KR20140031014A - Night soil treatment system - Google Patents

Abstract

The present invention relates to an excrement disposal system which includes: a water tank storing washing water; a toilet connecting to the water tank and washing excrements by using the washing water; a retaining tank connecting to the toilet and storing sanitary drain in which the washing water and the excrements are mixed; a first precipitating tank connecting to the retaining tank and precipitating solid from the sanitary drain transferred from the retaining tank; an aeration tank connecting to the first precipitating tank and supplying the oxygen to the sanitary drain transferred from the first precipitating tank; a second precipitating tank connecting to the aeration tank and precipitating the solid from the sanitary drain transferred from the aeration tank; a filtering tank connecting in between the second precipitating tank and the water tank and transferring the sanitary drain transferred from the second precipitating tank to the water tank after filtering the sanitary drain with the washing water. [Reference numerals] (AA) Air blower; (BB) Supply water

Description

Manure Treatment System {NIGHT SOIL TREATMENT SYSTEM}

The present invention relates to a manure treatment system, and more particularly to a manure treatment system for treating the manure generated in the toilet.

Manure processing system is a system for processing the manure generated in the toilet.

In the conventional toilet, washing water is supplied from the water pipe to wash the toilet, and the toilet is washed with the washing water.

However, such a conventional toilet has a problem in that water resources are wasted by continuously washing the manure using the washing water by receiving the washing water from the outside.

In addition, the conventional toilet has a problem that the environment is polluted by discharging the sewage (sanitary drain) generated by washing the manure with the washing water.

One embodiment of the present invention is to solve the above problems, to provide a waste treatment system to minimize the waste of water resources and environmental pollution.

In the manure treatment system of the present invention for achieving the above technical problem, a water tank for storing the wash water, connected to the water tank, toilet bowl for washing the manure using the wash water, is connected to the toilet bowl, A storage tank for storing a sanitary drain in which washing water and the manure are mixed, and connected to the storage tank, and a first precipitation tank for precipitating solids from the wastewater transferred from the storage tank, and connected to the first precipitation tank. At least one aeration tank for supplying oxygen to the sewage conveyed from the first sedimentation tank, a second sedimentation tank connected with the aeration tank, for precipitating solids from the sewage transported from the aeration tank, and between the second sedimentation tank and the water tank The effluent transferred from the second settling tank to the wash water; Provide a manure processing system comprising a filtration tank for feeding water to the tank.

It is connected between the storage tank and the first precipitation tank, and may further comprise a waste water separation tank for separating the sewage transferred from the storage tank into a solid and a liquid.

The sewage separation tank includes an input space into which the sewage is introduced and a separation space adjacent to the input space to form a separation space in which the liquid separated from the sewage is located, and the input space and the separation space of the separation tank. Located with an inclination set between, and may comprise a sewage separation unit for separating the liquid from the sewage.

The sewage separation unit includes a frame supported inside the separation tank, a screen that is supported by the frame with the inclination, and which has a solid diameter greater than or equal to a set diameter from the sewage, and which is adjacent to the surface of the screen to the separation space side. It may be positioned, and may include an air injection unit for injecting air in an upward direction.

The sewage separation unit may further include a sludge sedimentation inclined plate which is positioned adjacent to the frame on the input space side and inclines and extends from the screen to the bottom of the separation tank.

A plurality of air injection units may be disposed along the plate surface of the screen.

The water tank is connected to the settling tank, the washing water exceeding the set capacity of the water tank can be transferred to the settling tank.

The second precipitation tank is connected to the first precipitation tank, and the solid precipitated in the second precipitation tank may be transferred to the first precipitation tank.

The filtration tank may be supplied with a supply water of a set capacity from the outside.

According to one of the embodiments of the above-described problem solving means of the present invention, there is provided a manure treatment system that minimizes waste of water resources and environmental pollution.

1 is a view showing a manure treatment system according to a first embodiment of the present invention.
2 is a view showing a manure treatment system according to a second embodiment of the present invention.
3 is a cross-sectional view showing the sewage separation tank shown in FIG.
4 is a view showing the sewage separation unit shown in FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

In addition, since the sizes and thicknesses of the respective components shown in the drawings are arbitrarily shown for convenience of explanation, the present invention is not necessarily limited to those shown in the drawings.

Also, throughout the specification, when an element is referred to as "including" an element, it is understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. Also, throughout the specification, the term "on " means to be located above or below a target portion, and does not necessarily mean that the target portion is located on the image side with respect to the gravitational direction.

Hereinafter, a sewage separation unit according to a first embodiment of the present invention will be described with reference to FIG. 1.

1 is a view showing a manure treatment system according to a first embodiment of the present invention.

As shown in FIG. 1, the manure processing system 1000 according to the first embodiment of the present invention processes manure generated from a person. The manure treatment system 1000 includes a water tank 100, a toilet 200, a storage tank 300, a first sedimentation tank 400, a first aeration tank 500, a second aeration tank 600, and a second sedimentation tank 700. And a filtration tank 800.

The water tank 100 stores the washing water having a set capacity, and is connected to the toilet 200, the first settling tank 400, and the filtration tank 800, respectively. When the water tank 100 operates the washing lever of the toilet bowl 200, the water tank 100 supplies a predetermined amount of washing water to the toilet bowl 200. The water tank 100 receives the washing water from the filtration tank 800. When the wash water exceeds the set capacity of the water tank 100, the excess amount of wash water is transferred from the water tank 100 to the first settling tank 400. For example, the water tank 100 may store 10 liters to 50 liters of washing water, and may supply 8 liters to 20 liters of washing water to the toilet 200.

The toilet bowl 200 is connected to the water tank 100 and may wash the manure located in the toilet bowl 200 using the wash water supplied from the water tank 100.

Storage tank 300 is connected to the toilet 200, and stores the sewage (sanitary drain) mixed with the manure and wash water. The storage tank 300 may store the sewage transferred from the toilet bowl 200 for a set period of time, and may transfer the quantitative sewage to the first precipitation tank 400 using an automatic control pump or an air lift installed therein.

The first settling tank 400 is connected to the storage tank 300, and precipitates solids from the sewage transferred from the storage tank 300. Sewage other than the solid precipitated in the first precipitation tank 400 is transferred to the second aeration tank 600 via the first aeration tank 500. Solid precipitated in the first settling tank 400 may be removed to be removed to the outside at regular intervals.

The first aeration tank 500 and the second aeration tank 600 are connected to the first settling tank 400, and retains the liquid, which is sewage except for the solid transferred from the first settling tank 400, for about 3 to 6 days, Contaminants in liquids are broken down by microorganisms. The first aeration tank 500 and the second aeration tank 600 help the growth of microorganisms in the liquid by continuously supplying oxygen to the liquid, and decomposes and cleans contaminants in the liquid using the expanded microorganisms. Each of the first aeration tank 500 and the second aeration tank 600 may include a contact material CM, such as an annular mesh shape, in which oxygen directly contacts. At the bottom of the first aeration tank 500 and the second aeration tank 600, sludge generated by the action of microorganisms is precipitated, and if the sludge increases more than a predetermined amount, it affects the purification action for the liquid regularly. Can be removed.

On the other hand, the manure treatment system 1000 according to the first embodiment of the present invention includes a first aeration tank 500 and the second aeration tank 600, the manure treatment system according to another embodiment of the present invention is one aeration tank Or three or more aeration tanks.

The second settling tank 700 is connected to the second aeration tank 600 and precipitates solids from the liquid, which is the purified sewage transferred from the second aeration tank 600. The sewage liquid other than the solid precipitated in the second precipitation tank 700 is transferred to the filtration tank 800. The second settling tank 700 is connected to the first settling tank 400, and the solid precipitated in the second settling tank 700 is transferred to the first settling tank 400 through equipment such as an air lift. Therefore, even if the untreated wastewater flows into the second precipitation tank 700 due to an abnormality in the process of treating the previous wastewater, the solid is precipitated from the wastewater and the solid is returned from the second precipitation tank 700 to the first precipitation tank ( By transfer to 400, stabilization of the overall sewage treatment is achieved.

The filtration tank 800 is connected between the second settling tank 700 and the water tank 100, and filters the liquid which is filthy water transferred from the second settling tank 700 with the washing water to be transferred to the water tank 100. The filtration tank 800 is provided with a filtration device FA therein. The sewage liquid is finally purified through the filtration device FA, and then filtered with the washing water and transferred to the water tank 100. The filtration device FA incorporates one or more filters that can be easily exchanged therein. In one example, the filter may be replaced after about 150 to 250 days of use. In addition, the filtration tank 800 may include a deodorant and a sterilizing agent, thereby preventing the occurrence of odor and preventing the mixing of E. coli. The filtration tank 800 may receive a supply water having a set capacity from the outside. For example, the filtration tank 800 may be supplied with 20% to 40% of the feed water of the daily sewage treatment, thereby preventing the reduction of the total amount due to the high concentration of the washing water generated by circulating the sewage and the evaporation. . In addition, the filtration tank 800 is transferred to the water tank 100 through the filtration device (FA), even if an untreated wastewater flows due to an abnormality in the process of treating the previous wastewater, the extremely deteriorated wastewater or solid Is suppressed from flowing into the water tank (100).

As described above, the manure processing system 1000 according to the first embodiment of the present invention purifies and recycles the wastewater back into the washing water, thereby preventing various environmental pollutions due to unauthorized discharge of the wastewater.

In addition, the manure processing system 1000 according to the first embodiment of the present invention, even if installed in a clean area, such as a national park by cleaning and recycling the sewage with the wash water, thereby preventing contamination of the clean area.

In addition, the manure treatment system 1000 according to the first embodiment of the present invention can be installed in an area where water resources are scarce as a whole, while minimizing waste of water resources by recycling wastewater into wash water.

That is, a manure treatment system 1000 is provided that minimizes waste of water resources and environmental pollution.

Hereinafter, a manure treatment system according to a second embodiment of the present invention will be described with reference to FIGS. 2 to 4.

Hereinafter, only the characteristic portions different from the first embodiment will be described by taking excerpts, and the portions where the description is omitted are according to the first embodiment. In the second embodiment of the present invention, for convenience of description, the same constituent elements will be described using the same reference numerals as in the first embodiment of the present invention.

2 is a view showing a manure treatment system according to a second embodiment of the present invention.

As shown in FIG. 2, the manure treatment system 1002 according to the second embodiment of the present invention includes a water tank 100, a toilet 200, a storage tank 300, a first settling tank 400, and a first aeration tank. 500, a second aeration tank 600, a second precipitation tank 700, a filtration tank 800, and a sewage separation tank 900.

The sewage separation tank 900 is connected between the storage tank 300 and the first sedimentation tank 400, and separates the sewage transferred from the storage tank 300 into solid and liquid.

The sewage separation tank 900 separates the sewage quantitatively input from the storage tank 300 into a solid and a liquid. The liquid separated from the sewage separation tank 900 is used as a liquid fertilizer or is transferred to the first precipitation tank 400.

3 is a cross-sectional view showing the sewage separation tank shown in FIG.

As shown in FIG. 3, the sewage separation tank 900 separates sewage into a solid and a liquid, and includes a separation tank 910 and a sewage separation unit 920.

Separation tank 910 is connected to the storage tank 300, and adjacent to the input space (IS) and the input space (IS) is introduced from the storage tank 300 is separated from the sewage (SD) inside The separation space DS in which the liquid FL is located is formed. The sewage separation unit 920 is positioned between the input space IS and the separation space DS, and sludge SL is deposited at the bottom of the input space IS.

The sewage separation unit 920 is positioned with an inclination set between the input space IS and the separation space DS of the separation tank 910 and separates the liquid FL from the sewage SD. The sewage separation unit 920 includes a frame 921, a screen 922, an air jet 923, and a sludge settling ramp 924.

4 is a view showing the sewage separation unit shown in FIG. Fig. 4A is a sectional view showing a frame and sludge settling ramps, Fig. 4B is a plan view showing a screen, and Fig. 4C is a plan view showing an air jetting part.

As shown in FIG. 3 and FIG. 4A, the frame 921 is installed inside the separation tank 910 and supports the screen 922 such that the screen 922 is positioned with a set inclination. Can be. The frame 921 may include a metal or resin having corrosion resistance.

As shown in FIG. 3 and FIG. 4B, the screen 922 is supported by the frame 921 with a set inclination and is located between the input space IS and the separation space DS. The screen 922 has a mesh shape and has an opening 922b of a predetermined size. The screen 922 has an opening 922b having a predetermined size, so that the solid contained in the sewage SD having the set particle size or more is filtered out by the solid having the set particle size or more contained in the sewage SD. From being moved from the to the separation space DS. The opening 922b of the screen 922 may have a width of 1-2 mm. Screen 922 may comprise a metal or resin having corrosion resistance.

As shown in FIG. 3 and FIG. 4C, the air jet unit 923 is located on the separation space DS side adjacent to the plate surface 922a of the screen 922, and the air hole is directed upward. Air (AI) is injected through 923a. Air AI injected from the air injector 923 is injected toward the plate surface 922a of the screen 922 in a direction intersecting with the plate surface 922a of the inclined screen 922. The air jet unit 923 may be disposed adjacent to the plate surface 922a of the screen 922 along the plate surface 922a of the screen 922. The plurality of air injection parts 923 are connected to one pipe P for supplying air from the outside. The air injection unit 923 may include a metal or resin having corrosion resistance.

In this way, the air AI injected from the air injector 923 is injected toward the plate surface 922a of the screen 922 in a direction intersecting with the plate surface 922a of the screen 922, whereby The solid contained in the sewage (SD) stuck to the opening 922b and blocking the opening 922b is separated from the opening 922b of the screen 922, thereby improving the separation efficiency of the wastewater by the screen 922.

In addition, the air AI injected from the air injecting unit 923 is reflected by the plate surface 922a of the screen 922 and rotates inside the separation space DS, whereby sewage SD located in the separation space DS is generated. The liquid FL separated from) can be easily mixed to use the liquid FL as a high quality liquid fertilizer.

In addition, the air AI injected from the air injecting unit 923 is reflected by the plate surface 922a of the screen 922 and rotates inside the separation space DS, whereby sewage SD located in the separation space DS is generated. By separating the liquid FL separated from) and easily moved to the first precipitation tank 400, the precipitation efficiency by the first precipitation tank 400 is improved.

As shown in FIG. 3 and FIG. 4A, the sludge settling ramp 924 is located on the input space IS side adjacent to the frame 921 and separates the separation tank 910 from the screen 922. It is inclined to the bottom and extends. The sludge settling ramp 924 guides the solids contained in the sewage SD filtered by the screen 922 to the bottom of the separation tank 910 in the input space IS, and the sludge settling ramp 924. The solid guided to the bottom of the separation tank 910 is precipitated by sludge SL at the bottom of the separation tank 910. The sludge settling ramp 924 may have a slope of 40 degrees to 80 degrees from the bottom and may have a lower angle of inclination than the slope of the screen 922.

The sewage, which is a liquid separated from the sewage separation tank 900, is purified through the first sedimentation tank 400, the first aeration tank 500, the second aeration tank 600, the second sedimentation tank 700, and the filtration tank 800. Transferred to the tank 100. Sewage separation tank 900 is connected to the second settling tank 700, the solid precipitated in the second settling tank 700 may be transferred back to the sewage separation tank (900).

As such, the sewage separation tank 900 included in the manure treatment system 1002 according to the second embodiment of the present invention has a set inclination between the input space IS and the separation space DS of the separation tank 910. By including a screen 922 arranged to separate the liquid FL and the solid from the sewage SD, the manufacturing cost and the installation cost are reduced as compared to the solid-liquid separation device having a conventional complicated structure. That is, a manure treatment system 1002 is provided that includes a sewage separation tank 900 with minimized manufacturing and installation costs.

In addition, the sewage separation tank 900 includes a sludge sedimentation inclined plate 924 extending inclined from the screen 922 to the bottom of the separation tank 910, thereby efficiently depositing sludge at the bottom of the separation tank 910. have. That is, a manure treatment system 1002 including a sewage separation tank 900 with improved sludge settling efficiency is provided.

In addition, the sewage separation tank 900 includes an air injecting unit 923 for injecting air AI to the inclined screen 922, whereby the liquid FL separated from the sewage SD is easily mixed and liquid. While (FL) can be used as a liquid fertilizer of high quality, the odor generated from the liquid FL is reduced.

In addition, the wastewater separation tank 900 includes an air injecting unit 923 for injecting air AI to the inclined screen 922, thereby fixing the opening 922b to the opening 922b of the screen 922. The solid contained in the blocked sewage SD is separated from the opening 922b of the screen 922, thereby improving the segregation efficiency of the sewage by the screen 922.

In addition, the sewage separation unit 920 of the sewage separation tank 900 does not include a configuration driven by the drive unit, thereby reducing maintenance costs.

In addition, the sewage separation tank 900 is installed by separating the solid and liquid (FL) from the sewage (SD) by simply installing a sewage separation unit 920 in the separation tank 910, separation having a variety of forms such as circular or polygonal The sewage separation unit 920 may be installed to correspond to the tank 910. That is, a manure treatment system 1002 including a sewage separation tank 900 having various forms corresponding to the surrounding environment is provided.

As described above, the manure treatment system 1002 according to the second embodiment of the present invention has an inclination of the sewage separation tank 900 included therein and has an inclination space IS and a separation space DS of the separation tank 910. By including a screen 922 disposed between and separating the liquid FL and the solid from the sewage SD, the manufacturing cost and the installation cost are reduced compared to the conventional liquid-liquid separation device having a complicated structure.

That is, a manure treatment system 1002 is provided that minimizes manufacturing and installation costs, while minimizing waste of water and environmental pollution.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the following claims. Those who are engaged in the technology field will understand easily.

Water tank 100, toilet 200, storage tank 300, the first settling tank 400, the first aeration tank 500, the second aeration tank 600, the second precipitation tank 700, filtration tank 800

Claims (9)

In the manure processing system,
A water tank for storing wash water;
A toilet connected to the water tank and washing the manure using the washing water;
A storage tank connected to the toilet and storing a sanitary drain in which the washing water and the manure are mixed;
A first precipitation tank connected to the storage tank and configured to precipitate solids from the sewage transferred from the storage tank;
One or more aeration tanks connected to the first settling tank and supplying oxygen to the sewage transferred from the first settling tank;
A second precipitation tank connected to the aeration tank and configured to precipitate solids from the sewage transferred from the aeration tank; And
A filtration tank connected between the second precipitation tank and the water tank, and filtering the filthy water transferred from the second precipitation tank to the washing water to be transferred to the water tank.
Manure treatment system comprising a. In claim 1,
And a sewage separation tank connected between the storage tank and the first sedimentation tank to separate the sewage transferred from the storage tank into a solid and a liquid. 3. The method of claim 2,
The sewage separation tank,
A separation tank configured to form an input space into which the sewage is introduced and a separation space adjacent to the input space to position the liquid separated from the sewage; And
A sewage separation unit which is disposed with a slope set between the input space of the separation tank and the separation space and separates the liquid from the sewage
Manure treatment system comprising a. 4. The method of claim 3,
The sewage separation unit,
A frame supported inside the separation tank;
A screen for filtering the solid having the slope and supported by the frame and having a particle diameter or more set from the filthy water;
An air injector which is located adjacent to the plate surface of the screen and located in the separation space side and injects air in an upward direction.
Manure treatment system comprising a. 5. The method of claim 4,
The sewage separation unit,
And a sludge sedimentation sloping plate which is located adjacent to the frame on the input space side and is inclined to extend from the screen to the bottom of the separation tank. 5. The method of claim 4,
And a plurality of air ejecting portions are disposed along a plate surface of the screen. In claim 1,
The water tank is connected to the settling tank, the washing water in excess of the set capacity of the water tank is the manure treatment system is sent to the settling tank. In claim 1,
The second settling tank is connected to the first settling tank, the solid precipitated in the second settling tank is a manure treatment system is transferred to the first settling tank. In claim 1,
The filtration tank is a manure treatment system receiving a supply water of a set capacity from the outside.

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