KR100659673B1 - Purification Plant using Potosynthesis Bacterium and Optical Cable - Google Patents

Abstract

The present invention relates to a septic tank that naturally discharges oxygen by using photosynthetic bacteria and an optical cable to purify domestic sewage and sewage, and more specifically, has a sedimentation tank having an inlet and a contact medium into which an aerobic microorganism is introduced. In the septic tank divided into the aeration tank equipped with the photosynthetic bacteria and optical cables, the final sedimentation tank provided with the conveying pipe and the discharge tank provided with the discharge port, the aeration tank is a photo-synthetic bacteria with the aerobic microorganisms in the contact medium provided therein The lower end of the optical cable connected from the outside is installed adjacent to the upper end of the contact medium, the light from the optical cable is concentrated on the contact medium to efficiently maximize the activation of the photosynthetic bacteria injected into the contact medium to oxygen required for the aerobic microorganisms Supply The present invention relates to a septic tank using a photosynthetic bacterium and an optical cable, which is characterized in that the organic material in living sewage or sewage flowing into the septic tank is decomposed and processed without energy consumption.

Photosynthetic bacteria, optical cables, aerobic microorganisms, sedimentation tanks, aeration tanks

Description

Purification Plant using Potosynthesis Bacterium and Optical Cable

1 is a schematic cross-sectional view of a septic tank according to the present invention

Figure 2 is an enlarged cross-sectional schematic view of a portion where an optical cable according to the present invention is installed

3 is a schematic cross-sectional view of a conventional septic tank

          <Description of the code | symbol about the principal part of drawing>

1, 1 ': septic tank

10, 10 ': sedimentation tank 11, 11': aeration tank

11a, 11a ': first aeration chamber 11b, 11b': second aeration chamber

12, 12 ': Oni sedimentation chamber 13, 13': Final sedimentation tank

14, 14 ': discharge tank 15, 15': inlet

16, 16 ': outlet 17, 17': partition

18, 18 ': contact medium 19: solar heat collecting plate

20: heat exchanger 21: pump

22, 22 ': carrier pipe 23: optical cable

24: optical cable protector 25, 25 ': manhole

26: lens 27: transparent cover
28: Flexible wrinkle tube 29, 29 ': Hurenji
30: light bulb 40 ': blow
41 ': air inlet pipe 42': diffuser

100, 100 ': aerobic microorganism 101: photosynthetic bacteria

The present invention relates to a septic tank that naturally discharges oxygen by using photosynthetic bacteria and an optical cable to purify domestic sewage and sewage, and more specifically, has a sedimentation tank having an inlet and a contact medium into which an aerobic microorganism is introduced. In the septic tank divided into the aeration tank equipped with the photosynthetic bacteria and optical cables, the final sedimentation tank provided with the conveying pipe and the discharge tank provided with the discharge port, the aeration tank is a photo-synthetic bacteria with the aerobic microorganisms in the contact medium provided therein The lower end of the optical cable connected from the outside is installed adjacent to the upper end of the contact medium, the light from the optical cable is concentrated on the contact medium to efficiently maximize the activation of the photosynthetic bacteria injected into the contact medium to oxygen required for the aerobic microorganisms Supply The present invention relates to a septic tank using a photosynthetic bacterium and an optical cable, which is characterized in that the organic material in living sewage or sewage flowing into the septic tank is decomposed and processed without energy consumption.

In general, currently used septic tanks are partitioned in cylindrical tanks so that each space has an interlocking and independent function to decompose and clean organic substances in anaerobic or aerobic microorganisms among the sewage contained in domestic sewage and sewage. The discharge structure is divided into sedimentation tank and aeration tank. Among the two functions of the septic tank, the aeration tank activates aerobic microorganisms and quickly decomposes organic materials. It is the most important part for the treatment and the performance of the septic tank is determined by the processing capacity of the aeration tank.

As an example of such a conventional septic tank, the septic tank 1 'shown in FIG. 3 is provided with a plurality of partitions 17' inside the septic tank body formed of a cylindrical tank, and has a settling tank 10 'provided with an inlet 15'. ), A final aeration tank 13 'having a first aeration chamber 11a' and a second aeration chamber 11b ', a final settling tank 13' provided with a conveying pipe 22 ', and a discharge outlet 16 ') Is provided as a discharge tank (14'), the first aeration chamber (11a ') and the second aeration chamber (11b') is a contact medium in which the aerobic microorganism (100 ') is put therein 18 'is provided to supply air for activation of the aerobic microorganism 100' by a normal blower 40 'installed on the outside of the blower 40'. 41 ') and the diffuser 42' blow air into the first aeration chamber 11a 'and the second aeration chamber 11b'.
The septic tank 1 'configured as described above biologically collects organic matter in living sewage or sewage as anaerobic microorganisms while precipitating sediment in living sewage or sewage introduced through the inlet 15' of the sedimentation tank 10 '. The organic material in the living sewage or sewage flowing into the first and second aeration chambers 11a 'and 11b' is gradually decomposed, and the aerobic microorganism 100 'surviving in the contact medium 18' is blown ( 40 ') sequentially decomposes biologically through the first aeration chamber 11a' and the second aeration chamber 11b 'using oxygen supplied through the air inlet 41' and the diffuser 42 '. The organic material of living sewage or sewage which has not been decomposed in the first and second aeration chambers 11a 'and 11b' and has passed to the final settling tank 13 'is precipitated and precipitated in the sludge settling chamber 12 The sludge is returned to the settling tank 10 'and the first and second aeration chambers 11a' and 11b 'again through the return pipe 22'. Only the purified while repeating the positive and the final purification process via the "outlet (16) discharging tank 14, the supernatant is discharged.

However, the aeration tank 11 'uses aerobic microorganisms 110' so that organic matter contained in domestic sewage or sewage can be quickly decomposed. The aerobic microorganisms 110 'cannot survive when oxygen supply is stopped. Since the blower 40 'must be continuously operated to blow in new air, problems such as high energy consumption and frequent failures and noises occur.

Therefore, a phenomenon of avoiding the use of the blower 40 'having these problems occurs, and the purification process is performed while the blower 40' is not in operation. Discharge causes environmental pollution.

The present invention is to solve such a conventional problem, using a photosynthetic bacteria and optical cables, but instead of using a blower with a lot of energy and problems such as noise, photosynthetic bacteria to the contact media into which aerobic microorganisms are injected By putting together and installing the optical cable to intensively irradiate the light from the upper contact medium by activating the photosynthetic bacteria by the light irradiated through the optical cable is efficiently maximized oxygen supply to the aerobic microorganism is smoothly introduced into the septic tank Its purpose is to enable environmentally friendly decomposition and treatment of organic substances in domestic sewage or sewage with low energy consumption.

In order to achieve the above object, a sedimentation tank equipped with an inlet and a contact medium into which an aerobic microorganism is introduced are provided, and an aeration tank equipped with a photosynthetic bacterium and an optical cable and a final settling tank equipped with a return pipe and a discharge tank equipped with a discharge port are divided. In the septic tank, the photosynthetic bacteria are injected into the contact medium provided therein together with aerobic microorganisms, but the lower end of the optical cable connected from the outside is adjacent to the upper end of the contact medium so that light from the optical cable is connected to the contact medium. It is a feature of the present invention that it is to maximize the activation of photosynthetic bacteria injected into the contact medium by intensive irradiation.

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Hereinafter, the preferred configuration according to the present invention will be described in detail with reference to the drawings.

The septic tank 1 according to the present invention uses the photosynthetic bacteria 101 and the optical cable 23 as shown in FIGS. 1 and 2 so that the oxygen supply to the aerobic microorganism 100 is made smoothly, and the living sewage flows in. The organic material in the sewage is decomposed and discharged in an environmentally friendly manner with low energy consumption. The interior of the septic tank body, which is a cylindrical tank, is divided by a plurality of partitions 17, so that the settling tank 10 and the first aeration chamber are discharged. The aeration tank 11 which consists of 11a and the 2nd aeration chamber 11b, the final precipitation tank 13, and the discharge tank 14 is comprised.
The sedimentation tank 10 has an inlet 15 is formed so that the living sewage or sewage containing organic substances into the septic tank 1 is introduced from the outside, and the sedimentation tank ( 10, the organic material which is primarily decomposed and precipitated and not decomposed by the conventional anaerobic microorganisms present within the partition 17 passes through the first aeration chamber 11a and the second aeration chamber 11 of the aeration tank 11. 11b).

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The aeration tank 11 includes a first aeration chamber 11a and a second aeration chamber 11b, and the first aeration chamber 11a and the second aeration chamber 11b are respectively aerobic microorganisms 100. And the photosynthetic bacteria 101 is provided with a contact medium 18 that can be dwelling together and grow, but the lower end of the optical cable 23 connected from the outside is installed adjacent to the upper end of the contact medium 18 is the optical cable ( The light from 23 is intensively irradiated on the contact medium 18 to efficiently maximize the activation of the photosynthetic bacteria 101 injected into the contact medium 18 to smoothly supply oxygen for the aerobic microorganism 100. As described above, the aerobic microorganism 100 is biologically decomposed to the organic material in the living sewage or sewage which has not been precipitated by the sedimentation tank 10 by the continuously supplied oxygen.
In general, the photosynthetic bacteria 101 are configured to generate oxygen in the process of photosynthesis with carbon dioxide and light energy in water, and the aerobic microorganism 100 breathes with oxygen, decomposes organic substances, and carbon dioxide in the process. In order to generate water and water, the conditions in which the photosynthetic bacteria 101 and the aerobic microorganisms 100 coexist in the aeration tank 11 are semi-permanent without energy consumption, failure, and noise. It is to provide a septic tank (1) for purifying the domestic sewage and sewage in an environmentally friendly way.

The optical cable 23 is provided in the long cylindrical optical cable protection tube 24 as shown in Figure 2 and the upper end of the optical cable protection tube 24, the lower end of the flexible wrinkle tube 28 which can move up, down, left and right, Hurenji ( 29 is fastened to a position where the sunlight is best received, so that a lot of light is introduced into the first aeration chamber 11a and the second aeration chamber 11b through the optical cable 23, The lower portion of the optical cable protection tube 24 is formed with a flange 29 'on an outer circumferential surface thereof, so that the flange 29 is manhole 25 while the optical cable protection tube 24 is penetrated through the manhole 25 of the septic tank 1. The lower end of the optical cable 23 is stably installed to the upper end of the contact medium 18 provided in the first aeration chamber 11a and the second aeration chamber 11b.

A spherical transparent cover 27 through which sunlight passes well is attached to the upper end of the flexible corrugated pipe 28 provided at the upper end of the optical cable protection tube 24, and the inner lower portion of the transparent cover 27 collects sunlight. The lens 26 is inserted so that the light passing through the transparent cover 27 is collected by the lens 26 and concentrated on the upper end of the optical cable 23 to increase the light supply efficiency.

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In addition, the inner side of the transparent cover 27 is a conventional light bulb 30 is installed so that it is possible to continuously supply light through the optical cable 23 during the rain or rain at night without sunlight.
On the other hand, the first aeration chamber (11a) is provided with a heat exchanger 20 therein, the heat exchanger 20 is in communication with the solar heat collecting plate 19 installed on the ground is collected in the solar heat collecting plate (19) Heat is circulated to the heat exchanger 20 by the pump 21 to reduce the change in the water temperature even during seasonal fluctuations to activate the aerobic microorganism 100 so that the secondary decomposition treatment in the aeration tank 10 is smoothly performed. .
In addition, the aeration tank 11 according to the present invention can also be divided into several aeration chambers according to the load fluctuations of domestic sewage or sewage.

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The final sedimentation tank 13 is a sludge settling chamber 12 is formed in the lower inner side so that the organic material of living sewage or sewage that has not been decomposed through the aeration tank 11 is precipitated in the sludge settling chamber 12. The precipitated sludge is returned to the settling tank 10, the first aeration chamber 11a, and the second aeration chamber 11b again through a normal conveying pipe 22 installed at the upper part of the sludge settling chamber 12. The same process is repeated to purify.

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The discharge tank 14 is provided with a discharge port 16 to discharge the supernatant water having been purified through the final settling tank 13 to a stream or the like through the discharge port 16.

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Hereinafter, the septic tank 1 according to the present invention will be described sequentially from the first inflow of domestic sewage or sewage to the process of purification and final discharge.

Living sewage or sewage introduced from the outside through the inlet 15 provided in the sedimentation tank 10 of the present invention is an anaerobic microorganism inside the sedimentation tank 10 while sedimentation and separation of organic matter that is contained in the living sewage or sewage The organic material in living sewage or sewage, which is first decomposed and precipitated and decomposed by water, flows into the first aeration chamber 11a and the second aeration chamber 11b of the aeration tank 11 beyond the partition 17.

The living sewage or sewage introduced from the sedimentation tank 10 is in contact with the sunlight supplied from the optical cable 23 provided in the first aeration chamber 11a and the second aeration chamber 11b or the light of the bulb 30. Directly irradiated to the photosynthetic bacteria 101 injected into the filter medium 18 to maximize the generation of oxygen through the photosynthesis action and is injected into the contact filter 18 together with the photosynthetic bacteria 100 by using the generated oxygen As the aerobic microorganism 100 is activated, the organic material in living sewage or sewage is efficiently secondaryly treated.

In addition, the heat exchanger 20 is installed in the first aeration chamber 11a to maintain the aerobic microorganisms 100 stably even when the water temperature changes in the season, so that the heat collected from the solar heat collecting plate 19 is pumped 21. By circulating through the heat exchanger 20, the water temperature of the first aeration chamber 11a is constantly warmed, thereby reducing the change in the water temperature even under seasonal fluctuations, thereby activating the aerobic microorganism 100, thereby allowing the secondary in the aeration tank 10. Ensure that the decomposition process is smooth.

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Organic materials of household sewage or sewage which are not decomposed in the first aeration chamber 11a and the second aeration chamber 11b are precipitated in the sludge settling chamber 12 of the final settling tank 13 and the sludge is returned. It is conveyed back to the sedimentation tank 10, the 1st aeration chamber 11a, and the 2nd aeration chamber 11b through the pipe 22, and it purifies and repeats the same process as the first time, and discharges through the said final sedimentation tank 13 The purified supernatant that has passed to the tank 14 is discharged to the stream through the discharge port 16.

As described above, according to the present invention, the oxygen supply method required by the aerobic microorganisms in the aeration tank in the process of biologically decomposing, purifying, and discharging organic substances contained in domestic sewage or sewage, while consuming a lot of energy, etc. Instead of using a blower with the problem of using photosynthetic bacteria and optical cables, but by adding the photosynthetic bacteria to the contact media into which aerobic microorganisms are injected, and by installing the optical cable so that light is intensively irradiated from the upper part of the contact media. The light irradiated through the optical cable maximizes the activation of photosynthetic bacteria efficiently to ensure the oxygen supply for aerobic microorganisms, and it is possible to eco-friendlyly decompose organic sewage or sewage into the septic tank with less energy consumption.And also it has the effect of tank that is used in conventional as well as where to process the sewage, such as the kitchen or sewage treatment plants in the home or restaurants wherever it can easily be used to preserve the natural environment.

Claims (4)

The inside of the septic tank body, which is a cylindrical tank, is divided by a plurality of partitions, and has a sedimentation tank equipped with an inlet port, a contact medium into which aerobic microorganisms are introduced, and an aeration tank equipped with photosynthetic bacteria and an optical cable, a sludge settling chamber and a conveying pipe. The final sedimentation tank and the discharge tank provided with a discharge port, in the septic tank in which the organic material in the living sewage or sewage flowing through the inlet is decomposed step by step, the aeration tank 11 is inside The photosynthetic bacteria 101 together with the aerobic microorganism 100 are injected into the provided contact media 18, but the lower end of the optical cable 23 connected from the outside to the upper end of the contact media 18 is installed to be adjacent to the optical cable. Photosynthesis injected into the contact media 18 while light from 23 is concentrated on the contact media 18 Maximize the activation of the bacteria 101 to facilitate the oxygen supply to the aerobic microorganism 100, the optical cable 23 is provided in the long cylindrical optical cable protective tube 24 and the optical cable protective tube 24 is A flexible corrugated pipe 28 that is movable up, down, left, and right at the upper end is adjustable so that a lot of light can be introduced into the aeration tank 11 through the optical cable 23, and a flange 29 'is formed on the lower outer peripheral surface of the septic tank ( Hurenji 29 'is fastened to the manhole 25 of 1) to be stably installed in the upper end of the optical cable 23 in the upper end portion of the contact medium 18 provided in the aeration tank 11, A spherical transparent cover 27 through which sunlight passes well is attached to the upper end of the flexible corrugated tube 28, and a lens 26 for condensing sunlight is inserted into an inner lower portion of the transparent cover 27. A light tank using a photosynthetic bacteria and an optical cable, wherein the light passing through the transparent cover 27 is focused by the lens 26 and concentrated on the upper end of the optical cable 23. According to claim 1, The transparent cover 27 is a light bulb 30 is installed inside the photosynthesis is to be able to continuously supply light through the optical cable 23 during the rain or rain at night without sunlight Septic tank using bacteria and optical cables. delete According to claim 1, wherein the aeration tank 11 is provided with a heat exchanger 20 therein, the heat exchanger 20 is in communication with the solar heat collecting plate 19 is installed on the ground is collected in the solar heat collecting plate (19) The heat is circulated to the heat exchanger 20 by the pump 21 to exchange heat with the living sewage in the aeration tank 11 to reduce the water temperature change in the aeration tank 11 to activate microorganisms and to decompose the aeration tank 10. Septic tank using a photosynthetic bacteria and optical cable, characterized in that to be made smoothly.

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