KR100745633B1 - Humidifier including elctrolytic sterilizer - Google Patents

Abstract

A humidifier with an electrolytic sterilizer is provided to obtain high and continuous sterilization effect by intermittent operation and simplify collecting and removing of scale. A humidifier includes an electrolytic sterilizer for sterilizing water supplied to an atomizer in response to power supply from a power supply unit. The power supply unit supplies power to the sterilizer when the atomizer is not in operation, wherein the power supply unit repeats power supplying and power blocking operations for reducing power consumption. The sterilizer includes a body serving as a path with a water inlet(110), a water outlet(120) and a scale discharge part(130), which is detachably mounted with a cap(134) to the scale discharge part for collecting scale generated by electrolysis. A negative polarity plate(210) and positive polarity plates(220) are mounted between the water inlet and the water outlet by a holder(300) and supplied with the power, so that the water passing through the water inlet and the water outlet is electrolyzed and generates oxidizing mixture for direct and indirect oxidizing reaction and sterilization of germs and bacteria contained in the water.

Description

Humidifier with Electrolytic Sterilizer {Humidifier including elctrolytic sterilizer}

1 is an exploded perspective view of an electrolytic sterilizer provided in the humidifier according to the present invention.

Figure 2 is a side view showing the mounting structure of the electrolytic sterilizer provided in the humidifier according to the present invention.

FIG. 3 is a plan view illustrating a top surface of the humidifier body housing illustrated in FIG. 2.

Figure 4 is a perspective view showing a coupling structure of the heater and the connection pipe to the electrolytic sterilization apparatus according to the present invention.

5 is a cross-sectional view showing a coupling structure of the heater and the connection pipe to the electrolytic sterilization apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: electrolytic sterilizer 20: heater

30: connector 40: main body

100: body 110: inlet

120: water discharge portion 130: scale discharge portion

134: cap 200: electrode plate

210: negative electrode plate 220: positive electrode plate

300: holder 400: electrode cover

500: unit cover

The present invention relates to a humidifier having an electrolytic sterilization apparatus, and more particularly, including an electrolytic means configured to generate an oxidative mixture as power is applied, so that the water supplied to the vibrator can be sterilized more effectively. A humidifier having an electrolytic sterilizer configured.

A conventional humidifier maintains a certain amount of water stored in an electrolytic cell. When water is stored in an enclosed space for a long time, there is a risk of primary contamination by microorganisms in the humidifier. When it comes out as a spray liquid through irrelevant, secondary pollution is caused by microorganisms and bacteria in the air.

Thus, when a conventional humidifier, which is already contaminated in an electrolytic cell of a humidifier or is likely to be contaminated by spraying, is used in a room, a hospital, or an inpatient room used by an infant with low disease resistance, the infant or patient breathes into contaminated air. There is a risk of harm to health. In addition, when the humidifier is used not only for indoor use for humidification, but also for farming for plant cultivation, or for breeding for livestock, there is a problem that may cause various diseases.

In order to solve the above problems, a humidifier equipped with a sterilization system has been devised in various forms. In the conventional humidifier sterilization system, an oxide is generated by applying power to a small platinum plated electrode or applying a diaphragm. It is a sterilization system that controls the bacteria by lowering the pH lower than ordinary water. However, the conventional sterilization system having such a structure is difficult to operate for a long time because a large amount of scale is generated, and the situation is not commercialized due to the problem that the problem and the sterilization power is not perfect. In addition, there is a problem that the price rise due to the PT electrode, high voltage operation, and also antibacterial activity has not been applied to the actual product.

In addition, the conventional humidifier sterilization system has a disadvantage in that it is difficult to maintain and repair because the scale is not easy to remove.

The present invention has been proposed to solve the above problems, it is possible to obtain a continuous and high sterilization effect even in the intermittent operation, to reduce the cost of the electrode, it is configured to the electrolytic sterilization device is configured to facilitate scale collection and removal It is an object to provide a humidifier having.

In order to achieve the above object, the present invention is provided with an atomization means for atomizing water, a water intake port for receiving water, and a water supply port for supplying water supplied from the water intake port to the atomization means main body; An electrolytic sterilizer configured to sterilize water supplied to the atomization means when power is applied; And a power supply device for applying power to the electrolytic sterilizer; And the power supply device is configured to apply power to the electrolytic sterilizer when the atomization means is in a stationary state.

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At this time, the power supply device is configured to repeat the power supply operation for supplying power to the electrolytic sterilizer and the power-off operation for interrupting the power supply to the electrolytic sterilizer.

The power supply device may be configured to add an operation of supplying power to the electrolytic sterilizer for a time set by a manufacturer or a user from the time point at which the operation of the atomization means is started.

The atomization means is applied to the vibrator to atomize the water by using ultrasonic vibration.

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The power supply device has a structure capable of inverting the negative electrode power to the positive electrode plate and applying the positive power to the negative electrode plate.

The humidifier according to the present invention may further include a heater mounted between the intake port and the electrolytic sterilizer.
On the other hand, the electrolytic sterilizer, the water inlet is formed on one side connected to the water inlet and the water outlet is connected to the water inlet is formed on the upper side and the body is formed with a scale discharge portion on the lower side, and the inlet so as to be parallel to each other Mounted between the outlet parts, the negative electrode plate and the positive electrode plate which generates an oxidative mixture by electrolyzing water between the inlet and outlet parts as the power is applied, combined with a structure that can be attached to and detached from the scale discharge part when electrolysis It may be configured to include a cap for collecting the scale generated.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of a humidifier having an electrolytic sterilizer according to the present invention.

1 is an exploded perspective view of an electrolytic sterilizer provided in the humidifier according to the present invention.

The electrolytic sterilizer 10 provided in the humidifier according to the present invention is an apparatus for sterilizing or extinguishing microorganisms remaining in water by generating an oxidative mixture in water through electrolysis. The negative electrode plate 210 and the positive electrode plate 220 By minimizing the spacing, it is possible to produce a sufficient amount of oxidizing mixture even at low voltages, and the TDS of the supplied water is high so that the scale can be collected even if scale is generated.

The electrolytic sterilizer 10 may be configured to further include components such as various filters, storage tanks, heating and cooling means, depending on the purpose. The components such as the filter, the storage tank, the heating and cooling means are applied to various types of sterilization systems in the prior art, and a detailed description thereof will be omitted.

As shown in Figure 1, the electrolytic sterilizer 10 provided in the humidifier according to the present invention, the water inlet 110 is formed on one side and the water outlet 120 is formed on the upper side and the scale discharge unit 130 on the lower side ) Is formed between the inlet unit 110 and the outlet unit 120 so as to be parallel to and spaced apart from the body 100 acting as a flow path, the power inlet unit 110 and the outlet unit ( The negative electrode plate 210 and the positive electrode plate 220, which generate an oxidative mixture by electrolyzing water passing through the 120, are combined with a detachable structure in the scale discharge unit 130 to collect scale generated during electrolysis. The cap 134 and the inside of the body 100 is configured to further include a holder 300 for fixing the position of the negative electrode plate 210 and the positive electrode plate 220. The water outlet side 120 is provided with a water outlet side O-ring 122 so that water is not discharged to the outside of the body 100, the discharge side O-ring 132 is provided on the scale discharge unit 130 side.

At this time, the negative electrode plate 210 and the positive electrode plate 220 are arranged side by side in the width direction along the flow direction of the water and the negative electrode terminal 212 and the positive electrode terminal 222 protruding to the outside of the body 100 are formed, respectively, The holder 300 is formed in a rectangular tube shape in which the vertical direction is opened, and the negative plate slot 310 and the positive plate slot 320 may be inserted in the direction parallel to the flow direction of water. It is formed on each of these sides. In addition, an electrode cover 400 is provided at a portion where the negative electrode plate slot 310 and the positive electrode plate slot 320 are formed, and the negative electrode terminal 212 and the positive electrode terminal 222 may pass through the electrode cover 400. The lock cathode terminal through hole 410 and the anode terminal through hole 420 are formed.

The body 100 is formed in a shape in which one side is open to facilitate the fastening of the negative electrode plate 210 and the positive electrode plate 220, wherein the water inside the body 100 through the open portion is the body 100. Unit cover 500 is further provided to cover the open portion so as not to flow out. In this case, like the electrode cover 400, through holes are formed in the unit cover 500 so that the negative electrode terminal 212 and the positive electrode terminal 222 can pass therethrough.

As described above, when the ends of the negative electrode terminal 212 and the positive electrode terminal 222 are configured to protrude to the outside of the body 100, the advantage of simplifying the wiring for applying power to the negative electrode plate 210 and the positive electrode plate 220 is simplified. have. In addition, since the negative electrode terminal 212 and the positive electrode terminal 222 are formed to have different vertical positions, that is, to have different vertical heights, the manufacturer does not have to worry about changing the coupling position of the negative electrode plate 210 and the positive electrode plate 220. The negative electrode plate 210 and the positive electrode plate 220 can be more easily assembled.

When power is applied to the negative electrode plate 210 and the positive electrode plate 220 and the electrolytic reaction of water located between the negative electrode plate 210 and the positive electrode plate 220 proceeds, the bacteria and microorganisms contained in the water are directly oxidized. Indirect oxidation and sterilization by various oxidative mixtures such as chlorine, ozone, OH radicals, and oxygen radicals generated in the anode plate 220 are simultaneously performed. As described above, since the method and the effect of sterilization using electrolysis are the same as the method and effect of the sterilization system mentioned above, a detailed description thereof will be omitted.

In order to effectively generate an oxidative mixture, a sufficient potential difference must be provided between the negative electrode plate 210 and the positive electrode plate 220. In this case, since the oxidation may proceed to the positive electrode plate 220 itself, the positive electrode plate 220 is made of platinum or Or coated with a platinum-based material. At this time, since the platinum-based metal is very expensive, the positive electrode plate 220 may be of a structure coated with ruthenium, a platinum group material having a bactericidal effect on the surface of the titanium plate relatively inexpensive than the platinum-based material.

In the case of manufacturing the electrode plate 200 by coating platinum on titanium, it has the advantages of good electrode durability and less risk of oxidation of titanium, while a large amount of gas is generated during electrolysis and less chlorine is generated and ozone than chlorine. There is a disadvantage that the amount of generation can be harmful to the human body. On the other hand, when coated with ruthenium, although the electrode durability is slightly lowered, there is an advantage that it is harmless to the human body. At this time, the oxidative mixture is generated in the positive electrode plate 220, so that the oxidative mixture can be generated more efficiently. In the electrolytic sterilizer 10, as shown in FIG. The negative electrode plate 210 is configured to be positioned at each.

In addition, the negative electrode plate 210 is relatively inexpensive and preferably made of a stainless steel alloy having corrosion resistance, and in order to reduce manufacturing costs, the relatively high price of the positive electrode plate 220 is located in the center and relatively on both left and right sides, respectively. An inexpensive negative electrode plate 210 may be located.

However, when the electrolytic sterilizer 10 is configured to have a structure capable of reversing, that is, when the cathode power is applied to the positive electrode plate 220 and the positive electrode power is applied to the negative electrode plate 210, the structure can be removed. In addition, both the negative electrode plate 210 and the positive electrode plate 220 may have a structure coated with ruthenium, a platinum group material having a sterilizing effect on the surface of the titanium plate.

In this embodiment, one cathode plate 210 is configured to be arranged between two anode plates 220, but the number of cathode plates 210 and anode plates 220 is not limited thereto, and the structure may be alternately arranged. It can be applied in various numbers depending on the selection.

In addition, the negative electrode plate 210 and the positive electrode plate 220 are arranged to have a spacing of 2 mm or less so as to effectively generate an oxidizing mixture even when a low voltage is applied, and preferably arranged at a spacing of 0.5 mm to 2 mm. . At this time, since the interval between the negative electrode plate 210 and the positive electrode plate 220 is set to be suitable for the humidifier, it can be freely changed depending on the size of each of the electrode plates (210, 220), the strength of the voltage supplied, the characteristics of the water supplied.

2 is a side view showing a mounting structure of the electrolytic sterilizer 10 provided in the humidifier according to the present invention, and FIG. 3 is a plan view showing the upper surface of the housing of the humidifier main body 40 shown in FIG.

Humidifier according to the present invention is equipped with an electrolytic sterilizer 10 shown in Figure 1 configured to sterilize the water supplied as the power is applied, as shown in Figures 2 and 3 A main body provided with an atomization means 46 for supplying water, a water intake port 42 for receiving water, and a water supply port 44 for supplying water supplied from the water intake port 42 to the atomization means 46. 40 and a power supply device (not shown) for applying power to the electrolytic sterilizer 10. At this time, the electrolytic sterilizer 10 is mounted so that the water inlet 110 is connected to the intake port 42 and the water outlet 120 is connected to the water supply port 44, the atomization means 46 It is configured to sterilize the water supplied.

The water intake port 42 and the water supply port 44 are formed to penetrate the upper surface of the main body 40 in the vertical direction, the atomization means 46 is disposed around the water supply port 44, the atomization means ( 46 is provided with a concave-shaped residence space 48 so that the water supplied from the water supply port 44 is a predetermined amount. The atomization means 46 may be applied as a vibrator for atomizing water by generating ultrasonic waves, and may be changed to any configuration as long as it is capable of atomizing water in addition to the vibrator.

At this time, when the atomization means 46 is applied to the vibrator, even if the oxidizing mixture is generated by the electrolytic sterilizer 10 is extinguished by the ultrasonic wave generated in the vibrator, the power supply device is the vibrator is in a stationary state Only when the electrostatic sterilizer 10 is preferably configured to apply power. In general, since water that stays in the vicinity of the vibrator for a long time is easily contaminated, even if the oxidizing mixture is generated only when the vibrator is at rest as described above, that is, in the state where the water around the vibrator remains, sufficient sterilization effect can be obtained. do.

In addition, in the case where the positive electrode plate 220 shown in FIG. 1 is coated with ruthenium, a high residual oxidative mixture such as chlorine is generated, so that the electrolytic sterilizer 10 does not need to be continuously operated. Therefore, the power supply device is configured to repeat the power supply operation for supplying power to the electrolytic sterilizer 10 and the power off operation for interrupting the power supply to the electrolytic sterilizer 10 so as to reduce power consumption. In this case, when the power supply period is too short or the power off period is too long, the oxidizing mixture is not sufficiently produced. When the power supply period is too long or the power off period is too short, power consumption increases. Preferably, the power supply period and the power-off period are set at an appropriate ratio. For example, when the electrolytic sterilizer 10 is applied to a humidifier as in the present embodiment, the power supply period is preferably set to 3 minutes to 120 minutes, and the power off period is set to 10 minutes to 180 minutes. . However, the power supply period and the power-off period are not limited to the above-mentioned time, and may be changed according to various conditions such as the water quality of the supplied water or the use environment.

In addition, when the power-off operation is being performed when the start point of the vibrator operation is performed, the vibrator may atomize the unsterilized water, so that the power supply device is constant from the start point of the operation of the atomization means 46. More specifically during the time, the operation of supplying power to the electrolytic sterilizer 10 for a time set by the manufacturer or the user may be configured to be added. That is, the time for which the power supply device supplies power to the electrolytic sterilizer 10 from the time point at which the operation of the atomization means 46 is started may be set by the manufacturer at the time of manufacture, or at the time of use by the user. It can also be adjusted.

At this time, if the time for supplying power to the electrolytic sterilizer 10 from the time when the operation of the vibrator is too short, the oxidizing mixture is not sufficiently generated, and the electrolytic sterilization device (from the time when the operation of the vibrator starts) If the time for supplying power to 10) is too long, the oxidative mixture disappears as mentioned above, and thus there is no meaning to produce the oxidative mixture. Therefore, the time for supplying power to the electrolytic sterilizer 10 from the time when the operation of the vibrator is preferably set to 3 minutes to 10 minutes. In addition, the time for supplying power to the electrolytic sterilizer 10 from the time when the operation of the vibrator may be adjusted according to various conditions such as the water quality and flow rate of the supplied water or the use environment.

The power supply device may be configured to have a structure capable of applying a negative power to the positive electrode plate 220 and applying a positive power to the negative electrode plate 210. When the reverse function is provided, the positive electrode plate 220 is provided. ) And the negative electrode plate 210 are both made of titanium coated with ruthenium. At this time, the power supply device performs a power supply operation for supplying power to the electrolytic sterilizer and a power cut operation for interrupting power supply to the electrolytic sterilizer at least once, respectively, and then perform the reverse function. Configured to repeat. That is, the power supply device can remove the scale generated during electrolysis by performing the reversing function one time between the power supply and the power interruption.

In addition, when the electrolytic sterilizing humidifier is applied to the humidifier as shown in Figures 2 and 3, the power supply is a voltage of less than 6 volts on the negative electrode plate 210 and the positive electrode plate 220 to enable proper operation to the humidifier. It is preferred to be configured to apply a current within 54 mA. However, the voltage value or the current value applied by the power supply device may also be changed according to various conditions such as the water quality, flow rate, or use environment of the supplied water.

In addition, the size of the negative electrode plate 210 and the positive electrode plate 220 is preferably set to a horizontal length of 10 to 20mm, a longitudinal length of 20 to 30mm, a thickness of 0.5 to 2mm. At this time, the negative electrode terminal 212 and the positive electrode terminal 222 is formed to the same thickness as the negative electrode plate 210 and the positive electrode plate 220, the length of the protruding out of the unit cover 500 is set to 2 to 3mm desirable.

In addition, the humidifier according to the present invention may further include a heater 20 for heating the supplied water, wherein the heater 20 is the intake port 42 and the so as to heat the water before the sterilization process It is preferable to be mounted between the electrolytic sterilizer 10, the heater 20 and the intake port 42 is connected by a separate connection pipe (30).

4 is a perspective view illustrating a coupling structure of the heater 20 and the connection pipe 30 to the electrolytic sterilizer 10, and FIG. 5 is a view of the heater 20 and the connection pipe 30 to the electrolytic sterilizer 10. It is sectional drawing which shows a coupling structure.

As shown in FIG. 4 and FIG. 5, the water supplied from the connecting pipe 30 is heated while passing through the heater 20, and then supplied to the electrolytic sterilizer 10, by the electrolytic sterilizer 10. The sterilized water is supplied to the atomization means 46 through the water outlet 120. In the electrolytic sterilizer 10, scale is generated during the electrolysis process. At this time, since the flow rate of water supplied to the electrolytic sterilizer 10 is not fast, the scale is collected by falling into the cap 134 by its own weight.

Since the cap 134 is coupled to the body 100 in a detachable structure, the user can easily remove the collected scale by separating the cap 134. In this embodiment, the cap 134 and the body 100 is coupled to the screw coupling structure, the coupling structure of the cap 134 and the body 100 is any structure if the user can be easily coupled and separated Can also be changed.

As mentioned above, although this invention was demonstrated in detail using the preferable embodiment, the scope of the present invention is not limited to a specific embodiment, Comprising: It should be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

Humidifier with an electrolytic sterilizer according to the present invention, it is possible to obtain a continuous and high sterilization effect even in the intermittent operation, lower the cost of the electrode, easy to collect and remove the scale, easy maintenance and repair have.

Claims (20)

The atomization means 46 for atomizing water, the water intake port 42 for receiving water, and the water supply port 44 for supplying the water supplied from the water intake port 42 to the atomization means 46. Main body 40 is provided; An electrolytic sterilizer (10) configured to sterilize water supplied to the atomization means (46) when power is applied; And A power supply device for applying power to the electrolytic sterilizer 10; Including; The power supply is humidifier, characterized in that configured to apply power to the electrolytic sterilizer (10) when the atomization means (46) is in a stopped state. The method of claim 1, The power supply device, the humidifier, characterized in that configured to repeat the power supply operation for supplying power to the electrolytic sterilizer (10) and the power-off operation for blocking the power supply to the electrolytic sterilizer (10). The method according to claim 1 or 2, The power supply device, characterized in that configured to add an operation for supplying power to the electrolytic sterilizer (10) for a time set by the manufacturer or the user from the time the operation of the atomization means (46) is added. The method according to claim 1 or 2, The atomizing means 46 is a humidifier, characterized in that the vibrator to atomize the water by using ultrasonic vibration. The method according to claim 1 or 2, The power supply device, the humidifier characterized in that it is configured in a structure capable of applying a negative power to the positive electrode plate 220 and a reverse function for applying the positive power to the negative electrode plate (210). The method of claim 5, The power supply device performs an inversion function after at least one power supply operation for supplying power to the electrolytic sterilizer and a power cut operation for interrupting power supply to the electrolytic sterilizer. A humidifier, characterized in that configured to repeat. The method of claim 1, Humidifier, characterized in that it further comprises a heater (20) mounted between the intake port (42) and the electrolytic sterilizer (10). The method according to claim 1 or 2, The electrolytic sterilizer 10, An inlet 110 connected to the intake port 42 is formed at one side, and a water outlet 120 connected to the water inlet 44 is formed at an upper side thereof, and a body at which a scale discharge unit 130 is formed at a lower side thereof. 100), It is mounted between the inlet unit 110 and the outlet unit 120 so as to be parallel and spaced apart from each other, and the oxidative mixture is obtained by electrolyzing water between the inlet unit 110 and the outlet unit 120 as power is applied. The negative electrode plate 210 and the positive electrode plate 220 to generate, Humidifier, characterized in that it comprises a cap (134) coupled to the scale discharge unit 130 in a removable structure to collect the scale generated during electrolysis. The method of claim 8, The positive electrode plate 220 is a humidifier, characterized in that the coating with a platinum-based material. The method of claim 8, The positive electrode plate 220 is a humidifier, characterized in that made of titanium coated with ruthenium. The method of claim 8, The negative electrode plate 210 is made of stainless steel alloy or humidifier, characterized in that made of titanium coated with ruthenium. The method of claim 8, At least one of the negative electrode plate 210 and the positive electrode plate 220 is provided with two or more, and the negative electrode plate 210 and the positive electrode plate 220 is a humidifier, characterized in that arranged to alternate with each other. The method of claim 8, Humidifier, characterized in that the interval between the negative plate 210 and the positive plate 220 is 0.5 to 2mm. The method of claim 8, Humidifier, characterized in that the arrangement of the negative electrode plate 210 and the positive electrode plate 220 is configured so that the positive electrode plate 220 is located on both sides of the outside. The method of claim 8, The negative electrode plate 210 is extended to one side in the width direction to form a negative electrode terminal 212 protruding to the outside of the body 100, The positive electrode 220 is a humidifier, characterized in that the positive electrode terminal 222 is extended to one side in the width direction protruding to the outside of the body (100) is formed. The method of claim 8, Humidifier, characterized in that the negative terminal (212) and the positive terminal (222) is formed to have a different vertical height. The method of claim 8, Humidifier, characterized in that it further comprises a holder (300) mounted inside the body (100) to fix the positions of the negative electrode plate (210) and the positive electrode plate (220). The method of claim 17, The holder 300 is a humidifier, characterized in that the negative electrode plate 210 and the positive electrode plate 220, the negative plate slot 310 and the positive plate slot 320, which can be inserted in a direction parallel to the flow direction of water are formed, respectively. . delete delete

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