CN203613267U - Gas generator - Google Patents
Gas generator Download PDFInfo
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- CN203613267U CN203613267U CN201320765992.8U CN201320765992U CN203613267U CN 203613267 U CN203613267 U CN 203613267U CN 201320765992 U CN201320765992 U CN 201320765992U CN 203613267 U CN203613267 U CN 203613267U
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- electrolyzer
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- electrode slice
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/36—Hydrogen production from non-carbon containing sources, e.g. by water electrolysis
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- Electrolytic Production Of Non-Metals, Compounds, Apparatuses Therefor (AREA)
Abstract
The utility model discloses a gas generator with a cooling system, which comprises an outer water tank, an inner water tank and an electrolytic cell module, wherein a coolant is accommodated in the outer water tank to cool the electrolytic cell module and the inner water tank both arranged in the outer water tank, so that the temperature of the gas generator is lowered, and hydrogen explosion is prevented. Moreover, according to the utility model, oxyhydrogen gas generated by the electrolytic cell module is conveyed into the inner water tank, and the temperature of the oxyhydrogen gas is further lowered via liquid water in the inner water tank to reduce the probability of hydrogen explosion.
Description
Technical field
The utility model has about a kind of gas generator, relates to especially a kind of oxyhydrogen generator with cooling system.
Background technology
All the time, the mankind are to pay attention to completely for life, and the exploitation of the technology of many medical treatment is all for resisting disease, to continue the mankind's life.The medical mode major part in past is all to belong to passive, namely in the time that disease occurs, then carries out to the ill medical treatment, such as operation, and administration, the even chemotherapy of cancer, radiation treatment, or the taking good care of of chronic disease, rehabilitation, corrects etc.But in recent years, many medical experts study towards preventative medical approaches gradually, such as the research of protective foods, heredopathia screening and ahead of time prevention etc., the possible morbidity for futurity of active prevents especially.In addition, in order to extend human longevity, many anti-aging, oxidation resistant technology is developed gradually, and is adopted by masses widely, comprises the skin care products of smearing, and antioxidation foodstuff/medicine etc.Find after deliberation: human body is because of a variety of causes, (such as disease, diet, environment of living in or living habit) the destabilization oxygen (O+) of derivation, also claim free radical (harmful free radical), can be mixed into the hydrogen sucking the water of part, and excrete.The quantity that indirectly reduces human free radical, reaches acidic constitution and is reduced to healthy alkaline physique, can be anti-oxidant, and anti-aging, and then also reach elimination chronic disease and beauty and health care effect.Even have clinical experiment to show, for the patient of some beds confined to bed of a specified duration, because breathe for a long time high oxygen concentration, the injury of lung causing, can see through and suck hydrogen to alleviate the symptom of injury of lung.
In addition, the purposes of oxyhydrogen, except above-mentioned health care, also can be used for producing oxyhydrogen flame and heats or burn, and also can remove in addition the purposes such as engine carbon deposit.And general oxyhydrogen is to produce via the liquid water of electrolytic tank electrolysis, but be easy to produce high temperature in electrolysis liquid water process, for avoiding the quick-fried traditional oxyhydrogen electrolyzer of gas hydrogen to be mostly to utilize air cooled, fan failure namely use fan to lower the temperature, if but will cause oxyhydrogen electrolyzer temperature to raise and cause the quick-fried danger of hydrogen.
Utility model content
Therefore, the purpose of this utility model is to provide a kind of gas generator with cooling system, and it is simple in structure, can reduce the temperature of electrolyzer, thereby has reduced the risk of high temperature gas explosion and improved its security.
For achieving the above object, the utility model discloses a kind of gas generator, it is characterized in that comprising:
One outer water tank, has first hollow bulb that is equipped with a refrigerant;
One inner water tank, is arranged in this outer water tank first hollow bulb, and this inner water tank has second hollow bulb that is equipped with a liquid water, and this inner water tank is connected with an escape pipe; And
One is arranged at the electrolyzer module with electrolysis liquid water in this outer water tank first hollow bulb;
Partly or entirely being soaked in this refrigerant of this electrolyzer module.
Wherein, this electrolyzer module comprises at least one electrolyzer, wherein this electrolyzer have an accommodating liquid water the 3rd hollow bulb, one connect this inner water tank with supplement liquid water water inlet and one connect this inner water tank with output oxyhydrogen air outlet, this electrolyzer is removable installed in this electrolyzer module.
Wherein, this electrolyzer module more comprises a cell body frame, and this cell body frame comprises the several first longitudinally perforation, and this electrolyzer comprises a cell body and this cell body is arranged in one first longitudinal perforation of this cell body frame accordingly.
Wherein, this electrolyzer module more comprises an arc-spark stand, this arc-spark stand comprises the several second longitudinally perforation, and this electrolyzer comprises an electrode slice, and this electrode slice is arranged at one second longitudinal perforation of this arc-spark stand accordingly and the bottom of this electrode slice is placed in the 3rd hollow bulb of this electrolyzer.
Wherein, this cell body frame comprises this cell body that one first cylinder runs through this electrolyzer, and this arc-spark stand comprises this electrode slice that one second cylinder runs through this electrolyzer.
Wherein, this cell body of this electrolyzer is all soaked in this refrigerant.
Wherein, this cell body outside surface of this electrolyzer is coated with insulating material.
Wherein, this inner water tank at least a portion is soaked in this refrigerant.
Wherein, this electrolyzer more comprises a lid in order to isolate this electrode slice and this cell body, this first cylinder of this cell body frame connects a conducting element, and this of this arc-spark stand the second cylinder connects another conducting element so that this electrode slice of this electrolyzer is anode and this cell body of this electrolyzer is negative electrode.
Wherein, this outer water tank is provided with a water shoot and a valve coordinating with this water shoot so that refrigerant is discharged from this outer water tank.
Wherein, this electrolyzer module more comprises a connectivity slot, a tubing and a water shoot, this connectivity slot comprises several openings, respectively this water inlet of this electrolyzer is to a opening that should connectivity slot, this tubing is communicated with this inner water tank, this water shoot is communicated with this connectivity slot, and this water shoot is communicated with liquid water can be discharged in this inner water tank and this electrolyzer with this tubing.
Wherein, this outer water tank comprises a supporting frame, and this inner water tank is provided with the tongue on several these supporting frames that this inner water tank are fixed on to this outer water tank.
Also disclose a kind of gas generator, it is characterized in that comprising:
One outer water tank, has first hollow bulb that is equipped with a refrigerant;
One inner water tank, has the second hollow bulb of an accommodating liquid water;
The one electrolyzer module by the supplementary liquid water of this inner water tank and the liquid water generates one oxyhydrogen gas mixture of electrolysis, comprises several dismountable electrolyzers, and each electrolyzer has an anode and a negative electrode; And
This anode of each electrolyzer is electrically connected, thereby this cathodic electricity of each electrolyzer links together, this of electrolyzer module counted electrolyzer and presented electrical parallel connection, being partly or entirely soaked in this refrigerant of this electrolyzer module.
Wherein, this electrolyzer module comprises a cell body frame and an arc-spark stand, each electrolyzer comprises a cell body and an electrode slice, wherein cell body frame is electrically connected this cell body of each electrolyzer and this arc-spark stand and is electrically connected this electrode slice of each electrolyzer, and this arc-spark stand electrical connection one first conducting element and this cell body frame electrical connection one second conducting element are so that this electrode slice of each electrolyzer is that this anode and this cell body are this negative electrode.
Wherein, this inner water tank is all or part of is soaked in this refrigerant.
Wherein, this electrolyzer more comprises a lid in order to isolate this electrode slice and this cell body, and this cell body outside surface of this electrolyzer is coated with insulating material.
Also disclose a kind of gas generator, it is characterized in that comprising:
One power supply, comprises one first conducting element and one second conducting element; And
The electrolyzer module of the liquid water generates oxyhydrogen of one electrolysis, this electrolyzer module comprises several dismountable electrolyzers, and each electrolyzer has an anode and a negative electrode; And
One outer water tank, has first hollow bulb that is equipped with a refrigerant, being partly or entirely soaked in this refrigerant of this electrolyzer module;
This anode of each electrolyzer is electrically connected to this first conducting element, and this cathodic electricity of each electrolyzer is connected to this second conducting element.
Wherein, each electrolyzer comprises a cell body and an electrode slice, and this electrode slice of each electrolyzer is that this anode and this cell body are this negative electrode.
Also disclose a kind of gas generator, it is characterized in that comprising:
One power supply, comprises one first conducting element and one second conducting element;
The electrolyzer module of the liquid water generates oxyhydrogen of one electrolysis, this electrolyzer module comprises several dismountable electrolyzers, and each electrolyzer has an anode and a negative electrode; And
One optionally by the control unit of all or part of these several electrolyzer parallel connections, and this anode of each electrolyzer in parallel connection is electrically connected to this first conducting element, and in parallel connection, this cathodic electricity of each electrolyzer is connected to this second conducting element.
The oxyhydrogen comprehensive, in the utility model, electrolyzer produces, via the liquid water of inner water tank, can reduce the temperature of oxyhydrogen, can prevent the generation that hydrogen is quick-fried.Monitor in addition the water level of inner water tank via inner water tank median water level detector, and can keep the amount of oxyhydrogen in inner water tank via the pressure release of pressure relief device, with the generation that prevents that hydrogen is quick-fried.And pressure relief device can also regulate the storage capacity of the oxyhydrogen of inner water tank top storage, automatically carry out pressure release in good time, can reach equally the effect that prevents that hydrogen is quick-fried.Moreover, the pneumatic outlet of electrolyzer and water inlet design in the utility model, and inner water tank gas inlet and water outlet design, make the pure water in inner water tank to be charged to electrolyzer by automatic makeup, and the oxyhydrogen that electrolyzer produces can be expelled to inner water tank automatically, reach air water circulation.Moreover by electrolyzer module is soaked in the refrigerant of outer water tank, the temperature of the hydrogen or oxygen gas of its generation will be further cooled, and improve security of the present utility model.
Accompanying drawing explanation
Fig. 1: paint and stated the side direction diagrammatic cross-section of gas generator of the present utility model in a specific embodiment.
Fig. 2 and Fig. 3: paint stated the utility model in a specific embodiment in the schematic perspective view of each different visual angles.
Fig. 4: paint the schematic diagram while not thering is outer water tank in the specific embodiment of having stated Fig. 3.
Fig. 5: paint the schematic diagram while not thering is supporting frame in the specific embodiment of having stated Fig. 4.
Fig. 6 A to Fig. 6 C: paint schematic perspective view, the upward view while only thering is electrolysis module in the specific embodiment of having stated Fig. 3 and cut open along the B-B line in this upward view the sectional view of establishing.
Fig. 7 A to Fig. 7 C: paint and stated schematic perspective view, the vertical view while only thering is electrolysis module in another specific embodiment and cutd open along the A-A line in this vertical view the sectional view of establishing.
Embodiment
In order to allow advantage of the present utility model, spirit and feature can be more easily and be expressly understood that, follow-up will be with embodiment and with reference to appended graphic detailed description and discussion.It should be noted that these embodiment are only the representational embodiment of the utility model, the ad hoc approach wherein given an example, device, condition, materials etc. are not in order to limit the utility model or corresponding embodiment.
Please refer to Fig. 1 to Fig. 5, Fig. 1 paints the schematic diagram of having stated the utility model gas generator (calling system or the utility model in the following text).Fig. 2 and Fig. 3 paint respectively the schematic perspective view of having stated the different visual angles of the utility model in a specific embodiment.Schematic diagram when Fig. 4 paints the body skin that has the supporting frame of outer water tank in the specific embodiment of having stated Fig. 2 but do not have outer water tank.Fig. 5 paints the schematic diagram in the specific embodiment of having stated Fig. 4 without outer water tank.Need know, Fig. 1 only for hand over relativeness between each element with and operation principles, it designs by appropriate adjustment.
As seen from the figure, in this example, gas generator M includes outer water tank 10, inner water tank 20 and electrolyzer module 30.Inner water tank 20 is for accommodating liquid water, for electrolyzer module 30 is supplemented to liquid water.And electrolyzer module 30 comprises multiple electrolyzers 31, each electrolyzer 31 is respectively used to liquid towards water and carries out electrolysis to produce hydrogen and oxygen gas mixture and to think use via inner water tank 20 outputs.
In this example, each electrolyzer 31 is respectively chip electrolyzer, is made up of cell body 311, electrode slice 312 and lid 313.In each cell body 311, there is the 3rd hollow bulb S3; And electrode slice 312 and cell body 311 are mutually chimeric so that the 3rd hollow bulb S3 of each electrolyzer 31 and the first hollow bulb S1 of outer water tank 10 are able to mutual watertight isolates by lid 313.In this example, cell body 311 and electrode slice 312 be electrically connected with power supply 60 by conducting element 61,62 respectively so that this cell body 311 and electrode slice 312 for corresponding electrically.In this example, the cell body 311 of electrolyzer 31 can be as the electrode slice of negative electrode and electrolyzer 31 312 as anode.Precisely because not as limit, by the needs of its design, cell body 311 and electrode slice 312 the electrical of the two also must be adjusted respectively by user's needs.For avoiding short circuit, between two conducting elements 61,62, be separately provided with insulation spacer 63 and isolated.In the time using, cell body 311 surperficial optionally be coated with insulating material 315 in advance and lid 313 can make electrode slice 312 and cell body 311 both electrical isolations.
In an embodiment, electrolyzer module 30 comprises several dismountable electrolyzers 31, cell body frame 32 and arc-spark stand 33, and each electrolyzer 31 has cell body 311 and electrode slice 312.Wherein, the cell body 311 of each electrolyzer 31 of cell body frame 32 electric connections, cell body frame 32 has the first cylinder 322 can make cell body frame 32 be electrically connected a conducting element 62, and by this, this conducting element 62 conducts electricity to cell body 311 via cell body frame 32; In addition, the electrode slice 312 of 33 each electrolyzers 31 of electric connection of arc-spark stand, arc-spark stand 33 has the second cylinder 332 can make arc-spark stand 33 another conducting elements 61 of electrical connection, and by this, conducting element 61 conducts electricity to electrode slice 312 via arc-spark stand 33.Therefore several dismountable electrolyzers 31 present the state of electrical parallel connection.
In another embodiment, in the time that electrolyzer module 30 has 31 parallel connection of four electrolyzers, the output voltage of power supply 60 and electric current can be about respectively 5 volts (V) and 200 amperes (A), the power that is each electrolyzer 31 is about respectively 250 watts (W) (i.e. about 5V*40A), so each electrolyzer of the utility model can carry out brine electrolysis and produce knallgas in low-voltage state, increases and see through electrolyzer several electrolyzer modes in parallel tolerance that can make always to give vent to anger.
Certainly, in other embodiment, the operating voltage of each electrolyzer can be between 24V~4V, for example 12V~4V, and the actuating current of each each electrolyzer also can be between 40A~100A.And to make electrolyzer 31 parallel connections, its structure is also not limited to above-mentioned cell body frame 32 and arc-spark stand 33, the conducting element 62 (or being referred to as the second conducting element) that for example connects power supply 60 is first connected to a control unit (not shown) with conducting element 61 (or being referred to as the first conducting element), several electrolyzers therewith control unit be connected, in using upper this control unit can optionally allow all or part of electrolyzer 31, carry out brine electrolysis with above-mentioned electrical parallel way, and then can optionally control the gas production rate of knallgas.
The top of electrolyzer 31 or tip position dispose multiple air outlets 3113, and the hydrogen and oxygen gas mixture that each air outlet 3113 must produce electrolyzer 31 by pneumatic tube 40 respectively exports in inner water tank 20.Inner water tank 20 has air intake, and air intake 21 can be communicated with hydrogen and oxygen gas mixture is inputted to inner water tank 20 with pneumatic tube 40.Certainly in another embodiment, each electrolyzer 31 can first be received a gas transmission connectivity slot (not shown), gas transmission connectivity slot is connected with an air intake of inner water tank 20 thus again, so that the hydrogen and oxygen gas mixture that each electrolyzer produces is input in inner water tank 20, in this embodiment, not the air intake of each inner water tank 20 directly connects an air outlet 3113 of an electrolyzer.
Meanwhile, in inner water tank 20, store liquid water, can supplement the required liquid water of electrolyzer 31 on the one hand, the hydrogen and oxygen gas mixture cooling that can produce for electrolyzer 31 on the other hand.Input to by pneumatic tube 40 at hydrogen and oxygen gas mixture after the second hollow bulb S2 of inner water tank 20, most of knallgas is known from experience the surface of emersion liquid water, that is the top of inner water tank 20, but hydrogen and oxygen gas mixture emerges in process from liquid water below, because the liquid water in inner water tank 20 can absorb heat energy and then reduce the temperature of hydrogen and oxygen gas mixture, can reduce by this hydrogen and oxygen gas mixture and produce the quick-fried probability of hydrogen, and improve the safety of system.Oxyhydrogen through liquid water cooling and after filtering can be stored in the top of inner water tank 20, and derive via the air outlet 23 mat escape pipes 90 on inner water tank 20 tops, provide user to suck, now oxyhydrogen flow can be between 0.1litter/min~2litter/min.
On the other hand, liquid water in electrolyzer 31 consumes because of electrolytic action, so electrolyzer 31 also includes the mouth of a river 3112, obtain and supplementary liquid water from inner water tank 20 by tubing 50 and connectivity slot 51, water inlet 3112 positions as shown in the figure can be in the bottom of electrolyzer 31 or bottom place.
As shown in Figure 1, the water outlet 22 of inner water tank 20 is communicated with the water inlet 3112 of each electrolyzer 31 in electrolyzer module 30 by tubing 50 and connectivity slot 51.Therefore in the time that the liquid water in electrolyzer 31 consumes because of electrolytic action, inner water tank 20 can see through tubing 50 and with connectivity slot 51, the liquid water of electrolyzer 31 be supplemented.Certainly, in another embodiment, do not need connectivity slot and each electrolyzer 31 can see through that independent tubing be connected with inner water tank 20 respectively separately so that the supplementary required liquid water of electrolyzer 31 of inner water tank 20.
In addition, in inner water tank 20 further dispose pressure relief device 24, when the hydrogen and oxygen gas mixture storing when inner water tank 20 exceedes preset pressure, can carry out pressure release via pressure relief device 24, therefore can prevent that hydrogen is quick-fried.For instance, when the discharge of air outlet 23 undesired, such as obstruction etc. occurs, because electrolyzer 31 continues output hydrogen and oxygen gas mixture, the knallgas scale of construction in inner water tank 20 can increase, and pressure can increase, carry out pressure release via pressure relief device 24, in an embodiment, while can setting pressure being a normal atmosphere, (1Pa) carries out pressure release, and pressure relief device 24 is able to magnetic valve with for it.
Moreover, inner water tank 20 obtains and optionally comprises water level detector 25 (being represented by dotted lines), with the water level of liquid water in detecting inner water tank 20, water level detector 25 must be simple pilot circuit or computer system, the water level of detecting liquid water in inner water tank 20 when water level detector 25 is during lower than preset value, its valve that must control water inlet 29 places in inner water tank 20 tops supplements liquid water, or utilize alarming device inform user via water inlet 29 to supplement liquid water.Alarming device can be to blow a whistle, alarm bell, any one of the warning message of warning cresset or computer system.Except safe low-water level, water level detector 25 also can be used for detecting the safe high-water of liquid water in inner water tank 20, when user's water filling is in the time that inner water tank 20 makes water level higher than preset high water level value, water level detector 25 has warning lamp and lights to notify user can stop water filling.
In addition, in order conveniently to clean and to safeguard, inner water tank 20 must be connected with water shoot 80, and by tubing 50 and connectivity slot 51, water shoot 80 is communicated with the second hollow bulb S2 of inner water tank 20 so that liquid water is wherein able to from wherein discharging.Water shoot 80 places are provided with valve 81 (can be magnetic valve or manual valve) in addition, and user must open or close water shoot 80 by by-pass valve control 81.Need subsidiary one to carry, aforesaid water shoot 80, except being communicated with inner water tank 20, is also communicated with the 3rd hollow bulb S3 of each electrolyzer 31 in electrolyzer module 30 by connectivity slot 51, so that the liquid water in each electrolyzer 31 is discharged simultaneously.
On the other hand, each side surface of inner water tank 20 of the present utility model is all installed with several tongues 26.In this example, aforesaid each tongue 26 fixes on the supporting frame 13 of outer water tank 10 by several screws respectively.And when mounted, inner water tank 20 combines (as the first module 1 of Fig. 5 or the second module 2 with electrolyzer module 30, this first module 1 or the second module 2 all have inner water tank 20 and electrolyzer module 30) will be soaked in outer water tank 10 with supporting frame 13, to utilize refrigerant wherein for further cooling.More particularly, the first module 1 and the second module 2 are thought coolingly by least a portion of electrolyzer module 30 wherein is soaked in the refrigerant of outer water tank 10, further reduce the raw possibility of hydrogen outburst.In another embodiment, electrolyzer module 30 can all be immersed in the refrigerant of outer water tank 10; Or at least the part of inner water tank 20 is also immersed in the refrigerant of outer water tank 10.
As Fig. 6 A to 6C, electrolyzer module 30 includes several electrolyzers 31, cell body frame 32 and arc-spark stand 33 and connectivity slot 51, and connectivity slot 51 has several openings and the water inlet 3112 of the corresponding electrolyzer 31 of each opening.In this example, each electrolyzer 31 is chip electrolyzer respectively, and is generally made up of cell body 311, electrode slice 312 and lid 313 respectively.Electrode slice 312 has top 3121 and bottom 3123.After electrolyzer 31 combinations, the bottom 3123 of electrode slice 312 penetrates the 3rd hollow bulb S3 of electrolyzer 31, and the top 3121 of electrode slice 312 is arranged at the outside of cell body 311.
On the other hand, the top 3121 of electrode slice 312 is arranged at arc-spark stand 33, and arc-spark stand 33 has the second cylinder 332 of several second longitudinal perforation 331 and arranged transversely.Each second longitudinal perforation 331 is embedded at wherein to maintain the relative position of each electrode slice 312 for the top 3121 of each electrode slice 312 respectively.Complete in combination state time, laterally penetrating electrode sheet 312 coupling with electrode slice 312 of the second cylinder 332 of arc-spark stand 33, and the second cylinder 332 of arc-spark stand 33 can connect another conducting element 61 in the present embodiment, by this, another conducting element 61 conducts electricity to electrode slice 312 via arc-spark stand 33.Certainly, in another kind of embodiment another conducting element 61 also be directly electrically connected that with electrode slice 312 it is conducted electricity by the second cylinder 332.Hence one can see that, and several electrode slices 312 are to be all electrically connected to another conducting element 61.Subsidiary one carries, and first, second cylinder 322,332 must be a copper rod or it is made by other high conductive materials.
Meanwhile, in this example, the top 3121 of electrode slice 312 must be divided into head 3121A and neck 3121B.In addition, to be roughly the shape of falling U and its head 3121A must be to engage and be arranged at second longitudinally in perforation 331 of same arc-spark stand 33 with the neck 3121B of adjacent electrode slice 312 on the top 3121 of electrode slice 312.By this, each electrode slice 312 is able to closely arrange to obtain better conductivity.
In addition, the design of arc-spark stand 33 of the present utility model is not limited with precedent, be arranged at respectively the design of different longitudinal perforation with respect to the top 3121 through electrode framves 33 of the electrode slice 312 of precedent and head 3121A and neck 3121B, in painting in the design of stating as Fig. 7 A to Fig. 7 C, the top 3121 of electrode slice 312 not through electrode frame 33 so that the entirety of its electrode slice 312 is maintained at same one end of arc-spark stand 33, recycle second longitudinal perforation 331 of a through electrode frame 33 and the relative position of web member (as screw) (not being shown in figure) fixed electorde frame 33 and electrode slice 312.Moreover, arc-spark stand 33 has laterally penetrating electrode frame 33 coupling with it of the second cylinder 332, and the second cylinder of arc-spark stand 33 can be electrically connected another conducting element 61, by this, the second cylinder 332 must be powered to electrode slice 312 via arc-spark stand 33, as Fig. 7 A to Fig. 7 person of stating that C paints.
As mentioned above, for providing electrolyzer 31 required electric energy, cell body frame 32 or its cylinder the 1 can be electrically connected on the cell body 311 of electrolyzer 31, and arc-spark stand 33 or its second cylinder 332 can be electrically connected on the electrode slice 312 of electrolyzer 31,322,332 of first, second cylinders of cell body frame 32 and arc-spark stand 33 are electrically connected with conducting element 62,61 respectively in addition, therefore required electric energy can provide electrolyzer 31 brine electrolysis by the power supply 60 being connected with conducting element 61,62 time.In this example, the cell body 311 of electrolyzer 31 can be as the electrode slice of negative electrode and electrolyzer 31 312 as anode, precisely because not as limit, by the needs of its design, cell body 311 and electrode slice 312 the electrical of the two also must be adjusted respectively by user's needs.Therefore in this embodiment, the electric connection mode of several electrolyzers 31 presents state in parallel from the angle of circuit, the cell body 311 of all electrolyzers 31 (being negative electrode) is electrically connected with conducting element 62, and the electrode slice 312 of all electrolyzers 31 (being anode) is electrically connected with conducting element 61.
In another embodiment, the fixed form of cell body 311 or electrode slice 312 can not need the first cylinder 322 or the second cylinder 332, only fixing with cell body frame 32 or arc-spark stand 33, and conducting element 61,62 is electrically connected on to cell body frame 32 or arc-spark stand 33.In addition, structure or the type shape of cell body frame 32 or arc-spark stand 33 are also not limited to above-mentioned structure, as long as can make cell body 311 or electrode slice 312 firmly.
In another embodiment, the cell body 311 of electrolyzer 31 is not as electrode, but in each electrolyzer, can comprise two plate electrode sheets through aforementioned lid 313, a slice as anode and another sheet as negative electrode, in order to make two electrode slice mutually insulateds, lid 313 is able to insulating material for making.In the time that several electrolyzers 31 are in parallel, in electrolyzer 31 in parallel, all anode electrode films are electrically connected and all cathode electrode sheets are electrically connected, and this electrical connection can be reached with above-mentioned arc-spark stand or cylinder, as long as note allowing anode and cathode isolation.
In order conveniently to clean and to safeguard, the bottom of outer water tank 10 must have a water shoot 70 that is combined with valve 71, water shoot 70 is arranged at the outer surface place of the bottom of outer water tank 10, and water shoot 70 is communicated with the first hollow bulb S1 of outer water tank 10, for refrigerant is drained into outside outer water tank 10 from the first hollow bulb S1.Accordingly, in order to fill refrigerant, the top of outer water tank 10 be provided with water inlet 12 think refrigerant input use.This refrigerant can be the liquid that water or other have cooling performance.
In sum, the oxyhydrogen that in the utility model, electrolyzer 31 produces, via the liquid water of inner water tank 20, can reduce the temperature of oxyhydrogen, can prevent the generation that hydrogen is quick-fried.Monitor the water level of inner water tanks 20 via inner water tank 20 median water level detectors in addition, and can keep the amount of oxyhydrogen in inner water tank 20 via the pressure release of pressure relief device, with the generation that prevents that hydrogen is quick-fried.And pressure relief device can also regulate the storage capacity of the oxyhydrogen of inner water tank 20 tops storages, automatically carry out pressure release in good time, can reach equally the effect that prevents that hydrogen is quick-fried.Moreover, the pneumatic outlet of electrolyzer 31 and water inlet design in the utility model, and inner water tank 20 gas inletes and water outlet design, make the pure water in inner water tank 20 to be charged to electrolyzer 31 by automatic makeup, and the oxyhydrogen that electrolyzer 31 produces, can automatically be expelled to inner water tank 20, reach air water circulation.Moreover by electrolyzer module 30 is soaked in the refrigerant of outer water tank 10, the temperature of the hydrogen or oxygen gas of its generation will be further cooled, and improve security of the present utility model.
By the above detailed description of preferred embodiments, hope can be known description feature of the present utility model and spirit more, and not with above-mentioned disclosed preferred embodiment, category of the present utility model is limited.On the contrary, its objective is that hope can contain in the category of the scope of the claims that is arranged in the wish application of the utility model institute of various changes and tool equality.Although the utility model discloses as above with embodiment; so it is not in order to limit the utility model; anyly have the knack of this skill person; not departing from spirit and scope of the present utility model; when being used for a variety of modifications and variations, therefore protection domain of the present utility model is when being as the criterion depending on the accompanying claim person of defining.
Claims (19)
1. a gas generator, is characterized in that comprising:
One outer water tank, has first hollow bulb that is equipped with a refrigerant;
One inner water tank, is arranged in this outer water tank first hollow bulb, and this inner water tank has second hollow bulb that is equipped with a liquid water, and this inner water tank is connected with an escape pipe; And
One is arranged at the electrolyzer module with electrolysis liquid water in this outer water tank first hollow bulb;
Partly or entirely being soaked in this refrigerant of this electrolyzer module.
2. gas generator as claimed in claim 1, it is characterized in that, this electrolyzer module comprises at least one electrolyzer, wherein this electrolyzer have an accommodating liquid water the 3rd hollow bulb, one connect this inner water tank with supplement liquid water water inlet and one connect this inner water tank with output oxyhydrogen air outlet, this electrolyzer is removable installed in this electrolyzer module.
3. gas generator as claimed in claim 2, it is characterized in that, this electrolyzer module more comprises a cell body frame, and this cell body frame comprises the several first longitudinally perforation, and this electrolyzer comprises a cell body and this cell body is arranged in one first longitudinal perforation of this cell body frame accordingly.
4. gas generator as claimed in claim 3, it is characterized in that, this electrolyzer module more comprises an arc-spark stand, this arc-spark stand comprises the several second longitudinally perforation, this electrolyzer comprises an electrode slice, and this electrode slice is arranged at one second longitudinal perforation of this arc-spark stand accordingly and the bottom of this electrode slice is placed in the 3rd hollow bulb of this electrolyzer.
5. gas generator as claimed in claim 4, is characterized in that, this cell body frame comprises this cell body that one first cylinder runs through this electrolyzer, and this arc-spark stand comprises this electrode slice that one second cylinder runs through this electrolyzer.
6. gas generator as claimed in claim 5, is characterized in that, this cell body of this electrolyzer is all soaked in this refrigerant.
7. gas generator as claimed in claim 6, is characterized in that, this cell body outside surface of this electrolyzer is coated with insulating material.
8. gas generator as claimed in claim 5, is characterized in that, this inner water tank at least a portion is soaked in this refrigerant.
9. gas generator as claimed in claim 5, it is characterized in that, this electrolyzer more comprises a lid in order to isolate this electrode slice and this cell body, this first cylinder of this cell body frame connects a conducting element, and this of this arc-spark stand the second cylinder connects another conducting element so that this electrode slice of this electrolyzer is anode and this cell body of this electrolyzer is negative electrode.
10. gas generator as claimed in claim 1, is characterized in that, this outer water tank is provided with a water shoot and a valve coordinating with this water shoot so that refrigerant is discharged from this outer water tank.
11. gas generators as claimed in claim 2, it is characterized in that, this electrolyzer module more comprises a connectivity slot, a tubing and a water shoot, this connectivity slot comprises several openings, respectively this water inlet of this electrolyzer is to a opening that should connectivity slot, this tubing is communicated with this inner water tank, and this water shoot is communicated with this connectivity slot, and this water shoot is communicated with liquid water can be discharged in this inner water tank and this electrolyzer with this tubing.
12. gas generators as claimed in claim 1, is characterized in that, this outer water tank comprises a supporting frame, and this inner water tank is provided with the tongue on several these supporting frames that this inner water tank are fixed on to this outer water tank.
13. 1 kinds of gas generators, is characterized in that comprising:
One outer water tank, has first hollow bulb that is equipped with a refrigerant;
One inner water tank, has the second hollow bulb of an accommodating liquid water;
The one electrolyzer module by the supplementary liquid water of this inner water tank and the liquid water generates one oxyhydrogen gas mixture of electrolysis, comprises several dismountable electrolyzers, and each electrolyzer has an anode and a negative electrode; And
This anode of each electrolyzer is electrically connected, thereby this cathodic electricity of each electrolyzer links together, this of electrolyzer module counted electrolyzer and presented electrical parallel connection, being partly or entirely soaked in this refrigerant of this electrolyzer module.
14. gas generators as claimed in claim 13, it is characterized in that, this electrolyzer module comprises a cell body frame and an arc-spark stand, each electrolyzer comprises a cell body and an electrode slice, wherein cell body frame is electrically connected this cell body of each electrolyzer and this arc-spark stand and is electrically connected this electrode slice of each electrolyzer, and this arc-spark stand electrical connection one first conducting element and this cell body frame electrical connection one second conducting element are so that this electrode slice of each electrolyzer is that this anode and this cell body are this negative electrode.
15. gas generators as claimed in claim 14, is characterized in that, this inner water tank is all or part of to be soaked in this refrigerant.
16. gas generators as claimed in claim 15, is characterized in that, this electrolyzer more comprises a lid in order to isolate this electrode slice and this cell body, and this cell body outside surface of this electrolyzer is coated with insulating material.
17. 1 kinds of gas generators, is characterized in that comprising:
One power supply, comprises one first conducting element and one second conducting element; And
The electrolyzer module of the liquid water generates oxyhydrogen of one electrolysis, this electrolyzer module comprises several dismountable electrolyzers, and each electrolyzer has an anode and a negative electrode; And
One outer water tank, has first hollow bulb that is equipped with a refrigerant, being partly or entirely soaked in this refrigerant of this electrolyzer module;
This anode of each electrolyzer is electrically connected to this first conducting element, and this cathodic electricity of each electrolyzer is connected to this second conducting element.
18. gas generators as claimed in claim 17, is characterized in that, each electrolyzer comprises a cell body and an electrode slice, and this electrode slice of each electrolyzer is that this anode and this cell body are this negative electrode.
19. 1 kinds of gas generators, is characterized in that comprising:
One power supply, comprises one first conducting element and one second conducting element;
The electrolyzer module of the liquid water generates oxyhydrogen of one electrolysis, this electrolyzer module comprises several dismountable electrolyzers, and each electrolyzer has an anode and a negative electrode; And
One optionally by the control unit of all or part of these several electrolyzer parallel connections, and this anode of each electrolyzer in parallel connection is electrically connected to this first conducting element, and in parallel connection, this cathodic electricity of each electrolyzer is connected to this second conducting element.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320765992.8U CN203613267U (en) | 2013-11-28 | 2013-11-28 | Gas generator |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320765992.8U CN203613267U (en) | 2013-11-28 | 2013-11-28 | Gas generator |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203613267U true CN203613267U (en) | 2014-05-28 |
Family
ID=50765923
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320765992.8U Expired - Lifetime CN203613267U (en) | 2013-11-28 | 2013-11-28 | Gas generator |
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| Country | Link |
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| CN (1) | CN203613267U (en) |
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103789788A (en) * | 2013-11-28 | 2014-05-14 | 林信涌 | Gas generator |
| CN105603451A (en) * | 2014-09-10 | 2016-05-25 | 林信湧 | Liquid electrolysis device |
| CN105624724A (en) * | 2014-10-16 | 2016-06-01 | 林信湧 | Gas generator |
| CN105624723A (en) * | 2014-10-16 | 2016-06-01 | 林信湧 | Gas generator |
| CN106014702A (en) * | 2016-06-30 | 2016-10-12 | 东莞市绿能宝汽车用品科技有限公司 | Hydrogen-oxygen gas generator used for vehicles |
| CN107773829A (en) * | 2016-08-24 | 2018-03-09 | 林信涌 | Gas generator |
| US10465300B2 (en) | 2014-10-16 | 2019-11-05 | Hsin-Yung Lin | Gas generator |
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2013
- 2013-11-28 CN CN201320765992.8U patent/CN203613267U/en not_active Expired - Lifetime
Cited By (14)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US9631288B2 (en) | 2013-11-28 | 2017-04-25 | Hsin-Yung Lin | Gas generator |
| CN103789788A (en) * | 2013-11-28 | 2014-05-14 | 林信涌 | Gas generator |
| CN105603451A (en) * | 2014-09-10 | 2016-05-25 | 林信湧 | Liquid electrolysis device |
| CN109082679A (en) * | 2014-10-16 | 2018-12-25 | 林信湧 | Gas generator |
| CN105624723A (en) * | 2014-10-16 | 2016-06-01 | 林信湧 | Gas generator |
| CN105624724B (en) * | 2014-10-16 | 2018-09-14 | 林信湧 | Gas generator |
| CN105624723B (en) * | 2014-10-16 | 2018-11-23 | 林信湧 | Gas generator |
| CN105624724A (en) * | 2014-10-16 | 2016-06-01 | 林信湧 | Gas generator |
| US10465300B2 (en) | 2014-10-16 | 2019-11-05 | Hsin-Yung Lin | Gas generator |
| CN109082679B (en) * | 2014-10-16 | 2020-05-29 | 林信湧 | Gas generator |
| US11180858B2 (en) | 2014-10-16 | 2021-11-23 | Hsin-Yung Lin | Gas generator |
| CN106014702A (en) * | 2016-06-30 | 2016-10-12 | 东莞市绿能宝汽车用品科技有限公司 | Hydrogen-oxygen gas generator used for vehicles |
| CN107773829A (en) * | 2016-08-24 | 2018-03-09 | 林信涌 | Gas generator |
| CN107773829B (en) * | 2016-08-24 | 2020-09-08 | 林信涌 | Gas generator |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CX01 | Expiry of patent term |
Granted publication date: 20140528 |
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| CX01 | Expiry of patent term |