CN106884743A - A kind of novel air-cooled ozone machine - Google Patents

Abstract

The invention discloses a kind of novel air-cooled ozone machine, body including being provided with air inlet and gas outlet, power supply, air blower, filter, temperature sensor, control chip, ozone generating unit, air flow sensor and Ozone Monitor, air blower, control chip, temperature sensor, ozone generating unit, air flow sensor, Ozone Monitor is connected with power supply respectively, air blower is connected with control chip, air blower, filter, ozone generating unit is sequentially communicated, air flow sensor is arranged at air inlet, Ozone Monitor is arranged at gas outlet.Novel air-cooled ozone devices simple structure of the invention, without complicated circuit design, the ozone that ozone generating unit is produced is delivered directly to engine interior and fuel oil mixed combustion, substantially increase efficiency of combustion, coordinate the effect of combustion-supporting again, efficiency of combustion is further increased, the purpose of energy-saving and emission-reduction is realized；And heat sinking function is carried, without additionally taking cooling measure.

Description

A kind of novel air-cooled ozone machine

Technical field

The present invention relates to engine energy-saving technical field, more particularly to a kind of novel air-cooled ozone machine.

Background technology

With the fast development and the increasingly raising of people's living standard of auto industry, China has stepped into auto age, The vehicle of upper road traveling is increasing, so brings two subject matters：The consumption of the energy and the pollution of environment.

At present, what the energy faced increasingly is in short supply, and air ambient allows of no optimist, therefore how to improve automobile fuel efficiency, becomes Obtain more and more important.Also release various energy-conserving products successively on the market, such as in patent CN201010132025.9 Disclosed one kind is used for explosive motor hydrogen-oxygen combustion-supporting energy-saving intelligent control system device, and its operation principle is to utilize electrolysis water The hydrogen and oxygen of generation, are transported to the interior burning of engine chamber to improve the efficiency of combustion of fuel oil.It is well known that electric The process of Xie Shui can discharge amount of heat, and must assure that the degree of purity of hydrogen and oxygen, once heat dissipation problem treatment is bad, Or foreign gas is mixed into hydrogen and oxygen, consequence is very serious.Additionally, the apparatus structure is also more complicated, it is unsuitable for big The popularization and application of scale.

An also class energy-conserving product, such as the cerium energy engine combustion-supporting device disclosed in patent CN201520279250.3, Although simple structure, because it is shorter with air contact time, it is impossible to realize the abundant activation of air molecule, thus its reality Energy-saving effect is also very general.

The content of the invention

To solve the problems, such as that available engine energy-conserving product security is low, energy-saving effect is not good, the invention discloses one kind Novel air-cooled ozone machine, including body, be separately positioned on the body two ends air inlet and gas outlet, be arranged on the body Internal power supply, air blower, filter, temperature sensor, control chip, ozone generating unit, air flow sensor and Ozone Monitor, the air blower, control chip, temperature sensor, ozone generating unit, air flow sensor, ozone inspection Survey instrument be connected with power supply by electric signal respectively, the air blower is connected with control chip by electric signal, the air blower and Filter is connected, and the filter connected by tracheae with ozone generating unit, the ozone generating unit two ends respectively with enter Gas port is connected with gas outlet, and the air flow sensor is arranged at air inlet, and the Ozone Monitor is arranged on gas outlet Place.

As a further improvement on the present invention, the ozone generating unit includes heat-dissipating cylinder, insulation tube and conductor tube, institute Heat-dissipating cylinder two ends respectively inlet end and outlet side are stated, the inwall that the insulation tube is close to heat-dissipating cylinder is set, and the conductor tube sets Put inside insulation tube, and discharging gap is formed between insulation tube, the heat-dissipating cylinder and conductor tube double as positive and negative electrode, institute State inlet end to be connected with air inlet, the outlet side is connected with gas outlet.

As a further improvement on the present invention, the heat-dissipating cylinder is respectively arranged at the two ends with an anticorrosion end cap, the anticorrosion end Passage and thermovent are covered with, the passage is connected with the discharging gap between conductor tube and insulation tube, the radiating Mouth is connected with conductor tube inside, and the control chip is connected by tracheae with the passage of a wherein anticorrosion end cap.

As a further improvement on the present invention, the conductor inside pipe wall is close to be provided with auxiliary heat dissipation cylinder, the auxiliary heat dissipation Cylinder is internally formed heat dissipation channel.

As a further improvement on the present invention, be respectively provided with a groove on the outer wall at the conductor tube two ends, the groove with The passage connection of anticorrosion end cap, the width of the groove is 1~8mm, 0.1~1.2mm of depth.

As a further improvement on the present invention, the heat-dissipating cylinder is provided with some fin for stretching out.

As a further improvement on the present invention, the auxiliary heat dissipation cylinder is provided with some auxiliary heat dissipation pieces for extending internally.

As a further improvement on the present invention, the insulation tube is quartz ampoule or earthenware, and the conductor tube is stainless steel Pipe, titanium alloy tube or evanohm pipe.

As a further improvement on the present invention, the radiating drum outer wall is connected with fixed support, and the heat-dissipating cylinder is by solid Fixed rack is arranged on body interior.

As a further improvement on the present invention, combustion-supporting, the combustion-supporting bag are equipped with the air inlet and gas outlet Include cellular passage and be arranged on the diversion member at cellular passage center, the side wall of the cellular passage is provided with 45 ° of inclined holes.

The beneficial effects of the invention are as follows：

Novel air-cooled ozone machine simple structure of the invention, without complicated circuit design, ozone generating unit is produced Ozone be delivered directly to engine interior and fuel oil mixed combustion, substantially increase efficiency of combustion, then the work for coordinating combustion-supporting With, efficiency of combustion is further increased, realize the purpose of energy-saving and emission-reduction；And heat sinking function is carried, without additionally taking scattered Hot measure.

Brief description of the drawings

Technical scheme in order to illustrate more clearly the embodiments of the present invention, below by to be used needed for embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ability For the those of ordinary skill of domain, without having to pay creative labor, can also obtain other according to these accompanying drawings Accompanying drawing.

Fig. 1 is Structure explosion diagram of the invention；

Fig. 2 is the one of which structural representation of combustion-supporting；

Fig. 3 is another structural representation of combustion-supporting；

Fig. 4 is the partial structural diagram of cellular passage；

Fig. 5 is the structural representation of ozone generating unit；

Fig. 6 is the radial cross-section of ozone generating unit；

Fig. 7 is the partial sectional view of anticorrosion end cap；

Fig. 8 is the one of which connected mode schematic diagram of insulation tube and conductor tube；

Fig. 9 is another connected mode schematic diagram of insulation tube and conductor tube；

Figure 10 is the plane outspread drawing of conductor tube in Fig. 9.

Marked in figure：

1- bodies；11- air inlets；12- gas outlets；2- power supplys；3- air blowers；4- control chips；5- ozone generating units； 51- heat-dissipating cylinders；511- fin；52- insulation tubes；53- conductor tubes；531- grooves；532- helical vent grooves；54- auxiliary heat dissipations Cylinder；541- auxiliary heat dissipation pieces；55- anticorrosion end caps；551- passages；552- thermovents；The step troughs of 553- first；554- second Step trough；56- fixed supports；57- discharging gaps；58- anticorrosion sealing rings；6- connection jaws；7- tracheaes；8- connecting plates；9- is helped Burner；The cellular passages of 91-；92- water conservancy diversion disks；93-45 ° of inclined hole；10- temperature sensors；20- filters；30- air streams Quantity sensor；40- Ozone Monitors.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.

As shown in figure 1, dividing on the novel air-cooled ozone machine of the present embodiment, including body 1, the end cap of the rear and front end of body 1 Be not provided with air inlet 11 and gas outlet 12, be provided with inside body 1 power supply 2, air blower 3, control chip 4, ozone generating unit 5, Temperature sensor 10, filter 20, air flow sensor 30 and Ozone Monitor 40, the outer wall of body 1 are provided with for even Connect the connection jaws 6 of power supply 2.

Air blower 3, control chip 4, ozone generating unit 5, temperature sensor 10, filter 20, air flow sensor 30 and Ozone Monitor 40 be connected with power supply 2 by electric signal respectively, air blower 3 is connected with control chip 4 by electric signal.

Air blower 3 is connected with filter 20, and filter 20 is connected by tracheae 7 with ozone generating unit 5, and ozone occurs single First 5 two ends connect with air inlet 11 and gas outlet 12 respectively.

Power supply 2 is fixed on the first inwall of housing 1 by connecting plate 8；Air blower 3,4 points of control chip, filter 20 And temperature sensor 10 is fixedly installed on the second inwall of body 1 by connecting plate 8；Ozone generating unit 5 is by fixing Support 56 is fixedly installed on the 3rd inwall of body 1；Air flow sensor 30 is arranged at air inlet 11, Ozone Monitor 40 are arranged at gas outlet 12.

Control chip 4 adjusts the blow rate required of air blower 3 according to the rotating speed of engine, according to the difference of rotating speed, engine Control system transmit corresponding pulse signal to control chip 4, the size of current of the corresponding adjustment air blower 3 of control chip 4, from And the regulation of the blow rate required is realized, realize the reasonable utilization of the energy.

Temperature sensor 10 is used to monitor the temperature regime in housing 1, and by data feedback to remote control terminal.

20 pairs of air into ozone generating unit 5 of filter carry out dedusting, drying, to ensure the cleanliness factor of air, from And improve ozone preparation efficiency.

Air flow sensor 30 be used for monitor enter housing 1 in air mass flow, and with air blower 3, control chip 4, Ozone Monitor 40 is linked, and when Ozone Monitor 40 detects ozone content reduction, Ozone Monitor 40 is anti-by signal Feed control chip 4, the control air blower 3 of control chip 4 improves rotating speed, conveys more air to ozone generating unit 5, so that Improve ozone generation amount.

Combustion-supporting 9 is equipped with air inlet 11 and gas outlet 12, combustion-supporting 9 includes cellular passage 91 and is arranged on The diversion member 92 at the center of cellular passage 91.Diversion member 92 can have different forms, as shown in Fig. 2 air inlet 11 The diversion member 92 for locating combustion-supporting 9 is spiral type flow guide plates；As shown in figure 3, diversion member 92 is fan；As shown in figure 4, honeycomb The side wall of each honeycomb of shape passage 91 is respectively provided with one 45 ° of inclined holes 93.

It should be noted that combustion-supporting 9 is using by cerium oxide, zirconium oxide, aluminum oxide, stabilizer and metal carbonate (in calcium carbonate, zinc carbonate, magnesium carbonate one or more), the cerium alloy material that the technique such as formulated, high-temperature calcination, reverse mould is made Material is made；Body 1 of conventional metal materials such as stainless steel, aluminium alloys in addition to it can be made, it would however also be possible to employ above-mentioned cerium alloy Material is made.

Ce elements are a kind of excellent catalysis burning-rate accelerators and reducing agent, and it can produce the molecule of 800,000,000,000 times per second to advise naturally Rule vibration, effectively by the oxygen molecule prompt activation in air and granular after activating air enters engine, can just can have Effect ground improves the efficiency of combustion of fuel oil.

As shown in Figure 5 and Figure 6, ozone generating unit 5 includes heat-dissipating cylinder 51, insulation tube 52, conductor tube 53, auxiliary heat dissipation cylinder 54 and anticorrosion end cap 55.

Heat-dissipating cylinder 51 is provided with some fin 511 for stretching out, and quickly can distribute the heat produced inside device Go out, the two ends of heat-dissipating cylinder 51 are respectively inlet end and outlet side, inlet end is connected with air inlet 11, and outlet side connects with gas outlet 12 Connect.Heat-dissipating cylinder 1 is made of the conductions such as aluminium alloy, the preferable metal material of heat conductivility.

Insulation tube 52 is close to the inwall setting of heat-dissipating cylinder 51, the preferred quartz ampoule of insulation tube 52 or earthenware, quartz and ceramics Material has the advantages that high temperature resistant, heat endurance are good, does not interfere with the preparation purity of ozone.

Conductor tube 53 is arranged on inside insulation tube 52, and discharging gap 57 is formed between insulation tube 52, and conductor tube 53 is excellent Select stainless steel tube, titanium alloy tube or evanohm pipe, one side low cost, good conductivity, the corrosion-resistant, non-corrosive of another aspect.

Heat-dissipating cylinder 51 and conductor tube 53 are used as positive and negative electrode, and when heat-dissipating cylinder 51 is used as positive pole, conductor tube 53 is used as Negative pole；Conversely, when heat-dissipating cylinder 51 is used as negative pole, conductor tube 53 is used as positive pole.

Auxiliary heat dissipation cylinder 54 is close to the setting of the inwall of conductor tube 53, and auxiliary heat dissipation cylinder 54 is internally formed heat dissipation channel 542, aids in Heat-dissipating cylinder 54 is provided with some auxiliary heat dissipation pieces 541 extended to heat dissipation channel 542, further increases the radiating efficiency of device.

As shown in fig. 7, anticorrosion end cap 55 is arranged on the two ends of heat-dissipating cylinder 51, anticorrosion end cap by anticorrosion sealing ring 58 55 are provided with passage 551 and thermovent 552, and passage 551 is connected with discharging gap 57, thermovent 552 and heat dissipation channel 542 Connection.Anticorrosion end cap 55 is using the preferable polytetrafluoroethylene (PTFE) of Corrosion Protection, Ethylene-Propylene-Diene class monomer or fluorine-containing rubber Glue material is made, to prevent it by ozone corrosion.

Filter 20 is connected by tracheae 7 with the passage 551 of a wherein anticorrosion end cap 55, the gas that air blower 3 is produced Flow through after filter 20 is filtered and enter passage 551, and travel further into discharging gap 57.

A groove 531 is respectively provided with the outer wall at the two ends of conductor tube 53, groove 531 is connected with passage 551, plays buffering gas Stream and the effect for connecting discharging gap 57；The width of groove 531 is 1~8mm, 0.1~1.2mm of depth.

Ventilation component 551 can be ventilating column, and ventilating column is vertically set on the periphery of anticorrosion end cap 55；Ventilation unit Part 551 can also be ventilation circular hole, and ventilation circular hole is arranged on the end face of anticorrosion end cap 55；In the present embodiment, anticorrosion end Four ventilation circular holes are uniformly provided with the end face of lid 55, the diameter of each ventilation circular hole is the 1/4 of the diameter of thermovent 552.

Anticorrosion end cap 55 also acts as the effect of support conductor tube 53, it is formed discharging gap between insulation tube 52 57.Specifically, the first step trough 553 and the second step trough 554 are provided with inside anticorrosion end cap 55, insulation tube 52 is by close Seal is connected on the first step trough 553, and conductor tube 53 is connected on the second step trough 554 by sealing ring, the first step trough 553 and second have difference in height between step trough 554, so that forming discharging gap 57 between insulation tube 52 and conductor tube 53.

Certainly, discharging gap 57 can also be formed using other modes, for example, set between insulation tube 52 and conductor tube 53 Supporting construction as shown in Figure 8 is put, or insulation tube 52 is contacted with conductor tube 53, and in the inwall of insulation tube 52 or conductor tube 53 Outer wall opens up various forms of grooves, as shown in Figure 9 and Figure 10, three road helical vent grooves 532 is set in the outer wall of conductor tube 53, this Sample also form discharging gap, and helical vent groove 532 extends discharge time, be conducive to producing more ozone.

The operating voltage of air blower 3 and ozone generating unit 5 changes with the power of vehicle wheel rotational speed pulse signal, rotating speed arteries and veins Rush that signal is stronger, illustrate that the air inflow for needing is bigger, that is, the ozone amount for needing is bigger, correspondence air blower 3 and ozone occur single The operating voltage of unit 5 is higher, and the ozone amount of generation is more.

In addition, the present invention can also be combined with modern information technologies, temperature sensor 10, air flow sensor 30 with And the information of Ozone Monitor 40 can show and be subject at analysis at remote control terminal (including computer, flat board or mobile phone) Whether reason, such as internal work environment temperature, real-time air inflow, ozone generating unit 5 are in work and ozone content situation Deng remote control can be realized.

Operation principle of the invention is as follows：

Air enters in body 1 and ozone generating unit 5 from air inlet 11, and the air-flow that air blower 3 is produced is through filter 20 Enter passage 551 after filtering, and travel further into discharging gap 57, heat-dissipating cylinder 51 connects AC power with conductor tube 53, and Produce high voltage electric field, the oxygen in air that corona discharge is produced in the presence of alternation high voltage electric field in discharging gap 57, it is raw Into ozone, and discharged from the passage 551 of the other end, in engine most afterwards through the output of gas outlet 12.

Ozone can just resolve into oxygen at normal temperatures, and under the hot environment of engine interior, ozone can be decomposed rapidly, A large amount of oxygen, and then extension fuel oil and the time of contact of oxygen are produced, the efficiency of combustion of fuel oil is improved, and then realize energy-saving and emission-reduction Effect.

Presently preferred embodiments of the present invention is the foregoing is only, is not intended to limit the invention, it is all in essence of the invention Within god and principle, any modification, equivalent substitution and improvements made etc. should be included within the scope of the present invention.

Claims (10)

1. a kind of novel air-cooled ozone machine, it is characterised in that including body, be separately positioned on the body two ends air inlet and There is list in gas outlet, the power supply for being arranged on the body interior, air blower, filter, temperature sensor, control chip, ozone Unit, air flow sensor and Ozone Monitor, the air blower, control chip, temperature sensor, ozone generating unit, Air flow sensor, Ozone Monitor are connected by electric signal with power supply respectively, and the air blower is with control chip by electricity Signal is connected, and the air blower is connected with filter, and the filter is connected by tracheae with ozone generating unit, the ozone Generating unit two ends are connected with air inlet and gas outlet respectively, and the air flow sensor is arranged at air inlet, described smelly Oxygen detection is arranged at gas outlet.

2. novel air-cooled ozone machine according to claim 1, it is characterised in that the ozone generating unit includes radiating Cylinder, insulation tube and conductor tube, the heat-dissipating cylinder two ends are respectively inlet end and outlet side, and the insulation tube is close to heat-dissipating cylinder Inwall is set, and the conductor tube is arranged on inside insulation tube, and discharging gap is formed between insulation tube, the heat-dissipating cylinder and is led Body pipe doubles as positive and negative electrode, and the inlet end is connected with air inlet, and the outlet side is connected with gas outlet.

3. novel air-cooled ozone machine according to claim 2, it is characterised in that the heat-dissipating cylinder is respectively arranged at the two ends with an anti-corrosion Erosion end cap, the anticorrosion end cap is provided with passage and thermovent, putting between the passage and conductor tube and insulation tube Electric gap connection, the thermovent is connected with conductor tube inside, and the control chip is by tracheae and a wherein anticorrosion end cap Passage connection.

4. novel air-cooled ozone machine according to claim 3, it is characterised in that the conductor inside pipe wall is close to be provided with auxiliary Heat-dissipating cylinder, the auxiliary heat dissipation cylinder is internally formed heat dissipation channel.

5. novel air-cooled ozone machine according to claim 4, it is characterised in that respectively set on the outer wall at the conductor tube two ends There is a groove, the groove is connected with the passage of anticorrosion end cap, the width of the groove is 1~8mm, depth 0.1~ 1.2mm。

6. novel air-cooled ozone machine according to claim 5, it is characterised in that the heat-dissipating cylinder is provided with and some stretches out Fin.

7. novel air-cooled ozone machine according to claim 6, it is characterised in that the auxiliary heat dissipation cylinder be provided with it is some inwardly The auxiliary heat dissipation piece of extension.

8. novel air-cooled ozone machine according to claim 7, it is characterised in that the insulation tube is quartz ampoule or ceramics Pipe, the conductor tube is stainless steel tube, titanium alloy tube or evanohm pipe.

9. novel air-cooled ozone machine according to claim 8, it is characterised in that the radiating drum outer wall is connected with fixed branch Frame, the heat-dissipating cylinder is arranged on body interior by fixed support.

10. the novel air-cooled ozone machine according to claim any one of 1-9, it is characterised in that the air inlet and outlet Combustion-supporting is equipped with mouthful, the combustion-supporting includes cellular passage and is arranged on the water conservancy diversion unit at cellular passage center Part, the side wall of the cellular passage is provided with 45 ° of inclined holes.