CN104709976A - Membraneless water electrolysis device for preparing beauty lotion - Google Patents

Abstract

A membraneless water electrolysis device for preparing beauty lotion is characterized by comprising a water container, a controllable electrolytic power supply and a membraneless electrolysis electrode assembly, wherein the membraneless electrolysis electrode assembly is soaked in water in the water container; the controllable electrolytic power supply supplies power to the membraneless electrolysis electrode assembly; raw water is electrolyzed through the clearance between different-polarity electrodes of the membraneless electrolysis electrode assembly; the membraneless electrolysis electrode assembly adopts a membraneless water electrolysis technology capable of effectively electrolyzing purified water or distilled water; the design of the membraneless electrolysis electrode assembly has the characteristics of reasonable relative small clearance between different-polarity electrodes gaps, reasonable relatively large area of electrode gaps, and proper water flowability in the electrode gaps during the water electrolysis process, so as to increase the probability of electrolysis of impurities and water molecules and the quantity of electrolyzed impurities and water molecules, and improve the water electrolysis efficiency to reach ORP and PH value and other indexes of the beauty lotion.

Description

A kind of make after shave lotion without film electrolytic water device

Technical field

The present invention relates to a kind of make after shave lotion without film electrolytic water device, belong to without film brine electrolysis technical field.

Background technology

The application of the mankind to brine electrolysis is progressively expanded, and people find already: be negative value with redox potential and ORP and the water face-washing being rich in hydrogen applies face, has the good result of the oxyradical removing skin, anti-oxidant, beautifying and anti-aging.In recent years, slightly acidic negative potential water is generally considered to cosmetic good merchantable brand, but expensive.In recent years, what market has occurred making after shave lotion has barrier film electrolyzed water machine product, but this technology has many defects, and connect water tap and use, not Portable belt, cost performance is low, and market acceptance is lower.Tradition barrier film brine electrolysis technology is good to make simultaneously and is produced the hydrogeneous alkaline water of negative potential and positive potential oxygen enrichment sour water, and makes the technology of negative-potential acid water and immature, still needs exploration.Applicant is through the discovery that studies for a long period of time: be well worth doing in the acid after shave lotion of making negative potential without film brine electrolysis technology.Therefore the present invention arises at the historic moment just.

Summary of the invention

The present invention propose a kind of make after shave lotion without film electrolytic water device, be use negative potential to be rich in the slightly acidic of hydrogen or neutral water in order to people can make easily and design.Make slightly acidic or neutral water that negative potential is rich in hydrogen, the most simple way is exactly make of pure water or distilled water, because pure water or distilled water have been weakly acidic water, pH value is greatly between 5.5 to 6.5, quality is pure, originally just can be used as after shave lotion to use, by many Mies are favored.But blemish in an otherwise perfect thing be pure water, distilled water redox potential on the occasion of, do not have oxidation-reduction resistance, become negative potential slightly acidic pure water if can make, that has been exactly ideal after shave lotion.Problem is: pure water is considered to can not or to be difficult to electrolysis, and should produce comparatively high negative potential water can not be allowed again to become alkalescence, and this is that traditional electrolyte water machine technology is difficult to be competent at.For this reason, brine electrolysis efficiency acid-basicity that is high especially and that substantially do not change water is needed maybe can to allow water relatively weakly acidic brine electrolysis technology.From professional angle, water electrolysis efficiency (or claiming brine electrolysis efficiency), generally can be defined as: under a certain amount of water of electrolysis and electrolysis certain hour situation, the ratio of certain representative index of made brine electrolysis (the ORP negative value of such as electrolytic reduction water or hydrogen content numerical value) and institute's current consumption.In other words, certain electrolysis process or electrolyzer, it is less that the same water yield of electrolysis reaches same brine electrolysis index institute consuming electric power, and this device brine electrolysis efficiency is higher.Applicant is adopted to find to obtain higher brine electrolysis efficiency and beauty treatment brine electrolysis index with the brine electrolysis new principle of invention and novel method.

The brine electrolysis new principle that applicant finds and significantly improve the method for brine electrolysis efficiency, root is in deep layer research traditional electrolyte water machine brine electrolysis principle being existed to significant deficiency.Traditional electrolyte water principle is only confined to the ion chemistry molecular balance equation that so-called water molecules electrolysis produces, the impurity ignoring water in electrolytic process completely the electronics that produces by electrolysis and contaminant particles, and to improving the significance of brine electrolysis index and electrolytic efficiency, therefore have no way of explaining that cathodic area alkaline water has comparatively high-reduction water key index and higher oxygen reduction potential (ORP) negative value and higher hydrogeneous (H, H2, H-) phenomenon measured, ignore cathodic area water completely and form the key events that higher ORP negative value and negative hydrogen (H-) content needs a great deal of active electrons, therefore existing electrolysis tech efficiency cannot be solved too low, even if strengthen the difficult problem that Faradaic current does not reach the higher brine electrolysis index of anticipation yet.Applicant studies for a long period of time acquisition six new discoveries:

One of new discovery: brine electrolysis process, in order to improve brine electrolysis efficiency, the impurity that primary is in brine electrolysis.Impurity is produced unbound electron by electrolysis and is conducive to improving the contaminant particles of brine electrolysis index, be called for short " impurity electrolytic effect " herein, impurity electrolytic effect forms certain Faradaic current, and making water molecules disintegrate becomes hydrogen, oxonium ion or hydroxide ion root, herein referred to as " water molecules electrolytic effect ".Brine electrolysis efficiency and index are " impurity electrolytic effect " and " water molecules electrolytic effect " coefficient result; New discovery two: disclose active electrons that " impurity electrolytic effect " produce for the double meaning improving electrolytic efficiency, active electrons not only can increase Faradaic current, and reductive water is made for electrolysis also there is another significance, meet ORP (negative redox potential) negative value of certain brine electrolysis index such as electrolytic reduction water and corresponding hydrogen richness (negative hydrogen richness) thereof exactly to needed for electronics.Therefore for improving electrolytic efficiency, electrolysis process should be strengthened " impurity electrolytic effect " as far as possible, to produce more active electrons; New discovery three: be that opposing electrode small―gap suture (being especially less than the small―gap suture of 1mm) has unusual effect for strengthening " impurity electrolytic effect ", although non-isolating film brine electrolysis technology before this also once mentioned that opposing electrode spacing was less than the design consideration of 3mm, but do not understand closely spaced practical significance, the technique behave matched with it is not more known where to begin, and can not reach the effect significantly improving brine electrolysis efficiency; New discovery four: another significance of electrolysis electrode gap Small Distance design can create active electrons and active hydrogen H is combined into the more chance of negative hydrogen and better condition, thus significantly improve the efficiency of electrolysis making reductive water; New discovery five: opposing electrode small―gap suture is little of certain value, electrolytic efficiency does not rise counter falling, does is what reason this? research confirms: need to strengthen " impurity electrolytic effect ", also need in electrolytic process, ensure that water has certain circulation in opposing electrode gap, this can impel more water molecules and impurity more repeatedly by electrolysis, thus strengthening " impurity electrolytic effect ", improve water electrolysis efficiency and brine electrolysis and reduce index; To the further investigation of circulation in brine electrolysis process, explain after why Faradaic current is increased to certain value, brine electrolysis efficiency does not rise counter falling.Major reason is: if the circulation of water is bad in electrode gap, can make electrode gap intermediate ion excessive concentration, thus affect electrolytic efficiency; New discovery six: for the outer power-actuated flowing water such as tap water of electrolysis, in certain space shared by electrode assemblie, take the design rationally increasing electrolysis interval area, be conducive to more impurity and water molecules electrolysis more repeatedly in water, water electrolysis efficiency and electrolysis index can be improved.In addition, in the flowing water situation that electrolysis flow velocity is too fast, to the passage installing electrolysis electrode assembly, take the design that water exit (water outlet) is suitably narrower than water entry (water-in), the flow velocity of water through electrolysis electrode assembly can be reduced, thus increase impurity and water molecules are by the time of electrolysis and chance, improve the index of brine electrolysis.

Applicant passes through for above-mentioned six newfound comprehensive analyses, following brine electrolysis new principle is proposed: brine electrolysis process, first, be that the generation of electrolysis impurities in water enlivens electronics, forming electric current, is the process of the decomposition energy of water molecules by electric energy conversion, therefore more water molecules is made to obtain larger electric energy and decompose, be the basis obtaining higher electrolytic efficiency, but obtain higher electrolytic efficiency, also need to possess other essential condition.This is because electrolytic process is simultaneously still: impurity the various ions (especially enlivening electronics) that discharge by electrolysis produce with water-molecule dissociation various hydroxide ions, ion root generation physical and chemical effect process, in the process, for the electrolytic efficiency improving water has two essential condition, first, if more impurity is by electrolysis, electronics, the ion of its release are more, and the probability that itself and hydroxide ion combine is just higher, brine electrolysis index may be higher, and electrolytic efficiency is also just higher; The second, if can create conditions, the probability that the electronic and ionic that impurity is discharged by electrolysis and hydroxide ion combine is higher, and brine electrolysis index may be higher, and electrolytic efficiency is also just higher.The higher ORP negative value of such as electrolytic reduction water and hydrogen content (two indexes is briefly collectively referred to as by applicant " negative hydrogen " index), the more electronics that enlivens is needed to participate in, therefore, impurities in water is discharged by electrolysis that to be combined as the probability of negative hydrogen compared with polyelectrons and electronics and hydrogen ion higher, just can improve negative hydrogen index and electrolytic efficiency.

The brine electrolysis new principle of applicant discloses: improve electrolysis making reductive water efficiency and will take three-pronged processing method, the electrolysis of impurities in water should be strengthened, improve the electronics of impurity electrolysis release again, also will increase the probability that electronics that electrolysis discharges and hydrogen are combined into negative hydrogen.Applicant studies and has found to realize this three-pronged concrete electrolysis process method: one is suitably reduce the distance between opposing electrode electrolysis gap, two is the areas suitably expanding opposing electrode electrolysis gap, three is the mobility suitably remaining on water turnover in brine electrolysis process opposing electrode gap, the coordination of these three technology conditions realizes, strengthening impurity electrolysis can be taken into account preferably and effect of raising reduction index, thus significantly improve brine electrolysis efficiency.Especially: the brine electrolysis that electrolysis novel method produces both can realize substantially not changing former water acid-basicity, and brine electrolysis also can be made than former water bias.The present invention is a kind of make after shave lotion without film electrolytic water device, adopt the brine electrolysis novel method of applicant's invention to be the better selection realizing making slightly acidic negative potential after shave lotion.

The present invention is a kind of make after shave lotion without film electrolytic water device, it is characterized in that: comprise water container, controllable electrolysis power supply, without film electrolysis electrode assembly; To be immersed in container in water without film electrolysis electrode assembly; Controllable electrolysis power supply is to electrolysis electrode assembly power supply; Former water passes through the gap of electrode assemblie opposing electrode by electrolysis; Without film electrolysis electrode assembly adopt can effectively electrolysis pure water or distilled water without film brine electrolysis technology.

Content two of the present invention: described water container can design water-in and water outlet, former water can enter container from water-in, to be immersed in container in water without film electrolysis electrode assembly; Controllable electrolysis power supply is to electrolysis electrode assembly power supply; In container, water passes through the gap of electrode assemblie opposing electrode by electrolysis; Electrolysis electrode assembly adopt can effectively electrolysis pure water or distilled water without film brine electrolysis technology; The water outlet of electrolysis water from container flows out.

Content three of the present invention: described electrolysis electrode assembly, between its opposing electrode stay the spacing in gap by rationally littleization principle design, clearance distance is being less than 5mm, is being greater than between 0mm, is beneficial to the electrolysis strengthening impurities in water and water molecules; In certain space shared by electrolysis electrode assembly, between opposing electrode, the area in gap is by rationally largeizationr principle design, to make in water more impurity and water molecule energy in electrode gap more repeatedly by electrolysis; The feature of electrolysis electrode assembly and mounting process condition thereof is: in brine electrolysis process, water can comparatively smooth flow in opposing electrode gap, make to be changed by the water of electrolysis in opposing electrode gap, and make more impurity and water molecules by opposing electrode electrolysis more repeatedly, increase impurity and water molecules by the probability of opposing electrode electrolysis and quantity, thus improve the electrolytic efficiency of water.

Content two of the present invention: described electrolysis electrode assembly, if desired, spacing between electrolysis electrode assembly opposing electrode can be as small as 1mm or less, to be comparatively beneficial under certain electrolysis power and certain electrolysis electrode unit construction, the electrolysis of strengthening impurities in water and water molecules, improve the efficiency of water electrolysis, and can the effective low conductivity water such as electrolysis pure water and distilled water.

Content two of the present invention: described electrolysis electrode assembly, opposing electrode structure design makes: when water in electrode gap is produced mobility by electrolysis, in electrode gap, water and ion can be taken advantage of a situation and be flowed, so that more water flows through opposing electrode gap, change in gap by the water of electrolysis, make more impurities in water and water molecule energy by the electrolysis more repeatedly of electric current between opposing electrode, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

Content two of the present invention: described electrolysis electrode assembly, certain space is left in outside, electrode gap two-port position, when making water produce flowing in by the process of electrolysis, water can in opposing electrode gap comparatively smooth flow, improve the efficiency of water electrolysis.

Content two of the present invention: described electrolysis electrode assembly, in certain space shared by electrolysis electrode assembly, by rationally increasing the area of electrode gap, flowing water can be extended in electrode gap by the time of electrolysis, make more impurity and water molecules by opposing electrode electrolysis more repeatedly, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

Content two of the present invention: described electrolysis electrode assembly, the water exit of its place container designs narrower than water entry, suitably to slow down the flow velocity of the water flowing to electrolysis electrode gap, make more impurity and water molecules by the electrolysis more repeatedly of electric current between opposing electrode, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

Content two of the present invention: described electrolysis electrode assembly, when the cell wall material and shape of wrapping up electrolysis electrode assembly fit cooperating electrode, suitably can connect it as electrolysis electrode, increase electrolysis electrode interval area, improve the electrolytic efficiency of water.

Content two of the present invention: to be describedly made up of the electrode of two opposed polarities without film electrolysis electrode assembly, one of electrode is bore shape, tubular electrode number is N number of, N is equal to or greater than 1, and barrel can non-notch or jagged, and the position of each bore electrode is fixed and is electrically connected to each other for machinery; Two of electrode is column, and each post position is fixed for mechanical and be electrically connected to each other, and the post number of columnar electrode is M, and M is equal to or greater than 1; Post be hollow or solid, can non-notch or jagged; The height of tubular electrode and columnar electrode is not limit, according to required selection; Tubular electrode grafting corresponding to columnar electrode, namely each post of columnar electrode inserts in each corresponding bore, leaves between the post electrode surface inserted and bore electrode apparent surface gap water being done to electrolysis; In electrolysis working process, the water in electrode gap can flow; Certain space is left in the outside of electrode gap two port position, so that water is by the process of electrolysis, can flow in electrode gap.

Basic technical scheme: a kind of make after shave lotion without film electrolytic water device, comprise water container, controllable electrolysis power supply, without film electrolysis electrode assembly, it is characterized in that: to be immersed in container in water without film electrolysis electrode assembly; Controllable electrolysis power supply is to electrolysis electrode assembly power supply; Former water passes through the gap of electrode assemblie opposing electrode by electrolysis; Electrolysis electrode assembly adopt can effectively electrolysis pure water or distilled water without film brine electrolysis technology.

One of technical scheme is: described water container can design water-in and water outlet, and former water can enter container from water-in, to be immersed in container in water without film electrolysis electrode assembly; Controllable electrolysis power supply is to electrolysis electrode assembly power supply; In container, water passes through the gap of electrode assemblie opposing electrode by electrolysis; Electrolysis electrode assembly adopt can effectively electrolysis pure water or distilled water without film brine electrolysis technology; The water outlet of electrolysis water from container flows out.

Two of technical scheme is: described electrolysis electrode assembly, between its opposing electrode stay the spacing in gap by rationally littleization principle design, clearance distance is being less than 5mm, is being greater than between 0mm, is beneficial to the electrolysis strengthening impurities in water and water molecules; In certain space shared by electrolysis electrode assembly, between opposing electrode, the area in gap is by rationally largeizationr principle design, to make in water more impurity and water molecule energy in electrode gap more repeatedly by electrolysis; The feature of electrolysis electrode assembly and mounting process condition thereof is: in brine electrolysis process, water can comparatively smooth flow in opposing electrode gap, make to be changed by the water of electrolysis in opposing electrode gap, and make more impurity and water molecules by opposing electrode electrolysis more repeatedly, increase impurity and water molecules by the probability of opposing electrode electrolysis and quantity, thus improve the electrolytic efficiency of water.

Three of technical scheme is: described electrolysis electrode assembly, if desired, spacing between electrolysis electrode assembly opposing electrode can be as small as 1mm or less, to be comparatively beneficial under certain electrolysis power and certain electrolysis electrode unit construction, the electrolysis of strengthening impurities in water and water molecules, improve the efficiency of water electrolysis, and can the effective low conductivity water such as electrolysis pure water and distilled water.

Four of technical scheme is: described electrolysis electrode assembly, opposing electrode structure design makes: when water in electrode gap is produced mobility by electrolysis, in electrode gap, water and ion can be taken advantage of a situation and be flowed, so that more water flows through opposing electrode gap, change in gap by the water of electrolysis, make more impurities in water and water molecule energy by the electrolysis more repeatedly of electric current between opposing electrode, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

Five of technical scheme is: described electrolysis electrode assembly, and certain space is left in outside, electrode gap two-port position, when making water produce flowing in by the process of electrolysis, water can in opposing electrode gap comparatively smooth flow, improve the efficiency of water electrolysis.

Six of technical scheme is: described electrolysis electrode assembly, in certain space shared by electrolysis electrode assembly, by rationally increasing the area of electrode gap, flowing water can be extended in electrode gap by the time of electrolysis, make more impurity and water molecules by opposing electrode electrolysis more repeatedly, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

Seven of technical scheme is: described electrolysis electrode assembly, the water exit of its place container designs narrower than water entry, suitably to slow down the flow velocity of the water flowing to electrolysis electrode gap, make more impurity and water molecules by the electrolysis more repeatedly of electric current between opposing electrode, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

Eight of technical scheme is: described electrolysis electrode assembly, when the cell wall material and shape of wrapping up electrolysis electrode assembly fit cooperating electrode, it suitably can be connected as electrolysis electrode, increase electrolysis electrode interval area, improve the electrolytic efficiency of water.

Nine of technical scheme is: described electrolysis electrode assembly, and be made up of two opposing electrodes, one of electrode is perforate shape, and hole wall position is fixed and is electrically connected to each other for machinery, and poroid electrode hole number is N number of, N=1 ~ arbitrary value, and hole wall can jagged or non-notch; Two of electrode is column, and each post position is fixed for mechanical and be electrically connected to each other, and the post number of columnar electrode is M, M=1 ~ arbitrary value, and post is hollow or solid; The grafting corresponding to columnar electrode of poroid electrode, namely each post of columnar electrode inserts in each corresponding aperture of poroid electrode, leaves the electrode gap that can carry out electrolysis to water between the post surface of inserting and hole surface; In electrolysis working process, the water in electrode gap can flow; Certain space is left in the outside of electrode gap two port position, so that water is by the process of electrolysis, can flow in anodic-cathodic gap.

Accompanying drawing explanation

Below by accompanying drawing, the present invention is further explained.

Fig. 1 be the embodiment of the present invention 1 one kinds make after shave lotion without film electrolytic water device

Fig. 2 be the embodiment of the present invention 2 one kinds make after shave lotion without film electrolytic water device

Embodiment

Below in conjunction with embodiment 1 accompanying drawing 1 illustrated embodiments basic structure and basic functional principle.

Embodiment 1

As Fig. 1, the present invention is a kind of make after shave lotion without film electrolytic water device, comprise water container 10, controllable electrolysis power supply 9, without film electrolysis electrode assembly 8, it is characterized in that: be immersed in container in water without film electrolysis electrode assembly 8,15 is container median water level line; Controllable electrolysis power supply 9 powers to electrolysis electrode assembly 8 by wire 6 and 7; In container 10, water is by the gap of electrode assemblie opposing electrode, by electrolysis; Can pure water effectively in electrolytic vessel without film electrolysis electrode assembly 8, pure water is made and becomes negative potential slightly acidic after shave lotion.The feature of this example electrolysis electrode assembly 8 is: two opposing electrodes are respectively bore shape (hereinafter referred is poroid) electrode 1 and may correspond to it the columnar electrode 2 of grafting, the post of columnar electrode 2 inserts in the corresponding aperture of poroid electrode, electrolysis gap 3 is left between post surface and hole surface, schematically depict 3 gaps 3 in Fig. 1, the spacing-visible in gap needs the scope being greater than 0 to 5mm to select; To meet in electrolysis working process in certain circulation situation of water in gap 3, the desirable smaller value of spacing (as equal and even be less than 1mm) in gap 3, with the electrolysis effectiveness of fortified water and wherein impurity, this is especially favourable for the water that the specific conductivity such as electrolysis pure water, distilled water are low; Under clearance distance one stable condition, impurity and water molecules are be directly proportional to interval area by the probability of electrolysis and quantity, because this gap 3 area largeizationr (depending on hole quantity and diameter thereof and height) can improve electrolytic efficiency; 11,12 bottom, the upper spaces being respectively electrolysis electrode assembly 8, design to make water in electrode gap smoothly to flow, in brine electrolysis process, water molecules in gap is by after electrolytic decomposition, hydrogen, oxygen bubbles can be produced upwards elegant along gap, thus drive water in gap 3 upwards to flow, flow out from gap 3 upper port, water is caused to flow into continually electrode gap 3 from gap 3 lower opening and space 11, in the process that water flows in gap 3, water impurity and water molecules can by Faradaic current electrolysis repeatedly in gap 3; In Fig. 1, the shell 14 of electrolysis electrode assembly 8, for being applicable to the material doing electrolysis electrode use, being communicated with via wire 7 part that electrode 2 becomes 2, forming electrolysis gap 4 between 14 and electrode 1, stiffening device electrolysis effectiveness; Obviously, the spacing that gap 3 choose reasonable is less and larger area also meet glassware for drinking water in gap 3 and have good circulation, this electrolysis process Seriation Design is conducive to intensified electrolysis effect, improves water storage in container 10 by the index (ORP negative value and hydrogen richness as electrolytic reduction water) of the efficiency of electrolysis and brine electrolysis.

Table 1: embodiment 1 one kinds makes the measured data without the commercial pure water of film electrolytic water device electrolysis of after shave lotion

Note: electrolysis voltage 12V, electrolysis time 1 minute, former water: ORP=+378mv, hydrogen richness=0, TDS=0, pH value=5.8

Obviously, device produces the after shave lotion of the high-quality of slightly acidic high negative potential height hydrogen richness, and Antioxidant Indexes is much better than the existing analogous products in market, fullys meet the requirement of practicality quality products.

Embodiment 2

The present invention is a kind of make after shave lotion without film electrolytic water device as shown in Figure 2, compared with embodiment 1 accompanying drawing 1, only devise a water-in 13 in water receptacle increase, former water-in 5 changing function is water outlet 5, therefore, embodiment 2 and electrolysis nature Static Water embodiment 1 Fig. 1 device is different, for can be the device of after shave lotion by flowing water electrolysis.Former water can enter container 10 from water-in 13, is immersed in the water of container 10 without film electrolysis electrode assembly 8; Controllable electrolysis power supply 9 provides Faradaic current to electrolysis electrode assembly 8; Former water passes through the gap 3 of electrode assemblie opposing electrode by electrolysis; Electrolysis electrode assembly adopt can effectively electrolysis pure water without film brine electrolysis technology; The water outlet 5 of electrolysis water from container 10 flows out.Electrolysis electrode assembly is made up of two opposing electrodes 1,2, and electrode 1 is perforate shape, and in figure, signal draws 3 holes, and electrolysis power 9, for machinery is fixing, hole wall is electrically connected to each other and forms electrode 1, is connected by wire 7 in each hole site; Electrode 2 is column, and in figure, signal draws 3 posts, and each post position is fixed for machinery and is electrically connected to each other and forms electrode 2, connects electrolysis power 9 by wire 6; 1 and 2 may correspond to grafting, namely the post of columnar electrode 2 can insert in the corresponding aperture of poroid electrode 1, electrolysis gap 3 is left between post surface and hole surface, this gap in a tubular form, schematically depict 3 gaps 3 that 3 columnar electrodes and 3 poroid electrodes are formed in Fig. 1, gap clearance can optionally be selected within the specific limits, such as, be less than 5mm to the scope being greater than 0mm; If desired, the desirable smaller value of spacing in gap 3, as being less than 1mm to the scope being greater than 0mm, so that the electrolysis effectiveness of fortified water and wherein impurity, during the former water such as this pure water needing electrolytic conductivity low at device, distilled water, higher brine electrolysis efficiency and index can be obtained; Under electrode gap distance one stable condition, impurity is directly proportional to interval area by the probability of electrolysis and quantity to water molecules, because this gap 3 area largeizationr can improve electrolytic efficiency; In Fig. 2, the shell 14 of electrolysis electrode assembly 8, for being applicable to the material doing electrolysis electrode use, being communicated with via wire 7 part that electrode 2 becomes 2, forming electrolysis gap 4 between 14 and electrode 1, stiffening device electrolysis effectiveness; 11,12 bottom and the upper spaces being respectively container 10, design certain volume to space 11 and 12, contribute to water in electrode gap and smoothly flow.Because in brine electrolysis process, water molecules in gap is by after electrolytic decomposition, hydrogen, oxygen can be produced, hydrogen, oxygen bubbles can be upwards elegant along gap, thus drive water in gap 3 upwards to flow, space 12 is flowed out to from gap 3 upper port, this cause water from the lower port of gap 3 namely space 11 flow in electrode gap in a steady stream and supplement, obviously, if 11,12 is too narrow, may affect the circulation of water at electrode gap, the water entered from container water-in 15 flows into 11, by expection flow velocity by gap 3 electrolysis, can not can reduce the electrolytic efficiency of water, in sum, the spacing that gap 3 choose reasonable is less and larger area also meet glassware for drinking water in gap 3 and have certain circulation, and the process technology scheme that these three aspects are coordinated to take into account can significantly improve electrolytic efficiency, at this, device is used for electrolyte flow water, if the space 11,12 generally speaking outside the port of gap 3 is enough open, just easily meets the circulation of water in gap 3, it should be noted that another problem that may make brine electrolysis efficiency and reduce: if the flowing water flow velocity flowing into container 10 is too fast, water flows through the flow velocity of electrode gap 3 also can be too fast, electrolytic efficiency may be reduced, therefore, when application of installation is in the flowing water that electrolysis flow velocity is too fast, can meet on device traffic demand basis, take the design suitably slowing down flow rate of water flow in container, that the water outlet 5 of container 10 is designed significantly narrower than water-in 13 compared with simple scheme, water can be made to be slowed down to some extent by the flow velocity of container 10, and the flow rate of water flow entering electrode gap 3 can suitably slow down naturally thereupon, thus water time of electrolysis in gap is extended to some extent, strengthen the electrolysis effectiveness of water.

Table 2 is Fig. 2 device performance measured data, for strengthening electrolysis, electrode gap 3 area ratio embodiment 1 doubles, experiment shows: due to embodiment 2 for electrolysis flowing water makes acid negative potential after shave lotion, the time that water flows through electrolysis electrode gap 3 is very short, only has several seconds zero point, although more much shorter than the time (generally several minutes) of embodiment 1 electrolysis nature Static Water, but enhancing electrolysis effectiveness by increasing electrolysis electrode gap, still obtaining better after shave lotion index.

Table 2: embodiment 2 one kinds makes the measured data without the commercial pure water of film electrolytic water device electrolysis of after shave lotion

Note: electrolysis voltage 12V, former water: ORP=+378mv, hydrogen richness=0, normal temperature, TDS=0, pH value=5.8

Detect the practicality requirement that digital proof after shave lotion index reaches high standard after shave lotion, the adjustment leeway that distance after shave lotion ORP lower bound-200 and PH height limit 6.5 to have enough wide regions.

A kind of electrolysis electrode assembly without film electrolytic water device making after shave lotion of the present invention is not limited to the concrete structure using embodiment 1 or embodiment 2 to take, and the electrolysis electrode structure that any one can reach brine electrolysis index required for product in principle all can use.Brine electrolysis made by the present invention does not limit the use of in beauty treatment, can also be used for various applicable field.

Claims (10)

1. make after shave lotion without a film electrolytic water device, it is characterized in that: comprise water container, controllable electrolysis power supply, without film electrolysis electrode assembly; To be immersed in container in water without film electrolysis electrode assembly; Controllable electrolysis power supply is to electrolysis electrode assembly power supply; Former water passes through the gap of electrode assemblie opposing electrode by electrolysis; Without film electrolysis electrode assembly adopt can effectively electrolysis pure water or distilled water without film brine electrolysis technology.

2. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described water container can design water-in and water outlet, former water can enter container from water-in, to be immersed in container in water without film electrolysis electrode assembly; Controllable electrolysis power supply is to electrolysis electrode assembly power supply; In container, water passes through the gap of electrode assemblie opposing electrode by electrolysis; Electrolysis electrode assembly adopt can effectively electrolysis pure water or distilled water without film brine electrolysis technology; The water outlet of electrolysis water from container flows out.

3. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described electrolysis electrode assembly, between its opposing electrode stay the spacing in gap by rationally littleization principle design, clearance distance is being less than 5mm, is being greater than between 0mm, is beneficial to the electrolysis strengthening impurities in water and water molecules; In certain space shared by electrolysis electrode assembly, between opposing electrode, the area in gap is by rationally largeizationr principle design, to make in water more impurity and water molecule energy in electrode gap more repeatedly by electrolysis; The feature of electrolysis electrode assembly and mounting process condition thereof is: in brine electrolysis process, water can comparatively smooth flow in opposing electrode gap, make to be changed by the water of electrolysis in opposing electrode gap, and make more impurity and water molecules by opposing electrode electrolysis more repeatedly, increase impurity and water molecules by the probability of opposing electrode electrolysis and quantity, thus improve the electrolytic efficiency of water.

4. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described electrolysis electrode assembly, if desired, spacing between electrolysis electrode assembly opposing electrode can be as small as 1mm or less, to be comparatively beneficial under certain electrolysis power and certain electrolysis electrode unit construction, the electrolysis of strengthening impurities in water and water molecules, the efficiency of raising water electrolysis, and can the effective low conductivity water such as electrolysis pure water and distilled water.

5. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described electrolysis electrode assembly, opposing electrode structure design makes: when water in electrode gap is produced mobility by electrolysis, in electrode gap, water and ion can be taken advantage of a situation and be flowed, so that more water flows through opposing electrode gap, change in gap by the water of electrolysis, make more impurities in water and water molecule energy by the electrolysis more repeatedly of electric current between opposing electrode, increase impurity and water molecules are by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

6. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described electrolysis electrode assembly, certain space is left in outside, electrode gap two-port position, when making water produce flowing in by the process of electrolysis, water can in opposing electrode gap comparatively smooth flow, improve the efficiency of water electrolysis.

7. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described electrolysis electrode assembly, in certain space shared by electrolysis electrode assembly, by rationally increasing the area of electrode gap, flowing water can be extended in electrode gap by the time of electrolysis, make more impurity and water molecules by opposing electrode electrolysis more repeatedly, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

8. according to claim 1 with according to claim 2 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described electrolysis electrode assembly, the water exit of its place container designs narrower than water entry, suitably to slow down the flow velocity of the water flowing to electrolysis electrode gap, make more 1 impurity and water molecules by the electrolysis more repeatedly of electric current between opposing electrode, increase impurity and water molecules, by the probability of opposing electrode electrolysis and quantity, improve the efficiency of water electrolysis.

9. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described electrolysis electrode assembly, when the cell wall material and shape of wrapping up electrolysis electrode assembly fit cooperating electrode, it suitably can be connected as electrolysis electrode, increase electrolysis electrode interval area, improve the electrolytic efficiency of water.

10. according to claim 1 a kind of make after shave lotion without film electrolytic water device, it is characterized in that: described without film electrolysis electrode assembly, be made up of the electrode of two opposed polarities, one of electrode is bore shape, tubular electrode number is N number of, N is equal to or greater than 1, and barrel can non-notch or jagged, and the position of each bore electrode is fixed and is electrically connected to each other for machinery; Two of electrode is column, and each post position is fixed for mechanical and be electrically connected to each other, and the post number of columnar electrode is M, and M is equal to or greater than 1; Post be hollow or solid, can non-notch or jagged; The height of tubular electrode and columnar electrode is not limit, according to required selection; Tubular electrode grafting corresponding to columnar electrode, namely each post of columnar electrode inserts in each corresponding bore, leaves between the post electrode surface inserted and bore electrode apparent surface gap water being done to electrolysis; In electrolysis working process, the water in electrode gap can flow; Certain space is left in the outside of electrode gap two port position, so that water is by the process of electrolysis, can flow in electrode gap.