, improve safety. Of course, it is possible to by resistance measurement, during water level height, it is judged that voltage that each pole plate (132) (136) allows or electric current supply.

And, electrical resistance is also had to measure the state (such as content of mineral substances of water dustiness) of the detection water by holding in described container (110), by regulating the voltage-regulation hydrogen growing amount of described upper electrode plate (136) and lower electrode plate (132). Namely, such as, when content of mineral substances is too high, damaging overvoltage circuit for generating, voltage or electric current that each pole plate (132) (136) passes through are low, hydrogen-oxygen generating capacity is few, in turn, content of mineral substances is low, conducts electricity bad, voltage or electric current that each pole plate (132) (136) passes through are high, and hydrogen-oxygen growing amount increases.

Certainly, the concept that the present invention opposes, the problem such as the control content of mineral substances of water of pcb board (201) (referring to Fig. 6) and dustiness, also not necessarily always there is increasing at certain electric current and voltage, hydrogen growing amount maintains certain level. Now, the electric current of each pole plate (132) (136) is 500mA～800mA. Voltage is within the scope of 8V～12V, and the variation of curtage is maintained at electric current 800mA, voltage 12V as far as possible.

Fig. 6 is the exploded perspective view of the power suppling part of the hydride ion generating means of embodiments of the invention.

Fig. 1 and Fig. 6 describes power suppling part (200) and has anion generating unit (210), is respectively provided with front housing (220) and housing (230) below after before described anion generating unit.

Described anion generating unit (210) has the anion generator (211) of electrical connection, described anion generator (211) has the blower fan (212) that anion is sent to outside and the anion discharge region (213) that is sent out of anion, having the air filter (231) purified from outside leaked-in air before described blower fan, negative ion producing box (214) is arranged on above housing (220) and below housing (230) this part.

Described anion generator (211) electrical connection anion releasing, it can be applied in vacant lot technology, omits the description herein.

The container part (100) with power connector end (125) is described referring to Fig. 2 and Fig. 6, power suppling part (200) has power-supply unit (205), described power-supply unit (205) has supply power supply to the metal terminal of container part (100), when described power connector end (125) is to install power suppling part (200) in container part (100), and described power-supply unit (205) is electrically connected in order to pass to the electric current power supply terminal to container part (100).

Here, Fig. 2 also illustrates power connector end (125) and is mounted in base (120) the part lower end of container, so prevents from leaking and the danger such as electric leakage.

When described hydrogen-oxygen generation module (130) uses, upper electrode plate (136) and lower electrode plate (132) be respectively (-) electric current and (+) electric current, (scale) is there is at ion-conductance polar board surface, for eliminate top power suppling part (200) (-) electric current and (+) situation that electric current is contrary, it is provided that pole conversion switch (Gary).

To this, along with the water in container (110) discharges, when using pole permutator, upper electrode plate (136) (+) electric current is to measure separation anion, remove, contrary lower electrode plate (132) (-) electric current can measure separation cation, battery lead plate can be simultaneously generated cleaning agent.

On the other hand, Fig. 6 explanation does not have the display panel of the built-in various functional statuses before drawing symbol ' 221 ' before housing (220).

Above; although the embodiment that the present invention relates to is illustrated; but the invention is not limited in embodiment, every any simple modification, equivalent variations and modification above example made according to the technical spirit of the present invention, each fall within the protection domain of technical solution of the present invention.

Claims (10)

1. a hydride ion generating means, including a pedestal, pedestal includes power suppling part, and the energy of desorption on described pedestal holds water simultaneously and manufactures device with the container generating hydride ion to complete hydride ion, described container part inner space forms container, and described container bottom is the base closed; The described base of described internal tank configures hydrogen-oxygen generation module; Also including, described hydrogen-oxygen generation module is the lower case of non-conducting material; Described lower case configures the lower electrode plate of conductive metal porous plate material; In described lower electrode plate, configuration is for the barrier film of ion isolation; Described barrier film configures the upper electrode plate of conductive metal porous plate material; Specific thickness includes the lower electrode plate configured on described lower electrode plate and described barrier film and the barrier film distance to lower partition; The gauge strips of regulation has the barrier film configured on described barrier film and described battery lead plate and the upper electrode plate distance to upper baffle plate; In described upper electrode plate, the described lower case of configuration is in conjunction with the upper case of non-conductive material; The hydride ion comprising all features manufactures device.

2. a kind of hydride ion generating means according to claim 1, it is characterized in that the described upper electrode plate of described container bottom and lower electrode plate are all connected to electrode, the described hydrogen-oxygen generation module that described electrode on described pedestal and the electrode terminal of electric connection define described container part and described base portion is installed is supplied to the hydride ion including all features to manufacture device with power supply.

3. a kind of hydride ion generating means according to claim 1, it is characterized in that, the described lower electrode plate of described lower case forms the space of the oxygen discharge air holding the oxygen generated, described oxygen discharge airspace formed the wall of lower case is formed at least one oxygen discharge region include own.

4. a kind of hydride ion generating means according to claim 1, it is characterized in that, also increase the content of mineral substances of water that electrical equipment resistance measurement receives by described container contents, dustiness, in water level at least one, and regulate voltage or the electric current of the described upper electrode plate of cut-out and lower electrode plate; Hydride ion including all features manufactures device.

5. a kind of hydride ion generating means according to claim 1, it is characterised in that the electric current of described upper electrode plate and lower electrode plate is 500mA-800mA, and voltage is 8V-12V, and the hydride ion comprising all features manufactures device.

6. a kind of hydride ion generating means according to claim 1, it is characterized in that described lower electrode plate and the respective thickness of upper electrode plate are the ferrotianium of 05.mm to 1mm, surface is that the platinum of 0.2 μm to 0.5 micron is gold-plated, and the hydride ion including all features manufactures device.

7. a kind of hydride ion generating means according to claim 1 or claim 6, it is characterised in that described power suppling part includes the anion generating unit of anion in discharge air, and the hydride ion including all features manufactures device.

8. a kind of hydride ion generating means according to claim 7, it is characterised in that described anion discharge portion, electrical equipment is the anion generator producing anion; So the side that anion occurs possesses the blower fan of transfer-out anion, the anion that described blower fan transmits is diffused into anion discharge region; Described blower fan has the air filter purifying outside leaked-in air; Hydride ion including all features manufactures device.

9. a kind of hydride ion generating means according to claim 1 or 8, it is characterised in that described power suppling part, described upper electrode plate and described lower electrode plate have the switch of switching negative electrode and anode, the hydride ion including all features manufactures device.

10. a kind of hydride ion generating means according to claim 1 or 8, it is characterised in that power connector end of described container is arranged on lower end after described base, the hydride ion including all features manufactures device.