KR19990005930A - Centrifugal Humidifier - Google Patents

Abstract

The present invention relates to a centrifugal humidifier, the centrifugal fan unit installed in the external humidifier discharge hole; A centrifugal chamber portion having a neck discharge hole near a central portion of the rotating shaft of the centrifugal fan portion and installed on an upper end of the ultrasonic vibration unit; A centrifugal humidifier comprising a suction port installed in the centrifugal chamber portion: the centrifugal chamber portion provides a space in which the water changes to a particle form and the humidification chamber portion in which the outlet of the suction port is located, A humidifier that includes a throat outlet with a smaller outlet, and instead of discharging the water particles of the humidifier using a conventional spray chamber and a blower, the fan is placed at the outlet of the humidifier and the fan's rotating shaft is installed vertically. The center of the fan is to lower the pressure is naturally discharged to achieve the effect of being discharged through the end of the fan without noise.

Description

Centrifugal Humidifier

The present invention relates to a domestic humidifier mainly used by the elderly, children and people with bad bronchus in the general home, in particular, the centrifugal fan for discharging the particles of the humidifier without noise installed above the centrifugal chamber, the centrifugal chamber is a neck discharge hole It relates to a centrifugal humidifier configured to discharge the water particles are discharged naturally through the neck outlet hole.

Generally, the domestic humidifier has an ultrasonic vibrator 2 and a water guide groove 3 for guiding water to the ultrasonic vibrator 2, as shown in FIGS. 1 and 2, and a water guide groove 3. The water tank 4 placed in the corresponding part, the spray chamber 5 placed in the ultrasonic vibration part 2 corresponding part, and the spray chamber 5 and the water bottle 4 are covered and coupled to the main body 1. The main lid 6 and the spray chamber 5 are coupled to the upper end of the spout 7 for guiding the spout humidifying particles as a basic component. In addition, the upper portion of the ultrasonic vibration unit (2) has a water tank (8) at a lower position than the water guide groove (3) to make it advantageous to humidify the ultrasonic vibration of the water. At this time, the center of the water guide groove (3) has a bucket valve opening and closing projections (9) and the corresponding bucket (4) is provided with a bucket valve (10). Reference numeral 12 denotes a blower which is placed inside the spray chamber 5 and integrated with the main body 1. Such a bucket valve 10 is preferably installed together with a stopper 11 of the bucket 4. When using this, fill the bucket with water as shown in Figure 1 and the stopper portion is coupled to the water guide groove (3). Moreover, the spray chamber 5 is combined so that the water tank part 8 may be covered. Subsequently, the main body lid 6 and the blower outlet 7 are combined. At this time, the water bottle valve opening / closing protrusion 9 is pushed to open the water tank valve 10 as shown in FIG. 2 and the water of the water bottle 4 is guided to the water tank unit 8 through the water guide groove 3. In this state, when the operation panel 13 is operated (the power supply is connected to an outlet (not shown) through the plug 13 '), the ultrasonic vibration unit 2 starts to vibrate, and thus water is converted into fine particles. It is changed and discharged into the room through the spray chamber (5) and the outlet (7). In order to spray the water, a blower 14 is built in the main body 1, and an inlet hole 15 is formed in the main body 1 corresponding to the air inlet of the blower 14, and through the inlet hole 15. Inflowing air is injected into the spray chamber (5) through the tuyeres (12). Therefore, the particles granulated by this inlet air are discharged through the spray chamber 5. Such a conventional structure has a long length of the air passage, which makes the structure complicated, and there is a fear that the amount of air leaked according to the degree of sealing increases, and there is a fear of increasing the pressure in the chamber to overload the ultrasonic vibrator. This is because the cross-sectional area of the jet port 7 is small and the air inlet port has a relatively large effect. In this case, when the foreign matter is accumulated inside, the amount of air flowing in and the discharged air volume coincide with each other by obstructing the flow of air. If not, the motor is heated, which causes a decrease in the performance of the humidifier. On the other hand, a heater type may be employed instead of the ultrasonic vibrator 2, in which case there is a problem that the boiling point rises due to an increase in the internal pressure when the inflow and outflow air amounts are not correct, and thus the thermal efficiency of the spray amount is lowered.

The present invention is to solve this, an object of the present invention is to make the inlet air of the humidifier constant, so that the centrifugal fan portion is located above the neck discharge hole of the centrifugal chamber portion, and the natural effect is caused by the vacuum generated by the centrifugal fan portion at the neck discharge hole portion. It is possible to discharge.

To this end, the present invention forms a centrifugal chamber portion having a function of a humidification chamber portion in the corresponding portion of the water tank of the main body, the centrifugal chamber portion has a neck discharge hole is reduced in size in the upper portion, the fan corresponding to the neck discharge hole in the centrifugal chamber portion The centrifugal fan unit is installed to correspond to the shaft of the centrifugal fan, and the external discharge hole of the humidifier is placed on the wing tip of the centrifugal fan unit so that it can be used without noise.

1 is an exploded perspective view of a conventional humidifier,

2 is a cross-sectional view showing the main body of FIG. 1 mainly;

3 is a plan view of FIG.

4 is a sectional view of the main body in a state of showing a conventional tuyere,

5 is a cross-sectional view showing a chamber portion which is a main part of the present invention.

Explanation of symbols for the main parts of the drawings

1; main body 2; ultrasonic vibration unit

3; water guide groove 4; bucket

5; spraying chamber 6; body cap

7; spout 8; water tank

9; bucket valve opening and closing projections 10; bucket valve

11; plug 12; blower

13; operating panel 14; blower

15; inlet hole 20; centrifugal chamber

21; humidification chamber 22; neck discharge hole

30; inlet 31; outlet

40; centrifugal fan 41; centrifugal fan

42; fixing plate 43; external discharge hole

44; motor

That is, the present invention and the centrifugal fan unit installed in the external humidifier discharge hole; A centrifugal chamber portion having a neck discharge hole near a central portion of the rotating shaft of the centrifugal fan portion and installed on an upper end of the ultrasonic vibration unit; It is to provide a centrifugal humidifier characterized in that it comprises a suction port installed in the centrifugal chamber. Preferably, the centrifugal chamber portion includes a humidification chamber portion in which water is provided in the form of particles and an outlet of the suction port is positioned, and a neck discharge hole having a smaller outlet at an upper end of the humidification chamber portion. Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 5 is a cross-sectional view of the present invention, in which a humidification chamber part 21 having a dome-shaped space at an upper position corresponding to the water tank part 8 of the main body 1, and a humidification chamber part at the upper part of the humidification chamber part 21. A centrifugal chamber portion 20 having a neck discharge hole 22 having a small diameter penetrating therethrough 21; A suction port 30 having an outlet 31 for discharging air sucked into the inner wall constituting the humidification chamber part 21 of the centrifugal chamber part 20; A centrifugal fan 41 having a rotating shaft at a corresponding portion of the upper end of the neck discharge hole 22 and a power supply to the centrifugal fan 41 are connected to and supported by a part of the centrifugal chamber part 20 to form an external discharge hole 43. And a centrifugal fan portion 40 composed of a fixed plate 42 for fixing the motor 44. The centrifugal chamber portion 20 may be integrally formed on the body 1, or may be formed to be separable. In addition, the fixing plate 42 may also be formed integrally with the centrifugal chamber portion 20, or may be formed to be separable. The suction port 30 is preferably implemented by a simple plastic tube or the like. The centrifugal chamber portion 20 corresponding to the centrifugal fan 41 is preferably formed to form a streamline so as to provide a passage through which the fine particles of the humidifier are guided and discharged.

According to the present invention configured as described above, when the power plug is plugged into an outlet and the operation panel 13 shown in FIG. 1 is operated, the ultrasonic vibration unit 2 of the water tank unit 8 vibrates to convert water into a particulate form, and the converted particulates. Is discharged to the neck discharge hole 22 through the humidification chamber 21. In this case, since the centrifugal fan portion 40 is placed in a portion corresponding to the neck discharge hole 22, the centrifugal fan portion 40 is discharged to the external discharge hole 43. Air is sucked through the inlet port 30 and discharged to the outlet 31 for the desired discharge. Since the suction of the air through the suction port 30 is sucked by the suction force by the centrifugal fan portion 40. The outlet 31 of the suction port 30 should be configured to be above the water surface. At this time, since the diameter of the neck outlet hole 22 is smaller than the humidification chamber 21, the flow of air and water particles is accelerated by Bernoulli's theorem. Thus, the particles that quickly passed through the throat outlet hole 22 are rapidly dispersed to the outside through the centrifugal fan portion 40, whereby the pressure portion of the outlet side of the neck outlet hole 22 is relatively lowered. Therefore, it is easy to discharge the water particles through the neck discharge hole 22 naturally, the rotary shaft of the centrifugal fan 41 is installed vertically, the installation space is reduced and the noise is also reduced. This is not a structure for forcibly injecting air (with a blower on the suction side as shown in FIG. 4), but centrifugal to an airtight space (the space between the centrifugal chamber 20 and the fixed plate 42) at the external discharge hole 43. The fan portion 40 is installed so that the suction of air is not compressed in the humidification chamber portion 21, thereby eliminating the noise. In addition, as the centrifugal fan portion 40 rotates, the point (for example, point a) corresponding to the neck outlet hole 22 becomes close to the vacuum, thereby allowing the air to be easily discharged, thereby reducing the rotational force of the centrifugal fan portion 40 at a desired level. You can get the output you want with low torque.

As described above, the present invention adopts a method in which the exhaust air required for the humidifier is installed at the outlet side of the humidification chamber, so there is no internal compression of the air, thereby reducing noise, and the steam in the humidification chamber portion is quickly discharged through the neck exhaust hole. As soon as the discharging is discharged from the centrifugal fan, the neck outlet hole output part is close to the vacuum momentarily, so that the load on the centrifugal fan part is reduced, and thus the centrifugal fan can be driven by a small output motor, thereby contributing to the cost reduction.

Claims (5)

A centrifugal fan unit installed at an external humidifier discharge hole; A centrifugal chamber portion having a neck discharge hole near a central portion of the rotating shaft of the centrifugal fan portion and installed on an upper end of the ultrasonic vibration unit; Humidifier of the centrifugal separation method comprising a suction port installed in the centrifugal chamber. The method of claim 1, wherein the centrifugal chamber portion comprises a humidification chamber portion that provides a space in which the water changes to a particle form and the outlet of the inlet port is located, and a neck discharge hole formed in the form of a smaller outlet at the top of the humidification chamber portion A centrifugal humidifier. The centrifugal humidifier according to claim 1, wherein the centrifugal chamber portion in contact with the centrifugal fan portion forms an external discharge hole at a wing end portion of the centrifugal fan portion. According to claim 1, wherein the centrifugal fan is connected to a part of the centrifugal chamber portion, the motor is a vertical axis of rotation at a position corresponding to the neck discharge hole, and the pressure away from the neck discharge hole when rotating close to the neck discharge hole Humidifier of the centrifugal separation method, characterized in that consisting of a fan portion to rotate to increase the discharge of steam. The centrifugal humidifier according to claim 1, wherein the suction port is installed on the inner wall of the centrifugal chamber so that the outlet thereof is above the water level of the humidifying water.