KR101113083B1 - recycling type no discharge excretion handling establishment - Google Patents

Abstract

PURPOSE: A circulating type non-dischargeable excrement treating apparatus is provided to reduce the generating amount of sludge and prevent the generation of bad odor by self-purifying excrements and wastewater and recycling the self-purified products. CONSTITUTION: A circulating type non-dischargeable excrement treating apparatus includes a flush toilet, an anaerobic reservoir(10), an aerobic bio-reactor(20), a water storage adjusting bath(30), an organic material annihilating reactor(40), a pump well(46), a highly treating bath(50), a second flux adjusting bath(60), a bio reactor(70), other pump well(77), a decoloration and sterilization-based filtering bath(80), and a treated water storing bath(90). The anaerobic reservoir includes a transferring pump. The aerobic bio-reactor includes a first reactor and a first filter. The flux adjusting bath stores treated water from the aerobic bio-reactor and stabilizes the stored water. The organic material annihilating reactor includes a wood-chip layer and an air diffuser. The pump well stores treated water from the organic material annihilating reactor. The highly treating bath includes a second reactor and a second filter.

Description

Recycling type no discharge excretion handling establishment

The present invention relates to a circulating non-discharge manure treatment device, and more particularly to a circulating non-discharge manure treatment device for self-purifying and recycling manure and sewage discharged from the toilet.

A conventional general manure treatment device is registered in Korean Patent Application Publication No. 10-0992080 (November 04, 2010). As described in the background art of a conventional manure treatment device, the water is not installed in the mountain. Public toilets installed in mountain huts, temples, hiking trails, riversides, beaches, trails, or other campsites have a self-cleaning, circulation-free flush toilet that has its own purification ability due to the supply of toilet lavatory water, odor, water quality, and environmental pollution. Although most of the toilets are still active, most of them are naturally fermented and foamed toilets, which avoids the use of toilets due to unpleasant odors and insect breeding depending on the season, and is also discharged from public toilets. Discharged unpurified or flooded by rivers or valleys It also seriously pollutes the water environment.

     The problem described above is similar in the case of a septic tank flush toilet equipped with a water and sewage pipeline, which not only acts as a secondary pollutant that worsens the quality of sewage as the manure and the treated water are discharged to the sewage pipe. Odor generated from the gas and backflow of various gases, but recently recognized as a cultural space has become a fatal problem in creating a comfortable toilet environment, and also has a lot of difficulties in the maintenance of the toilet.

     In particular, in the case of flush toilets, in order to solve the problems as described above, in the toilets under the condition where the water and sewage pipeline is not provided, the discharged manure and manure that can be recycled by itself without being discharged to the outside can be recycled. And sewage treatment facilities have been actively proposed, but the existing non-discharge circulation flush toilet has a sewage treatment facility installed in a limited space due to excessive operation load and unstable treatment system compared to the capacity of the sewage treatment facility and an error in the treatment system. As normal operation is difficult or the manure and sewage treated in each treatment tank is insufficient and unstable, the manure and sewage can be circulated while the final treated water is stored by circulating the sewage treatment facility without sufficient purification. Easy, severe in treated water Take it, or if the problem still remains that the color gray water exceeds water quality standards, including clear and not transparent offensive has to be realistic recycling process difficult.

Normally, related organizations such as K-water strongly recommend the use of heavy water as well as drinking water constants for water quality management, water resource protection and efficient use.

As such, the water quality of heavy water prescribed in the relevant regulations cannot be used as heavy water because odors or odors occur in the water, turbidity of color, or transparency decreases.

Currently, the water quality of heavy water recycled by self-purification in the zero discharge circulation public toilet should completely remove the color and odor in addition to the removal of organic matter and nitrogen, but natural wood media such as wood chips used in the process of manure and sewage. If the natural lignin pigment component eluted from is not completely removed due to the lack of removal technology or the organic matter, nitrogen and phosphorus are not sufficiently purified, the natural lignin pigment component is supplied to the toilet water and is supplied to the toilet water. In addition to the dark red color in addition to corrupt and severe odors to avoid the use of the toilet in fact to stop the operation of the toilet or to close the public toilet at all.

In the treatment of manure and sewage discharged from public toilets, technology to remove bad odors, technology to purify unclean sewage color to clear and clear water level, sterilization technology to remove harmful pathogens, and eutrophication agents included in sewage Nitrogen, phosphorus and perishable organics removal technologies must be solved comprehensively, but the sewage treatment devices applied to the public toilets currently installed do not completely solve the above-mentioned problems.

For example, the existing zero-flow circulation flush toilet, which is installed and operated, is initially treated to a level where the water quality of the treated water reaches a heavy water standard, but as the repetitive circulation continues, the water quality of the treated water is colored, odorous, organic suspended solids, etc. Because of the extremely poor problem occurs due to the accumulation of a lot of problems in the operation of the toilet, such as frequently replacing the treated water or media in the reaction tank (water tank) or supplying clear water from the outside to lower the pollution concentration of water quality. Due to these reasons, the discharge-free flush toilet sewage treatment system and facilities are far short of remarkable levels.

     Accordingly, Patent Publication No. 10-0992080 discloses a manure and sewage treatment apparatus for purifying manure and sewage discharged from a portable toilet to be installed in a toilet space to remove manure and sewage. A flush toilet to generate; An anaerobic storage tank installed at the bottom of the flush toilet and including a transfer pump controlled by the main circuit controller to be driven when the manure and sewage discharged from the flush toilet reach a predetermined level; The first reactor and the intermittent aeration device installed in the lower portion of the first reactor is connected to the anaerobic reservoir and filled with a medium for culturing the microorganisms while being installed in an equilibrium form on any structure, separated from the toilet space flush toilet. Including a first filter filled with a filter medium for filtering the treated water while treating the organic suspended matter and nitrogen, phosphorus, which is a cause of eutrophication, by aeration method by the aeration method, and through the first filter An aerobic bioreactor for discharging the treated water; It is separated from the toilet space flush toilet and is installed in an equilibrium form on any structure, and the treated water discharged from the aerobic bioreactor is stored in anaerobic anaerobic state and stabilized while denitrifying the stored treated water, and the water level attached to the inner wall. A flow rate adjusting tank having a transfer pump controlling a flow rate while controlling a driving time in response to sensing of the sensing sensors; The wood chip layer, which is separated from the toilet space flush toilet, is installed in an integral structure and connected to the flow regulating tank and filled therein, the heating means for maintaining a constant temperature of the wood chip layer, and the wood chip layer. And an air disperser for intermittently supplying air, wherein the sewage conveyed by the feed pump of the flow adjusting tank is sprayed onto the wood chip layer by the water spray nozzle, while the manure and the sewage pass through the wood chip layer to the adsorbed water. An organic material extinction reaction tank for discharging the leachate after decomposing and removing the organic materials and various suspended substances contained therein; A pump well having a transfer pump which is distinguished from the toilet space flush toilet and is installed in an equilibrium form on an integral structure and operates when the water reaches a predetermined level while storing the treated water discharged from the organic material extinction reaction tank; The second reactor, which is separated from the toilet space flush toilet, is installed in an equilibrium form on an integral structure, so that the treated water discharged from the pump well connected to the organic material extinguishing reaction tank is introduced, and the oyster shell and the advanced treatment medium are filled therein. Filtration media for physically filtration of the effluent while removing organic components and nitrogen, phosphorus, color, odor, etc. physically and biologically by contact aeration with the media by an intermittent aerator installed at the bottom of the second reactor. An advanced treatment tank including a second filter filled with; An anaerobic storage tank, which is separated from the toilet space flush toilet, is installed in an equilibrium form on any structure, and returns the treated water to the anaerobic storage tank or an aerobic bioreactor while being connected to the advanced treatment tank while depositing the treated water in an anoxic state. A settling reservoir conveying tank having an air lift connected to the aerobic bioreactor, an air pump for intermittently blowing air into the air lift to float the sediment onto the air lift, and a transport pump for transporting the stored treated water; Processed by the transfer pump of the sedimentation storage transport tank and the wood chip layer filled with wood chips and connected to the sedimentation storage transport tank is installed in an equilibrium form on the integral structure separated from the toilet space flush toilet and the wood chip layer A bioreactor for dissolving and removing organic suspended solids remaining in the treated water passing through the wood chip layer and dissolving and removing nitrogen, phosphorus, color, and odor after the watering device for sprinkling water; A pump well having a transfer pump which is separated from the toilet space flush toilet and is installed in an integral form in an integral structure to store the treated water discharged from the bioreactor and is operated when the water level reaches a predetermined value; The toilet is separated from the toilet space flush toilet and is installed in a unitary structure in an equilibrium form, the lower part of the first chamber and the second chamber connected to the pump well are connected to the pump chamber, and the treated water discharged from the bioreactor is in the first chamber. A depigmentation filtration tank which is introduced and provided with a sterilization apparatus for removing chromaticity and various harmful components and pathogens of the treated water, and the second chamber is filled with a disinfection decolorizing filter to discharge and discolor the treated water; A water supply pump for storing the treated water discharged from the depigmentation filtration tank and supplying the stored treated water to the toilet while being installed in an equilibrium form in a separate structure separated from the toilet space flush toilet, The configuration of a portable eco-friendly toilet equipped with an unpaid water free circulation flush advanced treatment device, characterized in that it consists of a treated water storage tank equipped with an over-water discharge pipe to be discharged to the outside.

     However, the prior art as described above still has a large amount of sludge generation, odor is not sufficiently removed, and even after installation, water must be replenished in water and sewage frequently, maintenance is complicated, maintenance costs are expensive.

Therefore, the present invention has been devised to solve the above problems, the amount of sludge generated is very small, there is no bad smell, it is possible to circulate reuse by treating the manure sewage with water supply at high water once installed. It is an object of the present invention to provide a remarkably circulating, zero discharge manure treatment device that is free of pollution, no water and sewage facilities, easy maintenance, and low cost.

In the non-circulating discharged manure treatment device for purifying the manure and sewage discharged from the toilet, the manure treatment device is a flush toilet installed in the toilet, anaerobic storage tank (10) and the anaerobic storage tank (10) Aerobic biological reaction tank 20 to be connected, the flow rate adjusting tank 30 connected to the aerobic biological reaction tank, the organic material extinction reaction tank 40 connected to the flow rate adjusting tank, the pump well 46 and the advanced treatment tank 50 ), The second flow rate adjustment tank 60, the bioreaction tank 70, the pump well (77), the depigmentation filtration tank 80 and the treated water storage tank 90 is characterized in that it comprises a.

In the present invention, the sludge generation amount is very small, there is no odor, and it is possible to circulate and reuse the manure sewage by water supply once installation, and there is no pollution of the surrounding environment with no discharge of manure sewage, no water and sewage equipment is necessary, maintenance There is a remarkable effect that it is simple and inexpensive.

1 is a configuration of the present invention circulation type dischargeless manure treatment device
Figure 2 is a layout diagram of the anaerobic storage tank of the present invention circulation type no discharge manure treatment device
Figure 3 is a layout diagram of aerobic bioreactor of the present invention circulation-free manure treatment device
Figure 4 is a flow chart of the flow regulating tank of the present invention circulating non-discharge manure treatment device
5 is a layout view of the organic material decay reaction tank of the present invention circulating non-discharge manure treatment device
6 is a layout diagram of an advanced treatment tank of the present invention circulation-free discharge manure treatment device
Figure 7 is a layout diagram of the second flow rate adjustment tank of the present invention circulation-free discharge manure treatment device
8 is a layout view of the bioreactor of the present invention circulation-free manure treatment device
Figure 9 is a layout of the depigmentation filtration tank of the present invention circulation-free discharge manure treatment device
10 is a layout view of the treatment water storage tank of the present invention circulation-free discharge manure treatment device
11 is a layout of the pump well 46 of the present invention circulating no discharge manure treatment device
12 is a layout of the pump well (77) of the circulation-free discharge manure treatment device of the present invention

The present invention relates to a circulating non-discharge manure processing device, in a circulating non-discharge manure processing device for purifying manure and sewage discharged from the toilet, the manure treatment device is a flush toilet installed inside the toilet, Anaerobic storage tank 10, an aerobic biological reaction tank 20 connected to the anaerobic storage tank 10, a flow control tank 30 connected to the aerobic biological reaction tank, and the organic material extinction reaction tank 40 connected to the flow control tank And, the pump well 46, the advanced treatment tank 50, the second flow rate adjustment tank 60, the bioreaction tank 70, the pump well 77, the depigmentation filtration tank 80 and the treated water storage tank 90. It is characterized by including.

     In addition, the anaerobic storage tank is characterized in that it comprises a transfer pump controlled by the main circuit control device to be driven when the manure and sewage discharged from the flush toilet reaches a certain level while being installed under the flush toilet.

     In addition, the aerobic bioreactor 20 is connected to the anaerobic storage tank is a physical, by the aeration method by the first reactor and the intermittent aeration device installed in the lower portion of the first reactor filled with the medium for culturing culture of microorganisms, It comprises a first filter filled with a filter medium for filtering the treated water while treating biologically suspended organic matter and eutrophication material nitrogen, phosphorus, etc., characterized in that the treated water is discharged through the first filter do.

     In addition, the flow rate adjustment tank 30 stabilizes the treated water discharged from the aerobic bioreactor 20 in an anaerobic anaerobic state while denitrifying the stored treated water and responds to sensing of the water level detection sensors attached to the inner wall. It characterized by having a transfer pump for controlling the flow rate while the drive time is controlled.

     In addition, the organic material extinction reaction tank 40 includes a wood chip layer filled therein and connected to the flow rate adjustment tank 30, and an air diffuser for intermittently supplying air to the wood chip layer, the flow rate adjustment tank 30 The sewage transported by the transfer pump of the water is sprayed onto the wood chip layer by the water spray nozzle, while decomposing and removing the organic matter and the various suspended substances contained in the treated water while the manure and the sewage are adsorbed through the wood chip layer. Characterized in that.

     In addition, the pump well 46 is characterized by having a transfer pump that operates when the predetermined water level is reached while storing the treated water discharged from the organic material extinction reaction tank (40).

     In addition, the advanced processing tank 50 is connected so that the treated water discharged from the pump well 46 connected to the organic material extinguishing reaction tank 40 is introduced, and the advanced processing medium having the oyster shell and inorganic mineral components as a main raw material therein The effluent is physically filtered while the second reactor and the intermittent aerator installed at the bottom of the second reactor remove physical and biological organic components and nitrogen, phosphorus, color, and odor by contact aeration with the media. It characterized in that it comprises a second filter filled with a filter medium for filtration.

     In addition, the second flow rate adjustment tank 60 stores the treated water discharged from the advanced processing tank 50, stabilizes the stored treated water, and controls the driving time in response to sensing of the water level detection sensors attached to the inner wall. It is characterized by having a transfer pump for controlling the flow rate.

     In addition, the bioreactor 70 is connected to the second flow adjustment tank 60, the wood chip layer filled with wood chips, and the treated water transferred to the wood chip layer by the transfer pump of the second flow adjustment tank 60. Equipped with a watering device for sprinkling and decomposing and removing the organic suspended solids and nitrogen, phosphorus, chromaticity, and odor remaining in the treated water passing through the wood chip layer is characterized in that to discharge the leachate.

     And, the pump well (77) is characterized by having a transfer pump that stores the treated water discharged from the bioreactor 70, and is operated when the water level reaches a certain value.

     In addition, the decolorization and disinfection filtration tank 80 is connected to the pump well 77, the lower compartment of the first chamber and the second compartment is connected, the treated water discharged from the bioreactor 70 is introduced into the first chamber The second chamber is filled with a disinfection discoloration filter and is discharged while decolorizing the treated water.

     In addition, the treatment water storage tank 90 is a water supply pump for storing the treated water discharged from the depigmentation filtration tank 80 and supplying the stored treated water to the toilet, and over discharge the excess water introduced to the outside Characterized in that consisting of the treatment water storage tank 90 provided by the water discharge pipe.

     In addition, a rainwater storage tank having a wide inlet of a metal or plastic material capable of receiving rainwater rain is installed on the roof of the circulationless dischargeless manure treatment device, and a pipe is connected to the treatment water storage tank 90 in the storage tank. In, the rainwater is characterized in that it is introduced into the treated water storage tank.

     In addition, an electric shut-off valve is installed between the rainwater storage tank and the treated water storage tank, when the level of the treated water storage tank is lower than the set water level, the water level sensor installed inside the treated water storage tank detects this, and sends a signal to the control panel. When sent, the electric opening and closing valve is opened by a signal from the control panel, the rainwater stored in the usual flows into the treated water storage tank, the operation is stopped when the set water level is reached.

     In addition, an emergency operation pump is installed in the treated water storage tank, and the emergency operation pump is connected by an anaerobic storage tank and a pipe, so that even if the anaerobic storage tank 10 does not reach a predetermined level, a certain time passes, Operated by, characterized in that the circulation type discharge free manure treatment device is circulated.

     In addition, an emergency operation pump is installed in the treatment water storage tank, and the emergency operation pump is connected by an anaerobic storage tank and a pipe, so that even if the anaerobic storage tank 10 does not reach a predetermined level, the toilet internal temperature or toilet bowl When the pipe temperature or the treated water storage tank temperature is lower than the set temperature, it is forcibly operated to circulate the circulation type dischargeless manure treatment device.

     The present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram of the circulatory non-discharge manure treatment device of the present invention, Figure 2 is an anaerobic storage tank layout of the circulatory non-discharge manure treatment device of the present invention, Figure 3 is a layout diagram of aerobic biological reaction tank of the circulating non-discharge manure treatment device of the present invention, Figure 4 is a flow chart of the flow regulating tank of the present invention circulating zero discharge manure treatment device, Figure 5 is a layout view of the organic matter decay reaction tank of the present invention circulating non-discharge manure treatment device, Figure 6 is an advanced treatment of the circulation-free discharge manure treatment device of the present invention Arrangement of the tank, Figure 7 is a second flow rate adjustment tank arrangement of the circulation-free discharge manure treatment device of the present invention, Figure 8 is a bioreactor layout of the circulation-free discharge manure treatment device of the present invention, Figure 9 is a circulation-free discharge manure treatment of the present invention FIG. 10 is a layout view of the decolorization and filtration tank of the apparatus, and FIG. 10 is a layout view of the treatment water storage tank of the circulatory dischargeless manure treatment device of the present invention, and FIG. This is a layout of the pump well 77 of the circulation-free discharge manure treatment device of the present invention.

     The present invention relates to a circulating non-discharge manure treatment device, and in particular, a sewage treatment device is installed in a mobile toilet, that is, a container-type integrated mobile structure, and implements a mobile eco-friendly water-free, discharge-free pure flush toilet. In the non-circulation type dischargeless manure treatment device for purifying manure and sewage, the manure treatment device is a flush toilet installed in the toilet, an anaerobic storage tank (10), and aerobic organisms connected to the anaerobic storage tank (10) Reactor 20, flow rate adjustment tank 30 connected to the aerobic bioreactor, organic matter extinction reaction tank 40 connected to the flow rate adjustment tank, pump well 46, advanced treatment tank 50, second It includes a flow rate adjusting tank 60, a bioreactor 70, a pump well 77, a depigmentation filtration tank 80 and the treated water storage tank (90).

     The anaerobic storage tank includes a transfer pump controlled by the main circuit controller to be installed when the manure and filthy water discharged from the flush toilet reaches a predetermined level while being installed under the flush toilet.

     The anaerobic storage tank 10 is a water tank in which manure and sewage discharged from the toilet are introduced and stored, and the manure and sewage discharged from the flushing toilet 1b are decomposed by anaerobic digestion in an anaerobic state (anaerobic state). Anaerobic digestion means that anaerobic bacteria or microorganisms use oxygen in organic compounds and oxygen in compounds such as nitrites, nitrates, and sulfates to decompose organic matter in the anaerobic state, and generate methane gas, carbon dioxide, and hydrogen sulfide as by-products. Through anaerobic digestion, the sludge becomes stable and easy to treat, reducing its capacity.

     The anaerobic storage tank 10 is filled with a certain amount of water, and mineral media and plastic media or natural mineral media such as oyster shells and porous volcanic stones (not shown) are required to increase the activity of anaerobic microorganisms in water. A certain amount is filled, and the water level sensor 11 is attached to a predetermined position of the tank in order to discharge a predetermined amount of flow in response to the inflow amount of manure, and a cutter capable of cutting and grinding the stored solid content. The provided cutter pump 12 is installed.

     The water level detection sensor 11 is electrically connected to the main circuit control device (MCC), the electrical signal is transmitted to the main circuit control device (MCC) by the sensing of the water level detection sensor 11 and the main circuit control device (MCC) Power is supplied to the cutter pump (12).

     The manure and the sewage stored in the anaerobic storage tank 10 by the cutter pump 12 are discharged along the transfer pipe 12a.

     In addition, around the cutter pump 12, the filtering net 14 is installed in the vertical direction to prevent excessively large solids from flowing into the filtering net 14 so that the inlet of the cutter pump 12 is not blocked and at the same time, the anaerobic storage tank ( It is preferable that the media (not shown) filled in 10) is not crushed by the cutter pump 12 or conveyed along the conveying pipe 12a.

     In addition, the discharge pipe 13 through which the manure and sewage generated from the flush toilet 1b of the toilet is discharged, constitutes a screen 16 on the upper portion of the anaerobic storage tank 10, and may be introduced into the manure and sewage. It is installed to filter degradable solid foreign matter.

Solids or other precipitates can be easily sucked by the cutter pump 12 and discharged through the transfer pipe 12a.

     In addition, the aerobic bioreactor 20 is connected to the anaerobic storage tank is a physical, by the aeration method by the first reactor and the intermittent aeration device installed in the lower portion of the first reactor filled with the medium for culturing culture of microorganisms, It includes a first filter filled with a filtering medium for filtering the treated water while treating biologically suspended organic matter and eutrophication, nitrogen, phosphorus and the like, and discharges the treated water through the first filter.

     As shown in FIG. 3, the aerobic bioreactor 20 is a tank for storing and treating manure and sewage, which are connected to the anaerobic storage tank 10 and transferred along the transfer pipe 12a connected to the cutter pump 12. Inside the tank, the first reactor 21 and the first filter 22 are attached to the wall surface so as to be spaced a predetermined space from the bottom surface.

     The first reactor 21 is a case 21a in which a porous plate is formed in a plate-shaped body made of a corrosion-resistant corrosion-resistant material such as plastic or stainless steel, and various kinds of microorganisms for providing a habitat for microorganisms in the case 21a. The media is filled.

     The various media filled in the first reactor 21 dissolve natural minerals or waste synthetic resins having micropores, such as biowood chips in which microorganisms are cultivated, bioblocks that are microbial fixative strains, burned coal agglomerates, and volcanic stones, and have a rough surface. As a synthetic resin mediator having a large amount of fine grooves, the mediators may be alternatively or mixed.

     The lower part of the first reactor 21 is provided with a first aeration device 23. As shown in FIG. 11, the first aeration device 23 includes an air pump 23a intermittently controlled by the main circuit controller MCC, and an diffuser 23b connected to the air pump 23a by piping. Consists of.

     When the air pump 23a is driven, air is discharged from the diffuser 23b so that the inside of the water tank is exhaled. In the aerobic state, as the air contacts the surface of the media filled in the first reactor 21 through the pores formed in the case 21a, the nitrification of the aerobic microorganisms parasitic in the media is activated, and the nitrification reaction is activated, and the air pump 23a At the stop, the aerobic bioreactor 20 becomes anoxic and undergoes denitrification.

Aerobic bioreactor 20 is an exhalation state, the ammonium nitrogen contained in the wastewater (NH ₄ ⁺ -N) is a nitrite nitrogen (NO ₂ ^- N ^-) is converted to, nitrite nitrogen (NO ₂ ^{- -} N) is The nitrification reaction, which is then converted to nitrate nitrogen (NO ₃ ^-- N), proceeds. A microorganism fungus nitro consumption eggplant (Nitrosomonas), nitro bakteo (Nitrobacter) involved in nitrification, nitrification reaction of the nitro consumption eggplant bacteria ^{_{NH 4 + + 3/2 O 2 →}} NO 2 - + And H ₂ O ⁺ 2H +, nitrifying reaction of the nitro bakteo bacteria NO ₂ ^{+ +} 1/2 O ₂ ^- → NO ₃ ^- proceeds.

     When the tank is in aerobic state, the microorganism oxidizes the substrate stored in the cell to obtain energy for the bioreaction, and uses the same to reabsorb the released phosphoric acid to store it in the cell in the form of polyphosphoric acid.

On the contrary, when the water tank is anoxic, denitrification microorganisms proceed with denitrification to release N ₂ and fly away into the atmosphere. The microorganisms hydrolyze polyphosphoric acid in cells to release phosphoric acid.

     Phosphorus released in the anaerobic state is fed to the microorganisms in aerobic state, at which time the excess phosphorus intake of the microorganisms and adsorbed by the media filled in the first reactor 21 may be removed.

In addition, the media filled in the first reactor 21 is aerobic microorganisms parasitic on the surface, anaerobic microorganisms parasitic in the inner micropores, aerobic microorganisms to store phosphorus in the cell while promoting the nitrification process, anaerobic microorganisms Denitrification proceeds to NO ₃ ⁻ , which releases N ₂ and removes organic matter.

     The first filter 22 described above is configured to filter the sewage discharged by gravity when the sewage flowing into the aerobic bioreactor 20 rises above a predetermined amount, and the first filter 22 is made of plastic, FRP, stainless steel. Box made of a corrosion-resistant material such as square or cylindrical, the top is open, the bottom is a plurality of holes are drilled. Oyster shells, barley stones, volcanic stones or other filtering media 22b may be stacked on the net 22a installed at the bottom.

     The filter medium is filtered so that sludge or fluid suspended matter contained in the sewage is not discharged while the sewage flows from the lower part of the first filter to the upper part by gravity, and the treated water passing through the filtering medium is upper part of the first filter. It is discharged through an outlet installed in the

Therefore, as described above, if the inside of the aerobic biological reaction tank 20 is intermittently aerated with air, as described above, the interior of the water tank is to remove organic matter, nitrogen and phosphorus while the aerobic and anaerobic states are alternately formed.

     In addition, the flow rate adjustment tank 30 stabilizes the treated water discharged from the aerobic bioreactor 20 in an anaerobic anaerobic state while denitrifying the stored treated water and responds to sensing of the water level detection sensors attached to the inner wall. It is equipped with a transfer pump to control the flow rate while the drive time is controlled.

     A water tank for denitrifying and stabilizing nitrogen contained in sewage while storing the treated water discharged from the first filter 22 of the aerobic bioreactor 20 in an anoxic state, and a main circuit control device on the inner wall of the flow regulating tank 30. The water level detecting sensors 32a to 32c electrically connected to the MCC, and a transfer pump 31 for controlling driving by the main circuit controller MCC are provided.

     The water level detection sensors 32a to 32c detect the high, medium and low water levels of the flow regulating tank 30 and transmit an electric signal to the main circuit controller MCC to transfer the pump 31 by the main circuit controller MCC. Adjust the flow rate while controlling the drive time.

The flow rate can be adjusted by adjusting the transfer amount of filthy water by the difference in the driving time of the transfer pump 31. Sewage conveyed by the transfer pump 31 is transferred to the organic material extinction reaction tank 40 along the transfer pipe 33.

     In addition, the organic material extinction reaction tank 40 includes a wood chip layer filled therein and connected to the flow rate adjustment tank 30, and an air diffuser for intermittently supplying air to the wood chip layer, the flow rate adjustment tank 30 The sewage transported by the transfer pump of the water is sprayed onto the wood chip layer by the water spray nozzle, while decomposing and removing the organic matter and the various suspended substances contained in the treated water while the manure and the sewage are adsorbed through the wood chip layer. It is.

     A wood chip (not shown) is filled therein, a watering device {41, a watering nozzle 41a} provided on the upper portion thereof, and an air dispersing device {43, an air pump 43a for intermittently supplying air to the wood chip layer. ) And diffuser 43b}.

     The sprinkling nozzle 41a is connected to the transfer pipe 31 connected to the transfer pump 31 to sprinkle sewage transferred by the transfer pump 31 to the upper portion of the wood chip.

     In addition, sludge sludge is small in the organic waste extinguishing tank, unlike slaughterhouse, in the toilet manure and sewage treatment, and sludge does not accumulate as in the livestock wastewater because it is introduced into the metabolic action in the aerobic bioreactor and filtered. Treatment efficiency can be secured sufficiently without a separate stirring device.

That is, the sewage water sprayed by the spray nozzle 41a is adsorbed during the residence and passage of the wood chip layer, and the inside of the wood chip is alternately formed by the air supplied intermittently and the anaerobic state of the wood chip. Anaerobic and aerobic microorganisms parasitic in and out of the pores and surfaces completely decompose and remove organic matter, nitrogen and phosphorus contained in the treated water, and the treated water passing through the wood chip layer is pumped through the discharge pipe 44 ( 46).

     The wood chip may be the same as the wood chip of the Patent Publication No. 10-0992080 described in the prior art in the present invention, the wood chip is to provide a habitat for the microorganism, oak or cedar can be used selectively have. In the present invention, cedar wood chips are employed.

     Through the technical filling of cedar wood chips by size, it is possible to filter out the solids as much as possible, and to be adsorbed while remaining as possible without clogging the sprinkled manure and sewage, the organic material filtered and adsorbed by the wood chips Decomposed by microorganisms inhabiting wood chips.

     Woodchips cultivate microorganisms by maximizing the surface area and porosity of wood chips. Here, the organic material is adsorbed or attached to the pores of the wood chip, and manure and sewage are treated in the process of microorganisms ingesting the organic material as nutrients.

     Cedar wood chips used in the above-mentioned treatment process are composed of cellulose (65-85%), lignin (10-25%), pentosan (5-10%), etc. The lignin component is continuously eluted during the treatment of manure and sewage, and the treated water becomes dark red as it is mixed with the treated water. As the amount of the pigment is eluted, the treated water becomes dark black.

     Therefore, the treated water can remove organic matter, nitrogen, phosphorus, etc. in the course of passing through the wood chip, but the chromaticity of the treated water is discharged in a dark red color which is a considerable distance from the clear water by eluting the lignin pigment.

     Although most of the prior art describes the treated water passing through the wood chip as a treated water, even if organic matter, nitrogen, phosphorus, etc. have been treated stably, the water quality is strictly expressed by the lignin component of the wood chip. Since it is a very poor condition, it is difficult to perform a function as a substantially stable washing water unless the lignin pigment is removed.

     Therefore, wood chips used in manure and sewage treatment, especially wood chips used in a non-discharge circulating flush toilet treatment system for recycling, must be completely preceded by the removal treatment of the pigment elution component.

     The wood chip used in the present invention removes the pigment component eluted from the wood chip as in the prior art Patent Registration No. 10-0992080, and uses a wood chip that is specially treated so that the pigment component is not eluted during the treatment process. .

     Microorganisms inhabiting cedar wood chips are classified into bacteria and protozoa, and as floc-forming bacteria, mainly oogloea ramigera and Sphearotilus natans , Achromobacter, Alcaligenes, Bacillus, Flavoacterium, Phseudomonas, and the like. Protozoa are mostly ciliary insects, and are a hybrid of aerobic microorganisms that require oxygen for organic decomposition and anaerobic bacteria that do not require oxygen.

     The microbial floc propagated by the wood chips digests and decomposes sludge mixed with organic matter in sewage, and when manure and sewage are sprayed, they are adsorbed while staying and passing through the wood chip layer filled with the sprinkled manure and sewage. In addition, high-temperature microorganisms generate heat during the decomposition of organic matter, which activates the activity of aerobic and anaerobic microorganisms that inhabit wood chips. The anaerobic microorganisms have an active digestive metabolism at room temperature.

     The manure and sewage treatment method using wood chips is a biological decomposition of carbohydrates and nitrogen compounds by aerobic microorganisms, carbohydrates are decomposed into carbon dioxide and water by ingesting oxygen, and carbon organic matter is removed by using oxidative energy generated during the decomposition process. And as nitrification proceeds, decomposition of organic matter is performed.

Anaerobic microorganisms absorb carbon dioxide, methane gas, ammonia, hydrogen sulfide, etc. without oxygen supply and decompose organic matter.

     In addition, the pump well 46 operates the transfer pump when a certain water level is reached while storing the treated water discharged from the organic material decay reaction tank 40.

Reference numeral 46b is a transfer pipe for guiding the treated water by the pumping action of the transfer pump 46a, and reference numeral 45 is a water level sensor for synchronizing operation of the transfer pump 46a.

     In addition, the advanced processing tank 50 is connected so that the treated water discharged from the pump well 46 connected to the organic material extinguishing reaction tank 40 is introduced, and the advanced processing medium having the oyster shell and inorganic mineral components as a main raw material therein The effluent is physically filtered while the second reactor and the intermittent aerator installed at the bottom of the second reactor remove physical and biological organic components and nitrogen, phosphorus, color, and odor by contact aeration with the media. It comprises a second filter filled with a filter medium for filtering.

     The advanced treatment tank is a water tank for storing and treating the treated water discharged from the pump well 46 connected to the organic matter extinguishing reaction tank 40. The first reactor 21, the aeration device 23, and the first filter 22 are described inside. 2nd reactor 51, the aeration apparatus 53, and the 2nd filter 52 are provided.

The second reactor 51 is composed of a corrosion resistant material, for example, a case 51a in which pores are formed in a plastic or stainless steel plate, and an advanced processing medium (not shown) filled in the case 51a. It is. Various media filled in the second reactor 51 are mixed in a certain ratio of several kinds of natural mineral powders such as oyster shell or ceramic ball, calcite, lime, loess, germanium, ganban stone powder, activated carbon powder, zeolite powder, illite powder, etc. It is filled with special media for advanced processing that have fine porosity by heat sintering into mini ball or cube shape.

In the aeration device 53, the air is discharged from the diffuser 53b when the air pump 53a is driven, and the inside of the water tank is exhaled.

     In the aerobic state, the filter medium and the treated water filled in the second reactor 51 through the pores formed on the surface of the case (51a) is abandoned by the air, and the advanced processing filter and the treated water are included in the advanced processing filter Nitrogen, phosphorus, color, odor, etc. are decomposed and removed through reactions such as nitrification, denitrification, and decomposition of harmful components by various components and microorganisms, and the advanced treatment tank 50 is oxygen-free when the air pump 53a is stopped. It becomes a state.

     As described above, the aerobic state and the anoxic state of the advanced treatment tank 50 are intermittently repeated, so that nitrification and phosphorus excess intake and organic matter removal, denitrification and dephosphorization reaction, and harmful component decomposition are performed inside the advanced treatment tank 50. Alternately.

The second filter 52 has the same configuration as that of the first filter 22, and the treated water passing through the second filter 52 is discharged to the second flow rate adjusting tank 60 through the discharge port 54.

     The second flow rate adjustment tank 60 stores the treated water discharged from the advanced processing tank 50, stabilizes the stored treated water, and controls the flow rate while controlling the driving time in response to sensing of the water level detection sensors attached to the inner wall. It will be equipped with a transfer pump to control.

     The water level of the second flow rate adjustment tank 60 is sensed and is provided with a synchronization level sensor 63a to 63c for controlling whether the transfer pump 64 is driven according to the sensing result.

The water level detection sensors 63a to 63c are electrically connected to the main circuit control device MCC, and the main circuit control device MCC is a transfer pump 64 according to the electrical signal detected by the water level detection sensors 63a to 63c. Control whether to drive.

The treated water transferred by the transfer pump 64 is transferred to the bioreactor 70 along the transfer pipe 65.

     The bioreactor 70 is connected to the second flow rate adjustment tank 60 to fill the wood chip layer filled with wood chips, and the treated water transferred by the transfer pump of the second flow rate adjustment tank 60 to the wood chip layer. It is equipped with a watering device for watering to decompose and remove organic suspended solids and nitrogen, phosphorus, color, and odor remaining in the treated water passing through the wood chip layer, and then discharge the leachate.

     The bioreactor 70 is filled with a wood chip 70a therein, and an air dispersing device for intermittently supplying air to the watering device {71, watering nozzle 71a} and the wood chip 70a layer thereon. {72, diffuser 72b, air pump 72a}.

Sewage flowed along the transfer pipe 65 is sprinkled to the top of the wood chip 70a layer by the water spray nozzle 71a installed on the top of the wood chip 70a layer in which the microorganisms are cultured. In the process of staying and passing through the wood chip 70a layer, the aerobic state and the anaerobic state of the wood chip layer are alternately formed by air supplied intermittently while adsorbing the wood chip, and by the microorganisms parasitic on the wood chip. Organic matter, nitrogen, phosphorus, etc. contained in the treated water are decomposed and removed. The treated water passing through the wood chip 70a layer is discharged to the pump well 77 through the discharge port 73.

     In addition, the pump well 77 stores the treated water discharged from the bioreactor 70, the transfer pump is operated when the water level reaches a certain value.

Reference numeral 77b is a transfer pipe for guiding the treated water by the pumping action of the transfer pump 77a, and reference numeral 78 is a water level sensor for synchronizing operation of the transfer pump 77a.

     In addition, the decolorization sterilization filtration tank 80 is connected to the pump well (77) and the lower side of the first chamber and the second compartment is connected, the pump chamber (77) connected to the bioreactor 70 in the first chamber Treated water discharged from the) flows in, and the second chamber is filled with a disinfection discoloring medium to discharge the treated water while discoloring it.

     The depigmentation filtration tank 80 is a water tank for storing and treating the treated water discharged from the discharge port of the pump well 77 connected to the bioreactor 70, the interior of the water tank being partitioned by a partition 80c. ) And the second chamber 80b, the first chamber 80a and the second chamber 80b are connected to each other by a passage 80d provided below the partition 80c. The outlet 73 is connected to 80a) so that the treated water discharged from the pump well 77 connected to the bioreactor 70 is introduced, and the second chamber 80b is filled with a decolorizing and disinfection filter 83a.

     Decolorization and disinfection media (83a) may be used to mix oyster shells, advanced processing media, activated carbon, volcanic rocks, ganban stone, and other media in a certain ratio, or any one of them. In the decolorizing and disinfection medium employed in the present invention, activated carbon and other media (83b) were mixed and employed at a predetermined ratio. In the drawings, reference numerals 83c and 83d denote nets and net holders for supporting activated carbons when the activated carbons 83b are filled.

     The treated water passing from the first chamber 80a to the second chamber 80b is completely purified by a heavy water quality that is transparent and clean, and has no smell, like the washing water supplied to the first flush toilet 1b. . The treated water passing through the activated carbon and other media layers is discharged into the treated water storage tank 90 through the outlet 84 and stored in the treated water storage tank 90.

     On the other hand, the depigmentation filtration tank 80 may be further provided with a cleaning pump 82.

The cleaning pump 82 is manually driven as needed by the operator to return the precipitate precipitated in the lower portion of the first chamber (80a) with the treated water to the aerobic bioreactor 20 or anaerobic storage tank 10, at this time As the water level in the second chamber (80b) is lowered to the lower portion of the activated carbon layer, the deposit or the water film deposited on the activated carbon is removed, thereby backwashing the activated carbon. Therefore, the life of activated carbon can be extended by the washing action of activated carbon.

     In addition, the treatment water storage tank 90 is a water supply pump for storing the treated water discharged from the depigmentation filtration tank 80 and supplying the stored treated water to the toilet, and over discharge the excess water introduced to the outside It is composed of a treatment water storage tank (90) equipped with a water discharge pipe.

The treated water storage tank 90 is a container for storing the treated water discharged from the discharge port 84 of the depigmentation filtration tank 80, the discharge port 93 for discharging the over water to the outside when the water level rises above a certain value; A water supply pump 91 for supplying the stored water to the toilet bowl 1b is provided. When the water stored in the water tank of the flush toilet 1b is consumed, the feed water pump 91 replenishes the water with the toilet 1b.

     In addition, a rainwater storage tank having a wide inlet of a metal or plastic material capable of receiving rainwater is installed on the roof of the circulation-free manure treatment device of the present invention. In the storage tank, a pipe is connected to the treatment water storage tank 90 so that rainwater flows into the treatment water storage tank.

     In addition, an electric shut-off valve is installed between the rainwater storage tank and the treated water storage tank, when the level of the treated water storage tank is lower than the set water level, the water level sensor installed inside the treated water storage tank detects this, and sends a signal to the control panel. When sent, the electric on-off valve is opened by a signal from the control panel. Therefore, the rainwater that was normally stored flows into the treated water storage tank, and when the set water level is reached, the operation is stopped by detecting the water level sensor.

     In addition, an emergency operation pump is installed in the treated water storage tank, and the emergency operation pump is connected by an anaerobic storage tank and a pipe, so that even if the anaerobic storage tank 10 does not reach a predetermined level, a predetermined time passes, By operating, by supplying the treated water to the anaerobic storage tank 10 through a connecting pipe, it is possible to circulate the circulating non-discharge manure treatment device. The connecting pipe is connected to the discharge side of the emergency operation pump to the inside of the anaerobic storage tank. Therefore, oxygen and microorganisms are continuously fed to the anaerobic storage tank, the advanced treatment tank, and the bioreactor, thereby increasing the activation of the microorganisms. In addition, a predetermined time during which the emergency operation pump is operated is determined in a 12 hour period.

     In addition, an emergency operation pump is installed in the treatment water storage tank, and the emergency operation pump is connected by an anaerobic storage tank and a pipe, so that even if the anaerobic storage tank 10 does not reach a predetermined level, a toilet internal temperature or a toilet bowl When the pipe temperature or the treated water storage tank temperature is lower than the set temperature, it is forcibly operated to supply the treated water to the anaerobic storage tank 10 through a connecting pipe, thereby circulating the circulationless dischargeless manure treatment device. The connecting pipe is connected to the discharge side of the emergency operation pump to the inside of the anaerobic storage tank. The set temperature is set to about 0 ~ 5 ℃. And the water level sensor or electric valve used in the present invention is omitted because it can be used conventionally used that can be easily purchased on the market.

10: anaerobic storage tank 20: aerobic biological reaction tank
30: flow rate adjustment tank 40: organic matter extinction reaction tank
46: pump well 50: advanced treatment tank
60: second flow adjustment tank 70: bioreactor
77 pump 80: depigmentation filtration tank
90: treated water storage tank

Claims (16)

In the non-circulating discharged manure treatment device for purifying the manure and sewage discharged from the toilet, the manure treatment device is a flush toilet installed in the toilet, anaerobic storage tank (10) and the anaerobic storage tank (10) Aerobic biological reaction tank 20 to be connected, the flow rate adjusting tank 30 connected to the aerobic biological reaction tank, the organic material extinction reaction tank 40 connected to the flow rate adjusting tank, the pump well 46 and the advanced treatment tank 50 ), The second flow rate adjustment tank 60, the bioreaction tank 70, the pump well (77), the depigmentation filtration tank 80 and the treated water storage tank 90,
The anaerobic storage tank is installed in the lower portion of the flush toilet and the manure discharged from the flush toilet includes a transfer pump controlled by the main circuit control device to be driven when the water reaches a certain level,
The aerobic bioreactor 20 is physically and biologically connected to the anaerobic reservoir by a first reactor filled with a medium for culturing microorganisms and an intermittent aerator installed at the bottom of the first reactor. It includes a first filter filled with a filter medium for filtering the treated water while treating organic suspended solids and nitrogen, phosphorus, etc. that causes eutrophication, and discharges the treated water through the first filter,
The flow rate adjusting tank 30 stabilizes the treated water discharged from the aerobic biological reaction tank 20 in an anaerobic state of anaerobic and denitrifies the stored treated water, and operates in response to sensing of the water level detection sensors attached to the inner wall. With a transfer pump that controls the flow rate with time control
The organic material extinction reaction tank 40 includes a wood chip layer filled therein and connected to the flow rate adjusting tank 30, and an air dispersing device for intermittently supplying air to the wood chip layer, and transfer of the flow rate adjusting tank 30. The sewage transported by the pump is sprayed onto the wood chip layer by the water spray nozzle, while manure and sewage decompose and remove organic matter and various suspended substances contained in the treated water while passing through the wood chip layer. ,
The pump well 46 is provided with a transfer pump that operates when a certain level is reached while storing the treated water discharged from the organic material decay reaction tank 40,
The advanced treatment tank 50 is connected so that the treated water discharged from the pump well 46 connected to the organic material extinction reaction tank 40 is introduced, oyster shell, ceramic ball, sintered stone, lime, ocher, germanium, elvan stone powder, Physically and biologically, by means of contact aeration with the medium by means of a second reactor packed with at least one kind of activated carbon powder, zeolite powder, or illite powder, and an intermittent aeration device installed at the bottom of the second reactor. It includes a second filter filled with a filter medium for physically filtering the effluent while removing organic components and nitrogen, phosphorus, color, odor, etc.
The second flow rate adjusting tank 60 stores the treated water discharged from the advanced processing tank 50, stabilizes the stored treated water, and controls the flow rate while controlling the driving time in response to sensing of the water level detection sensors attached to the inner wall. With a transfer pump to control,
The bioreactor 70 is connected to the second flow rate adjusting tank 60 to spray the wood chip layer filled with wood chips, and the treated water transferred by the transfer pump of the second flow rate adjusting tank 60 to the wood chip layer. It is to discharge the leachate after decomposing and removing organic suspended solids and nitrogen, phosphorus, chromaticity, and odor remaining in the treated water passing through the wood chip layer.
The pump well (77) is to store the treated water discharged from the bioreactor 70, having a transfer pump that is operated when the water level reaches a certain value,
The decolorization and disinfection filtration tank 80 is connected to the pump well 77 and the lower part of the first chamber and the second chamber are connected, the treated water discharged from the bioreactor 70 is introduced into the first chamber, The second room is filled with a disinfection discoloration filter to discharge the treated water while discoloring it.
The treated water storage tank 90 is a water supply pump for storing the treated water discharged from the depigmentation filtration tank 80 and supplying the stored treated water to the toilet, and an over-water discharge pipe for discharging the excessive amount of excess water introduced to the outside. This is equipped with a treated water storage tank 90,
In addition, a rainwater storage tank having a wide inlet of a metal or plastic material capable of receiving rainwater rainwater is installed on the roof of the circulationless dischargeless manure treatment device, and a pipe is connected to the treatment water storage tank 90 in the storage tank. Thus, the rainwater is introduced into the treated water storage tank, and an electric shut-off valve is installed between the rainwater storage tank and the treated water storage tank, and when the level of the treated water storage tank is lower than the set water level, the water level detection installed inside the treated water storage tank When the sensor detects this and sends a signal to the control panel, the electric opening / closing valve is opened by a signal from the control panel, the rainwater stored in the treated water flows into the treatment water storage tank, and the operation is stopped when the set water level is reached.
In addition, an emergency operation pump is installed in the treated water storage tank, and the discharge side of the emergency operation pump is connected to the inside of the anaerobic storage tank by a pipe, so that the anaerobic storage tank 10 does not reach a predetermined level even if the water level does not reach a predetermined level. After this, it is forcibly operated so that the circulating non-discharge manure treatment device is circulated, and even though the anaerobic storage tank 10 does not reach a predetermined level, the toilet internal temperature, the toilet toilet piping temperature, or the treated water storage tank temperature. When the temperature falls below 0 ℃ ~ 5 ℃, the emergency operation pump is forcibly operated to circulate the circulating non-discharge manure treatment device. Therefore, oxygen and microorganisms are continuously fed to the anaerobic storage tank, the advanced treatment tank, and the bioreactor. It is to supply, circulating non-discharge manure treatment device, characterized in that to increase the activation of microorganisms delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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