KR101168750B1 - Deodorization apparatus for cleaning the bed smell and harmful gas - Google Patents

Abstract

PURPOSE: A deodorizing apparatus for eliminating bad odor and harmful gas is provided to cost effectively implement operational processes and to keep the efficiency of the apparatus for a long period of time. CONSTITUTION: A deodorizing apparatus for eliminating bad odor and harmful gas includes a plurality of partition walls(180) and a deodorizing member(110). Fluid flowing holes(190) are formed on the partition walls. The deodorizing member is filled with filler(120). The filler filters bad odor and harmful gas and is arranged in a space(150) which is formed by the partition walls. The filler is the mixture of pelletized activated carbon and charcoal. Microorganisms are absorbed on the pelletized activated carbon of 0.1 to 4.0mm particle sizes. The deodorizing member includes fixed members(130) and heat emitting members(140). The heat emitting members are arranged between the fixed members and the filler.

Description

Deodorization apparatus for cleaning the bed smell and harmful gas

The present invention relates to a deodorizing device for removing odors and harmful gases, more specifically, a high-efficiency, high durability deodorizing technology fusion deodorization to remove odorous substances by inoculating microorganisms in a carrier mixed with activated carbon and hardwood chacoal The present invention relates to a deodorizing device for removing odor and harmful gas used in a food waste treatment device.

In the past, food waste has been fermented and used as compost or as livestock feed. However, in modern times, due to the development of cooking technology, the use of various chemical materials, and environmental pollution, it cannot be used as compost or livestock feed.

Accordingly, the pretreatment technology of food waste has been developed, and for example, a food waste treatment device to which a technique such as heating and fermentation is applied has been developed and spread. However, even if fermented or dried and then discharged in an enclosed space, it is not possible to suppress the generation of odor and harmful gas generated therein. In order to solve this problem, the development of a filter material to block odor and harmful gases is continuously made, and currently being used a lot is using a porous material such as activated carbon.

In general, the deodorization device using granular activated carbon is easily clogged when the gas contains a lot of water, that is, moisture, during continuous use. Even though the treatment efficiency is continuously reduced, there is a problem that can not be used for a long time and the activated carbon must be replaced constantly frequently. Therefore, the processing efficiency is low and the effective processing efficiency is very low compared to the installation cost and maintenance cost.

Examples of such deodorizing apparatus using activated carbon are natural granules for granular activated carbon consisting of tourmaline powder, mica powder, bamboo charcoal powder, anion (precious stone) powder and natural adhesive in Korean Patent Publication No. 10-2007-0042247. A stone composition and a method for producing a functional eco-friendly granular activated carbon filter member using the composition are disclosed.

1. Republic of Korea Patent Publication No. 10-2007-0042247

The present invention has been made in order to solve the above-mentioned conventional problems, in order to maintain the continuous treatment efficiency for a long time in addition to the continuous increase in the treatment efficiency in the treatment of odorous gases and harmful gases of oil, inorganic phases The challenge is to provide a new concept of processing.

In addition, the existing activated carbon deodorization device is easily generated due to the high moisture between the pores and the pores, and the continuous heating is applied by using a heating device or there is no countermeasure against this, and the air flow between the pores and the pores is not smooth. In addition, the present invention is to provide a more environmentally friendly deodorizing device to prevent the problem that the moisture is adsorbed between the pores and the pores, and to increase the efficiency of water removal and reduce the energy used in the heating device. Doing it is another challenge.

In addition, when odors and polluting gases are constantly in contact with activated carbon, if the negative charge of activated carbon and gas are adsorbed on the porous material, the life will gradually come to an end, and the technology will be developed to keep the activity for a longer time. This technology was devised.

In the deodorizing device for removing odor and harmful gas according to the present invention, a plurality of partitions 180 having a fluid flow hole 190 are formed therein, and the inside of the space formed by the partitions 180 is provided. It consists of a deodorizing member 110 is filled with a filler 120 for filtering the odor and harmful gas flowing into the, the deodorizing member 110 is fixed to the partition 180 is installed and a plurality of through holes are formed Including the fixing member 130 and the deodorizing filler 120 is filled to the inside of the fixing member 130 and the heating member 140 is installed to be located between the fixing member 130 and the filler 120. Is done.

Here, the heat generating member 140 is formed with a plurality of through holes, it is characterized in that the structure is fixed to the fixing member 130, or fixed to the partition 180 is installed.

Here, the filler is a mixture of pelletized activated carbon having a particle size of 0.1 to 8.0 mm and hardwood chacoal (hardwood chacoal), the microorganisms in the pellet activated carbon having a particle size of 0.1 ~ 4.0 mm in the activated carbon constituting the mixture It is characterized by including the adsorbed.

The deodorizing device for removing odor and harmful gas provided in the present invention is used in a food waste treatment device or the like, and the activated carbon and chacoal having the filler and the filling structure provided in the present invention have smaller particles on the pores of each other. In this state of filling, the surface area is extremely maximized.

In addition, the chacoal placed in order to facilitate the flow of air also has a very high moisture absorption, it is easier to control the moisture inside more efficiently.

In addition, the deodorizing device of the present invention does not decrease the efficiency for a long time as compared to the existing deodorizing device and because of the ability of self-healing type above all have a cost-effective and powerful deodorizing performance will be.

In addition, the present invention is a problem of the cost caused by the problem of the frequent depletion of the internal filler due to the problem of moisture and the efficiency of the deodorizing device attached to the existing small, medium, or large equipment and the perfect odor during operation It is an eco-friendly convergence technology that can solve the problem that cannot be removed or the secondary pollution such as the use of washing water or the generation of condensate from small and medium sized machines.

1 is a cross-sectional view showing an example of the deodorizing apparatus of the present invention.
2 is a cross-sectional view showing another embodiment of the deodorizing device of the present invention.
3 is a cross-sectional view showing an operating state of the deodorizing device of the present invention.

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

1 is a cross-sectional view showing an example of the deodorizing device of the present invention, Figure 2 is a cross-sectional view showing another embodiment of the deodorizing device of the present invention, Figure 3 shows an operating state of the deodorizing device of the present invention It is a cross section.

Referring to FIG. 1, in the deodorizing device for removing odor and harmful gases of the present invention, a plurality of partition walls 180 having a fluid flow hole are formed therein, and the inside of the space formed by the partition walls 180 is included. It consists of a deodorizing member 110 is filled with a filler 120 for filtering the odor and harmful gas flowing into the, the deodorizing member 110 is fixed to the partition 180 is installed and a plurality of through holes are formed Including the fixing member 130 and the deodorizing filler 120 is filled to the inside of the fixing member 130 and the heating member 140 is installed to be located between the fixing member 130 and the filler 120. Is done.

According to the present invention, the heating member 140 is formed with a plurality of through holes, as shown in Figure 1, is fixed to the fixing member 130 is installed, or as shown in Figure 2, It may be a structure fixed to the partition 180.

According to the present invention, the filler is a mixture of pelletized activated carbon having a particle size of 0.1 to 8.0 mm and hardwood chacoal, and a pellet having a particle size of 0.1 to 4.0 mm in the activated carbon constituting the mixture. It consists of including microorganisms adsorbed on activated carbon.

At this time, the charcoal powder is preferably mixed to include 1 to 15% by weight based on the total weight of the filler.

In addition, the pellet-like activated carbon to which the microorganisms are adsorbed is preferably mixed so as to contain 10 to 30% by weight based on the total weight of the filler. Adsorption of the microorganisms may be used to prepare useful microorganisms and to the activated carbon having a particle size of 0.1 to 4.0 mm. While spraying, the solution is sufficiently stirred to allow microorganisms to adsorb to the surface of the activated carbon and the pores formed thereon. Then it is completed by incubating for a certain time at the temperature of the growth activity of the microorganism.

The filler used in the present invention is a filler in the form of a mixture of activated carbon having a different size for the expansion of the adsorption surface area while securing a passage of air between the pores in the structure of the pores in the deodorizing device. This is then mixed with the hard wood chacoal to create a finished mixed structure, and the filling of the adsorbed microorganisms to some activated carbon particles during the manufacture of the filler.

The inside of the deodorizing device is filled with a heating device for controlling the humidity, but it is preferable to have a device that can apply the temperature to the outside of the deodorizing device is to increase the efficiency of the first deodorizing device. Adsorption temperature of activated carbon increases as the temperature rises. However, when the internal heating device is used, the efficiency of the fillers with low thermal conductivity between each other is not good, so it is better to use the heating device as if it surrounds the outside. By installing on one side or both sides of the front surface of the deodorizing device by using the thermal conductivity of the filling container of the filling facility to achieve a constant purpose to achieve the purpose.

The microorganisms adsorbed on the activated carbon constituting the present invention is in the form of being adsorbed on the activated carbon and consumes gas, harmful substances, and water that are constantly coming in. Proliferation and biological activity can proceed.

The moisture can of course be removed by a heating device assisted by the deodorizing device, but the amount of water removed by the biological activity of the microorganism is also very large so that about 50% or more of the excess water is continuously removed by the biological activity. As a result, moisture is adsorbed onto activated carbon and hard wood charcoal, which can sufficiently control the obstruction of air flow and the decrease of gas removal efficiency by using water by microbial bioactivity, thus degassing efficiency of the deodorizer. This is continuously stabilized and stable maintenance of water removal efficiency is possible.

In addition, the characteristics of microorganisms are to decompose substances by using gas as an organic and inorganic food source, and to discharge hydrogen gas, CO2 gas and O2 gas during this process.

Hereinafter will be described in detail with respect to the technology fusion deodorizing system using the microbial technology and carrier technology of the present invention.

At this time, if there is no other definition in the technical terms and scientific terms used, it has a meaning commonly understood by those of ordinary skill in the art. Repeated descriptions of the same technical constitution and operation as those of the conventional art will be omitted.

The present invention has a performance deterioration over time due to the increase in the amount of harmful gas adsorbed on the activated carbon with the deterioration of performance over time due to the adsorption of moisture, which is a problem in removing the odor and harmful gases such as organic and inorganic gases. It is an invention designed to solve the problem.

The method devised to solve the problem in the present invention is the first method to increase the surface area of the porosity.

The activated carbon mixture with the size of 0.1 ~ 8MM standard is mixed to make the mixed activated carbon mixture. This is then mixed with hardwood chacoal to create the finished mix structure. At this time, the mixing ratio of the true wood (hardwood chacoal) is about 1 to 15%. At this time, by adsorbing microorganisms to a pellet-like activated carbon having a diameter of some 0.1 ~ 4mm to produce an activated carbon containing microorganisms.

In this way, the activated carbon and the charcoal are filled with smaller particles on the pores of each other, and the surface area of the filled state is maximized.

In addition, the charcoal put in order to facilitate the flow of air also has a very high absorption of moisture it becomes easier to control the moisture inside more efficiently.

The inside of the deodorizing device is filled with a heating device for controlling the humidity, but it is preferable to have a device that can apply the temperature to the outside of the deodorizing device is to increase the efficiency of the first deodorizing device. Adsorption temperature of activated carbon increases as the temperature rises. However, when the internal heating device is used, the efficiency of the fillers with low thermal conductivity between each other is not good, so it is better to use the heating device as if it surrounds the outside. By installing on one side or both sides of the front surface of the deodorizing device by using the thermal conductivity of the filling container of the filling facility can be achieved by consistently warming the air temperature. At this time, the heating temperature is about 30 ~ 100 ℃ and the temperature of the deodorizing device is maintained about 20 ~ 70 ℃.

Microorganisms adsorbed on some of the activated carbon filled inside facilitate the removal of moisture and rapidly increase the efficiency of the deodorizer by producing auxiliary substances that can remove the gas (organic acid, alcohol, etc.).

Among the microorganisms among these microorganisms, which do not act as a pathogen in the air, the present invention was completed using bacillus subtillis, Lactobacillus, and saccharomyces.

Bacillus and yeast (saccharomyces) to solve the problem caused by the absorption of water by the active absorption of moisture quickly and also used as an organic solvent and inactivation catalyst through the production of alcohol and amino acids to convert the odor gas Inactivated or inactivated by using the inactivated material to cause some of the self-proliferation to maintain the efficiency of the activated carbon.

The organic acid produced by Lactobacillus acidophillus has the ability to remove and react with harmful gases such as some ammonia gas, and more importantly, it promotes the growth of Bacillus and yeast bacteria, thereby steadily stabilizing the microbial phase inside the deodorizing container. It will play a role.

Among Bacillus subtillis species, Bacillus subtills sake and Bacillus subtillis natto were used, and lactobacillus acidophillus was selected using sacchromyces cerevisiae. The species name of the microorganism is known in the known species, but is not limited thereto, and may include a known strain name that is mutated in the microorganism species.

The strains disclosed above will be described in detail below.

[Microbial preparation]

Bacillus subtillis

Bacillus subtillis natto and bacillus subtillis sake, which are commonly known fungi, are cultivated and cultured in nutrient broth, respectively, and have excellent growth power and high resolution. Select and isolate excellent strains, inoculate all strains isolated on 1L nutrient broth medium, and incubate and mix cultures at a temperature of around 50 ° C for 4 days to ensure sufficient growth. do.

Lactobacillus acidophilus

Lactobacillus acidophilus, a known strain commonly used, is cultivated using MRS broth and cultured using MRS broth. The culture solution of the present invention was prepared by incubating at about 35 ° C. for 5 days.

3. Sacchromyces cerevisiae

Sacchromyces cerevisiae, a well-known strain commonly used, is cultivated and cultured using Potato dextrose broth and Malt extract as appropriate. Inoculated with the strain isolated by forming a large volume of 1L using the culture was incubated at about 35 ℃ for 5 days to fully grow to prepare a culture solution of the present invention.

Referring to the accompanying drawings, the operating state of the deodorizing device of the present invention as described above with reference to Figure 3, the odor and harmful gases generated in the process of fermenting food waste in the fermentation tank through the gas inlet pipe 160 When introduced into the device 100, the odor and harmful gases are passed through the filler 120 is filled in the deodorizing device. In this case, the filler 120 passes through the space 150 formed by the plurality of partitions 180, and passes through the deodorizing member 110 installed in each space 150 through various steps. Thus, a sufficient odor and harmful gas is removed, and the air from which the odor and the harmful gas has been removed is discharged to the outside through the discharge pipe 170.

As described above, the development of the deodorizing device of the present invention does not reduce the efficiency for a long time as compared to the existing deodorizing device, and because of the ability of self-healing type above all, the cost reduction and more efficient and powerful deodorizing performance Will have.

In addition, the present invention is the problem of the cost caused by the problem of moisture and the frequent replacement of the internal filler due to the problem of the efficiency of the deodorizing device attached to the existing small, medium, or large equipment, and the elimination of perfect odor during operation It is an eco-friendly convergence technology that can solve the problems that cannot be achieved or even the secondary pollution problems such as the use of washing water or the generation of condensate from small and medium sized machines.

In addition, modifications, variations, and substitutions of a range of the above-described disclosure are possible, and in some cases, only some of the features of the present invention may be used, so the appended claims should be construed broadly and in accordance with the spirit and scope of the present invention. .

100: deodorizing device 110: deodorizing member
120: filler 130: fixing member
140: heat generating member 150: space
160: gas inlet pipe 170: gas discharge pipe
180: partition 190: fluid flow hole

Claims (5)

A plurality of partitions 180 having a fluid flow hole 190 formed therein are formed, and a particle size of 0.1 is a filler for filtering odors and harmful gases introduced into the space 150 formed by the partitions 180. It consists of a mixture of pelletized activated carbon and hardwood chacoal of ~ 8.0 mm, comprising the adsorption of microorganisms to the pellet activated carbon having a particle size of 0.1 ~ 4.0 mm of the activated carbon constituting the mixture The deodorizing member 110 is filled with a filler 120, the deodorizing member 110 is fixed to the partition 180 is installed and the fixing member 130 and the fixing member is formed a plurality of through holes Odor and noxious gas, characterized in that it comprises a deodorizing filler 120 is filled to the inside of the 130 and the heating member 140 is installed to be located between the fixing member 130 and the filler 120 Geoyong deodorizer.
The method of claim 1,
The heat generating member 140 is formed with a plurality of through holes, fixed to the fixing member 130, or fixed to the partition 180, characterized in that the structure for removing odor and harmful gases Deodorizer.
delete The method of claim 1,
The deodorizing member is a deodorizing device for removing odor and harmful gas, characterized in that composed of two or more multi-stage.
The method of claim 1,
The microorganism is a deodorizing device for removing odors and harmful gases, characterized in that any one selected from the group consisting of Bacillus subtillis, Lactobacillus, Saccharomyces.

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