JP2012200534A - Mist generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mist generator capable of generating ultrasonic mist while agitating a mist generating liquid for generating ultrasonic mist with a liquid column.SOLUTION: The mist generator includes: a storage tank 1 in which the mist generating liquid 2 is stored; an ultrasonic transducer 3 disposed in the mist generating liquid; and a reflection plate 4 for reflecting the vibration energy outputted from the ultrasonic transducer 3 and ejecting the liquid columns 5 from the liquid surface of the mist generating liquid 2. In the mist generator, the distance between the reflection plate 4 and a falling position of the liquid column 5 is at least a half of the distance between inner surfaces of the storage tank 1 opposed to each other in the direction of ejecting the liquid column 5.

Description

  The present invention relates to a mist generating apparatus that performs skin care by supplying mist to a skin surface such as a face.

  As one type of mist generating device, there is one that generates a moist skin surface by releasing ultrasonic mist and supplying it to the skin surface. The ultrasonic mist is a microparticulated liquid that is caused to oscillate an ultrasonic vibrator in the mist generating liquid, so that the liquid column is raised from the surface of the generated liquid and discharged from the surface of the liquid column.

  In Patent Document 1, an ultrasonic vibrator is vibrated in an atomizing liquid, and vibration energy of the ultrasonic vibrator is reflected by a reflecting portion to generate a liquid column on the liquid surface. An atomizing device for generating mist is disclosed.

JP 2008-36394 A

  In the atomization apparatus disclosed in Patent Document 1, the liquid column rises in a substantially vertical direction from the liquid surface, so that the atomization liquid is difficult to be stirred. Accordingly, when the atomizing liquid is atomized without being heated, or when the detergent is mixed with the atomizing liquid, the atomizing liquid is difficult to stir, resulting in variations in the temperature of the atomizing mist and the detergent concentration. There is a problem.

  The objective of this invention is providing the mist production | generation apparatus which can produce | generate ultrasonic mist, stirring the production | generation liquid which produces | generates ultrasonic mist with a liquid column.

  In order to solve the above-described problems, a mist generating apparatus according to the present invention includes a storage tank that stores a product liquid, an ultrasonic vibrator disposed in the product liquid, and vibration energy output from the ultrasonic vibrator. A mist generating device comprising a reflecting plate that emits a liquid column from the liquid surface of the product liquid, wherein a distance between the reflecting plate and the falling position of the liquid column is determined in a discharge direction of the liquid column. It is characterized by being more than half of the distance of the inner surface of the opposing storage tank.

Moreover, in the said structure, it is preferable that the angle between the liquid column discharge | released from the said reflecting plate and the liquid level of the said produced | generated liquid is made into an acute angle.
In the above configuration, it is preferable that the reflecting plate is provided in the vicinity of one inner side surface of the opposing inner side surface and the liquid column is dropped on the other inner side surface.

Moreover, in the said structure, it is preferable to provide the heater which heats the said production | generation liquid in the side surface of the said storage tank in the position except the attachment position of the said ultrasonic transducer | vibrator and the said reflecting plate.
Moreover, in the said structure, it is preferable to make the bottom face of the said storage tank into the slope which makes the depth of the said production | generation liquid gradually deeper toward the attachment position of the said reflecting plate from the fall position of the said liquid column.

  Further, in the above configuration, it is preferable that an interval between the inner side surfaces of the storage tank facing each other in a direction orthogonal to the discharge direction of the liquid column is equal to the diameter of the liquid column.

  ADVANTAGE OF THE INVENTION According to this invention, the mist production | generation apparatus which can produce | generate ultrasonic mist can be provided, stirring the production | generation liquid which produces | generates ultrasonic mist with a liquid column.

It is the schematic which shows the mist generator of 1st embodiment. It is the schematic which shows the mist generator of 2nd embodiment. It is the schematic which shows the mist generator of 3rd embodiment. It is the schematic which shows the mist generator of 4th embodiment. It is the schematic which shows the mist generator of 5th embodiment.

(First embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. The mist generating apparatus shown in FIG. 1 generates mist to be supplied to the skin surface for performing skin care, and a generation liquid 2 for generating ultrasonic mist is stored in a storage tank 1. The product liquid 2 is heated to an appropriate temperature by a heater (not shown) provided in the storage tank 1.

  An ultrasonic transducer 3 is disposed on one side of the bottom surface of the storage tank 1. The ultrasonic transducer 3 is installed obliquely upward toward the inner side surface of the adjacent storage tank 1, and when the ultrasonic transducer 3 vibrates, the vibration energy is released toward the inner side surface.

  A reflection plate 4 is installed on the inner surface of the storage tank 1 from which the energy of the ultrasonic transducer 3 is released. The reflection plate 4 is installed to be inclined slightly diagonally downward toward the ultrasonic transducer 3.

  Then, the vibration energy of the ultrasonic transducer 3 is reflected obliquely upward by the reflector 4, and the generated liquid 2 is pushed up as a liquid column 5 based on the reflected vibration energy. Then, the surface wave generated on the surface of the liquid column 5 causes interference, and the energy acting so as to collide and tear off the liquid overcomes the surface tension of the liquid column 5 to pulverize the generated liquid into fine particles. By such an operation, the ultrasonic mist M is emitted from the surface of the liquid column 5.

  Further, the ultrasonic vibrator is arranged so that the sandwich angle α between the center of vibration energy radiated from the ultrasonic vibrator 3 and the center of vibration energy reflected and radiated by the reflector 4 is substantially perpendicular. 3 is set so that the vibration energy radiated from 3 enters the reflector 4 at an incident angle of approximately 45 degrees.

  As a result, the discharge direction of the liquid column 5 is discharged obliquely upward from the reflecting plate 4 in a state where the angle between the liquid column 5 and the liquid surface of the product liquid 2 is an acute angle, and the tip portion thereof descends in a parabolic shape. The liquid drops toward the liquid surface of the product liquid 2.

  The size of the storage tank 1 is such that the drop position of the liquid column 5 on the liquid surface is between the center C of the storage tank 1 and the inner surface 6 of the storage tank 1 facing the reflector 4. Is set. In other words, the size of the storage tank 1 is such that the distance between the reflecting plate 4 and the drop position of the liquid column 5 is more than half of the distance between the inner surface of the storage tank 1 on the reflection plate 4 mounting side and the other inner surface 6. It is formed to become.

  A blowing port 8 is provided on the inner surface 6 side of the top surface 7 of the storage tank 1, and a blowing fan 9 is provided in the vicinity of the blowing port 8. And by the action | operation of the fan 9 for ventilation, it blows toward the inside of the storage tank 1 from the storage tank 1 outside.

  A discharge port 10 is provided on the top surface 7 of the storage tank 1 on the reflecting plate 4 side. And the ultrasonic mist M which generate | occur | produced on the surface of the said liquid column 5 is discharge | released out of the storage tank 1 from the discharge port 10 with the wind sent from the said ventilation port 8. FIG.

Next, the operation of the mist generator configured as described above will be described.
When the ultrasonic vibrator 3 vibrates, the vibration energy is reflected by the reflecting plate 4 and the liquid column 5 is released obliquely upward, and the tip of the liquid column 5 descends in a parabolic shape, and the liquid of the product liquid 2 Fall toward the surface. The tip of the liquid column 5 falls between the center C of the storage tank 1 and the inner side surface 6.

The ultrasonic mist M generated on the surface of the liquid column 5 is discharged from the discharge port 10 by the wind sent from the blower port 8 into the storage tank 1.
In the mist generator as described above, the following effects can be obtained.
(1) The tip of the liquid column 5 falls toward the liquid surface of the product liquid 2 in the vicinity of the inner surface 6 that faces the inner surface to which the reflector 4 is attached. Then, since the convection which goes to the reflecting plate 4 from the fall position of a liquid column arises in the product liquid 2, the product liquid 2 is stirred moderately. Therefore, the temperature of the product liquid 2 and the concentration of the additive added to the product liquid 2 can be kept uniform, and the temperature and additive concentration of the ultrasonic mist M can be stabilized.
(2) To reduce the size of the storage tank 1 by positioning the inner surface 6 of the storage tank 1 in the vicinity of the drop position of the liquid column 5 and reducing the distance between the reflector 4 and the inner surface 6. Can do.
(Second embodiment)
FIG. 2 shows a second embodiment of the mist generator. The same components as those in the first embodiment will be described with the same reference numerals.

  In this embodiment, the liquid column 5 is configured to drop at a position in contact with the inner surface 6 facing the reflector 4. That is, the space | interval of the reflecting plate 4 and the inner surface 6 is further shortened from 1st embodiment. Other configurations are the same as those of the first embodiment.

In such a mist generator, the same effect as that of the first embodiment can be obtained, and the storage tank 1 can be further downsized.
(Third embodiment)
FIG. 3 shows a third embodiment. This embodiment shows the case where ultrasonic mist and steam mist are produced | generated with the production | generation liquid 2 in the storage tank 1. FIG. The same components as those in the second embodiment will be described with the same reference numerals.

As shown in FIG. 3, a heater 11 is attached to the side surface of the storage tank 1, and the product liquid 2 is heated and boiled by the heater 11 to generate steam mist.
The heater 11 is attached to the side surface of the storage tank 1 at a position excluding the vicinity of the ultrasonic transducer 3 and the reflection plate 4. Other configurations are the same as those of the second embodiment.

With such a configuration, the ultrasonic mist M and the steam mist are generated and mixed in the storage tank 1, and the mixed mist is discharged from the discharge port 10.
In the mist generator configured in this way, the same effect as in the second embodiment can be obtained. In addition, the heater 11 is not provided in the vicinity of the reflecting plate 4 from which the liquid column 5 is discharged from the liquid surface, so that the product liquid 2 in the vicinity of the reflecting plate 4 does not boil, and the fluctuation of the generated liquid 2 and the liquid level are reduced. Shake is suppressed. Therefore, it is possible to generate the stable liquid column 5 and stably generate the ultrasonic mist M.
(Fourth embodiment)
FIG. 4 shows a fourth embodiment. In this embodiment, the bottom surface of the storage tank 1 is inclined in order to further promote the stirring of the product liquid 2 in the storage tank 1. The same components as those in the second embodiment will be described with the same reference numerals.

  As shown in FIG. 4, the bottom surface 12 of the storage tank 1 is formed on an inclined surface in which the depth of the product liquid 2 gradually increases from the inner surface 6 side toward the attachment position of the ultrasonic transducer 3 and the reflection plate 4. The ultrasonic transducer 3 is formed so that the mounting position is deepest. Other configurations are the same as those of the second embodiment.

With such a configuration, the tip of the liquid column 5 hits the inner side surface 6, and then is guided to the bottom surface 12 to the position where the ultrasonic transducer 3 and the reflection plate 4 are attached. Therefore, the stirring effect of the product liquid 2 can be further improved as compared to the second embodiment.
(Fifth embodiment)
FIG. 5 shows a fifth embodiment. In this embodiment, the front-rear width of the storage tank 1 of the fourth embodiment is reduced to further reduce the size. The same components as those in the fourth embodiment will be described with the same reference numerals.

  FIG. 5 shows a plan view of the storage tank 1 of this embodiment, and the shape of the storage tank 1 from the front direction is the same as FIG. In the upper part of the storage tank 1, the interval W between the inner side surfaces 13a, 13b in the front-rear direction, that is, the interval between the inner side surfaces 13a, 13b in the direction orthogonal to the discharge direction of the liquid column 5 is substantially the same as the diameter of the liquid column 5. The liquid column 5 is discharged between the inner side surfaces 13 a and 13 b of the storage tank 1. Other configurations are the same as those of the fourth embodiment.

  With such a configuration, the storage tank 1 can be reduced in size in the front-rear direction compared to the fourth embodiment, and the liquid column 5 is disposed between the inner side surfaces 13a, 13b of the storage tank 1, It can be released without being inhibited by 13b.

You may implement the said embodiment in the following aspects.
In each embodiment other than the third embodiment, a steam mist generator may be provided in the storage tank.

  DESCRIPTION OF SYMBOLS 1 ... Storage tank, 2 ... Production | generation liquid, 3 ... Ultrasonic vibrator, 4 ... Reflecting plate, 5 ... Liquid column, 6 ... Inner side surface, 11 ... Heater, 12 ... Bottom surface, 13a, 13b ... Inner side surface.

Claims (6)

A storage tank storing the product liquid;
An ultrasonic transducer disposed in the product liquid;
In a mist generating apparatus provided with a reflecting plate that reflects vibration energy output from the ultrasonic vibrator and discharges a liquid column from the liquid surface of the generated liquid,
The mist generating apparatus characterized in that the distance between the reflecting plate and the position where the liquid column falls is at least half the distance of the inner surface of the storage tank facing in the discharge direction of the liquid column. The mist generating apparatus according to claim 1,
An mist generating apparatus characterized in that an angle between a liquid column discharged from the reflecting plate and a liquid surface of the generated liquid is an acute angle. In the mist generating device according to claim 1 or 2,
The mist generator according to claim 1, wherein the reflection plate is provided in the vicinity of one inner surface of the opposed inner surfaces, and the liquid column is dropped onto the other inner surface. In the mist generating device according to any one of claims 1 to 3,
The mist generator characterized by providing the heater which heats the said production | generation liquid in the side surface of the said storage tank in the position except the attachment position of the said ultrasonic vibrator and the said reflecting plate. In the mist generating device according to any one of claims 1 to 4,
The mist generating apparatus according to claim 1, wherein the bottom surface of the storage tank is a slope that gradually increases the depth of the generated liquid from a position where the liquid column falls to a position where the reflector is attached. In the mist generating device according to any one of claims 1 to 5,
The mist generating apparatus characterized in that the interval between the inner side surfaces of the storage tank facing each other in a direction orthogonal to the liquid column discharge direction is made equal to the diameter of the liquid column.

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