CN217148574U - Novel gas conversion device - Google Patents

Abstract

A novel gas conversion device comprises an insulating shell and a cover body, wherein the cover body comprises a discharge assembly, a boosting assembly and a heat dissipation assembly, the discharge assembly, the boosting assembly and the heat dissipation assembly are sequentially connected and arranged inside the insulating shell from top to bottom, the discharge assembly comprises a sawtooth discharge sheet, and the sawtooth discharge sheet is transversely arranged at the upper end inside the insulating shell; the boosting assembly comprises a boosting coil secondary and a boosting coil primary; the heat dissipation assembly comprises a radiator and a fan, the upper end face of the radiator is connected with the booster coil in a primary mode, the lower end face of the radiator is connected with the fan, and the fan is transversely arranged at the lower end inside the insulating shell. The timing and the discharge power of the sawtooth discharge sheet are regulated, multistage boosting is carried out by adopting a resonance boosting principle of a Tesla coil hollow transformer of a secondary booster coil and a primary booster coil, high-voltage ionization of a high-voltage electric field is utilized to excite and convert gas led in from an air inlet, and a radiator and a fan carry out heat dissipation treatment on the inside of the insulating shell.

Description

Novel gas conversion device

Technical Field

The utility model relates to a novel gas conversion device.

Background

The existing gas conversion device (such as an ozone generator) has the problems of complex structure, high price, low voltage, low circuit boosting efficiency, large heat generation and incapability of maintaining long-term work, greatly shortens the service life, does not have the functions of timing and setting power, is inconvenient to use and cannot perform gas conversion quickly.

SUMMERY OF THE UTILITY MODEL

To the above, the utility model provides a novel gas conversion device to solve the problem of proposing among the above-mentioned background art.

The utility model provides a technical scheme that its technical problem adopted is: a novel gas conversion device comprises an insulating shell, a cover body movably arranged at the upper end and the lower end of the insulating shell, an air inlet is formed between the cover body and the lower end of the insulating shell, an air outlet is formed between the cover body and the upper end of the insulating shell, and the novel gas conversion device comprises a discharging assembly for discharging, a boosting assembly for boosting and a radiating assembly for radiating, wherein the discharging assembly, the boosting assembly and the radiating assembly are sequentially connected and arranged inside the insulating shell from top to bottom; the boosting assembly comprises a boosting coil secondary and a boosting coil primary, the upper end of the boosting coil secondary is connected with the sawtooth discharge sheet, the lower end of the boosting coil secondary is connected with the boosting coil primary, and the boosting coil primary is arranged on the upper end face of the heat dissipation assembly; the heat dissipation assembly comprises a radiator and a fan, the upper end face of the radiator is connected with the primary of the boosting coil, the lower end face of the radiator is connected with the fan, and the fan is transversely arranged at the lower end in the insulating shell; the device also comprises a regulating device for regulating and controlling the power and the timing of the discharging assembly and the heat dissipation assembly.

Further, regulation and control device includes display panel, microcontroller, time relay, the button that discharges of regulation and control sawtooth discharge piece, the heat dissipation button of regulation and control fan, display panel sets up on insulating casing surface, and the button that discharges all sets up on display panel with the heat dissipation button, and microcontroller, time relay set up inside display panel.

Further, still include power source, power source embeds on insulating casing surface.

The utility model has the advantages that: the micro-controller and the time relay regulate and control the timing and the power of the sawtooth discharge sheet, control the gas conversion generation efficiency, perform sawtooth discharge on the sawtooth discharge sheet in the insulating shell, perform multi-stage boosting by adopting a tesla coil hollow transformer resonance boosting principle of a secondary booster coil and a primary booster coil, form a high-voltage electric field in the insulating shell, generate higher voltage by adopting the tesla coil hollow transformer resonance boosting principle, have high conversion efficiency and no loss of conversion components, and solve the problems that in the traditional technology, the voltage is low, the circuit boosting efficiency is low, the heating is large, long-term work cannot be maintained, the working components belong to medium blocking DBD discharge, the medium is degraded after long-term use, and the service life is too short; utilize high-voltage electric field's high-voltage ionization, arouse the conversion to the leading-in gas of air inlet, simultaneously, radiator, fan are to insulating casing inside heat dissipation processing, avoid the heat that gas conversion produced too high, take place danger.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a rear view of the present invention.

Fig. 4 is a circuit flow diagram of the present invention.

In the figure, 1, an insulating housing; 101. an air inlet; 102. an air outlet; 2. a cover body; 3. a sawtooth discharge sheet; 4. a boost coil secondary; 5. a boost coil primary; 6. a heat sink; 7. a fan; 8. a power interface; 9. a display panel; 10. a discharge button; 11. a heat dissipation button; 12. a time relay; 13. and a micro controller.

Detailed Description

The invention is further described with reference to the drawings and some embodiments.

In fig. 1-4, a novel gas conversion device is provided, which includes an insulating housing 1, a cover body 2 movably mounted on the upper and lower ends of the insulating housing 1, an air inlet 101 formed between the cover body 2 and the lower end of the insulating housing 1, and an air outlet 102 formed between the cover body 2 and the upper end of the insulating housing 1, and includes a discharging component for discharging, a boosting component for boosting, and a heat dissipating component for dissipating heat, wherein the discharging component, the boosting component, and the heat dissipating component are sequentially connected and disposed inside the insulating housing 1 from top to bottom, the discharging component includes sawtooth discharging pieces 3 with sawtooth discharging ends symmetrically disposed upward and downward, and the sawtooth discharging pieces 3 are transversely disposed on the upper end inside the insulating housing 1; the boosting assembly comprises a boosting coil secondary 4 and a boosting coil primary 5, the upper end of the boosting coil secondary 4 is connected with the sawtooth discharging piece 3, the lower end of the boosting coil secondary 4 is connected with the boosting coil primary 5, and the boosting coil primary 5 is arranged on the upper end face of the heat dissipation assembly; the gas conversion device is suitable for places with good ventilation, the gas inlet is connected with an external gas source, the external gas source comprises oxygen, air and the like, when the gas inlet 101 of the gas conversion device is connected with an external pure oxygen storage tank (oxygen gas source), a discharge button 10 is pressed, a starting signal is generated and transmitted to a microcontroller 13, the microcontroller 13 converts the starting signal into a regulation signal, the regulation signal is transmitted to a time relay 12 and a sawtooth discharge sheet 3, the timing and the power of the sawtooth discharge sheet 3 are regulated, sawtooth discharge is carried out on the sawtooth discharge sheet 3 in an insulating shell 1, a tip discharge between sawtooth discharge ends forms an electric field which is more uniform and has higher discharge density, multi-stage boosting is carried out by a resonance boosting principle of a Tesla coil hollow transformer of a boosting coil secondary 4 and a boosting coil primary 5, and a high-voltage electric field is formed in the insulating shell 1, the high-voltage electric field carries out high-voltage ionization treatment on pure oxygen injected into the air inlet 101 to decompose and polymerize the oxygen into ozone, the converted ozone is finally guided into a well-ventilated ozone use place through the air outlet 102 to control the ozone generation efficiency and directly utilize ozone gas, or the ozone is guided into an ozone storage end to be stored and used for a short time, the voltage generated by adopting a resonance boosting principle of a Tesla coil hollow transformer is higher, the conversion efficiency is high, and a conversion component is lossless, so that the problems that in the traditional technology, the voltage is low, the circuit boosting efficiency is low, the heating is large, long-term work cannot be maintained, a working component belongs to medium-blocking DBD (dielectric-barrier diode) discharge, the medium is deteriorated after long-term use, and the service life is too short are solved; the air inlet 101 is connected with an external pure oxygen storage tank (oxygen source), ozone is generated through conversion, the ozone is mainly used for increasing the concentration of ozone in an area and performing disinfection and sterilization, the ozone is generally used for disinfection and sterilization treatment of portable household middle and small swimming pools, ventilation flow of use places is good, ozone conversion is generally performed in unmanned time periods, and disinfection and sterilization in the area and the place are achieved.

In this embodiment, the external air source connected to the air inlet 101 of the gas conversion device may also be air, the air enters the insulating housing 1 through the air inlet 101, the discharge button 10 is pressed, the control signal is transmitted to the time relay 12 and the sawtooth discharge sheet 3 through the circuit signal transmission, the timing and power of the sawtooth discharge sheet 3 are controlled, the sawtooth discharge sheet 3 in the insulating housing 1 performs sawtooth discharge, the point discharge between the sawtooth discharge ends forms an electric field with more uniform and higher discharge density, and then the multi-stage boosting is performed through the tesla coil hollow transformer resonance boosting principle of the booster coil secondary 4 and the booster coil primary 5, a high voltage electric field is formed inside the insulating housing 1, the gas in the air is converted into various gas compounds through high voltage discharge, for example, the gas in the air is excited by nitrogen and converted into nitrogen compounds, and the like, and finally the gas is introduced into the gas purification device through the air outlet 102, in order to use in later stage, gaseous purifier belongs to common prior art, does not belong to the utility model discloses the object of protection, so do not give unnecessary details here.

In the embodiment, the heat dissipation assembly comprises a heat sink 6 and a fan 7, wherein the upper end surface of the heat sink 6 is connected with the primary booster coil 5, the lower end surface of the heat sink 6 is connected with the fan 7, and the fan 7 is transversely arranged at the lower end inside the insulating shell 1; when the sawtooth discharge sheet 3 discharges, the heat dissipation button 11 is pressed, the starting signal of the micro controller 13 is converted and transmitted, the radiator 6 and the fan 7 are regulated and controlled to act, air flow generated inside the insulating shell 1 is subjected to heat dissipation treatment, and the phenomenon that the heat generated by ozone is too high and dangerous is generated is avoided.

In this embodiment, the power and timing regulation and control device for the discharge component and the heat dissipation component is further included, the regulation and control device includes a display panel 9, a microcontroller 13, a time relay 12, a discharge button 10 for regulating the sawtooth discharge sheet 3, and a heat dissipation button 11 for regulating the fan 7, the display panel 9 is arranged on the outer surface of the insulating housing 1, the discharge button 10 and the heat dissipation button 11 are both arranged on the display panel 9, and the microcontroller 13 and the time relay 12 are arranged inside the display panel 9; pressing the discharging button 10 to generate a starting signal and transmitting the starting signal to the microcontroller 13, converting the starting signal into a regulating signal by the microcontroller 13, transmitting the regulating signal to the time relay 12 and the sawtooth discharging piece 3, and regulating and controlling the timing and the power of the sawtooth discharging piece 3; the heat dissipation button 11 is pressed, and the starting signal of the micro controller 13 is converted and transmitted to regulate and control the action of the heat sink 6 and the fan 7.

In the embodiment, the power supply device further comprises a power supply interface 8, wherein the power supply interface 8 is embedded in the outer surface of the insulating shell 1; the power interface 8 is a 220V power interface 8, and is connected with an external power supply and the power interface 8 through a power line to provide electric energy for the ozone generator.

In this embodiment, the utility model discloses a control circuit is the common circuit in the circuit field, and the technical personnel who belongs to can both realize, does not describe here any more.

In the present embodiment, the microcontroller 13 is a common electrical component, such as ML62Q1300/1500/1700 series.

In the present embodiment, the time relay 12 is a common electrical component, such as KG316T series time relay.

In the present embodiment, the boosting coil primary 5 and the boosting coil secondary 4 are the main components of a common transformer, such as TW-211 type, LC1F2654 type, and the like.

The utility model discloses when concrete implementation: the gas conversion device is generally used as the disinfection and sterilization treatment of a portable household or medium or small swimming pool, is suitable for places with good ventilation, realizes the disinfection and sterilization in the places with good ventilation, when in use, the gas conversion device is placed in a use area, an air inlet is connected with an external air source, the external air source comprises oxygen, air and the like, when the air inlet 101 of the gas conversion device is connected with an external pure oxygen storage tank (oxygen air source), a discharge button 10 and a heat dissipation button 11 are pressed simultaneously, the timing and the power of a sawtooth discharge sheet 3 are regulated and controlled through circuit signal transmission, the sawtooth discharge sheet 3 in an insulating shell 1 carries out sawtooth discharge, the point discharge between sawtooth discharge ends forms an electric field with more uniform and higher discharge density, and then the multistage boosting is carried out through the resonance boosting principle of a tesla coil hollow transformer of a secondary 4 and a primary 5 of a boosting coil, a high-voltage electric field is formed in the insulating shell 1, the high-voltage electric field carries out high-voltage ionization treatment on pure oxygen injected from the air inlet 101 to decompose and polymerize the oxygen into ozone, the converted ozone is finally guided into an ozone using place with good ventilation through the air outlet 102 to control the ozone generation efficiency, ozone gas is directly utilized, or the ozone gas is guided into an ozone storage end to be stored and used for a short time, the voltage generated by adopting a Tesla coil hollow transformer resonance boosting principle is higher, the conversion efficiency is high, and the conversion component is lossless, so that the problems that in the traditional technology, the voltage is low, the circuit boosting efficiency is low, the heating is large, long-term work cannot be maintained, the working component belongs to dielectric barrier DBD discharge, the dielectric is deteriorated after long-term use, and the service life is too short are solved; when the gas purification device is used, an external gas source connected with the gas inlet 101 of the gas conversion device can also be air, the air enters the insulating shell 1 from the gas inlet 101, the discharge button 10 is pressed, through circuit signal transmission, point discharge between sawtooth discharge ends forms an electric field which is more uniform and has higher discharge density, then multi-stage boosting is carried out through the resonance boosting principle of the Tesla coil hollow transformer of the secondary 4 and the primary 5 of the boosting coil, a high-voltage electric field is formed inside the insulating shell 1, gas in the air is converted into various gas compounds through high-voltage discharge, for example, the gas in the air is converted into nitrogen compounds through excitation of nitrogen in the air and the like, and finally the gas is introduced into the gas purification device through the gas outlet 102 for later use; when the sawtooth discharging piece 3 discharges, the starting signal conversion and transmission of the micro controller 13 regulates and controls the action of the radiator 6 and the fan 7, the air flow generated inside the insulating shell 1 is subjected to heat dissipation treatment, and the phenomenon that the heat generated by ozone is too high and dangerous is caused is avoided.

It is worth mentioning that: in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; mechanical connection is possible, and a person of ordinary skill in the art can understand the specific meaning of the above terms in the present invention according to specific situations.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (3)

1. The utility model provides a novel gas conversion device, includes insulating housing, movable mounting forms the air inlet between the lid and the insulating housing lower extreme at the upper and lower lid of insulating housing, forms gas outlet, its characterized in that between lid and the insulating housing upper end: the discharge assembly, the boosting assembly and the heat dissipation assembly are sequentially connected and arranged inside the insulating shell from top to bottom, the discharge assembly comprises sawtooth discharge sheets with sawtooth discharge ends symmetrically arranged upwards and downwards, and the sawtooth discharge sheets are transversely arranged at the upper end inside the insulating shell;

the boosting assembly comprises a boosting coil secondary and a boosting coil primary, the upper end of the boosting coil secondary is connected with the sawtooth discharge sheet, the lower end of the boosting coil secondary is connected with the boosting coil primary, and the boosting coil primary is arranged on the upper end face of the heat dissipation assembly;

the heat dissipation assembly comprises a radiator and a fan, the upper end face of the radiator is connected with the primary of the boosting coil, the lower end face of the radiator is connected with the fan, and the fan is transversely arranged at the lower end in the insulating shell; the device also comprises a regulating device for regulating and controlling the power and the timing of the discharging assembly and the heat dissipation assembly.

2. A novel gas conversion plant as claimed in claim 1, characterized in that: the regulating and controlling device comprises a display panel, a microcontroller, a time relay, a discharge button for regulating and controlling the sawtooth discharge sheet, and a heat dissipation button for regulating and controlling the fan, wherein the display panel is arranged on the outer surface of the insulating shell, the discharge button and the heat dissipation button are both arranged on the display panel, and the microcontroller and the time relay are arranged inside the display panel.

3. A novel gas conversion plant according to claim 1, characterized in that: still include power source, power source embeds on insulating casing surface.

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