KR100570100B1 - Complex air purifier - Google Patents

Abstract

The present invention relates to an air purifier using a photocatalytic reaction device, and more particularly, to include a cleaning device capable of periodically cleaning the surface of the photocatalyst, thereby improving air purification efficiency and continuously maintaining the purification ability, and further parallel with the photocatalyst. It is possible to separate and remove harmful elements such as fine dust by washing the air with water filter, and to change the direction of intake and discharge of indoor air according to the conditions. The present invention relates to a complex air purifier that enables the diffusion circulation using an elevating fan.

Photocatalyst, Photocatalyst Wash, Water Filter

Description

Compound Air Purifier {COMPLEX AIR PURIFIER}             

1 is an exploded configuration diagram of an air purifier according to the present invention.

Figure 2 is a cross-sectional view showing a combined state of the present invention

3A and 3B are structural diagrams of a photocatalyst air purification system

4 is another embodiment of the photocatalyst plate

5a and 5b is an embodiment of the washing apparatus

6 is an operation state diagram of the sedimentation tank and the water supply tank

7 is an internal structure diagram of the tank

8 is a block diagram of a venturi tube

9a to 9c is a structure and operation state diagram of the lifting fan

Explanation of major symbols

10.Case 11.Basic Frame 12.Cover

20.Euro 21.Intake 22.Outlet

30.Fan 31.Motor 32.Wings

40.Photocatalytic Air Purification System 41.Photocatalyst Plate 42.Space

43.Through hole 44.UV lamp 45.Wrinkle

50.Washing device 51.Tank 52.Sprinkler 53.Sedimentation tank

Water tank 55. Submersible pump 56. Water sterilization lamp

57. Passage 58. Filter 59. Water level sensor

70.Water Filter 71.Submersible Pump 72.Sprinkler 80.Venturi Tube 81.Space 82.Hole 90.Elevated Fan 91.Guide 92.Slide Shaft 93.Fan 94.Motor

100.Submersible pump 110.Source

The present invention relates to an air purifier using a photocatalytic reaction device, and more particularly, to include a cleaning device capable of periodically cleaning the surface of the photocatalyst, thereby improving air purification efficiency and continuously maintaining the purification ability, and further parallel with the photocatalyst. The present invention relates to a composite air cleaner that can separate and remove harmful elements such as fine dust by washing the air with a water filter.

Clean air, uniform temperature and adequate humidity are the main determinants of the quality of the indoor environment, but due to industrialization and urbanization, indoor or enclosed spaces contain various types of hazardous substances, many of whom are exposed to these harmful substances. Spending time in a state is threatening health.

For example, infectious microorganisms (such as Staphylococcus aureus, Legionella, Mycobacterium tuberculosis, Afghans, Influenza, Polio, Foot-and-mouth disease, etc.) and organic contaminants (combustion compounds, phenol compounds, environmental hormones, etc.) that are transmitted through the air ), Air pollutants (such as automobile exhaust gas, nitrogen oxides emitted from incinerators, sulfur oxides, dioxins, etc.) and harmful odorous gases (formaldehyde, acetaldehyde, casein, toluene, styrene, etc.) These are the causes of various diseases, such as accumulating or directly affecting the human body, weakening immunity, causing chronic bronchitis, pulmonary impairment, causing various infectious diseases, and directly threatening life. .

In order to escape from such harmful environment, indoor air is treated in various ways and purified. However, the conventional air cleaning method has many problems in use or function.

Among the air cleaning methods, the filter method is the most commonly used air cleaning method to filter out fine dust, mold, and virus in the air by using a filter made of a nonwoven fabric, and in recent years, a HEPA filter We are producing products that improve the dust collection efficiency by more than 99.9% by using ultra high-performance filters such as ULPA FILTER, but the maintenance cost increases due to the reduced freshness of the purified air and the need to replace the filter periodically. In addition, as the use time elapses, dust collection performance is reduced, and noise is generated in the process of passing through the filter.

Next, the electrostatic precipitating method is a method of purifying contaminated air with a ground plate having a strong dust collection power by the discharge principle, and has an advantage of collecting dust finer than the filter method, but keeps the ground plate clean by periodic cleaning. It is not effective as the air cleaning method used in ordinary households.

The water-based method filters the contaminants by forcibly contacting the air inhaled by the fan with water, and effectively filters large dusts to fine dust, and the water used has a function of controlling the relative humidity in the room. However, if the water quality of the used water is not continuously managed, there is a disadvantage in that sterilized washing water must be used because bacteria or viruses are multiplied.

Ultraviolet rays use the strong sterilizing power of 253.7nm ultraviolet rays among various wavelengths of ultraviolet rays to destroy the DNA structure of microorganisms, bacteria and fungi so that sterilization is possible. However, it has the advantage that the action is faster than the sterilization method by high temperature and there is no residual material. However, since the germicidal effect of ultraviolet rays is affected by the irradiation amount of ultraviolet rays (w.min / cm 2), and the survival rate is different depending on the bacteria, even if various bacteria contained in the forced air are exposed to the ultraviolet rays momentarily, The dose is very minimal and the expected sterilization effect cannot be obtained. Therefore, there is a limit that is not used alone in the air purifier, but is utilized for the purpose of inducing sterilization or photocatalytic oxidation of the filter or water.

Air cleaner using anion or ozone mainly uses anion and ozone generated by discharge by generating high pressure of 6000V-12000V, and anion has fresh and refreshing feeling, but it disappears before it is diffused in the air. In addition, ozone is inevitably generated during the production of negative ions, and ozone has a characteristic of destroying cell membranes.

The air cleaning method using the photocatalyst is a powerful sterilization and oxidation reaction of titanium dioxide (TiO ₂ ), which is mainly used as a photocatalyst, and is oxidized in a molecule when UV light of 380 nm or less is applied to a nanometer-sized titanium dioxide (TiO 2) crystal. Reduction and hydrophilic reactions take place simultaneously, and on the surface of the photocatalyst, it exhibits the same effect as incineration at an absolute temperature of 30,000˚K, such as organic volatile compounds (VOCs) such as acetaldehyde, kacillin, toluene, styrene, radon gas, It oxidizes and decomposes harmful substances generated in buildings such as formaldehyde, odorous gases such as hydrogen sulfide and ammonia, and air pollutants such as sulfur oxides (SOx) and nitrogen oxides (NOx), and other organic chlorine compounds such as trichloroethylene. , Phenolic Compounds, Polyvinyl Chloride (PCB), Environmental Hormones (Bisphenol, Nonylphenol, Estradiol), Dioxin Acetaldehyde, Cassirin, Oxidatively decomposes toluene, styrene hydrogen sulfide, methylmerukaphtan, methyl emulsion, trimethylamine, isogilacetic acid, and ammonia, and oxidizes CO ₂ and H ₂ O with strong bactericidal power against bacteria and bacteria. It has a strong air purification effect to remove even the substance.

The air cleaner using the strong sterilization and oxidation of the photocatalyst has a large contact surface with air because the photocatalytic action is performed on the surface of the photocatalyst coated on the substrate, and as the surface is kept clean, the processing capacity increases, and titanium dioxide The processing power is improved by irradiating enough light energy corresponding to band-gab energy (Eg)

In addition, since the sterilization and oxidation reaction by the photocatalyst is performed by the contact on the photocatalyst surface, the clean state of the photocatalyst surface is a factor that determines the air purification efficiency, and since the photocatalyst has super hydrophilicity by absorption of ultraviolet rays, In contact with the water, a water film is formed on the surface of the photocatalyst to perform a self-cleaning action to remove foreign substances. On the other hand, the water film prevents contact between the photocatalyst and air (pollutant) to reduce the purification efficiency.

At this time, the water generated during the oxidation of the pollutant is extremely minute, and at the same time as the reaction evaporates in the form of water vapor cannot be used for self-cleaning.

Theoretically, catalysts have a characteristic of permanent life because they do not change even if they cause chemical reactions, but in reality, the catalyst surface, which is the place of chemical reactions, is contaminated, and the activity as a catalyst is deteriorated. The state must be accompanied by a program.

For example, if ions belonging to alkalis such as calcium (Ca) and magnesium (Mg) tend to be adsorbed and deposited on the surface and contaminated by adhesion of organic matter on the surface of the photocatalyst, decomposition of the photocatalytic reaction is not concerned. In case of contamination by inorganic material, it remains on the surface because it is not decomposed by the photocatalytic reaction.

The air purification by photocatalyst can achieve efficient purification effect by fully reflecting the characteristics of such photocatalyst, but various types of products proposed in the past do not sufficiently reflect the characteristics of such photocatalyst and consequently limit the air cleaning ability by themselves. There was a problem.

In particular, nitrogen oxides (NOx) and sulfur oxides (SOx) are converted to low concentrations of nitric acid or sulfuric acid during oxidation, remaining on the surface of the photocatalyst to form a membrane, thereby degrading the photocatalytic action, so it is necessary to periodically clean the surface to remove the membrane. There is. In conventional air purifiers using photocatalysts, this problem can be solved by removing the photocatalyst filter from the body and washing it with water about once a year, but it is very difficult and cumbersome for consumers to implement, and depending on the environment, In fact, it is difficult to expect a continuous catalytic effect by using it for a long time in a contaminated state.

Meanwhile, Korean Patent Publication No. 2003-0048989 is a structure in which a photocatalyst filter is arranged in a form of wrapping an ultraviolet lamp in a center and surrounding the air purifier using a photocatalyst, which is composed of several types of filters and electrostatic precipitators. Therefore, the air passing through the electrostatic precipitator passes through the photocatalyst filter and the antibacterial and carbon filter to obtain the air cleaning effect. In this structure, the photocatalyst filter, the electrostatic precipitator, and other filters are configured to work together so that the photocatalyst performs an auxiliary function, but the substrate of the photocatalyst constituting the photocatalyst filter assembly is composed of a filter to absorb ultraviolet rays. There is a limit that can not induce photocatalytic reaction on the front surface due to blind spots, and in order to remove the debris attached to the surface of the photocatalyst filter during the oxidation reaction, the filter must be replaced or washed periodically, and the filter is replaced and cleaned. Because management of the system is difficult at the user level, it is necessary to rely on periodic external management, which increases the maintenance cost.

Korean Patent Publication No. 2004-0014028 has a structure in which a photocatalyst stacking tube and a photocatalyst stacking fan are rotated and a plurality of ultraviolet lamps are disposed around them, thereby stacking photocatalysts on various types of substrates, thereby increasing the contact surface between the photocatalyst and air. Power consumption is increased by using an ultraviolet lamp, and there is a problem in that the photocatalyst laminate needs to be cleaned periodically to remove debris attached to the surface of the photocatalyst filter during the oxidation reaction.

Korean Patent Registration No. 10-0235088 mounts titanium oxide-treated glass beads on a titanium oxide-treated filter, installs each glass dictation and filter so that a portion is deposited in the tank, and irradiates the water with ultraviolet rays. The air is brought into contact with the glass beads, the filter and the water. The structure has been described as purifying the air by contacting the air and water to wash the air, and having the ability to deodorize and self-clean water in the tank by the action of the photocatalyst, but the photocatalyst in contact with the water as described above is superhydrophilic Due to the property of forming a water film on the surface to limit the oxidation reaction of pollutants, the self-cleaning ability of the photocatalytic oxidation is rather limited. Rather, the water in the tank is purified and contaminated by ultraviolet light irradiated by an ultraviolet lamp. The fact that this was suppressed was justifiable, and the effect of the photocatalyst was hardly expected.

In the present invention, in the construction of an air purifier, the filter is configured to be cleaned in the installed state without having to remove the photocatalyst filter or the photocatalyst plate, and is configured to be washed at any time so that contaminants do not accumulate or harden on the surface at all times. It is designed for the purpose of inducing photocatalyst sterilization and oxidation reaction.

In addition, the present invention improves the efficiency of the photocatalyst air purification system consisting of a photocatalyst plate and UV lamp to increase the efficiency of the photocatalyst, and separates and removes various harmful substances by configuring the water filter as well as the photocatalyst air purification system together with the photocatalyst air purification system The purpose of the present invention is to provide a new air cleaner equipped with humidity control capability by washing air.

In addition, the present invention is to maximize the air cleaning efficiency by presenting an air purifier of the configuration so that each space in the room is circulated without a square, the operation method by seasons or time zones or day and night, maximize the air cleaning efficiency, We present an air purifier with a structure that can effectively diffuse useful elements of it.

To this end, the present invention sterilizes harmful substances contained in the air by the photocatalytic reaction of the photocatalytic air purification system. In an air purifier that performs air purification by oxidizing, a compound air cleaner having a structure in which water is sprayed on the photocatalyst surface of the photocatalyst air purification system to wash the photocatalyst surface is presented.

The photocatalytic air purification system combines a plurality of photocatalyst plates formed by coating nano-sized titanium dioxide on the surface of a substrate and a UV lamp that irradiates light energy corresponding to band-gab energy (Eg) of titanium dioxide on the photocatalyst plates. Has a structure.

The photocatalyst plates are installed to be in parallel with the flow paths so that contact is made in the process of passing air through the flow paths, and the photocatalyst plates are provided at regular intervals. In addition, each photocatalyst plate has a structure in which a hole is formed in the center of each photocatalyst plate so that ultraviolet rays by the ultraviolet lamp are absorbed without blinding, and the UV lamp penetrates the hole.

In addition, in order to increase the contact surface of the photocatalyst plate and improve the irradiation angle of the UV lamp to further improve the purification efficiency of the air, each photocatalyst plate also presents a structure that is formed so that the wrinkles radially from the hole in the center.

The cleaning device utilizes the superhydrophilicity and self-cleaning ability of the photocatalyst to push foreign substances on the surface of the photocatalyst by applying ultraviolet light while spraying water on the surface of the photocatalyst to push out foreign substances on the surface. In order to wash the foreign matter or various inorganic substances attached to the surface during the reaction process to maintain the air cleaning performance in the optimal state at all times.

To this end, the washing apparatus includes a tank configured to hold a constant amount of water, a water sprayer pumping water from the tank, sprayed on the upper portion of the photocatalyst plate at an appropriate water pressure, and sedimented step by step to receive the sprinkled water. It consists of a sedimentation tank for reducing to a tank, and a water supply tank for discharging sediment to the outside and supplying deficiency water.

The sedimentation tank provides the function of recycling the surface water to the tank by sedimenting the foreign substances contained in the washing step by step, and the water supply tank separates the sediment and discharges it to the outside. It supplements water to maintain proper quantity.

The cleaning device is configured to operate for a suitable time automatically or manually after finishing the process of decomposing and removing contaminants by the operation of the photocatalyst.

Since the water used for washing contains a large amount of sediment, the sedimentation tank setstles the washing water stepwise to separate reusable water and sediment. Install sterile lamp.

The present invention provides an air purifier to include a water filter structure that acts together or independently of the photocatalytic action to effectively filter out suspended solids in the air and improve the air quality by having freshness and proper humidity in the purified air. Configure.

The water filter supplies water pumped from the tank to a sprayer installed on the flow path and sprays the air through the flow path to filter out various suspended substances contained in the air and contaminants not processed by the photocatalytic reaction device. It is designed to act as a filter and to be operated simultaneously or independently with the photocatalytic reaction device.

In addition, the present invention is configured to adjust the suction and discharge direction according to the forward and reverse rotation of the motor fan for suctioning and discharging the indoor air on the flow path by season, such as spring, summer, autumn / winter, night / day and Likewise, it can be programmed to change the form of air circulation by day and night time, and it can be configured to run in the optimum operation mode considering various factors such as air, temperature, humidity, light or convection.

In addition, the present invention is attached to the elevating fan to flow the stagnant air layer of the upper while moving to the upper portion of the air purifier to improve the circulation and clean ability of the indoor air, by using the difference in the flow rate of oxygen or We present an air purifier with a structure that can diffuse useful elements such as fragrance or anion into the room effectively.

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

Figure 1 is an exploded configuration diagram for showing the configuration of the present invention, Figure 2 shows a cross-sectional configuration of the assembled state, the present invention is a box-shaped case 10 and the flow path 20 formed in the case And a fan (30) installed on the flow path for sucking indoor air into the flow path, a photocatalyst air purification system (40) for purifying air by a photocatalytic reaction while contacting the air provided on the flow path and the photocatalyst; And a washing device 50 for washing the air purification system.

The case 10 is composed of an inner basic frame 11 and a cover 12 covering the same, and a flow path is formed in the case, and the flow path 20 uses the suction port 21 for sucking indoor air and the sucked air. A discharge port 22 for discharging is formed.

The fan 30 applies a motor 31 capable of forward and reverse rotation and a blade 32 having a structure in which the suction and discharge directions are changed according to the rotation direction, thereby changing the suction or discharge direction of the indoor air according to a program. It is configured to be. That is, according to the rotation direction of the motor is discharged to clean air through the inlet port 21, it is configured to be able to suck the indoor air through the outlet port (22).

When the air of the indoor upper floor is circulated to the lower floor by the fan structure, the forward air clean control is performed to suck the indoor air through the inlet port and to discharge the air through the outlet port 22. In the case of circulating to the upper layer, reverse air cleaning control is performed to control the rotational direction of the fan so as to suck the indoor air through the outlet 22 and discharge it through the inlet 21.

The photocatalytic air purifying system 40 stacks the photocatalyst plate 41 formed by coating titanium dioxide on a plate-shaped substrate as shown in FIG. 3A in parallel with the flow path using a space 42 to maintain a constant distance. The through hole 43 is formed in the center of each photocatalyst plate, and the UV lamp 44 is provided therein. As the base material constituting the photocatalyst plate 41, a metal plate, a synthetic resin plate, or ceramics can be used without limitation.

Due to the structure of the air cleaner, the purified air is preferably discharged from various directions of the air cleaner to diffuse into the room. For this purpose, as shown in FIG. It is implemented by the structure arrange | positioned divided into i).

In the photocatalyst air purification system according to the above-described structure, each photocatalyst plate has a plate structure, and the contact time is longer than that of the conventional filter type catalyst plate in the process of passing the flow path in which the sucked air passes through the flow path, and the contact surface is significantly increased. The photocatalytic reaction is promoted and has a longer lasting characteristic, and the noise is small because the sucked air flows naturally through the flow path.

In addition, air is brought into contact with the photocatalyst plates uniformly arranged at regular intervals on the flow path, and ultraviolet rays are irradiated from the UV lamps penetrating the center of the photocatalyst plates, so that a small number of UV lamps allow efficient irradiation. Since the irradiation amount can be secured, it is possible to exhibit a high efficiency of air cleaning ability with low power.

4 shows a structure in which the wrinkles 45 are radially formed around the central hole through which the UV lamp penetrates as another embodiment of the photocatalyst plate, and the radial wrinkles are expanded toward the light source to effectively absorb ultraviolet rays. As the surface area is increased, the reaction effect by the photocatalyst is further improved.

The photocatalyst air purifying system absorbs ultraviolet rays irradiated from the UV lamp to cause photocatalytic reactions, and at the photocatalyst surface, it burns at an absolute temperature of 30,000˚K, acetaldehyde, casyrin, toluene, Oxidatively decomposes organic volatile compounds (VOCs) such as styrene, radon gas, formaldehyde and other harmful substances in buildings, odor gases such as hydrogen sulfide and ammonia, and air pollutants such as sulfur oxides (SOx) and nitrogen oxides (NOx). In addition, infectious microorganisms spread through the air such as Staphylococcus aureus, Legionella, Tuberculosis bacteria, Toxic fungi such as Appergills, Influenzae, polio and foot-and-mouth disease are also affected by CO ₂ and H. _By decomposing into ₂ O and removing the toxic substances, various harmful substances contained in indoor air are purified and cleaned. Purify

The cleaning device 50 is formed by the superhydrophilicity, self-cleaning ability and proper water pressure of the photocatalyst which pushes the foreign matter adhered to the surface by applying the ultraviolet light while the water is brought into contact with the photocatalyst and having a small contact angle. It will use the cleaning effect.

The washing device 50 may be configured in a variety of ways to apply water to the photocatalyst plate, install a sprayer 52 on top of the photocatalyst plate, sprinkled water from the tank 51, spraying the supplied water, washing water The washing apparatus having a structure of recirculating the filter by the settling tank 53 is illustrated.

The washing apparatus 50 includes a tank 51 capable of holding a certain amount of water, and a sprayer 52 pumping water from the tank and sprinkling water sprayed on top of the photocatalyst plate to accommodate the sprinkled water. The sedimentation and overflowed water consists of a sedimentation tank 53 for reducing the tank to a tank and a water supply tank 54 for discharging the sediment to the outside and supplying insufficient water. The process of decomposing and removing contaminants by the operation of the photocatalyst is completed. It is configured to work for several minutes in tens of seconds then automatically or manually.

The sprinkler 52 is configured to spray water uniformly on the surface of the photocatalyst plate. For this purpose, as shown in FIGS. 5A and 5B, both ends of the cylindrical pipe 52a having the nozzles 52b formed at regular intervals are provided. Rotation of the motor by coupling to the hanger 52d fixed to the hinge shaft 52c on both sides of the case, and connecting the trunk portion of the hanger to the connecting rod 52f coupled to the eccentric shaft of the motor 52e. The pipe is configured to inject water while each movement during movement, and has a structure in which a blocking plate 52g is attached to both side pipes of the nozzle so that the outflow of water is blocked when the washing water is sprayed.

In the tank, an underwater pump 55 is installed so that water having a proper pressure can be sprayed through the nozzle of the sprayer.

When the wash water stored in the tank is sent to the water sprinkler by the operation of the submersible pump 55 by the above structure, the sprinkler sprays the high pressure washing water evenly onto the photocatalyst plate while moving about the hinge axis by the rotation of the motor. Foreign matter on the surface of the plate is cleaned by the superhydrophilic reaction of the photocatalyst and the action of water pressure.

The settling tank 53 performs a function of recycling the surface water to a tank by reducing the surface water to a tank by gradually depositing microscopic dusts received in the process of contact with the foreign matter and air separated from the surface of the photocatalyst plate after washing.

The water supply tank 54 functions to separate the sediment separately and discharge it to the outside, and to maintain the proper amount by replenishing the water lost in the washing process.

To this end, one or more sedimentation tanks are formed at the bottom of the photocatalytic reaction device, a water supply tank is installed at the bottom of the sedimentation tank, and a tank is installed at the bottom of the water supply tank to separate clean water and sediment through a multi-step sedimentation process. If it accumulates to some extent, it is discharged to the outside, and the supernatant is configured to flow into the tank.

Another function of the sedimentation tank and water supply tank is to maintain the constant air cleaning capability by simply and easily operating users to replenish water and discharge sediment. Has the function to reduce the maintenance cost.

6 shows an embodiment in which the settling tank and the water supply tank are configured in an effective and more convenient structure, and the settling tank 53 is continuously formed in two, and each settling tank forms a drain 53a at the bottom. Plunge-type orifices 53b are coupled to each drain, and each orifice has a structure in which a string 53d is connected to a lever 53c which is electrically controlled.

In the above-described settling tank structure, the water contained in the settling tank overflows and flows downward through the hole in the center of the orifice only when the water level is higher than the height of the orifice in the state where each orifice is blocking the drain hole at each bottom. Heavy foreign matters are separated from the supernatant and sediment by the action principle settled to the bottom, and the clean water overflowed is accommodated in the tank via the water tank and used for recycling.

When the sediment is accumulated to some extent to discharge it, by lifting the lever 53c by an electrical or mechanical method, the orifice is separated from the drain and completely opens the drain, so that foreign matter flows sequentially and is received in the water container. By removing the water tank and washing it, it is possible to discharge the foreign matter accumulated in the settling tank.

The water supply container 54 serves to supply water from the outside in order to maintain an appropriate level of water in the tank, and to collect and discharge foreign substances from the settling tank. To this end, the water supply can be divided into two zones so that the first zone (54a) can supply replenishment water from the outside, and the second zone (54b) is formed on the drain side of the settling tank to temporarily stop the overflowed water from the settling tank. It is also configured to store the sediment coming from the sedimentation tank. The second zone forms an orifice (54c) fixed to the water reservoir, the T-shaped stopper (54d) is coupled to the central drain of the orifice, and the flow path (54e) is formed in the stopper body, Surface treatment is coupled to protrude slightly from the bottom of the water tank, and the inclined end (54f) is formed at a predetermined position through which the stopper of the case for supporting the water tank passes through the water tank fully pushed into the case In the case, the inclined end of the case pushes up the stopper to open the drainage part of the orifice so that the free water from the water supply basin flows through the orifice and flows into the lower tank, and the water level below the drainage part remains in the water supply tank. It is stored and configured to cause precipitation of contaminants.

When the water tank is pulled out, the stopper is separated from the inclined end in the case, and the head of the stopper prevents the drainage of the orifice so that the sediment can be discharged to the outside without leakage.

The water in the tank is used for washing and partially vaporized according to the relative humidity and released into the room.

In Figure 6 (a) is the wash water is accommodated in the upper sedimentation tank, the sediment is settled to the lower side, the water flows to the lower sedimentation tank while the water level is higher than the height of the orifice, stabilization process in the lower sedimentation tank Through the sediment is shown to be stacked on the floor. (b) shows that when the lever is lifted while the sediment is accumulated in each sedimentation tank, the orifice is lifted up and the drain hole is opened so that each sediment accumulated in the sedimentation tank flows into the water supply tank. The tank is located in the lower part of the water supply tank, and the stopper coupled to the orifice of the water supply tank is lifted up by the inclined end. Below the height of the orifice is stabilized by being stored in the water supply tank, and above the orifice height, it flows through the flow path formed in the body of the stopper and flows into the tank. (d) It shows the state of drainage of the sump, and when the sump is pulled out of the case, the lower end of the stopper is separated from the inclined end so that the orifice is completely blocked to prevent leakage through the orifice during the drainage of the sump. It is shown.

The cleaning device washes foreign substances adhering to the surface during the photocatalytic oxidative decomposition reaction so that the air cleaning performance can be maintained at an optimal state at all times, and the process of decomposing and removing contaminants by the operation of the photocatalyst is terminated. It is then configured to operate for tens of seconds automatically or manually.

In the tank 51, a water germicidal lamp 56 is installed in the tank to prevent the growth of bacteria, microorganisms, and other fungi contained in the wash water in addition to the submersible pump 55 for pumping the wash water as shown in FIG. A filter 58 for filtering foreign matter and a water level sensor 59 for detecting a water level in the tank are installed at an upper portion of the passage 57 for washing water inflow. The submersible pump 71 and the submersible pump 100 for discharging the washing water in the tank to the outside are installed separately.

The germicidal lamp uses a double tube lamp sealed with high-purity quartz glass on the outside to enable lighting in the water, and the germicidal lamp is a sterilizing line of 253.7 nm UV sterilizing wavelength, which acts on bacteria, viruses, and fungi in the air and water. By destroying the DNA in the cell to remove the proliferative capacity, oxidizes and kills the protein to sterilize the water used in the cleaner to the level of drinking water.

The cleaning device according to the above configuration is irradiated with ultraviolet rays by the UV lamp when spraying the washing water onto the surface of the photocatalyst through the sprayer so that foreign matters can be separated and removed by the superhydrophilic reaction on the surface of the photocatalyst, and at the same time with the appropriate pressure By washing the surface of the catalyst, foreign substances such as inorganic materials that are not oxidatively decomposed are washed out to maintain the surface of the photocatalyst as the initial state so that the air cleaning performance can be maintained at the optimal state at all times.

In the conventional air cleaner, the photocatalyst was periodically decomposed and cleaned by the consumer. However, in the present invention, the photocatalyst is automatically cleaned without disassembling and washing the photocatalyst plate, and contaminants that are difficult to be decomposed by the photocatalytic reaction suddenly appear on the surface of the catalyst plate. Even if it is attached, it can be immediately washed, so that it can be always kept in the state of waiting for the photocatalytic reaction in the best state, and the user can use it with confidence without worrying about the cleaning time or contamination of the photocatalyst plate.

The present invention can be implemented with a structure including a water filter to further improve the air quality by the photocatalyst air purification system based on the above-described configuration.

The water filter 70 pumps the water in the tank with the submersible pump 71 installed in the tank, and supplies the water filter 70 to the water sprinkler 72 installed on the flow path. It acts like a filter to filter out suspended solids and unprocessed contaminants by photocatalytic reaction devices.

The water filter is configured to operate simultaneously or independently with the photocatalyst air purifying system. When the water is in contact with the photocatalyst plate, the water filter forms a water film by superhydrophilic reaction of the photocatalyst plate, and the water film blocks contact between the photocatalyst and the contaminant. Since the photocatalyst plates are properly spaced so as not to contact the photocatalyst plates, they are installed between them.

2 shows an example in which the water filter 70 is installed at the boundary of the photocatalyst plate divided into the horizontal group and the vertical group, but can be installed adjacent to each outlet of the flow path and installed at other suitable positions. The number and location of the filters are not particularly limited.

In addition, each water filter may be configured to be operated simultaneously or selectively, and may be configured to be operated simultaneously or separately with the photocatalyst air purification system, and such operation may be performed by an appropriately configured program. .

The water provided by the above water filter adsorbs and deposits very fine dust, harmful chemicals, harmful gases, bacteria, and odors that the existing fibrous filter structure cannot catch due to the adsorption and dissolving power, and cleans the polluted air cleanly and freshly. give.

This effect is that when forced air is brought into contact with the water surface, harmful substances in the air are adsorbed by adsorption, dissolution, diffusion, surface tension, etc., which are physical properties of the water. It becomes heavy and naturally precipitates, and the precipitated material is made by the principle of being continuously trapped in water because it cannot break out of its high surface tension by itself, and the precipitated material is separated from the water by the settling tank constituting the washing device. Finally, it is discharged to the outside through the water tank, so that clean and fresh air can be discharged as if the sky becomes clear after the rain.

In addition, the water provided on the flow path used as a water filter is humidified in contact with the inhaled air, and the vaporization humidification is controlled according to the relative humidity of the room to maintain the proper humidity even when using an air conditioner or a heater. Be sure to

Humidification by water filter is a natural evaporation and humidification method that is not humid and does not accompany bacteria unlike general humidifier, and it protects the mucous membrane of skin and respiratory tract and maintains the body's active ability. The environment can be naturally formed throughout the room.

The present invention can be discharged together with the clean air by installing a generator 110, such as anion, oxygen or aromatherapy on the discharge path of the clean air, in order to improve the diffusion of these elements into a circular pipe on the outlet It also presents a structure attached to the venturi tube 80 at a predetermined interval.

As shown in FIG. 8, the venturi tube is connected to a space 81 for installing an anion, oxygen, or aromatherapy source, and has a hole 82 penetrating in and out. When the purified air passing through the purification system is discharged through the outlet 22, the source 110 such as anion, oxygen, or aromatherapy is sucked into the space and the venturi tube by the negative pressure generated and discharged through the hole 82, In the process of passing through the narrow holes, the air flows faster, leading to faster diffusion.

Therefore, if a source of anion, oxygen or aromatherapy is placed in the space provided under the outlet, it can be diffused into the room with clean air very quickly and simply.

Venturi tube in the above may be composed of a pure copper tube or a silver tube, by doing so it is possible to additionally obtain the antibacterial and bactericidal effect of pure copper or silver.

On the other hand, according to the survey, the temperature difference between the upper and lower layers of the stagnant air in the room is about 3 ℃, cold air stays on the floor, hot air stays on the upper floor, there is a difference between the air quality between the floor and the cost of cold heating Tend to be. While the stagnant air in these rooms is somewhat mixed with human movements, while suspended or indoors, suspended matter such as dust in the air spreads evenly throughout the upper, middle, and lower levels, while the activity of humans At night, or at night, suspended solids sink to the floor and are absorbed into the body through the respiratory tract, increasing the hazard. Because of this, people living in the room through the respiratory system may be infected with various diseases such as cold or lung disease.

The present invention is a lifting type for circulating the upper air of the case with the configuration to change the intake and discharge direction of air in accordance with the rotation direction of the motor as described above to solve the problems caused by the characteristics of the indoor air Present the configuration with the fan installed.

The elevating fan circulates the stagnant air in the upper layer to be refluxed into the air purifying system so as to obtain a clean effect of the entire room.

9A and 9B illustrate an embodiment of the lifting type fan 90. The two slide shafts 92 are coupled to the guides based on the guide 91 on the upper portion of the case rear, and the upper portion of the slide shafts. The fan 93 is installed in the slide shaft 92 to move up and down according to the driving of the motor 94.

The fan 93 uses a motor capable of forward and reverse rotation to operate in conjunction with the internal fan 30, and is configured to angularly move at a predetermined angle when necessary.

As described above, the above-described configuration may flow the stagnant air of the upper layer into the fan to enter the fan influence zone inside the air cleaner as shown in FIG. 9C, or enlarge the diffused air as shown in FIG. 9D to expand the entire room air. Is circulated, whereby the indoor air is circulated without being blinded and purified, thereby improving the air cleaning performance.

According to the above-described configuration, the present invention is automatically washed without disassembling and washing the photocatalyst plate, and even if a contaminant that is difficult to be decomposed by the photocatalytic reaction is suddenly attached to the surface of the catalyst plate, the photocatalytic reaction is always possible in the best state. It can be maintained in the air waiting state, improving the air cleaning efficiency and maintaining the clean ability, and the hassle caused by consumers periodically disassemble and clean the photocatalyst in the existing air cleaner, replace the filter, and use the additive medicine. And it can solve the inefficiency and economical, and the user can use with confidence without worrying about the cleaning time or contamination of the photocatalyst plate.

In addition, the photocatalyst plate proposed by the present invention can significantly increase the contact time and the contact surface with air passing through the flow path, and the irradiation amount is increased due to the irradiation of ultraviolet rays at a close distance, thereby exhibiting a high-efficiency air cleaning ability with low power. It becomes possible.

In addition, the present invention is characterized by the adsorption, dissolution, diffusion, surface tension of the contaminants, odors, ultra-fine dust and bacteria or viruses that have not been processed by the photocatalytic reaction device due to the configuration of the water filter By separating and removing this by the complex action such as precipitation, sterilization of water sterilization lamp, and photocatalytic reaction, clean and fresh air can be produced, and indoor air quality is further improved by controlling indoor air to natural humidity by vaporization and humidification. It has an effect that can be improved.

In addition, the present invention can switch the intake path and exhaust path according to the condition by the fan capable of forward and reverse rotation can operate the air purifier according to the characteristics of the indoor air according to the season, time zone, venturi pipe installed in the outlet The oxygen, fragrance or negative ions that are beneficial to the human body can be quickly diffused into the room, and the lift type fan provides flow to the stagnant air in the upper layer to effectively circulate the air throughout the room, increasing the air cleaning capacity and heating and cooling. Provides cost savings.

Claims (8)

Photocatalytic air that purifies the air by a photocatalytic reaction while contacting a box-shaped case, a flow path formed in the case, a fan installed on the flow path to suck indoor air into the flow path, and air provided on the flow path and inhaled A purifying system and a washing apparatus installed in the photocatalytic air purifying system and terminating the photocatalytic reaction after spraying water on the surface of the photocatalyst, wherein the photocatalyst air purifying system is coated with nano-sized titanium dioxide on the surface of the metal plate substrate A plurality of photocatalyst plates and UV lamps irradiating light energy corresponding to band-gab energy (Eg) of titanium dioxide on the photocatalyst plates, the fan is a motor capable of forward and reverse rotation and the air in accordance with the rotation direction It consists of a wing of the structure which switches the direction of suction and discharge of air through the suction port according to the condition of indoor air. Composite air cleaner out through the outlet, or configured to be discharged through the intake air inlet through the outlet. The washing apparatus according to claim 1, wherein the washing apparatus includes a tank configured to hold a constant volume of water, a water sprayer configured to pump water from the tank and spray the water on the surface of the photocatalyst, and to receive the sewage water and to settle it stepwise. Composed of at least one settling tank to be reduced to the tank, and a water supply tank for discharging the sediment to the outside and supply the deficiency water, the complex air purifier, characterized in that consisting of a structure in which the water sterilization lamp is installed in the tank. The composite air cleaner of claim 1, wherein the photocatalyst plates are arranged in parallel with the flow paths so that the photocatalyst plates are maintained at predetermined intervals, and the UV lamps are installed in through holes formed at the center thereof. The complex air cleaner of claim 3, wherein the photocatalyst plates have a structure in which the photocatalyst plates are divided into vertical and horizontal groups so as to maintain a predetermined interval, respectively. The water filter according to any one of claims 1, 2, 3, and 4, wherein a water filter configured to spray water on the flow path in parallel with the photocatalytic reactor to wash the air sucked into the water is added. Composite air cleaner. delete The venturi tube according to any one of claims 1, 2, 3, and 4, wherein a space is formed at an outlet side of the flow path, and a venturi tube having a through hole formed at an upper portion outside the outlet is attached. The lower part is configured to be connected to the space complex air purifier, characterized in that the useful material from the oxygen generator, anion generator or aroma placed in the space is configured to diffuse and discharge into the room by the pressure of the purified air discharged to the outlet . 5. The slide according to any one of claims 1, 2, 3 or 4, wherein the two slide shafts are coupled to move up and down according to the driving of the motor, based on the guide installed on the upper part of the case back. A fan capable of forward and reverse rotation is installed on the upper part of the shaft, and the fan rotates in conjunction with the fan built in the case and is lifted by the slide shaft to circulate stagnant air in the upper part of the case. .

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