KR20060119097A - A environment-friendly deodorizing system - Google Patents

Abstract

An environment-friendly deodorizing system which effectively removes odor, reduces damage caused by ozone by decomposing ozone used to remove odor and exhausting the decomposed ozone, and is used conveniently by automatically controlling the system such that ozone decomposition capability is not deteriorated is provided. An environment-friendly deodorizing system comprises: a deodorizing chamber(20) into which air containing odor flows, and in which a ultraviolet lamp(2) is embedded to synthesize oxygen contained in air into ozone; and an ozone decomposing chamber(30) of which one end is connected to a rear end of the deodorizing chamber so that air treated in the deodorizing chamber flows into the ozone decomposing chamber, and which has an outlet(34) formed on the other end thereof to exhaust air to the outside, wherein an ozone decomposition catalyst(40) for accelerating decomposition of ozone and a heater(50) for preventing water from being condensed in the ozone decomposition catalyst are embedded in the ozone decomposing chamber.

Description

       A environment-friendly deodorizing system

       1 is a schematic view showing an embodiment of the present invention

       2 is a view showing an ozone decomposition catalyst used in the above embodiment

       3 is a schematic view showing another embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

 2. UV lamp 10. Treatment tank

20. Deodorization chamber 26. Porous filler

30. Ozone Decomposition Chamber 40. Ozone Decomposition Catalyst

50. Heater 60. Ozone detection sensor

70. Control part

The present invention relates to a deodorizing system, and more particularly, to an environmentally friendly deodorizing system having a new structure that is effectively deodorized, ozone used to deodorize the odor is not exhausted to the outside, and is easy to maintain. .

Food waste treatment devices are provided to reduce or reduce food waste by itself in homes and restaurants, and since the food waste is processed with significant odors, the food waste treatment device is configured to remove odors. . In general, the food waste treatment apparatus mainly uses ozone as a means of removing odors. Since ozone has a strong oxidizing power, it effectively decomposes and removes odor components. Therefore, when ozone is used as the odor removing means, a fairly good deodorizing effect can be obtained.

However, ozone may cause pain by irritating the respiratory system or eyes when the concentration is high, and in severe cases, respiratory distress, pulmonary insufficiency, and pulmonary disease may be caused. In addition, when the concentration of ozone is high, the unpleasant odor caused by the peculiar smell of ozone is caused. Therefore, as described above, if the ozone used for deodorization in the food waste treatment apparatus is simply discharged into the room, the above problems may occur, so it is necessary to decompose and discharge the ozone.

On the other hand, for this problem, the present applicant has proposed a food waste treatment apparatus equipped with an ozone decomposition catalyst, this food waste treatment apparatus has a built-in ozone decomposition catalyst to promote the decomposition of ozone used for deodorization ozone It is configured to be broken down and discharged to the outside. However, since food waste contains a considerable amount of water, not only bad odors but also a large amount of water are evaporated in the process of drying or decomposing food waste. As a result, the decomposition efficiency of ozone by the ozone decomposition catalyst is lowered. Therefore, in order to increase the decomposition efficiency of ozone, it is inconvenient to use and cumbersome because the user must separate and dry the ozone decomposition catalyst and then use it again or replace it with a new product.

The present invention is to solve the above problems, the object of the present invention is that the odor is effectively deodorized, because the ozone used to deodorize the odor is also decomposed and discharged to reduce the damage caused by ozone which was a problem in the conventional food waste treatment apparatus In addition, automatic control is performed so that the ability to decompose ozone is not deteriorated, thereby providing an eco-friendly deodorizing system with a new structure that is convenient and eco-friendly.

According to the present invention, the air containing the odor is introduced into the deodorization chamber 20 is built in the ultraviolet lamp 2 for synthesizing the oxygen in the air into ozone, and the air treated in the deodorization chamber 20 One end is connected to the rear end of the deodorization chamber 20 and the other end comprises an ozone decomposition chamber 30 is formed with an outlet 34 for discharging the air to the outside, the ozone decomposition chamber 30 to the decomposition of ozone There is provided an environmentally friendly deodorizing system, characterized by a built-in ozone decomposition catalyst 40 for promoting and a heater 50 for preventing condensation of water in the ozone decomposition catalyst 40.

According to another feature of the invention, the outlet 34 of the ozone decomposition chamber 30 is provided with an ozone detection sensor 60 for detecting the amount of ozone in the air exhausted to the outside, the heater 50 is the ozone detection There is provided an environmentally friendly deodorizing system, characterized in that the control unit 70 is connected to receive the data of the sensor 60 to control the operation of the heater 50 in accordance with the input data.

According to another feature of the invention, the ozone decomposition catalyst 40 is provided with an environmentally friendly deodorizing system, characterized in that the ball-shaped core material 42 is coated on the surface.

According to another feature of the invention, the outlet 34 of the ozone decomposition chamber 30 is provided with an odor detection sensor 80 is connected to the control unit 70, the deodorization chamber 20 is the control unit ( 70 is connected to the ozone generator 90 is connected, the ozone generator 90 is characterized in that it is operated only when the odor detection above the reference value by the odor detection sensor 80 by the control unit 70 is detected. An environmentally friendly deodorization system is provided.

According to another feature of the invention, the environment between the deodorization chamber 20 and the ozone decomposition chamber 30 or the ozone decomposition chamber 30, the external air inlet hole 29 through which the outside air is introduced is characterized in that the environment It is provided in a friendly deodorizing system.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a schematic view showing an embodiment of the present invention and Figure 2 is a cross-sectional view showing an ozone decomposition catalyst used in the present invention. 1 shows that the present invention is applied to a food waste treatment apparatus, and the present invention includes a treatment tank 10 in which food waste is dried or decomposed, and a odor generated in the treatment tank 10. It is connected to the treatment tank 10 so that the air flows into the deodorization chamber 20, the UV lamp 2 is built-in, and is connected to the rear end of the deodorization chamber 20 so that the air treated in the deodorization chamber 20 is introduced. The ozone decomposition chamber 30 is formed, and the treatment tank 10, the deodorization chamber 20, and the ozone decomposition chamber 30 are sequentially connected and embedded in one exterior case 9.

The treatment tank 10 has a food waste inlet 12 is formed on the upper surface, the outlet 14 through which air is discharged is formed on one side, the stirrer 16 is installed inside. In such a treatment tank 10, food waste is fermented and decomposed by microorganisms. When the user inputs food waste and microorganisms, the food waste and microorganisms are stirred by the stirrer 16, and the food waste is fermented and decomposed by the microorganisms. Air containing odor and moisture generated in this process is discharged to the outlet (14).

In addition, the deodorization chamber 20 has a cylindrical shape in which an inlet 22 is formed at an upper end and an outlet 24 is formed at a lower end thereof, so that air containing odor and moisture generated in the treatment tank 10 is introduced. It is connected to (10) and installed. An ultraviolet lamp 2 is provided at the center of the deodorization chamber 20, and a permeable filler 26 is filled around the ultraviolet lamp 2. The breathable filler 26 is made of a material or pores formed with pores in the tissue, such as porous sponge, glass wool, fabric, and the like. The surface of this breathable filler 26 is coated with a photocatalyst or a matte catalyst. Matte catalysts react with oxygen in the air to produce active oxygen even in the absence of light, and the active oxygen decomposes and removes organic matter, which is used by Cr ₂ O _3, Fe ₂ O ₃ or SiO ₂ , ZnO, AgO, etc. do.

In the deodorization chamber 20, the odor generated in the treatment tank 10 is removed. Oxygen in the air introduced into the deodorization chamber 20 by the ultraviolet lamp 2 is synthesized by ozone, and by the synthesized ozone. Odor component is decomposed and removed. The odor component is also decomposed and removed by the photocatalyst or the matte catalyst coated on the breathable filler 26. On the other hand, the air introduced into the deodorization chamber 20 forms a relatively long flow path by the porous filler 26, so that the time to stay in the deodorization chamber 20 becomes relatively long, and thus the odor removal efficiency is increased.

The ozone decomposition chamber 30 is connected to the rear end of the deodorization chamber 20. The ozone decomposition chamber 30 also has an inlet 32 through which air is introduced, and an outlet 34 is formed at the other end, and the air exhausted from the outlet 34 of the deodorization chamber 20 is discharged to the outside. The outer case 9 is formed with an outlet 8 aligned with the outlet 34. In the ozone decomposition chamber 30, an ozone decomposition catalyst 40 and a heater 50 are incorporated, and an outlet 34 is provided with an ozone detection sensor 60 for detecting the amount of ozone in the air discharged to the outside. And the heater 50 is connected to the control unit 70 for controlling the operation of the heater 50 receives the data of the ozone detection sensor 60, only when the amount of ozone detected by the ozone detection sensor 60 is more than the reference value. The operation of the heater 50 is automatically controlled by the controller 70 so that the heater 50 is operated.

The ozone decomposition catalyst 40 is used to decompose ozone generated in the deodorization chamber 20. For example, manganese dioxide or platinum is used. These ozone decomposition catalysts 40 are filled in granular form, and air passes through the ozone decomposition catalysts 40 through the pores formed between the grains of the ozone decomposition catalysts 40. The heater 50 is embedded in the ozone decomposition catalyst 40.

Preferably, the ozone decomposition catalyst 40 is coated on the surface of the core material 42 having a ball shape, as shown in FIG. Since ozone is decomposed into oxygen by a mechanism of being adsorbed on the surface of the ozone decomposition catalyst 40, decomposed into oxygen, and desorption, the contact area between the ozone decomposition catalyst 40 and ozone and the decomposition efficiency of ozone are proportional to each other. . Therefore, the ozone decomposition catalyst 40 needs to have a relatively large specific surface. For this purpose, in the present invention, the ozone decomposition catalyst 40 is coated on the ball-shaped core 42. In addition, when the ozone decomposition catalyst 40 is simply used in powder form, as will be described later, when water is condensed on the ozone decomposition catalyst 40, the ozone decomposition catalyst 40 becomes wet with moisture, resulting in a state such as flour dough. Since the voids are eliminated in the packed layer of the ozone decomposition catalyst 40, air does not pass through the ozone decomposition catalyst 40. As described above, when the ozone decomposition catalyst 40 is coated on the core 42, moisture is lost. Even if this condensation occurs, the shape of the ozone decomposition catalyst 40 is not deformed by the core material 42 and thus the initial state is maintained, so that the air passes smoothly. As the core 42, a material having excellent heat resistance such as metal or ceramic is used.

In the ozone decomposition chamber 30 as described above, ozone generated in the deodorization chamber 20 is decomposed. That is, ozone generated in the deodorization chamber 20 is decomposed into oxygen again in the ozone decomposition chamber 30 and exhausted to the outside. Although ozone is decomposed naturally, but its speed is low, the present invention includes an ozone decomposition chamber 30 to artificially decompose ozone. Since ozone is in contact with the ozone decomposition catalyst 40 in a relatively large area while passing through the voids formed between the ozone decomposition catalysts 40, the decomposition efficiency of ozone is increased.

On the other hand, the ozone detection sensor 60 detects the amount of ozone in the exhausted air and sends the data to the control unit 70. If the detected amount of ozone is equal to or more than the reference value, moisture is condensed on the ozone decomposition catalyst 40 and ozone. It can be predicted that the ozone decomposition efficiency of the decomposition catalyst 40 is lowered. Therefore, the operation of the heater 50 is controlled by the controller 70 to remove the water condensed on the ozone decomposition catalyst 40 to increase the ozone decomposition efficiency. Is on. Preferably, the ozone decomposition chamber 30 is provided with a temperature sensor (not shown) so that the operation of the heater 50 is controlled so that the inside of the ozone decomposition chamber 30 is not overheated above a predetermined temperature level. Preferably, as shown, the upper portion of the ozone decomposition chamber 30 is filled with the air-permeable filler 26 to form a long flow path for the air flowing into the ozone decomposition chamber 30 to form a relative path in the ozone decomposition chamber 30. It is configured to stay for a long time.

As described above, since ozone is decomposed and discharged from the ozone decomposition chamber 30, damage by ozone can be prevented. In particular, the operation of the heater 50 is controlled to the controller 70 so that the performance of the ozone decomposition catalyst 40 is not degraded. Since it is automatically adjusted by the user, there is no need for the user to replace or dry the ozone decomposition catalyst 40, and to regenerate it as in the prior art.

If necessary, as shown in Figure 2, the outlet 34 of the ozone decomposition chamber 30 is provided with an odor detection sensor 80, the deodorization chamber 20 is connected to the ozone generator 90. The odor detection sensor 80 and the ozone generator 90 are connected to the control unit 70 so that the ozone generator 90 operates only when the odor detected by the odor detection sensor 80 is equal to or greater than a reference value. The operation is controlled by That is, when an odor or more than a reference value is detected in the air exhausted by the odor detection sensor 80, it can be guessed that the deodorization is not effectively performed in the deodorization chamber 20, which is a bad smell flowing into the deodorization chamber 20. This means that the action of ozone or photocatalyst generated in the deodorization chamber 20 is relatively insufficient, so that ozone is additionally supplied to the deodorization chamber 20 through the ozone generator 90 to deodorize the deodorization chamber 20. It is to increase the efficiency.

In addition, between the deodorization chamber 20 and the ozone decomposition chamber 30, an outside air inlet 29 is formed through which external air is introduced. As the outside air is introduced through the outside air inlet 29, relatively ozone is introduced. Since the amount of ozone and the humidity in the decomposition chamber 30 decrease, the load is not applied to the ozone decomposition catalyst 40, and thus the ozone decomposition efficiency by the ozone decomposition catalyst 40 does not decrease.

In the above description, the heater 50 is configured to operate only when the ozone detection sensor 60 detects the amount of ozone above the reference value. However, in some cases, the heater 50 may be configured to operate at all times. It is preferable to economically configure the heater 50 to be automatically controlled by the signal input by the ozone detection sensor 60 as described above due to the high consumption.

In addition, the present invention has been described as being applied to the food waste treatment apparatus, the present invention can be applied to the air conditioner of the building, barn or environmental pollutant treatment. Unexplained reference numerals are blower fans 4, 6, and 7 for inducing air flow.

As described above, according to the present invention, the odor is effectively deodorized, and since ozone used to deodorize the odor is also decomposed and discharged, damage by ozone can be reduced. In particular, the present invention is automatic control so that the decomposition efficiency of the ozone decomposition catalyst 40 for decomposing ozone is not reduced, so that the user replaces or decomposes the ozone decomposition catalyst 40 or regenerates it by regeneration. Since the ozone decomposition catalyst 40 is filled in the form of a coating on the core material 42, the decomposition efficiency of the ozone decomposition catalyst 40 is lowered even when water is condensed in the ozone decomposition catalyst 40. There is no fear of problems. In addition, when the ozone generator 90 is connected to the deodorization chamber 20 as necessary, the odor is deodorized to a perfect level, thereby maintaining a comfortable indoor environment.

Claims (5)

Deodorization chamber 20 into which the air containing the odor is introduced and the ultraviolet lamp 2 for synthesizing the oxygen in the air into ozone and the air treated in the deodorization chamber 20 are introduced. It is connected to the rear end of 20) and the other end comprises an ozone decomposition chamber 30 is formed with an outlet 34 for discharging the air to the outside, the ozone decomposition chamber 30, the ozone decomposition catalyst for promoting the decomposition of ozone 40 and an environmentally friendly deodorizing system, characterized in that the heater 50 is built in to prevent the condensation of water in the ozone decomposition catalyst 40. The ozone decomposing chamber (30) of the ozone decomposition chamber (30) is provided with an ozone detection sensor (60) for detecting the amount of ozone in the air exhausted to the outside, the heater (50) has the ozone detection sensor ( Environmentally friendly deodorizing system, characterized in that the control unit 70 is connected to receive the data of 60) to control the operation of the heater 50 in accordance with the input data. The environmentally friendly deodorization system according to claim 1 or 2, wherein the ozone decomposition catalyst (40) is coated on the surface of the ball-shaped core material (42). According to claim 1 or 2, The outlet 34 of the ozone decomposition chamber 30 is provided with an odor detection sensor 80 connected to the control unit 70, The deodorization chamber 20 is the control unit An ozone generator 90 connected to 70 is connected, and the ozone generator 90 is operated only when an odor of a reference value or more is detected by the odor detection sensor 80 by the controller 70. Eco-friendly deodorizing system characterized by. According to claim 1 or 2, Between the deodorization chamber 20 and the ozone decomposition chamber 30 or the ozone decomposition chamber 30 is characterized in that the external air inlet hole 29 through which external air flows is formed Environment friendly deodorization system.

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