CN218442693U - Ozone generator with high-efficient deodorization and disinfection function - Google Patents

Abstract

The application discloses an ozone generator with efficient deodorization and disinfection functions, which belongs to the field of ozone generators and comprises a shell, an ozone generation module, an electric field generation module, a fan, an ozone detection module, a peculiar smell detection module and a controller; the shell is provided with an air inlet and an air outlet; the ozone generating module is used for generating ozone; the electric field generation module is used for generating an electric field and deodorizing; the fan is used for driving the gas in the shell to flow from the air inlet to the air outlet; the ozone detection module is used for detecting the concentration of ozone in the gas and generating concentration data; the controller is configured to acquire concentration data and activate the ozone generation module when the concentration data exceeds a first concentration threshold. Through setting up ozone detection module and controller, be convenient for maintain ozone concentration at certain within range, make article be difficult for receiving the damage because of ozone concentration is excessive. This application has the effect that deodorization, disinfection and peculiar smell detected, is convenient for improve ozone generator's result of use and intellectuality.

Description

Ozone generator with high-efficient deodorization and disinfection function

Technical Field

The application relates to the field of ozone generators, in particular to an ozone generator with efficient deodorization and disinfection functions.

Background

Ozone is a strong oxidant, is commonly used in the field of disinfection, and an ozone generator for disinfection is created, and the ozone generator continuously generates ozone to achieve the disinfection effect.

Ozone generators in the related art include shell, ozone generation unit and mounting disc, and the mounting disc is provided with two, and is located the both ends of shell respectively. The casing and the mounting disc form a closed cavity, and the ozone generating unit is arranged on the mounting disc and is positioned in the closed cavity. After the ozone generating unit is started, ozone can be generated, and after the ozone is contacted with microorganisms such as bacteria and viruses, the internal structures of the microorganisms are damaged, so that the effects of disinfection and sterilization are achieved.

In view of the above related technologies, the inventor believes that after the ozone generator is started, the ozone generating unit continuously generates ozone, which easily causes the ozone content in a room to be excessive, damages articles, ages the articles, and the like, and the using effect of the ozone generator is poor.

SUMMERY OF THE UTILITY MODEL

In order to improve the using effect of the ozone generator, the utility model provides an ozone generator with high-efficient deodorization and disinfection functions.

The application provides an ozone generator with high-efficient deodorization and disinfection function adopts following technical scheme:

an ozone generator with efficient deodorization and disinfection functions comprises a shell and an ozone generation module, wherein the ozone generation module is arranged in the shell and used for generating ozone; the ozone generator also comprises a fan which is arranged in the shell and is used for driving gas in the shell to flow from the air inlet to the air outlet;

the ozone detection module is used for detecting the concentration of ozone in the gas and generating concentration data;

a controller electrically connected to both the ozone detection module and the ozone generation module, configured to acquire the concentration data, and to brake the ozone generation module when the concentration data exceeds a preset first concentration threshold.

Through adopting above-mentioned technical scheme, when concentration data surpassed first concentration threshold value, the braking of controller automatic control ozone generation module made ozone generation module no longer generate ozone. The ozone generator is beneficial to maintaining the indoor ozone concentration within a certain range, is not easy to be too high, is convenient to improve the intelligence of the ozone generator, is not easy to damage articles, enables sofa, clothes and the like to age and harden, and is convenient to improve the using effect of the ozone generator.

Optionally, an electric field generation module is arranged in the housing and used for generating an electric field.

Through adopting above-mentioned technical scheme, electric field generation module can be at the inside electric field that produces of shell, and the electric field can be with getting into the inside air molecule ionization decomposition of shell, produces the ion. The generated ions are convenient to have degradation reaction with odor molecules, thereby achieving the deodorization effect.

Optionally, the ozone detection module is located inside the housing, and the ozone detection module, the electric field generation module, the ozone generation module and the fan are sequentially arranged from the air inlet to the air outlet.

Through adopting above-mentioned technical scheme, ozone detection module is located inside the shell, is convenient for receive the protection of shell, makes ozone detection module not fragile. The ozone detection module is closest to the air inlet, so that the reality degree of the concentration of the ozone in the concentration data reaction chamber is convenient to improve, the concentration data can reflect the real concentration of the ozone in the chamber, and the more reasonable the time for starting or braking the ozone generation module by the controller is, the more convenient the use effect of the ozone generator is improved.

Optionally, the fan and the electric field generation module are both electrically connected with the controller;

the controller is configured to brake the fan or reduce the fan output power when the concentration data exceeds the first concentration threshold;

the controller is further configured to activate the ozone generation module while activating the fan or increasing the fan output power when the concentration data is below a preset second concentration threshold.

Through adopting above-mentioned technical scheme, when concentration data surpassed first concentration threshold value, ozone generation module was braked, no longer produces ozone, and the braking fan or reduction fan output power help saving equipment running cost this moment, extension equipment life. When the concentration data is lower than the second concentration threshold value, the ozone generator is started to enable the ozone generation module to generate ozone, so that the indoor ozone concentration is kept within a range, and the sterilization effect is ensured.

Optionally, the controller is in wireless connection with the ozone generation module, the fan, the ozone detection module and the electric field generation module.

By adopting the technical scheme, the ozone generator can be conveniently controlled by the controller when the shell is arranged at a higher position or a position which is not easy to touch, so that the ozone generator can be conveniently used.

Optionally, the controller is electrically connected with a timer;

the controller is configured to start or stop the ozone generating module, the blower, the ozone detecting module, and the electric field generating module based on the timer.

By adopting the technical scheme, the timer has a timing function, and the controller controls the ozone generation module and other mechanisms based on the timer, so that the intelligence and the use effect of the ozone generator are improved conveniently.

Optionally, a sealing plate hinged to the housing is disposed at each of the air inlet and the air outlet, the sealing plate is connected to a driver, and the driver is electrically connected to the controller;

the controller is configured to control the driver to drive the sealing plate to close the air inlet or the air outlet or open the air inlet or the air outlet.

By adopting the technical scheme, the sealing plate seals the air inlet and the air outlet, so that dust entering the shell is reduced, and the service life of the ozone generator is prolonged.

Optionally, the casing is provided with an odor detection module for detecting odor concentration;

the peculiar smell detection module is electrically connected with the controller; the controller is configured to control the fan and the electric field generation module to start when the odor concentration detected by the odor detection module exceeds a preset odor threshold value.

By adopting the technical scheme, when the concentration of the peculiar smell in the installation environment of the ozone generator is larger, the controller automatically starts the electric field generation module and the fan, and the high-voltage electric field generated by the electric field generation module ionizes air molecules to generate ions and degrade the peculiar smell molecules, so that the peculiar smell is reduced or eliminated.

In summary, firstly, by arranging the ozone detection module and the controller, the ozone concentration is conveniently maintained within a certain range, and when the concentration of ozone exceeds the standard, the ozone generation module is braked, so that the articles are not easily damaged due to the exceeding of the ozone concentration, and the intelligence and the use effect of the ozone generator are improved.

And secondly, the electric field generation module is arranged to generate an electric field in the shell, so that the air is electrolyzed to generate ions, and the ions and odor molecules are subjected to degradation reaction, thereby achieving the aim of deodorization.

Drawings

Fig. 1 is a block diagram showing the overall configuration of an ozone generator having high-efficiency deodorization and sterilization functions according to example 1.

FIG. 2 is a block diagram showing the overall structure of an ozone generator having high-efficiency deodorization and sterilization functions according to example 2.

Description of reference numerals:

1. a housing; 11. an air inlet; 12. an air outlet; 2. an ozone generating module; 3. a fan; 4. an ozone detection module; 5. a controller; 51. a timer; 6. an electric field generation module; 7. a driver; 8. peculiar smell detection module.

Detailed Description

The embodiment of the application discloses an ozone generator with high-efficient deodorization and disinfection functions.

Example 1

Referring to fig. 1, the ozone generator having high-efficiency deodorization and sterilization functions includes a housing 1, an ozone generation module 2, a blower 3, an ozone detection module 4, a controller 5, and an electric field generation module 6. The housing 1 may be made of metal or plastic, and is used to provide an installation space and protect the internal devices, so that impurities are not easily in direct contact with the internal devices. The shell 1 is provided with an air inlet 11 and an air outlet 12, so that air inside the shell 1 can flow to the outside of the shell 1 from the air outlet 12, and air outside the shell 1 can flow to the inside of the shell 1 from the air inlet 11.

The ozone generating module 2 is used for generating ozone, specifically, the manner of generating ozone includes an ultraviolet irradiation method, an electrolytic method, a radiochemical method and a dielectric barrier discharge method, in this embodiment, the specific structure of the ozone generating module 2 is not limited as long as ozone can be generated, and therefore, details are not described.

The fan 3 is used for driving the air inside the housing 1 to flow from the air inlet 11 to the air outlet 12, and flow from the air outlet 12 to the outside of the housing 1. The fan 3 makes the inside of the shell 1 form a negative pressure environment, and the outside air of the shell 1 automatically flows into the inside of the shell 1 from the air inlet due to the pressure intensity to form the circular flow of the air.

The ozone detection module 4 is used for detecting the concentration of ozone in the gas and generating concentration data; the electric field generation module 6 is used for generating an electric field, and specifically, the electric field generation module 6 can generate a large amount of high-energy electrons, positive and negative ions, free radicals such as OH, H, O and the like. Specifically, the electric field generation module 6 comprises an anode plate and a cathode plate, and after being connected with a power supply, an electric field is generated between the anode plate and the cathode plate to ionize passing gas; in addition, the electric field generation module 6 may also adopt a high-energy ion tube.

The ozone generation module 2, the fan 3, the ozone detection module 4 and the electric field generation module 6 are all electrically connected with the controller 5. In one embodiment, the controller 5 is mounted on the housing 1 and is electrically connected with the ozone generating module 2, the fan 3, the ozone detecting module 4 and the electric field generating module 6 through a circuit board or an electric wire; in another embodiment, the controller 5 is a remote controller, and is connected to the ozone generating module 2, the blower 3, the ozone detecting module 4 and the electric field generating module 6 in a wireless manner, specifically, the wireless connection can be realized by using a bluetooth technology, an infrared technology or a wifi technology.

In order to improve the accuracy of concentration data, in this embodiment, the ozone generation module 2, the fan 3, the ozone detection module 4 and the electric field generation module 6 are all located inside the housing 1, and the ozone detection module 4, the electric field generation module 6, the ozone generation module 2 and the fan 3 are sequentially arranged from the air inlet 11 to the air outlet 12. The gas entering the shell 1 firstly passes through the ozone detection module 4 and then flows towards the direction close to the air outlet 12; meanwhile, the ozone generated by the ozone generation module 2 is not easy to contact with the ozone detection module 4, so that the truth degree of the concentration of the ozone in the environment where the ozone generator is located is conveniently improved and reflected by concentration data.

The controller 5 is configured to acquire concentration data, and when the concentration data exceeds a preset first concentration threshold, the ozone generation module 2 is braked, and the fan 3 is braked or the output power of the fan 3 is reduced; when the concentration data is lower than a preset second concentration threshold value, the ozone generation module 2 is started, and the fan 3 or the body height fan 3 is started to output power. It is understood that the first concentration threshold is greater than the second concentration threshold, and if the controller 5 brakes the fan 3 when the concentration data exceeds the first concentration threshold, the controller 5 activates the fan 3 when the concentration data is lower than the second concentration threshold.

The implementation principle of the embodiment 1 is as follows: when the concentration data detected by the ozone detection module 4 exceeds a first concentration threshold value, the ozone content in the environment where the ozone generator is located is proved to exceed a normal value, and at the moment, the controller 5 automatically controls the ozone generation module 2 to brake to stop generating ozone. The concentration of the ozone is stabilized within a range and is not easy to exceed a normal value, so that the ozone generator is not easy to damage articles in the environment, on one hand, the intelligence of the ozone generator is improved, and on the other hand, the using effect of the ozone generator is improved.

Example 2

Referring to fig. 2, the present embodiment is different from embodiment 1 in that a timer 51 is further electrically connected to the controller 5, and the timer 51 may be mounted on the housing 1 or may be mounted in the same remote controller housing 1 as the controller 5. The timer 51 is used for counting time, and specifically, the operator sets a counted time by clicking or touching the timer 51. After the operator sets the timer time or presses the start timer button, the timer 51 starts counting time. When the timer 51 finishes counting, the counting completion information is transmitted to the controller 5.

The controller 5 is configured to start the ozone generating module 2, the blower 3, the ozone detecting module 4, and the electric field generating module 6, or stop the ozone generating module 2, the blower 3, the ozone detecting module 4, and the electric field generating module 6 based on the timer 51. It is easy to understand that after the controller 5 receives the timing completion information, if the timing completion information represents the start, the ozone generation module 2, the fan 3, the ozone detection module 4 and the electric field generation module 6 are started; if the timing completion information represents braking, the ozone generation module 2, the fan 3, the ozone detection module 4 and the electric field generation module 6 are braked, so that the timed starting and braking functions of the ozone generator are realized, and the use experience and the use effect of the ozone generator are improved conveniently.

The air inlet 11 and the air outlet 12 are both provided with sealing plates hinged with the shell 1, and the sealing plates are connected with a driver 7. The driver 7 can be an electric cylinder, an air cylinder or a rotating motor and is used for driving the sealing plate to rotate, and the driver 7 is electrically connected with the controller 5. The controller 5 is configured to control the driver 7 to drive the sealing plate to close the air inlet 11 or the air outlet 12, or open the air inlet 11 or the air outlet 12. That is, when the controller 5 receives an instruction to start the ozone generator, for example, receives timing completion information representing the start, the two drivers 7 are controlled to drive the corresponding sealing plates to rotate, so that the air inlet 11 and the air outlet 12 are opened; when the controller 5 receives an instruction for braking the ozone generator, for example, timing completion information representing braking, the two drivers 7 are controlled to drive the corresponding sealing plates to rotate, so that the air inlet 11 and the air outlet 12 are closed.

And the casing 1 is provided with a peculiar smell detection module 8 for detecting peculiar smell concentration. Specifically, the odor detection module 8 may be an odor sensor for detecting one or more of a hydrogen sulfide concentration, a formaldehyde concentration, and an ammonia concentration. The peculiar smell detection module 8 is electrically connected with the controller 5, and the controller 5 is configured to control the fan 3 and the electric field generation module 6 to start when the peculiar smell concentration detected by the peculiar smell detection module 8 exceeds a preset peculiar smell threshold value. Specifically, the concentration of the odor can be the concentration of one gas or the concentrations of a plurality of gases; for example, the odor threshold includes a hydrogen sulfide concentration threshold, an ammonia concentration threshold, and a formaldehyde concentration threshold, and when the hydrogen sulfide concentration and/or the ammonia concentration and/or the formaldehyde concentration detected by the odor detection module 8 exceed the corresponding thresholds, the controller 5 activates the fan 3 and the electric field generation module 6.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An ozone generator with high-efficiency deodorization and disinfection functions comprises a shell (1) and an ozone generation module (2), wherein the ozone generation module (2) is arranged in the shell (1) and used for generating ozone; air intake (11) and air outlet (12), its characterized in that have been seted up on shell (1): the ozone generator also comprises a fan (3) which is arranged inside the shell (1) and is used for driving the gas inside the shell (1) to flow from the air inlet (11) to the air outlet (12);

the ozone detection module (4) is used for detecting the concentration of ozone in the gas and generating concentration data;

a controller (5) electrically connected to both the ozone detection module (4) and the ozone generation module (2), configured to acquire the concentration data, and to brake the ozone generation module (2) when the concentration data exceeds a preset first concentration threshold.

2. The ozone generator with high efficiency deodorization and disinfection function as claimed in claim 1, wherein: an electric field generation module (6) is arranged in the shell (1) and used for generating an electric field.

3. The ozone generator with high efficiency deodorization and disinfection function as claimed in claim 2, wherein: ozone detection module (4) are located inside shell (1), just ozone detection module (4) electric field generation module (6) ozone generation module (2) and fan (3) by air intake (11) to air outlet (12) arrange in proper order.

4. The ozone generator with high efficiency deodorization and disinfection function as claimed in claim 2, wherein: the fan (3) and the electric field generation module (6) are electrically connected with the controller (5);

the controller (5) is configured to brake the fan (3) or reduce the fan (3) output power when the concentration data exceeds the first concentration threshold;

the controller (5) is further configured to activate the ozone generating module (2) and simultaneously activate the fan (3) or increase the fan (3) output power when the concentration data is lower than a preset second concentration threshold.

5. The ozone generator with high efficiency deodorization and disinfection function as claimed in claim 4, wherein: the controller (5) is in wireless electrical connection with the ozone generation module (2), the fan (3), the ozone detection module (4) and the electric field generation module (6).

6. The ozone generator with high-efficiency deodorization and disinfection functions as claimed in claim 2, wherein: the controller (5) is electrically connected with a timer (51);

the controller (5) is configured to start the ozone generating module (2), the fan (3), the ozone detecting module (4), and the electric field generating module (6) or stop the ozone generating module (2), the fan (3), the ozone detecting module (4), and the electric field generating module (6) based on the timer (51).

7. The ozone generator with high efficiency deodorization and disinfection as claimed in claim 6, wherein: sealing plates hinged with the shell (1) are arranged at the air inlet (11) and the air outlet (12), the sealing plates are connected with a driver (7), and the driver (7) is electrically connected with the controller (5);

the controller (5) is configured to control the driver (7) to drive the sealing plate to close the air inlet (11) or the air outlet (12) or open the air inlet (11) or the air outlet (12).

8. The ozone generator with high efficiency deodorization and disinfection function as claimed in claim 2, wherein: the casing (1) is provided with an odor detection module (8) for detecting odor concentration;

the peculiar smell detection module (8) is electrically connected with the controller (5); the controller (5) is configured to control the fan (3) and the electric field generation module (6) to be activated when the odor concentration detected by the odor detection module (8) exceeds a preset odor threshold.

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