KR102340317B1 - Ion generator - Google Patents

Abstract

The present invention relates to an ion generating device capable of maximally increasing the generation of positive ions and negative ions and discharging the same by measuring the amount of moisture in and temperature of intake air and providing moisture or heat appropriately based on the measured amount of moisture and temperature. The ion generator of the present invention comprises: a main body (100) in which an internal space to which air is moved communicates with an inlet through which air is sucked and an outlet through which air is discharged; a blower fan (200) conveying air from the inlet to the outlet of the main body (100); a humidity sensor (300) detecting humidity in the air conveyed by the blower fan (200); a moisture supply member (400) supplying moisture to the air conveyed by the blower fan (200); a temperature sensor (500) for sensing a temperature in the air conveyed by the blower fan (200); an ion generating member (700) generating ions by applying electric energy to the air heated and containing moisture during the conveyance by the blower fan (200); and a control unit (800) controlling the moisture supply member (400) according to the detection by the humidity sensor (300) and the temperature sensor (500) while controlling the blowing fan (200) and the ion generating member (700).

Description

Ion generator

The present invention relates to an ion generating device capable of maximally increasing generation of positive and negative ions and discharging them by measuring moisture and temperature in intake air and providing moisture or temperature appropriately based on the measured moisture and temperature.

In general, the air in a space with poor air communication, such as indoors and in multi-use facilities or vehicles, is always polluted from dust or harmful pollutants (dust, mold, bacteria, cigarette smoke, odors, etc.) easy.

Therefore, a technology for purifying indoor air has been developed and known. The air purification technology known so far removes indoor dust, dust, odor, etc. and uses a filter or an electric dust collector to purify the indoor air. This is mainstream.

However, there was a disadvantage that the filter alone could not effectively keep the air clean, and the method using the electrostatic precipitation type negative ion generated less negative ions than expected, and also had a problem in that ozone oxide harmful to our body was generated.

As for the background art of the present invention, Korean Patent Publication No. 10-2013-0014852 was registered with the Korean Intellectual Property Office as of February 12, 2013.

The problem to be solved by the present invention is that ions that can be discharged by maximally increasing the generation of positive and negative ions by measuring moisture and temperature in the inhaled air and providing moisture or temperature appropriately based on the measured moisture and temperature It is intended to provide a generating device.

The ion generating device according to an embodiment of the present invention includes a body 100 in which an internal space through which air is moved communicates with an inlet through which air is sucked and an outlet through which air is discharged, and air flows from the inlet to the outlet of the main body 100. A blowing fan 200 for transporting a, a humidity sensor 300 for sensing humidity in the air transported by the blowing fan 200, and a moisture supply member for supplying moisture to the air transported by the blowing fan 200 400 , a temperature sensor 500 for sensing a temperature in the air conveyed by the blowing fan 200 , an air heating member 600 for heating the air conveyed by the blowing fan 200 , and a blowing fan Humidity sensor in the state of controlling the ion generating member 700, which generates ions by applying electric energy to the air containing moisture and heated while being transported by 200, and the blower fan 200 and the ion generating member 700 300 and a control unit 800 for controlling the moisture supply member 400 according to the detection of the temperature sensor 500, and the control unit 800 includes a blowing operation unit 810 for operating the blowing fan 200 and , the ion operation unit 820 for operating the ion generating member 700 , the operation confirmation unit 830 for confirming the operation of the blowing fan 200 and the ion generating member 700 , and the humidity sensor 300 . When the humidity check unit 840 to confirm and the operation check unit 830 confirm the operation of the blowing fan 200 and the ion generating member 700, the humidity checked by the humidity check unit 840 is set to a preset standard. Compared to the humidity, the moisture supply operation unit 850 that operates the moisture supply member 400 if the humidity does not reach the reference humidity, and stops the moisture supply member 400 if the humidity matches the reference humidity, and a temperature sensor ( When the temperature check unit 860 that confirms the detection of 500 and the operation check unit 830 confirm the operation of the blowing fan 200 and the ion generating member 700, the temperature checked by the temperature check unit 860 is compared to a preset reference temperature, and if the temperature does not reach the reference temperature, the air heating member 600 is operated, and when the temperature matches the reference temperature, the air heating operation unit 870 to stop the air heating member 600 and , It includes a reference humidity setting unit 880 for setting the reference humidity, and the reference humidity setting unit 880 sets the current humidity checked by the humidity check unit 840 in a state in which the blower fan 200 is not operated as the reference humidity. However, if the current temperature checked by the temperature check unit 860 does not exceed the reference temperature, the current humidity is set as the reference humidity, and the current temperature checked by the temperature check unit 860 exceeds the reference temperature It is characterized in that another preset humidity is set as the reference humidity.

Preferably, the ion generating member 700 includes a high voltage generating unit 710 that generates a high voltage with input power, and a + side high voltage electrode 720 electrically connected to the high voltage generating unit 710 to which a + high voltage is applied. , it is characterized in that it includes a -side high voltage electrode 730 that is electrically connected to the high voltage generator 710 while being spaced apart from the + side high voltage electrode 720 at a predetermined interval to apply a - high voltage.

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Preferably, the other humidity is characterized in that it is set to a humidity higher than the reference humidity.

Preferably, the present invention includes a display unit 900 for displaying the current temperature and current humidity, and the control unit 800 displays the current temperature and current humidity on one side through the display unit 900 and displays the reference temperature and An expression output unit 801 for outputting a table displayed on the other side of the reference humidity on the screen, and a reference selection confirmation unit 802 for confirming the selection of the current temperature and current humidity output through the expression output unit 801 Including, the reference humidity setting unit 880 is characterized in that it is configured to set the current humidity selected through the reference selection confirmation unit 802 as the reference humidity.

According to the present invention, moisture and temperature are measured in the inhaled air, and moisture or temperature is appropriately provided based on the measured moisture and temperature, thereby maximally increasing the generation of positive ions and negative ions.

1 is a view schematically showing an ion generating device according to an embodiment of the present invention.
Figure 2 is a block diagram schematically showing the configuration of the present invention.
3 is a block diagram showing a control unit of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 , in the ion generating device according to an embodiment of the present invention, an internal space through which air is moved communicates with an inlet through which air is sucked and an outlet through which air is discharged; , a blowing fan 200 for transferring air from the inlet to the outlet of the main body 100 , a humidity sensor 300 for detecting humidity in the air transferred by the blowing fan 200 , and the blowing fan 200 . A moisture supply member 400 for supplying moisture to the air transferred, a temperature sensor 500 for sensing a temperature in the air transferred by the blowing fan 200, and heating the air transferred by the blowing fan 200 an air heating member 600 that is used to generate ions by applying electric energy to the air that contains moisture and is heated while being transported by the blowing fan 200, and the blower fan 200 and ions are generated. and a control unit 800 for controlling the moisture supply member 400 according to the detection of the humidity sensor 300 and the temperature sensor 500 in a state of controlling the member 700 .

It is preferable that the main body 100 is installed indoors, and an intake port is formed at one end and an outlet port is formed at the other end. In the main body 100 , a pre-filter for filtering dust or foreign substances may be installed at the inlet, and a HEPA filter may be installed to filter bacteria. That is, the filtered and purified air is discharged through the outlet.

When the blower fan 200 is operated, external air may be sucked in through the inlet of the main body 100, flow through the inner space, and then be discharged through the outlet to be provided indoors.

The humidity sensor 300 is provided in the inner space of the body 100 to detect humidity in the air flowing through it.

The moisture supply member 400 is a device that manufactures humidified water into water vapor and sprays it into the air flowing through the body 100 , such as an ultrasonic method or a heater method. The ultrasonic method uses a vibrator to convert humidified water into water vapor, and the heater method heats the humidified water to generate water vapor. Accordingly, since the humidifying water is supplied in a fine size like water vapor by the moisture supply member 400 , moisture can be evenly distributed in the air flowing through the body 100 .

The temperature sensor 500 is provided in the inner space of the main body 100 to sense a temperature in the air flowing through it.

The air heating member 600 may be configured as a heater or mesh-type heating wire that generates heat by using input electric energy while installed in the inner space of the body 100 . Accordingly, the air and moisture passing between the heating wires serving as the air heating member 600 may be heated.

The ion generating member 700 includes a high voltage generating unit 710 for generating a high voltage with input power, a + side high voltage electrode 720 electrically connected to the high voltage generating unit 710 to which a + high voltage is applied, and a + side The high voltage electrode 720 is electrically connected to the high voltage generator 710 while being spaced apart from the high voltage electrode 720 at a predetermined interval, and a -side high voltage electrode 730 to which a high voltage is applied is included.

The high voltage generator 710 may be configured as a circuit board on which electronic components for generating a high voltage are mounted.

Therefore, when a high voltage is applied to the + side high voltage electrode 720 and the - side high voltage electrode 730 , moisture and other gases contained in the air positioned between the + side high voltage electrode 720 and the - side high voltage electrode 730 . Various ions in a plasma state are generated by Since these ions chemically react with various substances contained in the air, bacteria and bacteria can be sterilized and deodorized, and fine dust can be removed.

The control unit 800 includes a blowing operation unit 810 for operating the blowing fan 200 , an ion operation unit 820 for operating the ion generating member 700 , a blowing fan 200 and an ion generating member 700 . The operation confirmation unit 830 for confirming the operation, the humidity confirmation unit 840 for confirming the detection of the humidity sensor 300, and the operation confirmation unit 830 are the blowing fan 200 and the ion generating member 700 . If the operation of the humidity check unit 840 is compared with the preset reference humidity, the moisture supply member 400 is operated if the humidity does not reach the reference humidity, and when the humidity matches the reference humidity, the humidity The moisture supply operation unit 850 for stopping the supply member 400 , the temperature confirmation unit 860 for confirming the detection of the temperature sensor 500 , and the operation confirmation unit 830 include the blowing fan 200 and ion generation. When the operation of the member 700 is confirmed, the temperature checked by the temperature check unit 860 is compared with a preset reference temperature, and if the temperature does not reach the reference temperature, the air heating member 600 is operated, and the temperature is the reference temperature and an air heating operation unit 870 to stop the air heating member 600 when matched.

Here, the reference humidity and the reference temperature may be appropriately set by the user to the optimum humidity and temperature suitable for ion generation. For example, the reference humidity may be set to 30 to 40% and the reference temperature may be set to 18 to 22 degrees Celsius. That is, as the reference humidity and the reference temperature are appropriately set, the ion generation state can be optimally maintained.

The blowing operation unit 810 operates the blowing fan 200 by applying power.

The ion operation unit 820 operates the ion generating member 700 by applying power.

When the operation confirmation unit 830 confirms the operation of the blowing fan 200 and the ion generating member 700 , the moisture supply operation unit 850 operates, and the operation confirmation unit 830 activates the blowing fan 200 and ion generation If the operation of the member 700 is not confirmed, the moisture supply operation unit 850 is not operated.

When the air conveyed by the blower fan 20 lacks moisture, the moisture supply operation unit 850 operates the moisture supply member 400 to supply moisture to the air. Of course, the moisture supply operation unit 850 stops the moisture supply member 400 if the transferred air does not lack moisture. Therefore, the conveyed air contains adequate moisture.

And, when the temperature of the air transferred by the blowing fan 20 is low, the air heating operation unit 870 operates the air heating member 600 to heat the air. Of course, if the temperature of the transferred air is not low, the air heating operation unit 870 stops the air heating member 600 . Accordingly, the transferred air is maintained at an appropriate temperature.

As described above, since the air transported in a state in which an appropriate temperature is maintained while containing appropriate moisture is provided to the ion generating member 700 , ions may be maximally generated in the ion generating member 700 .

In addition, the control unit 800 includes a reference humidity setting unit 880 for setting the reference humidity, and the reference humidity setting unit 880 is confirmed by the humidity confirmation unit 840 in a state in which the blowing fan 200 is not operated. Set the current humidity to be the reference humidity, but if the current temperature checked by the temperature checking unit 860 does not exceed the reference temperature, the current humidity is set as the reference humidity, and the current checked by the temperature checking unit 860 If the temperature of the unit exceeds the reference temperature, another preset humidity is set as the reference humidity.

Here, the other humidity is preferably set to a humidity higher than the reference humidity. Accordingly, if the reference humidity is increased when the current temperature is high, the moisture supply operation unit 850 may control the moisture supply member 400 to supply a large amount of moisture.

In addition, the reference humidity setting unit 880 may set the reference humidity high or low by arbitrarily adjusting by the user.

In addition, the control unit 800 includes a reference temperature setting unit 890 for setting a reference temperature, and the reference temperature setting unit 890 is confirmed by the humidity check unit 840 in a state in which the blowing fan 200 is not operated. If the current humidity does not exceed the reference humidity, the current temperature checked by the temperature check unit 860 is set as the reference temperature, and when the humidity checked by the humidity check unit 840 exceeds the reference humidity, another preset temperature is set as the reference temperature.

Here, the other temperature is preferably set to a temperature higher than the reference temperature. Accordingly, when the reference temperature is increased when the humidity is high, the air heating operation unit 870 operates the air heating member 600 at a high temperature, so that the evaporation amount of humidity can be increased.

In addition, the reference temperature setting unit 890 may set the reference temperature high or low by arbitrarily adjusting the reference temperature by the user.

Meanwhile, the present invention includes a display unit 900 that displays the current temperature and the current humidity.

The display unit 900 may be configured as a liquid crystal screen or a display that displays the current temperature and current humidity numerically.

The control unit 800 includes an expression output unit 801 for displaying the current temperature and current humidity on one side and displaying the reference temperature and reference humidity on the other side on the screen through the display unit 900, and an expression output unit and a reference selection confirmation unit 802 for confirming selection of the current temperature and current humidity output through 801 .

The reference humidity setting unit 880 is configured to set the current humidity selected through the reference selection confirmation unit 802 as the reference humidity.

The reference temperature setting unit 890 is configured to set the current temperature selected through the reference selection confirmation unit 802 as the reference temperature.

Accordingly, the user can arbitrarily set the current temperature and current humidity as the reference temperature and the reference humidity while visually checking the table output through the liquid crystal screen.

In this way, since it is possible to respond to excessive humidity and temperature by appropriately adjusting humidity and temperature, an optimal state for ion generation can be maintained.

Hereinafter, the action and effect of the present invention will be described.

^{Positive hydrogen ions (H +} ) are generated in the + side high voltage electrode 720 by moisture and oxygen contained in the air transported by the blower fan 20 , and negative oxygen ions are generated in the - side high voltage electrode 730 . (O ₂ ) is generated. The generated hydrogen ions and oxygen ions cause a chemical reaction with each other on the surfaces of viruses and bacteria contained in air to generate OH radicals.

These OH radicals have very strong oxidizing power, so they take hydrogen away from the surfaces of viruses and bacteria to decompose proteins, thereby killing viruses and bacteria. Viruses and bacteria cause allergies, and the surface is mainly composed of proteins. When a hydrogen atom is removed from the surface of a virus or bacteria, its properties are inactivated. The OH radical is reduced to water and returned to the air.

In addition, the amount of ions produced during the virus or bacteria death process is an important indicator for evaluating the ion generation performance. Accordingly, the amount of ions generated by the ion generating member 700 varies according to environmental factors such as temperature and humidity.

In particular, moisture in the air is an important factor for increasing the generation of ions.

In addition, the + side high voltage electrode 720 and the - side high voltage electrode 730 for generating ions change the amount of ozone harmful to the human body according to the change in shape, distance, and voltage. Therefore, if the humidity and temperature are adjusted without changing the voltage, the maximum amount of ion generation can be secured.

Accordingly, since maximum ions are generated by appropriately providing humidity and temperature to the ion generating member 700 under atmospheric pressure, the sterilization, odor, and removal effects of fine dust can be doubled.

As such, the present invention can measure moisture and temperature in the inhaled air and provide moisture or temperature appropriately based on the measured moisture and temperature to maximize the generation of positive ions and negative ions and discharge them. It can be said that it is a very useful invention that can be applied and widely used.

Those skilled in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential characteristics thereof. Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their equivalents Any changes or modifications derived from it should be construed as being included in the scope of the present invention.

100: body 200: blowing fan
300: humidity sensor 400: moisture supply member
500: temperature sensor 600: air heating member
700: ion generating member 710: high voltage generating unit
720: + side high voltage electrode 700: - side high voltage electrode
800: control unit 810: blow operation unit
820: ion operation unit 830: operation confirmation unit
840: humidity check unit 850: moisture supply operation unit
860: temperature check unit 870: air heating operation unit
880: reference humidity setting unit 890: reference temperature setting unit
801: expression output unit 802: standard selection confirmation unit
900: display

Claims (7)

The body 100 in which the internal space in which the air is moved communicates with the intake port through which air is sucked and the outlet through which the air is discharged;
A blowing fan 200 for transferring air from the inlet to the outlet of the main body 100;
A humidity sensor 300 for detecting humidity in the air transferred by the blowing fan 200, and
A moisture supply member 400 for supplying moisture to the air transported by the blowing fan 200, and
A temperature sensor 500 for sensing the temperature in the air transferred by the blowing fan 200,
An air heating member 600 for heating the air transferred by the blowing fan 200,
An ion generating member 700 that generates ions by applying electric energy to the heated air containing moisture while being transported by the blower fan 200;
A control unit 800 for controlling the moisture supply member 400 according to the detection of the humidity sensor 300 and the temperature sensor 500 in a state of controlling the blowing fan 200 and the ion generating member 700,
The control unit 800 is
A blowing operation unit 810 for operating the blowing fan 200, and
an ion operation unit 820 for operating the ion generating member 700;
an operation confirmation unit 830 for confirming the operation of the blowing fan 200 and the ion generating member 700;
A humidity check unit 840 that confirms the detection of the humidity sensor 300, and
When the operation check unit 830 confirms the operation of the blower fan 200 and the ion generating member 700, the humidity checked by the humidity check unit 840 is compared with a preset reference humidity, and the humidity does not reach the reference humidity. If not, the moisture supply operation unit 850 to operate the moisture supply member 400, and to stop the moisture supply member 400 when the humidity matches the reference humidity;
A temperature check unit 860 for confirming the detection of the temperature sensor 500, and
When the operation check unit 830 confirms the operation of the blower fan 200 and the ion generating member 700, the temperature checked by the temperature check unit 860 is compared with a preset reference temperature, and the temperature does not reach the reference temperature. If not, the air heating operation unit 870 to operate the air heating member 600, and to stop the air heating member 600 when the temperature matches the reference temperature,
Includes a reference humidity setting unit 880 for setting the reference humidity,
The reference humidity setting unit 880 is
In a state in which the blowing fan 200 is not operated, the current humidity checked in the humidity check unit 840 is set as the reference humidity,
If the current temperature checked by the temperature check unit 860 does not exceed the reference temperature, the current humidity is set as the reference humidity,
Ion generating device, characterized in that when the current temperature checked by the temperature check unit (860) exceeds the reference temperature, another preset humidity is set as the reference humidity.
The method according to claim 1,
The ion generating member 700 is
A high voltage generator 710 for generating a high voltage with input power;
+ side high voltage electrode 720 to which + high voltage is applied by being electrically connected to the high voltage generator 710;
An ion generating device comprising: a -side high voltage electrode (730) to which a -high voltage is applied while being spaced apart from the +side high voltage electrode (720) by a predetermined interval and electrically connected to the high voltage generator (710).
delete delete delete The ion generating device according to claim 1, wherein the other humidity is set to a humidity higher than the reference humidity.
The method according to claim 1, comprising a display unit 900 for displaying the current temperature and current humidity,
The control unit 800 is
An expression output unit 801 for displaying the current temperature and current humidity on one side through the display unit 900 and outputting a table displaying the reference temperature and the reference humidity on the other side on the screen;
Includes a reference selection confirmation unit 802 for confirming the selection of the current temperature and current humidity output through the expression output unit 801,
The reference humidity setting unit 880 is configured to set the current humidity selected through the reference selection confirmation unit 802 as the reference humidity.

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