JP2000140728A - Ultrasonically vibrated water generation, ultrasonically vibrated water supply apparatus and air purifier utilizing ultrasonically vibrated water - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for generating ultrasonically vibrated water for washing off dust, an offensive smell or bacteria together with water and activating the functions of respective organs of the body and effective for sedating an autonomic nerve, an ultrasonically vibrated water supply apparatus and an air purifier utilizing ultrasonically vibrated water. SOLUTION: In an ultrasonically vibrated water generating method, at first, electric vibration is generated by an oscillation circuit 114. This electric vibration of ultrasonic frequency is applied to an ultrasonic vibrator 115 to generate ultrasonic vibration. Thereafter, the ultrasonic vibration of the ultrasonic vibrator 115 is magnified in its amplitude while transmitted to the leading end part of a vibration magnifying horn 119. Water controlled in supply quantity is allowed to fall to the leading end part of the vibration magnifying horn 119 while rotated along the surface of a funnel part having an almost inverted conical inclined surface. The water falling to the vibration magnifying horn 119 receives energy directly from the vibration magnifying horn 119 to become ultrasonically vibrated water.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultrasonic vibration water obtained by converting water into fine water droplets, thereby removing dust, odor, bacteria, etc., and negative ions generated when water is formed into fine water droplets. Thus, an ultrasonic vibration water generating method, an ultrasonic vibration water supply device, and an air purifying device using ultrasonic vibration water, which are effective for allowing each organ of the body to work normally, soothing the autonomic nervous system, promoting growth in animals and plants, etc. It is about.

[0002] The ultrasonic vibration water obtained by the ultrasonic vibration water generation method and the ultrasonic vibration water supply apparatus of the present invention is used for air cleaning equipment, domestic drinking water, kitchen cleaning water, shower water, bathroom and laundry. It can be used as wash water for toilets, toilet wash water, garden and agricultural spray water, medical wash water, medical disinfectant water, fertilizer and chemical spray water.

[0003]

2. Description of the Related Art A method and an apparatus for generating negative ions utilizing the Leonard effect or the Simpson effect are described in detail in, for example, Japanese Patent Application Laid-Open No. 4-141179. In addition, a method and apparatus for generating negative ions utilizing the Leonard effect or the Simpson effect are disclosed in Japanese Patent Publication No. 62-57895 and Japanese Patent Publication No. 1-546.
No. 14, Japanese Patent Publication No. Hei 3-9376, Japanese Patent Publication No. Hei 3-2
No. 1831, Japanese Patent Publication No. 5-58755, and Japanese Patent Publication No. 7-64719.

[0004] The negative ion generator utilizing the Leonard effect or the Simpson effect not only removes small particles of dust, smell, bacteria and the like, but also provides a good effect on human bodies, animals and plants. The invention described in each of the above publications is composed of a gas-liquid contact unit that makes water into fine water droplets and makes contact with air, and a gas-liquid separation unit that consists of a cyclone that uses centrifugal force generated by the turning of a high-pressure airflow, It was large, and the place where it was installed like a large building such as a hospital or a factory was limited.

[0005] In addition, there has been an ultrasonic humidifier that applies energy of an ultrasonic vibrator to water to generate mist as a device for forming water into fine water droplets. Hereinafter, an example of generating mist by ultrasonically vibrating water will be described. FIG. 5 is a block diagram for explaining a conventional ultrasonic humidifier using ultrasonic vibration. FIG. 6 is a diagram for explaining a specific configuration of a conventional ultrasonic humidifier. In FIG. 5, the ultrasonic humidifier includes a power supply circuit 51, an oscillation circuit 52, an ultrasonic vibrator 53 for converting the electric vibration into ultrasonic vibration, a tank 54, a blowing unit 55, and an atomizing unit 56. And water is generated 57 as fog.

The ultrasonic humidifier shown in FIG. 5 will be specifically described with reference to FIG. In FIG. 6, the ultrasonic humidifier 61
Is composed of a tank 62, a mist generating section 63, a blowing section 64, a water tank 65, and a blowing path 66 for supplying the air from the blowing section 64 to the mist generating section 63. Tank 62
Is supplied to the water tank 65 by a valve 621, and the water level is kept constant. An ultrasonic vibrator 651 is attached to the bottom of the water tank 65. The air from the blowing unit 64 passes through the blowing path 66, climbs over the wall of the water tank 65, and pushes down the water surface of the water tank 65.

On the other hand, the water in the water tank 65 vibrates together with the water tank 65. The fog generator 63 provided on the upper part of the water tank 65 includes:
A resonance space is formed, fog is generated by the supply of air and resonance vibration, and the fog 654 is discharged from the narrow ejection port 653 to the outside.

[0008]

The above ultrasonic humidifier 61
The cavitation phenomenon occurs by directly applying the energy of the ultrasonic vibrator 651 to the water tank 65 and the fog generator 63 to generate fog. That is, in the above-described conventional ultrasonic humidifier 61, most of the ultrasonic vibration energy is spent for vibrating the water tank 65 and the mist generating unit 63, so that little energy is given to the water itself. Further, since the ultrasonic humidifier 61 directly vibrates the water tank 65 and the fog generator 63 by the ultrasonic vibrator 651, not only the energy efficiency is low but also the miniaturization is limited. Further, the water droplets discharged from the ultrasonic humidifier 61 have substantially the same amount of positive ions and negative ions, and it is difficult to extract only negative ions.

In order to solve the above problems, the present invention directly applies the energy of an ultrasonic vibrator to water itself, and efficiently generates ultrasonic vibrating water capable of forming water into fine water droplets. It is an object of the present invention to provide a method, an ultrasonic vibration water supply device, and an air cleaning device using ultrasonic vibration water. Further, since the present invention directly applies energy to water, an ultrasonic vibration water generation method, an ultrasonic vibration water supply device, and an ultrasonic vibration water according to the same principle as generating negative ions when falling from a waterfall and hitting a rock are generated. An object of the present invention is to provide an air cleaning device using sonic vibration water.

[0010]

(First invention) In the ultrasonic vibration water generating method of the present invention, the electric vibration generated by the oscillation circuit 114 is supplied to the ultrasonic vibrator 115 to generate the ultrasonic vibration. Thereafter, the amplitude of the ultrasonic vibration generated by the ultrasonic vibrator 115 is expanded by the vibration expansion horn 21, and the water whose supply amount is controlled is guided from the upper tangential direction of the funnel 24, and the guided water is While rotating the inner peripheral surface of the funnel part 24, it is guided below the funnel part 24,
A water film 27 is formed in the vicinity of the lower part of the funnel portion 24, and by contacting the tip of the vibration expansion horn 21 with the water film 27, ultrasonic vibration water in which water is converted into fine water droplets is generated. And

(2nd invention) The ultrasonic vibration water supply apparatus of the present invention comprises an electric oscillation circuit 114 and the electric oscillation circuit 1 described above.
An ultrasonic vibrator 115 to which the electric vibration generated by 14 is applied, a vibration expanding horn 21 for expanding the vibration of the ultrasonic vibrator 115, and a water introduction port 2 provided in an upper tangential direction
A substantially inverted conical funnel 24 having a 5 and a water pipe for supplying a controlled amount of water to a water inlet 25 of the funnel 24;
And a tip portion 215 of the vibration magnifying horn 21 disposed in the vicinity of the lower portion of the funnel portion 24, and supplies ultrasonic vibration water in which water is converted into fine water droplets.

(Third invention) In the ultrasonic vibration water supply apparatus of the present invention, a horizontal surface 241 is provided at the end of the inclined surface of the funnel 24.

(Fourth Invention) In the ultrasonic vibration water supply apparatus of the present invention, the vibration magnifying horn 21 is attached to a vibrating node and its tip 215 is separated from the lower part of the funnel 24. It is characterized by being arranged.

(Fifth invention) In the ultrasonic vibration water supply apparatus of the present invention, the tip 215 of the vibration magnifying horn 21 is provided.
Is a vibration antinode, and is arranged so as to be flush with a horizontal surface 241 formed at the end of the inclined surface in the funnel portion 24.

(Sixth invention) The ultrasonic vibration water supply apparatus of the present invention is characterized in that water is supplied by being pressurized by a pump.

(Seventh invention) The funnel portion 24 in the ultrasonic vibration water supply apparatus of the present invention is provided with a spiral groove 32 so that water rotates along the inner surface of the substantially inverted conical slope. Features.

(Eighth Invention) The ultrasonic vibration water in the ultrasonic vibration water supply device of the present invention is characterized in that it contains normal water droplets and fine water droplets of 1 μm or less.

(Ninth Invention) Ultrasonic vibration water in the ultrasonic vibration water supply device of the present invention emits negative ions out of positive and negative ions, and the number of negative ions is 1000 / cm.
It is characterized by being ³ or more.

(Tenth invention) An air purifying apparatus using ultrasonic vibration water according to the present invention is characterized in that an air blower is brought into contact with the ultrasonic vibration water and air collected by the air blower to form an air filter. A gas-liquid contact part for removing dust, smell, bacteria, etc.,
A gas-liquid separation unit for separating water droplets contained in air at the gas-liquid contact unit, and a water supply device for using the water droplets separated by the gas-liquid separation unit for ultrasonic vibration water, And

[0020]

BEST MODE FOR CARRYING OUT THE INVENTION (First Invention) The ultrasonic vibration water generating method of the first invention generates an electric vibration by an oscillation circuit. Then, the ultra-high frequency electric vibration is applied to an ultrasonic vibrator which is a piezoelectric element mainly composed of, for example, lead zirconate titanate (PbZrO ₃ , PbTiO ₃ ), thereby generating ultrasonic vibration. Thereafter, the amplitude of the ultrasonic vibration of the ultrasonic vibrator is expanded while being transmitted to the tip of the vibration expansion horn. That is, the tip of the vibration expansion horn has the largest amplitude of vibration.

On the other hand, the water whose supply amount is controlled is guided from the tangential direction at the upper part of the funnel having a substantially inverted conical slope. The guided water is guided below the funnel while rotating along the inner peripheral surface of the substantially inverted conical inclined surface of the funnel, and a water film is formed near the lower portion of the funnel. The tip of the vibration expansion horn is arranged so as to contact the water film. Water that has come into contact with the tip of the vibration expanding horn vibrates when energy is directly applied from the vibration expanding horn. As a result, water collides with each other by the above-mentioned energy, and the fine water droplet mixed air (having a particle diameter of about 10 cm) composed of fine water droplets charged to positive ions and oxygen ions of water molecules negatively charged around the fine water droplets. (1 μm or less) is generated and becomes ultrasonic vibration water in the form of fine water droplets, which is discharged above the funnel.

Ultrasonic vibration water, which is formed into fine water droplets by the energy directly obtained from the ultrasonic vibration of the vibration magnifying horn, becomes very small particles, and adheres to small particles such as dust, odor, or bacteria. Easy to wash off with water. The fine water droplets charged to the positive ions are easily attached to relatively large particles of water, and thus are washed away with water, but oxygen ions of negatively charged water molecules are released to the outside together with air. . In addition, the ultrasonic vibration water,
Because of the fine water droplets, it easily penetrates into the human body or animal and plant cells and has a good effect on the human body. Therefore, the ultrasonic vibration water of the present invention is most suitable for drinking water, disinfecting water, washing water, and sprinkling water.

(Second Invention) The ultrasonic vibration water supply device of the second invention is provided with a normal electric oscillation circuit, and can obtain electric high frequency vibration. The electric vibration generated by the electric oscillation circuit is applied to the ultrasonic vibrator,
It is converted into mechanical ultrasonic vibration. The amplitude of the vibration of the ultrasonic vibrator is expanded by the vibration expansion horn. In particular, the amplitude of the vibration of the vibration-enlarging horn increases as it goes to the tip.

On the other hand, a funnel having a substantially inverted conical inclined surface is provided with a water inlet in a tangential direction at an upper part thereof. The water whose amount has been controlled is supplied from the water guide pipe through the water guide port, and falls while rotating along the inner peripheral surface inclined in a substantially inverted conical shape, and falls into the lower part of the funnel part. A water film is formed. Also, the tip of the vibration expansion horn is
It is arranged so as to be in contact with the water film. At the tip of the vibration expansion horn, the energy of the controlled amount of water is directly applied to the energy of the ultrasonic vibrator, and the water molecules collide with each other. By this collision, water is converted into fine water droplets, and at the same time, positive ions and negative ions are generated.

As a result of the miniaturization, fine water droplets charged with positive ions adhere to small-particle dust, odor, or bacteria, and are washed away with water. Oxygen ions of water molecules negatively charged around fine water droplets charged to positive ions,
It is released from the positive ions and released to the outside to activate the human body, animals and plants, etc., as well as to stabilize mentally and to promote growth.

(Third Invention) A horizontal surface is provided at the end of the substantially inverted conical slope in the funnel portion of the third invention. On the horizontal plane provided at the end of the funnel, a film is formed by water that falls while drawing a circle along the inner surface of the substantially inverted conical slope. Therefore, the tip of the vibration expansion horn can efficiently transmit a large amount of vibration energy to water by contacting the water film.

(Fourth Invention) The vibration magnifying horn according to the fourth invention is mounted on the vibration node having the smallest amplitude. The tip of the vibration magnifying horn is arranged so as to be separated from the lower part of the funnel. Since the tip of the vibration expansion horn does not come into contact with anything other than the water film, the vibration energy is not attenuated by anything other than water.

(Fifth invention) The tip of the vibration-enlarging horn according to the fifth invention is a vibration antinode with the largest amplitude. The end of the substantially inverted conical inclined surface in the funnel portion is arranged so as to be flush with a horizontal plane formed at the tip of the vibration magnifying horn. Therefore, since the vibration of the vibration expanding horn is performed on the same surface as the water film, the vibration is efficiently vibrated.

(Sixth invention) In the sixth invention, water supplied to the funnel is pressurized by a pump. The pressurized water forms a film of water in the terminal horizontal plane while rotating along the generally inverted conical slope of the funnel. The film thickness of water can be adjusted by the amount of water supplied and the angle and length of the substantially inverted conical inclined surface.

(Seventh invention) The funnel part in the seventh invention is:
Since the substantially inverted conical slope is formed of a spiral groove, the supplied water falls while rotating along the substantially inverted conical slope. Then, water forms a water film by a horizontal plane at the end of the funnel portion.

(Eighth Invention) The ultrasonic vibration water in the eighth invention contains normal water droplets and fine water droplets of 1 μm or less. For example, the water supplied to the vibration expansion horn is vibrated and miniaturized by the energy of the ultrasonic vibrator. Since the water to be fined is often not 100%, ordinary water droplets are also included. The size of the finely divided water droplets often has a particle size of 1 μm or less. For example, particles such as dust, odor, and bacteria that are not removed by the filter are often 0.1 μm to 1 μm or less, but are reduced to dust, odor, bacteria, and the like having substantially the same size by the miniaturized water droplets of the present invention. Since they are easily attached, they can be washed away with water.

(Ninth Invention) The ultrasonic vibration water of the ninth invention is
Among the positive and negative ions, negative ions are emitted to the outside, and the number of negative ions in the negative ions is 1000 / cm ³ or more. The number of the negative ions was measured near the tip of the vibration expansion horn.

(Tenth Invention) In the air cleaning apparatus using ultrasonic vibration according to the tenth invention, first, air is blown in by a blower to make contact with ultrasonic vibration water at a gas-liquid contact portion. In the gas-liquid contact portion, air containing dust, odor, bacteria, and the like comes into contact with the ultrasonic vibration water, and the dust, odor, bacteria, and the like flow with the water. In addition, water becomes ultrasonic vibration water by contact of the water with the vibration expansion horn, and at this time, fine water droplets charged to positive ions and oxygen ions of water molecules negatively charged around the fine water droplets are generated I do. Next, the gas-liquid separation unit is, for example, a well-known one such as a cyclone,
A relatively heavy water droplet charged to a positive ion with a large particle diameter adheres to the wall surface while rotating and falls, and a large amount of air including negative ions having a relatively small particle diameter is released to the outside.

A tenth invention is directed to an air purifying device,
It not only removes odors and bacteria, but also produces a large amount of negative ions, which has a positive effect on the growth of the human body and other organisms, as well as on mental effects.

[0035]

FIG. 1 is a block diagram showing an outline of an ultrasonic vibration water supply apparatus according to a first embodiment of the present invention. In FIG. 1, the ultrasonic vibration water supply device of the present invention includes a power supply circuit 111, and is directly connected to a commercial power supply.
Alternatively, a battery from the charging circuit 112 charged by a commercial power supply can be used. The power of the power supply circuit 111 is applied to the oscillation circuit 114 after being boosted by the booster circuit 113. The ultrahigh frequency generated by the oscillation circuit 114 is applied to the ultrasonic vibrator 115 to generate ultrasonic vibration. The above ultrasonic transducer 1
The ultrasonic vibration generated by the vibration expansion horn 1
By 19, the amplitude is increased and the water is supplied to the tip of the vibration expansion horn 119, so that the energy of the ultrasonic vibration is directly transmitted to the water.

The ultrasonic vibrator 115 is made mainly of, for example, lead zirconate titanate (PbZrO ₃ , PbTiO ₃ ) or barium titanate (BaTiO ₃ ).
₃ ) and solid solutions of lead zirconate and lead titanate.
Further, the vibration expanding horn 119 is made of, for example, aluminum, copper, iron, titanium, other metals, and alloys thereof to generate positive ions for canceling negative ions generated when water is made into fine water droplets. Can be reduced. In particular, the material is preferably duralumin, brass, stainless steel, or the like. The booster circuit 113 is set to, for example, 300 V and 100 mA. The oscillation circuit 114
With the power supply of the booster circuit 113, for example, 60 kHz
An ultra-high frequency of about z was generated.

The control circuit 116 controls the booster circuit 113 and also controls the amount of water flowing out of the pump 117. The pump 117 is connected, for example, when the tap water is the water source 118 and it is desired to further increase the pressure, between the tap of the tap and the water supply means. The controlled amount of water is supplied to the distal end portion of the vibration expansion horn 119, and the energy of the ultrasonic vibrator 115 is directly transmitted to the water to generate 120 of ultrasonic vibration water. The amount of controlled water varies depending on the application of the ultrasonic vibration water, and there are cases where the amount of water is reduced and cases where the amount of water is actively increased.

The DC 5 V power supply 122 is stepped down from the power supply circuit 111 and converted into DC power to be used as a power supply for the CPU 121 and the display means 124. The operation unit 123 controls ON / OFF of the power supply circuit 111 and the amount of water, and controls the control circuit 116 together with the CPU 121. The display means 124 enables the CPU 121 to display the state of the ultrasonic vibration water supply device.

The ultrasonic vibration water supply device is provided with 300
Since a power of 100 mA is used at V, a safety circuit 125 can be provided. For example, safety circuit 1
When the abnormality is detected in the ultrasonic vibration water supply device 25, the power supply of the booster circuit 113 is immediately turned off. The above abnormalities enable detection of, for example, abnormal voltage, leakage power, dielectric breakdown voltage, and the like.

Since the ultrasonic vibration water 120 coming out of the vibration expansion horn 119 directly obtains vibration energy from the ultrasonic vibrator 115, the water is converted into fine water droplets, and fine water droplets charged to positive ions and the fine water droplets are formed. Fine droplet mixed air consisting of negatively charged water molecules and oxygen ions around the droplet is generated. Fine water droplets charged to positive ions are likely to adhere to small particles such as dust, odor, and bacteria. That is, the ultrasonic vibration water 120 is dust, smell,
Bacteria and the like can be removed. In addition, ultrasonic vibration water 12
Since 0 can efficiently receive the energy from the ultrasonic transducer 115, miniaturization is promoted, and it is ionized at that time. Fine water droplets charged to positive ions are washed away with dust, smell, bacteria, etc., and oxygen ions of negatively charged water molecules have a relatively small particle size,
It is easily released to the outside of the ultrasonic vibration water 120. The negative ions can activate humans, animals and plants, and stabilize mental action.

FIG. 2A is a front view for explaining the vibration expanding horn and a funnel for efficiently bringing the energy of the vibration expanding horn into contact with water, and FIG. 2B is a top view of the same. 2A and 2B, the vibration magnifying horn 21 includes a vibrator mounting portion 21 for mounting a vibrator.
2 and a small-diameter portion 21 connected to the vibrator mounting portion 212.
3, a large diameter portion 214 connected to the small diameter portion 213,
And a distal end 215 connected to the large diameter portion 214. The vibration magnifying horn 21 is attached to a housing (not shown) of the ultrasonic vibration water supply device by a mounting flange 216 provided at a vibration node between the small diameter portion 213 and the large diameter portion 214.

The end face 217 of the tip 215 of the vibration magnifying horn 21 is attached, for example, so as to face upward as shown in the figure. The end surface 217 of the vibration magnifying horn 21 has a funnel portion 24 having a substantially inverted conical inclined surface.
Are arranged with a gap at the end. The funnel portion 24 having the above-mentioned generally inverted conical inclined surface has a horizontal surface 24 at its end.
1 and is arranged so as to form the same plane as the end face 217 of the vibration magnifying horn 21.

In FIG. 2A, the vibration expanding horn 21
The amplitude displacement drawn together with the diagram explains the vibration state of the vibration magnifying horn 21. The amplitude of the belly 22
1, 222, 223, 224, and the amplitude node is 23
1, 232, 233. Therefore, the vibration expanding horn 21 is preferably mounted near the place where vibration is least, and is mounted via the mounting flange 216 near the node 232 of the amplitude. In addition, the amplitude of the vibration can be amplified by using the small-diameter portion 213, the large-diameter portion 214, and the small tip 215 of the vibration magnifying horn 21. The connection between the thick vibrator mounting part 212 and the small diameter part 213 and the connection between the large diameter part 214 and the tip part 215 are formed in a round shape. The resonance can be adjusted.

On the upper part of the funnel 24, a water pipe 251 is provided.
A water introduction port 25 is provided in the tangential direction via. For example, water controlled to an appropriate amount of water by a pump (not shown) is introduced from the water introduction port 25. The guided water falls downward while rotating along the substantially inverted conical inclined surface. The water that has been rotated and dropped downward forms a horizontal water film 27 when it collides with a horizontal surface 241 provided at the end of the funnel portion 24. In addition, funnel section 24
There is a gap between the opening 26 and the tip 215 of the vibration magnifying horn 21 so that the vibration energy of the tip 215 is not attenuated. Therefore, the vibration energy of the tip 215 of the vibration expanding horn 21 is transmitted to the water film 27 formed at the end of the funnel 24. The water to which the vibration energy has been transmitted collides with each other, is miniaturized, and is discharged upward as ultrasonic vibration water 29.

FIG. 3 is a top view for explaining a funnel according to another embodiment of the present invention. FIG. 4 is a partial sectional view of a funnel according to another embodiment of the present invention. 3 and 4, the funnel portion 31 is different from the funnel portion 24 shown in FIG. 2 in that a spiral groove 32 is provided on a substantially inverted conical inclined surface. Therefore, the water guided by the moderate pressure from the water introduction port 25 falls toward the opening 26 while rotating along the spiral groove 32. Since a horizontal surface 241 is provided at the lower part of the funnel portion 31 as in FIG. 2, the rotating water is transferred to the water film 27 (see FIG. 2A).
Becomes The water film 27 is formed on the end face 2 of the vibration magnifying horn 21.
Vibration energy is transmitted by contact with 17, and water droplets collide with each other and are miniaturized. The miniaturized ultrasonic vibration water 29 is discharged upward,
Fine water droplet mixed air containing many negative ions is generated.

When the vibration expansion horn 21 in this embodiment is used, the number of negative ions contained in the air mixed with fine water droplets is 30 as a result of using an ion counter manufactured by Kobe Denpa.
000 pieces / cm ^3, the positive ions at that time, was 5000 / cm ^3. And the size of ultrasonic vibration water is
Normal particles were also included, but there were many particles of 1 μm to 0.1 μm.

In the ultrasonic vibration water supply apparatus of the present invention, since water is formed into fine water droplets, dust, smell,
It is effective not only for removing bacteria and the like, but also for normal operation of each organ of the body, sedation of autonomic nerves, promotion of growth, and the like. In addition, negative ions generated from the ultrasonic vibration water supply device of the present invention dilate blood vessels, make blood alkaline, and stabilize blood pressure and blood sediment in a normal state.

The water injected from the ultrasonic vibration water supply device of the present invention is formed by negative ions generated when the water is miniaturized.
Serum (Ca, K) in blood, blood sugar level, blood clotting ability,
Normalize leukocytes, etc. Since the micronized water jetted from the ultrasonic vibration water supply device of the present invention contains negative ions, the function of the lungs and the heart is improved, and the function is stabilized or the fatigue is recovered. Further, the negative ions contained in the fine water particles ejected from the ultrasonic vibration water supply device of the present invention,
It has the effect of strengthening the bones or promoting diuretic action and resolution of constipation. Therefore, the ultrasonic vibration water supply device of the present invention can be applied to medical equipment in addition to cleaning water. In particular, the promotion of development applies not only to the human body but also to plants and animals.

The micronized water sprayed from the ultrasonic vibration water supply device of the present invention removes dust, odor, bacteria, etc.
It is most suitable as washing water in homes, hospitals, food stores, food manufacturing factories, etc. The micronized water jetted from the ultrasonic vibration water supply device of the present invention can be used as a shower or concentrated on a part of the body like acupressure, so that the autonomic nervousness can be reduced in addition to the acupressure effect. This is effective for relaxation, etc., and can prevent the occurrence of irritation. By adding a chemical to the micronized water jetted from the ultrasonic vibration water supply device of the present invention, it can be used for treating diseases or promoting plant cultivation.

Although the embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments. And
The present invention is capable of various design changes without departing from the scope of the claims. For example, although each component, material, and their mounting structure in this embodiment are not described in detail,
Well-known or known ones or means can be adopted. The blocks of the power supply, the oscillation circuit, the control circuit, and the like in this embodiment are not described in detail, but those conventionally used can be employed, and an abnormality alarm, a drain lamp, and the like can be added. Can be.

Further, the gas-liquid contact portion and the gas-liquid separation portion in the air purifying apparatus according to the embodiment of the present invention can be achieved by applying a known or known means. The shapes of the vibration magnifying horn and the funnel in this embodiment are merely examples, and various modifications are possible. For example, the generally inverted conical inclined surface of the funnel portion becomes an arc as it goes down, and can finally form a horizontal plane. Further, the inclined surface of the funnel may be substantially bowl-shaped in addition to the substantially inverted conical shape.

[0052]

According to the present invention, the vibration can be efficiently transmitted to the water by directly contacting the water film formed by the funnel portion with the small vibration expanding horn, and at the same time, the vibration can be increased by the high vibration frequency. The water can be made into fine water droplets.

According to the present invention, the micronized water is
Dust, smell, bacteria, etc. can be removed together with water,
Ideal for washing water.

According to the present invention, the micronized water is
By touching the human body and plants, etc., it is easy to enter the inside and is not only good for health and growth, but also effective mentally.

[Brief description of the drawings]

FIG. 1 is a block diagram schematically illustrating an ultrasonic vibration water supply device according to a first embodiment of the present invention.

FIG. 2A is a front view for explaining a vibration-enlarging horn and a funnel for efficiently bringing the energy of the vibration-enlarging horn into contact with water, and FIG. 2B is a top view of the same.

FIG. 3 is a top view illustrating a funnel according to another embodiment of the present invention.

FIG. 4 is a partial cross-sectional view of a funnel according to another embodiment of the present invention.

FIG. 5 is a block diagram for explaining a conventional ultrasonic humidifier using ultrasonic vibration.

FIG. 6 is a diagram illustrating a specific configuration of a conventional ultrasonic humidifier.

[Explanation of symbols]

 111 ... power supply circuit 112 ... charging circuit 113 ... boost circuit 114 ... oscillation circuit 115 ... ultrasonic vibrator 116 ... control circuit 117 ... pump 118 ... water source 119 21: Vibration magnifying horn 24: Funnel 25: Water inlet 26: Opening 27: Water film 28: Vortex 29: Ultrasonic vibration water

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B06B 3/02 B06B 3/02 5D107 F24F 6/12 101 F24F 6/12 101Z // C02F 1/36 C02F 1 / 36 F term (reference) 3L055 AA07 BB11 4C080 AA03 AA05 BB02 BB05 BB10 CC01 HH02 HH03 JJ01 KK03 LL02 MM01 QQ11 4D032 AC40 BA06 BB18 DA10 4D037 AA02 BA26 BB01 BB02 4D073 DD03AA03 DD03 DD033 DD034

Claims (10)

[Claims] 1. An ultrasonic vibration is generated by supplying an electric vibration generated by an oscillation circuit to an ultrasonic vibrator to generate an ultrasonic vibration, and then expanding the amplitude of the ultrasonic vibration generated by the ultrasonic vibrator by a vibration expansion horn. At the same time, the water whose supply is controlled is guided from the upper tangential direction of the funnel, and the guided water is guided down the funnel while rotating on the inner peripheral surface of the funnel, near the lower part of the funnel. An ultrasonic vibration water generating method comprising: generating an ultrasonic vibration water in which water is formed into fine water droplets by contacting a tip of the vibration expansion horn with the water film. 2. An electric oscillation circuit, an ultrasonic oscillator to which electric vibration generated by the electric oscillation circuit is applied, a vibration expansion horn for expanding vibration of the ultrasonic oscillator, and an upper tangential direction. A substantially inverted conical funnel having a water inlet provided therein, a water pipe for supplying a controlled amount of water to the water inlet of the funnel, and a tip of the vibration-enlarging horn disposed near a lower portion of the funnel. And an ultrasonic vibration water supply device configured to supply ultrasonic vibration water in which water is converted into fine water droplets. 3. The end of the inclined surface in the funnel part,
The ultrasonic vibration water supply device according to claim 2, further comprising a horizontal surface. 4. The ultrasonic vibration according to claim 2, wherein said vibration expansion horn is attached to a vibration node, and a distal end portion thereof is arranged so as to be separated from a lower portion of said funnel portion. Water supply device. 5. The vibration expanding horn according to claim 2, wherein a tip of the vibration magnifying horn is a vibration antinode, and is arranged so as to be flush with a horizontal plane formed at the end of the inclined surface in the funnel. Ultrasonic vibration water supply device. 6. The ultrasonic vibration water supply device according to claim 2, wherein the water is supplied under pressure by a pump. 7. The ultrasonic vibration water supply device according to claim 2, wherein the funnel portion is provided with a spiral groove so that water rotates along the inner surface of the substantially inverted conical inclined surface. . 8. The ultrasonic vibration water contains a normal water droplet and 1 μm.
3. The ultrasonic vibration water supply device according to claim 2, wherein the water contains fine water droplets of m or less. 9. The ultrasonic vibration water includes positive and negative ions,
Negative ions are emitted to the outside, and the number of the negative ions is 1000
^{3. The} ultrasonic vibration water supply device according to claim 2, wherein the number is not less than pieces / cm ³ . 10. A blower, a gas-liquid contact portion for bringing the ultrasonic vibration water into contact with air collected by the blower, and removing dust, odor, bacteria, etc. in the air; A gas-liquid separator for separating water droplets contained in the air at the contact portion; and a water supply device for using the water droplets separated by the gas-liquid separator for ultrasonic vibration water. An air cleaning device using sonic vibration water.