KR101423288B1 - Apparatus for humid air injection - Google Patents

Abstract

The objective of the present invention is to provide an apparatus for jetting moist air, which can supply moist air to a target intensively by minimizing dispersion of the moist air when the moist air is jet, and can further improve efficiency of the injection of the humid air by stimulating evaporation of the humid air. The apparatus of the present invention includes: a case which has an air vent at one side, and has an injection hole formed in the front, and has an inlet formed in the rear; an air supply part for supplying air to the air vent by being installed adjacently to the air vent; an injection duct formed toward the inlet from the injection hole; an inflow duct which is formed toward the injection duct from the inlet, as being separately from an end of the injection duct, and forms a space for inducing the air supplied to the air vent to be jet toward the injection duct, and has a spraying hole spraying the moist air in the bottom; a storage container which is comprised in the lower part of the case, and stores water; a moisture supply guide for linking the storage container and the spraying hole; a moisture absorption member which is comprised in the moisture supply guide, and absorbs moisture from the storage container and then supplies the moisture to an upper part; and a moist air supply member which is comprised on an upper part of the moisture absorption member, and jets moist to the spraying hole by generating the moist air with the supplied moisture.The moist air sprayed from the spraying hole by the air jet to the space is jet through the injection hole.

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 capable of generating wet air and jetting it to a target portion.

2. Description of the Related Art Humidifying devices for domestic and cosmetic moisturizing are generally in the form of portable appliances having a case including a water tank for storing water and a blowing fan for spraying wet air through the case. The stored water is humidified by ultrasonic waves or heating, and wet air enters the air stream passing through the atomizer by a blowing fan and is sprayed to the surrounding environment.

Such a conventional humidifying device has a problem that the flow rate of wetted air to be sprayed is small and is sprayed only to the periphery of the humidifying device. To improve this, Korean Patent No. 10-1290625 entitled "Humidifier"

The above-mentioned "humidifying device" has a structure in which a nozzle for forming an air flow in a fanless shape is provided in front of a humidifier for spraying humid air using a coanda effect, To allow the user to experience a sharp increase in relative humidity in a near-field environment.

However, the above-mentioned "humidifying device" has a problem in that humid air is sprayed from the rear of the nozzle to generate humid air that does not flow into the nozzle, and the diameter of the nozzle is inevitably increased in order to completely introduce the wetted air to be sprayed into the nozzle have.

In addition, since the nozzle forms airflow by the coanda effect, the humidifying air released through the nozzle spreads to the surrounding environment, and thus the wet air can not be provided intensively at the target point.

Korean Patent No. 10-1290625 (Jul. 23, 2013) Korean Patent No. 10-0877395 (December 29, 2008)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a method and apparatus for minimizing the dispersion of wetted air when sprayed, And an object of the present invention is to provide a wet air injection device capable of further improving the efficiency.

According to an aspect of the present invention, there is provided a wet air injection device comprising: a case having a blowing port formed at one side thereof, a jetting port formed at a front side thereof, A blowing unit installed adjacent to the blowing hole to supply airflow to the blowing hole; An injection duct formed toward the inlet port from the injection port; A spray hole formed at the inlet port toward the spray duct and spaced apart from an end of the spray duct to form a space for guiding the airflow supplied to the air outlet port to the spray duct side, Inlet duct; A reservoir provided at a lower portion of the case to store water therein; A water supply guide communicating the reservoir and the spray hole; A water absorbing member provided in the water supply guide to absorb moisture from the reservoir and supply it to the upper portion; And a wet air supplying member for spraying the wet air into the spray hole, the wet air being sprayed from the spray hole by the air stream injected into the space, As shown in FIG.

The injection duct may include a horizontal portion formed horizontally toward the inlet port from the injection port, and an extended inclined portion formed from the horizontal portion and formed to be gradually expanded in cross section.

A case in which a blowing port is formed on one side, a jetting port is formed on the front surface, and an inflow port is formed on the rear surface; A blowing unit installed adjacent to the blowing hole to supply airflow to the blowing hole; A spray duct formed at the injection port toward the inlet and having a spray hole for spraying wet air thereunder; An inflow duct formed in the inflow port toward the injection duct and spaced apart from the end of the injection duct to form a space for guiding airflow supplied to the air blowing port to the injection duct side; A reservoir provided at a lower portion of the case to store water therein; A water supply guide communicating the reservoir and the spray hole; A water absorbing member provided in the water supply guide to absorb moisture from the reservoir and supply it to the upper portion; And a wet air supplying member for spraying the wet air into the spray hole, the wet air being sprayed from the spray hole by the air stream injected into the space, As shown in FIG.

The inflow duct may be formed to extend from the rear of the inflow port toward the injection duct, and the inflow duct may be gradually reduced in cross section.

And a plurality of discharge holes are formed around the jetting port on the case front surface.

As described above, according to the present invention, the following effects can be expected.

The humidification and moisturizing effect can be expected at the target site even at a position apart from the wet air dispersing device of the present invention by supplying the wet air intensively to the target site.

Since the spray hole is located at the lower portion of the inflow duct and can be sprayed with the spray duct, the wet air can be prevented from being lost to the outside of the case and the diameter of the spray duct can be reduced, There is an advantage.

In addition, the wet air spraying apparatus of the present invention can moisturize the hair by moisturizing and moisturizing the skin.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a longitudinal sectional view showing a first embodiment of the present invention. Fig.
Fig. 2 is an enlarged view of the case 100 of Fig.
Fig. 3 is a sectional side view of a second embodiment of the present invention. Fig.
4 is an enlarged view of the case 100 of Fig.

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

1 showing a first embodiment of the present invention as a central longitudinal section and FIG. 2 showing an enlarged view of a case 100 of FIG. 1, the first embodiment of the present invention comprises a case 100, (200), a spray duct (300), an inlet duct (400), a reservoir (500), and a moisture supply guide (600).

First, the case 100 has a tuyere 110 formed at one side thereof to enable supply of airflow to the inside thereof. An injection port 130 is formed on the front surface of the case 100 and an inlet port 150 is formed on the rear surface of the case 100 so that ambient air introduced into the inlet port 150 can be discharged to the injection port 130.

Next, the air sending unit 200 is provided with a chamber (not shown) communicating with the tuyere 110, which is provided adjacent to the tuyere 110 and supplies air to the tuyere 110, And a fan or an impeller (not shown) installed to rotate and generate an airflow.

The injection duct 300 is formed in a tubular shape from the injection port 130 toward the inlet 150 and includes a horizontal portion 310 and an extended inclined portion 330.

The horizontal portion 310 is formed toward the inlet 150 from the injection port 130 and extends horizontally to the rear of the injection port 130. The extended inclined portion 330 is formed to extend rearward from the end portion of the horizontal portion 310 and gradually expand the cross section. The longitudinal inclined portion 330 may be inclined upwards at a predetermined slope or may have a certain curvature.

The inlet duct 400 is formed in a tubular shape extending from the inlet 150 toward the injection duct 300 and spaced apart from the end of the injection duct 300 so that the airflow supplied to the outlet 110 Thereby forming a space S to be sprayed. 2, the cross-sectional area of the end portion of the inflow duct 400 is smaller than the cross-sectional area of the end portion of the extended inclined portion 330 Sectional area.

A spray hole 410 for spraying wet air is formed in the lower portion of the inflow duct 400 to allow the inflow of the wet air into the inflow duct 400.

As shown in FIG. 1, the spray hole 410 is formed at a lower portion of the inflow duct 400 on the longitudinal center line of the inflow duct 400, And is formed at a position corresponding to the longitudinal center of the case 100.

The space S formed between the extended inclined portion 330 of the injection duct 300 and the inlet duct 400 causes the airflow supplied to the air outlet 110 to be injected toward the injection duct 300 So that the air on the side of the inlet port 150 can flow into the injection port 130.

Next, the reservoir 500 is provided at the other side of the case 100 to provide a space for storing water. For the convenience of manufacturing, the reservoir 500 is preferably provided under the case 100.

The water supply guide 600 communicates the low-water receptacle 500 with the spray hole 410 and includes a water absorbing member 630 and a wet air supplying member 610 therein.

The water absorbing member 630 is made of a material which absorbs water of the low-water cistern 500 and supplies the water to the upper portion and absorbs moisture such as cotton.

The wet air supply member 610 is provided adjacent to the upper portion of the water absorbing member 630, that is, the spray hole 410, and generates wet air by spraying the sprayed water into the spray hole 410. The wet air supply member 610 may be formed of an ultrasonic vibrator having a small space occupied by the wet air supply member 610 and generating wet air by generating ultrasonic waves in water to granulate moisture.

Hereinafter, the operation of the first embodiment of the present invention will be described.

The airflow generated in the air sending unit 200 is injected into the injection duct 300 through the space S through the interior of the case 100. As the airflow speed rapidly increases, The inner pressure is lowered to form a low-pressure region. Air flows around the inflow port 150 into the inflow duct 400 and flows through the inflow duct 300 through the injection duct 300 because the air flows from a place where the airflow is slow (high pressure) to a fast place (low pressure) (130).

When wet air generated in the humid air supply member 610 is sprayed toward the inflow duct 400 through the spray hole 410, the inflow duct 300 is blown by the airflow in the inflow duct 400, And is then injected into the injection port 130.

Here, the wet air sprayed to the inflow duct 400 is promoted to vaporize in a low-pressure region before being sprayed to the injection port 130, so that the efficiency of spraying the wetted air into the injection port 130 can be further improved, The air can be vaporized and the temperature can be further lowered. In the experiment of the present inventor, it was confirmed that the temperature of the humidified air injected from the injection port 130 is lowered to 18.6 ° C when the temperature around the case 100 is 25.1 ° C.

As the cross-sectional area of the injection duct 300 and the inlet duct 400 is reduced, the injection of wet air may be more effective.

Hereinafter, a second embodiment of the present invention will be described in detail. Prior to the description, the description overlapping with the first embodiment of the present invention will be omitted.

As shown in Fig. 3 showing a second embodiment of the present invention in a central longitudinal section and Fig. 4 showing an enlarged view of the case 100 of Fig. 3, the first embodiment of the present invention is a case 100, And a water supply guide 600. The water supply duct 600 includes a water supply duct 200, an injection duct 300 ', an inlet duct 400', a water storage 500, and a water supply guide 600.

The spray duct 300 'is formed in a tubular shape in the rear direction of the injection port 130 and has a spray hole 310' through which moist air is sprayed.

3, the spray hole 310 'is formed in the longitudinal direction of the injection duct 300', as shown in FIG. 3, because the spray hole 310 ' And is formed at a lower portion on the center line, corresponding to the longitudinal center of the case 100.

The inlet duct 400 'is formed in a tubular shape from the inlet 150 toward the injection duct 300' and spaced apart from the end of the injection duct 300 'to be supplied to the outlet 110 Thereby forming a space S into which the airflow is injected toward the injection duct 300 '.

In detail, the inflow duct 400 'is formed from the rear of the inflow port 150 toward the injection duct 300', and is gradually reduced in cross section. 4, the cross-sectional area of the end of the inflow duct 400 'is relatively smaller than the cross-sectional area of the end of the injection duct 300', and the inflow duct 400 ' It may be inclined or formed to have a certain curvature. The end of the inflow duct 400 'is spaced apart from the end of the injection duct 300' to form the space S.

The space S formed between the injection duct 300 'and the inlet duct 400' causes the airflow supplied to the air outlet 110 to be injected toward the injection duct 300 ' So that air can flow into the injection port 130.

Next, the water supply guide 600 communicates the low-water cistern 500 with the spray hole 310 ', and a water absorbing member 630 and a wet air supplying member 610 are provided therein.

The wet air supply member 610 is provided adjacent to the upper portion of the water absorbing member 630, that is, the spray hole 310 ', and generates wet air by spraying the wet air into the spray hole 310'. The wet air supply member 610 may be formed of an ultrasonic vibrator having a small space occupied by the wet air supply member 610 and generating wet air by generating ultrasonic waves in water to granulate moisture.

Hereinafter, the operation of the second embodiment of the present invention will be described.

First, the airflow generated in the air sending unit 200 is injected into the injection duct 300 'through the space S through the interior of the case 100. As the speed of the airflow rapidly increases, the injection duct 300 Pressure region is lowered to form a low-pressure region. Air flows around the inlet duct 150 into the inlet duct 400 'so that the injection duct 300' flows through the inlet duct 150 'because the air flows from a low velocity (high pressure) to a high velocity (low pressure) (Bernoulli's theorem) And is then injected into the injection port 130.

When the wet air generated in the wet air supply member 610 is sprayed to the injection duct 300 'through the spray hole 310', the airflow in the injection duct 300 ' ).

Here, the wet air sprayed to the injection duct 300 'is vaporized in a low-pressure region before being sprayed to the injection port 130, so that the efficiency of spraying the wetted air into the injection port 130 can be further improved, The humidified air is accelerated and the temperature is further lowered.

A plurality of discharge holes (not shown) are formed around the injection port 130 on the front surface of the case 100 of the first and second embodiments of the present invention so that the airflow generated in the discharge unit 200 100 without causing stagnation.

As described above, the basic technical idea of the present invention is to minimize the dispersion of the humid air when the humid air is injected, so that the humid air can be intensively supplied to the target site, It is possible to provide a wet air injection device capable of promoting the vaporization of wet air and further improving the efficiency of spraying wet air.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the scope of the present invention should be construed as being within the scope of the appended claims to cover various modifications.

100: Case 110: Tuyere
130: jetting port 150: inlet
200:
300: injection duct 310: horizontal part
330: Extended ramp
400: inlet duct 410: spray hole
500: That canister
600: moisture supply guide 610: wet air supply member
630: Water absorption member
S: Space
300 ': injection duct 310': spray hole
400 ': inlet duct

Claims (5)

A case 100 in which a blowing port 110 is formed at one side, a jetting port 130 is formed at a front side, and an inflow port 150 is formed at a rear side;
A blowing unit 200 provided adjacent to the blowing hole 110 to supply airflow to the blowing fan 110;
A jetting duct 300 formed toward the inlet port 150 from the jetting port 130;
A space formed in the inlet 150 toward the injection duct 300 and spaced apart from the end of the injection duct 300 to guide the air supplied to the air outlet 110 to the injection duct 300 S, and a spray hole 410 through which wet air is sprayed is formed at a lower portion of the inlet duct 400;
A reservoir 500 provided at the other side of the case 100 for storing water;
A water supply guide 600 for communicating the low-water bottle 500 and the spray hole 410;
A water absorbing member 630 provided in the water supply guide 600 to absorb water from the water storage tank 500 and supply the water to the upper portion; And
And a humid air supply member 610 provided at an upper portion of the water absorbing member 630 to generate humidified air by spraying water into the mist hole 410,
Characterized in that the wet air sprayed from the spray hole (410) is injected into the injection port (130) by the air flow injected into the space (S). The method according to claim 1,
The injection duct (300)
A horizontal part 310 formed horizontally from the injection port 130 toward the inlet 150,
And an enlarged inclined portion (330) formed from the horizontal portion (310) and having a gradually enlarged cross section. A case 100 in which a blowing port 110 is formed at one side, a jetting port 130 is formed at a front side, and an inflow port 150 is formed at a rear side;
A blowing unit 200 provided adjacent to the blowing hole 110 to supply airflow to the blowing fan 110;
A jetting duct 300 'formed in the jetting port 130 toward the inflow port 150 and having a spray hole 310' for spraying wet air thereunder;
Is formed so as to be directed toward the injection duct 300 'from the inlet 150 and is spaced apart from the end of the injection duct 300' so that the airflow supplied to the air outlet 110 is injected toward the injection duct 300 ' An inlet duct 400 'for forming a space S to be formed;
A reservoir 500 provided at the other side of the case 100 for storing water;
A water supply guide 600 for communicating the low-water tub 500 and the spray hole 310 ';
A water absorbing member 630 provided in the water supply guide 600 to absorb water from the water storage tank 500 and supply the water to the upper portion; And
And a wet air supply member 610 provided at an upper portion of the water absorbing member 630 to spray wet air into the spray hole 310 '
Characterized in that wet air sprayed from the spray hole (310 ') is injected into the injection port (130) by the air flow injected into the space (S). The method of claim 3,
The inlet duct 400 '
Is formed to extend from the rear of the inlet (150) toward the injection duct (300 ') and is formed to have a gradually reduced cross section. The method according to claim 1 or 3,
Wherein a plurality of exhaust holes are formed around the injection port (130) on the front surface of the case (100).

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