KR100492933B1 - A drop off device of biofilter deodorizer and the drop off method - Google Patents

Abstract

The present invention relates to a microbial desorption apparatus and a desorption method of a biofilter type deodorizer, comprising a carrier storage tank (10) having a carrier (11) capable of proliferating microorganisms, and supplying water to the carrier storage tank (10). A water supply mechanism, a width pipe 30 for generating bubbles in the carrier storage tank 10, an aeration fan 40 for supplying air to the width pipe 30, the inlet to the carrier storage tank 10 Including the differential pressure gauge 50 and the control unit 60 for detecting the pressure difference between the gas and the discharged gas, it is possible to normalize the deodorizing efficiency by desorption of the over-proliferated microorganisms, without damaging the carrier of the deodorizer It can be easily detached.

Description

A drop off device of biofilter deodorizer and the drop off method}

The present invention relates to a deodorizer, and more particularly, to a biofilter type deodorizer using microorganisms.

In general, a deodorizer is a device for removing odors. Recently, a deodorizer using a biofilter that removes odors by metabolic activity of immobilized microorganisms by proliferating microorganisms on a carrier has been widely used.

As shown in FIG. 1, a conventional biofilter type deodorizer is formed in a carrier storage tank 110 having a carrier therein, a water supply mechanism 120 for supplying water to the carrier, and the carrier storage tank 110. It includes a deodorizing fan 117 for forcibly sucking and discharging the gas through the gas discharge line 113.

The microorganisms used in the biofilter type deodorizer have the characteristic of increasing or decreasing according to the concentration of the odor, and excessively multiplying during high concentration odor treatment, the pores are closed, thereby reducing the odor removal efficiency.

Conventionally, although the upper cover of the carrier storage tank is dismantled, a method of forcibly detaching by spraying with high-pressure water is used. In addition to using a method, an expensive stirring apparatus must be provided separately, and the carrier is physically damaged to decompose the carrier such that the life of the equipment is shortened and the system is complicated.

Accordingly, the present invention has been made to solve the above problems, the microorganism detachment device of the biofilter type deodorizer to prevent the deodorization efficiency is lowered by simply detaching the overgrown microorganisms without damaging the carrier And to provide a method for eliminating the purpose.

The present invention for achieving the above object, a carrier storage tank having a carrier for microorganisms can proliferate, a water supply mechanism for supplying water to the carrier storage tank, the width to generate bubbles in the carrier storage tank An engine, and an aeration fan for supplying air to the aeration pipe, a differential pressure gauge for detecting a pressure difference between the gas flowing into the carrier storage tank and the discharged gas, the control unit.

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

1 is a block diagram showing a biofilter type deodorizer according to the prior art, Figure 2 is a block diagram showing a microorganism desorption apparatus of the biofilter type deodorizer according to the present invention, Figure 3 shows a carrier storage tank of the present invention 4 is a flowchart illustrating a microorganism detachment process of the biofilter type deodorizer according to the present invention.

The microbial detachment apparatus of the biofilter type deodorizer according to the present invention includes a carrier storage tank (10) having a carrier (11) capable of growing microorganisms, a water supply mechanism for supplying water to the carrier storage tank (10), A width pipe (30) for generating bubbles in the carrier storage tank (10), an aeration fan (40) for supplying air to the width pipe (30), the gas flowing into the carrier storage tank and discharged And a differential pressure gauge 50 and a controller 60 for detecting the pressure difference of the gas.

The carrier storage tank 10 has a carrier 11 capable of growing microorganisms therein, and the odor gas is introduced through the gas inflow line 12, and the gas from which the odor is removed is discharged through the gas discharge line 13. Discharged, having an injector 14 for injecting water on one side of the upper portion, and has a drain 15 for discharging the introduced water.

Water is sprayed on the carrier 11 by the injector 14 and the odor gas is passed through, so that the microorganisms can be propagated on the carrier 11.

The gas discharge line 13 is provided with a deodorizing fan 17 to forcibly discharge the gas.

The differential pressure gauge 50 is connected to the gas inflow line 12 and the gas discharge line 13 to measure the pressure difference between the inflow gas and the outflow gas, and transmit an electric signal to the control unit 60.

When the microorganism is excessively proliferated in the carrier 11 and the pores are narrowed, the pressure of the gas flowing into the carrier 11 is increased and the pressure of the gas discharge line 13 is lowered, thereby reducing the pore through the differential pressure gauge 50. The degree of clogging can be determined.

The water supply mechanism includes a water storage tank 21 for receiving water from the outside and storing a predetermined amount, and a water supply pump 23 for supplying water from the water storage tank 21 to the injector 14. .

The water storage tank 21 receives water through an external water supply line 22, and discharges and stores water injected into the carrier storage tank 10, and detects a water level to discharge water above a predetermined amount. Let's go.

The water supply pump 23 supplies the water of the water storage tank 21 to the injector 14 of the carrier storage tank 10 to supply water to the carrier 11, and the injected water is the carrier storage tank 10. Discharged through the drain port 15 of the) is introduced into the water storage tank 21 again.

The width pipe 30 is a rod-shaped diffuser, which is provided inside the carrier storage tank 10, and is provided below the carrier 11 to generate bubbles to desorb some of the microorganisms attached to the carrier 11. .

That is, by closing the drain port 15 of the carrier storage tank 10 and spraying water through the injector 14 to generate bubbles through the explosion pipe 30 in the state in which the carrier 11 is completely submerged in water by the bubble Microorganisms can be detached.

The control unit 60 determines the electric signal transmitted from the differential pressure gauge 50, and when the pressure difference is greater than a predetermined value P0, by closing the drain port 15 of the carrier storage tank 10, the inside of the carrier storage tank 10 is closed. The water will be filled.

The aeration fan 40 supplies air to the aeration pipe 30 in a state where a predetermined amount of water is filled in the carrier storage tank 10.

Desorption outlet 16 is formed on the lower side of the carrier storage tank 10 to discharge the desorption microorganisms to the outside.

When a certain amount of microorganisms are detached due to aeration inside the carrier storage tank 10, the aeration operation is stopped and the detached microorganisms and water are discharged to the outside.

After restarting to the normal operating state and checking the differential pressure state, if the normal differential pressure, the water is circulated in the carrier storage tank 10 to multiply the microorganisms.

Microbial desorption method of the biofilter type deodorizer according to the present invention, measuring the pressure difference between the gas flowing into the carrier storage tank 10 for discharging the microorganisms and the discharged gas, the measured pressure difference is a certain value (P0) or more In this case, filling the carrier storage tank 10 so that the carrier 11 is completely submerged, aeration step of desorbing microorganisms from the carrier 11 by supplying air to the bottom of the submerged carrier 11, desorption by aeration Discharging the microorganisms to the outside of the carrier storage tank (10).

The pressure measuring step indirectly measures the degree of clogging of the pores of the carrier 11 by measuring the pressure difference between the gas inlet line 12 and the gas discharge line 13 connected to the carrier storage tank 10.

If the measured pressure difference is more than a predetermined value (P0), water is filled in the inside of the carrier storage tank 10 so that the carrier 11 is completely submerged. Then, bubbles are generated under the carrier 11 to propagate the carrier 11. Some of the microorganisms present are desorbed.

When a certain amount of microorganisms are detached and the pores of the carrier 11 are secured, the aeration is stopped and then detached to discharge the microorganisms that have settled on the bottom of the carrier storage tank 10 together with water.

Here, when a certain amount of microorganisms are removed to secure the pores of the carrier 11, the pressure difference of the gas inlet line 12 decreases and the pressure of the gas discharge line 13 increases, thereby reducing the width of the differential pressure in the differential pressure gauge 50. By detecting and transmitting an electrical signal to the control unit 60, it is also possible to automatically stop the aeration when the pressure difference is less than a certain value (P0).

After the aeration is stopped, the microorganisms detached and settled to the bottom of the carrier storage tank 10 are discharged to the outside together with water.

While discharging the desorbed microorganisms, it is preferable to spray water to the upper portion of the carrier 11 so that the desorbed microorganisms can be easily discharged.

As described above, according to the microorganism desorption apparatus and desorption method of the biofilter type deodorizer according to the present invention, the deodorizing efficiency can be normalized by desorption of the overgrown microorganisms, and microorganisms can be removed without damaging the carrier of the deodorizer. Desorption can be easily done, and the time and manpower required for the desorption work can be reduced.

1 is a block diagram showing a biofilter type deodorizer according to the prior art,

Figure 2 is a block diagram showing a microorganism detachment device of the biofilter type deodorizer according to the present invention,

3 is a perspective view showing a carrier storage tank of the present invention,

4 is a flow chart showing the microbial detachment process of the biofilter type deodorizer according to the present invention.

Explanation of symbols on main parts of drawing

10: carrier storage tank 11: carrier

12 gas inlet line 13 gas outlet line

14: injector 15: drain

16: tally outlet 17: deodorization fan

21: water storage tank 22: water supply line

23: water supply pump 30: width pipe

40: aeration fan 50: differential pressure gauge

60: control unit

Claims (3)

delete A carrier storage tank (10) having a carrier (11) through which microorganisms can proliferate, a gas passing therethrough, and a drain hole (15); A water supply mechanism for supplying water to the carrier storage tank 10; A width pipe (30) provided inside the carrier storage tank (10) to generate bubbles below the carrier (11); An aeration fan 40 for supplying air to the aeration pipe 30; And a differential pressure gauge (50) for detecting a pressure difference between the gas flowing into the carrier storage tank and the discharged gas. Measuring a pressure difference between the gas flowing into the carrier storage tank 10 for propagating the microorganisms and the gas discharged; Filling the carrier reservoir 10 with water so that the carrier 11 is completely submerged when the measured pressure difference is greater than a predetermined value P0; An aeration step of desorbing microorganisms from the carrier 11 by supplying air to the bottom of the carrier 11 submerged in water; Discharging the microorganisms detached by aeration to the outside of the carrier storage tank (10).