KR20190118700A - Humidifier using plasma - Google Patents

Abstract

According to the present invention, a humidifier using plasma comprises: an electrode water tank to store water; a capillary electrode tube installed to move the water of the electrode water tank upwards by a capillary tube phenomenon; an electrode installed to face an upper end of the capillary electrode tube; a voltage supply unit to receive power to apply a voltage to the water of the electrode water tank and the electrode to generate plasma between the upper end of the capillary electrode tube and the electrode to allow water supplied through the capillary electrode tube to create steam; and a duct unit which is arranged on an upper side of the electrode water tank, and discharges steam created by the plasma to the outside by a blowing fan. According to the present invention, plasma is used to create steam to allow perfect sterilization by steam to provide sanitary steam. Removal and sterilization effects of various harmful bacteria for blown air are excellent in addition to the supply of sanitary steam. Moreover, dust contained in blown air is removed by plasma to provide a cleaning function. Operations can be remotely and conveniently controlled by a terminal.

Description

Humidifier using plasma

The present invention relates to a humidifier using a plasma, and more particularly, by generating water vapor using a plasma using water as an electrode, providing hygienic water vapor, and removing and disinfecting various harmful bacteria in the air blown. It relates to a plasma-using humidifier that is excellent.

In general, a humidifier is a device that emits moisture to the air in order to control the humidity of the room, a heated humidifier that controls the humidity by heating the water with an electric heater and exhales the heated water vapor, and uses the ultrasonic vibration as its vibration. Ultrasonic humidifiers using grains of generated water are widely used. In addition, an evaporative humidifier and a complex humidifier for controlling humidity by evaporating water through a flow of air are used.

Such a heated humidifier has the advantage of being hygienic in that it uses steam sterilized by high temperature, but the use of high temperature as a whole may cause burns and energy consumption. Accordingly, in order to solve this problem, a humidifier using a plasma while using an existing ultrasonic vibrator has been developed. As a related art, a "plasma humidifier" of Korean Patent Publication No. 10-2017-0100732 has been presented. It is a plasma humidifier, comprising: a vibrator for dissipating water vapor in a housing having a water vapor outlet nozzle; An outlet nozzle extending narrower in diameter compared to the housing body space in which the vibrator is installed; A plasma generation electrode provided at the discharge nozzle; And a power supply device for applying a voltage to the electrode, wherein the plasma generation takes the manner of discharging the atmosphere, and the electrode for plasma generation is provided inside the discharge nozzle end, and the high voltage electrode of the metal needle and the ground electrode thereof Needle electrode method with the needle, the syringe needle tube with the syringe needle electrode as the high voltage electrode, and the ground electrode is made of a flat plate with a perforated hole, or the high voltage electrode is attached to one side of the dielectric and the ground electrode is installed on the back side of the dielectric. Composed of any one of the DBD (Dielectric Barrier Discharge).

However, such a conventional technique is disadvantageous in terms of manufacturing cost as well as disadvantageous in terms of manufacturing cost by simultaneously using an ultrasonic vibrator and a plasma generator, and it is difficult to completely sterilize it with plasma against already generated water vapor. I had.

In order to solve the problems of the prior art as described above, the present invention generates water vapor by using a plasma using water as an electrode, thereby enabling complete sterilization of water vapor, thereby providing hygienic water vapor. In addition to the hygienic steam supply, the purpose of the present invention is to provide a clean function by removing various harmful bacteria and disinfecting effects on the air to be blown, and further removing dust contained in the air to be blown by the plasma.

Other objects of the present invention will be readily understood through the following description of the embodiments.

In order to achieve the object as described above, according to an aspect of the present invention, the electrode tank in which water is stored; A capillary electrode tube installed to move the water in the electrode tank upward by a capillary phenomenon; An electrode disposed to face an upper end of the capillary electrode tube; A voltage is applied to the water of the electrode bath and the electrode by receiving power to generate a plasma between the upper end of the capillary tube and the electrode, so that the water supplied through the capillary tube generates steam. Supply unit; And a duct part provided above the electrode bath and discharging water vapor generated by the plasma to the outside by a blowing fan.

According to another aspect of the present invention, a pair of electrode bath in which water is stored and insulated from each other; A pair of capillary electrode tubes installed to move the water of each of the electrode baths upwards by capillary action, the upper end facing each other; A voltage supply unit which receives power and applies voltage to each of the electrode baths to generate a plasma between the upper ends of the capillary tubes, thereby generating water vapor through the capillary tubes; And a duct part provided above the electrode bath and discharging water vapor generated by the plasma to the outside by a blowing fan.

A main body in which the electrode bath is provided inside; And a water tank provided to supply water to each of the electrode baths in the main body.

A communication module provided to perform wireless communication with an external terminal; And a control unit controlling the voltage supply unit and the blowing fan according to an operation signal received from the terminal through the communication module.

The capillary tube may be formed perpendicular to the electrode bath so that a curvature portion having a curvature at an upper end thereof may be formed.

According to the plasma-use humidifier according to the present invention, by generating water vapor using a plasma using water as an electrode, it is possible to completely sterilize the water vapor, thereby providing a sanitary water vapor, and sanitary water vapor In addition to supplying air, it is possible to have excellent effect of removing and disinfecting various harmful bacteria on the air blown, and also to provide a clean function by removing dust contained in the air blown by plasma, and remotely by the terminal. Operation can be conveniently controlled.

1 is a cross-sectional view showing a plasma using humidifier according to a first embodiment of the present invention.
2 is a cross-sectional view showing a plasma using humidifier according to a second embodiment of the present invention.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to the specific embodiments, but should be understood in a way that includes all changes, equivalents, and substitutes included in the spirit and scope of the present invention, and may be modified in various other forms. It is to be understood that the scope of the present invention is not limited to the following examples.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and like reference numerals denote the same or corresponding elements regardless of reference numerals, and redundant description thereof will be omitted.

1 is a cross-sectional view showing a plasma using humidifier according to a first embodiment of the present invention.

Referring to FIG. 1, the plasma using humidifier 100 according to the first embodiment of the present invention includes an electrode bath 110, a capillary electrode 130, an electrode 140, a voltage supply unit 150, and a duct unit 120. ) May be included.

The electrode bath 110 is used to generate steam and also stores water serving as an electrode.

The capillary electrode tube 130 is installed to move the water in the electrode tank 110 upward by capillary action, and is made of various materials to withstand plasma, and has a diameter within a range to induce capillary action. In addition, the length of the plasma may be made to be possible, and the diameter and the length may be changed as necessary. The capillary electrode 130 may have, for example, an outer diameter of 0.5 to 1.5 mm and an inner diameter of 0.2 to 1 mm.

For example, the capillary electrode tube 130 may be vertically erected on the electrode tank 110 to form a curvature 131 having a curvature at the upper end thereof. It may be formed to bend. Therefore, the curvature 131 facilitates the discharge of the water vapor and increases the generation efficiency of the water vapor. Capillary electrode 130 may have a variety of forms in order to increase the efficiency of the plasma generation and steam generation in addition to this form, in order to be installed in the electrode tank 110, for example, a fixed portion fixed in the electrode tank (110) 132 may be fixed by various methods such as fitting.

The capillary electrode 130 may have the curvature 131 as in the present embodiment. Alternatively, the capillary electrode 130 may be formed only in a straight form, in a coil form, in a bent form, in a zigzag form, or else. It may be made in various forms, and may be installed to be vertically installed, as well as inclined to be inclined as necessary. Accordingly, various embodiments may be considered with respect to the installation form and the shape of the capillary electrode tube 130, which will be similarly applied to all embodiments.

The electrode 140 is installed to face the upper end of the capillary electrode tube 130. For example, the electrode 140 is fixed to the inner surface of the duct part 120 on the upper side of the electrode bath 110, but is not limited thereto. It may be fixed by a bracket or the like so as to be located above the electrode tank 110. The distance between the electrode 140 and the capillary electrode 130 may be, for example, 0.5 ~ 2 cm.

The voltage supply unit 150 receives power and applies a voltage to the water of the electrode tank 110 and the electrode 140 to generate a plasma between the upper end of the capillary electrode tube 130 and the electrode 140. Water supplied through the tube 130 generates water vapor, for example, initially supplying alternating current or direct current of 5 to 20 KV at several tens of kHz from an applied power source, and generating 1 to 3 KV lower than this when the generation of plasma is stabilized. Voltage may be supplied, in which case the current may be 10 to 200 mA, which is also presented as an example, and may vary depending on the specifications and capacities of the capillary electrode tube 130 and the electrode 140. . On the other hand, the electrode tank 110 may be provided with a conductor 111 on the inner surface to facilitate the voltage application, the voltage supply unit 150 for supplying voltage to each of the conductor 111 and the electrode 140 Supply line 151 is connected.

Duct portion 120 is provided on the upper side of the electrode bath 110, as in the present embodiment is provided to be integral with the electrode bath 110, or as another example provided separately from the electrode bath 110, the electrode bath ( It may be integrally coupled to the upper side of 110. The duct unit 120 may be provided with a blowing fan 122 that provides a blowing force to be discharged together with the water vapor generated by the plasma through the discharge unit 121 is provided on the top by sucking the air from the outside.

The plasma using humidifier 100 according to the first embodiment of the present invention may further include a main body 160 and a water tank 170.

The main body 160 is installed on the ground and forms an appearance, and the electrode tank 110 and the duct part 120 are provided inside. As in the present embodiment, the main body 160 is provided with a seating portion 161 at an upper portion thereof so that the water tank 170 is detachably seated as an example, and as another example, the water tank 170 may be provided to be integrated. .

The water tank 170 is provided to supply water to each of the electrode tank 110 to the main body 160, the cover 172 for opening and closing may be provided in the water supply port formed at the top for the supply of water. In addition, the water tank 170 may have a manner of supplying water by the weight of water as in the present embodiment, in which case the drip tray 162 is provided on the lower side of the water tank 170 in the body 160, the drip tray 162 The protrusion 163 is provided to protrude. Accordingly, the valve 171 provided on the bottom surface of the water tank 170 is pressed by the protrusion 163 so that water is intermittently supplied to the drip tray 162, and the water supplied to the drip tray 162 is connected to the drip tray 162. It is intermittently supplied to the electrode bath 110 through the inlet 112 formed to connect the electrode bath (110). On the other hand, the water tank 170 is another example, the operation of the pump is to control the water level of the electrode tank 110 to maintain a certain range by controlling the operation according to the signal of the water level sensor for measuring the water level of the electrode tank 110. The water stored inside by the pumping may be configured to be supplied to the electrode tank 110 side.

The plasma using humidifier 100 according to the first embodiment of the present invention may further include a communication module 182 and a control unit 181, and may further include a power supply unit 183.

The communication module 182 is provided inside the main body 160 to perform wireless communication with the external terminal 10, and wireless communication with the terminal 10 by various communication methods including Wi-Fi, 3G, LTE, and the like. Can be done. In this case, the terminal 10 may be used, for example, an information processing and communication device for performing installation and driving and communication with a predetermined application for controlling the operation of the humidifier using a plasma according to the present invention, including a smartphone or a tablet PC. . The terminal 10 may control not only the on / off of the plasma using humidifier 100 but also the intensity or blowing power of the plasma as an operation signal.

The control unit 181 is provided in the main body 160, the on (on) / off (off) and supply voltage strength of the voltage supply unit 150 in accordance with the operation signal received from the terminal 10 through the communication module 182. The adjustment, the on / off of the blower fan 122 and the speed of the fan can be controlled. Meanwhile, the controller 181 receives an operation signal of an operation unit (not shown) provided to be exposed to the main body 160, and turns on / off and supply of the voltage supply unit 150 to correspond to the operation signal. The voltage intensity control, the on / off of the blower fan 122 and the speed of the fan can be controlled.

The power supply unit 183 receives an external power supply through a power line and supplies the power supply unit 150 with power for generating voltage, as well as a blower fan 122 and a controller 181. Supply power for operation.

2 is a cross-sectional view showing a plasma using humidifier according to a second embodiment of the present invention.

2, the plasma using humidifier 200 according to the second embodiment of the present invention may include electrode baths 210 and 220, capillary electrodes 240 and 250, a voltage supply unit 260, and a duct unit 230. There is a pair of electrode bath (210,220) and capillary tube (240,250) in the pair, they are made of a single and the plasma using the humidifier according to the first embodiment of the present invention having an additional electrode 140 ( 100). Therefore, the configuration of the plasma-use humidifier 200 according to the second embodiment of the present invention will be described based on the difference of the configuration of the plasma-use humidifier 100 according to the first embodiment of the present invention, and the same parts will be briefly described. It can be explained or omitted.

The electrode tanks 210 and 220 are each stored with water, and formed in a pair to insulate each other. For example, the electrode tanks 210 and 220 may be divided to be insulated from each other by an insulating material 201.

The capillary electrodes 240 and 250 are installed to move the water of each of the electrode tanks 210 and 220 upwards by capillary action, respectively, and the upper ends are installed to face each other, and the meaning of “facing each other” is the upper end. Not only does not mean that the hollow to be opened to face each other, as well as the concept is also included that is installed so that the sides of the upper side facing each other. For example, the capillary electrodes 240 and 250 may be formed perpendicular to each of the electrode tanks 210 and 220, as shown in the present embodiment, and thus, the curvature parts 241 and 251 may be formed to have upper ends facing each other, respectively, by the fixing parts 242 and 252. It may be formed on the upper side of the electrode tank (210, 220), respectively. Here, the capillary electrodes 240 and 250 may have, for example, an outer diameter of 0.5 to 1.5 mm and an inner diameter of 0.2 to 1 mm. In addition, the separation distance of the capillary electrodes 240 and 250 may be, for example, 0.5 ~ 2 cm.

The voltage supply unit 260 receives power and applies voltage to each of the electrode tanks 210 and 220 to generate a plasma between the upper ends of the capillary tubes 240 and 250, thereby being supplied through the capillary tubes 240 and 250. Water causes water vapor to be generated, as described in the voltage supply unit 150 of the previous embodiment. Meanwhile, the electrode tanks 210 and 220 may be provided with conductors 211 and 221, respectively, on the inner surface of the electrode tanks 210 and 220, and the voltage supply unit 260 may supply a supply line 261 to each of the conductors 211 and 221 for voltage supply. ) Is connected.

Duct portion 230 is provided to be integrally or coupled to the upper side of the electrode tank (210, 220), to discharge the water vapor generated by the plasma to the outside through the discharge unit 231 by the blowing fan 232. do.

In the plasma using humidifier 200 according to the second embodiment of the present invention, the electrode tanks 210 and 220 and the duct 230 are provided with a main body 270 and the main body 270 with water in each of the electrode tanks 210 and 220. It may further include a water tank (280, 290) is installed to supply. The water tanks 280 and 290 may be provided with a cover 292 and 292 for opening and closing at a water supply opening formed at the top for supplying water, and detachable onto a pair of seating portions 271 provided in the main body 270, respectively. The lower valves 281 and 291 are pressed by the projections 273 formed on the drip tray 272 provided at the lower side thereof, so that the water inside the electrode is connected to the drip tray 272 and the inlets 212 and 222. Can be supplied to each of the tanks (210, 220). As another example of the water tanks 280 and 290, the water supply method by the pump, the integrated structure, and the like have been described above.

The plasma using humidifier 200 according to the second embodiment of the present invention is provided with a communication module 302 provided to perform wireless communication with an external terminal such as Wi-Fi, 3G, LTE, and the communication module 302. And a control unit 301 for controlling the voltage supply unit 260 and the blowing fan 232 according to an operation signal received from the terminal 10 and an operation signal of an operation unit (not shown) provided outside the main body 270. In addition, it may further include a power supply unit 303 to receive power from the outside to supply the power required for the configuration required for operation.

According to the present invention, by generating the water vapor using the plasma, it is possible to completely sterilize the water vapor, thereby enabling the provision of hygienic water vapor.

In addition, according to the present invention, in addition to hygienic steam supply, it is possible to excellent in the removal and disinfection effect of various harmful bacteria also to the air blown.

In addition, according to the present invention, it is possible to provide a cleaning function by removing dust contained in the air to be blown by the plasma.

In addition, according to the present invention, it is possible to conveniently control the on (on) / off (off) and the intensity of the operation from a remote by a terminal such as a smartphone or tablet PC.

As described above with reference to the accompanying drawings, the present invention, of course, various modifications and variations can be made within the scope without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

10: terminal 110,210,220: electrode tank
111,211,221: conductor 112,212,222: inlet
120,230: duct part 121,231: discharge part
122,232: Blowing fan 130,240,250: Capillary electrode tube
131,241,251: curvature 132,242,252: fixed part
140: electrode 150,260: voltage supply unit
151,261: Supply line 160,270: Main body
161,271: Mounting part 162,272: Drip tray
163,273: projection 170,280,290: water tank
171,281,291 Valve 172,282,292 Cover
181,301 control unit 182,302 communication module
183,303: power supply 201: separator

Claims (5)

An electrode bath in which water is stored;
A capillary electrode tube installed to move the water in the electrode tank upward by a capillary phenomenon;
An electrode disposed to face an upper end of the capillary electrode tube;
A voltage is applied to the water of the electrode bath and the electrode by receiving power to generate a plasma between the upper end of the capillary tube and the electrode, so that the water supplied through the capillary tube generates steam. Supply unit; And
A duct part provided above the electrode bath and discharging water vapor generated by the plasma to the outside by a blowing fan;
Comprising, a plasma using humidifier. A pair of electrode baths in which water is stored and insulated from each other;
A pair of capillary electrode tubes installed to move the water of each of the electrode baths upwards by capillary action, the upper end facing each other;
A voltage supply unit which receives power and applies voltage to each of the electrode baths to generate a plasma between the upper ends of the capillary tubes, thereby generating water vapor through the capillary tubes; And
A duct part provided above the electrode bath and discharging water vapor generated by the plasma to the outside by a blowing fan;
Comprising, a plasma using humidifier. The method according to claim 1 or 2,
A main body in which the electrode bath is provided inside; And
A water tank provided to supply water to each of the electrode baths to the main body;
Further comprising, a plasma using humidifier. The method according to claim 1 or 2,
A communication module provided to perform wireless communication with an external terminal; And
A control unit controlling the voltage supply unit and the blowing fan according to an operation signal received from the terminal through the communication module;
Further comprising, a plasma using humidifier. The method according to claim 1 or 2,
The capillary tube,
Humidifier using a plasma is formed perpendicular to the electrode tank to form a curvature having a curvature at the top.

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