KR101946716B1 - humidifying device using electro-analysised water - Google Patents

Abstract

The present invention relates to a humidification apparatus for a large space using electrolyzed water, which comprises: a main body unit (10) wherein a discharge hole (11) is formed toward an upper side; an electrolyzed water generation unit (20) installed in the main body unit (10) and generating electrolyzed water; a water tank (30) installed in the main body unit (10), wherein the electrolyzed water generated from the electrolyzed water generator (20) is stored; an evaporation unit (40) for evaporating the electrolyzed water stored in the water tank (30) to an electrolyzed water particle; an evaporation operating unit (50) installed in the main body unit (10) and operating the evaporation unit (40) to perform an evaporation operation; and an air blowing unit (60) guiding outdoor air to the discharge hole (11) through the evaporation unit (40).

Description

[0001] The present invention relates to an electro-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolytic water-to-water humidifying device, and more particularly to an electrolytic water-to-water humidifying device capable of hygienically humidifying a large space of several tens of pyong.

Generally, in a large space such as an office, a lot of people look at work, and therefore, efforts are made to create a pleasant environment in order to improve work efficiency. For this purpose, a hot air heater or a heater is operated in a cold season such as a season of change, and an ultrasonic humidifier is used to increase the humidity of the dry air. Such an ultrasonic humidifier adopts a method in which water supplied from a water reservoir is vaporized by using an ultrasonic element. A prior art related to this is disclosed in Utility Model Publication No. 20-1999-008087 entitled Industrial Ultrasound Humidifier with External Air Suction Duct.

However, in the case of the ultrasonic humidifier, the amount of water that can be accommodated in the water reservoir is only a few liters, so that the humidification amount is small. Accordingly, a plurality of humidifiers are provided in order to humidify a wide space.

In addition, the water stored in the water reservoir rapidly multiplied the rate of propagation of the bacteria after a few hours, and the bacteria contaminated the humidified ambient air, causing a bronchial disease such as a cold.

In addition, since the water particles generated from the ultrasonic humidifier are large, the humidifier can not be delivered far away from the humidifier. Therefore, the humidifier is excessively humidified and a lot of water drops are formed, and the remote location is excessively dried there was.

The present invention has been created in order to satisfy the above-mentioned need, and it is an object of the present invention to fundamentally prevent the generation of bacteria in water for humidification, thereby preventing contamination of the air during humidification and transferring humidified air to a remote space And an object thereof is to provide an electrolytic water-to-water space humidifying device capable of efficiently humidifying a large space.

Another object of the present invention is to provide an electrolytic water-to-water humidifying device capable of automatically reducing the labor for filling water by supplying water for humidification.

In order to achieve the above object, an electrolytic water-to-water humidifying device according to the present invention includes: a body portion 10 having a discharge port 11 formed at an upper side thereof; An electrolytic water generating unit 20 installed in the body 10 for generating electrolytic water; A water tank 30 installed in the body 10 to store electrolytic water generated from the electrolytic water generating unit 20; A vaporizer 40 for vaporizing the electrolytic water stored in the water tank 30 by an electrolytic importer; A vaporizing operation unit 50 installed on the body 10 to operate the vaporizing unit 40 to perform a vaporizing operation; And a blowing part (60) for guiding the outside air to the discharge port (11) side via the vaporizing part (40).

In the present invention, the body portion 10 further includes a front receiving groove 12 which is open to the front side and accommodates the water tub 30 in a draw-out manner.

In the present invention, the body 10 includes a hopper inlet 13 formed at the upper side of the front receiving groove 12 to guide water to be introduced into the water tank 30, 13 which opens or closes the lid.

In the present invention, the electrolytic water producing unit 20 includes an electrolytic bath 22 having a plurality of first and second electrodes 21a and 21b embedded therein; A main connector (23) for connecting a raw water supply line (H) to which raw water is supplied to the electrolytic bath (22); An electrolytic water discharge pipe (24) for discharging the electrolytic water electrolyzed in the electrolytic bath (22) to the water tank (30); And a solenoid valve (25) installed between the electrolytic bath (22) and the main connector (23) to selectively block supply of the raw water.

The ventilation part 60 may include a ventilation bracket 61 installed in the body part 10 to surround the upper space discharge port 11 and having a ventilation hole 61a formed on the front side thereof; And an air circulator (62) installed on the vent bracket (61) and projecting to the vent hole (61a).

The electrolytic water collecting unit 70 may further include an electrolytic water collecting unit 70 for collecting the electrolytic water of the water tank 30 to the electrolytic water producing unit 20, (71); A second connector 72 installed inside the front receiving groove for automatically attaching and detaching the first connector 71 when the water tub 30 is fully engaged with the front receiving groove 12; A collecting pump 73 connected to the second connector 72 and collecting the electrolytic water stored in the water tank 30 through the first and second connectors 71 and 72 to the electrolytic water generating unit 20; .

The present invention further includes a level measuring sensor 80 for generating a level signal for controlling the solenoid valve 25 so as to maintain the plurality of disks 42 in a locked state by a predetermined depth.

The turbidity measuring sensor 90 may further include a turbidity measuring sensor 90 for measuring the turbidity of the electrolytic water stored in the water tank 30 to generate a turbidity signal.

In the present invention, the ultrasonic generator 100 may further include an ultrasonic generator 100 for supplying ultrasonic waves to the electrolytic water stored in the water tank 30.

According to the present invention, the electrolytic water is not harmful to the human body because bacteria and viruses can not survive due to their characteristics, and electrolytic water is vaporized to fundamentally prevent the propagation of bacteria and viruses during use for humidification, thereby realizing a pleasant aseptic humid environment .

In addition, when the outside air passes through the plurality of disks constituting the vaporizing part, the dust contained in the air is changed to the surface of the disk. Such dust is separated into electrolytic water every time the disk is rotated and locked in the electrolytic water, To perform an air purifying function for removing dust in the air. Especially, since the electrolytic water removes the odor component contained in the air, the odor removing effect can be expected.

In addition, since raw water can be directly supplied to the water tank, it is possible to omit troublesome processes such as filling water in the water tank, and management is easy.

And the humidified air is transferred to a long distance by the air circulator, so that the large space can be effectively humidified.

1 is a view for explaining a configuration of an electrolytic water-to-water humidifying device according to the present invention,
Fig. 2 is a front view of the humidifying device of Fig. 1,
FIG. 3 is a view for explaining how the water tray in the body part of FIG.
Fig. 4 is a plan view showing the water tank of Fig. 3,
5 is a view for explaining the structure of the water tank of FIG. 4;

Hereinafter, an electrolytic water-to-water humidifying device according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view for explaining a configuration of an electrolytic water-to-water space humidifying device according to the present invention, and FIG. 2 is a front view of the humidifying device of FIG. 3 is a plan view illustrating the water tank of FIG. 3, and FIG. 5 is a cross-sectional view of the water tank of FIG. FIG.

As shown in FIG. 1, the large space humidifying device using electrolytic water according to the present invention includes a body 10 having a discharge port 11 formed at an upper side thereof; An electrolytic water generating unit 20 installed in the body 10 for generating electrolytic water; A water tank 30 installed in the body 10 to store the electrolytic water generated from the electrolytic water generating unit 20; A vaporizer 40 for vaporizing the electrolytic water stored in the water tank 30 with an electrolytic importer; A vaporizing operation part 50 installed in the body part 10 to operate the vaporizing part 40 to perform a vaporizing operation; A blowing section (60) for guiding the outside air to the discharge port (11) side via the vaporizing section (40); An electrolytic water recovery unit 70 for recovering electrolytic water in the water tank 30 to the electrolytic water production unit 20 to increase the electrolytic concentration of the electrolytic water stored in the water tank 30; A water level measuring sensor 80 for measuring a water level of the electrolytic water stored in the water tank 30 and generating a corresponding water level signal; A turbidity measuring sensor 90 for measuring the turbidity of the electrolytic water stored in the water tank 30 and generating a turbidity signal; An ultrasonic generator 100 for ultrasonically vaporizing the electrolytic water stored in the water tank 30; And a controller for collectively controlling the above-described configurations.

The large space humidifying device of the present invention humidifies a large space where many people such as an office or a factory of tens of pyong or more view the work and is used for humidifying water of several tens liters or more per day.

The body 10 includes a front receiving groove 12 which opens forward to open and close the water tray 30 in a drawer form and a front receiving groove 12 which is formed on the upper side of the front receiving groove 12, A hopper inlet 13 for guiding the introduced water to the water tank 30 side and a lid 14 for opening or closing the hopper inlet 13. A slider (not shown) for slidably supporting the water tub 30 is provided in the front receiving groove 12 so that the water tub 30 can be protruded and drawn out in the front receiving groove 12, Respectively.

The hopper input port 13 is for easily supplying water from the outside to the water tub 30 when the place where the large space humidifying device is installed is a place where the raw water supply line is not connected, Is placed on the upper side of the water tank (30) immersed in the water tank (12). When water is poured into the hopper inlet 13, water is supplied to the water tank 30 and stored.

The lid 14 opens and closes the hopper input port 13 so that when the hopper input port 13 is opened, water can be input. When the hopper input port 13 is closed, To be introduced through the intake groove 32 to be described later.

On the other hand, an ejection guider 15 communicating with the ejection opening 11 may be provided on the upper side of the body 10. As the discharge guider 15, an electrolytic importer vaporized by the vaporization unit 40 to be described later is discharged to humidify the surroundings.

The electrolytic water generating unit 20 generates electrolytic water to be supplied to the water tank 30. The electrolytic water generating unit 20 includes a plurality of pairs of opposing first electrodes 21a and second electrodes 21b, A main connector 23 for connecting the raw water supply line H to which the raw water is supplied to the electrolytic bath 22 and electrolytic water for electrolyzing the electrolytic water electrolyzed in the electrolytic bath 22 into the water tank 30, A discharge pipe 24 and a solenoid valve 25 provided between the electrolytic bath 22 and the main connector 23 for selectively blocking the supply of raw water.

The electrolytic water generated in the electrolytic water producing unit 20 sterilizes pathogenic bacteria and fungi such as bacteria and viruses and has harmless / non-toxic / non-irritating properties. Therefore, when the electrolytic water is vaporized and the surroundings are humidified, Removes germs to create a pleasant environment.

The raw water supply line H is directly connected to the electrolytic bath 22 and the electrolytic water discharge pipe 24 is opposed to the inside of the water bath 30. [ The raw water supplied to the raw water supply line H is converted into electrolytic water in the electrolytic water generating unit 20 and then supplied to the water tank 30 through the electrolytic water discharge pipe 24 so that water is repeatedly filled And the like can be prevented.

5, the water tank 30 is detachably attached to the front receiving groove 12 so as to be capable of being detached and rotatably mounted on the inside thereof, And a detachable support groove 31 is formed.

Since the humidifying device of the present invention humidifies the large space of several tens of pyong or more, the amount of water consumed is very large to the extent of tens of liters, and the water tank 30 must have a large size so as to store tens of liters of water. Therefore, it is practically very difficult to remove the water tank 30 from the body part 10 for cleaning or maintenance. Thus, the water tank 30 is installed in the body part 10 so as to protrude and retract from the body part 10.

A plurality of guide grooves 32 for guiding the flow of the air introduced into the intake grooves 32 to the vaporizer 40 are formed on the upper side of the water tank 30, Is formed.

The attachment / detachment support groove 31 has a shape in which a shaft portion 41 for supporting a plurality of disks 42 is detachably and rotatably supported and opened to the upper side.

The intake groove 32 forms a flow path for allowing the outside air to flow into the vaporizing section 40 inside the water tub 30. [ At this time, the intake groove 32 may be provided with a filter 32a for removing the ambient air when it is very polluted or contains odor.

The guide vane 33 guides the flow path so that the external air that is drawn in through the intake groove 32 passes through the plurality of disks 42. 1 and 4, the guide vane 33 extends inward from the upper end of the water tank 30 on the intake groove 32 side to cover a part of the upper side of the plurality of disks 42 .

The vaporizing unit 40 is for vaporizing the electrolytic water stored in the water tank 30 into a micro electrolytic importer for humidification. 4 and 5, the vaporizing portion 40 includes a shaft portion 41 that is detachably attached to the attaching / detaching support groove 31, an electrolytic water storage portion that is supported so as to be spaced apart from the shaft portion 41, A plurality of partially locked disks 42, and a driven gear 43 coupled to the shaft 41.

A plurality of protrusions 42a are formed on the surface of the disc 42. The protrusions 42a increase the surface area of the disc 42 to quickly vaporize the water on the surface of the disc 42. [ In this case, the particles of water vaporized are much smaller than the particles of water evaporated by the conventional ultrasonic method or water evaporated by the heating method.

Here, while the outside air passes through the disk 42, the dust contained in the air is diffused to the surface of the disk 42, and this dust is separated into the electrolytic water when the disk 42 is rotated and locked with the electrolytic water . That is, the dust contained in the outside air is filtered by the electrolytic water stored in the disk 42 and the water tank 30, and thus can perform the same function as the air purifier that purifies the air.

The vaporizing operation part 50 is installed in the body part 10 to operate the vaporizing part 40 to perform a vaporizing operation and includes a geared motor 51 built in an inner body of the front receiving groove 12, And a driven gear (53) axially coupled to the geared motor (51) and geared to the driven gear (43) of the vaporizing part. At this time, the driven gear 53 is engaged with the driven gear 43 when the water tub 30 is fully engaged with the front receiving groove 12 and the water tub 30 is moved out of the front receiving groove 12 And is disengaged from the driven gear 43 as it is. The vaporization operating portion 50 is slowly rotated at a rotating speed of 5 to 20 rpm on the disk 42. [

The air evacuating section 60 guides outside air of the body section 10 to the discharge port 11 side via the vaporizing section 40 so as to promote vaporization in the vaporizing section 40 and to jet the vaporized electrolytic water particles to the front side . The ventilation part 60 includes a ventilation bracket 61 which is installed in the body part 10 while surrounding the ventilation opening 11 and has a ventilation hole 61a formed on the front side thereof; An air circulator 62 provided in the ventilation bracket 61 and projecting to the ventilation hole 61a and a vent hole 63 formed in the rear side of the ventilation hole 61a.

The ventilation bracket 61 has a space formed therein and is rotatably installed in the body 10 on the upper side of the discharge port 11.

The air circulator 62 moves the air to a distance of 20 m or more by imparting straightness to the inhaled air, and has a structure similar to that of, for example, the product sold under the trade name BONEDO, so that further detailed description will be omitted. The air circulator 62 is connected to the ventilation bracket 61 by a hinge h and pivoted vertically. That is, the blowing section 60 can be rotated 360 degrees with respect to the body section 10, and the circulator 62 can be vertically rotated about the hinge h with respect to the ventilation bracket 61, The air can be transported to a long distance in all four directions.

The vent hole 63 is for supplying air to the air circulator 62 on the rear side of the air blowing portion 60 and supplies air for transporting the electrolytic importer to a longer distance.

When the air circulator 62 operates, a negative pressure is formed inside the ventilation bracket 61 and a negative pressure forms a negative pressure inside the water tub 30 through the discharge port 11, 30) is drawn into the water tub (30) through the intake groove (32). This intake air vaporizes and electrolyzes the electrolytic water through the vaporizing section 40. The granular electrolytic importer is transported to a long distance through the discharge port 11, the ventilating bracket 61 and the air circulator 62, It is possible to humidify a large space.

The electrolytic water recovery unit 70 is for recovering the electrolytic water of the water tank 30 to the electrolytic water production unit 20 so as to increase the electrolytic concentration of the electrolytic water stored in the water tank 30. The electrolytic water recovering unit 70 includes a first connector 71 installed in the water tank 30; A second connector 72 which is installed inside the front receiving groove 12 and in which the first connector 71 is automatically attached and detached when the water tray 30 is fully engaged with the front receiving groove 12; And a recovery pump 73 connected to the second connector 72 and recovering the electrolytic water stored in the water tank 30 to the electrolytic water production unit 20 through the first and second connectors 71 and 72.

The level sensor 80 generates a level signal for controlling the solenoid valve 25 so as to keep the plurality of disks 42 locked by a certain depth. 3, the water level measuring sensor 80 includes a first water level measuring sensor 81 installed at a first lower position of the water tank 30 and a second water level measuring sensor 81 located at an upper side of the first water level measuring sensor 81 And generates a first level signal to fill the water tank 30 with the electrolytic water when the water level of the first electrolytic water L is at the first position, L is in the second position, the second water level signal is generated so that the electrolytic water is no longer supplied to the water tank 30. [ The first and second water level signals control the solenoid valve 25 so that the electrolytic water generating unit 20 generates only enough electrolytic water to fill the water tank 30 and at the same time, So that only the electrolytic water of the electrolytic bath remains in the stored state.

The turbidity measurement sensor 90 measures the turbidity of the electrolytic water stored in the water tank 30 of the tank to generate a turbidity signal. That is, as the plurality of discs 42 rotate, contaminants such as dust from the disc 42 are separated and collected into the electrolytic water L over time. As the amount of the contaminants increases, the turbidity of the electrolytic water And in this case, the turbidity measurement sensor 90 generates a turbidity signal.

The ultrasonic wave generator (100) is for raising the humidity of the space for initial humidification in a short time. That is, in parallel with the humidifying method of the natural evaporation method, the present invention drives humidification by the ultrasonic method when the ambient humidity is suddenly increased.

As described above, according to the present invention, since electrolytic water is not harmful to human body because bacteria and viruses can not survive due to its characteristics, electrolytic water can be vaporized to fundamentally prevent the propagation of bacteria and viruses while being used for humidification. Can be implemented.

In addition, in the course of the external air passing through the plurality of disks 42 constituting the vaporizing portion, the dust contained in the air becomes different from the surface of the disk 42. Such dust is generated when the disk 42 is rotated and is immersed in the electrolytic water The air is separated into electrolytic water, and as a result, performs an air purifying function to remove dust in the air during the humidification process. In particular, since the electrolytic water removes odor components contained in the air, the odor removing effect can be expected.

In addition, raw water can be directly supplied to the water tank 30, and troublesome processes such as filling water into the water tank 30 can be omitted, and management is easy.

By means of the air circulator, the humidified air can be transferred to a long distance to efficiently humidify the large space.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10 ... body part 11 ... outlet
12 ... front receiving groove 13 ... hopper inlet
14 ... Cover 20 ... Electrolyzed Water Generation Unit
21a, 21b ... First and second electrodes 22 ... Electrolyzer
23 ... main connector 24 ... electrolytic water outlet line
25 ... Solenoid valve 30 ... Tank
31 ... detachable support groove 32 ... intake groove
33 ... guide wing 40 ... vaporizer
41 ... shaft portion 42 ... disk
42a ... projection 43 ... driven gear
50 ... vaporization operating part 51 ... geared motor
53 ... driven gear 60 ... enriched gear
61 ... ventilation bracket 61a ... ventilation hole
62 ... air circulator 63 ... air vent
70 ... Electrolytic water recovery unit 71 ... First connector
72 ... second connector 73 ... withdrawal pump
80 ... water level sensor 81, 82 ... first and second water level sensor
90 ... turbidity measurement sensor 100 .. ultrasonic wave generator

Claims (9)

A body portion 10 having a discharge port 11 formed on an upper side thereof;
An electrolytic water generating unit 20 installed in the body 10 and connected to a raw water supply line H to supply raw water and generating electrolytic water;
A water tank 30 installed in the body 10 and storing the electrolytic water generated from the electrolytic water generating unit 20 and having an intake groove 32 through which external air flows into the front side;
A vaporizer 40 for vaporizing the electrolytic water stored in the water tank 30 by an electrolytic importer and having a plurality of disks 42 having a plurality of projections 42a formed on the surface thereof;
A vaporizing operation unit 50 installed on the body 10 to operate the vaporizing unit 40 to perform a vaporizing operation;
A blowing portion (60) for guiding the outside air to the discharge port (11) side via the vaporizing portion (40); And
And an electrolytic water recovery unit (70) for recovering the electrolytic water of the water tank (30) to the electrolytic water production unit (20)
The body portion 10 includes a front receiving groove 12 which is open to the front side and accommodates the water tub 30 in a draw-out form so as to protrude and retract, A hopper input port 13 for guiding the water to the water tub 30 side and a lid 14 for opening or closing the hopper input port 13,
The blowing part 60 is configured to rotate 360 degrees with respect to the body part 10 and is installed on the body part 10 while surrounding the discharge port 11 so that a ventilation hole 61a is formed on the front side And an air circulator (62) rotatably mounted on the vent bracket (61) so as to protrude into the vent hole (61a). delete delete The electrolyzer according to claim 1, wherein the electrolytic water producing unit (20)
An electrolytic bath 22 in which a plurality of first and second electrodes 21a and 21b are embedded;
A main connector (23) for connecting the raw water supply line (H) with the electrolytic bath (22);
An electrolytic water discharge pipe (24) for discharging the electrolytic water electrolyzed in the electrolytic bath (22) to the water tank (30);
And a solenoid valve (25) installed between the electrolytic bath (22) and the main connector (23) for selectively shutting off supply of the raw water. The portable terminal according to claim 1,
Further comprising a vent hole (63) formed in the rear of the vent hole (61a). The electrolytic water collecting apparatus according to claim 1, wherein the electrolytic water collecting unit (70)
A first connector (71) installed in the water tank (30);
A second connector 72 installed inside the front receiving groove 12 to automatically attach and detach the first connector 71 when the water tub 30 is fully engaged with the front receiving groove 12;
A collecting pump 73 connected to the second connector 72 and collecting the electrolytic water stored in the water tank 30 through the first and second connectors 71 and 72 to the electrolytic water generating unit 20; And an electrolytic water-to-water humidifying device. The method according to claim 1,
Further comprising a water level sensor (80) for generating a level signal for controlling the solenoid valve (25) so as to maintain the plurality of disks (42) locked to a certain depth. . The method according to claim 1,
Further comprising a turbidity measuring sensor (90) for measuring the turbidity of the electrolytic water stored in the water tank (30) and generating a turbidity signal. The method according to claim 1,
And an ultrasonic generator 100 for ultrasonically vaporizing the electrolytic water stored in the water tank 30 and driving the ultrasonic generator 100 in conjunction with the vaporizer 40 at the initial stage of driving to rapidly raise the humidity of the surrounding water. Electrolytic water vs. space humidifier.

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