KR200406028Y1 - The apparatus for purifying air - Google Patents

Abstract

The present invention is directed to an air purifying apparatus that allows contaminated air to pass through water several times, thereby removing contaminants contained in the contaminated air.

The air purifying apparatus of the present invention includes a plurality of compartments R connected to each other through a plurality of partition plates P lower ends and bottoms, and water W is filled in a space except an upper portion of each compartment R. The tank 11; One end is located in the space above the water surface of each compartment (R), and the other end coupled to the on-off valve (V) that is opened and closed by the difference in water pressure and air pressure and the flow path pipe 12 is located in the water of the adjacent compartment (R) and ; It is composed of a blower (13A) for discharging the contaminated air sucked after suctioning the contaminated air, and a contaminated air inlet pipe (13B) connecting the blower (13A) and the water tank (11).

The air purifier of the present invention has a low maintenance cost, high pollutant removal efficiency, and can be easily combined with other air purification methods or sterilization methods.

Polluted Air, Air Filters, Water Tanks

Description

The apparatus for purifying air

1 is a perspective view of an embodiment of the present invention an air purification device.

Fig. 2 is a sectional view of the first embodiment water tank.

3 is a sectional view of a second embodiment water tank;

((Explanation of symbols for main parts of drawing))

              11. Water tank 12. Euro tube

              13. Contaminated Air Injector 13A. air blower

              13B. Injection tube

              D. Drain Pipe E. Outlet

              I. Inlet P. Partition Plate

              R. Compartment S. Screen

              S '. shower head

The present invention relates to an air purifying apparatus for purifying air by absorbing various floating contaminants, including dust, into water, and more particularly, a plurality of compartments connected to each other through the bottom side and filled with water, and each compartment One side compartment is located in the upper space above the water surface, and the other end is located in the water of the adjacent compartment, but the other end is composed of a flow pipe and polluted air injector coupled to the opening and closing valve which is opened and closed by the difference of water pressure and air pressure, one side compartment After the contaminated air injected into the water is collected in the upper space above the water surface of the compartment, the process of sequential movement of the contaminated air into the water of the next adjacent compartment through the one end of the flow pipe located on the water surface is repeated a plurality of times. Through this process, the contaminants contained in the contaminated air are removed by water. An air purifier is provided which permits discharge through a compartment top.

The air flows through the flow pipe and is divided into a number of compartments, each of which is filled with contaminated air into the lower part of the first tank among the filled water tanks, and the injected contaminated air rises from the lower part of the first tank to the upper part. With the contaminants partially removed in the process and accumulated in the space above the surface of the first tank, the air pressure increases due to the continuously introduced polluted air, and the contaminated air accumulated on the water surface of the first tank is concentrated in the upper portion of the first tank. By passing through all the tanks, such as the second and third tanks sequentially through the flow path to the second tank, the contaminants contained in the contaminated air are absorbed and removed by the water of each tank. It relates to an air purification device using.

With the development of the industry, the pollution of the industrial areas as well as the urban area and the rapid dissemination of automobiles are becoming more serious.In the case of the rapidly spread apartments, the fine cement powder generated from concrete walls etc. Due to the poor indoor air condition, most of the children living in apartments have respiratory and skin related diseases such as colds, microbronchiolitis and atopic dermatitis, or suffer frequently.

In addition, due to the rapid progress of desertification in northern China, the yellow dust from China is becoming more frequent, along with various pollutants caused by industrialization. In particular, spring air pollution is very serious. Various types of air purifiers for purifying air in the field as well as homes are rapidly being distributed.

Among the air purifiers developed and used first to remove contaminants in the air as described above, a dust collector for removing contaminants discharged from an industrial site, and the dust collector is generated in various processes of the industrial site and suspended in the air. The most basic air purifier is for removing fine particles, and a typical bag filter is a bag filter.

However, the bag filter is a large-capacity dust collector suitable for a facility where most of the fine particles are concentrated and discharged through a specific place such as a charging inlet or a combustion gas outlet, such as various heating furnaces. It is not suitable for all installations and is not suitable for all installations. Especially, it is impossible to use for small parts with small amount of fine dust, and for home use including building.

In addition, unlike the bag filter, a device that can be manufactured compactly is a cyclone that is currently attached to a household cleaner, but the device contaminates the wall of the cyclone by centrifugal force generated when the pollutant is rotated. It is a device that is integrated at the bottom of the cyclone, and has a relatively simple structure and low manufacturing cost. However, when the particles of air pollutants are fine, the effect is insignificant. It is common to be used as a conventional device.

The industrial air purifier is not only suitable for use in homes or buildings because it has a large capacity, but also does not have a function of sterilizing the air by simply filtering out fine dust or dust. In addition, the air purification system has been developed to filter various contaminants such as suspended solids in the air more efficiently than the above-mentioned industry, as well as various functions such as sterilization of air and generation of negative ions. The air purifier is widely used, but the conventional air purifier has the following problems.

In general, the indoor air purifier can be classified into a filter type and an electric type or both methods. The filter type filters air by passing air through a multi-stage filter, and the electric type has two poles having an electric field. It is a method to charge the contaminants in the air passing between the plates to be adsorbed to the pole plate.

In other words, the filter type is to remove the contaminants in the air by the filter, the filter has to be replaced periodically and there is a disadvantage that can not remove odors, viruses, bacteria, etc., the electric plate is spaced apart at regular intervals Over-charged foreign matter is adsorbed to the pole plate by passing air through the pole plate to form charge on the foreign matter in the air. When the foreign matter is attached to the pole plate, the purification ability drops sharply and odor, virus, There is a disadvantage that bacteria cannot be removed.

In addition, the conventional air purifier of the above-described method can remove harmful substances and dust in the air, but it does not remove various odors in the air and also has a disadvantage in that there is no sterilizing effect of killing pathogens. The air purifier in general has a form in which an ozone generator, an anion generator, an ultraviolet generator, etc., which have a bactericidal power and an odor removal effect, are additionally bonded based on a filter type.

That is, as described above, the conventional air purifier is mainly based on a filter system, and additionally an ozone generator or an ultraviolet generator using electricity is additionally employed, but due to the characteristics of the filter type, it is possible to remove various fine organic substances contained in the air. Not only is it insufficient, there is a difficulty in terms of controlling the residual amount of ozone generated for sterilization, and when using an air filter, a considerable level of air purification efficiency can be obtained, but it is expensive.

In addition, the conventional air purifier has a disadvantage in that a separate humidifier is used when the indoor air is dried because there is no humidification function, and an air device having a humidification function, which has been developed to solve this problem, has been applied for a patent application. Although disclosed in 0009480, the air purifying device having the humidification function blows air downward from the top of the water surface and impinges air on the water surface of the water tank charged to the (+) pole. While the gas is adsorbed and dissolved in water and the effect of humidification is achieved, the gas molecules, which are completely elastic, collide with the surface of the water and bounce off the surface of the water rather than dissolving into the water. This is very falling.

In addition, since the air collides with the surface of the water as a fan rather than passing the air through the pole plates like the electric dust collector, the dust removal efficiency is lower than that of the filter type as well as the conventional electric dust collection type.

The present invention was devised to solve various problems of various conventional air purifiers. The contaminated air is passed through the water several times so that the contaminants in the air are collected in the water and at the same time, it is suitable for the air that has passed through the water. It is an object of the present invention to provide an air purification apparatus using water that can effectively remove contaminants while reducing the cost of expensive filter replacement by containing water.

The above object of the present invention is achieved by a water tank having a plurality of compartments connected to each other through a lower portion, and one or more flow passages at which both ends are located directly above one of the upper compartments and an adjacent lower compartment of two adjacent compartments. .

The air purifying apparatus of the present invention is a device that filters contaminants contained in contaminated air by water by repeatedly passing contaminated air through the water repeatedly several times, and includes a water tank divided into a plurality of compartments, One or more flow path pipes coupled between two adjacent compartments, and a contaminated air injector for injecting contaminated air into one compartment.

That is, the air purifying apparatus of the present invention configured as described above uses a contaminated air injector to inject contaminated air into one compartment of a tank filled with water, and the contaminated air collected on the upper side of one compartment is formed by air pressure. Through the flow pipe, the process of supplying water from the upper part of one compartment into the adjacent compartment and then collecting water from the upper part of the adjacent compartment is repeated several times in sequence, thereby removing contaminants contained in the contaminated air by water. As a device to ensure that, each component constituting the air purification device is as follows.

Contaminated air injected into one compartment inside the water tank as described above is discharged after passing through each compartment sequentially. Hereinafter, for convenience of description, the compartment into which the contaminated air is first injected is referred to as a "first compartment", and the first compartment The final discharge of contaminated air to the outside of the tank after passing through each compartment sequentially is defined as "final compartment".

The water tank is a tank filled with water that serves as a medium for separating and absorbing contaminants in the contaminated air. The tank is blocked from the outside except for an inlet through which contaminated air is injected and an outlet through which air purified by water is discharged. In the structure, a plurality of compartments are formed in which a plurality of partition plates are coupled to each other, thereby partially separating each other from each other.

At this time, the upper end and both side ends of the partition plate partitioning each compartment tightly coupled to the inner surface and the ceiling of the tank, the lower end of the structure is spaced apart from the bottom of the tank, the compartments inside the tank bottom and partition plate It is connected to each other through the space between the lower ends.

The compartment inside the tank may be partitioned in such a manner as to be sequentially arranged from one side to the other side in the tank, and may be sequentially formed toward the outside from the center of the tank so that the centers of the plurality of compartments coincide with each other. Structure is possible,

The flow path pipe is a pipe that serves as a passage for moving contaminated air from one compartment to water to move to an adjacent compartment, wherein one end is located in an upper surface of the water filled with one compartment, and the other end is located above the one compartment. Downwards from the compartment between the bottom of the partition plate and the bottom of the water tank, i.e., after passing through the channel and upwards towards the top of the adjacent compartment, higher than the bottom of the partition plate but below the water surface of the water filled in the adjacent compartment. Combine to be located at the bottom.

That is, one end of the flow path is located in the space formed on the water surface of one compartment, the other end is located under the water surface of the adjacent compartment, that is, in the water filled in the adjacent compartment, the water to the other end of the flow path The other end of the flow path tube submerged in the water to prevent the inflow is coupled to the on-off valve for opening and closing the other end of the flow path by the pressure difference between the air pressure and the water pressure.

In addition, the diameter or the number of flow path pipes connecting one compartment and the adjacent compartment may vary according to the amount of contaminated air to be treated, and each compartment is provided with at least one bone.

The contaminated air injector is a device for injecting air contaminated by various contaminants into the tank. The contaminated air injector serves to inject contaminated air into only the first compartment of a plurality of compartments inside the tank. And a contaminated air inlet pipe connected to the first compartment through an outlet of the blower and an inlet of a water tank.

As described above, the contaminants contained in the contaminated air are removed by the following process by the air purifying apparatus of the present invention, which consists of a water tank, a flow path tube, and a contaminated air injector.

For example, if five compartments are provided inside the tank, and each compartment is called a first, second, third, fourth, and fifth compartment, the polluted air sucked from the outside by the polluted air injector may be provided through a first injection tube. The air pressure of the contaminated air supplied to the upper space of the compartment and accumulated in the upper portion of the first compartment gradually increases.

At this time, the flow path tube is provided between the upper space of the first compartment and the water of the second compartment adjacent to the first compartment, one end of the flow path is located in the space above the water surface of the first compartment and the other side that the on-off valve is coupled The end portion is located in the water of the second compartment. When the air pressure rises as the contaminated air gradually accumulates in the space above the water surface of the first compartment, the increased air pressure presses the water surface of the first compartment and passes through the flow path pipe. The on-off valve of the other end of the flow pipe located in the water is pushed out.

That is, when the water pressure of the second compartment that presses the on-off valve of the other end of the flow path pipe located in the water of the second compartment is less than the air pressure of the first compartment, the air that is collected in the upper space of the first compartment while the open / close valve opens. The contaminated air injected into the water of the second compartment through the pipe, the contaminated air injected into the water of the second compartment is collected in the upper space above the water surface of the second compartment after passing through the water.

The contaminated air collected in the upper space of the second compartment is sequentially collected through the third, fourth, and fifth compartments in the upper part of the fifth compartment through the same process, and discharged to the outside of the tank through the outlet. The contaminants in the contaminated air are separated and removed through the process of contacting the contaminated air injected into the upper space with water four times from the second compartment to the fifth compartment.

At this time, in order to make the above process more effective, by attaching a shower to the ceiling of each compartment by spraying water to the contaminated air collected in the upper space of each compartment from the ceiling of each compartment, it is also preferable to further improve the removal efficiency of the pollutants. .

The details of the purpose and technical constitution according to the present invention, including the effect thereof, will be clearly understood by the following description with reference to the drawings showing preferred embodiments of the present invention.

1 is a perspective view of the present invention air cleaner, and FIG. 2 is a cross-sectional view of the water tank.

As shown, the air purification device of the present invention, the inlet (I) and the outlet (E) is provided on one side and the other side, a plurality of partition plates (P) coupled to the upper end and both side ends except the lower end on its inner surface. A water tank 11 partitioned into a plurality of compartments R) and filled with water W in a space excluding the upper portion of each compartment R;

One end is located in the space above the water surface of each compartment (R), the other end is located in the water of the adjacent compartment (R) through the space between the partition plate (P) and the bottom of the water tank (11), the other end A flow path tube 12 coupled with an on-off valve V opened and closed by a difference in water pressure and air pressure;

A blower 13A installed outside the water tank 11 to discharge the polluted air after suctioning the polluted air, and the polluted air connecting the outlet of the blower 13A to the inlet I of the water tank 11. It consists of the contaminated air injector 13 which consists of the injection pipe 13B.

At this time, it is also preferable to provide the screen (S) in the upper portion of the other end of the flow path tube 12 located in the water (W) filled in each compartment (R), in the water of each compartment (R).

That is, the size of the droplets of the contaminated air rising in the water of each compartment R through the other end of the flow path tube 12 is refined by the screen S, thereby increasing the contact area between the contaminated air and the water and contaminating the contaminants. It is possible to remove more effectively, and by installing a shower (S ') in the upper portion of each compartment by spraying the water downward, it is possible to separate and remove the contaminants more effectively.

Then, when the contaminated air is supplied into the water of each compartment through the opening and closing valve that is opened and closed by the difference between the air pressure and the water pressure, the water of each compartment may flow back through the other end of the flow path tube (12) Bar, it is good to have a drain pipe (D) extending from the lower end of the flow path tube to the outside through the bottom of the water tank (11).

In the air purifying apparatus of the present invention configured as described above, the compartment inside the water tank 11 may have various types of structures. As shown in FIG. 2, all the compartments may have a sequential line arrangement. As shown in FIG. 3, the shape of the center compartment may be configured in such a manner that an adjacent compartment surrounds the other side.

However, the condensed air can be sequentially moved from the compartment into which the contaminated air is first injected to the compartment where the purified air is finally discharged through the water in each compartment.

As described above, the air purifier of the present invention is relatively inexpensive to operate the air purifier because water is used as a material for removing contaminants, and contaminants are removed because the contaminants are removed through contact with water. In addition to high removal efficiency, ozone can be mixed and injected with contaminated air, and water can be combined with other air purification methods or sterilization methods, such as disinfecting water by chemical treatment. .

Claims (4)

An air purifier for removing contaminants by passing contaminated air through water, Inlet (I) and outlet (E) is provided, and partitioned into a plurality of compartments (R) through which the bottom and the partition plate (P) lower end communicate with each other by a plurality of partition plates (P), each of the compartments (R) A water tank 11 filled with water W except an upper portion thereof; One end is located in the space above the water surface of each compartment (R), the other end is located in the water of the adjacent compartment (R) through the space between the partition plate (P) and the bottom of the water tank (11), water pressure and air pressure A plurality of opening and closing valves (V) which are opened and closed by a difference and are coupled to the other end; A blower 13A installed outside the water tank 11 to discharge the polluted air sucked after inhaling the polluted air, an outlet E 'of the blower 13A, and an inlet I of the water tank 11; Air purification device comprising a contaminated air injector (13) consisting of a contaminated air inlet pipe (13B) to connect. According to claim 1, characterized in that the screen (S) is additionally installed in the upper end of the other end of each of the flow pipe 12 located in the water (W) filled in each compartment (R) of the water tank (11). Air filter. 2. An air purifier according to claim 1, wherein a shower (S ') is additionally coupled to the upper portion of each compartment of the water tank (11). The air purification device according to claim 1, wherein a drain pipe (D) extending through the bottom of the water tank (11) is extended to the lower end of the flow path pipe (12).

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