CN203270043U

CN203270043U - Hydrated ion energy saver and inter-polar resonance module thereof

Info

Publication number: CN203270043U
Application number: CN2013201453118U
Authority: CN
Inventors: 蒋克胜
Original assignee: FLY FISH AND WATER Co Ltd
Current assignee: FLY FISH AND WATER Co Ltd
Priority date: 2013-03-27
Filing date: 2013-03-27
Publication date: 2013-11-06
Anticipated expiration: 2023-03-27

Abstract

The utility model relates to a hydrated ion energy saver and an inter-polar resonance module thereof. The hydrated ion energy saver comprises a sealed bottle body, a gas output tube, the inter-polar resonance module, a guide wire group and an auto gain control frequency pulse width modulation device. The sealed bottle body contains catalyst-containing water and is communicated with the gas output tube. The inter-polar resonance module comprises a first metal electrode plate and a second metal electrode plate, which are connected with a positive electrode guide wire and a negative electrode guide wire respectively. The automatic gain control frequency pulse width modulation device is connected with the positive electrode guide wire in a telecommunication manner for providing energy to electrolyze the catalyst-containing water and generate hydrated gas (HHO). According to the hydrated ion energy saver and the inter-polar resonance module thereof disclosed by the utility model, a plurality of bulge structures are formed on the first metal electrode plate and the second metal electrode plate, the area for reaction of the metal electrode plates increases by virtue of the bulge structures, and therefore, the output of hydrated gas is greatly improved.

Description

Hydrated ion energy-saving appliance and interpolar resonance module thereof

Technical field

The utility model is a kind of hydrated ion energy-saving appliance and interpolar resonance module thereof, particularly a kind of hydrated ion energy-saving appliance and interpolar resonance module thereof that can significantly improve hydration gas quantum of output.

Background technology

In the surging epoch, the pollution that how to reduce car engine is a very important problem in environmental consciousness.For this reason, existing dealer works out the equipment that can produce hydration gas (HHO) and engine collocation, producing hydration gas by hydrated ion, and reaches the discharging of saving fuel oil consumption, minimizing obnoxious flavour and avoids the effect such as carbon distribution.

Hydration gas is that two hydrogen atoms add a Sauerstoffatom, the namely combination of two " H " and one " O ", and just be called hydration gas when gaseous phase.Hydration gas itself is exactly a kind of environment-friendly and high-energy fuel, and combustion heat energy is all higher than gasoline, diesel, has increased exactly fuel during therefore with hydration gas inject engine and can also improve latent heat, and then reached the purpose of fuel-economizing.In addition, add hydration gas in engine after, originally carbon monoxide and hydrocarbon polymer are fully burnt, and hydration gas produce afterwards in burning is water, can not produce again harmful gas, so can also reduce the objectionable impurities in vehicular discharge gas in fuel-economizing.More preferably, in the process of general vehicle long-time running, fuel oil usually causes the phenomenon of carbon distribution because of incomplete combustion, but can fully burn by auxiliary fuel after adding hydration gas, and then reduces the generation probability of carbon distribution.

The existing equipment that produces hydration gas is to utilize electrolysis to contain the water of catalyzer, producing hydration gas, and hydration gas is transported in the cylinder of engine and burns simultaneously with fuel oil.Yet the existing equipment that produces hydration gas still uses platinum electrode mostly, and its manufacturing cost is high and need to consume very large energy.In view of this, how designing for manufacturing goes out a kind of equipment that can significantly improve hydration gas quantum of output and significantly reduction power consumption is the target that the dealer needs effort badly.

The utility model content

The utility model is a kind of hydrated ion energy-saving appliance and interpolar resonance module thereof, the hydrated ion energy-saving appliance comprises: airtight bottle, gas output tube, interpolar resonance module, wire group and automatic gain controlled frequency pulse-width modulator (Auto Gain Control Frequency Pulse Width Modulation, AGC FPWM).By form projective structure on the metal electrode board of interpolar resonance module, and then increase reaction area and improve the quantum of output of hydration gas, by the electric energy of automatic gain controlled frequency pulse-width modulator control inputs, just can produce hydration gas endlessly with extremely low electric energy again.

The utility model provides a kind of hydrated ion energy-saving appliance, comprising: airtight bottle, in order to the accommodating water that contains catalyzer; Gas output tube is communicated with airtight bottle; Interpolar resonance module is placed in airtight bottle and is immersed in the water, and interpolar resonance module comprises the first metal electrode board and the second metal electrode board again, and the first metal electrode board and the second metal electrode board have a plurality of projective structures; The wire group comprises: positive wire is connected with the first metal electrode board; And cathode conductor, be connected with the second metal electrode board; And automatic gain controlled frequency pulse-width modulator, telecommunication is connected in positive wire.

Better, aforesaid hydrated ion energy-saving appliance, wherein this airtight bottle is the double-layer vacuum bottle.

Better, aforesaid hydrated ion energy-saving appliance, wherein above-mentioned projective structure is honey comb structure, horn-like structure, nipple-like structure, wave fold structure or curved surface shape structure.

Better, aforesaid hydrated ion energy-saving appliance, wherein each this honey comb structure, each this horn-like structure or each this nipple-like structure surface parallel with this first metal electrode board and this second metal electrode board has hole.

Better, aforesaid hydrated ion energy-saving appliance, wherein this interpolar resonance module further comprises a plurality of metal sheets, be arranged between this first metal electrode board and this second metal electrode board, and the shape of above-mentioned metal sheet is identical with the shape of this first metal electrode board and this second metal electrode board.

Better, aforesaid hydrated ion energy-saving appliance, wherein the material of this wire group, this first metal electrode board and this second metal electrode board is nickelalloy, concrete dynamic modulus nickelalloy or concrete dynamic modulus superconducting alloy.

Better, aforesaid hydrated ion energy-saving appliance, wherein this interpolar resonance module comprises at least one this first metal electrode board and at least two these the second metal electrode boards, this first metal electrode board and above-mentioned the second metal electrode board alternative arrangement, and few 1 or identical of the quantity of more above-mentioned the second metal electrode board of the quantity of this first metal electrode board, this wire group comprises again: the above-mentioned positive wire that quantity conforms to this first metal electrode board quantity; Reach the above-mentioned cathode conductor that quantity conforms to above-mentioned the second metal electrode board quantity.

Better, aforesaid hydrated ion energy-saving appliance, wherein this first metal electrode board and this second metal electrode board are respectively platysome, waviness plate body, curved plate body, annular plate body, dish-shaped plate body or scroll plate body.

Better, aforesaid hydrated ion energy-saving appliance, wherein this first metal electrode board is cylinder and the centre that is arranged at this airtight bottle, remaining above-mentioned first metal electrode board and above-mentioned the second metal electrode board are and the corresponding annular plate body of this cylinder.

The utility model provides again a kind of interpolar resonance module that is applied to the hydrated ion energy-saving appliance, it comprises: the first metal electrode board and the second metal electrode board, and this first metal electrode board and this second metal electrode board have a plurality of projective structures, and wherein above-mentioned projective structure is honey comb structure, horn-like structure, nipple-like structure, wave fold structure or curved surface shape structure.

Better, aforesaid interpolar resonance module, wherein each this honey comb structure, each this horn-like structure or each this nipple-like structure surface parallel with this first metal electrode board and this second metal electrode board has hole.

Better, aforesaid interpolar resonance module, wherein the material of this first metal electrode board and this second metal electrode board is nickelalloy, concrete dynamic modulus nickelalloy or concrete dynamic modulus superconducting alloy.

Better, aforesaid interpolar resonance module, wherein this interpolar resonance module further comprises a plurality of metal sheets, be arranged between this first metal electrode board and this second metal electrode board, and the shape of above-mentioned metal sheet is identical with the shape of this first metal electrode board and this second metal electrode board.

Better, aforesaid interpolar resonance module, wherein this interpolar resonance module comprises at least one this first metal electrode board and at least two these the second metal electrode boards, this first metal electrode board and above-mentioned the second metal electrode board alternative arrangement, wherein the quantity of more above-mentioned the second metal electrode board of the quantity of this first metal electrode board is few 1 or identical.

Better, aforesaid interpolar resonance module, wherein this first metal electrode board and this second metal electrode board are respectively platysome, waviness plate body, curved plate body, annular plate body, dish-shaped plate body or scroll plate body.

Better, aforesaid interpolar resonance module, wherein this first metal electrode board is cylinder and the centre that is arranged at this airtight bottle, remaining above-mentioned first metal electrode board and above-mentioned the second metal electrode board are and the corresponding annular plate body of this cylinder.

By enforcement of the present utility model, can reach at least following progressive effect:

1, can increase metal electrode board in order to the area of reaction;

2, with automatic gain controlled frequency pulse-width modulator control inputs electric energy, produce the hydration gas of highoutput with low electric energy; And

3, by the collocation of vacuum airtight container and interpolar resonance module, reach the mechanism of vacuum oscillation, and then improve the quantum of output of hydration gas.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, for can clearer understanding technique means of the present utility model, and can be implemented according to the content of specification sheets, and for above and other purpose of the present utility model, feature and advantage can be become apparent, below especially exemplified by preferred embodiment, and the cooperation accompanying drawing, be described in detail as follows.

Description of drawings

Fig. 1 is the schematic diagram of a kind of hydrated ion energy-saving appliance of the utility model embodiment;

Fig. 2 A is the first enforcement aspect of a kind of projective structure of the utility model embodiment;

Fig. 2 B is the sectional view along A-A hatching line in Fig. 2 A;

Fig. 2 C is the second enforcement aspect of a kind of projective structure of the utility model embodiment;

Fig. 2 D is the sectional view along B-B hatching line in Fig. 2 C;

Fig. 2 E is the 3rd enforcement aspect of a kind of projective structure of the utility model embodiment;

Fig. 2 F is the sectional view along C-C hatching line in Fig. 2 E;

Fig. 2 G is the 4th enforcement aspect of a kind of projective structure of the utility model embodiment;

Fig. 3 A is the 5th enforcement aspect of a kind of projective structure of the utility model embodiment;

Fig. 3 B is the sectional view along D-D hatching line in Fig. 3 A;

Fig. 3 C is the 6th enforcement aspect of a kind of projective structure of the utility model embodiment;

Fig. 3 D is the sectional view along E-E hatching line in Fig. 3 C;

Fig. 3 E is the 7th enforcement aspect of a kind of projective structure of the utility model embodiment;

Fig. 3 F is the sectional view along F-F hatching line in Fig. 3 E;

Fig. 4 is the circuit block diagram of a kind of automatic gain controlled frequency pulse-width modulator of the utility model embodiment;

Fig. 5 A is that the arrangement mode first of a kind of metal electrode board of the utility model embodiment is implemented aspect;

Fig. 5 B is that the arrangement mode second of a kind of metal electrode board of the utility model embodiment is implemented aspect;

Fig. 5 C is that the arrangement mode the 3rd of a kind of metal electrode board of the utility model embodiment is implemented aspect;

Fig. 5 D is the schematic diagram that Fig. 5 B further is provided with metal sheet;

Fig. 5 E is the schematic diagram that Fig. 5 C further is provided with metal sheet;

Fig. 6 A is the first enforcement aspect of a kind of metal electrode board shape of the utility model embodiment;

Fig. 6 B is the second enforcement aspect of a kind of metal electrode board shape of the utility model embodiment;

Fig. 6 C is the 3rd enforcement aspect of a kind of metal electrode board shape of the utility model embodiment;

Fig. 6 D is the 4th enforcement aspect of a kind of metal electrode board shape of the utility model embodiment;

Fig. 7 A is the 5th enforcement aspect of a kind of metal electrode board shape of the utility model embodiment;

Fig. 7 B is the arrangement mode schematic diagram of the metal electrode board in Fig. 7 A;

Fig. 8 A is shape and the arrangement mode schematic diagram of the another kind of metal electrode board of the utility model embodiment;

Fig. 8 B is that the metal electrode board in Fig. 8 A is arranged at the sectional view in airtight bottle; And

Fig. 9 is a kind of metal electrode board of the utility model embodiment and the arrangement mode schematic diagram of metal sheet.

[nomenclature]

The 100 airtight bottles of hydrated ion energy-saving appliance 10

11 water 12 conductive junction points

20 gas output tube 30 interpolar resonance modules

31 metal electrode board 31a the first metal electrode boards

31b the second metal electrode board 32 projective structures

321 hole 33 metal sheets

40 wire group 41 positive wires

42 cathode conductors

50 automatic gain controlled frequency pulse-width modulators

51 frequency pulse width modulated module 511 comparers

512 oscillating waveform device 52 automatic gain control modules

53 amplifier 200 batteries or generators

Embodiment

For further set forth the utility model be reach technique means that predetermined goal of the invention takes with and effect, below in conjunction with accompanying drawing and preferred embodiment, embodiment, structure, feature and effect thereof to according to the hydrated ion energy-saving appliance that the utility model proposes and interpolar resonance module thereof are described in detail as follows.

As shown in Figure 1, the present embodiment is a kind of hydrated ion energy-saving appliance 100, and it comprises: airtight bottle 10; Gas output tube 20; Interpolar resonance module 30; Wire group 40; And automatic gain controlled frequency pulse-width modulator 50.

Airtight bottle 10, in order to the accommodating water 11 that contains catalyzer, catalyzer is for example slightly acidic or weakly alkaline ionic catalyst, can the rank bottleneck reduce to destroy that hydrogen bond is needed, and then increase reaction efficiency.Again in order to increase the quantum of output of hydration gas, airtight bottle 10 can be the double-layer vacuum bottle, can improve the collision probability, wherein the double-layer vacuum bottle is namely to increase one deck external bottle in the outside of airtight bottle 10 more, and has the isolated vacuum layer between external bottle and airtight bottle 10.20 of gas output tubes are communicated with airtight bottle 10, can be connected in the engine of vehicle, and then hydration gas is inputed in engine.

Interpolar resonance module 30, it is placed in airtight bottle 10 and immerses the water 11 that contains catalyzer.Interpolar resonance module 30 comprises the first metal electrode board 31a and the second metal electrode board 31b, the first metal electrode board 31a can be used as the anode electrode plate, the second metal electrode board 31b can be used as negative el, and the material of first metal electrode board 31a and the second metal electrode board 31b can be nickelalloy, concrete dynamic modulus nickelalloy or concrete dynamic modulus superconducting alloy, and the surface-area that can carry out whereby water electrolysis reaction increases decades of times to tens thousand of times.

As shown in Fig. 2 A to Fig. 2 G, in order to increase the first metal electrode board 31a and the second metal electrode board 31b (for the ease of narration, below the first metal electrode board 31a and the second metal electrode board 31b are merged be called metal electrode board 31) can carry out the surface-area of water electrolysis reaction, metal electrode board 31 has a plurality of projective structures 32.Projective structure 32 can be honey comb structure (as shown in Fig. 2 A and Fig. 2 B), horn-like structure (as shown in Fig. 2 C and Fig. 2 D), nipple-like structure (as shown in Fig. 2 E and Fig. 2 F), wave fold structure (as shown in Fig. 2 G) or curved surface shape structure, or be shape arbitrarily, 32 needs of projective structure possess the surface that protrudes from metal electrode board 31 and get final product with the characteristic that increases the reaction table area.

Suppose that each projective structure 32 can increase the A size, and each metal electrode board 31 all has N projective structure 32, each metal electrode board 31 can just can increase the size of A * N in order to the surface-area that carries out water electrolysis reaction, and then significantly improves quantum of output and the output efficiency of hydration gas.

projective structure 32 can be made by the mode of metal stamping, therefore easy to manufacture and with low cost, when projective structure 32 is honey comb structures, when horn-like structure or nipple-like structure, the punching press projective structure 32 out surface parallel with metal electrode board 31 can not have hole, but as shown in Fig. 3 A to Fig. 3 F, at each honey comb structure, each horn-like structure or each the nipple-like structure surface parallel with metal electrode board 31 can form hole 321 especially in the process of punching press, can allow whereby water flow between metal electrode board 31, and then the chance of increase metal electrode board 31 and the living electrochemical reaction of steeping in water for reconstitution.

And for example shown in Figure 1, wire group 40, it comprises at least: positive wire 41 and cathode conductor 42, wherein positive wire 41 is connected with the first

metal electrode board

31a, 42 of cathode conductors are connected with the second metal electrode board 31b, and the quantity of positive wire 41 is identical with the quantity of the first metal electrode board 31a, and the quantity of cathode conductor 42 also the quantity with the second metal electrode board 31b is identical.Has identical conductive characteristic in order to make between wire group 40 and the first metal electrode board 31a and the second metal electrode board 31b, wire group 40 can be used and the first metal electrode board 31a and the second identical material of metal electrode board 31b, and the material that is to say wire group 40 can be also nickelalloy, concrete dynamic modulus nickelalloy or concrete dynamic modulus superconducting alloy.

In addition, can be provided with corresponding conductive junction point 12 on airtight bottle 10, be electrically connected with positive wire 41 and cathode conductor 42 respectively, so that external power source can input on metal electrode board 31 by wire group 40.Does not limit the position that conductive junction point 12 arranges is upper end or side surface part at airtight bottle 10, only needs to be arranged on the position of being convenient to connect and using and gets final product.

Automatic gain controlled frequency pulse-width modulator 50, its telecommunication is connected in the conductive junction point 12 that is electrically connected with positive wire 41, telecommunication is connected in positive wire 41 whereby, and can be electrically connected with battery or generator 200, carry out the energy size of water electrolysis reaction in order to control, and the battery that connects or generator 200 not limit be direct supply or AC power.Should be noted, may still have other auxiliary circuit structures between battery or generator 200 and automatic gain controlled frequency pulse-width modulator 50, for example when battery or generator 200 are AC power, the AC-DC change-over circuit need be set again, but in order to make the present embodiment be easy to understand, auxiliary circuit is not described at this.

Automatic gain controlled frequency pulse-width modulator 50 can provide the energy of controlling by battery or generator 200 inputs, makes it input to interpolar resonance module 30 with controllable frequency.Owing to being difficult to destroy with general fashion under normal circumstances the bond of water molecules, yet any material has a fixed frequency, therefore can make water molecules produce resonance by the signal of controlling 50 generations of automatic gain controlled frequency pulse-width modulator, and then the steady state of destruction water molecules, make the hydrogen bond in water molecules be in the condition that easily is disconnected.

In addition, due to water molecules in the situation that metal electrode board 31 not energising be mixed and disorderly, but after applying electric field, hydrogen atom in water molecules can be attracted by negative pole, Sauerstoffatom can be subjected to anodal attraction, and along with the increase of electric field electromotive force, the distance of hydrogen atom and Sauerstoffatom just can be widened again, when the distance of hydrogen atom and Sauerstoffatom was pulled to the limit, hydrogen atom just can separate to destroy hydrogen bond with Sauerstoffatom.The present embodiment uses automatic gain controlled frequency pulse-width modulator 50 to produce the adjustable signal of frequency, just can destroy hydrogen bond with the signal of high frequency and extremely low energy.

As shown in Figure 4, for the energy size of accurate control inputs, automatic gain controlled frequency pulse-width modulator 50, it comprises at least: frequency pulse width modulated (Frequency Pulse Width Modulation, FPWM) module 51; And automatic gain is controlled (Auto Gain Control, AGC) module 52.

Frequency pulse width modulated module 51, it comprises comparer 511 and oscillating waveform device 512 at least, oscillating waveform device 512 is connected in the negative input of comparer 511, make the negative input of comparer 511 receive the certain frequency oscillation signal that oscillating waveform device 512 is exported, the electrode input end of comparer 511 receives input voltage.Because the major function of frequency pulse width modulated module 51 is that amplitude with input voltage converts the certain pulse signal of width to, therefore when comparer 511 receives the signal amplitude of the output waveform of oscillating waveform device 512 and input voltage, comparer 511 just can be modulated (PWM) signal by output pulse width, again can be via the pulse width of control break pwm signal, and then control the electric energy that exports the rear end load to.

The input terminus of automatic gain control module 52 is connected in order to the output terminal telecommunication with frequency pulse width modulated module 51, can receive frequency pulse-width modulation module the pwm signal of 51 outputs, and control the gain size of pwm signal according to the variation of load according to the mechanism of current gain or voltage gain.In addition, also can be connected in series again amplifier 53 at the output terminal of automatic gain control module 52, in order to amplifying signal.

As shown in Fig. 5 A, interpolar resonance module 30 can further include a plurality of metal sheets 33 and is arranged between the first metal electrode board 31a and the second metal electrode board 31b.due to when applying electric field in the first metal electrode board 31a and the second metal electrode board 31b, if the spacing between the first metal electrode board 31a and the second metal electrode board 31b is excessive, can consume many unnecessary energy, more can cause quantum of output and the output efficiency of hydration gas to reduce, therefore can set up a plurality of metal sheets 33 between the first metal electrode board 31a and the second metal electrode board 31b, by the electric coupling effect, make positive charge and negative charge on metal sheet 33 attracted to respectively both sides corresponding on metal sheet 33, so not only can reduce heat waste and can also improve mean kinetic energy, more can produce alternation formula resonance effect, increase quantum of output and the output efficiency of hydration gas.

As shown in Fig. 5 B and Fig. 5 C, interpolar resonance module 30 also can comprise at least one the first metal electrode board 31a and at least two the second metal electrode board 31b, and the first metal electrode board 31a and the second metal electrode board 31b alternative arrangement.As shown in Fig. 5 B, the quantity of the first metal electrode board 31a can be identical with the quantity of the second metal electrode board 31b, or be as shown in Fig. 5 C, the quantity of the first metal electrode board 31a is lacked 1 than the quantity of the second metal electrode board 31b, therefore two the second relative metal electrode board 31b can be situated in the outermost of interpolar resonance module 30, namely will be placed on outermost as the second metal electrode board 31b of negative el.

As shown in Fig. 5 D and Fig. 5 E, no matter the quantity of the first metal electrode board 31a is that quantity with the second metal electrode board 31b is identical or few 1, can set up again a plurality of metal sheets 33 equally between the first metal electrode board 31a and the second metal electrode board 31b, increase whereby quantum of output and the output efficiency of hydration gas.

Except the projective structure and spread pattern of above-mentioned metal electrode board 31, also can be at metal electrode board 31 do in shape variation.As shown in Fig. 6 A to Fig. 6 D, metal electrode board 31 can be platysome (as Fig. 6 A), waviness plate body (as Fig. 6 B), annular plate body (as Fig. 6 C), dish-shaped plate body (as Fig. 6 D) or curved plate body, curved plate body is the curved surface that can be any radian, and purpose is that increase in the airtight bottle 10 of fixed size can be in order to the surface-area of the metal electrode board 31 of reaction.In addition, each dish-shaped plate body can parallel airtight bottle the direction of 10 bottom surfaces be arranged in airtight bottle 10; Platysome, waviness plate body, annular plate body or curved plate body be can vertical airtight bottle the direction of 10 bottom surfaces be arranged in airtight bottle 10.

As shown in Fig. 7 A and Fig. 7 B, the shape of metal electrode board 31 can be also the scroll plate body, and the scroll plate body similarly is with specific fixed point rotary and the continuous curve of expanding in the shape of overlooking.And when the shape of the first metal electrode board 31a and the second metal electrode board 31b is all the scroll plate body, no matter the quantity of the first metal electrode board 31a and the second metal electrode board 31b is identical or differs 1, the second metal electrode board 31b as negative el can be placed on outermost.Whether 33 of metal sheets that are arranged between the first metal electrode board 31a and the second metal electrode board 31b in addition, can be selected to need to use according to demand.

As shown in Fig. 8 A and Fig. 8 B, one of them first metal electrode board 31a also can be arranged on the cylinder of the centre of airtight bottle 10, and cylinder can be to consist of by stacking a plurality of round sheet structures.Be alternately around being provided with a plurality of the first metal electrode board 31a and a plurality of the second metal electrode board 31b in the cylinder outside, and the shape of the first metal electrode board 31a in the outside and the second metal electrode board 31b is and the corresponding annular plate body of cylinder.

The various projective structures of the above metal electrode board 31, various spread pattern and different shape can make up mutually, and then satisfy the demand of various different application.And in aforementioned every enforcement aspect, if when being provided with metal sheet 33, the shape of metal sheet 33 is identical with the shape of metal electrode board 31, and for example metal sheet 33 is platysome, waviness plate body, curved plate body, annular plate body, dish-shaped plate body or scroll plate bodys identical with metal electrode board 31 shapes.

And for example shown in Figure 9, can use the first metal electrode board 31a and the second metal electrode board 31b with different projective structures 32 in interpolar resonance module 30, for example use simultaneously projective structure 32 not pertusate the second metal electrode board 31b of tool and projective structure 32 have the first metal electrode board 31a of hole 321, the metal sheet 33 that is arranged between the first metal electrode board 31a and the second metal electrode board 31b does not have any projective structure 32.

When using general airtight bottle 10 in the present embodiment, can use the hydration gas of very low Energy output high yield.If re-use the double-layer vacuum bottle, just can relend by the vacuum resonance effect, with the chance that improves the random number collision and then constantly produce hydration gas, can increase in addition the pressure in airtight bottle 10, be conducive to the generation of hydration gas due to the increase of pressure, therefore by using the double-layer vacuum bottle just can further increase again the quantum of output of hydration gas.And in order to make reaction maintain optimum regime, pressure perceptron or constant pressure valve can be set in the outlet of gas output tube 20, the instant pressure size that measures in bottle.

the above, it is only preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, although the utility model discloses as above with preferred embodiment, yet be not to limit the utility model, any those skilled in the art, within not breaking away from the technical solutions of the utility model scope, when the method that can utilize above-mentioned announcement and technology contents are made a little change or be modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, any simple modification that foundation technical spirit of the present utility model is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims

1. hydrated ion energy-saving appliance is characterized in that comprising:

Airtight bottle is in order to the accommodating water that contains catalyzer;

Gas output tube is communicated with this airtight bottle;

Interpolar resonance module is placed in this airtight bottle and immerses this water, and this interpolar resonance module comprises the first metal electrode board and the second metal electrode board again, and this first metal electrode board and this second metal electrode board have a plurality of projective structures;

The wire group comprises: the positive wire that is connected with this first metal electrode board; And the cathode conductor that is connected with this second metal electrode board; And

Automatic gain controlled frequency pulse-width modulator, telecommunication is connected in this positive wire.

2. hydrated ion energy-saving appliance as claimed in claim 1, is characterized in that wherein this airtight bottle is the double-layer vacuum bottle.

3. hydrated ion energy-saving appliance as claimed in claim 1, is characterized in that wherein above-mentioned projective structure is honey comb structure, horn-like structure, nipple-like structure, wave fold structure or curved surface shape structure.

4. hydrated ion energy-saving appliance as claimed in claim 3, is characterized in that wherein each this honey comb structure, each this horn-like structure or each this nipple-like structure surface parallel with this first metal electrode board and this second metal electrode board has hole.

5. hydrated ion energy-saving appliance as claimed in claim 1, it is characterized in that wherein this interpolar resonance module further comprises a plurality of metal sheets, be arranged between this first metal electrode board and this second metal electrode board, and the shape of above-mentioned metal sheet is identical with the shape of this first metal electrode board and this second metal electrode board.

6. hydrated ion energy-saving appliance as claimed in claim 1, is characterized in that wherein the material of this wire group, this first metal electrode board and this second metal electrode board is nickelalloy, concrete dynamic modulus nickelalloy or concrete dynamic modulus superconducting alloy.

7. hydrated ion energy-saving appliance as described in arbitrary claim in claim 1 to 6, it is characterized in that wherein this interpolar resonance module comprises at least one this first metal electrode board and at least two these the second metal electrode boards, this first metal electrode board and above-mentioned the second metal electrode board alternative arrangement, and few 1 or identical of the quantity of more above-mentioned the second metal electrode board of the quantity of this first metal electrode board, this wire group comprises again: the above-mentioned positive wire that quantity conforms to this first metal electrode board quantity; Reach the above-mentioned cathode conductor that quantity conforms to above-mentioned the second metal electrode board quantity.

8. hydrated ion energy-saving appliance as claimed in claim 7 is characterized in that wherein this first metal electrode board and this second metal electrode board are respectively platysome, waviness plate body, curved plate body, annular plate body, dish-shaped plate body or scroll plate body.

9. hydrated ion energy-saving appliance as claimed in claim 7, it is characterized in that wherein this first metal electrode board is cylinder and the centre that is arranged at this airtight bottle, remaining above-mentioned first metal electrode board and above-mentioned the second metal electrode board are and the corresponding annular plate body of this cylinder.

10. interpolar resonance module that is applied to the hydrated ion energy-saving appliance, it is characterized in that comprising: the first metal electrode board and the second metal electrode board, and this first metal electrode board and this second metal electrode board have a plurality of projective structures, and wherein above-mentioned projective structure is honey comb structure, horn-like structure, nipple-like structure, wave fold structure or curved surface shape structure.

11. interpolar resonance module as claimed in claim 10 is characterized in that wherein each this honey comb structure, each this horn-like structure or each this nipple-like structure surface parallel with this first metal electrode board and this second metal electrode board has hole.

12. interpolar as claimed in claim 10 resonance module is characterized in that wherein the material of this first metal electrode board and this second metal electrode board is nickelalloy, concrete dynamic modulus nickelalloy or concrete dynamic modulus superconducting alloy.

13. interpolar resonance module as claimed in claim 10, it is characterized in that this interpolar resonance module further comprises a plurality of metal sheets, be arranged between this first metal electrode board and this second metal electrode board, and the shape of above-mentioned metal sheet is identical with the shape of this first metal electrode board and this second metal electrode board.

14. interpolar resonance module as described in arbitrary claim in claim 10 to 13, it is characterized in that this interpolar resonance module comprises at least one this first metal electrode board and at least two these the second metal electrode boards, this first metal electrode board and above-mentioned the second metal electrode board alternative arrangement, wherein the quantity of more above-mentioned the second metal electrode board of the quantity of this first metal electrode board is few 1 or identical.

15. interpolar as claimed in claim 14 resonance module is characterized in that wherein this first metal electrode board and this second metal electrode board are respectively platysome, waviness plate body, curved plate body, annular plate body, dish-shaped plate body or scroll plate body.

16. interpolar resonance module as claimed in claim 14 is characterized in that wherein this first metal electrode board is cylinder, remaining above-mentioned first metal electrode board and above-mentioned the second metal electrode board are and the corresponding annular plate body of this cylinder.