CN205389196U - Impulse generator and hydroenergy device thereof - Google Patents
Impulse generator and hydroenergy device thereof Download PDFInfo
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- CN205389196U CN205389196U CN201620232651.8U CN201620232651U CN205389196U CN 205389196 U CN205389196 U CN 205389196U CN 201620232651 U CN201620232651 U CN 201620232651U CN 205389196 U CN205389196 U CN 205389196U
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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
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
Abstract
The utility model provides an impulse generator and hydroenergy device thereof, impulse generator includes: amplifier circuit and two at least multi resonant oscillation circuit, two at least multi resonant oscillation circuit are the cascade connection in proper order, output behind two at least multi resonant oscillation circuit cascade connections is connected to amplifier circuit's input. The utility model discloses an impulse generator can produce various different frequencies, the pulse signal of different peak values, through this kind of different frequency, the pulse signal of different peak values strikes liquid fresh water, can make the fresh water electrolysis take place the atomizing, produce the hydrogen particle and the oxygen particle of special spray pattern, generate the oxyhydrogen of very stable and even spray pattern, and then can improve the electrolytic efficiency of hydroenergy device, promote the power take off of engine isokinetic equipment, fuel oil saving, the exhaust emissions has still been reduced simultaneously.
Description
Technical field
This utility model relates to a kind of generator, particularly relates to a kind of pulse generator, and relates to the water energy device including this pulse generator.
Background technology
Consumption along with scientific and technological progress and the energy, the present mankind are increasing tries hard to recommend the high clean environment firendly energy, in such as automobile industry, although automobile industry obtains fast development, achieve significant achievements attracting people's attention, prosperity and development for society are made that tremendous contribution, but also bring a series of social problem simultaneously.At present, automobile industry environmental situation is serious, and motor vehicle exhaust emission has become the primary pollution source of air.Along with the high speed development of China's automobile industry, the sharply increasing of automobile pollution, environmental pollution will be on the rise, and huge energy resource consumption and the petroleum resources day by day reduced also will become maximum contradiction, therefore, actively promote the energy-conservation of automobile industry imperative with environmental protection.
Affixing one's name to the EIA international energy issued prospect according to american energy information, world energy sources market consumption quantity estimates increase by 50% to the year two thousand thirty in 2005.Along with the increase year by year of energy resource consumption, the discharge capacity of carbon dioxide also will increase, and in current CO2 emission, 25% comes from automobile;To the year two thousand thirty, 42,300,000,000 tons will be increased to by 28,100,000,000 tons of 2005;In China, the pollution of motor vehicle emission has become as the key factor of urban atmospheric pollution, and the CO2 emission of China has occupied the whole world second at present, and the pressure of reducing emission of carbon dioxide is by increasing.
In recent years, the China Automobile Industry of China is rapid, it has also become the fourth-largest automobile production state of the world and the third-largest automobile consumption state.Estimating according to Development Research Center of the State Council, 2010, the automobile pollution of China will close to 6,000 ten thousand, and the year two thousand twenty is up to 1.4 hundred million, the fuel demand of motor vehicles respectively 1.38 hundred million tons and 2.56 hundred million tons, for the 43% and 57% of whole nation oil aggregate demand then.The petroleum resources shortage of China, current petroleum import amount increases with the percentage ratio of annual two digits, it is contemplated that will close to 50% to importation dependence in 2010.Therefore greatly develop power-saving technology, be imperative, such as promote the device being realized water energy by electrolysis, but existing water energy device electrolytic efficiency is too low, can not practical requirement.
Summary of the invention
Technical problem to be solved in the utility model is to need to provide a kind of pulse generator that can improve water energy device electrolytic efficiency, and provides the water energy device including this pulse generator.
To this, this utility model provides a kind of pulse generator, including: amplifying circuit and at least two multi-resonant oscillating circuit;Described at least two multi-resonant oscillating circuit cascade successively connects, and the outfan after described at least two multi-resonant oscillating circuit cascade connection is connected to the input of described amplifying circuit.
Further improvement of the utility model is in that, the electrolysis electrode pole piece that the outfan of described amplifying circuit is externally connected.
Further improvement of the utility model is in that, said two multi-resonant oscillating circuit includes the first oscillating circuit and the second oscillating circuit, the outfan of described first oscillating circuit is connected to the input of described second oscillating circuit, and the outfan of described second oscillating circuit is connected to the input of described amplifying circuit.
Further improvement of the utility model is in that, described first oscillating circuit and the second oscillating circuit are connected to DC source respectively through pull-up resistor.
Further improvement of the utility model is in that, the outfan of described first oscillating circuit is connected to the input of described second oscillating circuit by switching.
Further improvement of the utility model is in that, described first oscillating circuit includes electric capacity C1, switch SW1, electric capacity C2, electric capacity C3, electric capacity C4, diode D1, diode D2, adjustable resistance VR1, adjustable resistance VR2, timing chip U1 and electric capacity C5;One end of described electric capacity C1 is connected to DC source by pull-up resistor, one end respectively ground connection of the other end of described electric capacity C1 and switch SW1, the other end of described switch SW1 switchs pins respectively through three and is connected to one end of one end of electric capacity C2, one end of electric capacity C3 and electric capacity C4;The other end of described electric capacity C2, the other end of electric capacity C3, the other end of electric capacity C4, the anode of diode D1 and the negative electrode of diode D2 link together, and are connected to 2 pins and 6 pins of timing chip U1;The negative electrode of described diode D1 is connected to one end of adjustable resistance VR1, the anode of described diode D2 is connected with the other end of described adjustable resistance VR1, one end of adjustable resistance VR2 and 7 pins of timing chip U1 respectively, the other end of described adjustable resistance VR2 is connected to DC source, and 5 pins of described timing chip U1 pass through electric capacity C5 ground connection.
Further improvement of the utility model is in that, described second oscillating circuit includes electric capacity C6, switch SW2, electric capacity C7, electric capacity C8, electric capacity C9, diode D3, diode D4, adjustable resistance VR3, adjustable resistance VR4, timing chip U2 and electric capacity C10;One end of described electric capacity C6 is connected to DC source by pull-up resistor, one end respectively ground connection of the other end of described electric capacity C6 and switch SW2, the other end of described switch SW2 switchs pins respectively through three and is connected to one end of one end of electric capacity C7, one end of electric capacity C8 and electric capacity C9;The other end of described electric capacity C7, the other end of electric capacity C8, the other end of electric capacity C9, the anode of diode D3 and the negative electrode of diode D4 link together, and are connected to 2 pins and 6 pins of timing chip U2;The negative electrode of described diode D3 is connected to one end of adjustable resistance VR3, the anode of described diode D4 is connected with the other end of described adjustable resistance VR3, one end of adjustable resistance VR4 and 7 pins of timing chip U2 respectively, the other end of described adjustable resistance VR4 is connected to DC source, and 5 pins of described timing chip U2 pass through electric capacity C10 ground connection.
Further improvement of the utility model is in that, 3 pins of described timing chip U1 are connected with 4 pins of chip U2 time described.
Further improvement of the utility model is in that, described amplifying circuit includes resistance R3, resistance R4, field effect transistor Q1 and diode D5,3 pins of described timing chip U2 are connected to one end of resistance R3, the other end of described resistance R3 is connected with described one end of resistance R4 and the grid of field effect transistor Q1 respectively, the other end of described resistance R4 and the source electrode of field effect transistor Q1 ground connection respectively, the drain electrode of described field effect transistor Q1 is respectively connecting to electrode plates and the anode of diode D5, and the negative electrode of described diode D5 is connected to DC source.
This utility model also provides for a kind of water energy device, includes pulse generator as above, and the outfan of described pulse generator is connected to the electrolysis electrode pole piece of described water energy device.
Compared with prior art, the beneficial effects of the utility model are in that: can be produced the pulse signal of various different frequency, different peak value by described pulse generator, liquid fresh water is impacted by the pulse signal of this different frequency, different peak value, enable to fresh water electrolysis be atomized, produce hydrogen particle and the oxygen particle of special spray pattern, generate the oxyhydrogen of highly stable and uniform spray pattern.
Described water energy device is in the electromotor of automobile, after described oxyhydrogen and natural air are mixed in proportion the power-equipments such as entrance cylinder, preferentially there is primary combustion in the fuel in the power-equipments such as cylinder and natural air, then oxygen particle further participates in burning, produce second-time burning effect so that the fuel in cylinder fully reacts so that fuel can fully burn, improve the efficiency of fuel oil, reduce the carbon distribution of electromotor;On this basis, last hydrogen particle burns, and namely creates third time combustion process, it is possible to promotes the power output of the power-equipments such as electromotor further, saves fuel oil, also reduce exhaust emissions simultaneously.
Accompanying drawing explanation
Fig. 1 is the schematic block circuit diagram of a kind of embodiment of this utility model;
Fig. 2 is the circuit theory diagrams of a kind of embodiment of this utility model.
Detailed description of the invention
Below in conjunction with accompanying drawing, preferably embodiment of the present utility model is described in further detail.
Embodiment 1:
As it is shown in figure 1, this example provides a kind of pulse generator, including: amplifying circuit and at least two multi-resonant oscillating circuit;Described at least two multi-resonant oscillating circuit cascade successively connects, and the outfan after described at least two multi-resonant oscillating circuit cascade connection is connected to the input of described amplifying circuit.
The electrolysis electrode pole piece that the outfan of amplifying circuit described in this example is externally connected.As depicted in figs. 1 and 2, this example said two multi-resonant oscillating circuit includes the first oscillating circuit 1 and the second oscillating circuit 2, the outfan of described first oscillating circuit 1 is connected to the input of described second oscillating circuit 2, and the outfan of described second oscillating circuit 2 is connected to the input of described amplifying circuit;Described first oscillating circuit 1 and the second oscillating circuit 2 are connected to DC source respectively through pull-up resistor;The outfan of described first oscillating circuit 1 is connected to the input of described second oscillating circuit 2 by switching, and described switch is preferably single-pole double-throw switch (SPDT).
Pulse generator described in this example includes amplifying circuit and at least two multi-resonant oscillating circuit;Described at least two multi-resonant oscillating circuit cascade successively connects, and described multi-resonant oscillating circuit is by amplifying circuit output wideband pulse signal to described electrode plates.
The quantity of multi-resonant oscillating circuit described in this example is at least two, as in figure 2 it is shown, the multi-resonant oscillating circuit that the said two cascade of this example connects includes the first oscillating circuit 1 and the second oscillating circuit 2;Described first oscillating circuit 1 outputs enable signal to described second oscillating circuit 2;Described first oscillating circuit 1 is consistent with the circuit structure of the second oscillating circuit 2, and output frequency is different;The quantity of this example multi-resonant oscillating circuit is at least two, and such as this example can include first oscillating circuit 1 of cascade successively and multiple second oscillating circuit 2;Certainly, can also there is other preferred circuit structures in this example.
First oscillating circuit 1 described in this example is by timing chip U1 and external circuit one low frequency multivibrator circuit of composition thereof, sending one to the second oscillating circuit 2 and enable signal, the timing chip U2 of described timing chip U1 and the second oscillating circuit 2 all preferably employs NE555 chip;Described second oscillating circuit 2 is main frequency oscillation circuit, is also multivibrator;And follow-up what be connected with the second oscillating circuit 2 is amplifying circuit, the field effect transistor Q1 of described amplifying circuit is for promoting level, for providing the pulse signal of a high electric current after being amplified by the pulse signal that the second oscillating circuit 2 exports to electrode plates.
As in figure 2 it is shown, the first oscillating circuit described in this example includes electric capacity C1, switch SW1, electric capacity C2, electric capacity C3, electric capacity C4, diode D1, diode D2, adjustable resistance VR1, adjustable resistance VR2, timing chip U1 and electric capacity C5;One end of described electric capacity C1 is connected to DC source by pull-up resistor, one end respectively ground connection of the other end of described electric capacity C1 and switch SW1, the other end of described switch SW1 switchs pins respectively through three and is connected to one end of one end of electric capacity C2, one end of electric capacity C3 and electric capacity C4;The other end of described electric capacity C2, the other end of electric capacity C3, the other end of electric capacity C4, the anode of diode D1 and the negative electrode of diode D2 link together, and are connected to 2 pins and 6 pins of timing chip U1;The negative electrode of described diode D1 is connected to one end of adjustable resistance VR1, the anode of described diode D2 is connected with the other end of described adjustable resistance VR1, one end of adjustable resistance VR2 and 7 pins of timing chip U1 respectively, the other end of described adjustable resistance VR2 is connected to DC source, and 5 pins of described timing chip U1 pass through electric capacity C5 ground connection.
As in figure 2 it is shown, described second oscillating circuit 2 includes electric capacity C6, switch SW2, electric capacity C7, electric capacity C8, electric capacity C9, diode D3, diode D4, adjustable resistance VR3, adjustable resistance VR4, timing chip U2 and electric capacity C10;One end of described electric capacity C6 is connected to DC source by pull-up resistor, one end respectively ground connection of the other end of described electric capacity C6 and switch SW2, the other end of described switch SW2 switchs pins respectively through three and is connected to one end of one end of electric capacity C7, one end of electric capacity C8 and electric capacity C9;The other end of described electric capacity C7, the other end of electric capacity C8, the other end of electric capacity C9, the anode of diode D3 and the negative electrode of diode D4 link together, and are connected to 2 pins and 6 pins of timing chip U2;The negative electrode of described diode D3 is connected to one end of adjustable resistance VR3, the anode of described diode D4 is connected with the other end of described adjustable resistance VR3, one end of adjustable resistance VR4 and 7 pins of timing chip U2 respectively, the other end of described adjustable resistance VR4 is connected to DC source, and 5 pins of described timing chip U2 pass through electric capacity C10 ground connection.3 pins of described timing chip U1 are connected with 4 pins of chip U2 time described.
As shown in Figure 2, described amplifying circuit includes resistance R3, resistance R4, field effect transistor Q1 and diode D5,3 pins of described timing chip U2 are connected to one end of resistance R3, the other end of described resistance R3 is connected with described one end of resistance R4 and the grid of field effect transistor Q1 respectively, the other end of described resistance R4 and the source electrode of field effect transistor Q1 ground connection respectively, the drain electrode of described field effect transistor Q1 is respectively connecting to electrode plates and the anode of diode D5, and the negative electrode of described diode D5 is connected to DC source.
As in figure 2 it is shown, described first oscillating circuit 1 is consistent with the circuit theory of the second oscillating circuit 2, it is different in that its output frequency is different;This example describes its operation principle mainly through the second oscillating circuit 2.
In NE555 chip, 8 pins are chip foot, and 4 pins are for enabling foot, say, that connect DC source at 8 pins, after 1 pin ground connection, it is necessary to 4 pins are connected to high level, and NE555 chip just can work.For convenience, first saving the circuit of the first oscillating circuit 1 here, switch SW3 is got to OFF, at this moment, 4 pins of timing chip U2 are high level, so, timing chip U2 will work always.
The frequency of oscillation of the second oscillating circuit 2 is adjusted by adjustable resistance VR3, electric capacity C7, electric capacity C8 and electric capacity C9, the resistance value increasing adjustable resistance VE3 and the Frequencyrange strengthening adjustable resistance VR4 numerical value here just can reduce the output frequency of described second oscillating circuit 2, otherwise are then the output frequencies strengthening the second oscillating circuit 2.Described adjustable resistance VR4, diode D3 and diode D4 are used for regulating dutycycle, here also will have influence on the output frequency of the second oscillating circuit 2 simultaneously, reduce the resistance value of adjustable resistance VR4, the output time of high level will be increased, meanwhile, the output frequency of the second oscillating circuit 2 also can increase;Otherwise, the output time of high level being reduced, the output frequency of the second oscillating circuit 2 also can reduce therewith.
Wherein, the output frequency of described second oscillating circuit 2 and the calculating of dutycycle are respectively such as equation below, and the frequency of the second oscillating circuit 2 isDutycycle isIn formula, R1 is the resistance of adjustable resistance VR3, and R2 is adjustable resistance VR4 and diode D3 and the diode D4 resistance brought, and C is the capacitance of any one in electric capacity C7, electric capacity C8 and electric capacity C9;Its cycle of oscillation is: T=0.7 (R1+2R2) C.
Ibid, the operation principle of the first oscillating circuit 1 is also the same, and the effect of described first oscillating circuit 1 is exactly when switching SW3 and being switched to ON position, and the output of the second oscillating circuit 2 will be subject to the impact of the first oscillating circuit 1.The output of the first oscillating circuit 1 is lower than the second oscillating circuit 2, the electric capacity C2 of Frequencyrange, electric capacity C3, electric capacity C4, adjustable resistance VR1 and adjustable resistance VR2 determine described first oscillating circuit 1 output frequency and dutycycle.
The final effect of whole circuit is, switch SW3 is received OFF, and current default mode pressed by other switching switch, when connecting the switch of DC source, circuit is started working, now, because that the 4th foot of timing chip U2 connects is+12V, so enabling work, timing chip U2 can export a high-frequency pulse signal always, high-voltage output end output continuous print high voltage pulse, if the second oscillating circuit 2 is the Tesla coil connect, it is seen that meeting be continuous print electric spark;Regulate adjustable resistance VR3, the output frequency of the second oscillating circuit 2 can be regulated, regulate adjustable resistance VR4, then can change the high level output time of the second oscillating circuit 2, the time of namely spark discharge.
At this moment, switch SW3 being received ON position, here, the work of timing chip U2 is subjected to the impact of timing chip U1 output, and when only 3 feet of timing chip U1 export high level, timing chip U2 just can work, and just can see electric spark.See the time of electric spark, be subject to the impact of adjustable resistance VR1, adjustable resistance VR2, electric capacity C2, electric capacity C3 and electric capacity C4.
It is noted that the circuit structure of the proposed pulse generator of this example preferably but is not limited to circuit theory diagrams as shown in Figure 2;Circuit structure described in this example can extend, it is possible to has the multi-resonant oscillating circuit that multiple cascade connects, and such as, this example can include first oscillating circuit 1 of mutual cascade and multiple second oscillating circuit 2;Certainly, can also there is other preferred circuit structures in this example.
In the present embodiment, described pulse generator produces to preset the wideband pulse of output frequency or random frequency, and by this wideband pulsing to electrolysis electrode pole piece;The frequency peak presetting output frequency described in this example is preferably progressively incremented by time, until reaching pre-set peak value, its frequency values progressively successively decreases in time.Described wideband pulse is the pulse signal of produced different frequency in pulse generator, different peak value.
This example can produce the pulse signal of various different frequency, different peak value by described pulse generator, liquid fresh water is impacted by the pulse signal of this different frequency, different peak value, enable to fresh water electrolysis be atomized, produce hydrogen particle and the oxygen particle of special spray pattern, generate the oxyhydrogen of highly stable and uniform spray pattern.
Described water energy device is in the electromotor of automobile, after described oxyhydrogen and natural air are mixed in proportion the power-equipments such as entrance cylinder, preferentially there is primary combustion in the fuel in the power-equipments such as cylinder and natural air, then oxygen particle further participates in burning, produce second-time burning effect so that the fuel in cylinder fully reacts so that fuel can fully burn, improve the efficiency of fuel oil, reduce the carbon distribution of electromotor;On this basis, last hydrogen particle burns, and namely creates third time combustion process, it is possible to promotes the power output of the power-equipments such as electromotor further, saves fuel oil, also reduce exhaust emissions simultaneously.
Embodiment 2:
This example also provides for a kind of water energy device, includes pulse generator as described in Example 1, and the outfan of described pulse generator is connected to the electrolysis electrode pole piece of described water energy device.
Being provided with multi-disc electrolysis electrode pole piece in water energy device described in this example, described electrolysis electrode pole piece is conductive metal sheet or inert electrode sheet, is provided with insulating part between every two panels electrolysis electrode pole piece;As in figure 2 it is shown, the positive pole between described multi-disc electrolysis electrode pole piece gangs up connection, the negative pole between described multi-disc electrolysis electrode pole piece gangs up connection.
Described electrolysis electrode pole piece is conductive metal sheet, such as aluminum, ferrum, copper, the conduction such as golden and silver-colored sheet metal can;Electrolysis electrode pole piece described in this example preferably but is not limited to corrosion resistant plate, the thickness of corrosion resistant plate is preferably 1mm~4mm, the size and number of electrolysis electrode pole piece determines the size of pole piece according to requirements, the reason selecting stainless steel substrates is in that, stainless steel substrates non-corrosive, is very suitable for the environment of long-term electrolysis;In addition, the use inert electrode such as carbon-point and platinum can also.
The detailed description of the invention of the above is better embodiment of the present utility model; not limit with this and of the present utility model be embodied as scope; scope of the present utility model includes being not limited to this detailed description of the invention, and all equivalences made according to the shape of this utility model, structure change all in protection domain of the present utility model.
Claims (10)
1. a pulse generator, it is characterised in that including: amplifying circuit and at least two multi-resonant oscillating circuit;Described at least two multi-resonant oscillating circuit cascade successively connects, and the outfan after described at least two multi-resonant oscillating circuit cascade connection is connected to the input of described amplifying circuit.
2. pulse generator according to claim 1, it is characterised in that the electrolysis electrode pole piece that the outfan of described amplifying circuit is externally connected.
3. pulse generator according to claim 1 and 2, it is characterized in that, said two multi-resonant oscillating circuit includes the first oscillating circuit and the second oscillating circuit, the outfan of described first oscillating circuit is connected to the input of described second oscillating circuit, and the outfan of described second oscillating circuit is connected to the input of described amplifying circuit.
4. pulse generator according to claim 3, it is characterised in that described first oscillating circuit and the second oscillating circuit are connected to DC source respectively through pull-up resistor.
5. pulse generator according to claim 3, it is characterised in that the outfan of described first oscillating circuit is connected to the input of described second oscillating circuit by switching.
6. pulse generator according to claim 3, it is characterized in that, described first oscillating circuit includes electric capacity C1, switch SW1, electric capacity C2, electric capacity C3, electric capacity C4, diode D1, diode D2, adjustable resistance VR1, adjustable resistance VR2, timing chip U1 and electric capacity C5;One end of described electric capacity C1 is connected to DC source by pull-up resistor, one end respectively ground connection of the other end of described electric capacity C1 and switch SW1, the other end of described switch SW1 switchs pins respectively through three and is connected to one end of one end of electric capacity C2, one end of electric capacity C3 and electric capacity C4;The other end of described electric capacity C2, the other end of electric capacity C3, the other end of electric capacity C4, the anode of diode D1 and the negative electrode of diode D2 link together, and are connected to 2 pins and 6 pins of timing chip U1;The negative electrode of described diode D1 is connected to one end of adjustable resistance VR1, the anode of described diode D2 is connected with the other end of described adjustable resistance VR1, one end of adjustable resistance VR2 and 7 pins of timing chip U1 respectively, the other end of described adjustable resistance VR2 is connected to DC source, and 5 pins of described timing chip U1 pass through electric capacity C5 ground connection.
7. pulse generator according to claim 6, it is characterized in that, described second oscillating circuit includes electric capacity C6, switch SW2, electric capacity C7, electric capacity C8, electric capacity C9, diode D3, diode D4, adjustable resistance VR3, adjustable resistance VR4, timing chip U2 and electric capacity C10;One end of described electric capacity C6 is connected to DC source by pull-up resistor, one end respectively ground connection of the other end of described electric capacity C6 and switch SW2, the other end of described switch SW2 switchs pins respectively through three and is connected to one end of one end of electric capacity C7, one end of electric capacity C8 and electric capacity C9;The other end of described electric capacity C7, the other end of electric capacity C8, the other end of electric capacity C9, the anode of diode D3 and the negative electrode of diode D4 link together, and are connected to 2 pins and 6 pins of timing chip U2;The negative electrode of described diode D3 is connected to one end of adjustable resistance VR3, the anode of described diode D4 is connected with the other end of described adjustable resistance VR3, one end of adjustable resistance VR4 and 7 pins of timing chip U2 respectively, the other end of described adjustable resistance VR4 is connected to DC source, and 5 pins of described timing chip U2 pass through electric capacity C10 ground connection.
8. pulse generator according to claim 7, it is characterised in that 3 pins of described timing chip U1 are connected with 4 pins of chip U2 time described.
9. pulse generator according to claim 7, it is characterized in that, described amplifying circuit includes resistance R3, resistance R4, field effect transistor Q1 and diode D5,3 pins of described timing chip U2 are connected to one end of resistance R3, the other end of described resistance R3 is connected with described one end of resistance R4 and the grid of field effect transistor Q1 respectively, the other end of described resistance R4 and the source electrode of field effect transistor Q1 ground connection respectively, the drain electrode of described field effect transistor Q1 is respectively connecting to electrode plates and the anode of diode D5, and the negative electrode of described diode D5 is connected to DC source.
10. a water energy device, it is characterised in that include the pulse generator as described in claim 1 to 9 any one, the outfan of described pulse generator is connected to the electrolysis electrode pole piece of described water energy device.
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Cited By (3)
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US10494992B2 (en) | 2018-01-29 | 2019-12-03 | Hytech Power, Llc | Temperature control for HHO injection gas |
US10605162B2 (en) | 2016-03-07 | 2020-03-31 | HyTech Power, Inc. | Method of generating and distributing a second fuel for an internal combustion engine |
US11879402B2 (en) | 2012-02-27 | 2024-01-23 | Hytech Power, Llc | Methods to reduce combustion time and temperature in an engine |
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2016
- 2016-03-23 CN CN201620232651.8U patent/CN205389196U/en active Active
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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US11879402B2 (en) | 2012-02-27 | 2024-01-23 | Hytech Power, Llc | Methods to reduce combustion time and temperature in an engine |
US10605162B2 (en) | 2016-03-07 | 2020-03-31 | HyTech Power, Inc. | Method of generating and distributing a second fuel for an internal combustion engine |
US11280261B2 (en) | 2016-03-07 | 2022-03-22 | HyTech Power, Inc. | Systems for HHO gas second fuel distribution and control |
US11815011B2 (en) | 2016-03-07 | 2023-11-14 | Hytech Power, Llc | Generation and regulation of HHO gas |
US10494992B2 (en) | 2018-01-29 | 2019-12-03 | Hytech Power, Llc | Temperature control for HHO injection gas |
US10619562B2 (en) | 2018-01-29 | 2020-04-14 | Hytech Power, Llc | Explosion safe electrolysis unit |
US11828219B2 (en) | 2018-01-29 | 2023-11-28 | Hytech Power, Llc | Rollover safe electrolysis unit for vehicles |
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