KR20180054192A - Apparatus for air care using water - Google Patents

Abstract

An air care device using water, according to the present invention, divides an internal space of a main body into a purification space and an installation space by a base. By having a rotary part for rotating water supplied to the purification space and an air feeder for discharging polluted air into the supplied water, it is possible to simplify flow paths for water and air. Therefore, it is possible to miniaturize the device and to easily combine the same with other kitchen products.

Description

[0001] APPARATUS FOR AIR CARE USING WATER [0002]

The present invention relates to an air care apparatus and method for purifying contaminated air using water, and more particularly, to an air care apparatus and method for purifying contaminated air by water, The present invention relates to an air-care device and its method for purifying air.

The causes of indoor air pollution in buildings can be classified into outdoor pollution sources and indoor pollution sources. The outdoor pollution sources include various kinds of fine dusts, dusts, and air pollution substances contained in the outdoor air introduced from the outside. The indoor pollution sources are various harmful substances such as fine dust, odor, bacteria, sick house syndrome, .

In order to prevent the contamination of indoor air from increasing due to the above-mentioned pollutants, it is necessary to maintain and manage the indoor air comfortably by supplying fresh air to the room through proper ventilation.

However, due to the recent increase in fine dust, air pollution, air conditioning, heating, etc., indoor and outdoor use of doors and windows are frequently closed.

In particular, the kitchen space is relatively higher in indoor air pollution than other indoor spaces due to vapors, odors, and heat generated during the cooking process. Accordingly, various kinds of products for cleaning the indoor air (hereinafter referred to as "kitchen air") in the kitchen space are disclosed. For example, air purifiers and range hoods are typical. Such conventional products are located in any one of the kitchens to provide air purification and ventilation in localized locations.

The kitchen hood exhausts the air to the outside in order to lower the pollution degree of the kitchen air which is raised by the smoke and the smell generated in the cooking process. However, the contaminants discharged to the four sides in the cooking process are not completely sucked into the suction fan of the kitchen hood, but some of them spread in the air and spread in the kitchen and other indoor spaces. Thus, the pollution degree of the interior space of the building as well as the kitchen air can be increased.

On the other hand, conventional air cleaners purify air by using a filter using active carbon, microporous nonwoven fabric, solid or liquid neutralizing agent, and the like. However, the above-described conventional air purifier filter is not suitable for care of the kitchen air in which smoke, odor and the like are repeatedly generated. In detail, the conventional filter is ineffective as a filter for purifying the kitchen air in terms of management and efficiency, since the filter must be continuously replaced, which is uneconomical.

Recently, a technique of using water as another type of filter for filtering foreign matter such as smoke, smell, and dust has been disclosed.

The following is a list of prior literature information.

1. Public number: 20-2009-0007597 (public date: 2009.07.28.)

   Title of the invention: Water filter hood

In the prior art disclosed in the prior art, water is contained in an enclosed water reservoir equipped with a blower, a flat cylinder having a hole therein is submerged, and a pipe is connected to the cylinder to suck foreign matter in the air. When the contaminated air is contacted with the water in the water in the water tank, the contact area between the contaminated air and the water is low, and thus the cleaning ability is deteriorated. In addition, the water in the contaminated water tank must be replaced periodically by the user after air purification, and maintenance and user convenience are greatly reduced because the water tank needs to be continuously cleaned to prevent the propagation of germs.

In this regard, another conventional technique exists in which air is purified by spraying water into the contaminated air that is inhaled. However, in the spraying method, when the amount of the inhaled air is increased, the cleaning ability is drastically decreased, and the filtration efficiency of the dust and the like is lowered because the contaminated air and water are not mixed uniformly.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air care device and a method thereof that can solve the problem of increased indoor air pollution caused by an indoor pollution source.

It is another object of the present invention to provide an air care apparatus and method which can intensively and synthetically purify the entire kitchen space to solve the problem of contaminated air diffused into kitchens and other indoor spaces.

It is still another object of the present invention to provide an air care device and a method thereof that provide a comprehensive air care function such as air cleaning, cold air, hot air, and dehumidification by purifying heat, smell, .

Yet another object of the present invention is to provide an air care apparatus and a method thereof, which are equipped with a filter suitable for solving contamination problems caused by diffusion of steam, water-soluble odor, etc., generated in a kitchen space.

Yet another object of the present invention is to provide an air care apparatus and method in which a kitchen space is installed in a kitchen environment using a water supply pipe for supplying water and a sewage pipe for discharging written sewage.

Yet another object of the present invention is to provide an air care apparatus and method which are configured to be easily combined with a kitchen product using water.

It is still another object of the present invention to provide an air care device and method which can solve the problem that air contaminated with water is in contact with each other to reduce air cleaning efficiency due to a small contact area between air and water.

It is another object of the present invention to provide an air care device and a method thereof that can improve the problems such as temperature and humidity which are raised due to heat and smell generated during a cooking process.

It is another object of the present invention to provide an air care apparatus and method using water that can improve the efficiency of space utilization by providing products such as separate air cleaners and dehumidifiers in a kitchen space.

In the air care apparatus using water according to the present invention, a suction pipe for sucking air and an exhaust pipe for exhausting air are connected to a main body for providing an air cleaning space. Inside the main body, a blade capable of rotating water, It is possible to purify indoor pollution sources and reduce indoor air pollution degree. Also, it is suitable to solve the contamination problem due to the diffusion of steam, water soluble odor, etc. generated in the kitchen space because the polluted air is filtered by water.

In the air care apparatus using water according to the present invention, the inner space of the main body is divided into a purification space and an installation space by a base, and a rotating part for rotating the water supplied to the purification space and a discharge part for discharging the polluted air into the water The location of the supply air can simplify the flow of water and air. Therefore, it is possible to miniaturize the apparatus and to easily combine with other kitchen products. As a result, the air quality of the kitchen space can be improved overall, intensively and comprehensively by combining with various kitchen products.

In the air care device using water according to the present invention, a cooling coil or a heater coil is provided in a purification space of the main body, and a clean cold wind can be discharged through a cooling device having a cooling coil. The temperature of the water So that hot air can be discharged. Therefore, it is possible to perform a comprehensive air care function such as air cleaning, cold air, hot air, and dehumidification. In addition, the kitchen environment can be comfortably improved from the heat, smell, and moisture generated in the cooking process in the kitchen.

The air-care device using water according to the present invention includes a water supply unit connected to the main body and supplying water to the main body, and a water drain unit for draining water after the water supplied to the main body is written. The water supply unit includes a water supply device And the drainage unit is connected to a sewage system such as a sewage pipe. Therefore, it is suitable for installation in a kitchen space where a water supply pipe for supplying water and a sewage pipe for discharging the written sewage are installed, and the utilization thereof is high.

In the air care apparatus using water according to the present invention, the internal space of the case is partitioned by a base, and a gas supply pipe for guiding air to be discharged into an upper space of the partitioned base is positioned. Particularly, the air supply outlet formed at one end of the opening of the air supply tube is spaced upward from the base, and the water level sensor is located above the air supply outlet, so that the air supply outlet can be located in the water supplied. Accordingly, the blade installed on the base rotates the water to make swirls, and the polluted air discharged through the air supply outlet is discharged into the water of the swirls, so that the polluted air rotates and rises along the rotating direction of the water. This increases the intermixing and contacting area of contaminated air and water.

According to the present invention, pleasant indoor air can be provided by sucking contaminated air and exhausting the purified air. Further, by purifying the air using water, a water-soluble odor can be quickly removed.

Industrial Applicability According to the present invention, there is an effect that the contaminated air existing in the kitchen space can be synthetically and intensively purified since the product which is easy to supply and drain and the air care device are integrally installed. Therefore, a pleasant kitchen environment can be created.

According to the present invention, since air is purified by using water, no separate filter replacement is required, which can improve convenience and economy.

According to the present invention, there is an effect that the air care device can be used semi-permanently since it is connected to an external water supply pipe and a drain pipe and there is no need for the user to perform separate cleaning.

According to the present invention, the water is rotated to form a vortex and purify by supplying polluted air into the vortex, thereby improving the efficiency of purifying the polluted air since the mutual mixing and contacting area of contaminated air and water is increased. Therefore, a pleasant indoor environment can be quickly formed, and the reliability of the apparatus can be improved.

According to the present invention, the throughput of the outside air can be controlled in order to relatively increase the throughput for purifying the contaminated air and prevent the air purification efficiency from decreasing. Therefore, there is an advantage that the air purification efficiency can be maintained in an optimized state according to the intake amount of the outside air.

According to the present invention, the contact area between contaminated air and water can be increased and the mutual mixing can be facilitated, so that the ability to filter contaminants can be relatively improved.

According to the present invention, a water head difference is generated by forming a swirling water, and the air is contaminated in a centrifugal direction with a low water pressure, so that energy for forcedly sucking polluted air into water is reduced. Therefore, energy efficiency is improved.

According to the present invention, various functions such as air cleaning, dehumidification, hot air, and cold air are provided, thereby providing a comfortable environment in a space where the product is installed.

According to the present invention, it is possible to efficiently utilize the kitchen space because there is no need to provide an additional air cleaner, a dehumidifier, an air conditioner, and the like, since it is integrally installed in a kitchen product which can easily supply and drain water.

According to the present invention, since the air care apparatus can be selectively used according to the degree of pollution of the kitchen air, the user's selectivity, additionality, and convenience are increased.

1 is a view showing an appearance of an air care device according to an embodiment of the present invention;
2 is a cross-sectional view taken along the line A-A 'showing the internal structure of the main body according to the embodiment of the present invention
3 is a view showing a process of purifying air according to an embodiment of the present invention
4 is a view showing an embodiment of a refrigerator equipped with the air care device of the present invention
5 is a view showing a configuration according to an embodiment of a refrigerator equipped with the air care apparatus of the present invention
6 is a view showing another embodiment of a refrigerator provided with the air care device of the present invention
7 is a view showing an embodiment of a dishwasher equipped with the air care apparatus of the present invention
8 is a cross-sectional view showing an internal configuration according to an embodiment of the dishwasher provided with the air care apparatus of the present invention
9 is a view showing an embodiment of a water purifier equipped with the air care device of the present invention
Fig. 10 is a schematic view of a water pipe according to an embodiment of a water purifier equipped with the air care device of the present invention
11 is a view showing an embodiment of a washing machine provided with the air care apparatus of the present invention
12 is a sectional view showing an internal configuration of an embodiment of a washing machine provided with the air care apparatus of the present invention

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. 1 is a view showing an appearance of an air care device according to an embodiment of the present invention.

Referring to FIG. 1, the air care apparatus 1 according to the present embodiment includes a main body 10 for performing an air cleaning operation using water, a supply portion 60 for sucking outside air to supply the main body to the main body, And an exhaust unit 70 for exhausting purified air from the apparatus 10 to the outside of the apparatus.

The main body 10 can contain water and can provide an internal space through which contaminated air can be introduced to perform an air cleaning operation. In addition, the main body 10 may be formed so as to surround an inner space for performing an air cleaning operation.

The main body 10 may have various shapes such as a sphere and a hexahedron in which a space is formed therein. For example, the main body 10 may have an outer shape in a cylinder shape having an upper surface and a lower surface which are parallel to each other and joined together. When the outer shape of the main body 10 is a cylindrical shape, water can be efficiently and easily generated in the air cleaning operation to be described later.

Hereinafter, embodiments of the present invention will be described with reference to the case where the main body 10 is a cylindrical shape. Meanwhile, the body 10 may be referred to as a body portion in another expression.

The main body 10 includes an upper plate 11 forming one surface of an outer tube 11, a lower plate 12 spaced apart from the upper plate 11 so as to be symmetrically spaced from the upper plate 11 and forming another surface of the outer tube, And a case 13, 16 extending from the lower plate 12 and connected to the periphery of the lower plate 12.

The case (13, 16) allows the body (10) to form a space therein. Specifically, the periphery of the upper plate 11 and the lower plate 12 may be formed to be in contact with the case 13, 16 to form an edge. Therefore, the case 13, 16 can form the circumferential surface of the outer tube. The upper plate 11 forms an upper surface of the outer tube, and the lower plate 12 forms a lower surface of the outer tube. The upper and lower plates 11 and 12 may be formed in a circular shape and the case 13 and 16 may extend from the circumference of the upper plate 11 to the circumference of the lower plate 12 have.

The main body 10 may be connected to the air supply unit 60 and the exhaust unit 70 which communicate with the outside air. For example, the supply unit 60 and the exhaust unit 70 may be connected to the upper plate 11.

The main body 10 can be connected to the air supply unit 60 so as to suck outside air and can be connected to the exhaust unit 70 so as to discharge purified air inside.

The internal space of the main body 10 includes a supply portion 60 for sucking the outside air of the air care apparatus 1 and supplying the air to the main body 10 and a clean room cleaned through the main body 10. [ And may be connected to an exhaust part 70 for discharging air to the external space of the apparatus.

The main body 10 can be formed so as to have an inside view. For example, the body 10 may be formed of a transparent material such as tempered glass.

When the inside of the main body 10 is visible, the user can confirm the operation of the device, thereby improving the reliability of the product and easily repairing the device if a failure occurs.

The air supply unit 60 includes a suction port 68 for sucking outside air, that is, the air in the indoor space in which the air care device 1 is installed, a suction pipe (not shown) for supplying a path of air sucked from the suction port 68 66), a suction fan (67) for providing a suction force, and a supply duct (61) for providing a flow path for supplying sucked air into the main body (10).

The suction fan 67 provides a suction force so that contaminated air outside the air care apparatus 1 can be sucked through the suction port 68. For example, the suction fan 67 is installed inside the suction pipe 66 to suck the contaminated air from the suction pipe 66.

One end of the suction pipe 66 may be connected to the suction port 68 and the other end may be connected to the air supply pipe 61. Therefore, the contaminated air from the outside, which is sucked through the suction port 68, can flow along the suction pipe 66.

The suction pipe (66) can provide a sucked contaminated air flow path. Further, air can be guided to flow into the internal space of the main body 10. Of course, the suction pipe 66 may be formed by a deformation such as bending or extending.

Hereinafter, for the sake of convenience of explanation, the contaminated air from the outside which is sucked into the suction pipe 66 is referred to as 'suction air'.

The suction port 68 may be integrally formed with the suction pipe 66 by forming one end of the suction pipe 66 to be opened. Of course, the suction port 68 may be formed in various shapes so as to more effectively suck the contaminated air from the outside. For example, the suction port 68 may extend obliquely from the end of the suction pipe 60 to have a diameter larger than the diameter of the suction pipe 60.

The suction port 68 may be formed in the form of a grill capable of primarily filtering foreign matter to prevent a relatively large foreign matter from entering the suction pipe 66, or may include the grill inside the suction port.

Further, an air filter may be further installed in the suction pipe 66 so that a relatively large foreign matter having passed through the suction port 68 can be filtered secondarily.

The air filter may be in the form of a net. For example, the air filter may be a HEPA filter or the like. Therefore, the suction air passing through the suction port 68 and the suction pipe 66 can be introduced into the internal space of the main body 10 in a state where a relatively large foreign matter is removed.

One end of the air supply pipe (61) may be connected to the main body (10), and the other end may be connected to the suction pipe (66). One end of the air supply pipe (61) can be positioned through the main body (10). Accordingly, the intake air flows from the suction pipe 66 to the air supply pipe 61 and flows into the main body 10 through the air supply pipe 61.

Of course, the air supply pipe 61 and the suction pipe 66 may be integrally formed. That is, the contaminated air from the outside can be sucked into the internal space of the main body 10 through one pipe.

The position where the air supply duct 61 is connected to or penetrated into the main body 10 is not limited. However, it is preferable that the air supply duct 61 extends to the inner space of the main body 10 through the center of the upper plate 11 for more efficient supply and air purification. For example, when the upper plate 11 is circular, the lower plate 12 may extend in the direction of the lower plate 12 through the center of the circular plate 11.

The air supply pipe 61 can discharge the sucked air into the water existing in the inner space of the case. A detailed description thereof will be described later.

The supply unit 60 may further include an air supply valve 65 to adjust the amount of air sucked into the main body 10. [

The air supply valve (65) can be installed in the air supply pipe (61), and the amount of air sucked through the valve opening / closing operation can be adjusted. For example, the air supply valve 65 may be a solenoid valve, and may be configured to be remotely controlled or automatically controlled through the solenoid valve.

The air supply unit 60 may further include an air supply pump 63 for providing a force to introduce the intake air into the main body 10 more effectively.

The suction force provided by the suction fan 67 may cause a shortage of the force for introducing air into the water (hereinafter referred to as a 'supply force') in the air purification process, which will be described later. In the case where the supply power is insufficient, the object of the present invention to purify contaminated air can not be achieved and it is necessary to prevent this. Accordingly, the air supply pump 63 may be installed to provide pressure to the outside air flowing along the air supply pipe 61.

The air supply pump (63) can be installed in the air supply pipe (61). Accordingly, the air supply pump 63 can provide the discharge pressure to discharge the sucked air into the water existing in the internal space of the main body 10. [

The air supply pump 63 may be disposed between the air supply pipe 61 and the suction pipe 66 so as to communicate the suction air. In detail, the intake air flows into the air supply pump 63 through the suction pipe 66, and is supplied to the air supply pipe 61 after receiving a supply force from the air supply pump 63. For example, a suction pipe 66 may be connected to an inlet end of the air supply pump 63, and a discharge pipe 61 may be connected to an outlet end of the air supply pump 63. Through the operation of the air supply pump 63, pressure can be applied to the air flowing into the air supply pipe 61. Therefore, the intake air discharged into the main body 10 along the air supply pipe 61 can be supplied to the water under a sufficient force.

Meanwhile, as another method for enhancing the supply force, there is a method of installing the specification of a motor or the like upward to increase the amount of flow that the suction fan 67 can suck. In this case, the supply force may be further strengthened in accordance with the increase of the flow amount.

The exhaust unit 70 may include an exhaust pipe 71 for providing an exhaust passage for purified air and an exhaust port 78 for forming an outlet for the purified air to flow through the exhaust pipe and to be discharged into the outer space of the apparatus.

The exhaust pipe 71 guides the flow of air to the outside of the apparatus, for example, an indoor space where the air care apparatus 1 is installed, by introducing the purified air from the main body 10 into the room. can do. In addition, the exhaust pipe 71 may be connected to the case so that the air passing through the water in the case internal space is exhausted.

The shape of the exhaust pipe 71 is not limited. Therefore, the exhaust pipe 71 can be deformed such as bent or extended.

One end of the exhaust pipe 71 is connected to the exhaust port 78 and the other end can be connected to the main body 10 so as to suck purified air inside the main body 10. The exhaust pipe (71) may extend through the body (10) and extend into the internal space of the body.

The position where the exhaust pipe 71 is connected to or passed through the main body 10 is not limited. However, air purified by an air purification process to be described later flows into the exhaust pipe 71 and naturally exhausts it, so that a connection or penetration point should be formed in the upper plate 11. For example, the exhaust pipe 71 may extend through one point of the upper plate 11 and extend toward the lower plate 12. A detailed description thereof will be described later.

The exhaust port 78 may be formed such that one end of the exhaust pipe 71 is open and may be formed integrally with the exhaust pipe 71. Of course, the exhaust port 78 may be formed in various shapes so as to more effectively discharge the purified air. For example, the exhaust port 78 may extend obliquely from the end of the exhaust pipe 71 so as to have a larger diameter than the diameter of the exhaust pipe 71.

The exhaust unit 70 may further include an exhaust valve (not shown) or exhaust assist means.

The exhaust valve can regulate the amount of purified air exhausted to the outside space of the apparatus through an opening / closing operation. For example, the exhaust valve can use a solenoid valve, and can be configured to be remotely controlled or automatically controlled through the solenoid valve.

The exhaust assist means may include an exhaust fan or the like. For example, an exhaust fan can be installed inside the exhaust pipe. The operation of the exhaust fan can increase the inflow amount of the purified air existing in the main body and can speed up the inflow speed of the purified air. That is, the installation of the exhaust fan facilitates the inflow of air purified by the exhaust pipe 71 and facilitates the exhaust to the external space of the apparatus

The air care apparatus 1 may further include a water supply unit 40 for supplying water to the main body 10 and a drainage unit 50 for discharging water in the main body 10.

The water supply unit 40 may include a water supply pipe 41 for supplying water to the main body 10 from the water supply unit and a water supply valve 45 for adjusting the water supply amount.

One end of the water supply pipe 41 may be connected to a water supply device (not shown) for supplying water, and the other end of the water supply pipe 41 may be connected to the main body 10.

The water supply device (not shown) can be understood as a device capable of supplying water. For example, the water supply device may include a water supply facility including a pressure pump, a water reservoir, a compressor, a water pipe, and the like, and may provide a constant water for each household. Or an underground water facility that can provide groundwater at home at all times. Accordingly, the water supply pipe (41) is connected to ground water or a water pipe of a water supply facility, so that the water can flow to the main body (10).

The water supply valve (45) is installed in the water supply pipe (41) and can control the amount of water flowing into the water supply pipe from the water supply device. Accordingly, the amount of water supplied to the main body 10 can be adjusted according to the opening / closing operation of the water supply valve 45. For example, the water supply valve 45 may be a solenoid valve, and may be configured to be remotely controlled or automatically controlled through the solenoid valve. The water supply valve 45 may operate in conjunction with a water level sensor 14, which will be described later.

There is no limitation on the water connection point, which is the point where the water supply pipe 41 is connected to the main body 10. However, it may be preferable to form the water supply connection point on the upper plate 11, which is capable of receiving water gravity and easily supplying water to the main body 10. For example, the water supply pipe 41 may be connected to or passed through a point of the upper plate 11 to supply water into the main body 10.

The water supply pipe (41) can guide water to flow into the inner space of the case. That is, the water supply pipe 41 may provide a flow path to supply water to the inner space of the case. Here, the inner space of the case can be understood as a purification space to be described later.

The drainage unit 50 may include a drain pipe 51 for supplying a flow path from the main body 10 to the drainage device for discharging water and a drainage valve 55 for adjusting the drainage amount.

The drain pipe 51 may be connected to a drain (not shown) for discharging water at one end, and may be connected to the main body 10 at the other end. The water pipe 51 can guide the water in the inner space of the case to flow to the outside. That is, the drain pipe 51 may provide a flow path for discharging water existing in the inner space of the case.

The drainage device can be understood as a device capable of discharging water. For example, the drainage apparatus may include a sewage system having a sewage pipe and the like for discharging water used in the household. Accordingly, the drain pipe 51 is connected to the sewage pipe of the sewage system so that the regular water can be discharged from the main body 10.

The drain valve 55 is installed in the drain pipe 51 to adjust the amount of water discharged to the drain device. Accordingly, the amount of water discharged from the main body 10 can be adjusted according to the opening / closing operation of the drain valve 55. For example, the drain valve 55 may be a solenoid valve, and may be configured to be remotely controlled or automatically controlled through the solenoid valve.

There is no limitation on a drain connection point at which the drain pipe 51 is connected to the main body 10. However, in order to allow the water to be gravitationally discharged from the main body 10, it is preferable to form the drain connection point in the lower plate 12 or a lower case 16 to be described later. For example, the drain pipe 51 may be connected to and / or pierced through one point of the lower plate 12 to discharge water from the inside of the main body 10. In addition, the drain pipe 51 may be connected to and / or penetrate one point of the lower case 16 to discharge water from the inside of the main body 10.

The air care apparatus 1 is provided with an air cleaner for allowing the user to operate the operations of the air supply unit 60, the exhaust unit 70, the water supply unit 40, the drainage unit 50, An operation unit, a display unit for notifying operation information or environmental information, and a control unit for controlling operations of the apparatus.

The air conditioner 1 is controlled by the automatic algorithm through the air supply unit 60, the exhaust unit 70, the water supply unit 40, the drainage unit 50 and the rotation unit, The main body 10 having a sensor or the like can be controlled. Therefore, since the involvement degree of the user is lowered, the convenience is improved and the reliability of the product can be secured.

The operation unit may be configured to allow the user to select an air cleaning mode, humidity, and the like desired by the user. Therefore, if the user selects the desired air cleaning mode by operating the operation unit, the current air quality of the space in which the air care apparatus 1 is installed is compared with the air quality set by the user so that the operation of the air care apparatus 1 It is possible to achieve the set air quality.

The display unit can visually show the degree of user's selection and purification. Thus, user convenience and product reliability can be improved.

The air care apparatus 1 may further include an air quality measuring sensor (not shown) capable of measuring the air quality of the indoor space and an external temperature measuring sensor capable of measuring the temperature of the indoor space.

The operation of the measurement sensor and the air care apparatus 1 can be interlocked. For example, the air-conditioning apparatus 1 can automatically operate when it is determined that the quality of the indoor air detected by the measurement sensor is worse than the set reference.

The external temperature measuring sensor may be interlocked to perform a cooling or heating operation from the air care apparatus 1 by sensing the temperature of the space in which the air care apparatus 1 is installed.

2 is a cross-sectional view taken along the line A-A 'showing the internal structure of the main body according to the embodiment of the present invention.

Referring to FIG. 2, the main body 10 may further include a base 15 which is a plate for defining an inner space.

The base 15 may be spaced upward from the bottom plate 12 along the longitudinal direction of the main body 10 in the main body 10. The base 15 can be understood as providing the bottom of the purging space 18 or the bottom of the water tank for carrying the air purification process by containing water to be supplied.

The base 15 may form a drainage inlet 53, which is an open hole for draining water to the drainage pipe 51.

The drainage inlet 53 can be understood as an opening through which the base 15 is connected to one end of the drainage pipe 51. Therefore, the drainage inlet 53 can guide water flowing into the main body 10 into the drainage pipe 51, which is a water discharge passage.

The position where the drainage inlet 53 is formed in the base 15 is not limited. For example, the drainage inlet 53 may be formed at a position that is as far as possible from the center of the base 15 for easy rotational flow of water during the air purification process.

The drain pipe 51 may be connected to the drain inlet 53 formed in the base 15 through one point of the lower plate 12 and / or the lower case 16.

The case 13 and 16 may include an upper case 13 surrounding a space defined by the base 15 and a lower case 16 surrounding the remaining space. The upper case 13 surrounds the upper space of the base 15 and the lower case 16 surrounds the lower space of the base 15. That is, the upper case 13 can be understood as an upper part of the case, and the lower case 16 can be understood as a lower part of the case.

The inner space of the main body 10 partitioned by the base 15 and surrounded by the upper case 13 is referred to as a purification space 18 and is surrounded by the lower case 16, The inside space of the cabinet 10 is referred to as an installation space 19. That is, the purifying space 18 is a space formed by the upper plate 11, the upper case 13 and the base 15, and the installation space 19 is formed by the base 15, the lower case 16 And the lower plate 12, respectively.

The installation space 19 provides a space for installing components such as a motor, and the purification space 18 can provide space for air purification by mixing water and air.

In the purifying space 18, a space for performing an air purifying process, which will be described later, may be provided. The purifying space 18 may provide space for water to flow through the water supply unit 40. Accordingly, the main body 10 can contain water through the purging space 18 and provide an internal space for purifying the air.

The water filled in the purification space 18 can be discharged through the drainage part 50. Therefore, it can be understood that the upper surface of the upper case 13 and the base 15 surrounding the purifying space 18 constitutes a water tank capable of holding water.

The purifying space 18 may be formed to have a larger volume than the installation space 19. Further, the installation space 19 can be formed below the purifying space 19.

The upper plate 11 or the upper case 13 described above may be formed with an opened water outlet 43 connected to the water supply pipe 41 and opened to allow water to flow into the purification space 18.

The water supply outlet 43 can be understood as a connection position where one end of the water supply pipe 41 and the main body 10 are connected. Therefore, water flowing along the water supply pipe 41 through the water supply outlet 43 can be introduced into the purification space 18. [

The main body 10 may further include a rotation unit 20 for generating rotation of the water supplied and a driving unit 30 for providing a rotation force to the rotation unit 20.

The driving unit 30 may be installed in the installation space 19 so as to be supported by the lower plate 12.

The driving unit 30 may include a motor 35 for providing a rotational force and a driving shaft 36 coupled to the motor 35 to transmit the rotational force to the rotary unit 20.

The drive shaft 36 may be connected to the rotation unit 20 through the base 15. For example, the drive shaft 36 connected to the motor 35 may be connected to the rotation unit 20 through the center of the base 15 perpendicularly to the base 15. The center of the circle formed by the rotation of the rotation unit 20 (hereinafter, referred to as the center of the rotation circle for convenience of explanation) is formed on an imaginary extension line drawn in the axial direction of the drive shaft 36 Can be located.

Since the drive shaft 36 passing through the center of the base 15 is connected to the rotation unit 20, the rotation unit 20 can be rotated by receiving the rotational force of the motor 25. Accordingly, the water supplied to the purification space 18 can be rotated by the rotation of the rotary part 20. [

The driving unit 30 may further include a motor measurement device 38. The measuring device 38 can be operated in accordance with the setting of the user in cooperation with the control unit of the air care apparatus 1. [ In one example, the measuring device 38 may include a timer. The timer can measure the time at which the motor 35 operates, and after a predetermined time has elapsed, the timer can stop the operation of the motor 35 by transmitting information to the control unit.

The driving unit 30 may be configured such that the water present in the cleaning space 18 flows into the driving unit 30 by the drive shaft 36 passing through the base 15, A sealing member (not shown) may be further included to prevent the sealing member from leaking.

The rotation unit 20 may include a blade 21 that rotates in conjunction with the drive shaft 36.

The blades 21 may be rotatably installed in the main body 10. Therefore, the blade 21 can be rotated so as to form a vortex by rotating water supplied to the inside of the main body 10.

The blades 21 may be provided in a plurality of at least one. For example, the blade 21 may be installed in the base 15 with three blades.

The plurality of blades 21 may be radially arranged at a predetermined angle with respect to each other. That is, the plurality of blades 21 can be formed to extend in a direction that does not overlap each other from a common central axis. Here, the one common center axis can be understood as the center of the rotation circle. Also, the common center axis may be understood as a position where the drive shaft 36 and the rotation unit 20 are connected to each other.

The shape of the blade 21 can be variously formed without limitation. However, it is preferable that the blade 21 is formed in a shape for generating swirling because the swirl is generated by causing rotation in the water supplied.

The blade 21 includes a horizontal blade 22 connected to the drive shaft 36 and formed in a direction parallel to the base 15 and an inclined blade 22 extending from the horizontal blade 22 to have a predetermined inclination, (23).

The angle of inclination formed between the inclined wing 23 and the horizontal wing 22 is not limited, but it is preferable that the angle is inclined upward toward the upper plate 11.

That is, the inclined wing 23 may extend from the horizontal wing 22 in a direction opposite to the base 15 so as to have a predetermined angle with the horizontal wing 22. For example, the inclined wings 23 may extend upward from the horizontal vanes 22 and have a constant curvature.

When a plurality of the blades 21 are formed, the driving shaft 36 may be connected to the center of the plurality of horizontal blades 22. The center of the plurality of horizontal blades 22 is the same as the center formed by the blades 21, so that the driving shaft 36 is connected to the center position so that the rotational force can be transmitted.

Through the rotational movement of the blade 21, the water introduced from the water supply unit 40 can rotate and flow.

The main body 10 may further include a water level sensor 14 for sensing a water level of the water introduced from the water supply unit 40. The water level sensor 14 can be installed on one side of the upper case 13.

The water level sensor 14 is interlocked with the water supply valve 45 to automatically close the water supply valve 45 to stop the inflow of water when it is detected that the water flowing into the purification space 18 has reached a certain water level .

Meanwhile, as described above, the air supply pipe 61 may be connected to and / or penetrated through the main body 10. Hereinafter, the air supply pipe 61 will be described in more detail.

The air supply pipe (61) may extend downward along the central axis of the main body (10). In detail, the air supply duct 61 may extend through the upper plate 11 and extend to the inner space along the central axis line of the main body 10.

In other respects, the air supply pipe 61 may be inserted and extended into the purification space 18 along the center axis of the upper case 13. The air supply pipe 61 may extend toward the center of the rotation circle formed by the rotation of the blades 21 and extend into the purification space 18. The center of the circle, that is, the center of the circle formed by the rotation of the rotation unit 20, may be located on the center axis formed by the plurality of blades 21.

In another aspect of the present invention, the air supply pipe (61) has a virtual extension line passing through the center of the upper plate (11) and a center of a rotation circle formed by rotation of the blade (21) And may extend in a direction in which the base 15 is formed.

The air supply pipe 61 may be formed to be spaced a certain distance upward from the center of the rotation source or the upper end of the central axis formed by the plurality of blades. The reason why the air supply pipe 61 extends only to a point apart from the upper end of the central axis of the blade 21 is that a certain space for discharging is required when the intake air is supplied into the water.

If the open end of the air supply pipe 61 for discharging the intake air into the water filled in the purifying space 18 is formed so as to abut on the rotary part 20, the discharge flow path of the intake air is blocked, desirable. That is, one end of the air supply pipe 61 may be spaced apart from the upper end of the center shaft formed by the blade 21. According to this, the air supply outlet 63 of the air supply tube 61 to be described later can be positioned away from the blade 21 upward.

A point spaced upward from the upper end of the central axis formed by the blade 21 can be understood as a point spaced from the intersection of the virtual extension line and the blade 21 in the direction of the upper plate 10. [

In other words, the air supply pipe 61 extends downward along the central axis of the main body 10, and is not in contact with the rotation part 20. For example, when the main body 10 has a cylindrical shape, the air supply tube 61 may extend along the center axis of the cylinder to the purification space 18.

The extension length of the air supply pipe 61 extending into the purifying space 18 of the main body 10 can be formed in various lengths. However, the minimum extension length will be a length up to the point where the air supply pipe 61 can be inserted and placed into the water filled in the purification space 18 for the desired air purification process.

A virtual waterline passing through the center of the upper plate 11 and perpendicular to the upper plate 11 is called a first waterline. The center of the upper plate 11 and the center of the rotation circle may be located on the first waterline. At least one of the center of the upper plate 11, the center of the rotation circle, the center of the lower plate 12, and the center of the base 15 may be located on the first waterline. Therefore, the air supply pipe 61 can be formed to extend along the first waterline to the purifying space 18 with the first waterline as a central axis.

The air supply pipe (61) may include an air supply outlet (63) for discharging the intake air into the purifying space (18). The shape of the air supply outlet 63 can be formed in various shapes.

The air supply outlet 63 may be formed as an opened end of the air supply pipe 61 extending into the purifying space 18. [ In this case, the air supply outlet 63 may be positioned away from the rotation unit 20. In other words, the air supply outlet 63 may be located apart from the upper end of the central axis formed by the blade 21. In another aspect, the air supply outlet 63 may be formed at a position spaced upward from the base 15.

Since the air supply outlet 63 is spaced a certain distance from the rotation part 20, the suction air is discharged into the water existing in the purification space 18 through the air supply outlet 63, .

The water level sensor 14 may be installed at a position higher than the air supply outlet 63 because the air supply outlet 63 is located in the water supplied into the purifying space 18 through the water supply pipe 41 .

That is, the water level sensor 14 installed in the upper case 13 may be located above the air supply outlet 63. Therefore, the water level of the water supplied is always higher than the position of the air supply outlet 63. That is, since the water to be supplied is higher than the position of the air supply outlet 63, the intake air flowing through the air supply pipe 61 can be discharged into the water through the air supply outlet 63.

As described above, the position at which the exhaust pipe 71 is connected to and / or penetrated to the main body 10 is not limited. Hereinafter, the structure of the purified air introduced into the exhaust pipe 71 will be described in detail.

The exhaust pipe 71 may include an exhaust inlet 73 through which purified air in the purifying space 18 flows. The shape of the exhaust inlet 73 can be formed in various shapes.

The exhaust inlet 73 may be formed at one end of the exhaust pipe 73 facing the purifying space 18.

The exhaust pipe 71 may extend through one point of the upper plate 11 and extend toward the lower plate 12.

When the exhaust pipe (71) extends through the one end of the upper plate (11) and extends into the purifying space (18), the length of the exhaust pipe extends to a position where the water level sensor (14) can do.

That is, since the exhaust pipe 71 is not inserted into the water because the purified air existing in the purification space 18 must be introduced, the exhaust pipe 71 is horizontally disposed at the position where the water level sensor 14 is installed in the upper case 13, The maximum length of the line extending to the imaginary horizontal line can be set to the maximum extension length. Therefore, the exhaust pipe 71 does not touch the water surface.

The exhaust pipe 71 extending through the upper plate 11 in the direction of the base 15 can be bent in the lateral direction in the purifying space 18. That is, the exhaust inlet 73 may be formed toward the upper case 13 rather than toward the base 15.

By forming the exhaust pipe (71) by bending, it is possible to prevent the water from being discharged to the outside of the apparatus due to the scattering of moisture in the air purification process. In addition, the exhaust unit 70 may further include a dry filter to prevent moisture from flowing into the indoor space due to the scattering of the moisture. Therefore, only the clean air having undergone the air purification process flows into the exhaust inlet 73 and can be exhausted to the outside of the apparatus, that is, the indoor space where the air care apparatus 1 is installed, along the exhaust pipe 51.

The main body 10 may further include a sterilizing agent supply unit (not shown) capable of sterilizing air and a radical water generating apparatus (not shown) capable of converting water supplied into the purification space 18 into OH radical water have.

The sterilizing agent supply unit may supply the sterilizing agent having a sterilizing component to the water supplied into the purification space 18 to dilute a certain amount of the sterilizing agent. The bactericide may be selected from the group consisting of chlorine dioxide and phytoncide.

The chlorine dioxide water can maintain a sterilizing power over a wide pH range, greatly weaken the re-growth of bacteria after sterilization, and is harmless to the human body. In addition, the phytoncide is known as a substance capable of sterilizing by a substance secreted by a plant in order to resist pathogens, insects and fungi.

The radical water generator may be installed in the main body 10 to convert water into OH radical water and supply it to the purification space 18. The OH radical water is the most powerful substance for disinfecting and disinfecting contaminants. Although it has a strong oxidizing power, it is not harmful to the human body, so it can safely disinfect contaminants.

As described above, the air care device 1 of the present invention can evacuate the radical water mixed with the sterilizing agent through the sterilizing agent supply portion and the radical water generating device. The vaporized and exhausted air may be present as particulate matter in which the biocide component can float in the air. Therefore, the sterilizing agent component of the vaporized and exhausted air is volatilized, and various bacteria and the like mixed in the air in the space where the air care apparatus 1 is installed can be disinfected and the propagation of bacteria can be suppressed. That is, the air care device 1 may have an additional function of air sterilization.

The body 10 includes a cooling device (not shown) made up of a cooling coil (not shown), a heater device (not shown) made up of a heater coil (not shown), a water temperature sensor (not shown) .

The cooling device may include compression and expansion means. In one example, the compression means may comprise a compressor, and the expansion means may comprise an expansion valve. And the compression and expansion means may be connected to the cooling coil.

The cooling coil may be configured as a heat exchanger. Thus, the cooling coil can perform heat exchange with the water supplied.

Through the heat exchange between the cooling coil and the water, the temperature of the water supplied may be lowered. Therefore, by cooling the purified air through the cooling device and exhausting the air to the outside, the air care apparatus 1 can provide a cooling function.

The heater device may be connected to an external power source (not shown). The heater device may be connected to the heater coil, and may be supplied with power from the external power source to apply a current to the heater coil. Therefore, the heater coil can generate heat.

The heater coils may be located in the purification space 18. Therefore, the temperature of the water supplied by the heater coil can be increased. As a result, the air cleaning device 1 can provide a heating function by warming the purified air through the heater device and exhausting it to the outside.

The water temperature sensor interlocks with a control unit (not shown) to sense the temperature of the water supplied into the purification space 18 to operate the cooling or heating device. That is, the user can set the room temperature through the operation unit, and operates the cooling or heating device according to the temperature of the water sensed by the water temperature sensor to reach the set indoor temperature, thereby heating or cooling the air by the water It can be exhausted.

3 is a view showing a process of purifying air according to an embodiment of the present invention. The air purification process of the present invention will be described in detail with reference to FIG.

For the air cleaning operation of the air care apparatus 1, the user can select a desired mode by using the operation unit. For example, the user can select the air cleaning mode.

By the user's input through the operating portion, the air cleaning process of the air care device 1 can be started. Specifically, when the air purification process is started, the drain valve 55 and the air supply valve 65 are kept in the off state, and the water supply valve 45 is switched from the off state to the on state do.

 The water supply pipe (45) can be turned on and the water supply pipe (41) can be opened. When the water supply pipe (41) is opened, water flowing into the water supply pipe (41) from the water supply device can flow into the purification space (18).

When the water flowing into the purification space (18) reaches the predetermined level through the water supply pipe (41), the water level sensor (14) operates to sense the water level.

When it is detected by the water level sensor 14 that the water has reached the predetermined water level, the water supply valve 45 may be turned off. At this time, the rotation unit 20 starts rotating. Specifically, the motor 35 of the driving unit 30 is driven in a state in which the water in the purification space 18 reaches a certain level of water.

The drive shaft 36 is rotated by driving the motor 35 and the rotation unit 20 can be rotated by receiving the rotational force of the drive shaft 36. That is, the blade 21 starts rotating.

The control unit can control the rotation speed of the blade 21 by controlling the driving of the motor 35.

When the blade 21 rotates at a high speed, the water supplied to the purification space 18 can also rotate.

The water level of the rotating water differs radially outward and inward due to the difference in rotational speed depending on the position. That is, the water level of the rotating water increases in the radial direction. At the same time, a vortex is formed due to the difference in rotational speed of water.

At this time, the lower water pressure is applied toward the centrifugal direction by the water head difference, and the lowest water pressure can be applied to the center axis formed by the rotation of the water.

After a predetermined time has elapsed after the blade 21 starts to rotate, the water supplied is formed into a vortex shape having a water level difference in a radial direction, and the information about the time when the vortex shape occurs is preset and stored .

When water forms a swirl in the purifying space 18, the contaminated air from the outside is sucked into the air care device 1 through the air supply part 60. Specifically, the suction fan (67) operates to suck the contaminated air.

When the suction fan (67) is driven, negative pressure is applied to the suction pipe (66), so that contaminated air outside the device can be introduced into the suction pipe (66) by the pressure. At this time, the air supply valve 65 can be switched to the on state. The polluted air, that is, the intake air, which has flowed into the suction pipe (66), can flow to the air supply pipe (61).

The air supply pipe 61 extending toward the center of the rotary part 20 can be understood as being formed to extend along the central axis formed by the rotating water.

As described above, since the lowest water pressure is applied to the center axis formed by the rotating water, the intake air supplied through the air supply pipe 61 can be discharged into the water even with a relatively small energy.

In summary, the above-described air supply tube 61 extending along the center of the spiral water is advantageous in that the supply air is supplied to the water in the centrifugal direction at which the lowest water pressure is applied, so that the supply air energy can be relatively minimized . That is, there is an effect of improving the energy efficiency.

The air supplied into the water rises and rotates along with the rotation of the swirling water. Thereby, the water and the supplied air are in contact with each other, mixed and ascended. Specifically, the intake air forced into the water rises in the form of air bubbles while passing through water, and is contacted with water and subjected to a purification step. The density of air is much lower than water and can rise in water. Accordingly, when the intake air is supplied into the water in the centrifugal direction in which the lowest water pressure is applied, the intake air in the water rises in the form of air bubbles while passing through the water. At this time, , And can rise while rotating with water.

And since the air comes into contact with water running along the vortex, the mixed contact area can be increased. As the mixed contact area of the intake air and the water is increased, the contaminants are efficiently adsorbed on the water, thereby maximizing the filtering effect. Accordingly, it is possible to perform an efficient filtration action and, consequently, to improve the air purification ability.

The air that has risen along the vortex is filtered by the pollutants by the water to be clean air. That is, the purified air is discharged onto the water surface of the purification space 18.

The clean air discharged into the space above the water surface of the purifying space 18 is exhausted to the outside of the apparatus through the exhaust pipe 71, that is, the room where the air care apparatus 1 is installed.

On the other hand, the intake air discharged from the air supply pipe (61) is discharged with a relatively high supply pressure in the water of the purifying space (18) due to the supply pump (63), the suction fan .

The clean air discharged into the space above the water surface of the purifying space 18 by the high air supply pressure flows into the exhaust pipe 71 which communicates with the outside to form a relatively low pressure. Therefore, the clean air can be naturally exhausted to the indoor space through the exhaust pipe 71 by the negative pressure formed in the exhaust pipe 71. Of course, it is also possible that a separate exhaust fan is installed in the exhaust pipe 71.

Hereinafter, a plurality of kitchen products provided with the air care apparatus 1 according to the present invention will be described. The description of the overlapping configuration of the air care device 1 with reference to the kitchenware provided with the air care device 1 is based on the description of the air care device 1 described above.

 Through the plurality of kitchen appliances to which the present invention is applied, the kitchen air can be intensively and synthetically purified, and contamination due to the diffusion of the vapor, water-soluble odor, etc. generated in the kitchen space can be prevented.

FIG. 4 is a view showing an embodiment of a refrigerator provided with the air care device of the present invention, and FIG. 5 is a view illustrating a configuration of a refrigerator having the air care device of the present invention.

Referring to FIGS. 4 and 5, a refrigerator is generally a household appliance that can store food in an internal storage space that is shielded by a door. To this end, the refrigerator is configured to cool the inside of the storage space by using cool air generated through heat exchange with the refrigerant circulating in the refrigeration cycle, thereby storing the stored food in an optimum state. The refrigerator can be classified into various types according to the arrangement of the internal storage space such as the refrigerating room and the freezing room.

The refrigerator may be provided with various structures and devices to enhance the user's usability. BACKGROUND ART [0002] Recently, a refrigerator equipped with an air purifier capable of purifying indoor air in a refrigerator has been developed.

The refrigerator according to the prior art having such a structure has the following problems. In the conventional air purifier installed in the refrigerator, which is fixedly installed, only air purification in a limited space is possible, so that the effect of sufficient air purification in the kitchen space in which the refrigerator is installed can not be expected. The filters constituting the filter portion of the conventional air cleaner are composed of an antibacterial filter, a deodorizing filter, and a dust collecting filter. However, such a configuration is not a configuration specialized for the environment of the kitchen with the same structure as a general air purifier, and thus has a problem in that it is not effective in cleaning the air in the kitchen.

4 and 5, a refrigerator 200 equipped with the air care apparatus 1 of the present invention includes a cabinet 201 for forming a storage space, a cabinet 201 mounted on the cabinet 201, An outer appearance can be formed by a door 220 that opens and closes the door.

The storage space inside the cabinet 201 can be divided into upper and lower parts by the barrier 211 and a freezing chamber 212 can be formed on the upper part and a freezing chamber 213 can be formed on the lower part. Further, the space of the freezing chamber 213 may be further divided into right and left. In the refrigerating chamber (212) and the freezing chamber (213), a plurality of shelves and drawers are provided to accommodate foods suitable for the purpose.

The door 220 may include a refrigerating chamber door 221 for opening and closing the refrigerating chamber and a freezing chamber door 222 for opening and closing the freezing chamber. The refrigerator compartment door 221 may be rotatably mounted by hinge devices 223 provided on both sides of the upper surface of the cabinet 201. Therefore, the refrigerating chamber 212 can be fully or partially opened by the pair of the refrigerating chamber doors 221.

The freezing chamber door 222 may also be configured such that one pair of left and right sides of the freezing chamber door 222 are rotated independently of each other. The pair of freezer compartment doors 222 can open / close the spaces of the divided freezing compartments.

A plurality of door baskets are provided on the rear surface of the refrigerator compartment door 221 and the freezer compartment door 222 to provide food storage space.

It is to be understood that the embodiments of the present invention are not limited to the shape and structure of the refrigerator, but only a bottom freeze-type refrigerator will be described for convenience of explanation and understanding.

On the upper surface of the cabinet 201, a main control unit (not shown) for controlling the operation of the refrigerator 200 may be formed. For example, the main control unit may protrude upward from the center of the upper surface of the refrigerator. In addition, the main control unit may include a main PCB for controlling the operation of the refrigerator (200).

The upper surface of the cabinet 201 may further include a discharge unit 230 for discharging the air purified by the air care apparatus 1. [ The discharging unit 230 is provided on the upper surface of the cabinet 201 for purifying the air in the kitchen space where the refrigerator 200 is disposed.

The discharge part 230 may be disposed in a space on the upper surface of the cabinet 201 formed by the upper end of the refrigerating compartment door 221 and the hinge device 223 and has a structure for discharging the purified air forward. The discharge part 230 is connected to the exhaust part 70 of the air care device 1 and can discharge the purified air having passed through the air care device 1 to the indoor space.

The front surface of the discharge portion 230 may be shielded by the refrigerating chamber door 221. The upper end of the refrigerating compartment door 221 may be equal to or higher than the height of the discharging part 230. Therefore, when the refrigerator compartment door 221 is closed, the refrigerant compartment door 221 can be blocked so that the discharge portion 230 is not exposed when viewed from the front. That is, the height of the discharge portion 230 may be lower than the upper end of the refrigerating chamber door 221.

Meanwhile, when the refrigerating compartment door 221 is open, the front surface of the discharging unit 230 is exposed. In addition, a display 233 may be provided on the front surface of the discharging unit 230. For example, when the refrigerator compartment door 221 is opened, the operation state of the air conditioner 1 can be displayed through the display 233, and various kinds of information regarding the air purification of the air conditioner 1 Information can be displayed.

An operation button 234 may be further provided on the front surface of the discharge unit 230. By operating the operation button 234, the user can set and operate the operation of the air care apparatus 1. [ Further, the operation button 234 may be installed on the door to improve the accessibility of the user. For example, the user can determine the air cleaning mode or the cleaning mode through the operation button 234 and can select on / off of the power supply of the air care apparatus 1.

The upper surface of the cabinet 201 may further include a suction unit 240 for sucking room air contaminated by the air care apparatus 1. [ The suction unit 240 is provided on the upper surface of the cabinet 201 for purifying the air in the kitchen space where the refrigerator 200 is disposed and is spaced rearward from the position of the discharge unit 230 Can be deployed. therefore. It is possible to prevent the purified air discharged from the discharging unit 230 from being sucked into the suction unit 240 again.

The suction unit 240 is connected to the air supply unit 60 of the air care apparatus 1 to suck the contaminated air in the indoor space into the air care apparatus 1.

The refrigerator 200 may further include a machine room 250 in which a compressor, a condenser, and the like are installed. The machine room 250 may be disposed at a lower rear side of the refrigerator 200.

The refrigerator 200 exerts its function by cold air generated by a compression refrigeration cycle, that is, a compressor in which a low-temperature low-pressure gas refrigerant is converted into a high-temperature and high-pressure gas refrigerant, A condenser for converting the liquid refrigerant into a liquid refrigerant, an expansion tube for converting the liquid refrigerant at intermediate temperature and high pressure into liquid refrigerant at low temperature and pressure, and an evaporator for converting the liquid refrigerant at low temperature and pressure into gas refrigerant at low temperature and pressure, do. Some elements of the engine that completes the compression refrigeration cycle are located in the machine room 250 located at the lower end of the refrigerator, such as a condenser, a compressor, an axial flow fan, and the like.

The hot air is discharged from the machine room 250 to the outside because the refrigerator can exert its performance only when a sufficient amount of hot air is discharged to the outside of the machine room 250 rotor. In detail, the condenser is heat-dissipated through the machine room cover located at the bottom of the rear of the refrigerator. The relatively low-temperature air from the outside of the refrigerator flows into the condenser through an intake hole (not shown) formed at one side of the machine room cover The air that has been changed to a high temperature may be discharged to the outside of the refrigerator through an exhaust hole (not shown) formed on the side opposite to the intake hole.

The installation position of the air care apparatus 1 provided in the refrigerator 200 is not limited. However, the air care device 1 may be installed in the machine room 250 of the refrigerator 200 in order to maximize the internal space.

The water supply unit 40 of the air care apparatus 1 may be connected to a water supply pipe of a dispenser (not shown) in the case of a refrigerator 200 having an external water supply device or a dispenser. The drainage unit 50 of the air care apparatus 1 may be connected to an external drainage unit. Accordingly, the air care apparatus 1 provided inside the refrigerator 200 can easily receive or discharge water.

6 is a view showing another embodiment of a refrigerator provided with the air care device of the present invention. Hereinafter, another embodiment of the refrigerator provided with the air care apparatus of the present invention will be described in detail with reference to FIG.

 In another embodiment of the refrigerator, there is a difference from the previous refrigerator embodiment in that the air care device 1 operates to remove odors in the interior of the refrigerator. In this embodiment, a description of the embodiment of the previous refrigerator is used for the configuration overlapping with the embodiment of the previous refrigerator.

6, an air care apparatus 1, a compressor 251, a condenser 253, an axial flow fan 259, and the like may be disposed in the machine room 250. In detail, the compressor 251 disposed in the machine room 250 is connected to the condenser 253, and the condenser 253 can be connected to the expansion tube 255. The expansion tube 255 is connected to the evaporator 257 and the evaporator 257 is connected to the compressor 251 to perform a refrigeration cycle.

The air supply unit 60 of the air care apparatus 1 may be connected to the first suction pipe 241 to suck air containing odor in the refrigerator compartment 212.

The first suction pipe 241 may guide the air inside the refrigerating chamber 212 to be sucked into the air care apparatus 1. [ The first suction pipe 241 may include a first suction valve 243 capable of controlling air suction of the refrigerating chamber 212. For example, the first suction valve 243 may be installed in the first suction pipe 241 to control opening and closing.

The air supply unit 60 of the air care apparatus 1 may be connected to the second suction pipe 242 to suck air containing odor in the freezing compartment 213.

The second suction pipe 242 may guide the air inside the freezing chamber 213 to be sucked into the air care device 1. [ The second suction pipe 242 may include a second suction valve 244 that can adjust the air suction of the freezing chamber 213. For example, the second suction valve 244 may be installed in the second suction pipe 242 to control opening and closing.

The air supplied to the air care device 1 through the first suction valve 243 and the second suction valve 244 can be selectively determined. That is, according to the user's choice, the malodor of the refrigerator compartment and / or the freezer compartment can be removed and fresh air can be returned to the interior space.

The exhaust unit 70 of the air care apparatus 1 may be connected to the first discharge pipe 236 to discharge purified air into the refrigerator compartment 212.

The first discharge pipe 236 can guide the purified air passing through the air care device 1 to be discharged into the refrigerating chamber 212. The first discharge pipe 235 may include a first discharge valve 238 to regulate the amount of purified air discharged into the cold seal chamber 212. The first discharge valve 238 may be installed in the first discharge pipe 235.

The ventilation part 70 of the air care device 1 may be connected to the second discharge pipe 237 to discharge purified air into the freezing chamber 213.

The second discharge pipe 237 can guide the purified air passing through the air care device 1 to be discharged into the freezing chamber 213. The second discharge pipe 237 may include a second discharge valve 239 for controlling the amount of purified air discharged into the freezing chamber 213. The second discharge valve 239 can be installed in the second discharge pipe 237.

The user can selectively operate the air care apparatus 1 according to the degree of odor generated in the refrigerating chamber 212 and / or the freezing chamber 213 through the first and second discharge pipes and the first and second suction pipes. Accordingly, it is possible to prevent bad odors from flowing into the indoor space according to the opening and closing operation of the door 220 by eliminating odor in the oven and maintaining fresh cold air.

FIG. 7 is a view showing an embodiment of the dishwasher provided with the air care apparatus of the present invention, and FIG. 8 is a sectional view showing the internal structure of the dishwasher having the air care apparatus of the present invention.

The dishwasher is one of the kitchen appliances which clean the dishes by spraying high pressure washing water through the washing nozzle to wash food or dirt remaining in the dishware.

 The structure of the dishwasher includes a washing tank for providing a space for washing dishes, a sump provided below the washing tank for supplying wash water to the washing tank while the washing water is stored, and a high- And a cleaning nozzle for spraying. The washing water supplied from the outside is supplied to the sump, and is transferred from the sump to the washing nozzle, and is injected into the inner space of the washing tub which provides a washing space for the tableware at a high pressure. The washing water used for cleaning the dishes is collected into the sump, and the recovered washing water is supplied to the filter device located inside the sump, And then supplied to the cleaning nozzle again.

Thus, the dishwasher has a configuration in which the dishwasher is cleaned using the washing water supplied from the outside, and the used washing water is drained to the outside of the dishwasher together with foreign matters filtered by the filter device. That is, the dishwasher in which water supply and drainage are basically provided has an advantageous and favorable configuration to be equipped with the air care apparatus 1 of the present invention.

Referring to FIGS. 7 and 8, the dishwasher 300 of the present embodiment is shaped by a main body 301 formed in the form of a rectangular parallelepiped having a predetermined internal space.

The front surface of the main body 301 is provided with a door 302 for selectively opening and closing the front surface of the washing tub located in the inner space of the main body 301. The door 302 is formed in the shape of a rectangular plate having a predetermined thickness and a lower end portion of the door 302 is hinged to the main body 301 and is rotatable about a lower end thereof as a rotation center.

A door handle 334 is provided on the front surface of the door 302 so that the user can grasp the door 302 when the door 302 is rotated.

A control panel 330 is provided at the upper end of the front surface of the door 302 to allow the user to control the operation of the main body 301 while displaying the operation status of the main body 301 to the user do.

The control panel 330 is provided with a power switch 331 for turning on and off the power of the main body 301 and includes an operation unit 332 for operating the main body 301 by a user's operation, A display unit 333 for displaying the state of the main body 301 operated by the operation of the operation unit 332, and the like.

The control panel 330 may be positioned at the upper end of the front surface of the door 302, or may be positioned at the upper surface of the main body 301.

In addition, a detergent box for storing the detergent and a rinsing container for storing the rinse are provided in the inner space of the door 302, and a detergent input port and a rinse for inputting the detergent are inserted into the rear surface of the door 302 A rinse inlet is formed.

The detergent is discharged to the inner space of the washing tub 310 to be described later in the washing cycle, and is used for washing the dishes. The rinse is discharged to the inner space of the washing tub 310 in the rinsing cycle and used for rinsing the dishes .

A washing tub 310 is provided in the inner space of the main body 301 to provide a space for washing dishes and a plurality of racks 311 and 312 for storing dishes to be washed are provided in the inner space of the washing tub 310 do.

The plurality of racks may include an upper rack 311 located on the upper side and a lower rack 312 located on the lower side of the upper rack 311. The upper rack 311 and the lower rack 312 are spaced apart from each other by a predetermined distance.

Although not shown, the racks 311 and 312 are guided by guide rails formed on the inner side surface of the washing tub 310 to move forward and backward in the inner space of the washing tub 310, And can be moved to the outer space of the main body 301. [

In the present embodiment, two racks are provided in the inner space of the washing tub 310. However, the number of the racks is not limited.

A nozzle device 320 is provided in the inner space of the washing tub 310 to inject washing water into the racks 311 and 312. The nozzle device 320 includes a lower nozzle 321 for receiving washing water from the sump 340 and spraying washing water to the inner space of the washing tub 310 to be described later, A top nozzle 322 for spraying washing water into the inner space of the washing tub 310 and a top nozzle 323 for spraying washing water located above the top nozzle 322. [

The top nozzle 323 is located at the center of the ceiling of the washing tub 310 and discharges the washing water downward. The bottom nozzle 321 is located at the bottom of the inner space of the washing tub 310, The washing water is sprayed.

The upper nozzle 322 and the lower nozzle 321 are rotated by the rotation of the upper nozzle 322 and the lower nozzle 321 in order to uniformly spray the washing water, And the washing water is sprayed while exercising.

A washing water guide 324 for guiding washing water to the nozzle unit 320 is connected to the sump 340. The wash water guide 324 may form a single wash water passage or may form a plurality of wash water passages. That is, the washing water guide 324 connected to the sump 340 may be formed to guide the washing water to the nozzle unit 320 while a part of the washing water guide 324 branches, and the washing water guide 324 May be connected to guide wash water.

The washing water guide 224 guides the washing water directed to the upper nozzle 322 and the top nozzle 323 and the lower nozzle 321 is connected to a nozzle connecting portion 342 formed on the upper surface of the sump 340 And receives the washing water accommodated in the inner space of the sump 340.

On the lower side of the washing tub 310, a base 304 for supporting a plurality of parts is provided. The base 304 is formed in a shape of a rectangular parallelepiped having a predetermined inner space and made of a material having a predetermined strength.

A water supply device 350 is provided between the washing tub 310 and the main body 301 to guide the flow of washing water and to communicate the outside air of the washing tub 310 with the inside air.

The inner space of the washing tub 310 can be maintained at atmospheric pressure by the water supply device 350 and the inner space of the washing tub 310 can be prevented from rising to a high pressure.

The base 304 is provided with a water softener 329 for converting water supplied from outside into soft water. Soft water contains calcium ions or magnesium ions in a small amount, and has the advantage that the detergent is well pulverized and a scale called white film, that is, water, is not produced.

The water softener 329 is formed to have a predetermined inner space, and an ionization resin or the like is provided in the inner space thereof to convert water supplied from the outside to generate soft water.

The water softener 329 is provided with an inlet through which water to be supplied flows and a drain through which water converted into soft water is discharged from the inner space. The inlet port side is connected to a water supply device 350 for controlling the flow rate of water supplied in the external space and the drain port side is connected to a soft water guide pipe 353 for guiding water converted into soft water from the water softener device 329.

The water supply device 350 is disposed in a space between the inner surface of the main body 301 and the outer surface of the washing tub 310 to form a predetermined inner space and a flow rate gauge or the like is provided therein, Thereby controlling the flow rate of water supplied in the external space.

The flow rate of the water supplied to the water softener device 329 is controlled by the water supply device 350 while controlling the flow rate of the water supplied from the external space of the main body 301 and the overflow of the water softener device 329, (329) to the water supply device (350) is prevented.

That is, when water having a flow rate greater than that of the water storage device 329 is supplied, the water supply device 350 controls the supply of water from the outside so that water is not supplied to the water supply device 329 .

At one side of the water softener 329, a sump 340 for storing a part of water converted into soft water by the water softener is located. The sump 340 has a predetermined internal space, and a filter device for collecting foreign matter flowing in at the same time as the water supplied from the water supply device 329 is provided in the internal space. The filter device simultaneously performs a function of collecting foreign substances flowing while washing dishes in the washing tub 310.

The sump 340 is provided with a sump inlet 343 for providing a passage through which the soft water supplied from the water softener 329 flows into the inner space of the sump 340, A sump outlet 341 for discharging water to the washing water guide 324 is formed.

The sump 340 is connected to a sump discharge pipe 360 for discharging the washing water and the foreign substance to the external space of the main body 301 after washing the dishes in the internal space of the washing tank 310.

A sump inlet controller for controlling the flow rate of water flowing into the sump 340 may further be provided on the sump inlet 343 and a nozzle connection portion connected to the lower nozzle 321 may be provided on the sump 340 Can be provided.

A steam generator 347 may be installed at one side of the sump 340 to generate water by supplying water converted into soft water from the water softener 329 to the steam water to generate steam. The steam generator 347 is formed to have a predetermined internal space, and a steam heater for heating the water to be supplied is installed in the internal space.

The steam heater receives external power and generates steam by heating the steam water contained in the internal space of the steam generator 347. A steam inlet may be provided on the inner surface of the washing tub 310 to provide a passage through which the steam generated in the steam generator 347 flows into the inner space of the washing tub 310.

A water supply pipe 346 for guiding the water converted into soft water from the water softener 329 to the inner space of the steam generator 347 is connected to the inlet side of the steam generator 347, A steam discharge pipe for supplying the steam generated in the steam generator 347 to the steam inlet is connected to the outlet of the device 347.

In this way, the steam generated in the steam generator flows while being guided by the steam discharge pipe, and is supplied to the inner space of the washing tub 310 through the steam inlet.

The siphon 340 is located at the center of the inner space of the base 304 and the water softener 329 is located at one side of the sump 340, The steam device 347 is positioned at one side.

The water softening device 329 may be connected directly to the sump 340 and the steam device 347 to supply water converted into soft water to the washing water and the steam water. It is also possible to distribute water converted into soft water from the water softener 329 to the sump 340 and the steam generator 347 by being connected to the distribution apparatus 344 to be described later.

In an embodiment of the present invention, the soft water guide pipe 353 is connected to the distribution device 344, and the distribution device 344 is connected to the sump 340 and the steam device 347 Let's take a look.

The water guide pipe 353 has a tube shape having a predetermined diameter and guides the water converted into soft water by the water softener 329 to the distribution device 344 by the inner space.

The distribution device 344 has an inlet connected to the soft water guide pipe 353 and an outlet connected to the sump 340 and the steam device 347. That is, the distributor distributes the water introduced through the inlet in two directions while having one inlet, and distributes water converted into soft water from the water softener to the sump and the steam device.

One outlet of the outlet of the distributor 344 is connected to the sump inlet pipe 343 and the other outlet is connected to the water supply pipe 346. The outlet of the distributor 344 is connected to the sump inlet pipe 343 and the water supply pipe 346 so that the water converted into soft water in the water softener 329 is supplied to the washing water and the steam water Can be supplied.

The air care apparatus 1 of the present invention may be installed in the base 304. The water supply unit 40 of the air care apparatus 1 may be connected to the water supply unit 350 to supply water. The drainage unit 50 of the air care apparatus 1 is connected to the sump drain pipe 360 to discharge polluted wash water and water to the outside sewage pipe.

In addition, the base 304 may be provided with a suction unit 370 for sucking air in the room by the air care device 1. The suction unit 370 may be formed on the front panel of the base 304 and may be connected to the air supply unit 60 of the air care device 1. [ therefore. The contaminated air can be sucked from the lower portion of the dishwasher 300 and introduced into the air care apparatus 1. [

The top surface of the main body 301 of the dishwasher may be provided with a discharging unit 380 for discharging purified air passing through the air care apparatus 1. The shape of the discharge portion 380 is not limited.

The discharge portion 380 may be connected to the exhaust portion 70 of the air care device 1. [ Therefore, the contaminated air in the room, which has flowed into the air care apparatus 1 through the suction unit 370, is cleaned through the purifying process, and the clean air is returned to the indoor space through the discharging unit 380 So that air purification of the indoor space can be achieved.

FIG. 9 is a view showing an embodiment of a water purifier provided with the air care device of the present invention, and FIG. 10 is a water pipe diagram according to an embodiment of the water purifier provided with the air care device of the present invention.

Generally, a water purifier refers to a device for purifying raw water such as tap water to be suitable for drinking. The water purifier may be divided into a water purifier that stores the purified water after storing the purified water in the water tank, and a water purifier that discharges the purified water without storing the purified water.

9 and 10, the water purifier 400 equipped with the air care device 1 of the present invention includes a main body 401 to which at least one filter is mounted, A filter cover 403 covering the filter, and a water receiver 405 detachably coupled to the main body 401 and storing water to be dropped when water is discharged.

A control panel 411 may be provided in front of the main body 401. The control panel 411 may include an operation unit 410 for selecting functions. In addition, an operation lever 402 may be provided in front of the main body 401 to operate to extract water.

The main body 401 may include a discharge unit 470. In detail, the control panel 411 may include a discharge unit 470 through which purified air is discharged. The discharge portion 470 is connected to the exhaust portion 70 of the air cleaner 1 to discharge clean air after the air cleaning. For example, the exhaust pipe 71 of the exhaust unit 70 and the exhaust unit 470 may be connected to each other.

The side of the main body 401 may be provided with a suction unit 460 for sucking indoor air and introducing the indoor air into the air care apparatus 1. [ For example, the suction unit 460 may be formed on the lower side of the main body 401.

The suction unit 460 is connected to the air supply unit 60 of the air care apparatus 1 to suck air in an indoor space in which the water purifier 400 of the present embodiment is installed and to introduce the air into the air care apparatus 1 . For example, the suction unit 460 may be connected to the air supply pipe 61 of the supply unit 60.

The filter cover 403 may be detachably coupled to the front of the main body 401. Since the filter cover 403 is detachably coupled to the front of the main body 401, the filter cover 403 can be easily separated from the front of the main body 401, There is an advantage in that it can be separated or separated.

For example, the water purifier 400 includes three filters. The water purifier 400 may include a first filter 421, a second filter 422, and a third filter 423. In the present embodiment, it is to be noted that there is no limitation on the type and the number of filters employed in the water purifier 400.

The water purifier 400 may further include a first filter holder on which the first filter 421 is mounted, a second filter holder 425 on which the second filter 422 is mounted, ) Is mounted. The filters 421, 422, and 423 may be rotated together with the filter holders in a state where the filters are mounted on the filter holders.

The operation unit 410 may include a plurality of buttons. The plurality of buttons may include a hot water button 412 for selecting a hot water discharge function, an integer button 413 for selecting a purified water discharge function, and a cold water button 414 for selecting a cold water discharge function have.

In the present embodiment, the hot water mode can be selected or canceled by pressing the hot water button 412 for a predetermined time. The hot water mode is associated with the operation of a heater (not shown). When the hot water mode is selected, the heater is operated, and when the hot water mode is released, the heater is stopped. The hot water discharge function means a function of discharging the hot water stored in the hot water tank.

In the present embodiment, the cold water mode can be selected or released by pressing the cold water button 414 for a predetermined time. The cold water mode is associated with the operation of a cooler (not shown). When the cold water mode is selected, the cooler is operated. When the cold water mode is released, the cooler is stopped. The cold water discharge function means a function of discharging the cold water stored in the cold water tank.

When the hot water mode is selected and the hot water button 412 is pressed and the operation lever 402 is pressed, hot water can be discharged. If the cold water button 414 is pressed while the cold water mode is selected and the operating lever 402 is pressed, chilled water can be discharged. Alternatively, if the operating lever 402 is pressed while the cold water mode is selected, cold water may be discharged. In this case, the cold water discharge function should be set as the basic discharge function. When the water purifying button 413 is pressed and the operating lever 402 is pressed, the purified water can be discharged.

The plurality of buttons may further include a lock button 417 for locking the hot water discharge function and a continuous button 415 for continuously discharging cold water or purified water for a predetermined time or a predetermined amount. The lock button 417 can not release the hot water mode and can lock the hot water discharge function. Therefore, when the lock function is selected using the lock button 417, the hot water can not be discharged even if the hot water button 412 is pressed and the operation lever 402 is pressed. When the locking function is released using the lock button 417, the hot water can be discharged.

In addition, the plurality of buttons may further include a sterilization button 416 for selecting a sterilization mode. When the sterilization mode is selected, the sterilization apparatus operates to sterilize the water.

Referring to the water pipe diagram of the water purifier, the water purifier 400 includes a purified water pipe 442 through which the purified water filtered by the plurality of filters 421, 422, and 423 flows, A water tank 431 for storing cold water, a cold water tank 432 for storing cold water, and a hot water tank 433 for storing hot water.

In addition, the air care apparatus 1 provided in the water purifier 400 may connect the raw water to the water supply unit 40 to receive water. The water supply pipe 41 of the water supply unit may be connected to the living water pipe 426 which has passed the filter as well as the raw water or the water supply pipe 450 and the water supply pipe 41 may be connected.

The drainage unit 50 of the air care apparatus 1 may be connected to a sewage pipe (not shown) for discharging water, which is difficult to drink or not to drink. Alternatively, the water may be discharged by being connected to the water receiver 405.

The water purifier 400 may include a plurality of valves 427 and 428 provided in a pipe 441 connecting the first filter 421 and the second filter 422. The plurality of valves 427 and 428 may be operated based on the water level sensed by the water level sensor provided in the water tank 431.

The purified water pipe 442 may be connected to the lower side of the water tank 431. The purified water pipe 442 may be provided with a check valve 427 for preventing the water in the water tank 431 from flowing toward the third filter 423.

The water tank 431 and the cold water tank 432 may be integrally formed. The cold water tank 432 may be positioned below the water tank 431. Therefore, the purified water introduced into the water tank 431 can be supplied to the cold water tank 432. The purified water supplied to the cold water tank 432 can be cooled by the cooler. Of course, the water tank 431 and the cold water tank 432 can be manufactured as separate articles.

A first connection pipe 451 through which water to be supplied to the hot water tank 433 flows is connected to the lower side of the water tank 431. The first connection pipe 451 is connected to the drain connector 452. The first connection pipe 451 may be provided with a check valve 454 for allowing the constant of the water tank 431 to flow only to the drain connector 452 side.

The drain connector 452 is connected to the hot water tank 433 by a second connection pipe 453. Although not shown, a drain port is formed in the drain connector 452, and the drain port can be opened and closed by a check valve (not shown). The check valve opens the drain hole when the drain hose (not shown) is inserted from the outside into the drain connector 52. Therefore, when the drain port is closed, the constant of the water tank 431 is connected to the hot water tank 433 through the first connection pipe 451, the drain connection connector 452 and the second connection pipe 453 Flow. The purified water flowing into the hot water tank 433 can be heated by the heater.

On the other hand, when the drain hose is connected to the drain connector 452, the drain hole is opened so that water in the hot water tank 433 is drained to the drain hose through the drain hole through the second connection pipe 453 .

The water purifier 400 includes a purified water discharge pipe 443 through which purified water of the water tank 431 is discharged, a cold water discharge pipe 444 through which cold water is discharged from the water tank 432, A cold water valve 492 provided in the cold water pipe 444 and a hot water discharge pipe 445 provided in the purified water discharge pipe 443. The hot water discharge pipe 445 discharges hot water, And a hot water valve 493 provided in the hot water valve 490.

The water purifier 491 regulates the flow of purified water in the purified water discharge pipe 443 and the cold water valve 492 regulates cold water flow in the cold water discharge pipe 444, And controls the hot water flow in the hot water discharge pipe (445).

The purified water discharge pipe 443 may be connected to the lower side of the water tank 431 for example. The cold water discharge pipe 444 may be connected to the lower side of the cold water tank 432, for example. The hot water discharge pipe (445) may be connected to the upper side of the hot water tank (433).

The purified water discharge pipe 443, the cold water discharge pipe 444 and the hot water discharge pipe 445 may be connected to a common discharge pipe 455. An outlet 450 is connected to the common discharge pipe 455. That is, in this embodiment, purified water, cold water, or hot water can be selectively taken out using the single operation lever 412 and the air outlet 450. Accordingly, the structure of the water purifier is simplified, and the appearance is clean. At this time, in the present embodiment, the common discharge pipe 455 and the blow-out port 450 will collectively be referred to as a water discharge pipe.

Meanwhile, the second filter holder 425 to which the second filter 422 is connected may be connected to a living water pipe 426 through which the domestic water is discharged.

FIG. 11 is a view showing an embodiment of a washing machine provided with the air care apparatus of the present invention, and FIG. 12 is a sectional view showing the internal structure of the washing machine provided with the air care apparatus of the present invention.

Generally, when a user puts contaminated laundry into a washing machine, the washing machine mixes the detergent and the washing water appropriately to perform a washing cycle, and then performs a washing and a dewatering cycle to complete the washing operation. The drum washing machine has a structure in which washing operation is performed while the drum into which laundry is loaded is horizontally rotated. When the user puts the laundry into the drum and turns on the start switch, the controller detects the weight of the laundry loaded in the drum, determines the proper amount of water to be supplied to the laundry, and starts water supply.

When the water supply is continued and the water is stored up to the set level in the water storage tank surrounding the drum, the drum is rotated according to the driving of the motor, and the laundry is washed by the fall of the laundry. Such washing is carried out for a time set by the weight of the laundry. Thereafter, when the washing cycle is completed, the drainage operation of discharging the contaminated washing water in the water tank to the outside by the drainage pump is performed simultaneously with the dewatering process, and the washing cycle is repeated a predetermined number of times. Further, when the washing cycle is completed, the rinsing cycle and the dewatering cycle are performed subsequently.

Since the water supply and drainage processes are indispensable to the washing machine during the washing cycle of the washing machine, the washing machine can provide an environment suitable for the air care apparatus 1 of the present invention.

11 and 12, a washing machine 600 equipped with an air care apparatus of the present invention includes a cabinet 610 for forming an outer appearance, a rotatably installed inside the cabinet 610, A lifter 621 installed on the inner surface of the drum 620 and lifting the laundry so that the laundry is dropped by gravity at a predetermined height; And a motor 630 that generates rotational power of the motor 620.

A front cover 612 having a laundry inlet 611 at its center is mounted on a front surface of the cabinet 610 and a door 613 for opening and closing the laundry inlet and outlet 611 is rotatably mounted on the front cover 612 Respectively.

A control panel 614 is provided on the front upper surface of the cabinet 610. The control panel 614 may include a plurality of buttons or knobs for operating the washing machine 600 and may include a display for displaying an operating state of the washing machine 600.

Further, a detergent drawer 615 may be further provided on the front upper surface of the cabinet 610. The detergent drawer 615 is provided on the side of the control panel 614 and includes a part where the detergent is inserted and stored and a part exposed to the front part are integrally formed or at least a part forming the front part is a separate part And can be formed by bonding.

In addition, a service cover 616 may be further provided at a lower front surface of the cabinet 610. The service cover 616 is configured to be opened when the washing machine 600 is stopped to remove residual water present in the washing machine 600.

The cabinet 610 forms a space therein and a direct device for washing laundry such as a tub 635 in which a motor 630 and a drum 620 are accommodated is installed in the space.

The motor 630 rotates the drive shaft 631 by a current supplied from a power source. The driving shaft 631 passes through the tub 635 and is fixed to the rear surface of the drum 620 to rotate the drum 620. The drum 620 has a shape that is opened toward the other side to which the drive shaft 631 is fixed, that is, toward the door 613. Also, the tub 635 is enclosed by the drum 620, so that the washing water collected in the tub 635 is kept airtight so as not to leak.

The tub 635 is kept airtight since the washing water must be collected at the time of washing. Here, the drum 620 is rotatably installed inside the tub 635. A plurality of through holes 622 are formed in the drum 620. When the wash water is supplied from the water supply pipe 640 to the inside of the tub 620, . Further, the through holes 622 allow the wash water to be smoothly drained from the drum 620, which is rotated at the time of dewatering after the washing process.

The detergent drawer 615 is connected to the water supply pipe 640 through which cold / hot water is supplied, and the water mixed with the detergent and the fabric softener flows into the tub 635 .

The outer surface of the tub 635 may be provided with a vibration measuring device. The vibration measuring apparatus measures vibration of a tub generated during operation of the washing machine 600. Generally, an acceleration sensor or an optical sensor used for measuring vibration may be used. The vibration measuring apparatus includes a front sensor 625 provided at the front half of the outer surface of the tub 635 and a rear sensor 626 provided at the rear half of the tub 635, As shown in FIG.

The tub 635 may be connected to a discharge pipe 650 through which water in the tub is drained after the washing operation is completed. The discharge pipe 650 may be connected to a drainage channel 655 for discharging water to an outside drainage pipe or the like. Therefore, the water drained through the discharge pipe 650 can be discharged to the outside through the drainage passage 655.

The washing machine 600 may further include an air care apparatus 1 capable of purifying air, a suction unit 660 sucking indoor air, and a discharge unit 670 discharging purified air back into the room .

The air care apparatus 1 may be installed in an internal space formed by the cabinet 610. Here, it should be apparent that the air care apparatus 1 should be installed not to interfere with the operation of other components installed in the internal space.

The water supply unit 40 of the air care apparatus 1 may be connected to the water supply pipe 640. The drainage unit 50 of the air care apparatus 1 may be connected to the drainage passage 655. The water supply unit 40 and the water discharge unit 50 are connected to the water supply pipe 640 and the water discharge channel 655 which are the components of the conventional washing machine 600 and are connected to the water supply and drainage Can be automatically performed.

The discharge portion 670 may be formed on the upper surface of the cabinet 610. The discharge portion 670 may include a discharge port 678 for discharging purified air from the air care device 1 into the indoor space and a vane disposed at the discharge port 678 to control the direction of the discharge air have.

The discharge portion 670 may be connected to the exhaust portion 70 of the air care apparatus 1. [ Therefore, the clean air that has undergone the air purification process of the air care apparatus 1 can be discharged to the room through the discharge unit 670 connected to the exhaust unit 70.

The suction unit 660 may be formed on the front surface of the cabinet 610. For example, the suction portion 660 may be formed as a side surface of the service cover 116 at the lower end of the front surface of the cabinet 610 to suck bottom air of the room.

The suction portion 660 may include a suction port 668 capable of sucking indoor air.

The suction unit 660 may be connected to the air supply unit 60 of the air care device 1. [ For example, the suction port 668 may be connected to the suction pipe 66 of the air care apparatus 1 to suck indoor air.

10: main body 20:
30: drive unit 40: water supply unit
50: drain portion 60:
70:

Claims (31)

A body for containing water therein;
A blade rotatably installed in the main body;
And a guide for guiding air into the water rotating by the rotation of the blade; And
And an exhaust pipe for guiding the air that has passed through the rotating water to be exhausted. The method according to claim 1,
A suction pipe connected to the air supply pipe and sucking outside air;
A suction fan for supplying a suction force to the suction pipe; And
And an air supply valve installed in the air supply unit. 3. The method of claim 2,
And an air supply pump for supplying pressure to the outside air sucked through the suction pipe. The method according to claim 1,
Wherein the body is made of a transparent material. The method according to claim 1,
Wherein the plurality of blades are formed by extending in a radial direction from a common central axis. 6. The method of claim 5,
Wherein the air supply tube extends toward the central axis of the plurality of blades. 6. The method of claim 5,
Wherein the water in the purification space forms a swirl with a water level difference by the rotation of the blade. A case for providing a cleaning space for air purification inside and an installation space for installing the parts;
A base formed of a plate for partitioning the purifying space and the installation space;
A driving unit disposed in the installation space and providing a rotational force;
A rotating part disposed in the purifying space and connected to the driving part to rotate;
A water supply unit connected to the case and supplying water to the purification space;
A supply unit connected to the case to discharge air into the water filled in the purification space;
A drainage unit connected to the case and draining water from the purification space; And
And an exhaust unit connected to the case to exhaust air in the purification space. 9. The method of claim 8,
A cooling coil installed in the purification space; And
And a heater coil installed in the purifying space. 9. The method of claim 8,
The driving unit includes:
A motor generating a rotational force;
A rotation shaft coupled to the motor and connected to the rotation unit through the base; And
And an engaging member coupled to the rotating shaft and configured to shield a through space of the base. 9. The method of claim 8,
The rotation unit includes:
A plurality of horizontal blades radially formed from the central axis of the rotating portion; And
And an inclined wing extending from the horizontal wing to be inclined. 12. The method of claim 11,
The water-
A water supply pipe connected to the water supply device for supplying water and guiding the flow of water; And
And a water supply valve installed in the water supply pipe. 13. The method of claim 12,
The drainage section
A drain pipe connecting an outside drainage device and the case to guide the flow of water; And
And a drain valve installed in the drain pipe. 9. The method of claim 8,
The exhaust unit includes:
An exhaust pipe for guiding air in the purifying space to the outside; And
And an exhaust valve installed in the exhaust pipe,
Wherein an open end of the exhaust pipe is positioned higher than a water level of the water in the purifying space. A body providing space therein;
A water supply pipe for supplying water to the main body;
A drain pipe for supplying a water to the body;
A blade rotatably installed in the main body;
A gas inlet inserted into the main body and guiding air into the main body; And
An exhaust pipe for guiding air in the main body to be exhausted; . 16. The method of claim 15,
A suction pipe connected to the air supply pipe from the outside of the main body and providing a suction passage of outside air; And
Further comprising a suction fan for providing a suction force to the suction pipe. 17. The method of claim 16,
An upper plate forming an upper surface of the main body and having a hole through which the main body flows;
A lower plate forming a lower surface of the main body;
A case connecting the upper plate and the lower plate to form a peripheral surface of the main body; And
A base disposed between the upper and lower plates to define an inner space of the case; Further comprising: 18. The method of claim 17,
An air supply outlet formed at one end of the air supply unit and positioned above the base; And
And a water level sensor positioned above the air supply outlet and sensing a water level of water flowing through the water supply pipe. 19. The method of claim 18,
A drain valve installed in the drain pipe for controlling the opening and closing of the drain pipe; And
And a water supply valve installed in the water supply pipe and interlocking with the water level sensor to adjust the opening and closing of the water supply pipe. 1. A refrigerator comprising: a cabinet forming a storage space comprising a refrigerator compartment and a freezer compartment; a door mounted on the cabinet for opening and closing the storage compartment; and a machine room provided with a compressor and an adjuster,
A case installed in the machine room to form an internal space;
A water supply pipe having one end connected to the case and the other end connected to a water supply device;
A drain pipe connected at one end to the case and at the other end to a drain device;
A blade for rotating the water supplied into the inner space;
A discharge unit installed in the cabinet;
A suction unit disposed in the cabinet so as to be spaced apart from the discharge unit;
The air intake port being connected to one end of the intake port and the other end of the air port being positioned in the internal space to discharge the air sucked through the suction port; And
And an exhaust pipe connected to the case and the one end, and the other end connected to the discharging unit. 21. The method of claim 20,
And a dispenser connected to the water supply pipe and formed on the door. A cabinet forming a storage space;
A barrier for partitioning the storage space into a refrigerating chamber and a freezing chamber;
A machine room located inside the cabinet and equipped with a compressor and a condenser;
A case installed in the machine room to form an internal space;
A water supply pipe connecting the case and the water supply device to supply water to the internal space;
A drain pipe connecting the case and the drain device to discharge water in the internal space;
A blade for rotating the water in the inner space;
A first suction pipe for sucking air in the refrigerating compartment;
A gas inlet connected to the first suction pipe and guiding the suction air to be discharged into the internal space;
An exhaust pipe connected to the case and guiding air in the internal space to be exhausted; And
And a first discharge pipe connected to the exhaust pipe and discharging air to the refrigerating chamber. 23. The method of claim 22,
A second suction pipe for sucking air in the freezing chamber and connected to the air supply unit; And
And a second discharge pipe connected to the exhaust pipe and discharging air to the freezer compartment. 24. The method of claim 23,
A first suction valve installed in the first suction pipe to adjust opening and closing;
A second suction valve installed in the second suction pipe to adjust opening and closing;
A first discharge valve installed in the first discharge pipe to regulate opening and closing; And
And a second discharge valve installed in the second discharge pipe to adjust opening and closing. A water supply unit disposed in the cleaning tank, and a cleaning water discharge unit for discharging the washed water from the cleaning unit to the outside space. The cleaning unit includes a cleaning tank provided with a space for cleaning the tableware, a sump provided under the cleaning tank for supplying cleaning water, And a sump outlet pipe provided in the dishwasher,
A washing tub base for supporting a plurality of parts under the washing tub;
A case installed in the washing tub base to form an inner space;
A water supply pipe connecting the case and the water supply device to guide the water into the internal space;
A drain pipe connecting the case and the sump discharge pipe to discharge water in the internal space;
A blade for rotating the water in the inner space;
An air inlet for sucking outside air and guiding the air to be discharged into the internal space; And
And an exhaust pipe connected to the case to guide air in the internal space to be exhausted. 26. The method of claim 25,
A suction unit connected to the air supply unit and sucking the outside air to flow into the air supply unit; And
Further comprising a discharge part connected to the exhaust pipe, for discharging the air flowing through the exhaust pipe to the outside. 26. The method of claim 25,
Wherein the suction unit is installed in the washing tub base. 1. A water purifier comprising: a water purifier main body to which a filter is mounted; and a plurality of pipes for guiding raw water to flow into a water storage tank, which is a storage space,
A case installed inside the purifier body to form an inner space;
A water supply pipe connecting any one of the case and the plurality of pipes;
A drain pipe connected to the case and discharging water in the inner space;
A blade for rotating the water in the inner space;
A suction unit formed in the purifier body and sucking outside air;
A gas inlet for guiding the outside air from the suction unit to the internal space;
An exhaust pipe connected to the case and guiding air in the internal space to be exhausted; And
And a discharge unit connected to the exhaust pipe and discharging the air flowing through the exhaust pipe to the outside. 29. The method of claim 28,
Wherein the suction unit is formed in a front portion of the purifier body, and the discharge portion is formed in a side portion of the purifier body. A washing machine comprising a cabinet forming an outer appearance, a drum rotatably installed in the cabinet, a drum into which laundry is introduced, a lifter installed on an inner surface of the drum, a motor generating a rotational power of the drum, In this case,
A case installed inside the cabinet and defining an inner space;
A water supply pipe connecting the case and the water supply channel;
A drain pipe connecting the case and the drainage passage;
A blade for rotating the water in the inner space;
A gas supply pipe for sucking outside air and guiding the gas to be discharged into the internal space; And
And an exhaust pipe connected to the case and guiding air in the internal space to be exhausted. 31. The method of claim 30,
A suction unit connected to the air supply unit and adapted to suck indoor air and flow to the air supply unit; And
And a discharge part connected to the exhaust pipe and discharging the air flowing through the exhaust pipe to the room.

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