CN109750310A - molecular hydrogen generator - Google Patents

Abstract

A kind of molecular hydrogen generator includes hydrogen-oxygen electrolysis unit, the first water tank and the second water tank.Hydrogen-oxygen electrolysis unit includes ontology, water inlet, hydrogen output mouth and oxygen output mouth.The neighbouring side for being set to hydrogen-oxygen electrolysis unit of first water tank makes the first of the first water tank to receive stomata and docks with oxygen output mouth.Second water tank is set to the other side of hydrogen-oxygen electrolysis unit, makes the second of the second water tank to receive stomata and docks with hydrogen output mouth.More simplified structure and effectively overall volume can be reduced by the design of the first water tank and the second water tank.

Description

Molecular hydrogen generator

Technical field

The present invention refers in particular to a kind of molecular hydrogen generator with combined water tank about molecular hydrogen generator.

Background technique

Some studies pointed out that hydrogen molecules (Hydrogen) can neutralize the intracorporal free radical of people, and reaches adjustment constitution, maintains body The purpose of body health.So developing the molecular hydrogen generator of household, the people for being provided with demand can be more convenient to use.Presently commercially available Household molecular hydrogen generator volume is big, if being not easy to carry along with external water feeding tank is just huger, causes user's It is inconvenient.

There are also hydrogen producing efficiency deficiency, the hydrogen humidity of institute's output and temperature mistakes for presently commercially available household molecular hydrogen generator High, water inlet outlet system may adverse current and hydrogen-oxygen electrolysis unit is easily damaged, the service life is too short, situation not convenient for safeguarding etc..

Summary of the invention

In view of the above problems, it is more exquisite to provide a molecular hydrogen generator volume for the embodiment of the present invention, and using combination The water tank of formula can increase or decrease pondage on demand, be substantially improved and use upper convenience.

In one embodiment, a kind of molecular hydrogen generator includes hydrogen-oxygen electrolysis unit, the first water tank and the second water tank.Hydrogen-oxygen Electrolysis unit includes ontology, water inlet, hydrogen output mouth and oxygen output mouth.Ontology includes the first opposite side and second side, Wherein hydrogen output mouth is located at the first side, and oxygen output mouth is located at second side.First water tank includes first shell and the first liquid level Monitoring element.First shell has the first accommodating space.First level monitoring element is for the low water in the first accommodating space of detecting Position, so that the water level in the first accommodating space is maintained at low water level or more.First shell also includes first to receive stomata, first row Stomata and the first apopore.First receives the low water level position below that stomata and the first apopore be set in first shell, and One gas vent is set to the position of the low water level in first shell or more.First water tank is neighbouring to be set to the of hydrogen-oxygen electrolysis unit Two sides, so that first receives stomata and dock with oxygen output mouth.Second water tank includes second shell and the second level monitoring element.The Two shells have the second accommodating space.Second level monitoring element is for the high water level in the second accommodating space of detecting, so that second Water level in accommodating space is maintained at high water level or less.Second shell also includes second to receive stomata, second row stomata and second to go out Water hole.Second receives the high water level position below that stomata and the second apopore be set in the second shell, and second row stomata is set It is placed in the position of the above high water mark in the second shell.Second water tank is set to the first side of hydrogen-oxygen electrolysis unit, so that the Two receive stomata docks with hydrogen output mouth.

Further, the outer surface of the first shell include one first adjacent flat, first apopore be located at this first Adjacent flat, first adjacent flat are tightly attached to the second side of the hydrogen-oxygen electrolysis unit, connect so that first apopore is corresponding It is connected to the water inlet.

Further, first apopore and a flow control element is further included between the water inlet.

Further, it is 50 to 200cc/min which, which controls the inflow of the water inlet,.

Further, which further includes a water filtration element, is located inside first accommodating space.

The outer surface of the second shell includes one second adjacent flat, this second is received stomata and be located at second adjacent flat, Second adjacent flat is tightly attached to first side of the hydrogen-oxygen electrolysis unit so that this second receive stomata reply be connected to the hydrogen Output mouth.

Further, a cooling element is further included, the consistent huyashi-chuuka (cold chinese-style noodles) of the cooling element is adjacent to second water tank, the refrigeration One pyrogenicity face of element is adjacent to first water tank.

Further, a cooling element is further included, the consistent huyashi-chuuka (cold chinese-style noodles) of the cooling element is adjacent to the hydrogen-oxygen electrolysis unit, should One pyrogenicity face of cooling element is adjacent to first water tank.

Further, it further includes a third water tank and is positioned adjacent to first water tank, which includes a third shell, The third shell has a third accommodating space, and the third shell has a third apopore, so that the third accommodating space It is connected to first accommodating space.

Further, which is set to the outer surface of the first shell, second level monitoring member Part is set to the outer surface of the second shell.

To sum up, molecular hydrogen generator according to an embodiment of the invention, can by the design of the first water tank and the second water tank Faster to assemble, while effectively reducing overall volume.

Detailed description of the invention

Fig. 1 is the side view configuration schematic diagram of the molecular hydrogen generator of one embodiment of the invention.

Fig. 2 is that the molecular hydrogen generator of one embodiment of the invention faces configuration schematic diagram.

Fig. 3 is the side view configuration schematic diagram of the molecular hydrogen generator of another embodiment of the present invention.

Fig. 4 is that the molecular hydrogen generator of another embodiment of the present invention faces configuration schematic diagram.

Fig. 5 is the molecular hydrogen generator stereoscopic configurations schematic diagram of one embodiment of the invention.

Fig. 6 is the stereoscopic configurations schematic diagram of the molecular hydrogen generator of another embodiment of the present invention.

Fig. 7 is the molecular hydrogen generator stereoscopic configurations schematic diagram of further embodiment of this invention.

Fig. 8 is the stereoscopic configurations schematic diagram of the molecular hydrogen generator of yet another embodiment of the invention.

Fig. 9 A is the water tank perspective view of one embodiment of the invention.

Fig. 9 B is the water tank front view of one embodiment of the invention.

Fig. 9 C is the water tank side view of one embodiment of the invention.

Wherein appended drawing reference are as follows:

10 hydrogen-oxygen electrolysis units

11 ontologies

12 water inlets

13 hydrogen output mouths

14 oxygen output mouths

110 first sides

112 second side

20 first water tanks

21 first shells

212 first adjacent surfaces

22 first level monitoring elements

23 first receive stomata

24 first apopores

25 first row stomatas

29 add water hole

30 second water tanks

31 second shells

312 second adjacent surfaces

32 second level monitoring elements

33 second receive stomata

34 second apopores

35 second row stomatas

40 third water tanks

41 third shells

42 third apopores

43 thirds receive stomata

45 third gas vents

50 water tanks

51 shells

52 holes

59 fixation holes

60 flow control elements

70 fans

71 cooling fins

72 refrigerating sheets

73 aluminium flakes

75 electric current chargers

76 control circuit boards

78 water filtration elements

781 outer covers

1 dotted line (shell of molecular hydrogen generator is illustrated)

2 dotted lines (shell of molecular hydrogen generator is illustrated)

Specific embodiment

Fig. 1 is the side view configuration schematic diagram of the molecular hydrogen generator of one embodiment of the invention.Fig. 2 is one embodiment of the invention Molecular hydrogen generator face configuration schematic diagram.Fig. 3 is the side view configuration of the molecular hydrogen generator of another embodiment of the present invention Schematic diagram.Fig. 4 is that the molecular hydrogen generator of another embodiment of the present invention faces configuration schematic diagram.In one embodiment, a kind of Molecular hydrogen generator includes hydrogen-oxygen electrolysis unit 10, the first water tank 20 and the second water tank 30.Hydrogen-oxygen electrolysis unit include ontology 11, Water inlet 12, hydrogen output mouth 13 and oxygen output mouth 14.Ontology 11 includes the first opposite side 110 and second side 112, wherein Hydrogen output mouth 13 is located at 110 upper half of the first side, and oxygen output mouth 14 is located at 112 upper half of second side, and water inlet 12 is located at The position of 112 lower half of second side.In this, water is gone back into hydrogen ion after hydrogen-oxygen electrolysis unit 10 in cathode by water inlet 12 Raw hydrogen is originated in, hydroxyl ion is oxidized generation oxygen in anode, then respectively by 14 row of hydrogen output mouth 13 and oxygen output mouth Out.In some embodiments, molecular hydrogen generator includes electric current charger 75, to provide hydrogen-oxygen electrolysis unit 10 enough electricity Source uses for the effect of electrolysis water.Such as: use model PC300w SFX power supply unit.It can be seen from the above, of the invention Molecular hydrogen generator is not limited to provide hydrogen, can also provide oxygen and pure water.

Continuous to refer to Fig. 1 and Fig. 3, the first shell 21 of the first water tank 20 has the first accommodating space (not shown), and first holds With for storing water between emptying, the second shell 31 of the second water tank 30 has the second accommodating space (not shown).In some implementations In example, the other maximum pondage of the first accommodating space or the second accommodating space can be between 200~500cc.Some In embodiment, first shell 21 and second shell 31 can use plastics, rubber, metal (such as stainless steel) or other food grades Safe material, do not illustrated and be limited with this.

Continuous to refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, the first water tank 20 includes first shell 21 and the first level monitoring element 22. First level monitoring element 22 is for the low water level in the first accommodating space of detecting, so that the water level in the first accommodating space is kept It, can be to avoid the failure for causing hydrogen-oxygen electrolysis unit 10 because of water shortage more than low water level.Low water level is kept above in water tank Moisture content can maintain the humidity in hydrogen-oxygen electrolysis unit 10, avoid the reaction film overdrying in it and it is impaired with reduce it and use the longevity Life.For example, low water level refers to that the pondage of the first accommodating space will at least have 150cc.Second level monitoring element 32 supplies The high water level in the second accommodating space is detected, so that the water level in the second accommodating space is maintained at high water level hereinafter, avoiding water It is excessive to overflow.For example, high water level refers to that the pondage of the second accommodating space cannot be more than 450cc.

In some embodiments, the first level monitoring element 22 can more detect the complete water storage of the first accommodating space at any time Amount, and the second level monitoring element 32 detects the complete pondage in the second accommodating space at any time, rather than only detect high water level Or low water level.For example, the first level monitoring element 22 and the second level monitoring element 32 can respectively include high water level and detect Measuring point and low water level detect point.In some embodiments, molecular hydrogen generator include display screen (such as: LCD, LCM touch screen Curtain), it, can also only display first by the pondage of the first water tank 20 or the second water tank 30 difference real-time display in the display screen Sum total pondage in accommodating space and the second accommodating space, so that user can learn total Water at any time.In some implementations In example, the first water tank 20 includes one and adds water hole 29, and adding water hole 29 can be set in the upper top surface of the first water tank 20, and add water Hole 29 can have a lid.It approaches or arrives at when the first level monitoring element 22 detects the water in the first accommodating space When low water level, alerting (flashing cresset, alarm audible etc.) can be transmitted to prompt user that should add in the first water tank 20 Insufficient water.In this, the case surface in molecular hydrogen generator is can be set in display screen and alerting.

In some embodiments, the first level monitoring element 22 of molecular hydrogen generator is set to the appearance of first shell 21 Face, the second level monitoring element 32 are set to the outer surface of second shell 31.For example, level monitoring element can use non- Contact liquid level sensor, contactless liquid level sensor refers to be detected whether with the presence of liquid, no with the inductance capacitance of water It can be easily damaged because leaching is placed in liquid.

Continuous to refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, in some embodiments, first shell 21 also receives stomata 23, the comprising first One gas vent 25 and the first apopore 24.First receives stomata 23 and the first apopore 24 is set to low water level in first shell 21 Position below, to ensure that hydrogen-oxygen electrolysis unit 10 can persistently obtain water supply from the first apopore 24.First receive stomata 23 connection In the oxygen output mouth 14 of hydrogen-oxygen electrolysis unit 10.First apopore 24 is connected to the blasthole 12 of hydrogen-oxygen electrolysis unit 10.The One gas vent 25 is set to the position of the low water level in first shell or more, and the oxygen entered from first row stomata 25 is made at least By the water of a part, then spill by the water surface top of the first accommodating space.In further embodiments, the first level monitoring Element 22 is for the high water level and low water level in the first accommodating space of detecting, so that the water level in the first accommodating space is maintained at Gao Shui Between position and low water level, first receives stomata 23 and the first apopore 24 is located under low water level, and first row stomata 25 is located at high water level More than, further ensure that water will not be escaped from first row stomata 25.

Continue and refers to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, the neighbouring second side 112 for being set to hydrogen-oxygen electrolysis unit 10 of the first water tank 20, So that first receives stomata 23 and docks with oxygen output mouth 14.The oxygen of high temperature and humidity caused by hydrogen-oxygen electrolysis unit 10 is via One, which receives stomata 23, has to pass through the water stored in the first water tank 20 into the first water tank 20 and gets to first row stomata 25.Therefore And the oxygen of high temperature and humidity is cooled down by the water stored in the first water tank 20, and a part in the oxygen of high temperature and humidity Moisture is retained in water, and the humidity for the oxygen gone out from water surface loss is lower, and the oxygen after reducing temperature and humidity enters first and holds Top (above high water mark, that is, anhydrous part) between emptying is discharged via first row stomata 25 again later.In some realities It applies in example, first row stomata 25 is located at the upper surface of the first water tank 20.

Continuous to refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, second shell 30 also receives stomata 33, second row stomata 35 and the comprising second Two apopores 34.Second receives stomata 33 and the second apopore 34 is set to the high water level position below of the second shell 31, and Two gas vents 35 are set to the position of the above high water mark of the second shell 31.In further embodiments, the second level monitoring Element 32 is for detecting another high water level and another low water level in the second accommodating space, so that the water level in the second accommodating space is protected It holds between another high water level and another low water level, second receives stomata 33 and the second apopore 34 is located under another low water level, and One gas vent 35 is located at another above high water mark.In some embodiments, it can wrap between the first water tank 20 and the second water tank 30 A connecting pipe road is included, one end of connecting pipeline is connected to the second apopore 34, so when the second level monitoring element 32 detects When water in second accommodating space is close or arrives at high water level, the water storage in the second water tank 30 can be flowed to by connecting pipeline First water tank 20.In some embodiments, the connecting pipeline between the first water tank 20 and the second water tank 30 can also include a pump, The water storage in the second water tank 30 is set to flow to the first water tank 20 to provide power.In some embodiments, connecting pipeline may include Solenoid valve reversely flows back towards to avoid the water in the first water tank 20 and maintains the equal of water between second water tank 30, or two water tanks of adjustment Weighing apparatus.In this, solenoid valve can be a kind of normally open solenoid valve.

Second water tank 30 is set to the first side 110 of hydrogen-oxygen electrolysis unit 10, so that second receives stomata 33 and hydrogen output Mouth 13 docks.The hydrogen for the high temperature and humidity that can be generated when hydrogen-oxygen 10 electrolysis water of electrolysis unit, that is, a kind of hydrogen molecule of high temperature With the mixture of the water vapour molecule of high temperature.When high temperature and humidity hydrogen via second receive stomata 33 enter the second water tank 30 it is necessary Second row stomata 35 is got to by the water stored in the second water tank 30.So the hydrogen of high temperature and humidity is by the second water tank The water stored in 30 is cooled down, that is, the water vapour molecule cooling of high temperature becomes hydrone and is mixed into institute in the second water tank 30 In the water of storage, and the hydrogen molecule of remaining low temperature is released via first row stomata 35, is subject to benefit for user so that benefit is subsequent With.In some embodiments, it second receives and is provided with exclusive pipeline (not shown), exclusive pipe between stomata 33 and second row stomata 35 Road is set in the second accommodating space, and the hydrogen of the high temperature and humidity that when hydrogen-oxygen 10 electrolysis water of electrolysis unit can generate is from exclusive pipeline In the state of not contacting water, is received after stomata 33 flows to second row stomata 35 and released by second.In some embodiments, exclusive Pipeline can be made of metal, so that the hydrogen of high temperature and humidity can have the effect of cooling or wet down by the exclusive pipeline of made of metal Fruit.In some embodiments, molecular hydrogen generator further includes the ventilating component that blocks water and is set to first row stomata 25 or second exhaust The outside in hole 35 for further excluding the moisture in hydrogen or oxygen, and is retained in the first water tank 20 or the second water tank In 30.In some embodiments, the ventilating component that blocks water can be realized by water waterproof ventilated membrane.

Fig. 5 is the molecular hydrogen generator stereoscopic configurations schematic diagram of one embodiment of the invention.In some implementations, molecular hydrogen is raw The outer surface for 20 first shell 21 of the first water tank grown up to be a useful person includes the first adjacent flat 212, and it is adjacent that the first apopore 24 is located at first The part (namely below low water level) that plane 212 is close to bottom surface is connect, the first adjacent flat 212 is close to hydrogen-oxygen electrolysis unit Second side 212 so that the first apopore 24 is correspondingly connected to water inlet 12.In some embodiments, first stomata 23 is received Positioned at the first adjacent flat 212, and first receives stomata 23 and is connected to oxygen output mouth 14.In this, with reference to the dotted line 1 in Fig. 5 It show the shell signal of molecular hydrogen generator, the substantially cylindrical shape of dotted line 1, due to hydrogen-oxygen electrolysis unit 10, the first water Case 20 and the second water tank 30 are the maximum components of molecular hydrogen generator internal volume, by position appropriate in the embodiment of the present invention Configuration, which can achieve, reduces molecular hydrogen generator overall volume, and reaches optimal space utilization rate.For example, molecular hydrogen Generator has the shape of round outer diameter 150mm, high 150mm.In addition, the configuration mode according to Fig. 5, it can also be raw by molecular hydrogen It grows up to be a useful person the shape being designed to cube, such as the shape with height 200mm, width 150mm, depth 125mm.

Fig. 6 is the stereoscopic configurations schematic diagram of the molecular hydrogen generator of another embodiment of the present invention.In some embodiments, divide The outer surface of the second shell 31 of second water tank 30 of sub- hydrogen generator includes the second adjacent flat 312, this second receives stomata 33 Positioned at the second adjacent flat 312, the second adjacent flat 312 is adjacent to the first side 110 of hydrogen-oxygen electrolysis unit 10, so that second receives The reply of stomata 33 is connected to hydrogen output mouth 13.In this, the dotted line 2 in Fig. 6 show the shell signal of molecular hydrogen generator, empty Line 2 is substantially in books shape shape.With reference to Fig. 1,2 and 6, for example, molecular hydrogen generator has thickness 75mm, width 200mm, height The shape of 250mm, and total weight is between 3~6 kilograms.

Fig. 7 is the molecular hydrogen generator stereoscopic configurations schematic diagram of further embodiment of this invention.In some embodiments, molecule Hydrogen generator further includes third water tank 40 and is positioned adjacent to the first water tank 20, and third water tank 40 includes third shell 41, third shell 41 have third accommodating space (not shown), and third shell 41 has third apopore 42, and third apopore 42 is set to The low water level of third shell is hereinafter, third apopore 42 is connected to the first accommodating space like third accommodating space.In this, the first water Case 20 can circulate mutually with the storage water in third water tank 40, and achieve the effect that increase pondage.In some embodiments, First water tank 20, the second water tank 30 and the maximum pondage having the same of third water tank 40.In some embodiments, first shell 21, second shell 31 and third shell 41 have identical or symmetrical shape, to use identical mold when benefit manufacture, to save Manufacturing cost.In some embodiments, third water tank 40 further includes third and receives stomata 43 and third gas vent 45, and third receives stomata 43 make the upper half (above high water mark, anhydrous domains) of the first accommodating space be connected to the upper half (Gao Shui of third accommodating space Or more, anhydrous domains).In this, generated oxygen received stomata 23 by first and entered the when hydrogen-oxygen 10 electrolysis water of electrolysis unit One water tank 20 and the upper half for being gathered in the first accommodating space, then via third receive stomata 43 enter third accommodating space upper half Portion is then released by third gas vent 45.In some embodiments, gas vent can connect a multi-angle outlet head, be made with allowing Employment is more convenient.

Fig. 8 is the stereoscopic configurations schematic diagram of the molecular hydrogen generator of yet another embodiment of the invention.In some embodiments, The third of three-tank 40, which receives stomata 43, is connected to the upper half (anhydrous domains) of the first accommodating space under third accommodating space Half portion (has water area).In this, when hydrogen-oxygen 10 electrolysis water of electrolysis unit, generated oxygen by first received stomata 23 into first Water tank 20 and the upper half for being gathered in the first accommodating space, then via third receive stomata 43 enter third accommodating space lower half Portion, and then released by third gas vent 45 by the water storage in third water tank 40.In this, the side (bottom side) of third water tank 40 It is adjacent with the first water tank 20, and the other side (left side) of third water tank 40 and the second water tank 30 are adjacent.

Fig. 9 A is the water tank perspective view of one embodiment of the invention.Fig. 9 B is the water tank front view of one embodiment of the invention.Figure 9C is the water tank side view of one embodiment of the invention.With reference to Fig. 9 A to 9C, in the embodiment of the present invention, using modular concept, The effect of water tank can reach lasting amplification pondage by various arrangements or combination.In some embodiments, water tank 50 wraps Include shell 51, multiple holes 52 and multiple plug member (not shown), the shell 51 of water tank 50 is cuboid, on six faces of shell 51 Different location is respectively arranged with 2~4 holes 52, includes accommodating space (not shown) in shell 51, it is empty that hole 52 is connected to accommodating Between.When water tank 50 is using a variety of different combinations (such as various embodiments of Fig. 2~5), hole 52 can keep on demand logical Thoroughly or with plug member clogs and is latched.It keeps penetrating hole 52 to become apopore on demand, receive stomata or gas vent, and makes Water tank 50 reaches the function respectively as the first water tank 20, the second water tank 30 or third water tank 40.In some embodiments, shell On further include fixation hole 59, fixation hole 59 is not connected to accommodating space, reaches fixed function for locking fixing piece (not shown) Energy.

It is continuous to refer to Fig. 1 and 3.In some embodiments, between the first apopore 24 and water inlet 12 of molecular hydrogen generator Further include flow control element 60, by control hydrogen-oxygen electrolysis unit 10 inflow, improve intake pressure to avoid adverse current and It is grand it is low go out hydrogen amount or oxygen amount out.In some embodiments, the inflow of flow control element 60 control into water inlet 12 is At least 30~60cc/min.It, instead can be with furthermore enough inflows can have the effect for reducing by 10 temperature of hydrogen-oxygen electrolysis unit Improve the service life of hydrogen-oxygen electrolysis unit 10.In this, flow control element 60 can be by water pump, motor or pump (pump) etc. To realize.

In some embodiments, the first apopore 24 of molecular hydrogen generator and water quality mistake is further included between water inlet 12 Unit (not shown) is filtered, except water tank.In some embodiments, the first water tank 20 of molecular hydrogen generator further includes water Matter filter element 78 is set to inside the first accommodating space.In other words, refering to what is shown in Fig. 1, the first water tank 20 and the second water tank 30 It inside include water filtration element 78, and water filtration element 78 includes that outer cover 781 is arranged in the first water tank 20 or third The outer surface of water tank 30, in favor of the filter material inside replacement.In this, water filtration element 78 can be handed over using activated carbon, ion Change the filter materials such as resin (Ion-exchange Resin).In some embodiments, water filtration element 78 is movable is connected to outside On lid 781, when raising outer cover 781, water tank is taken out together together with water filtration element 78, to replace water filtration element 78。

In some embodiments, molecular hydrogen generator includes cooling element, so that the hydrogen manufacturing of molecular hydrogen generator is imitated Rate is promoted and is avoided that 10 temperature of hydrogen-oxygen electrolysis unit is excessively high.With reference to Fig. 3, in some embodiments, molecular hydrogen generator packet It has included refrigerating sheet (Fig. 3 does not show), the refrigeration face of cooling element is adjacent to the second water tank 30, and the pyrogenicity face of cooling element is adjacent to One water tank 20, that is, directly the second water tank 30 is cooled down using cooling element, and the first water tank 20 heats up.With reference to Fig. 2 and 3, In some embodiments, cooling element can include refrigerating sheet 72, aluminium flake 73, fan 70 and cooling fin 71 wherein at least one simultaneously Kind.In the embodiment of fig. 2, cooling element setting is arranged in pairs or groups at water tank rear, the top of electric current charger 75 with refrigerating sheet 72 Aluminium flake 73 extends the first water tank 20 of cladding, the second water tank 30 and hydrogen-oxygen electrolysis unit 10 from refrigerating sheet 72, to be more advantageous to space Utilization.In some embodiments, cooling element can be refrigerating sheet 72, and two faces of refrigerating sheet can have greater than 66 degree or more The temperature difference, imply that the one side of refrigerating sheet can be heated with refrigeration, another side.In this, the pyrogenicity face of cooling element is by the first water Water heating in case 20, the water after heating can achieve 40 degree, and entering hydrogen-oxygen electrolysis unit 10 with this 40 degree warm water can be with Promote hydrogen output rate.And the refrigeration face of cooling element cools down the water in the second water tank 30, can assist high temperature and humidity Hydrogen is received when stomata 23 enters the second water tank 30 via first more effectively to cool down.

With reference to Fig. 2, in some embodiments, the refrigeration face of the cooling element of molecular hydrogen generator is adjacent to hydrogen-oxygen electrolysis group Part 10, the pyrogenicity face of cooling element are adjacent to the first water tank 20.In this, the pyrogenicity face of cooling element is by the water in the first water tank 20 Heating is effectively cooled down hydrogen-oxygen electrolysis unit 10 with promoting hydrogen output rate, to promote hydrogen-oxygen electrolysis unit 10 Service life.

In some embodiments, molecular hydrogen generator includes fan 70, and fan 70 is arranged adjacently to hydrogen-oxygen electrolysis unit 10 (such as shown in Fig. 1), so that wind reaches cooling in hydrogen-oxygen electrolysis unit 10.In some embodiments, molecular hydrogen generator Including another fan 70, fan 70 is arranged adjacently to refrigerating sheet 72 and circuit board 76 (such as shown in Fig. 2) is studied carefully in control, so that.One In a little embodiments, molecular hydrogen generator includes multiple sensors and control circuit board 76, and wherein sensor may include hydrogen/oxygen Air pressure force snesor, the sensor of hydrogen/oxygen flow, hydrogen/oxygen temperature sensor, hydrogen/oxygen humidity sensor, water The wherein at least one such as matter sensor, water temperature sensor, falling sensor (slope sensor), timer, are set on demand Relevant position, is not particularly limited in this inside molecular hydrogen generator.Above-mentioned multiple sensors are connected to controller, according to biography The sensing data that sensor obtains carry out various controls.For example, when toppling over more than 15 degree controller carry out pressure dump, The running time is more than 24 hours controller automatic shutdowns, prompts consumptive material that should replace etc. when calculating the time six months.Some In embodiment, controller to display screen and shows the various sensing data transmissions received, can be with for user Solve the functioning condition of molecular hydrogen generator.In some embodiments, it can control hydrogen-oxygen electrolysis unit via control circuit board 76 10 voltage/current, and control it accordingly and go out hydrogen amount or out oxygen amount.For example, it can will go out hydrogen amount or oxygen amount regulates and controls to exist out Between 100cc~500cc.In some embodiments, molecular hydrogen generator includes data transmitting module, by various sensing data It is transmitted to long-range.Data transmitting module can by WIFI, GSM, GPRS, 3G, 4G, near-field communication, ZigBee, Bluetooth, The technologies such as WLAN are not exemplified as limiting with above-mentioned.

Although technology contents of the invention are disclosed as above with preferred embodiment, however, it is not to limit the invention, It is any to be familiar with this those skilled in the art, do not depart from spirit of the invention make it is a little change and retouch, should all be covered by of the invention In scope, therefore protection scope of the present invention should be defined by the scope of the appended claims.

Claims (10)

1. a kind of molecular hydrogen generator, characterized in that it comprises:

One hydrogen-oxygen electrolysis unit, including an ontology, a water inlet, a hydrogen output mouth and an oxygen output mouth, the ontology include One first opposite side and a second side, wherein the hydrogen output mouth is located at first side, the oxygen output mouth be located at this second Side；

One first water tank, first water tank include a first shell and one first level monitoring element, which has one First accommodating space, the first level monitoring element is for detecting the low water level in first accommodating space, so that first appearance Water level in emptying is maintained at the low water level or more, and wherein the first shell also includes one first to receive stomata, a first exhaust Hole and one first apopore, this first receives stomata and first apopore is located under the low water level, which is located at should In low water level, which is set to the second side of the hydrogen-oxygen electrolysis unit, so that this first is received stomata and the oxygen and produce Outlet docking；And

One second water tank, is set to first side of the hydrogen-oxygen electrolysis unit, which includes a second shell, one second Level monitoring element, the second shell have one second accommodating space, and the second level monitoring element is for detecting second accommodating A high water level in space, so that the water level in second accommodating space is maintained at the high water level hereinafter, the wherein second shell Stomata, a second row stomata and one second apopore also are received comprising one second, this second receives stomata and second apopore is located at Under the high water level, which is located at the above high water mark, and wherein this second is received stomata and dock with the hydrogen output mouth.

2. molecular hydrogen generator as described in claim 1, which is characterized in that the outer surface of the first shell includes one first adjacent Plane is connect, which is located at first adjacent flat, which is tightly attached to being somebody's turn to do for the hydrogen-oxygen electrolysis unit Second side, so that first apopore is correspondingly connected to the water inlet.

3. molecular hydrogen generator as described in claim 1, which is characterized in that first apopore and between the water inlet more Including a flow control element.

4. molecular hydrogen generator as claimed in claim 3, which is characterized in that the flow control element control the water inlet into Water is 50 to 200cc/min.

5. molecular hydrogen generator as described in claim 1, which is characterized in that first water tank further includes water filtration member Part is located inside first accommodating space.

6. molecular hydrogen generator as described in claim 1, which is characterized in that the outer surface of the second shell includes one second adjacent Plane is connect, this second is received stomata and be located at second adjacent flat, and what which was tightly attached to the hydrogen-oxygen electrolysis unit should First side so that this second receive stomata reply be connected to the hydrogen output mouth.

7. molecular hydrogen generator as described in claim 1, which is characterized in that a cooling element is further included, the cooling element Consistent huyashi-chuuka (cold chinese-style noodles) is adjacent to second water tank, and a pyrogenicity face of the cooling element is adjacent to first water tank.

8. molecular hydrogen generator as described in claim 1, which is characterized in that a cooling element is further included, the cooling element Consistent huyashi-chuuka (cold chinese-style noodles) is adjacent to the hydrogen-oxygen electrolysis unit, and a pyrogenicity face of the cooling element is adjacent to first water tank.

9. molecular hydrogen generator as described in claim 1, which is characterized in that further include a third water tank be positioned adjacent to this first Water tank, the third water tank include a third shell, which has a third accommodating space, and the third shell has one Third apopore, so that the third accommodating space is connected to first accommodating space.

10. molecular hydrogen generator as described in claim 1, which is characterized in that the first level monitoring element be set to this The outer surface of one shell, the second level monitoring element are set to the outer surface of the second shell.