KR102603674B1 - multi-stage complex deodorizer - Google Patents

Abstract

The present invention relates to a multi-stage composite deodorizer that can efficiently deodorize bad odors.
The multi-stage composite deodorizer according to the present invention includes an enclosure (10) of a certain size; An input pipe (11) installed at the top of one side of the enclosure (10); A biofilter (20) installed inside the enclosure (10); Nutrient water (30) filled at the inner bottom of the enclosure (10); A cleaning nozzle 31 installed on the top of the biofilter 20 to pump the nutrient water 30 at the bottom of the enclosure 10 with a pump P and spray it into the biofilter 20; A partition 41 installed vertically at the other end of the enclosure 10 so as to be open downward; A secondary compartment (40) installed at the rear of the bulkhead (41); A plurality of UV lamps (50) are installed horizontally and vertically at regular intervals inside the secondary compartment (40); It includes a discharge pipe (12) installed at the top of the secondary compartment (40), and when the odor is introduced into the input pipe (11) of the enclosure (10), the odor hits the top of the partition wall (41) and then "2 After passing through the biofilter (20) according to the airflow that circulates in the shape of a "shape," it flows into the secondary compartment (40) through the lower part of the partition wall (41) and then rises again through the UV lamp (50) to the discharge pipe (12). It is characterized in that it is discharged as.

Description

Multi-stage complex deodorizer

The present invention relates to a multi-stage composite deodorizer that can efficiently deodorize bad odors.

Odors generated from various industrial sites such as wastewater treatment plants, sewage treatment plants, excrement treatment plants, food waste treatment plants, livestock farming equipment, dyeing plants, painting plants, dust generating facilities, etc. must be deodorized and discharged as they not only pollute the air environment but also cause damage to nearby residents. .

Conventionally proposed odor deodorizers are diverse, including washing methods using water or chemical solutions, adsorption methods using adsorbents such as adsorption filtration filters, activated carbon, etc., biological methods using microorganisms, and complex methods combining these.

In particular, the previously proposed complex method not only occupies a lot of space due to the large size of the device, but also requires a lot of facility costs, and has the problem of low odor deodorization efficiency compared to the space and facility costs.

For reference, the following prior art documents list four recent prior art documents searched using the keyword "odor * deodorization" through the patent information net Keypris. The technology related to the present invention can be found by referring to the following prior art documents. You will be able to understand the field, background technology, and its development status.

Registration/Publication Number: 1024257600000, 1024257590000, 1024619210000, 1024728730000.

The present invention was developed to solve the conventional problems mentioned in the background art, and in particular, the purpose of the present invention is to solve the problem of efficiently removing bad odors using simple methods and devices.

As a means to solve the problem, the present invention proposes a means of introducing odor into the enclosure, passing it through a biofilter, and then passing through a UV lamp before being discharged.

According to the means of the present invention, odorous substances such as ammonia (NH3) and hydrogen sulfide (H2S) are biologically ingested and removed by microorganisms through a biofilter, and then organic substances included in the odor that were not removed by microorganisms are removed by electromagnetic waves through a UV lamp. In addition to sterilization, the electromagnetic waves form ozone in the surrounding air to oxidize, decompose, and remove odorous substances, making it possible to efficiently deodorize odors using simpler devices and facilities than in the past.

1 is an exemplary diagram of the present invention
Figure 2 is another example of the present invention

Hereinafter, the present invention will be described in detail with reference to the attached drawings. However, the attached drawings may be exaggerated, omitted, or schematically depicted for the convenience of explanation of key parts, and the terms and names used in the explanation are not defined by dictionary meaning but are implicitly determined by the shape, function, role, etc. of the composition. The description of the direction is determined based on the direction first presented from the initially presented drawing, and the description of the location is determined based on the center of each composition or the center of the circle. Additionally, detailed descriptions of pre-registered known and common technologies may obscure the point, so they are omitted or replaced with simple symbols or names. In addition, the specific structure, shape, shape, arrangement, size, etc. of the composition that can be identified through the drawings, as well as the operation of the composition and the resulting effects that can be inferred through the drawings, may obscure the point, so detailed explanations are omitted. Bolts, welding areas, holes, etc. applied to join components can be omitted from the drawing as they may obscure the point, and unless the shape of the component is specifically specified, the shape of the plane is circular or square. , In this case, the floor plan can be omitted.

Hereinafter, the present invention will be described with reference to Figure 1.

As shown, the present invention is characterized in that odor is introduced into the enclosure 10, passes through the biofilter 20, and then passes through the UV lamp 50 before being discharged.

For this purpose, the present invention includes an enclosure (10) of a certain size as shown; An input pipe (11) installed at the top of one side of the enclosure (10); A biofilter (20) installed inside the enclosure (10); Nutrient water (30) filled at the inner bottom of the enclosure (10); A cleaning nozzle 31 installed on the top of the biofilter 20 to pump the nutrient water 30 at the bottom of the enclosure 10 with a pump P and spray it into the biofilter 20; A partition 41 installed vertically at the other end of the enclosure 10 so as to be open downward; A secondary compartment (40) installed at the rear of the bulkhead (41); A plurality of UV lamps (50) are installed horizontally and vertically at regular intervals inside the secondary compartment (40); It may be composed of a discharge pipe 12 installed at the top of the secondary compartment 40.

In the above configuration, when an odor is introduced into the input pipe 11 of the enclosure 10, the odor hits the top of the partition wall 41 and then passes through the biofilter 20 according to the airflow circulating in the shape of a “2”. Malodor is deodorized by flowing into the secondary compartment (40) through the lower part of the partition wall (41) and then rising again to be discharged through the UV lamp (50) and discharge pipe (12).

In the above, the biofilter 20 may be made of a carrier or urethane foam that has many pores, a large specific surface area, and a light specific gravity so that microorganisms can easily inhabit it, and the nutrient water contains iron, phosphorus, etc. for the growth of microorganisms. Necessary nutrients can be supplied by diluting them in water, and the electromagnetic waves of the UV lamp 50 can be composed of UV-C ultraviolet rays with a wavelength range of 200 to 280 nm.

In this way, as described in the effect of the invention, odorous substances such as ammonia (NH3) and hydrogen sulfide (H2S) are biologically ingested and removed by microorganisms through a biofilter, and then removed by odors that were not removed by microorganisms through a UV lamp. In addition to sterilizing organic matter with electromagnetic waves, the electromagnetic waves form ozone in the surrounding air to oxidize, decompose, and remove odorous substances, making it possible to efficiently deodorize odors using simpler devices and facilities than before. .

below, Figure 2 The present invention will be described with reference to the following.

As shown, the UV lamp 50 included in the present invention includes a support bracket 51 installed on the partition wall 41 of the enclosure 10; A quartz tube (52) installed from the outside of the enclosure (10) to the support bracket (51); The UV lamp 50 may be installed to be inserted from the outside of the enclosure 10 into the inside of the quartz tube 52.

In this way, since the method of inserting the UV lamp (50) into the inside of the quartz tube (52) is adopted, moisture, fine dust, etc. inside the enclosure (10) do not flow into the UV lamp (50), preventing electrical failure from occurring. It is effective, and not only is it easy to install the UV lamp 50, but it is also easy to replace the UV lamp 50 when it breaks down.

In addition, as shown, the present invention includes a cleaning duct 60 installed vertically in front of the enclosure 10; a cleaning water tank 61 installed at the lower part of the cleaning duct 60 and filled with cleaning water 62 therein; A delay diaphragm 63 in which a plurality of horizontal plates are installed spaced apart in a zigzag shape in the cleaning duct 60; A cleaning nozzle 64 is installed vertically between the internal delay diaphragms 63 of the cleaning duct 60 and pumps the cleaning water 62 of the cleaning water tank 61 with a pump P to spray it in the form of mist; may include.

As shown, the cleaning duct 60 is connected from the input pipe 11 of the enclosure 10 to clean the odor before the odor is supplied into the interior of the enclosure 10 with the washing water 62 and then clean the enclosure ( 10) to be supplied.

In addition, the cleaning duct 60 is formed in a "U" shape as shown, so that odor is supplied from the top, flows to the bottom, and then floats to the top again to be supplied to the enclosure 10, thereby allowing the cleaning water 62 to flow. It is desirable to configure it so that it does not flow into the interior of the enclosure 10 and mix.

In addition, the washing water 62 above may be made by mixing sodium hydroxide, sodium hypochlorite, sulfuric acid, cryochisaru, sodium sulfite, etc. in water depending on the type or concentration of the odor, and the washing water tank 61 As shown, it can be configured to recover what flows down from the cleaning duct 60.

In this way, by first removing odor substances that cannot be removed by microorganisms or odors that have a negative effect on microorganisms, not only does the efficiency of removing odor improve, but it also has the effect of protecting microorganisms.

In addition, as shown, the present invention may include a circulation plate 70, which is installed horizontally at a predetermined distance from the rear bottom of the biofilter 20 of the enclosure 10 to the front.

The circulation plate 70 prevents the odorous airflow injected into the input pipe 11 of the enclosure from directly passing through the lower part of the partition wall 41, but is reflected through the partition wall 41 and passes through while circulating in an “S” shape. will be.

In this way, not only can the bad odor stay in the enclosure 10 for a long time due to the permeation plate 70, but also the bad odor can be evenly supplied to the biofilter 20, so the reaction between the bad smell and microorganisms becomes active, and the removal efficiency of bad smells further improves. There is an effect.

In addition, as shown, the present invention may include an adsorption filter 80 installed on the upper part of the UV lamp 50 of the secondary compartment 40.

The adsorption filter 80 is designed to adsorb and filter odorous substances before discharging the treated gas through the discharge pipe 12 of the secondary compartment 40 and then discharge it.

The adsorption filter 80 may be made of sponge-type foam, activated carbon, etc., which can easily adsorb odorous substances through micropores.

In this way, odorous substances that could not be removed in the previous step can be removed by adsorbing to the micropores, and the speed at which the odor flows within the enclosure 10 is slowed to allow the odor to remain within the enclosure 10 for a long time, thereby eliminating the odor. This has the effect of further improving efficiency.

Concluding the description of the present invention, the present invention draws the configuration of the present invention and the specific components included in the configuration to help understand the principle of the configuration pursued in the present invention and the drawings. The explanation is based on this, and the structure, form, shape, arrangement, direction, and quantity of the composition included in the present invention and its specific components are determined in consideration of the principle to be pursued, and can be variously changed as needed. There will be. The configuration and its specific components presented in the present invention illustrate the effect that a person skilled in the art would like to obtain from the present invention and what principle is most desirable to apply to obtain a better effect from the effect. It was done. Accordingly, it is most desirable to complete the present invention by including all of the above-described configurations, but it can be completed by selecting or excluding some of the configurations described above depending on cost reduction, convenience of manufacturing, environmental conditions, or necessity. , one or part of the configuration can be separated and completed by merging with other configurations. In addition, each configuration described above may be independently applied to other technical fields other than this technical field, taking into account the principle, use, function, role, action, effect, etc. Based on this, the scope of the rights of the present invention was specified as comprehensive as possible for the claims of the present invention as follows, and the claims were claimed in order starting from the claims with the broadest rights. Through this, a technician with ordinary knowledge in this technical field can claim the above-mentioned claims. It appears that the gist to be pursued in the present invention can be fully understood through the specific content and the claims to be described below, and the effects of the parts shown but not explained can be sufficiently inferred through the drawings. Accordingly, a person skilled in the art will be able to apply various modifications and changes to this technical field based on the contents mentioned in the present invention, which will enable the development of this technical field and further increase the efficiency of use.

Claims (3)

A case (10) of a certain size; An input pipe (11) installed at the top of one side of the enclosure (10); A biofilter (20) installed inside the enclosure (10); Nutrient water (30) filled at the inner bottom of the enclosure (10); A cleaning nozzle 31 installed on the top of the biofilter 20 to pump the nutrient water 30 at the bottom of the enclosure 10 with a pump P and spray it into the biofilter 20; A partition 41 installed vertically at the other end of the enclosure 10 so as to be open downward; A secondary compartment (40) installed at the rear of the bulkhead (41); A plurality of UV lamps (50) are installed horizontally and vertically at regular intervals inside the secondary compartment (40); It includes a discharge pipe (12) installed at the top of the secondary compartment (40),
When an odor is introduced into the input pipe 11 of the enclosure 10, the odor hits the top of the partition wall 41 and then passes through the biofilter 20 according to the airflow circulating in the shape of a “2” before passing through the partition wall 41. ) flows into the secondary compartment (40) through the lower part, and then rises again to be discharged through the UV lamp (50) and into the discharge pipe (12),
The UV lamp 50 includes a support bracket 51 installed on the partition wall 41 of the enclosure 10; A quartz tube (52) installed from the outside of the enclosure (10) to the support bracket (51); It includes installing a UV lamp 50 to be inserted from the outside of the enclosure 10 into the inside of the quartz tube 52,
A cleaning duct 60 installed vertically in front of the enclosure 10; a cleaning water tank 61 installed at the lower part of the cleaning duct 60 and filled with cleaning water 62 therein; A delay diaphragm 63 in which a plurality of horizontal plates are installed spaced apart in a zigzag shape in the cleaning duct 60; A cleaning nozzle 64 is installed vertically between the internal delay diaphragms 63 of the cleaning duct 60 and pumps the cleaning water 62 of the cleaning water tank 61 with a pump P to spray it in the form of mist; It includes, and the cleaning duct 60 is connected from the input pipe 11 of the enclosure 10 to clean the odor before the odor is supplied into the interior of the enclosure 10 with the washing water 62 and then clean the odor before the odor is supplied into the enclosure 10. ), including ensuring that it is supplied within the
It includes a percolation plate 70, which is installed horizontally at a predetermined distance from the rear bottom of the biofilter 20 of the enclosure 10 to the front, and the permeation plate 70 is introduced into the input pipe 11 of the enclosure. It includes allowing the airflow of the foul odor to not pass directly to the lower part of the partition wall 41, but to be reflected through the partition wall 41 and pass through while traveling in an “S” shape,
It includes an adsorption filtration filter (80) installed on the upper part of the UV lamp (50) of the secondary compartment (40), wherein the adsorption filter (80) processes gas through the discharge pipe (12) of the secondary compartment (40). A multi-stage complex deodorizer that includes absorbing and filtering odorous substances before discharging them and then discharging them. delete delete

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