WO2016099059A1 - Floating ultrasonic humidifier for directivity of humidifying particles - Google Patents

Abstract

A floating ultrasonic humidifier for directivity of humidifying particles, according to an embodiment of the present invention, comprises: a floating container; an ultrasonic humidity generating module which is disposed inside the floating container and generates humidifying particles by means of ultrasonic vibration; and a humidifying particle generation port which is formed on the upper part of the floating container at an inclined angle with respect to the horizontal direction such that the humidifying particles are discharged at a fixed angle with respect to the vertical direction.

Description

Floating Ultrasonic Humidifier for Directivity of Humidifying Particles

Embodiments of the present invention relate to a floating ultrasonic humidifier for directivity of humidifying particles.

In general, a humidifier is a device that artificially maintains the desired humidity when appropriate humidity is needed due to dry seasons or other factors. In other words, the humidifier is a device that granulates water by electricity or makes it into steam and pumps it into the room.

Types of humidifiers are heated according to the humidification method, and the water is heated by means of a heater or electrode to generate steam and sprayed in the atomized state. Ultrasonic, and there is a combination using the advantages of both methods.

In recent years, floating humidifiers, which are easy to manage such as washing, are frequently used among the humidifiers.

However, the floating humidifier is floating and used in the water, compared to the existing humidifiers compared to the existing vibration is weak and a lot of shaking. Due to this, after the water droplets made up inside rise vertically and fall on the surface of the water, a lot of water sounds are generated, and water droplets splash out to the outside.

Therefore, it is necessary to develop a humidifier capable of reducing the noise inside and minimizing the water droplets splashing outward.

According to an embodiment of the present invention, the humidifying particle generating port of the ultrasonic humidification generating module of the humidifier forms a specific angle, so that the humidifying particles are discharged with a direction and are splashed to the outside of the humidifier. A floating ultrasonic humidifier for the orientation of the particles is provided.

The problem to be solved by the present invention is not limited to the problem (s) mentioned above, and other object (s) not mentioned will be clearly understood by those skilled in the art from the following description.

Floating ultrasonic humidifier for the orientation of the humidifying particles according to an embodiment of the present invention floating; An ultrasonic humidification generation module disposed inside the float and generating humidifying particles by ultrasonic vibration; It includes a humidifying particle generating sphere is formed having an inclination angle with respect to the horizontal direction in the upper portion of the floating cylinder so that the humidifying particles are discharged with a direction of a predetermined angle relative to the vertical direction.

The humidifying particle generating sphere may be formed with the inclination angle with respect to the horizontal axis of the upper surface of the floating cylinder, when the upper surface of the floating cylinder is formed horizontally.

The humidifying particle generating port has the inclination angle with respect to the horizontal axis of the upper surface of the floating cylinder when the central axis of the floating cylinder is coincident with the vertical direction and the horizontal axis of the upper surface of the floating cylinder is coincident with the horizontal direction. Can be formed.

The humidifying particle generating port is based on the horizontal axis of the upper surface of the floating cylinder when the central axis of the floating cylinder has a constant inclination angle with respect to the vertical direction and the horizontal axis of the upper surface of the floating cylinder coincides with the horizontal direction. The angle of inclination may be formed.

The humidifying particle generating port has a horizontal axis of the upper surface of the floating cylinder when the horizontal axis of the upper surface of the floating cylinder is perpendicular to the central axis while the central axis of the floating cylinder has a constant inclination angle with respect to the vertical direction. It may have an inclination angle corresponding to the angle formed in the horizontal direction.

The humidifying particle generating port has a horizontal axis and the horizontal axis of the upper surface of the floating cylinder when the central axis of the floating cylinder coincides with the vertical direction and the horizontal axis of the upper surface of the floating cylinder is inclined at a predetermined angle relative to the horizontal direction. It may have an inclination angle corresponding to the angle formed by the direction.

Floating ultrasonic humidifier for the direction of the humidifying particles according to an embodiment of the present invention may be installed on the upper portion of the floating cylinder, may further include a humidifying discharge fan for generating wind in the discharge direction of the humidifying particles.

The humidifying exhaust fan may be installed at a position opposite to the inclined direction of the humidification generating port so as to generate wind in the discharge direction of the humidifying particles.

Floating ultrasonic humidifier for directionality of the humidifying particles according to an embodiment of the present invention is installed in the interior of the floating cylinder, through the communication antenna formed on the top of the floating cylinder, from an external controller including a remote control or a portable terminal The wireless communication module may further include a wireless communication module configured to wirelessly receive a control signal and to control an operation of the ultrasonic humidification generation module based on the received control signal.

Specific details of other embodiments are included in the detailed description and the accompanying drawings.

According to an embodiment of the present invention, the humidifying particle generator in the ultrasonic humidification generation module of the humidifier to form a specific angle, the humidification particles are discharged with a direction to minimize the water droplets phenomena popping out of the humidifier and internal noise can do.

According to an embodiment of the present invention, since the humidifying exhaust fan is installed in a position opposite to the direction in which the humidifying particles are generated, the humidifying particles are not discharged to the outside of the humidifier and hit the humidifying discharge fan or generated in the humidifying discharge fan. It is possible to prevent the problem of falling on the inner surface of the bucket by the wind.

1 is a view illustrating a floating ultrasonic humidifier for the direction of the humidifying particles according to an embodiment of the present invention.

2 to 4 is a view showing another modification of each of the floating ultrasonic humidifier for the direction of the humidifying particles according to an embodiment of the present invention.

Advantages and / or features of the present invention and methods for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, only the present embodiments to make the disclosure of the present invention complete, and common knowledge in the art to which the present invention pertains. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, with reference to the accompanying drawings will be described embodiments of the present invention;

1 is a view illustrating a floating ultrasonic humidifier for the direction of the humidifying particles according to an embodiment of the present invention, Figures 2 to 4 are for the direction of the humidifying particles according to an embodiment of the present invention It is a figure which shows each other modified example of a floating ultrasonic humidifier.

First, referring to Figure 1, the floating ultrasonic humidifier 100 for the direction of the humidifying particles according to an embodiment of the present invention is a floating cylinder 110, ultrasonic humidification generation module 120, humidifying particle generator 130 And a wireless communication module 140.

The float 110 may be floated in the bucket 101, which is an accommodation space containing water to generate humidification. The float 110 may be made of a material such as synthetic resin, metal, but can be selectively used a variety of materials that can accommodate water. In addition, the bucket 101 may be formed of a transparent or translucent material to visually check the floating state of the float (110).

Here, the bucket 101 is formed in a cylindrical shape as shown in the figure, but may be formed in other forms as necessary. For example, the bucket 101 may be formed in the shape of a cube having a rectangular cross section.

The floating cylinder 110 may be formed in the shape of the center of the upper surface is opened, the interior space for the provision of the ultrasonic humidification generation module 120 to be described later may be provided inside the open surface.

The float 110 has a lower inlet (not shown) through which the water contained in the bucket 101 can be introduced so that the humidified particles are generated by the ultrasonic humidification generation module 120. Can be.

The floating cylinder 110 may discharge the humidifying particles generated by the ultrasonic humidification generation module 120 through the open surface. The humidified particles discharged through the open surface may be discharged to have a direction to the outside of the floating cylinder 110 through the humidifying particle generating port 130 to be described later. In this regard will be described in detail in the description of the humidifying particle generation port 130.

The ultrasonic humidification generation module 120 is disposed in the floating cylinder 110, and generates the humidified particles by ultrasonic vibration.

In this case, the ultrasonic humidification generation module 120 may be installed to be fixed or detachable in the inner space of the float (110).

The ultrasonic humidification generation module 120 operates by electric power transmitted from the outside to generate the ultrasonic vibration, and may include a diaphragm 122 and a vibrator 124. For reference, the ultrasonic humidification generation module 120 may be connected to a separate cable (not shown) for transmitting the power.

The diaphragm 122 may be installed under the vibrator 124 and may be driven by electric power transmitted from the outside to generate the ultrasonic vibration.

The vibrator 124 may be installed above the diaphragm 122 and may be vibrated by the ultrasonic vibration generated by the diaphragm 122 to atomize the water contained in the bucket 101. have.

The humidifying particle generating port 130 may be formed with an inclination angle in the horizontal direction on the upper portion of the floating cylinder 110, so that the humidifying particles are discharged with a direction of a certain angle based on the vertical direction.

Hereinafter, the embodiment of the humidifying particle generation port 130 will be described by dividing into two cases. Specifically, an embodiment in which only the humidifying particle generating holes 130 are inclined at an angle will be described with reference to FIGS. 1 and 2, and the entire upper portion of the floating cylinder 110 including the humidifying particle generating holes 130 is included. An embodiment in which the tilt is inclined will be described with reference to FIGS. 3 and 4.

First, an embodiment in the case where only the humidifying particle generation port 130 is inclined obliquely will be described.

The humidifying particle generation port 130 may be formed with the inclination angle based on the upper surface of the floating cylinder 110 when the upper surface of the floating cylinder 110 is formed horizontally.

For example, as shown in FIG. 1, the floating ultrasonic humidifier 100 has an upper portion of the floating cylinder 110 while the central axis c of the floating cylinder 110 coincides with the vertical direction v. The horizontal axis u of the surface may be formed to coincide with the horizontal direction h. In this case, the humidifying particle generating port 130 may be formed with the inclination angle θ based on the horizontal axis (u) of the upper surface of the floating cylinder (110). In other words, the humidifying particle generator 130 may be formed to have the inclination angle θ based on the horizontal direction h.

As another example, as shown in FIG. 2, in the floating ultrasonic humidifier 100, the central axis c of the floating cylinder 110 has a constant inclination angle θ ₁ with respect to the vertical direction v. While the horizontal axis (u) of the upper surface of the float 110 may be formed to match the horizontal direction (h). In this case, the humidifying particle generating port 130 may be formed having an inclination angle θ ₂ of a predetermined angle with respect to the horizontal axis u of the upper surface of the floating cylinder 110. In other words, the humidifying particle generating sphere 130 may be formed having the inclination angle θ ₂ with respect to the horizontal direction (h).

Next, an embodiment in which the entire upper portion of the floating cylinder 110 including the humidifying particle generator 130 is inclined obliquely will be described.

As shown in FIG. 3, the floating ultrasonic humidifier 100 has the central axis c of the floating cylinder 110 having a constant inclination angle θ ₁ based on the vertical direction v, The horizontal axis u of the upper surface of the flow passage 110 may be formed perpendicular to the central axis c. In this case, the humidifying particle generating port 130 may be formed to have an inclination angle θ ₂ corresponding to an angle formed between the horizontal axis u and the horizontal direction h of the upper surface of the floating cylinder 110.

In another embodiment, as shown in FIG. 4, the floating ultrasonic humidifier 100 has the floating cylinder 110 while the central axis c of the floating cylinder 110 coincides with the vertical direction v. The horizontal axis u of the upper surface of the c) may be formed to be inclined at a predetermined angle θ based on the horizontal direction h. In this case, the humidifying particle generating port 130 may be formed to have an inclination angle θ corresponding to an angle formed by the horizontal axis u of the upper surface of the floating cylinder 110 and the horizontal direction h.

As such, in one embodiment of the present invention, by providing an inclination angle to the humidifying particle generating port 130, it is possible to provide a directionality when the humidifying particles are discharged, through which the humidifying particles are discharged with the aromaticity, thereby providing a humidifier. Water droplet splashing to the outside and noise inside the humidifier can be reduced.

The wireless communication module 140 may be installed in the floating cylinder 110.

In this case, the wireless communication module 140 may be electrically connected to and installed in the ultrasonic humidification generation module 120 formed in the floating cylinder 110.

The wireless communication module 140 may wirelessly receive a control signal from an external controller (not shown) including a remote controller or a portable terminal through the communication antenna 142 formed on the upper portion of the floating container 110. The wireless communication module 140 may control the operation of the ultrasonic humidification generation module 120 based on the received control signal.

For example, the wireless communication module 140 controls the humidification related operation of the ultrasonic humidification generation module 120 based on the control signal, whereby the amount of humidified particles generated by the ultrasonic humidification generation module 120 is humidified. , Humidification frequency can be adjusted.

On the other hand, the floating ultrasonic humidifier 100 for the direction of the humidifying particles according to an embodiment of the present invention may further include a humidifying exhaust fan, although not shown in the figure.

The humidification exhaust fan is installed on the upper portion of the floating cylinder 110, it can generate wind in the discharge direction of the humidified particles.

At this time, the humidification exhaust fan may be made of a waterproof material in consideration of contact with the water contained in the interior of the bucket (101).

In addition, the humidifying exhaust fan may generate the wind in consideration of the discharge direction of the humidifying particles having a direction by the humidifying particle generating port 130.

To this end, the humidifying exhaust fan may be installed at a position opposite to the inclined direction of the humidifying particle generating port 130 so as to generate the wind in the discharge direction of the humidifying particles. That is, the humidifying exhaust fan may be installed in the rear of the discharge direction of the humidifying particles.

In other words, the humidifying exhaust fan may blow the wind in the opposite direction to the inclined direction of the humidifying particle generating port 130, so that the humidifying particles may be smoothly discharged to the outside.

In this way, the humidifying exhaust fan is installed in a position opposite to the direction in which the humidifying particles are generated, so that the humidifying particles are not discharged to the outside of the humidifier but hit by the humidifying exhaust fan or by the wind generated by the humidifying exhaust fan. Existing problems that fall on the inner surface of the bucket 101 can be prevented.

While specific embodiments of the present invention have been described so far, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below, but also by the equivalents of the claims.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

Claims (9)

Floating pain; An ultrasonic humidification generation module disposed inside the float and generating humidifying particles by ultrasonic vibration; Humidifying particle generating port is formed with an inclination angle with respect to the horizontal direction on the top of the floating cylinder, so that the humidifying particles are discharged with a certain angle of direction based on the vertical direction. Floating ultrasonic humidifier for the direction of the humidifying particles comprising a. The method of claim 1, The humidifying particle generating sphere Floating ultrasonic humidifier for the direction of the humidifying particles, characterized in that when the upper surface of the float is formed horizontally, having the inclination angle with respect to the horizontal axis of the upper surface of the float. The method of claim 2, The humidifying particle generating sphere When the central axis of the float is in the vertical direction and the horizontal axis of the upper surface of the float is formed to coincide with the horizontal direction, characterized in that the inclined angle is formed with respect to the horizontal axis of the upper surface of the float Ultrasonic humidifier for directing humidifying particles. The method of claim 2, The humidifying particle generating sphere When the central axis of the float has a constant inclination angle relative to the vertical direction and the horizontal axis of the upper surface of the float is formed to match the horizontal direction, has the inclination angle based on the horizontal axis of the upper surface of the float Floating ultrasonic humidifier for the direction of the humidifying particles, characterized in that formed. The method of claim 1, The humidifying particle generating sphere When the central axis of the floating cylinder has a constant inclination angle with respect to the vertical direction and the horizontal axis of the upper surface of the floating cylinder is formed perpendicular to the central axis, the angle formed by the horizontal axis and the horizontal direction of the upper surface of the floating cylinder Floating ultrasonic humidifier for the direction of the humidifying particles, characterized in that formed with an inclination angle corresponding to. The method of claim 1, The humidifying particle generating sphere When the central axis of the floating cylinder coincides with the vertical direction and the horizontal axis of the upper surface of the floating cylinder is formed to be inclined at a predetermined angle with respect to the horizontal direction, the horizontal axis of the upper surface of the floating cylinder is formed at an angle formed by the horizontal direction. Floating ultrasonic humidifier for the direction of the humidifying particles, characterized in that formed with a corresponding inclination angle. The method of claim 1, Humidification discharge fan is installed on the upper portion of the floating cylinder, generating a wind in the discharge direction of the humidified particles Floating ultrasonic humidifier for the direction of the humidifying particles, characterized in that it further comprises. The method of claim 7, wherein The humidifying exhaust fan Floating ultrasonic humidifier for the direction of the humidifying particles, characterized in that installed in a position opposite to the inclined direction of the humidification generating port, so as to generate wind in the discharge direction of the humidifying particles. The method of claim 1, Is installed inside the floats, via a communication antenna formed on the top of the float, wirelessly receives a control signal from an external controller including a remote control or a portable terminal, based on the received control signal humidification ultrasonic Wireless communication module to control the operation of the generation module Floating ultrasonic humidifier for the direction of the humidifying particles further comprises a.

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