JP2858853B2 - humidifier - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (A) Industrial application field The present invention uses an atomizing means such as an ultrasonic type, a centrifugal spray type, and a pressure spray type to diffuse steam into a room and prevent drying. About.

(B) Conventional technology Conventionally, a drawback of this type of humidifier is that molds, germs and the like proliferate in water for spraying in the heater, that is, water stored in a water tank or a water supply tank. It is hygienic, and when spraying or humidifying, these microorganisms in the water are scattered, causing an infectious disease or the like. Regarding this point, the title of the book: Bactericidal and antifungal (Vol.16, No.9
1988, p405). Another problem is that the propagation of microorganisms causes dirt inside the humidifier water tank and the like, and adverse effects such as dust scattering due to spraying of inorganic substances such as calcium and magnesium contained in the water to some extent. Therefore, as disclosed in Japanese Utility Model Publication No. 61-33457, means for dissolving silver ion electrodes and the like by an electric current so that silver ions and the like having a disinfecting effect are contained in water is employed.
Bactericide to the constituent materials of the humidifier, such as
It has been proposed to sterilize various germs by means of mixing and applying a fungicide. But these measures are currently
It has not yet been put to practical use, and it is difficult to secure the effect and its sustainability. Even if the effect is obtained over time, there are problems such as deterioration and consumption. In addition, for dust and dirt, use of an ion exchange resin has been proposed as shown in Japanese Utility Model Publication No. 54-143 and Japanese Utility Model Publication No. 56-5553, but it is expensive and complicated. In addition, there are many problems because it is difficult to obtain a sufficient effect.

(C) Problems to be Solved by the Invention As described above, in an ultrasonic humidifier or the like, water stored in a water supply tank or a water tank is easily contaminated with microorganisms such as bacteria. Therefore, in order to prevent this, clean processing such as washing must always be performed. Also, if the water is left undisturbed, microorganisms will proliferate, so it is necessary to drain the water when the apparatus is stopped. However, in reality, care such as washing and draining is often not performed.

Further, these water tanks and water supply tanks that are contaminated by the adhesion of microorganisms and the like are difficult to clean and require a great deal of labor. Further, since they are structurally complicated, some parts are difficult to clean with brass or the like. In addition, water contains inorganic substances such as calcium and magnesium, which become white powder and adhere to the inside of the vessel in the form of a scale, or fly as dust when humidified.

The present invention solves these problems from the point of view that is significantly different from the above-mentioned conventional technology, and ensures that the humidifying water is sterilized, that there is no sanitation with no scattering of microorganisms, and that the inorganic components adhere to the water on the inner surface of the water tank. It is an object of the present invention to provide a humidifier which is prevented as much as possible to facilitate washing and removal thereof.

(D) Means for Solving the Problems In order to achieve the above object, the invention according to claim 1 is
A water tank provided with atomizing means such as an ultrasonic vibrator, a water supply tank for supplying water to the water tank, and a humidifier including the water tank and a humidifier body provided with the water supply tank, wherein the water tank or the water tank By disposing at least one pair of insoluble or highly corrosion-resistant electrodes in contact with water, and applying a DC component to the electrodes, electrolysis is performed and chlorine ions in the water are converted to chlorine, and chlorine is sustained in the water. The apparatus is provided with chlorine generating means to be generated and replenished, and current controlling means for controlling a current supply time to the electrode and a current supply interval thereof so as to obtain a desired chlorine concentration.

According to a second aspect of the present invention, there is provided a polarity switching circuit for switching the polarity of the current supplied to the electrodes at certain time intervals.

Furthermore, the invention according to claim 3 captures an electrode formed in a mesh shape, a punched hole shape, or the like, and a scale that deposits, adheres, and precipitates on this electrode before being guided to the atomizing means. It has a scale capturing means such as a filter.

(E) Operation If electrolysis is performed using a titanium electrode or the like coated with a noble metal, oxygen and chlorine are generated at the anode, and hydrogen is generated at the cathode. By the way, in general, water contains sulfate ion, nitrate ion, chlorine ion, sodium ion,
It contains soluble substances such as magnesium ions and calcium ions.

Thus chlorine generated here in which chloride ions in the water are converted by electrolysis, chlorine is immediately melted into water hypochlorite ions (ClO ^-) acts as a strong oxidizing agent in the form of decomposition of the organic substances , Precipitation and bactericidal action.

In addition, scale components made of inorganic substances such as magnesium and calcium are deposited and precipitated on the cathode. Therefore,
Since the germicidal action of chlorine suppresses the growth of microorganisms, the scattering of microorganisms is eliminated and problems such as infectious diseases are solved, and at the same time, contamination by microorganisms (molds, etc.) in the humidifier water tank is eliminated. In addition, organic substances and the like are oxidized and decomposed by strong oxidizing power of chlorine, and do not float and adhere to water. Further, since the scale component is deposited near the electrode, if it is removed here, it is also useful to prevent whitening of the portion exposed to the humidified steam without being scattered as dust.

(F) Example Hereinafter, an example of the present invention will be described with reference to the drawings.

FIG. 1 is a side sectional view schematically showing the structure of an ultrasonic humidifier according to the present invention. Reference numeral 1 denotes a humidifier main body, which has a water tank 2 formed therein and a water supply tank 4 which is detachably attached to the humidifier main body 1. At the lower bottom of the water tank 2, an ultrasonic vibrator 5 as an atomizing means is mounted. 6
Is a valve provided at the water supply port 7 of the water supply tank 4. When the water supply tank 4 is set on the humidifier main body 1, the valve 6 is pushed up by the projection 8 on the main body 1 side, the water supply port 7 is opened, and the water tank 2 is opened.
Water can be supplied. Reference numerals 9 and 9 denote a pair of insoluble or highly corrosion-resistant electrodes attached to the water supply tank 4 side of the water tank 2, for example, a ferrite electrode or a titanium electrode coated with a noble metal. In the embodiment, the water tank 2
, But may be provided in the water supply tank 4. or,
There is no problem in providing more than one pair. And this electrode
Power transformers (see FIG. 2) and rectifier circuits (not shown) arranged in the drive unit room 10 on the right side of the main body 1
Is connected, and a direct current flows between the electrodes 9, 9. Thereby, the water in the water tank 2 is electrolyzed. In other words, oxygen is generated on the anode and hydrogen is generated on the cathode, and these are released into the atmosphere. In addition, chlorine (Cl ₂ )
Occurs. This is because natural water generally contains some chlorine ions at all times, and the chlorine agent injected for disinfection is reduced in drinking water.
There are 〜 dozens of ppm of chloride ions. Therefore, by passing a direct current between the anode and the cathode immersed in the water, chlorine ions are oxidized at the anode and chlorine gas (Cl ₂ ) is generated. And this generated chlorine gas dissolves in water,
It produces hypochlorous acid (HClO) and has a bactericidal effect. A power cord 11 connects the power supply to an external power supply. The power supply unit has a voltage of several volts necessary for electrolysis as described above.
In addition to supplying a direct current of up to several tens of volts (rectifier circuit), switching the polarity of the electrode (preventing the scale from adhering to the electrode), setting the desired chlorine generation time (controlling the appropriate chlorine concentration), Energization (replenishment according to the degree of chlorine consumption over time),
Each circuit unit related to the detection (safety measures) of abnormalities such as overcurrent and overvoltage is included. Therefore, the above-described structure of the pair of electrode portions to which the DC voltage is applied for a predetermined period of time or with the energization interval appropriately adjusted forms chlorine generation means. Each of these circuits will be described later.

Numeral 12 is an atomizing chamber cover that has an atomizing nozzle 13 at the top and covers the upper part of the water tank 2 and constitutes the atomizing chamber 4. One side hanging wall 15 of the atomizing chamber 15 keeps a small distance from the inner surface 2 a of the water tank. To the position, and acts as a partition between the atomizing chamber 14 and the electrode housing 16 having the electrodes 9 and 9. Reference numeral 17 denotes a filter arranged in the vicinity of the gap along the hanging wall 15, and this filter 17 is for removing the scale generated near the electrodes 9, 9 by the electrolytic action. As a result, the scale component formed by the precipitation of inorganic substances such as calcium ions and magnesium ions contained in the water does not go to the atomization chamber 14 where the vibrator 5 is located, thereby preventing the generation of dust. Instead of the filter 17, by recessing the bottom surface 2a in the water tank 2 on the side of the electrode storage chamber 16 of the water tank 2, that is, in the vicinity of the electrode 9, 9, the scale may be collected there and removed. In addition, a scale portion may be prevented from going to the vibrator 5 by a bank-like object, a protrusion, or the like which is raised from the bottom surface 2a in the water tank in the vicinity. Further, by separately providing a tank having a detachable structure for removing the accumulated scale, it becomes easier to clean the scale.

In addition to the filter 17, the concave portion, the scale removing means such as a bank-shaped protrusion, etc., the electrode 9,9 to which the scale is attached, the shape of the mesh punch hole or the like, to increase the contact area with water, One method is to increase the volume to make it easier to collect scales and the like in water, thereby making scale removal more effective.

Next, FIG. 2 shows a basic block diagram of a power supply circuit for electrolysis. Reference numeral 20 denotes a power transformer, and reference numeral 21 denotes a timer for adjusting a power-on time (power-on time timer) and adjusting a power-on time interval (power-on time interval timer). Reference numeral 22 denotes a DC constant current power supply for maintaining a constant current value flowing through the electrodes 9 and 9, and 23
Is a polarity switching circuit for switching the polarity of the electrode at predetermined intervals to prevent scale adhesion to the electrode by continuous energization. Reference numeral 2 denotes a water tank in which a pair of electrodes 9 and 9 are arranged. here,
The DC constant current power supply 22 is for supplying a current of a fixed value or more necessary for stable generation of chlorine, and outputs a constant current. However, since the amount of chlorine generated differs depending on the water quality, the current value can be increased or decreased accordingly. In order to prevent scale adhesion to the electrodes, the polarity switching circuit 23 requires polarity switching in a shortest time set in advance in the case of continuous energization. It responds by switching over a much longer time than it does. Regarding the timer 21, the energization time timer adjusts the energization time according to the chlorine ion concentration of the water quality. Since the amount of generated chlorine is naturally proportional to the amount of electricity (current × time), a stable amount of chlorine is In order to obtain it, it is necessary to control the energization for a predetermined time, and it is necessary to adjust and set the appropriate energization time depending on the variation in water quality (chlorine ion concentration). The amount of chlorine can be adjusted by controlling the amount of electricity by changing the current value.

The next energization time interval timer is used to replenish the generated chlorine because it is consumed by reducing substances and escape to the atmosphere as time elapses, and is set to re-energize according to the degree of consumption . In addition, a safety device shall be provided to function to prevent overcurrent, overvoltage, and abnormal energization, and to check for circuit abnormalities. To ensure safety. In this case, when the water in the water tank 2 runs out, the water level is determined by detecting the change in the resistance value between the electrodes 9 and 9 so as to prevent the power from being supplied. A circuit to cut off the water tank 2
A notification circuit for notifying when the amount of water in the tank is low can be configured using the electrodes 9 and 9. In this way, the method of detecting the water level from the resistance value of the electrodes 9 and 9 provided for electrolysis with respect to the water level change eliminates the need to detect the water level with a proximity switch using a float or the like, simplifies the configuration, and increases the reliability of the detection operation. Can increase the quality.

Next, the operation of the above configuration will be described. A water supply tank 4 is set in the humidifier main body 1, and water is supplied to the water tank 2 through a water supply port 4 opened at the time of setting. When the humidifier is connected to a 100 V AC power supply and driven, the ultrasonic vibrator 5 vibrates, and the water in the water tank 2 becomes an aerosol having a particle diameter of several microns and is emitted from the spray nozzle 13. On the other hand, a direct current is applied to the electrodes 9 and 9 in the water tank 2 by the electrolysis power supply circuit of FIG. 2 to electrolyze the water therein. Then, since a small amount of chlorine ion (Cl ⁻ ) is present in the water in the water tank 2, the chlorine ion is oxidized at the anode to generate chlorine gas (Cl ₂ ).

2Cl ⁻ → Cl ₂ + 2e (1) At the same time, oxygen gas is generated from the anode and hydrogen gas is generated from the cathode, and these gases are released into the atmosphere.

By the way, the generated chlorine gas (Cl ₂ ) dissolves in water to produce hypochlorous acid (HClO), which has a bactericidal action in the form of free residual chlorine.

Cl ₂ + H ₂ O → HClO + HCl (2) This hypochlorous acid (HClO) further changes according to the following formula, and HClO → H ⁺ + ClO ⁻ (3) The state of hypochlorite ion (ClO ⁻ ) Become. Since this hypochlorite ion (ClO ⁻ ) has a very strong oxidizing power, the bacterium or dirt in the water is immediately oxidized, and the confidence is changed to chlorine ion. By this oxidation, a bactericidal action and a precipitation action for the scale are achieved. As a result, microbial contamination of the water in the water tank 2 is prevented, and the inorganic components dissolved in the water are deposited and removed. After the oxidation, the free residual chlorine is converted into chlorine ions.

Therefore, chlorine ions in water are converted into chlorine by electrolysis, and chlorine can be continuously generated so as to supplement the amount consumed in sterilization and the like, and chlorine in the water in the water tank 2 always remains. The growth of microorganisms is prevented.
Therefore, spraying in a state in which sterilization is contained in the aerosol is prevented, so that an infectious disease or the like is not caused, and the humidifier can be used in a sanitary manner.

The sterilizing effect of the residual chlorine can be better understood from the experimental results showing the relationship between the residual chlorine in the humidifier water tank 2 and the number of general bacteria contained in the atmosphere at the time of spraying in FIG. It should be noted that “Start” and “Replace” in the figure indicate immediately after the power is turned on or immediately after the water is replaced. That is, this measurement method is a method in which general bacteria sprayed for 1 minute in a humidified state are collected and measured, and the used water is retained in a water supply tank for one day or more. Using this water and actually confirming with the device of the present invention, if chlorine is not detected, a large amount of bacteria is released, but if chlorine is present, the number of bacteria is extremely reduced and disappears. It is clear that it is effective, and if there is residual chlorine of 0.2 ppm, general bacteria are not detected.

Timer 21 and DC constant current power supply
It goes without saying that the 22 is properly performed. In addition to the above-described effect of preventing microbial contamination, the following advantages are also produced. 1) Removal of calcium compounds by electrolysis.

The free residual chlorine has a strong oxidizing power, and exists in a state where inorganic components (calcium, magnesium, etc.) dissolved in water are precipitated on the electrode on the cathode side or precipitated near the electrode. Therefore, by removing them, the aerosol does not contain inorganic substances and is not scattered, so that the problem of dust can be solved.

2) Cleaning and cleaning of the humidifier becomes easy.

Due to the structure, there are many parts that are difficult to wash, and if water stays without chlorine such as algae,
The presence of chlorine suppresses the growth of algae. In addition, due to oxidation of organic matter such as dirt, there is no strong adhesion to the tank wall,
Easy cleaning is possible. The polarity switching circuit 23 is operated in order to prevent a good energization state from being lost due to the deposition of scale on the electrode by the action 1), and to prevent the chlorine generation from being adversely affected.

In addition, electrolysis, precipitation, and the deposited scale
It will be detected at 17 mag, so remove it from there. Furthermore, the scale can be easily removed by simply attaching and detaching the filter 17, and the washing can be easily performed. And
By making the electrode shape a mesh shape, punching hole shape or the like, the contact area with water becomes large, a larger amount of scale can be deposited, and the dust prevention effect can be further improved. By adopting an effective means, the effects of the above 1) and 2) can be further improved.

(G) Effects of the Invention As described above, according to the present invention, one or more pairs of insoluble or highly corrosion-resistant electrodes are arranged so as to come into contact with water in a water supply tank or a water tank, and a DC component is applied to the electrodes. ,
Performs electrolysis to convert chlorine ions in water to chlorine,
The water in the water tank or water tank is continuously replenished with chlorine and remains.

Therefore, the bactericidal action and oxidizing action of this chlorine prevent the growth of microorganisms, precipitate inorganic matter in the water, decompose and suspend the organic matter in the water, and disperse the microorganisms, which has been a common problem with conventional humidifiers. Problems such as infections, dust scattering, and contamination inside the humidifier tank can be solved at once. Moreover, the sterilizing ability of the humidifying water only needs to be adjusted to the chlorine concentration to maintain the sterilizing power by generating chlorine by electrolysis by energizing a pair of electrodes as necessary. Power consumption can be reduced and it is economical.

However, it can be configured by incorporating simple means of electrolysis into the humidifier, and it is possible to provide a humidifier that is more advantageous in terms of cost and structure than the conventional device.

[Brief description of the drawings]

FIG. 1 is a side sectional view of a main part of a humidifier according to the present invention provided with a chlorine generator by electrolysis, FIG. 2 is a basic block diagram of an electric circuit for performing electrolysis, and FIG. 3 is chlorine concentration and bacteria. FIG. 9 is a graph of measurement results showing the relationship with numbers. 1. Humidifier body 2. Water tank 4. Water tank 5.
…… atomization means, 9,9 …… electrodes, 17 …… filters, 20…
... Transformer, 21 ... Timer, 22 ... DC constant current power supply,
23 ... Polarity switching circuit.

Claims (3)

(57) [Claims] 1. A humidifier comprising: a water tank provided with atomizing means such as an ultrasonic vibrator; a water supply tank for supplying water to the water tank; and a humidifier body provided with the water tank and the water supply tank. At least one pair of insoluble or highly corrosion-resistant electrodes are placed in a tank or water tank so as to come into contact with water, and by applying a DC component to the electrodes, electrolysis is performed and chlorine ions in the water are converted into chlorine, and chlorine is converted. It is characterized by comprising chlorine generating means continuously generated and replenished in water, and a current control means for controlling a current supply time to the electrode and a power supply interval thereof so as to obtain a desired chlorine concentration. And humidifier. 2. A humidifier according to claim 1, further comprising a polarity switching circuit for switching the polarity of said electrodes at certain time intervals. 3. An electrode formed in a mesh shape, a punched hole shape or the like, and a scale capturing means such as a filter for capturing a scale that deposits, adheres and precipitates on the electrode before being guided to the atomizing means. 2. The method according to claim 1, wherein
The humidifier according to the above.