CN203546151U

CN203546151U - Multifunctional hydrogen-oxygen separation generator

Info

Publication number: CN203546151U
Application number: CN201320609746.3U
Authority: CN
Inventors: 孙金良; 李发生; 于宝文; 李树权
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-09-29
Filing date: 2013-09-29
Publication date: 2014-04-16
Anticipated expiration: 2023-09-29

Abstract

The utility model discloses a multifunctional hydrogen-oxygen separation generator and belongs to the field of hydrogen-oxygen separation equipment. The multifunctional hydrogen-oxygen separation generator at least comprises a base component, a hydrogen-oxygen separation component, a shell and an upper cover component, wherein the base component is provided with the hydrogen-oxygen separation component and the shell; the top surface of the shell is provided with the upper cover component. The multifunctional hydrogen-oxygen separation generator disclosed by the utility model has the advantages that respective channels and collecting chambers for hydrogen and oxygen are arranged for respectively extracting hydrogen and oxygen, and then hydrogen and oxygen are introduced into air inlets of vehicles and boats by relevant pipelines, so that the power combustion value is increased in the burning mixed gas, and the problem of tempering of oxygen in use is solved; the separated oxygen can be introduced into air conditioners or driving cabs of the vehicles and the boats by relevant pipelines to increase the oxygen inhaled amount of drivers, and can also be introduced into the air conditioners for people to inhale. The multifunctional hydrogen-oxygen separation generator disclosed by the utility model is convenient to carry and is simple in installation; oxygen generated by electrolysis can be produced and used instantaneously, so that convenience is brought for civil oxygen supplementation, oxygen therapy and oxygen health care; the multifunctional hydrogen-oxygen separation generator is especially suitable for being used in oxygen-deficient areas such as high-altitude areas and high mountains.

Description

Multifunctional oxyhydrogen generator for separating

Technical field

The utility model relates to hydrogen-oxygen separating device field, particularly a kind of multifunctional oxyhydrogen generator for separating.

Background technology

Oxyhydrogen generator is to utilize electrolytic solution to produce the electrochemical apparatus of hydrogen and oxygen, by alkaline water (H2O) being carried out to electrochemical decomposition in electrolyzer, form hydrogen ion (H+) and hydroxide ion (OH-), wherein hydrogen ion is shifted to negative electrode (-) face of battery lead plate, form hydrogen (H2), hydroxide ion is shifted to anode (+) face of battery lead plate, forms oxygen (O2); Oxygen has purposes very widely, is mainly used in supplying with human breathing, supports burning and exothermic heat of reaction; Hydrogen has a wide range of applications at aspects such as metallurgy, chemical industry, and hydrogen can be used as reductive agent, fuel, industrial chemicals, hydrogen as fuel there is aboundresources, combustion heating amount is high and pollute few feature, is a kind of globalization new forms of energy.

Society, along with people are increasing to the demand of automobile, the problems such as the pollution that thereupon brings, energy shortage are also just more and more serious, and the discharge of noxious pollutant has threatened the environment that the mankind depend on for existence.Therefore be necessary very much to adopt various measures and reduce the content of toxic substance in vehicle exhaust, make combustion processes more abundant simultaneously as far as possible, to reach object energy-conservation and reduction environmental pollution.

Generator for separating hydrogen and oxygen of the prior art, generally to design according to hydrogen-oxygen proportion, the hydrogen producing by water electrolysis is upper, oxygen under, be mixed in an electrolyser, sharing a passage and enter total collection chamber,, there is unsafe factor in happen occasionally the at work phenomenon of " tempering " of the oxygen that this hydrogen-oxygen mixes.

At present, oxyhydrogen generator is mainly used in industry, and at vehicle-mounted, boat-carrying, and civil area is also rare.

Summary of the invention

In order to solve the problem of prior art, the utility model embodiment provides a kind of multifunctional oxyhydrogen generator for separating.By hydrogen, oxygen passage and collection chamber is separately set, extract respectively hydrogen and oxygen, pass into car, ship engine blast inlet, the oxygen decompositing passes in the mixed gas of burning promotes dynamic combustion value; Isolated oxygen passes in the air-conditioning or wheel house of car, ship, increases driver and crew's oxygen soakage; Isolated oxygen passes in civil air conditioner for people's oxygen uptake.Described technical scheme is as follows:

A kind of multifunctional oxyhydrogen generator for separating, at least comprises: base assembly, hydrogen-oxygen separation assembly, shell, upper cover assembly, on described base assembly, be provided with described hydrogen-oxygen separation assembly, shell, and described outer casing top surface is provided with upper cover assembly.

Particularly, described base assembly at least comprises: leg, pedestal, tank room pickup groove, fastening piece, pilot lamp, on described pedestal, be provided with described tank room pickup groove, and in order to described hydrogen-oxygen separation assembly to be installed, described leg is magnet or sucker.

Particularly, described hydrogen-oxygen separation assembly at least comprises: positive source input, power cathode input, electrolysis pole piece group, tank room, hydrogen-oxygen separate fixed plate, hydrogen outgassing groove, hydrogen-oxygen gas dome dividing plate, hydrogen gas dome, hydrogen delivery port, oxygen delivery port, oxygen gas dome, electronics barrier film, oxygen outgassing groove, water-guiding hole, inner casing.

Particularly, described inner casing lower part is the electrolyzer of a four sides and closed bottom, along X-direction, be T font, along Y direction, be square type, described inner casing upper part is the square type of four sides and top seal, described electrolysis pole piece group is arranged on the bottom of T font inner casing, and described inner casing is provided with described water-guiding hole along Y direction bottom.

Particularly, above described electrolysis pole piece group, along Y direction, some electronics barrier films have been spaced, described electronics barrier film middle part separates fixed plate by described hydrogen-oxygen and is separated into two portions along X-direction, a part is positioned at the positive pole place of described electrolysis pole piece group, another part is positioned at the negative pole place of described electrolysis pole piece group, every a slice electronics barrier film is n font, between adjacent n font electronics barrier film, it is air flue, the air flue that is positioned at the anodal place of described electrolysis pole piece group is described oxygen outgassing groove, and the air flue that is positioned at described electrolysis pole piece group negative pole place is described hydrogen outgassing groove.

Particularly, described hydrogen-oxygen separation fixed plate top is provided with the described hydrogen-oxygen gas dome dividing plate of setting along Y direction, described inner casing upper part is divided into described hydrogen gas dome and described oxygen gas dome, described hydrogen gas dome top is provided with described hydrogen delivery port, described oxygen gas dome top is provided with described oxygen delivery port, in described oxygen delivery port, is provided with safe anti backfire valve.

Particularly, described electrolysis pole piece group is comprised of some positive and negative electrode electrode slices, along Y direction, be spaced, and between adjacent electrode slice, be passage; All anodal passages and all negative pole passages are interlaced arranged distribution; The positive pole of electrode slice is connected with described positive source input, and the passage between anode electrode sheet communicates with described oxygen outgassing groove; The negative pole of electrode slice is connected with described power cathode input, and the passage between negative electricity pole piece communicates with described hydrogen outgassing groove.

Particularly, described upper cover assembly at least comprises: decompression air valve, electrolytic solution water supplement port, oxygen output tube, hydrogen output tube, lid, electrolytic solution water guide pipeline; Described lid top is provided with described oxygen and hydrogen decompression air valve, described electrolytic solution water supplement port, described oxygen output tube, described hydrogen output tube, and the oxygen that described oxygen and hydrogen gas electrolysis liquid water supplement port arrange with described lid bottom respectively and the electrolytic solution water guide pipeline of hydrogen communicate.

Particularly, the top oxygen delivery port of described hydrogen-oxygen separation assembly is inserted in described oxygen output tube lower end, communicate with described oxygen gas dome, the top hydrogen delivery port of described hydrogen-oxygen separation assembly is inserted in described hydrogen output tube lower end, communicates with described hydrogen gas dome; In described oxygen output tube, described hydrogen output tube, air water is housed and crosses filter core, flow alarm.

Particularly, described pedestal is provided with electrical control circuit, low-voltage transformer, temperature controller, fan in chamber, and described pedestal bottom surface and side are provided with ventilation hole, switch and pilot lamp, hummer or electronic voice-prompting, the hydrogen-oxygen flow warning howler that exceeds standard.

The beneficial effect that the technical scheme that the utility model embodiment provides is brought is:

This generator for separating hydrogen and oxygen is provided with hydrogen, oxygen passage and collection chamber separately, extracts respectively hydrogen and oxygen, and is provided with anti-" tempering " valve, and the problem of " tempering " in use occurs the oxygen that thoroughly solves the mixing of prior art hydrogen-oxygen.

Utilize the generator residual electricity hydrogen supply oxygen-separating machine electrolysis of motor vehicle, ship, produce hydrogen-oxygen speed fast, high through the isolated hydrogen purity of low pressure, by associated pipe, pass into car, ship engine blast inlet, the oxygen decompositing passes in the mixed gas of burning promotes dynamic combustion value; And produce oxygen when producing hydrogen, oxygen passes into the air-conditioning of car, ship by associated pipe or directly passes in wheel house, is driver and crew's oxygen supply, increases human body oxygen soakage.

The hydrogen that negative pole electrolysis produces passes into car, ship engine blast inlet by join dependency pipeline, produced oxygen is also passed into car, ship engine blast inlet simultaneously, in mixed gas to burning together with hydrogen is merged with oxygen, promote dynamic combustion value, like this, take hydrogen as fuel, with comburant oxygen, both merging can increase dynamic combustion, effectively capable of saving fuel oil.

This generator for separating hydrogen and oxygen is easy to carry, simple installation, the oxygen that electrolysis produces can produce i.e. use, can directly pass into continous-stable in civilian air-conditioning supply people's oxygen uptake by associated pipe, isolated hydrogen is passed in pure water or special container, obtain hydrogenation water and drink for people.Be widely used in family, hotel, medical treatment, school, agricultural, bio-science etc., be convenient to civilian oxygenating, oxygen therapy, oxygen health care, is particularly suited for the anoxic areas such as high height above sea level, high mountain and uses.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the multifunctional oxyhydrogen generator for separating structural representation that the utility model embodiment provides;

Fig. 2 is the exploded view of the multifunctional oxyhydrogen generator for separating structural representation that provides of the utility model embodiment;

Fig. 3 is the hydrogen-oxygen separation assembly structural representation of the multifunctional oxyhydrogen generator for separating that provides of the utility model embodiment;

Fig. 4 is the vertical view of the electrolysis pole piece group structural representation of the multifunctional oxyhydrogen generator for separating that provides of the utility model embodiment;

Fig. 5 is the upper cover assembly structural representation of the multifunctional oxyhydrogen generator for separating that provides of the utility model embodiment.

In figure, each symbol represents that implication is as follows:

1 base assembly,

1.1 legs, 1.2 pedestals, 1.3 tank room pickup grooves, 1.4 fastening pieces, 1.5 pilot lamp;

2 hydrogen-oxygen separation assemblies,

2.1 positive source inputs, 2.2 power cathode inputs, 2.3 electrolysis pole piece groups, 2.4 tank rooms, 2.5 hydrogen-oxygens separate fixed plate, 2.6 oxygen outgassing grooves, 2.7 hydrogen-oxygen gas dome dividing plates, 2.8 oxygen gas domes, 2.9 oxygen delivery ports, 2.10 hydrogen delivery port, 2.11 hydrogen gas domes, 2.12 hydrogen outgassing grooves, 2.13 electronics barrier films, 2.14 water-guiding holes, 2.15 inner casings;

3 shells;

4 upper cover assemblies,

4.1 decompression air valves, 4.2 electrolytic solution water supplement ports, 4.3 oxygen output tubes, 4.4 hydrogen output tubes, 4.5 lids, 4.6 electrolytic solution water guide pipelines.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model embodiment is described in further detail.

Shown in Fig. 1, Fig. 2, the utility model embodiment provides a kind of multifunctional oxyhydrogen generator for separating, at least comprises: base assembly 1, hydrogen-oxygen separation assembly 2, shell 3, upper cover assembly 4 etc.; Particularly, on described base assembly 1, hydrogen-oxygen separation assembly 2 is installed, and is covered with shell 3, described shell 3 adopts acid and alkali-resistance polyester plastics to make, and outward appearance can be any shapes such as circle, spheroid, is preferably cone, and shell 3 end faces are provided with upper cover assembly 4.

Particularly, described base assembly 1 at least comprises: leg 1.1, pedestal 1.2, tank room pickup groove 1.3, fastening piece 1.4, pilot lamp 1.5 etc.; Described leg 1.1 can be selected magnet or sucker, and magnet adopts the compression of strong magnets breeze to form, and leg 1.1 is evenly distributed on the baseplane of pedestal 1.2, improves stability; Described pedestal 1.2 materials are stainless steel, be provided with inner chamber, electrical control circuit is installed in chamber, 12V-48V turns control, the refrigerating units such as 4.5V low-voltage transformer, temperature controller, fan, bottom surface and the side of pedestal 1.2 are provided with ventilation hole, side is provided with switch and pilot lamp 1.5, be provided with hummer simultaneously, or electronic voice-prompting; The upper in-plane of pedestal 1.2 is provided with tank room pickup groove 1.3, by the fastening pieces such as stainless steel bolt, nut 1.4, hydrogen-oxygen separation assembly 2 is arranged on pedestal 1.2, and shell 3 is arranged on pedestal 1.2 and forms cavity, in cavity, be loaded with brine electrolysis,, self-timing temperature automatically controlled by electrical control circuit.

Shown in Figure 3, described hydrogen-oxygen separation assembly 2 at least comprises: positive source input 2.1, power cathode input 2.2, electrolysis pole piece group 2.3, tank room 2.4, hydrogen-oxygen separate fixed plate 2.5, hydrogen outgassing groove 2.6, hydrogen-oxygen gas dome dividing plate 2.7, hydrogen gas dome 2.8, hydrogen delivery port 2.9, oxygen delivery port 2.10, oxygen gas dome 2.11, electronics barrier film 2.12, oxygen outgassing groove 2.13, water-guiding hole 2.14, inner casing 2.15 etc., particularly, described inner casing 2.15 adopts acid and alkali-resistance polyester plastics to make, described inner casing 2.15 lower parts are the electrolyzer of a four sides and closed bottom, along X-direction, be T font, along Y direction, be square type, inner casing 2.15 upper part are the square type of four sides and top seal, described electrolysis pole piece group 2.3 is arranged on the bottom of T font inner casing 2.15, form tank room 2.4, inner casing 2.15 is provided with water-guiding hole 2.14 along Y direction bottom, for making brine electrolysis circulation, above described electrolysis pole piece group 2.3, along Y direction, some electronics barrier films 2.12 have been spaced, described electronics barrier film 2.12 middle parts separate fixed plate 2.5 by hydrogen-oxygen and are separated into two portions along X-direction, not connected, a part is positioned at the positive pole place of electrolysis pole piece group 2.3, another part is positioned at the negative pole place of electrolysis pole piece group 2.3, every a slice electronics barrier film 2.12 is n font, between adjacent n font electronics barrier film 2.12, it is air flue, the air flue that is positioned at the positive pole place of electrolysis pole piece group 2.3 is oxygen outgassing groove 2.13, the air flue that is positioned at the negative pole place of electrolysis pole piece group 2.3 is hydrogen outgassing groove 2.6.

Described hydrogen-oxygen separation fixed plate 2.5 tops are provided with the hydrogen-oxygen gas dome dividing plate 2.7 of setting along Y direction, inner casing 2.15 upper part are separated into not connected, each self-enclosed hydrogen gas dome 2.8 and oxygen gas dome 2.11, hydrogen gas dome 2.8 tops are provided with hydrogen delivery port 2.9, oxygen gas dome 2.11 tops are provided with oxygen delivery port 2.10, are provided with anti-" tempering " valve of safety in oxygen delivery port 2.10.

Simultaneously shown in Figure 4, described electrolysis pole piece group 2.3 is prior art, some positive and negative electrode electrode slices, consists of, "+" is the positive pole of electrode slice, "-" is the negative pole of electrode slice, by spacer pieces, separate and use drift bolt to be spaced along Y direction, and between adjacent electrode slice, be passage; Particularly, as preferably, all anodal passages are not relative with all negative pole passages, and are all interlaced arranged distribution; The positive pole of electrode slice and positive source input 2.1 is connected, and the passage between anode electrode sheet communicates with described oxygen outgassing groove 2.13, and the gas of institute's output is oxygen; The negative pole of electrode slice and power cathode input 2.2 is connected, and the passage between negative electricity pole piece communicates with described hydrogen outgassing groove 2.6, and the gas of institute's output is hydrogen.

Shown in Figure 5, described upper cover assembly 4 at least comprises: decompression air valve 4.1, electrolytic solution water supplement port 4.2, oxygen output tube 4.3, hydrogen output tube 4.4, lid 4.5, electrolytic solution water guide pipeline 4.6 etc., particularly, described lid 4.5 materials are stainless steel, lid 4.5 tops are provided with oxygen and hydrogen decompression air valve 4.1 separately, electrolytic solution water supplement port 4.2 and oxygen output tube 4.3, hydrogen output tube 4.4, wherein, the oxygen that described oxygen and hydrogen electrolytic solution water supplement port 4.2 separately arranges with lid 4.5 bottoms respectively and the electrolytic solution water guide pipeline 4.6 of hydrogen communicate, for injecting electrolytic solution to generator for separating hydrogen and oxygen, the top oxygen delivery port 2.10 of described hydrogen-oxygen separation assembly 2 is inserted in described oxygen output tube 4.3 lower ends, communicate with oxygen gas dome 2.11, the top hydrogen delivery port 2.9 of described hydrogen-oxygen separation assembly 2 is inserted in described hydrogen output tube 4.4 lower ends, communicate with hydrogen gas dome 2.8, described oxygen output tube 4.3, the interior air water being equipped with respectively separately of hydrogen output tube 4.4 are crossed filter core, and outside is provided with flow alarm, described decompression air valve 4.1, in order to control the hydrogen-oxygen pressure equilibrium of hydrogen gas dome 2.8, oxygen gas dome 2.11, makes hydrogen and oxygen with no pressure unobstructed.

The using method of the utility model embodiment and principle of work: multifunctional oxyhydrogen generator for separating is placed in to motor vehicle, on ship, adopt automobile straight current generator and the storage battery power supply as multifunctional oxyhydrogen generator for separating, by the low-voltage transformer in pedestal 1.2, connect positive and negative poles of battery, convert 12V-48V to 4.5V, by hydrogen-oxygen separation assembly 2, the water in the tank room 2.4 in inner casing 2.15 is carried out to Electrowinning high-purity oxygen and high-purity hydrogen, by the upper end air guide channel between anode electrode sheet, the oxygen outgassing groove 2.13 between n font electronics barrier film 2.12 communicates the oxygen that anodal electrolysis produces, oxygen is focused on to oxygen gas dome 2.11, the oxygen that produces by oxygen output tube 4.3, through one of T-valve, lead to and connect associated pipe and pass into car, the air-conditioning of ship or directly pass in wheel house, improve anaerobic environment, for driver and crew supplement oxygen uptake, another leads to and connects associated pipe and pass into car, ship engine blast inlet, the hydrogen of exporting with hydrogen output tube 4.4 mixes combustion-supporting, by the upper end air guide channel between negative electricity pole piece, the hydrogen outgassing groove 2.6 between n font electronics barrier film 2.12 communicates the hydrogen that negative pole electrolysis produces, hydrogen is focused on to hydrogen gas dome 2.8, institute's hydrogen producing is as automobile auxiliary fuel, by hydrogen output tube 4.4 join dependency pipelines, pass into car, ship engine blast inlet, and produced oxygen is passed into car by oxygen output tube 4.3, ship engine blast inlet, in mixed gas to burning together with hydrogen is merged with oxygen, promote dynamic combustion value, like this, take hydrogen as fuel, with comburant oxygen, both merging can increase dynamic combustion, effectively capable of saving fuel oil.

In the civil time, connect alternating current 220V, through low-voltage transformer, convert direct current 4.5V to, by hydrogen-oxygen separation assembly 2 high-purity oxygen and high-purity hydrogens, by associated pipe, isolated oxygen is directly passed in the air-conditioning of family and improve indoor air environment, for people's oxygen uptake; Isolated hydrogen can be passed in pure water or special container, obtain hydrogen water and drink for people.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims

1. a multifunctional oxyhydrogen generator for separating, is characterized in that, at least comprises: base assembly, hydrogen-oxygen separation assembly, shell, upper cover assembly, on described base assembly, be provided with described hydrogen-oxygen separation assembly, shell, and described outer casing top surface is provided with upper cover assembly.

2. multifunctional oxyhydrogen generator for separating according to claim 1, it is characterized in that, described base assembly at least comprises: leg, pedestal, tank room pickup groove, fastening piece, pilot lamp, on described pedestal, be provided with described tank room pickup groove, in order to described hydrogen-oxygen separation assembly to be installed, described leg is magnet or sucker.

3. multifunctional oxyhydrogen generator for separating according to claim 1, it is characterized in that, described hydrogen-oxygen separation assembly at least comprises: positive source input, power cathode input, electrolysis pole piece group, tank room, hydrogen-oxygen separate fixed plate, hydrogen outgassing groove, hydrogen-oxygen gas dome dividing plate, hydrogen gas dome, hydrogen delivery port, oxygen delivery port, oxygen gas dome, electronics barrier film, oxygen outgassing groove, water-guiding hole, inner casing.

4. multifunctional oxyhydrogen generator for separating according to claim 3, it is characterized in that, described inner casing lower part is the electrolyzer of a four sides and closed bottom, along X-direction, be T font, along Y direction, be square type, described inner casing upper part is the square type of four sides and top seal, and described electrolysis pole piece group is arranged on the bottom of T font inner casing, and described inner casing is provided with described water-guiding hole along Y direction bottom.

5. multifunctional oxyhydrogen generator for separating according to claim 3, it is characterized in that, above described electrolysis pole piece group, along Y direction, some electronics barrier films have been spaced, described electronics barrier film middle part separates fixed plate by described hydrogen-oxygen and is separated into two portions along X-direction, a part is positioned at the positive pole place of described electrolysis pole piece group, another part is positioned at the negative pole place of described electrolysis pole piece group, every a slice electronics barrier film is n font, between adjacent n font electronics barrier film, it is air flue, the air flue that is positioned at the anodal place of described electrolysis pole piece group is described oxygen outgassing groove, the air flue that is positioned at described electrolysis pole piece group negative pole place is described hydrogen outgassing groove.

6. multifunctional oxyhydrogen generator for separating according to claim 3, it is characterized in that, described hydrogen-oxygen separation fixed plate top is provided with the described hydrogen-oxygen gas dome dividing plate of setting along Y direction, described inner casing upper part is divided into described hydrogen gas dome and described oxygen gas dome, described hydrogen gas dome top is provided with described hydrogen delivery port, described oxygen gas dome top is provided with described oxygen delivery port, in described oxygen delivery port, is provided with safe anti backfire valve.

7. multifunctional oxyhydrogen generator for separating according to claim 3, is characterized in that, described electrolysis pole piece group is comprised of some positive and negative electrode electrode slices, along Y direction, be spaced, and between adjacent electrode slice, be passage; All anodal passages and all negative pole passages are interlaced arranged distribution; The positive pole of electrode slice is connected with described positive source input, and the passage between anode electrode sheet communicates with described oxygen outgassing groove; The negative pole of electrode slice is connected with described power cathode input, and the passage between negative electricity pole piece communicates with described hydrogen outgassing groove.

8. multifunctional oxyhydrogen generator for separating according to claim 1, is characterized in that, described upper cover assembly at least comprises: decompression air valve, electrolytic solution water supplement port, oxygen output tube, hydrogen output tube, lid, electrolytic solution water guide pipeline; Described lid top is provided with described oxygen and hydrogen decompression air valve, described electrolytic solution water supplement port, described oxygen output tube, described hydrogen output tube, and the oxygen that described oxygen and hydrogen gas electrolysis liquid water supplement port arrange with described lid bottom respectively and the electrolytic solution water guide pipeline of hydrogen communicate.

9. according to the multifunctional oxyhydrogen generator for separating described in claim 3 or 8, it is characterized in that, the top oxygen delivery port of described hydrogen-oxygen separation assembly is inserted in described oxygen output tube lower end, communicate with described oxygen gas dome, the top hydrogen delivery port of described hydrogen-oxygen separation assembly is inserted in described hydrogen output tube lower end, communicates with described hydrogen gas dome; Described oxygen output tube, described hydrogen output tube are equipped with air water crosses filter core, flow alarm.

10. multifunctional oxyhydrogen generator for separating according to claim 2, it is characterized in that, described pedestal is provided with electrical control circuit, low-voltage transformer, temperature controller, fan in chamber, and described pedestal 1.2 bottom surfaces and side are provided with ventilation hole, switch and pilot lamp 1.5, hummer or electronic voice-prompting, the hydrogen-oxygen flow warning howler that exceeds standard.