KR101305891B1 - Air water system having air cleaner - Google Patents

Abstract

PURPOSE: An air water system equipped with an air purifier is provided to always use water generated by condensing and collecting moisture included in the air as raw water so that the water can be used as drinking water and indoor contaminated air can be purified. CONSTITUTION: An air water system equipped with an air purifier includes an air inlet unit, a water generation unit, a purifying unit, a storage unit (24), a purified water supply unit, a radiating unit, an air outlet unit, and an air filtering unit (60). The air inlet unit is connected to a ventilator and a duct so that indoor air and outdoor air are selectively provided. The water generation unit is formed to generate water by condensing moisture in the air provided from the air inlet unit. The storage unit is formed to receive and store the water generated in water generation unit. The purifying unit is formed to filter and purify the water stored in the storage unit to be drunk and used. The storage unit stores the water purified by the purifying unit. The purified water supply unit cools and heats the purified water in the storage unit. The radiating unit is formed in the rear side of the purified water supply unit to radiate heat generated by the operation of the purified water supply unit. The air outlet unit is formed in the same direction as the radiating unit to discharge the dry air where moisture is removed in the water generation unit. The air filtering unit is provided with the water and air stored in the storage unit and provides the air where foreign materials are removed.

Description

Air water system with air purifier {Air water system having air cleaner}

The present invention relates to an air water system equipped with an air purifier, and more particularly, to smoothly supply air to condense water vapor generated by condensing water vapor contained in the air to provide drinking water, while providing indoor contaminated air. The present invention relates to an air water system having an air purifying device capable of purifying.

In general, a device for obtaining water from water vapor contained in air and supplying it to drinking water includes a device for supplying air, a device for generating water from the supplied air, a device for purifying the generated water, and purified water. It consists of a device provided to the user.

Here, the device for supplying air supplies air to a blower fan or the like, and the device for generating water generates water by a heat exchanger and a compressor consisting of an evaporator and a condenser.

At this time, as the refrigerant compressed in the compressor moves to the heat exchanger, evaporation of the refrigerant occurs in the evaporator. Accordingly, as the temperature around the evaporator cools, water vapor in the air condensed on the surface of the evaporator is collected in a separate storage box to obtain condensed water.

The condensed water collected as described above is supplied to a device for purifying water and purified into water usable as drinking water, and the purified water is stored and supplied to a user, such as a reservoir, provided to the user.

As such, the apparatus for providing drinking water by using water vapor in the air is a device for releasing dry heat generated from the condenser in the process of converting the hot gas refrigerant sent from the compressor into a low temperature liquid refrigerant, and the water stored in the reservoir A device is provided for dissipating heat generated in the process of cooling or heating to a temperature of to allow a user to selectively use cold water or hot water.

Conventionally, as disclosed in Korean Patent Laid-Open Publication No. 2002-0068019, low-temperature dry air that has passed through a cold sink is heated to the outside temperature by a heat sink, air is purified by an ozone generator, and discharged to the outside through an exhaust port. By providing a dehumidifier, an air purifier having an air purifier for purifying dehumidified air is disclosed.

In other words, the above technique is to provide the purified state using the ozone generator in the process of discharging the heat (warm air) generated while generating water from the supplied air.

However, such an ozone generator alone has a problem in that it is difficult to substantially remove foreign substances contained in the air such as dust.

In addition, the device for removing foreign matter in the air by using the water filled in a separate tank has a problem that it is cumbersome to use because it must be supplemented or replaced periodically.

Accordingly, an object of the present invention is an air water system equipped with an air purifying device capable of purifying contaminated air in a room while condensing water vapor contained in the air and using the collected water as raw water. In providing.

In addition, to automatically replenish and replace the water required for air purification, to provide an air water system with an air purifier that can be used easily without the need for additional manpower.

In addition, it is to provide an air water system equipped with an air purifier that can increase the production efficiency of the raw water by allowing a lot of air to flow into the device for generating water from the supplied air.

In addition, the air water system is equipped with an air purifying device that provides a comfortable indoor environment by easily adjusting the room while generating raw water from the water vapor contained in the air by continuously inhaling air at the installation place and other places. In providing.

The object is, the air intake unit is coupled to the blower and the duct so that the indoor air and outdoor air selectively supply according to the present invention; A water generator configured to generate water by condensing moisture in the air supplied from the air suction unit; A storage unit configured to receive and store the water generated by the water generation unit; A water purification unit configured to supply water stored in the storage unit to be filtered and purified in a state of drinking or using; A storage unit for storing purified water through the water purification unit; A purified water supply unit configured to cool or heat the purified water in the storage unit; A heat dissipation unit formed on a rear surface of the water supply unit to discharge heat generated by operating the water supply unit; An air discharge part formed in the same direction as the heat dissipation part to discharge dry air from which moisture is removed from the water generation part; The water and air stored in the storage unit is supplied, the air filter is formed to provide air in the foreign matter is removed; achieved by the air water system with an air purifier characterized in that it comprises a.

Here, the air filtration unit is supplied with water from the storage unit by a filtration pump, the chamber is provided with a discharge port on one side, and the air in the room is supplied to the bottom surface of the chamber in accordance with the rotation of the air motor provided to supply air It is preferable to include a water discharge port formed so that the water filled in the chamber and the water supply control device is formed to be automatically supplied or discharged according to the set water level and time.

According to the present invention, an object of the present invention is to solve such a conventional problem, while condensing indoors, while condensing water vapor contained in air at all times can be used as drinking water as raw water. There is provided an air water system equipped with an air purifier capable of purifying air.

In addition, by automatically replenishing and replacing the water required for air purification, there is provided an air water system with an air purifier that can be used easily without the need for additional manpower.

In addition, there is provided an air water system having an air purifying device capable of increasing the generation efficiency of raw water by allowing a large amount of air to flow into the apparatus for generating water from the supplied air.

In addition, the air water system is equipped with an air purifier that provides a comfortable indoor environment by easily adjusting the room while generating raw water from the water vapor contained in the air by continuously inhaling air at the place of installation and other places. Is provided.

1 is a perspective view showing an air water system having an air purifying apparatus according to the present invention;
2 is a perspective view showing the inside of FIG.
Fig. 3 is an exploded perspective view of Fig. 2,
4 is a partial cross-sectional perspective view of FIG. 2, FIG.
5 is a bottom perspective view of FIG. 4, FIG.
Figure 6 is a partial cross-sectional perspective view showing a cross section of the air filter of the air water system with an air purifying apparatus according to the present invention,
7 is a partial cross-sectional perspective view showing a water supply control device for the air filter of FIG.

Prior to the description, components having the same configuration are denoted by the same reference numerals as those in the first embodiment. In other embodiments, configurations different from those of the first embodiment will be described do.

1 is a perspective view showing an air water system with an air purifying apparatus according to the present invention, FIG. 2 is a perspective view showing the inside of FIG. 1, FIG. 3 is an exploded perspective view of FIG. FIG. 5 is a bottom perspective view of FIG. 4, FIG. 6 is a partial cross-sectional perspective view showing a cross section of an air filter unit of an air water system equipped with an air purifying apparatus according to the present invention, and FIG. Partial cross-sectional perspective view showing a feedwater regulator for an air filter.

Hereinafter, an air water system having an air purifying apparatus according to a first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, the air water system according to the present invention, the air suction unit 10, water generation unit 20, water purification unit 30, water supply unit 40, air discharge unit 50 It is configured to include an air filter 60.

The air suction part 10 is formed to include a blower fan 11, a connection part 12, a duct 13, and an opening and closing device 14.

The blowing fan 11 is formed to supply air to the upper side of the water generating unit 20, the connection portion 12 is formed so as not to leak the air flowing into the water generating unit 20, the blowing fan located at the bottom It is installed in watertight at (11).

The duct 13 is a passage formed to suck and supply air. The duct 13 is watertightly installed at both sides of the connecting portion 12, and the indoor duct 13a for sucking indoor air and the outdoor duct 13b for sucking outdoor air. It is configured to include.

At this time, it is preferable that an air filter (not shown) is mounted on the air intake side of the duct 13 so as to remove foreign substances in the air sucked in.

The opening and closing device 14 is to allow at least one of the indoor air and the outdoor air to selectively flow, it is formed in the connection portion 12 including the sliding member (14a) and the blocking member (14b).

The sliding member 14a is formed to be inserted or discharged while sliding in the longitudinal direction so that the length is adjusted, and the blocking member 14b is hinged when the central axis is coupled to the sliding member 14a and the sliding member 14a is As the insertion or discharge, the direction of blocking the air to be sucked is formed to be variable.

Here, the sliding member (14a) is preferably an electromagnetic valve that operates according to the flow of electricity, the blocking member (14b) so that at least one of the indoor duct (13a) and the outdoor duct (13b) is blocked, the sealing It is preferable to form a member (not shown) on the outer surface so that air does not flow arbitrarily.

The water generating unit 20 is coupled to the lower portion of the air intake unit 10 to generate water from the air supplied through the air intake unit 10 to be used as raw water, and the main body 21 and the cover. 22, the hopper 23, the storage part 24, the evaporator 25, the condenser 26, and the compressor 27 are formed.

Here, the main body 21 is formed so that the receiving space is provided therein and the upper side is opened, the cover 22 closes the open upper side of the main body 21 and the air suction unit so that air is supplied into the main body 21. 10 is installed.

Hopper 23 is formed so that the water generated in the main body 21 from the air supplied through the air suction unit 10 is collected into the storage unit 24, the discharge port for discharging the water generated in the lower portion on one side 23 'is formed.

The evaporator 25 cools the air supplied by the air suction unit 10 below the dew point, and the condenser 26 converts the hot gas refrigerant including the heat taken from the evaporator 25 into a cold cooled liquid refrigerant. The compressor 27 is connected to the evaporator 25 and the condenser 26 to compress the circulating gaseous refrigerant to high temperature and high pressure.

On the other hand, the main body 21 is provided on one side of the main body 21, along with the blowing fan 11 is installed on the cover 22 for supplying the external air, the auxiliary blowing fan 15 to allow additional external air flow. .

The water purifying unit 30 is mounted on one side of the storage unit 24 in which the water generated by the water generating unit 20 is collected and used to drink or use the water supplied through the supply pump 31 using a plurality of filters 32. It is formed so that it can be filtered and purified.

 The purified water supply unit 40 is installed at the front side, and is formed to cool or heat water supplied from the reservoir 33 in which purified purified water is stored through the purified water unit 30.

The air discharge unit 50 is installed at the rear side, and is formed to discharge dry and warm air generated by the water generation unit 20 and the heat generated by operating the purified water supply unit 40.

The air filtration unit 60 is formed to provide air in which water and air stored in the storage unit are removed and foreign matters are removed, and the chamber 63, the underwater discharge port 64, and the water supply control unit 65 are provided. It is formed to include.

The chamber 63 is supplied with water from the storage part by the filtration pump 61, and a discharge port 63 ′ is formed at one lower side thereof, and the discharge port 63 ′ is controlled to control the discharge of the water inside the chamber 63. There is a separate discharge valve (not shown) is installed.

The underwater discharge port 64 is formed to supply the indoor air to the bottom surface of the chamber 63, that is, the water inside the chamber 63 as the air motor 62 is provided to supply external air.

The water supply control device 65 is introduced to be formed to be automatically supplied or discharged according to the set water level and time automatically filled in the chamber 63, and is formed to be discharged when the water level is exceeded.

The operation of the first embodiment of the present invention's air water system having the above configuration will now be described.

When the blowing fan 11 is rotated to generate raw water, external air is sucked into the indoor duct 13a or the outdoor duct 13b connected to the connecting portion 12, and the sucked air is supplied to the main body 21.

In general, since the outdoor humidity is higher than the indoor humidity, the intake port of the indoor duct 13a is blocked and only the intake port of the outdoor duct 13b is opened as shown in FIG. 4 (a), and the outdoor duct 13b is opened. Inhaled air is supplied to the main body 21.

At this time, by the humidity sensor (not shown) installed separately, if the indoor humidity exceeds the set humidity, as shown in Fig. 4 (b), the inlet of the outdoor duct 13b is closed by the blocking member 14b, the seal Only the suction port of the inner duct 13a is opened, and the air sucked in the indoor duct 13a is supplied to the main body 21.

That is, the operation of the blocking member 14b is controlled through a separate control unit (not shown) connected to the sliding member 14a and the humidity sensor. When the set humidity is exceeded, the humidity sensor is operated to operate the sliding member 14a. While being discharged, the suction port of the outdoor duct 13b is blocked.

In addition, the indoor duct 13a and the outdoor duct 13b respectively connected to the connection part 12 are selectively opened or closed by an electrical signal, thereby selectively inhaling indoor air and outdoor air to continuously generate water 20. ), So that the raw water can be produced at all times, and also has the advantage of effectively controlling the humidity in the room.

As described above, the air sucked into the main body 21 includes a compressor 27 for compressing a gaseous refrigerant at a high temperature and a high pressure, and a condenser 26 for condensing the high temperature and high pressure refrigerant gas discharged from the compressor 27. And an evaporator 25 for evaporating the low pressure refrigerant passing through the tube (capillary tube) for expanding the liquefied refrigerant through the condenser 26. Will generate

First, the air supplied to the main body 21 by the blower fan 11 cools the low pressure refrigerant by the evaporator 25 and cools the inside of the main body 21 to below the dew point due to heat of vaporization. Moisture in the air introduced into the interior changes to a solid state like a frost.

At this time, when the supply of power for the evaporator 25 is turned off (Off), the liquid drop is generated while the solid drop is thawed and defrosted.

In this way, as the power supplied to the evaporator 25 is periodically supplied (On) or off (Off) by a timer (not shown), a temperature sensor (not shown), etc., the upper surface (inner surface) of the hopper 23 The moisture in the air supplied to the water is converted into a liquid state such as water from a solid state such as a drop of water to generate water.

Second, since air is supplied to the lower part of the main body 21 by the auxiliary blowing fan 15, water vapor in the air condenses not only on the upper surface (inner surface) of the hopper 23 but also on the lower surface (lower surface) of the hopper 23. Is generated as water.

Looking at this in detail, the condensation phenomenon on the surface of the hopper 23 by heat exchange due to the temperature difference between the latent heat of evaporation that is conducted to the hopper 23 in the evaporator 25 and the latent heat of condensation that is conducted to the main body 21 in the condenser 26. Will appear to produce water.

Therefore, since the water is generated from the air supplied to the upper and lower surfaces of the hopper through the blowing fan 11 and the auxiliary blowing fan 15, there is an advantage of increasing the generation efficiency of raw water than the conventional air water system. have.

In addition, since water can be generated while being supplied or cut off periodically to the power supplied to the evaporator, there is no need to operate the evaporator continuously, thereby reducing the cost cost of cooling the air.

Here, the hopper 23 is a temperature that is cooled through the evaporator 25 located on the upper surface of the hopper 23 is well transmitted to the lower surface of the hopper 23 so that the water vapor in the air on the lower surface of the hopper 23 In order to condense well, it is preferable to be formed of a metal material such as copper or aluminum.

On the other hand, while the water generating unit 20 operates, the gas refrigerant including heat taken from the evaporator 25 by being compressed to high temperature and high pressure by the compressor 27 is converted into a cold liquid refrigerant that is coldly cooled while passing through the condenser 26. In this process, the heat generated through the condenser 26 is discharged to the outside through the air discharge unit (50).

The water generated as described above flows down the upper surface (inner surface) and lower surface (lower surface) of the hopper 23 and is collected into the storage part 24 located at the outlet 23 'side, and the storage part 24 Collected water is supplied to the water purification unit 30 by the supply pump 31 is filtered and purified while passing through a plurality of filters (32).

As such, the purified water purified by the purified water unit 30 is supplied to the user through cold water supply unit 40 through the purified water supply unit 40 to the cold water or hot water, condensing the water vapor contained in the air to the raw water It can be provided as drinking or drinking water.

Here, the heat generated by the purified water supply unit 40 is discharged to the outside through the heat dissipation plate (R) and the air discharge unit 50 is installed on the rear portion.

On the other hand, a part of the water collected in the storage unit 24 is supplied to the air filtration unit 60 for air purification, the storage unit 24 water is supplied to the chamber 63 by the filtration pump 61, the inside Air is supplied to the chamber 63 by the air motor 62 and the underwater discharge port 64.

Here, the water supplied to the chamber 63 is automatically adjusted in the water level by the water supply control device 65, when the water in the chamber 63 exceeds the set level, the discharge port 63 'is opened while the chamber ( 63) When the water inside is discharged and the water level is lower than the set water level, the water is supplied into the chamber 63 to maintain the proper water level.

At this time, the water in the contaminated chamber 63 while purifying the dust in the air continuously, the discharge port 63 'is opened to be filled with clean water again at a certain time, and then to the appropriate water level by the water supply control device 65 Water is filled.

However, in the operation of discharging the contaminated water in the chamber 63 and filling it with clean water, while discharging the contaminated water, the water is not supplied even if the set water level is not reached. It may be desirable to allow water to be supplied to the chamber 63 by means of 65.

In addition, since the air supplied by the air motor 62 and the underwater discharge port 64 is discharged into the water filled in the chamber 63, foreign substances such as dust contained in the air are filtered by the water in the chamber 63, The air in which the foreign matter is filtered by the underwater discharge is discharged to the outside through the air outlet 66.

At this time, the ozone generator (not shown) and the fragrance (not shown) are additionally installed inside the air outlet 66 to expect the sterilization and deodorizing effect of the discharged air, eliminating unpleasant odors and providing a good fragrance. You can do that.

Meanwhile, although the duct 13 connected to the connection part is described as the indoor duct 13a and the outdoor duct 13b, the present invention is not limited thereto, and a plurality of ducts are connected to one outdoor duct 13b connected to the connection part. Alternatively, raw water may be generated by connecting a plurality of outdoor ducts 13b to the connection unit for a long time and selectively sucking air in a region having high humidity by increasing the installation quantity of the blowing fan.

In addition, in the accompanying drawings, the condenser 26 is illustrated as being wound on the outer surface of the main body 21, but is not limited thereto. If the generation efficiency of raw water through the evaporator 25 may be increased, the main body 21 may have various shapes. Can be used outside of

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. 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 present invention as defined by the appended claims.

10: air suction unit 11: blowing fan
12: connection portion 13: duct
13a: Indoor duct 13b: Outdoor duct
14: opening and closing device 14a: sliding member
14b: blocking member 15: auxiliary blowing fan
20: water generating unit 21: the body
22: cover 23: hopper
24: storage 25: evaporator
26 condenser 27 compressor
30: water purification part 31: supply pump
32: filter 33: reservoir
40: purified water supply unit 50: air discharge unit
60: air filter 61: filtration pump
62: air motor 63: chamber
64: underwater discharge outlet 65: water supply control device
66: air outlet R: heat sink

Claims (2)

An air suction unit to which the blower and the duct are coupled to selectively supply the indoor air and the outdoor air;
A water generator configured to generate water by condensing moisture in the air supplied from the air suction unit;
A storage unit configured to receive and store the water generated by the water generation unit;
A water purification unit configured to supply water stored in the storage unit to be filtered and purified in a state of drinking or using;
A storage unit for storing purified water through the water purification unit;
A purified water supply unit configured to cool or heat the purified water in the storage unit;
A heat dissipation unit formed on a rear surface of the water supply unit to discharge heat generated by operating the water supply unit;
An air discharge part formed in the same direction as the heat dissipation part to discharge dry air from which moisture is removed from the water generation part;
And an air filtration unit which is supplied with water and air stored in the storage unit to provide air in a state in which foreign matters have been removed. The method of claim 1,
The air filtration unit is supplied to supply water to the bottom of the chamber according to the rotation of the chamber is supplied with water from the storage unit by the filtration pump, the discharge port is provided on one side, and the air motor provided to supply the air And an air purifier, wherein the water purifier is formed so that the water filled in the chamber is automatically supplied or discharged according to the set water level and time.

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