JPS6168159A - Ultrasonic atomizer - Google Patents

Abstract

PURPOSE:To prevent the leakage of liquid from a bottle by attaching the nozzle inserting port of the bottle to a water supply nozzle through a tube to secure the tightness between the water supply nozzle and the nozzle inserting port of the bottle. CONSTITUTION:A liquid is introduced into a phone atomizing part 18 from a bottle 16, and the liquid is atomized by the operation of an ultrasonic vibrator. In said ultrasonic atomizer, a water supply nozzle 17 having an extremely slender liquid supply groove 24 for supplying liquid into the atomizing part 18 from the bottle 16 and an external air introducing groove 25 for introducing external air into the bottle and a tube 23 for covering each groove 24 and 25 to be attached to the periphery of the water supply nozzle are provided. The water supply nozzle 17 attached with the tube 23 is tightly inserted into the nozzle inserting port 22 of the bottle 16 through the tube 23. Consequently, even if the contact surfaces of the nozzle inserting port 22 and the nozzle 17 are comparatively rough, the leakage of liquid is not caused, and the nozzle 17 can be easily taken out from or put into the bottle 16.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application This invention relates to an ultrasonic atomizer with a horn used for humidifying the upper respiratory tract, inhaling medicinal solutions, and the like.

(b) Conventional technology An ultrasonic atomizer includes a horn having a large diameter end and a small diameter end, an ultrasonic vibrator is provided at the large diameter end of the horn, and an atomization portion is formed at the small diameter end, Some devices introduce liquid from a bottle into this atomizing section and drive the liquid with an ultrasonic vibrator to atomize it. In order to guide liquid from the bottle to the horn in this type of ultrasonic atomizer, conventionally one end of the water absorption band, which has a wire structure that exhibits capillary action, is immersed in the liquid in the bottle, while the other end is immersed in the atomizing surface of the horn. was in contact with.

However, this water absorption band is left in a state containing water and liquid,
Disadvantages include the fact that it may emit a bad odor over time and is not clean, and the water absorbing band is wasteful because it is disposable, and highly viscous chemical solutions do not absorb water smoothly and have poor supply efficiency. was there. Therefore, in order to solve these problems, the inventors of this application separately introduced an ultrasonic atomizer that supplies the liquid from the bottle to the horn atomizing section using a water supply nozzle. We proposed and filed a separate application.

(c) Problems to be solved by the invention An ultrasonic atomizer using a water supply nozzle is provided with a nozzle insertion opening in a bottle, and a water supply nozzle is inserted into this nozzle insertion opening.
Liquid is supplied to the horn atomizer by the weight of the liquid from the bottle or by capillary action, but the water supply nozzle is often inserted and removed from the bottle for cleaning or replenishment of chemical solutions, and there is a risk of contact with the nozzle insertion port. If the water supply nozzle is not properly installed, there is a problem in that liquid leaks from the bottle through the contact area, and when the water supply nozzle is frequently inserted and removed, the contact area becomes loose. Therefore, if the water supply nozzle is directly inserted into the nozzle insertion opening of the bottle, the surface treatment of the water supply nozzle and the nozzle insertion opening of the bottle will require extremely precise processing, making the parts of the liquid supply part expensive. This invention solves the above-mentioned drawbacks, and eliminates the problem of liquid leakage even if the contact surface between the nozzle insertion opening of the bottle and the water supply nozzle is relatively rough. It is an object of the present invention to provide an ultrasonic atomizer that can be easily inserted and removed from a device and can be realized at a relatively low cost.

(d) Means and operation for solving the problems The ultrasonic atomizer of the present invention has an ultra-thin liquid supply groove that supplies liquid from the bottle to the horn atomizing section, and an outside air that introduces outside air into the bottle. A water supply nozzle having an inlet, and a tube attached around the water supply nozzle to cover each of the grooves, a nozzle insertion port for inserting the water supply nozzle into the water bottle, and a tube The water supply nozzle equipped with the water supply nozzle is tightly inserted into the nozzle insertion opening of the bottle via the tube. In this ultrasonic atomizer, the inner wall of the nozzle insertion port of the bottle and the water supply nozzle are inserted through a tube, so even if the surface of the nozzle insertion port and the inner wall of the water bottle are rough, they fit tightly. Can be inserted. In addition, the liquid supply groove of the water supply nozzle,
Since a certain space is left between the outside air inlet and the like, it is possible to supply liquid with high accuracy without leakage.

(e) Examples Hereinafter, the present invention will be explained in more detail with reference to Examples.

FIG. 2 is a sectional view of an ultrasonic inhaler in which the present invention is implemented. This ultrasonic inhaler 1 includes a main body part 2 and a liquid supply part 3.
and a suction section 4.

The main body part 2 has an outer shape formed by a main body case 5 and a bottom cover 6, and has an oscillation circuit board 11 inside which is mounted with a power supply board 7, a power jack 8, a battery 9, and an electronic circuit part 10 such as an oscillation circuit.
, a microswitch 12 as a power switch, a drive board 14 for the ultrasonic transducer 13, and the like are housed. Note that 15 is a switch cover.

The liquid supply section 3 includes a bottle 1 that stores water or a chemical solution to be atomized.
6 and the liquid in the bottle 16 are led to the atomization part of the horn (to be described later).
It consists of a water supply nozzle 17 for A more specific structure of this liquid supply section 3 will be described later.

The suction section 4 is a rigid metal body with a conical shape, and has a large diameter end and a small diameter end, an ultrasonic vibrator 13 is attached to the large diameter end, and a diaphragm, that is, an atomization section 18 is formed at the small diameter end. horn 19, suction nozzle 20. sanitary cap 21
It is composed of.

In addition, the main body case 5, bottom cover 6, switch cover 15
The sanitary cap 21 is made of ABS resin, and the bottle 16, water supply nozzle 17, and suction nozzle 20 are made of styrene resin. When operating this ultrasonic inhaler 1 to perform an inhalation action, remove the sanitary cap 21 from the bottle 16 shown in FIG. Then, operate the switch cover 15 to turn on the microswitch 12. As a result, the ultrasonic vibrator 13 starts vibrating, and the horn 19 transmits the vibration. Due to the vibration energy, the self-weight inside the water supply nozzle 16 and the capillary phenomenon cause the atomization part 18 to
The liquid introduced into the machine is atomized and driven. The atomized liquid is
It is emitted in the direction of arrow A.

Next, the structure of the liquid supply section 3, which is the main part of the present invention, will be explained with reference to FIG. The bottle 16 has a rectangular shape in side view and an inverted U-shape in front view, and is made of transparent styrene resin as described above. Further, a cylindrical nozzle insertion opening 22 is provided on the bottom plane 16a.

Moreover, the water supply nozzle 17 covered with a tube 23 made of an elastic material such as rubber is inserted into the nozzle insertion port 22 from below. In the inserted state, the tube 23 is tightly attached to the inner wall of the nozzle insertion opening 22 of the bottle 16, thereby preventing liquid leakage and also preventing the water supply nozzle 17 from falling off from the bottle 16.

The water supply nozzle 17 is provided with a liquid supply groove 24, 24 for guiding the liquid in the bottle 16 to the outside using gravity and capillary action in the axial direction, and is provided with a liquid supply groove 24, 24 on the same line as the liquid supply groove 24. A slightly deep concave outside air introduction groove 25 for introducing into the bottle 16 the same amount of outside air that has been led out of the bottle.
Further, in order to temporarily store suction liquid in the circumferential direction perpendicular to the grooves 24 and 25, a plurality of grooves 26 having a chamber function are provided.

The tip 27 of the water supply nozzle 17 is made long so that the liquid supply groove 24 for water supply is sufficiently immersed in the liquid in the bottle 16. The water supply nozzle 17 is provided with flanges 28 and 29 for fitting the tube 23, and the lower flange 2
Reference numeral 9 is provided for positioning the water supply nozzle 17 and the nozzle insertion port 22. The lower end portion 30 of the water supply nozzle 17 is attached so as to come into contact with the atomizing portion of the horn 19, that is, the diaphragm 18.

When inserting the water supply nozzle 17 into the nozzle insertion opening 22 of the bottle 16, first insert the tube 23 downward from the upper end 27 side of the water supply nozzle, and fit the tube between the flanges 28 and 29. This - allows the groove 2 of the water supply nozzle to
The bank of No. 6 and the tube 23 are in close contact with each other, and the liquid supply groove 24, the outside air inlet 25, and the groove 26 are precisely formed. The water supply nozzle 17 into which the tube 23 is inserted is inserted into the nozzle insertion port 22 from the tip end 27 and inserted. The bottle 16 with the water supply nozzle 17 inserted in this way is inserted into the horn 1.
FIG. 3 shows a cross-sectional view of the liquid supply section inserted into the atomizing section 18 of No. 9, and FIG. 4 shows a side view of the liquid supply section of FIG. 3 viewed from the right.

The lower end 30 of the water supply nozzle 17 is connected to the water supply groove 24 through the water supply groove 24.
On the other hand, 3Qa is cut out to follow the shape of the diaphragm 18. Further, the other 30b is formed into a triangular protrusion,
It is in contact with the spray surface of the diaphragm 18.

The inner wall surface of the nozzle insertion port 22 of the bottle 16 and the tube 23
, and further of the tube 23 and the water supply nozzle 17: a26.2
Since the outer circumferential surface of the bank No. 6 is in close contact with each other, the liquid supply groove 24, the outside air introduction groove 25, and the liquid storage groove 26 are precisely formed, so that an appropriate liquid supply can be achieved. Furthermore, since the water supply nozzle 17 and the nozzle insertion port 22 are in close contact with each other, liquid leakage is prevented. Water supply nozzle 17 from bottle 16
When removing the tube, the water supply nozzle 17 with a tube can be taken out from the insertion opening 22 by holding the flange 29 and pulling it downward.

When reinserting, conversely, the water supply nozzle 17 may be inserted into the nozzle insertion port 22 from the direction of the upper end 27 of the water supply nozzle 17 . Since the tube 23 is interposed between the nozzle insertion port 22 and the water supply nozzle 17, close contact can always be ensured.

(F) Effects of the Invention According to the ultrasonic atomizer of the present invention, the nozzle insertion opening of the bottle and the water supply nozzle are inserted through the tube, so that the water supply nozzle and the nozzle insertion opening of the bottle are connected to each other. It is possible to ensure adhesion between the bottles, prevent liquid from leaking from the bottle, and to form the water supply nozzle in a precise manner, so that proper liquid can be supplied. Moreover, by simply interposing one tube, even if there is some roughness between the nozzle insertion port and the water supply nozzle, it can be covered with the tube, so the inner surface of the nozzle insertion port and It is possible to obtain an inexpensive ultrasonic atomizer without having to pay much attention to the surface treatment of the water supply nozzle.

[Brief explanation of the drawing]

Fig. 1 is an exploded perspective view of a liquid supply section which is a main part of an ultrasonic inhaler showing one embodiment of the present invention, Fig. 2 is a sectional view of the ultrasonic inhaler of the same embodiment, and Fig. 3 is a FIG. 1 is a cross-sectional view of the shown liquid supply section when it is fully assembled, and FIG. 4 is a side view as seen from the right side of FIG. 3. 13: Ultrasonic vibrator, 16: Bottle, 17: Water supply nozzle, 18: L part, 19: Horn, 22: Nozzle insertion port, 23: Tube,
24: Liquid supply groove, 25: Outside air introduction groove Patent applicant Tateishi Electric Co., Ltd. Agent
Patent Attorney Shigeru Nakamura Figure 2 Figure 3 Figure 4 13: Cho9kum J Kei Hatsumi 22: Pal calligraphy Ro 16
°Work゛'tor 23:su, -7・
・17: Private money A Kunosu・ru 24:
Moto & Mizo 18:1 I Migo 5 25:
192 foreigners entering the Qing Dynasty

Claims (1)

[Claims] (1) In an ultrasonic atomizer in which liquid is introduced from a bottle into a horn atomizing section and the liquid is driven by an ultrasonic vibrator to atomize, the liquid is supplied from the bottle to the horn atomizing section. a water supply nozzle having an extremely thin liquid supply groove for introducing external air into the bottle, and an outside air introduction groove for introducing outside air into the bottle; and a tube attached around the water supply nozzle to cover each of the grooves, and the bottle A nozzle insertion port for inserting a water supply nozzle into the bottle is provided, and the water supply nozzle fitted with the tube is tightly inserted into the nozzle insertion port of the bottle through the tube. Atomizer.