KR20170024313A - Apparatus for humid air injection - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wet air injection device, and more particularly, to a wet air injection device that generates wet air and sprays it to generate negative ions.
According to the present invention, there is provided a washing machine comprising: a lower case provided with a water tank in which water is stored; A water absorbing member installed in the water tank such that an upper end of the water absorbing member is exposed through the upper part of the water tank to absorb water in the water tank; A humid air generator installed at an upper end of the water absorbing member to generate humid air from the water absorbed in the water absorbing member; A blowing duct having an upper portion of the water absorbing member and a wet air generator installed in an upper portion of the lower case and having a blowing fan installed on the upper side thereof and a support member supporting the wet air generator and the water absorbing member on the lower side, The air blowing duct is formed so as to communicate with the air blowing duct so that the pressurized air that is pressure-fed by the blowing fan is discharged to the inside, and the wet air generated from the wet air generator is blown An upper case having a wetting air inlet formed therein to flow inwardly and having a peripheral air inlet into which the outside air is introduced, and a jetting duct having a jetting port in which humid air is blown out together with the pressurized air and the outside air; And an anion generator installed inside the upper case to generate an anion to cause the anion to be sprayed through the injection hole together with the humid air.

Description

[0001] Apparatus for humid air injection [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wet air injection device, and more particularly, to a wet air injection device that generates wet air and sprays it to generate negative ions.

Generally, humidifying devices for humidification and humidification are designed to humidify or humidify the water stored in a water tank by applying ultrasonic vibration or heating it through a heater to generate moisture, forcing it through a fan, or discharging it naturally through convection. Lt; RTI ID = 0.0 > air. ≪ / RTI >

However, the above-mentioned conventional household and beauty humidifying devices have a drawback that humidification or moisturizing effect is insignificant as the amount of humidified air generated is relatively small as well as the wetted air spreads in all directions from the periphery of the apparatus.

In order to solve this disadvantage, a nozzle for forming an air flow in a fanless shape type using a coanda effect is provided above a main body to which humid air generated from the inside is fed upward, A fanless humidifying device for spraying humid air forward was found.

However, since the fanless humidifying device described above forms airflow by the Coanda effect, the wet air injected forward through the nozzle is not concentrated at the front center of the nozzle but spreads in all directions along the front of the nozzle, There is a problem that it does not become.

In addition, the fanless humidifying device is not equipped with a device for sterilizing the inside of the main body, so that the inside of the humidifying device is not easily polluted for a long period of time, and the humidifying device concentrates only on the structure for spraying humid air.

Korean Registered Patent No. 10-1290625, Jul. 23, 2013.

Disclosure of the Invention The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for concentrating wet air into one place and preventing intrinsic contamination, A structure for sterilizing the inside through ozone, and a wet air injection device having a structure for skin treatment function through infrared rays.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

According to an aspect of the present invention, there is provided a wet air injection device including: a lower case having a water tank for storing water therein; A water absorbing member installed in the water tank such that an upper end of the water absorbing member is exposed through the upper part of the water tank to absorb water in the water tank; A humid air generator installed at an upper end of the water absorbing member to generate humid air from the water absorbed in the water absorbing member; A blowing duct having an upper portion of the water absorbing member and a wet air generator installed in an upper portion of the lower case and having a blowing fan installed on the upper side thereof and a support member supporting the wet air generator and the water absorbing member on the lower side, The air blowing duct is formed so as to communicate with the air blowing duct so that the pressurized air that is pressure-fed by the blowing fan is discharged to the inside, and the wet air generated from the wet air generator is blown An upper case having a wetting air inlet formed therein to flow inwardly and having a peripheral air inlet into which the outside air is introduced, and a jetting duct having a jetting port in which humid air is blown out together with the pressurized air and the outside air; And an anion generator installed inside the upper case to generate an anion to cause the anion to be sprayed through the injection hole together with the humid air.

The upper case is further provided with an ultraviolet lamp along the outside of the jetting port.

The upper case or the lower case is further provided with an infrared lamp.

And the tuyeres are formed to be inclined toward the jetting port so that the pressurized air is discharged toward the jetting port side.

Wherein the air blowing port is formed in a spiral shape along the inside of the jetting duct while the pressurized air is discharged while generating a vortex toward the jetting port side.

The following effects can be expected from the present invention.

First, humidification and moisturizing effect can be enhanced by intensive jetting of wet air through the air flow caused by the blowing air.

In addition, an anion generator is provided to sterilize the interior by blowing the anion to the front where the compressed air is blown and the wet air is blown in front of it, and the cleanliness can be maintained. In addition, The effect can be further enhanced.

In addition, an infrared lamp and an ultraviolet lamp are provided to emit infrared rays and ultraviolet rays, which can be very beneficial for skin treatment and health.

1 is a front view showing a wet air injection device according to a preferred embodiment of the present invention.
FIG. 2 is a longitudinal sectional view of a wet air injection device according to a preferred embodiment of the present invention; FIG.
3 is an enlarged longitudinal sectional view showing a wet air injection state of a wet air injection device according to a preferred embodiment of the present invention.

The humidified air injection device according to the present invention is a device for humidifying and humidifying, generating humid air from moisture of water, and then spraying it forward by using pressurized air and surrounding air which is pressure-fed by a blowing fan.

Particularly, the wet air spraying apparatus according to the present invention can intensively spray wet air to a desired place so as to maximize humidification and moisturizing effect, and can prevent internal pollution so as to facilitate maintenance. In addition to humidifying and moisturizing functions, It is characterized by being provided with a separate function so that it can be very beneficial to the physical health.

This feature is achieved by a structure in which an ion generator, an ozone sterilizer, and an infrared lamp are installed in addition to a structure in which wet air is jetted so as to ensure straightness when jetting air using pressurized air and ambient air.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view showing a wet air injection device according to a preferred embodiment of the present invention, FIG. 2 is a longitudinal sectional view of a wet air injection device according to a preferred embodiment of the present invention, Fig. 3 is an enlarged longitudinal sectional view showing a wet air injection state of the wet air injection device according to a preferred embodiment of the present invention.

1 and 2, the wet air injector according to the preferred embodiment of the present invention mainly includes a lower case 100, a water absorbing member 200, a wet air generator 300, an upper case 400, And an anion generator (500).

First, the lower case 100 constitutes a lower structure of the wet air injection device, and functions to stably place the bottom of the wet air injection device on the floor, and to store water therein.

To this end, it is preferable that the lower case 100 is provided with a water tank 110 having a shape that is seated on the floor and a certain amount of water is stored inside the lower case 100.

However, the water tank 110 may have a structure in which a certain amount of water can be stored, separately installed inside the lower case 100, and a water storage space having a predetermined size may be formed integrally with the water tank 110 have.

Although not shown, the lower case 100 may be further provided with an angle adjusting support for adjusting the angle formed by the lower case 100 and the floor. In this case, the angle of the lower case 100 may be adjusted, So as to freely adjust the spraying angle of the humid air injected to the front of the case 400.

Next, the water absorbing member 200 absorbs the water stored in the water tub 110.

For this, the water-absorbing member 200 is preferably made of at least one material having excellent water-absorbing ability so that the water of the water tank 110 can be absorbed smoothly. The water absorbing member 200 is installed in the water tub 110 so that the upper end of the water absorbing member 200 is exposed to the upper portion of the water tub 110 so that the water absorbing member 200 can absorb the water in the water tub 110 and transmit the water to the wet air generator 300 .

Next, the humid air generator 300 generates humid air using the water absorbed by the water absorbing member 200.

For this, the wet air generator 300 is preferably installed to closely contact the upper end of the water-absorbing member 200, in which water is injected so that the water absorbed by the water-absorbing member 200 can be supplied.

The humid air generator 300 may be constituted by a humid air generator for generating humid air in an ultrasonic vibration mode or a humid air generator for generating humid air in a heating method by a heater.

However, in the case of the ultrasonic vibration system, there is an advantage in that the installation space is limited by the small size, and in the case of the heating system using the heater, there is an advantage that no noise is caused by the ultrasonic vibration. Accordingly, when constructing the wet air generator 300, it is possible to select the wet air generator 300 according to the purpose in view of the advantages of the above methods.

Next, the upper case 400 is configured to concentrate the wet air generated from the wet air generator 300 to one front side together with ambient air at the rear side using the pressurized air.

To this end, the upper case 400 is preferably composed of a blowing duct 410 for supplying the pressurized air and a spray duct 420 for spraying forward together with the surrounding air through the pressurized air.

The blowing duct 410 is installed on the upper part of the lower case 100 to supply the pressurized air to the inside of the injection duct 420. Inside the upper part of the blowing duct 410 is blown air for generating pressurized air by pressure- A fan 411 is installed and a supporting base 412 for fixing and supporting the moisture absorbing member 200 and the humid air generator 300 integrally is disposed inside the lower portion.

That is, the blowing duct 410 forcibly feeds the air introduced into the inside of the blowing fan 411 according to the operation of the blowing fan 411 to generate pressurized air.

The injection duct 420 is installed to horizontally penetrate the blowing duct 410 so as to horizontally pass the blowing duct 410 and feed the pressurized air generated in the blowing duct 410 to the inside to spray the wetted air together with the surrounding air forward. A blowing port 421 is formed around the blowing duct 410 so as to communicate with the inside of the blowing duct 410 so that the pressurized air compressed by the blowing fan 411 is discharged to the inside and the humid air generator 300 A wet air inlet 422 is formed to allow the wet air to flow inward.

The other side of the injection duct 420 is composed of a peripheral shared inlet 423 into which ambient air flows, and one side thereof is composed of an injection port 424 through which humidified air is injected forward together with the pressurized air and the outside air.

That is, the injection duct 420 uses the pressurized air generated from the blowing duct 410 supplied through the blowing port 421 to blow the wet air inlets 422 together with the ambient air introduced through the surrounding air inlets 423 The wet air introduced through the wet air injection device is injected intensively in front of the wet air injection device.

In other words, as shown in FIG. 3, the pressurized air pressurized by the air blowing port 421 is discharged to the jetting port 424 side with a strong pressure, so that the air pressure inside the jetting duct 420 drops and the ambient air inflow port 423 side The ambient air existing outside is sucked into the injection duct 420 along with the pressurized air to be discharged to the injection port 424 side together with the pressurized air so that the wet air supplied through the wet air inlet 422 passes through the pressurized air and the surrounding air So that it is concentratedly injected into the injection port 424 with a strong pressure.

Therefore, the humidified air along with the pressurized air and the ambient air is concentratedly injected toward the front side with a strong pressure along the inside of the injection port 424, thereby improving the humidification and moisturizing effect by the wet air.

2 or 3, the jet port 421 is provided with a jet port 424 so as to discharge compressed air forwardly along the jet port 424 in a strong pressure so as to be able to concentrate the wet air into one place As shown in Fig.

The inner wall 425 of the injection duct 420 which becomes the outer wall of the blowing duct 410 and serves as the inner wall of the injection duct 420 has the first inner wall 425a and the second inner wall 425b, The end of the first inner wall 425a is formed to be inclined toward the air blowing duct 410 and the end of the second inner wall 425b is formed in an inclined surface having an inclination angle corresponding to the end of the first inner wall 425a, Is preferably formed.

Although not shown in the drawing, the air outlet 421 is formed in the inner wall of the injection duct 420 so that the compressed air can be vortexed forward along the jet opening 424, May be formed in a spiral shape of one or more turns.

Lastly, the negative ion generator 500 generates negative ions inside the upper case 400. That is, the negative ion generator 500 generates negative ions according to the operation so that the negative ions are injected forward along the injection port 424 together with the pressurized air.

Accordingly, the pores of the skin are expanded by the negative ions generated in the negative ion generator 500 and sprayed together with the humid air, so that the moisturizing effect through the wet air can be further enhanced and the inside of the upper case 400 can be sterilized So that the upper case 400 can be kept clean.

1 and 2, the upper case 400 may further include an ultraviolet lamp 600 having an antiseptic function and a pore opening function by irradiating ultraviolet rays and generating ozone.

At this time, the ultraviolet lamp 600 exposes a part of the ultraviolet rays and ozone to the outside so that the inside of the upper case 400 and the wetting air can be supplied to the skin, It is preferable that it is installed along the outside of the jetting port 424.

As shown in FIGS. 1 and 2, the upper case 400 or the lower case 100 penetrates deeply into the skin to inflate microvessels and promote blood circulation. An infrared ray lamp 700 may be further provided.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various other modified embodiments according to the technical idea of the invention described in the following claims.

100: Lower case
110: aquarium
200: Moisture absorption member
300: humid air generator
400: upper case
410: blowing duct
411: blowing fan
412: Support
420: injection duct
421:
422: wet air inlet
423: Ambient air inlet
424:
425: Inner wall
425a: first inner wall
425b: second inner wall
500: Negative ion generator
600: ultraviolet lamp
700: Infrared lamp

Claims (5)

A lower case provided with a water tank in which water is stored;
A water absorbing member installed in the water tank such that an upper end of the water absorbing member is exposed through the upper part of the water tank to absorb water in the water tank;
A humid air generator installed at an upper end of the water absorbing member to generate humid air from the water absorbed in the water absorbing member;
A blowing duct having an upper portion of the water absorbing member and a wet air generator installed in an upper portion of the lower case and having a blowing fan installed on the upper side thereof and a support member supporting the wet air generator and the water absorbing member on the lower side, The air blowing duct is formed so as to communicate with the air blowing duct so that the pressurized air that is pressure-fed by the blowing fan is discharged to the inside, and the wet air generated from the wet air generator is blown An upper case having a wetting air inlet formed therein to flow inwardly and having a peripheral air inlet into which the outside air is introduced, and a jetting duct having a jetting port in which humid air is blown out together with the pressurized air and the outside air; And
And an anion generator installed inside the upper case to generate an anion to cause the anion to be sprayed through the injection port together with the humid air. The method according to claim 1,
The upper case
And an ultraviolet lamp is further installed along the outside of the jetting port. The method according to claim 1,
The upper case or the lower case
Wherein an infrared lamp is further installed. 4. The method according to any one of claims 1 to 3,
The outlet
And the pressurized air is inclined toward the jetting port so as to be discharged toward the jetting port side. 5. The method of claim 4,
The outlet
Wherein the pressurized air is formed into a spiral shape along the inside of the jetting duct while being discharged while generating a vortex toward the jetting port side.

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