KR101256956B1 - Portable toilets can circulate slender recycling of sewage purification processing device - Google Patents

Abstract

PURPOSE: A sewage recycling purification apparatus for circulation washing type portable toilet is provided to be able to purify sewage effectively and easily by shattering waste water flowed into a collection tank into pieces and passing a filtration membrane processing board to separate foreign substances and moisture, and to activate sewage being purified by gradually aerobic process and anaerobic decomposition by repetitively supplying oxygen with an air diffuser. CONSTITUTION: A sewage recycling purification apparatus comprises a water collection tank(10), an air diffuser purification part(20), a first microorganism and antibacterial filter part(30), a second microorganism and antibacterial filter part(40), a first air diffuser(50), a second air diffuser(60), a complete filtration part(70), a lateral filtration part(80), a purified water sterilization collecting basin(90), and a purified water tentative storage(100). The water collection tank shatters, stirs and filters sewage discharged from the toilet and washbowl, and supplies oxygen. The air diffuser purification part separates sediments by filtering sewage supplied from the water collection tank with a strainer and an adsorption filter, and supplies oxygen to accelerate the aerobic process and decomposition of sewage. The sewage processed with aerobic process and decomposition passes an adsorption filter and is discharged. The first air diffuser supplies oxygen to purified water discharged from the microorganism and antibacterial filter part to accelerate the aerobic process and decomposition, and discharges the purified water. The second air diffuser supplies oxygen to the purified water discharged from the first air diffuser to accelerate the aerobic process and decomposition, filters the purified water with a turbidity filtering part to reduce turbidity, and discharges the purified water. In the complete filtration part, the purified water passes through the activated carbon filter comprising activated carbon and filtering fibers to be purified. The purified water sterilization collecting basin supplies oxygen continuously to the purified water passed through the lateral filtration part and sterilize the purified water with an ultraviolet sterilization lamp.

Description

Portable toilets can circulate Slender recycling of sewage purification processing device

The present invention relates to a wastewater recycling and purification apparatus of a circulating flush type mobile toilet installed in a circulating flush type mobile toilet to collect and purify sewage discharged from a toilet, and then resupply it to be recycled as a wastewater of a toilet bowl. will be.

In more detail, the sewage discharged from the toilet and washbasin of the circulating flush type portable toilet can be collected, and the gas generated during the purification process can be purified while being discharged to the outside by the discharge device and recycled into the waste water of the toilet bowl. In the wastewater recycling and purification apparatus, the sewage discharged from the toilet and the basin is crushed, agitated and filtered, and the sewage from the collecting tank unit for supplying oxygen and the sewage from the collecting tank is filtered with a strainer and an adsorption filter. Of the sewage from which the sediment is separated and removed (provided oxygen) to promote aerobic decomposition and purify the sewage from the acid purifier and the acid purifier discharged after passing through the adsorption filter. ㆍ Deodorizing, oxidizing and filtering by antibacterial filtering Maximize the oxygen content by supplying oxygen to the semi-purified water discharged from the repeated first and second microbial and antimicrobial filter treatment units, the second and microbial and antimicrobial filter treatment units, and the first and second microbial and antimicrobial filter treatment units. After passing through the primary acid treatment unit and the acid treatment unit, the oxygen is supplied again to the semi-purified water having the maximum oxygen content, and the oxygen content is further improved, and then filtered by the turbidity filtering unit to improve the turbidity. Secondary acid filter processing unit, fully filtered filter unit through which purified water with improved turbidity is passed through activated carbon filtration filter composed of activated carbon and filtration sand, and completely filtered purified water passing through filtration filter unit through horizontal filtration filter. Through the horizontal filtration filter unit, the horizontal filtration filter unit to purify The purified water is collected in the collection tank, but the purified water sterilization collecting part that supplies oxygen continuously by the diffuser and sterilizes by UV sterilization lamp, and the purified water that is sterilized is collected and stored in the preliminary storage tank. The present invention is to provide a wastewater recycling and purification apparatus of a circulating flush type portable toilet comprising a reserve storage unit for purifying water supplied to a collecting tank in which wastewater is collected.

In general, the sewage discharged from outdoor toilets or vehicle-mounted mobile toilets contains a large amount of nitrogen (N) and phosphorus (P), which cause eutrophication, as well as severe odors.

Nitrogen and phosphorus contained in sewage act as nutrients for the synthesis of proteins and nucleic acids for the activity and proliferation of microorganisms, and the surplus is removed or discharged to become a major cause of water pollution such as eutrophication.

Recently, biological treatment processes or chemical treatment devices and techniques have been developed to remove nitrogen, phosphorus, and odors contained in sewage, but most toilets or sewage treatment facilities apply chemical treatment processes due to inconvenient maintenance and burden of environmental impact. It is difficult to do so.

As an example, there is a natural fermentation type mobile or fixed toilet or a potent toilet equipped with a bubble generator as a means to reduce the odor inside the toilet, but the odor is severe because manure is accumulated and stored in a storage tank. It is unsanitary due to the occurrence of pests, and the inconvenience of having to collect manure and sewage on a regular basis and as a secondary environmental pollution source in the collected manure and sewage disposal are virtually impossible to operate. Therefore, publicly installed parks, walkways, riverside paths, and hiking trails have had many difficulties in efficient maintenance.

As a proposal to solve the problems caused by the maintenance of the public toilets as described above, Korean Utility Model Model No. 321856, "Anti-purifying Purification System Using a Toilet" is known.

A connection pipe provided with a cutter pump is coupled to the storage tank connected to the toilet, and the aeration tank connected to the front end of the connection pipe is installed in a tank provided with an exhaust port, and is connected to the storage tank by a connection pipe in the tank.

As an action on the vanish type purification device configured as described above, when the sewage discharged from the toilet bowl is introduced into the storage tank, the sewage from the storage tank is moved along the connecting pipe again and crushed by the cutter pump and transferred to the aeration tank.

After that, organic matter is removed from the aeration tank by aerobic microorganisms, and at the same time, colorless and odorless gas generated from the sewage is discharged into the atmosphere through the exhaust port, and the purified sewage is returned to the storage tank through the connection pipe.

The conventional decay sewage treatment device as described above is purified only by aeration, so the purification ability is reduced due to the removal of nitrogen (N), phosphorus (P) and color and odor, and the treated water cannot be recycled in the toilet bowl separately. Since the collected sewage is a secondary source of environmental pollution, it is not environmentally friendly and costs additional to treatment, so maintenance is also very disadvantageous.

Proposed to solve the above problems are domestic patent registration No. 10-876615 (waste water purification device using microorganism media) and patent registration No. 10-912603 (mobile non-discharge manure and sewage treatment device) and patent Registration No. 10-992080 (an eco-friendly toilet with an unpaid water free circulation flush advanced treatment system) is known.

Patent No. 10-876615 (Waste water purification device using microbial media) is a septic tank system for treating wastewater introduced from the outside by anaerobic and aerobic microorganisms, so that scum does not occur on the surface of the waste water. A deodorization tank for adsorbing and decomposing and passing through the first microbial media layer containing the anaerobic microorganisms provided on the upper side of the introduced wastewater, and discharging methane and ammonia generated in the decomposition process to the outside; An aerobic tank containing aerobic microorganisms, an aerobic tank in which aerobic and anaerobic microorganisms coexist, and an anaerobic tank in which anaerobic microorganisms are accommodated, and an activated carbon tank containing activated carbon filter medium are sequentially provided. Improved turbidity tank to improve and discharge into domestic water; Supply air to the aerobic tank and the merged tank, discharge the nitrogen generated in the aerobic tank, the combined tank, anaerobic tank and the activated carbon to the outside, the pipe for discharging the living water filtered by the tank suspension tank improvement tank

As it is made of a secondary unit, scum does not occur on the surface of water, and as a result, methane or ammonia generated by microbial decomposition may be well discharged to the outside, thereby improving the overall purification ability without burdening the machine.

However, since this wastewater (without separating water and solid matter) is introduced into microorganisms, it is decomposed into microorganisms, resulting in inefficient efficiency and time-consuming, and the improvement in turbidity is significantly reduced because it passes once activated carbon. Decomposition and turbidity are carried out without supply, so the purified water does not contain oxygen, so the purified water simply does not improve the chemical composition of the water and the chemical concentration becomes thicker.

Patent registration No. 10-912603 (movable non-discharge manure and sewage treatment apparatus), the sewage of the first aerobic reaction tank, the second aerobic reaction tank, the first advanced treatment tank, the second advanced treatment tank, flow rate adjustment tank, wood chip microbial reaction tank, After passing through the decolorization filtration tank and the treated water storage tank in order, the organic rich substances and the eutrophic substances (nitrogen, phosphorus, color, and odor) contained in the sewage were removed, and the purified treated water was reused as toilet water without being discharged to the outside. .

However, this separates the foreign matter (solid) and water by passing the incoming wastewater through the elvan, which causes the foreign matter to accumulate inside the elvan, causing the elvan to become clogged. The ability to separate the water is reduced, and the waste water passes through the filter medium of the advanced treatment tank equipped with a media container, so that the filtration capacity is significantly reduced. In particular, since the waste water to be purified is not directly sterilized, there is a fear that the bacteria grow significantly.

Patent registration No. 10-992080 (environmental toilet with undischarged, non-discharge, circulating flush advanced processing device) is a nitrogen, phosphorus, and chromaticity of organic suspended solids and eutrophication substances contained in the manure and sewage generated from flush toilets of public toilets. It is an advanced water-free, flush-free flush toilet with high purity that can remove odors, harmful components and harmful bacteria, and then recycle the treated water into the wash water of a flushing toilet.

However, it supplies and filters the waste water by the intermittent detonator and the filter installed in the aerobic bioreactor and the advanced treatment tank, so that the purified waste water is not supplied with enough oxygen to activate the waste water, and the filtration process is so simple that the waste water is Can't completely purify it, so its purification ability falls.

The present invention is to collect the waste water discharged from the toilet and washbasin of the circulating flush type toilet and purify while discharging the gas generated in the purification process to the outside by the discharge device to be supplied to recycle the waste water in the toilet bowl. In the sewage recycling and purification apparatus, the sewage discharged from the toilet and wash basin is pulverized, agitated and filtered, and the sewage tank part for supplying oxygen and the sewage water supplied from the collecting tank part are filtered with a strainer and an adsorption filter to separate the sediment. Oxygen is supplied to sewage from which sediments are separated (removed) to promote aerobic decomposition. The microorganisms purify, deodorize, and remove sewage from the acid purifier and the acid purifier discharged after passing through the adsorption filter. After oxidizing and filtering by the antimicrobial filtering unit, the process of discharging is repeatedly performed. Maximizes the oxygen content by supplying oxygen to the quasi-purified water that is processed and discharged from the primary microorganism and antimicrobial filter processing unit, the secondary microorganism and antimicrobial filter processing unit, the primary microorganism and antimicrobial filter processing unit and the secondary microorganism and antimicrobial filter processing unit. After passing through the primary acid treatment unit and the acid treatment unit, the oxygen is supplied again to the quasi-purified water with the maximum oxygen content while passing through the acid treatment unit to further improve the oxygen content, and then filtered by the turbidity filtering unit to improve the turbidity. Complete filtration filter that passes through the diffuser treatment unit and quasi-purified water with improved turbidity through activated carbon filtration filter consisting of activated carbon and filtration sand, and completely filtered filtration water that passes through the filtration filter unit through horizontal filtration filter Through the horizontal filtration filter unit, the horizontal filtration filter unit The purified water is collected in the collection tank, but the oxygenation system is continuously supplied with oxygen and the purified water sterilization collection part sterilized by UV sterilization lamp and the sterilized collected water is collected and stored in the preliminary storage tank. It is an object of the present invention to provide a wastewater recycling and purification apparatus of a circulating flush type portable toilet comprising a reserve storage unit for purifying water supplied to a collecting tank being collected.

Another object of the present invention, by crushing the waste water flowing into the collecting tank and passing through the filter membrane processing plate to separate foreign matter (sediment and sediment) and water (pure waste water) can be purified efficiently and easily, By repeatedly supplying oxygen by the air diffuser, it gradually activates the wastewater purified by aerobic treatment and anaerobic decomposition, and gradually cleansing by repeatedly sterilizing by sterilization lamp when filtering is repeatedly performed. By disinfecting the waste water repeatedly, the purified water and the purification device are prevented from being contaminated by bacteria.The purified water is reused by sterilization lamp again when sterilized lamp is collected and stored through the final filtration filter. Prevent toilets from being contaminated It is to provide a wastewater recycling and purification apparatus of a circulating flush type portable toilet that can be maintained as a.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects,

Collects wastewater from toilets and washbasins in circulation wash-type portable toilets, and cleans and disposes the gas generated in the purification process by discharging it to the outside by the discharge device, and supplies it to be recycled as wastewater treatment in toilets. In an apparatus;

A collecting tank unit for supplying oxygen after crushing, stirring, and filtering wastewater discharged from the toilet and the basin;

The sewage supplied from the collecting tank is filtered by the strainer and the adsorption filter to separate the sediment, and the oxygen is supplied to the sewage from which the sediment is separated (deleted) to promote aerobic decomposition. An acid purifier;

An antibacterial filter processing unit repeatedly performing a process of purifying, deodorizing and oxidizing filthy water supplied from an acid purifier by a microorganism and filtering and discharging it by an antibacterial filtering unit;

A primary acid treatment unit for supplying oxygen to the quasi-purified water discharged by antibacterial treatment in several antibacterial filter treatment units and maximizing the content of oxygen;

A secondary acid processor for discharging oxygen after supplying oxygen to the quasi-purified water having the maximum oxygen content while passing through the primary acid processor, and filtering the turbidity filtering to improve the turbidity;

A complete filtration filter for completely purifying the purified water having an improved turbidity through an activated carbon filtration filter composed of activated carbon and filtered sand;

A horizontal filtration filter unit which passes through the complete filtration filter unit and completely purifies the purified water through the horizontal filtration filter to purify it again;

A purified water sterilization collecting unit for collecting completely purified purified water through a horizontal filtration filter unit into a collecting tank but continuously supplying oxygen by an air diffuser and sterilizing by an ultraviolet sterilizing lamp;

Purification water storage unit for collecting and storing the purified water being sterilized in a preliminary storage tank and supplying the toilet and the toilet of the toilet to be collected water collection tank; Is achieved by

The wastewater recycling and purification apparatus of the circulating flush type portable toilet according to the present invention collects the wastewater discharged from the toilet and the washbasin of the circulating flush type portable toilet and purifies the gas generated in the purification process while discharging it to the outside by the discharge device. In the wastewater recycling and purification apparatus for supplying the waste water to be recycled as the waste water of toilets, the wastewater discharged from the toilet and washbasin is supplied from a collecting tank unit and a collecting tank unit for supplying oxygen after crushing, stirring, and filtering the wastewater. Filtering sewage with a strainer and adsorption filter to separate sediment and supplying oxygen to sewage from which sediment is separated (dismoved) to promote aerobic decomposition. Purifying, deodorizing, and oxidizing sewage supplied by the microorganism Antibacterial filter treatment unit repeatedly performing the process of filtering and then discharged, primary acidizer treatment unit, oxygen treatment unit for releasing after maximizing the content of oxygen by supplying oxygen to the semi-purified water discharged by antibacterial treatment in several antibacterial filter treatment unit During the process, the oxygen is supplied again to the semi-purified water with the maximum oxygen content, and the oxygen content is further improved, and then filtered by the turbidity filtering unit to improve the turbidity, and then discharge the secondary acid treatment unit to discharge the semi-purified water with improved turbidity. Complete filtration filter unit that passes through the activated carbon filtration filter consisting of activated carbon and filtration sand to completely purify, horizontal filtration filter unit that passes through the filtration filter unit and completely filtered purified water through horizontal filtration filter to purify it again, horizontal type The purified water is collected through the filtration filter. The water collecting tank that collects water into the tank but supplies oxygen continuously by the diffuser and sterilizes it by UV sterilization lamp, and collects and stores the purified water in the preliminary storage tank and collects toilet and sewage in the toilet. It also consists of a preliminary storage unit for purification.

The present invention, by crushing the waste water flowing into the collecting tank and passing through the filter membrane processing plate to separate foreign matter (sediment and sediments) and water (pure waste water), it is possible to purify the pure waste water efficiently and easily, repeatedly the acid machine By supplying oxygen by the device, it activates the waste water which is gradually purified by aerobic treatment and anaerobic decomposition, and when the filter is repeatedly carried out, the sterilization lamp is repeatedly sterilized by the sterilization lamp to gradually purify the waste water. By sterilizing repeatedly, it prevents contaminants from being contaminated by purified water and purification equipment, and re-sterilizes the purified water through the final filtration filter by sterilization lamp when collecting and storing the purified water in the collecting tank. To keep the toilet sanitary by preventing it from becoming contaminated Can be.

1a and 1b is a configuration diagram and a plan view showing the overall structure of the sewage recycling purification treatment apparatus according to the present invention.
Figure 2 is an enlarged view showing the extracting the collecting tank unit in the sewage recycling purification apparatus of the circulating flush type portable toilet according to the present invention.
Figure 3 is an enlarged view showing an extract of the acid purifier in the waste water recycling purification treatment apparatus of the circulation flush type portable toilet according to the present invention.
Figure 4 is an enlarged view showing an extract of the primary antibacterial filter in the sewage recycling purification apparatus of the circulating flush type portable toilet according to the present invention.
Figure 5 is an enlarged view of the secondary antibacterial filter extracts from the wastewater recycling purification treatment apparatus of the circulating flush type portable toilet according to the present invention.
Figure 6 is an enlarged view taken from the primary diffuser treatment unit in the sewage recycling purification apparatus of the circulation flush type portable toilet according to the present invention.
Figure 7 is an enlarged view taken from the secondary diffuser treatment unit in the sewage recycling purification apparatus of the circulation flush type toilet according to the present invention.
Figure 8 is an enlarged view showing an extract of the complete filtration filter in the sewage recycling purification apparatus of the circulating flush type portable toilet according to the present invention.
9 is an enlarged view showing an extract of a horizontal filtration filter in the wastewater recycling and purification apparatus of a circulating flush type mobile toilet according to the present invention.
Figure 10 is an enlarged view showing the extract of the purified water sterilization collection unit and the purified water spare parts in the sewage recycling purification apparatus of the circulation flush type portable toilet according to the present invention.
11A and 11B are front and side cross-sectional views of the filter membrane processing plate installed in the middle of the collection tank in the collection tank unit according to the present invention.
12A and 12B are front and side cross-sectional views of the wall-mounted elvan rock replacement filter installed on the inner wall of the acid purification tank according to the present invention;
13 is a cross-sectional view of the first antibacterial filtering unit and the secondary antibacterial filtering frame and the secondary antibacterial filtering frame and turbidity purification filter frame having the same structure in the first and second antibacterial filter unit and the secondary antibacterial filter unit according to the present invention.
14a to 14c are extracts of the diffuser installed in the acid purification unit, the primary acid treatment unit and the secondary acid treatment unit acid purification tank and the primary honeycomb type treatment tank and secondary honeycomb treatment tank according to the present invention Illustrative diagrams and plan views of embodiments.
Figure 15 is an enlarged cross-sectional view showing the structure of the final filtration filter installed in the supply pipe of the purified water sterilization collection unit according to the present invention.
Figure 16 is a perspective view showing an extract of the high-fiber-type diffuser engine of the gas extraction unit installed in the purified water sterilization collection unit according to the present invention.

These and other objects and features of the present invention will be more clearly understood from the following detailed description based on the accompanying drawings.

1A to 16 are views showing specific implementation examples of the wastewater recycling purification apparatus 1 according to the present invention, and FIGS. 1A and 1B illustrate the overall structure of the wastewater recycling purification apparatus 1 according to the present invention. It is a schematic view and a plan view.

FIG. 2 is an enlarged view showing the collection tank unit 10 in the present invention, and FIG. 3 is an enlarged view showing the acid purifying unit 20 in the present invention, and FIGS. 4 and 5 are 1 in the present invention. An enlarged view of the secondary antibacterial filter unit 30 and the secondary antibacterial filter unit 40 is shown, and FIGS. 6 and 7 illustrate the primary acid processor 50 and the secondary acid processor 60 in the present invention. 8 is an enlarged view showing an extract of the complete filtration filter 70 in the present invention, Figure 9 is an enlarged view showing an extract of the horizontal filtration filter 80 in the present invention, 10 is an enlarged view showing an extract of the purified water sterilization collection unit 90 and the purified water reserved suit portion 100 in the present invention.

11A and 11B are front and side cross-sectional views of the filter membrane processing plate 110 installed in the middle of the collection tank 100 in the collection tank unit 10 according to the present invention, and FIGS. 12A and 12B are views. 13 is a front view and a side cross-sectional view of the wall-mounted elvan rock filter 260 installed on the inner wall of the acid purification tank 200 of the acid purification unit 20 according to the present invention. Primary antibacterial filtering unit 330, secondary antibacterial filtering frame 430, and turbidity purification filtering having the same structure in the secondary antibacterial filter unit 30, the secondary antibacterial filter unit 40, and the secondary acid processor processing unit 60 A cross-sectional view showing an excerpt of the frame 620.

14A to 14C illustrate an acid purification tank 200 and a primary honeycomb type acid treatment tank 500 of the acid purifier 20, the primary acid processor 50, and the secondary acid processor 60 according to the present invention. And extractor diffuser 253, 513, 633 is installed in the secondary honeycomb treatment tank 600 is an exemplary view and a plan view of the embodiment, Figure 15 is a purified water sterilization collection unit 90 according to the present invention A cross-sectional view showing an enlarged structure of the final filtration filter 911 installed in the supply pipe 910 of FIG. 925 is an exploded perspective view.

 Sewage recycling and purification apparatus 1 according to the present invention, as illustrated in FIGS. 1A and 1B, crush and stir filthy water discharged from a toilet 3 and a urinal 4 and a washbasin installed in the toilet 2. After filtering and filtering, the collection tank 10 for supplying oxygen and the sewage supplied from the collection tank are filtered by a strainer and an adsorption filter to separate the sediment and supply oxygen to the sewage from which the sediment is separated (removed). The process of purifying, deodorizing and oxidizing the sewage supplied from the acidic purifier 20 and the acidic purifier, which is discharged after passing through the adsorption filter to promote and decomposed aerobics, is filtered by an antimicrobial filtering part and discharged. The primary antibacterial filter unit 30 and the secondary antibacterial filter unit 40 which repeatedly carry out the waste water by supplying oxygen to the quasi-purified water discharged by antibacterial treatment from several antibacterial filter treatment units. Primary oxygen treatment unit 50 which discharges after expiration of aerobic treatment and decomposition, supplies oxygen to quasi-purified water with the maximum oxygen content while passing through the acid treatment unit to further promote aerobic treatment and decomposition of waste water, and then turbidity. Secondary diffuser processing unit 60 for filtering and filtering by the filtering unit to improve the turbidity, the complete filtration filter 70 for completely purifying the purified purified water through the activated carbon filtration filter consisting of activated carbon and filtered sand, The horizontal filtration filter unit 80 passes through the complete filtration filter unit 70 and the filtration water completely filtered through the horizontal filtration filter to purify the water again. Purification water sterilization collection unit 90, which sterilizes by UV sterilization lamp to continuously supply oxygen by the air dispersing device, Collecting the purified water stored in the pre-storage tank, which was provided with a pre-purified water storage part 100 for supplying to the water collecting tank and the toilet bowl of the toilet sewage is collecting in sequence.

The electricity used in the sewage recycling purification apparatus 1 according to the present invention may use electricity generated by the solar electric system using the solar heat collecting plate 5 installed on the roof of the toilet 2 in addition to the general commercial electric.

A collecting tank part 10, an acid purifier 20, a primary antibacterial filter part 30, a secondary antibacterial filter part 40, a primary diffuser processing part of the sewage recycling purification apparatus 1 according to the present invention ( 50), gas generated from the secondary acidizer processing unit 60, the full filtration filter unit 70, the horizontal filtration filter unit 80, the purified water sterilization collecting unit 90, and the purified water reserve storage unit 100 (ammonia gas) Etc.) are absorbed by the gas discharge device 1300 and discharged to the outside.

Each gas discharge device 1300 includes a collecting tank section 10, an acid purifier 20, a primary antibacterial filter section 30, a secondary antibacterial filter section 40, a primary acid processor processing section 50, The gas inflow branch pipes 1311 of the secondary diffuser processing unit 60, the full filtration filter unit 70, the horizontal filtration filter unit 80, the purified water sterilization collecting unit 90, and the purified water purification unit 100 are It is connected to the discharge pipe 1310, the exhaust portion of the gas discharge pipe 1310 is provided with a dust collecting filter 1320, the end of the gas discharge pipe 1310 is installed a ventilator (1330) that is operated by a general use electricity or solar electricity Each collecting tank 10, an acid purifier 20, a primary antibacterial filter 30, a secondary antibacterial filter 40, a primary diffuser processor 50 and a secondary diffuser processor 60 The gas generated from the fully filtered filter unit 70, the horizontal filtration filter unit 80, the purified water sterilization collecting unit 90, and the purified water purification unit 100 can be sucked and discharged to the outside.

The collection tank 10 for supplying oxygen after crushing, stirring, and filtering the sewage discharged from the toilet and the basin was formed as illustrated in FIG. 2.

The interior of the collecting tank 100 was divided into a primary collecting tank 101 and a secondary collecting tank 102 by a filtration membrane processing plate 110 installed vertically.

The filter membrane processing plate 110 was formed as illustrated in FIGS. 11A and 11B.

The filtration membrane frame 111 to allow air to flow was formed in a rectangular frame, the distribution hole 112 circulated back and forth through the inner surface of the filtration membrane frame 111 formed of the rectangular frame drilled at regular intervals, the distribution hole A filter plate 113 is attached to an inner surface of the filtration membrane frame 111 at which the 112 is drilled at regular intervals, and the filtration membrane frame 111 is formed with a pneumatic supply port 115 and a pneumatic discharge port 117. Pneumatic (air) can be supplied to the inside of the circulating 111, and the pneumatic nozzle 150 is formed at regular intervals on the upper and lower inner surfaces of the filtration membrane frame 111 is supplied to the inside of the filtration membrane frame 111 Pneumatic (air) is sprayed to remove the foreign matter adhering to the surface of the filter plate 113, the filter membrane is installed on the outer surface of the filter membrane frame 111 by the support 114 is attached to the attachment ring 118 Easily install the trial plate 110 It was to be able to separate.

Inside the primary collection tank 101, the upper end circulates and supplies waste water supply pipes 111 and 112 for supplying waste water discharged from a wash basin and toilet bowl of a flush toilet (not specifically shown). The purified water supply pipe 120 was installed, and the upper cutter and the lower end (bottom) were installed with the primary cutter pump 140 and the stirrer 13, respectively, and the hydraulic nozzle 150 was installed at the upper and lower ends, respectively.

The diffuser device 160 is installed inside the secondary collection tank 102 and the secondary cutter pump 170 is installed at the upper end. The diffuser device 160 is an air nozzle 163 or a honeycomb sprayer (specific volume). (Not shown) is connected to the air pump 161 and the air pipe 162 installed on the outside of the collecting tank 100, and the sewage discharge pipe 18 is connected to the secondary cutter pump 170. Connected to allow the waste water cut and pumped by the secondary cutter pump 170 to be supplied to the inlet strainer 230 of the acid purifier 20 described in detail below.

The sewage supplied from the collecting tank unit 10 is filtered by the inlet strainer 230 and the adsorption filter 240 to separate the sediment, and the oxygen is supplied to the sewage from which the sediment is separated (removed) to promote aerobic decomposition and exhalation. The acid purification unit 20 discharged after the decomposed waste water passes through the adsorption filter was formed as illustrated in FIG. 3.

On the inner surface of the acid purification tank 200, the discharge pipe 210 is installed on the upper side of the lower side of the discharge pipe 210 was installed wall-mounted elvan stone replacement filter 260, the inside of the acid purification tank 200 The vertical support 220 is installed on the upper side to communicate with the lower side, but the vertical support 220 is installed to be closer to the other surface on which the discharge pipe 210 is installed, and the air purification tank without the discharge pipe 210 installed ( Between the one side of the 200 and the vertical support 220, the inlet strain net 230 and the adsorption filter 240 was installed up and down.

Wall-mounted elvan stone replacement filter 260 is installed on the inner surface of the air purifier tank 200, a plurality of filter mounting chambers 262 are formed in the longitudinal or transverse and the attachment ring 264 is provided on the outer surface Replacement filter frame 261 was formed, and each filter mounting chamber 262 was equipped with a ganban stone filter 263.

On one side of the acid purifier tank 200 in which the discharge pipe 210 is installed and the lower side of the discharge pipe 210 in the vertical support 220, the adsorption filter 241 is installed to be supported by the horizontal support plate 221, the acid purification tank The diffuser device 250 was installed in the lower part of the inside of the 200 to distribute and supply oxygen by the honeycomb sprayer 253.

The diffuser device 25 is installed in a plurality of honeycomb sprayer 253 in communication with each other by the air supply pipe 252 but supported by the support 255, exposed to the outside of the diffuser purification tank 200 An air pump 251 is installed at the end of the air supply pipe 252.

The primary microorganism and the antimicrobial filter processing unit 30 and the secondary microorganism repeatedly perform the process of purifying, deodorizing and oxidizing the filthy water supplied from the acid purifier 20 by filtration by microorganisms and filtering and discharging them. And the antibacterial filter processing portion 40 was formed as illustrated in FIGS. 4 and 5.

Inlet pipes 301 and 401 and discharge pipes 302 and 402 are respectively installed at both sides of the primary filter processing tank 300 and the secondary filter processing tank 400. Inside the 300 and the secondary filter processing tank 400, vertical divider plates 310 and 410 are installed respectively, but the lower end is in communication with each of the primary filter processing tank 300 and the secondary filter processing tank 400. ) Are divided into inlet chambers 31 and 41 with inlet tubes 301 and 401 and outlet chambers 32 and 42 with outlet tubes 302 and 402, respectively. 301 and 401 are formed at a position higher than the discharge pipe 302 and 402 to purify the sewage flowing through the inflow pipe 301 and 401 in the high position and discharge pipe 302 and 402 in the low position. It can be easily discharged through.

Replacement filter processing tanks 315 and 415 formed at the lower sides of the discharge chambers 32 and 42 have primary antibacterial filtering frames 330 and 2 provided with replacement filter handles 340 and 440 at the top thereof. The secondary antibacterial filtering frame 430 was installed, and each of the replacement filter treatment tanks 315 and 415, that is, the lower side of each primary antibacterial filtering frame 330 and the secondary antibacterial filtering frame 430, Oxygen may be supplied by 320 and 420.

The primary antibacterial filtering frame 330 and the secondary antibacterial filtering frame 430 provided with replacement filter handles 340 and 440 at the top were formed as illustrated in FIG. 13.

Inside the filter frame 330 formed in the shape of a rectangular parallelepiped, the porous plate 335 is installed at regular intervals so that a plurality of filter loading chambers 337 are formed between the porous plate 335 and the porous plate 335. Each filter loading chamber 337 was filled with a filtering material, respectively.

Each filter loading chamber 337 of the primary antibacterial filtering frame 330 is filled with filter sand 331, elvan rock 332, activated carbon 333 and elvan rock 334 in order from the upper side to the lower side. Each filter loading chamber 337 of the filtering frame 430 was filled with charcoal 430, a filtration yarn 432, activated carbon 433, and elvan rock 434 in order from top to bottom.

In addition, the inlet chamber 31 in the primary filter treatment tank 300 has a plurality of ring-shaped media 350, the upper side of the discharge chamber 42 in the secondary filter treatment tank 400 preferably discharge pipe ( UV treatment water lamp 450 is installed on the upper side to disinfect the quasi-purified water discharged, and although not specifically illustrated, the upper side of the discharge pipe 302 in each of the replacement filter treatment tanks 315. It is natural that a UV sterilization system can be installed to sterilize the waste water discharged after purification.

In addition, the diffuser devices 320 and 420 provided below the replacement filter processing tanks 315 and 415 have diffusers 323 and 423 below the replacement filter processing tanks 315 and 415. Respectively, and each diffuser 323, 423 is an air pump installed on the outside of each of the primary filter treatment tank 300 and the secondary filter treatment tank 400 through the inlet chamber (31) (31) 321 and 421 and the air supply pipe 322 and 422 were connected.

The primary acidic treatment unit 50 for supplying oxygen to the quasi-purified water discharged by antibacterial treatment in several antibacterial filter treatment parts to maximize oxygen content was discharged as illustrated in FIG. 6.

The inlet pipe 501 and the discharge pipe 502 were respectively installed in the upper side of the side wall facing the primary honeycomb acid treatment tank 500, and from the lower side to the upper side inside the primary honeycomb acid treatment tank 500. An air disperser 510 was installed to supply and supply oxygen, and the discharge pipe 502 is an inlet pipe 601 of the secondary honeycomb type acid treatment tank 600 which will be described in detail later by the transfer pipe 505. Connected with.

The air dispersing apparatus 510 installed a plurality of honeycomb spraying bodies 513 at a predetermined height at the inner lower end of the primary honeycomb spraying tank 500 by a support 515, and each honeycomb spraying body 513. Was connected to the air pump 511 and the air supply pipe 512 installed on the outside of the primary honeycomb type treatment tank 500.

While passing through the primary acid treatment unit 50, the oxygen is supplied to the semi-purified water in which the oxygen content is maximized to further improve the oxygen content, and then filtered by the turbidity filtering unit to improve the turbidity and discharge the secondary acid treatment unit. 60 was formed as illustrated in 7.

An inlet pipe 601 and an outlet pipe 602 are respectively installed on the upper side of the side wall facing the side wall of the second honeycomb type treatment tank 600, and on the inner upper side of the secondary honeycomb type treatment tank 600. The vertical split plate 610 is installed to divide the interior of the secondary honeycomb type treatment tank 600 into an inlet chamber 61 having an inlet tube 601 and an outlet chamber 62 having an outlet tube 602. However, the inflow chamber 61 and the discharge chamber 62 were in communication with the lower side of the vertical partition plate 610.

The filter treatment tank 605 formed in the discharge chamber 62 is provided with a turbidity purification filter frame 620 provided with a handle 625 on the upper side, and although not specifically illustrated, the replacement filter treatment tank 605. In the upper side of the discharge pipe 602 in the UV sterilization system can be installed to sterilize the waste water is purified and discharged.

The turbidity purification filter frame 620 installed in the filter treatment tank 605 is formed in the same structure as the primary antibacterial filter frame 330 and the secondary antibacterial filter frame 430 illustrated in FIG. Each filter loading chamber 337 formed between the 335 and the porous plate 335 was formed by stacking the filtration sand 621, anthracite 622, and activated carbon 623 sequentially from the top to the bottom.

An acid treatment apparatus 630 was installed in the inflow chamber 61 and the discharge chamber 62 communicating with each other in the secondary honeycomb type treatment tank 600 so as to spray oxygen from the lower side to the upper side.

The diffuser processing apparatus 630 installed a plurality of honeycomb spraying bodies 633 at a predetermined height at an inner lower end of the secondary honeycomb spraying tank 600 by a support 635, and each honeycomb spraying body 633. Was connected to the air pump 631 and the air supply pipe 632 which is installed outside the secondary honeycomb acid treatment tank 600.

In particular, the honeycomb sprayers 253, 513 and 633 installed in the acid filter 20, the primary processor 50, and the secondary processor 60 are illustrated in Figs. 14A to 14C. Formed.

The honeycomb spraying frame 520 formed in a hexagonal shape in plan view may be stacked in a single layer or stacked in a multi-layered manner, and the lower portion is formed inside the honeycomb spraying frame 520 maintained in a single layer or a multilayer as described above. An oxygen supply pipe frame 525 having a hydraulic pressure control device 527 was installed therein, and the oxygen supply pipe frame 525 embedded in the honeycomb spraying frame 520 has branched, polygonal rings with a front end. Square ring), circular ring shape, and the like can be formed in various shapes.

The honeycomb spraying frame 520 may be installed while maintaining the honeycomb spraying frame 520 in a honeycomb structure by adjoining the honeycomb spraying frame 520 laterally as illustrated in FIG. 14C.

A complete filtration filter 70 for completely purifying by passing the purified water having improved turbidity through an activated carbon filtration filter composed of activated carbon and filtered sand was formed as illustrated in FIG. 8.

The purification tank 700 was installed as a support 740 so that the inflow side was high and the discharge side was kept low (inclined) so that the semi-purified water flowing into the inflow side was discharged to the discharge side. 701) was installed at the top and connected to the discharge pipe 602 of the secondary honeycomb processing tank 600.

A discharge pipe 702 is installed at the discharge side of the complete purification tank 700 so as to be connected to the supply nozzle 810 of the horizontal filtration filter tank 800 which will be described in detail later, and the inside of the complete purification tank 700. In the inlet pipe 701 side is provided with an activated carbon filtration filter 710 and the discharge pipe 702 side is provided with a filter yarn 720, the complete purification tank 700 between the filter yarn 720 and the discharge pipe 702. The upper portion of the UV treatment lamp 730 was installed to sterilize the purified water discharged to the discharge pipe 702 via the filter yarn 720.

The horizontal filtration filter 80, which passes through the complete filtration filter 70 and is completely purified by passing the purified water filtered through the horizontal filtration filter, was formed as illustrated in FIG.

The inside of the horizontal filtration filter tank 800 is divided into an inlet chamber 81 and an outlet chamber 82 by a vertical partition plate 820 that is vertically installed, and the inlet chamber 81 and the outlet chamber 82. Was communicated to the lower side of the vertical partition plate (820).

The first filter 831 and the second filter 832 were separated up and down by the support 836 in the lower portion of the inflow chamber 81 and supported by the support piece 835, and the first filter 831 was installed. ) And a filter space 833 is formed between the second filter 832 and a supply nozzle 810 on the upper side of the first filter 831 to be connected to the discharge pipe 702 of the complete purification tank 700. (Communication).

The suction chamber 850 was installed vertically by the support piece 851 in the discharge chamber 82, but the lower end of the suction tube 850 was positioned below the second filter 832.

The purified water sterilization catching unit 90, which sterilizes the purified water through the horizontal filtration filter unit 80 completely to the collection tank but continuously supplies oxygen by an air diffuser and sterilizes by an ultraviolet sterilization lamp, and sterilization water collection. Purified water preliminary storage unit 100 to collect and store the purified water in the preliminary storage tank and to supply to the collecting tank in which the toilet and sewage of the toilet is collected was formed as illustrated in FIG.

Purified water sterilization collection unit 90 was formed as follows.

On the inner upper end of the final collection tank 900, a supply pipe 910 having a final filtration filter 911 is installed at the discharge end, but the supply pipe 910 is a suction transport pipe 850 of the horizontal filtration filter 80; Connected.

The final filtration filter 911 installed in the supply pipe 910 of the final collection tank 900 has an activated carbon filtration filter 913 embedded in the filtration frame 912 as illustrated in FIG. 15.

Inside the final collection tank (900) was installed a calculator device 920, the calculator device 920 was formed as follows.

As illustrated in FIG. 16, an inner lower portion of the final collection tank 900 is provided with a coil type diffuser 925 having a plurality of injection holes 926 formed therein and a cap 927 coupled to an end portion of the final collection tank 900. ) Is connected to the air pump 921 installed at the outside of the air supply pipe 922, and a plurality of UV sterilization systems 930 are installed at the inner bottom of the final collection tank 900 to install the interior of the final collection tank 900. Purified water to be filled in to sterilization treatment, the final collection tank (900) was installed inside the purified water supply pipe (1200) with a water pressure pump (1210) to supply the purified water to the toilet of the toilet.

In addition, the purification water storage unit 100 was formed as follows.

The upper end of the preliminary storage tank 1000 was communicated with the final collection tank 900 of the purified water sterilization catcher 90 by a backflow prevention pipe 1010, and the vertical filter plate 1100 inside the preliminary storage tank 1000. The interior of the preliminary storage tank 1000 was divided into a first spare water supply tank part 1001 and a second spare water supply tank part 1002, and a recovery supply pipe 1250 was provided in the first spare water supply tank part 1001. Purification water was supplied to the primary collection tank 101 of the collection tank unit 10, and the second preliminary water supply tank unit 1002 has a purification water supply branch pipe 1220 connected to the purification water supply pipe 1200. It was installed so that the purified water could be supplied to the toilet of the toilet.

Hereinafter, the operating relationship of the sewage recycling purification treatment apparatus 1 according to the present invention will be described.

The waste water supplied from the waste water supply pipe 111 and the manure supply pipe 112 is collected in the primary collecting tank 101 of the collecting tank 100 in the collecting tank unit 10.

In the first collecting tank 101, the top-down stirrer 130 is operated to agitate the filled waste water, and the first cutter pump 140 operates to cut the waste of the waste water moving up and down while lowering the concentration. In the hydraulic nozzle 150, pressure is generated to actively maintain the circulation of the waste water crushed.

The top-down exchanger 130 forcibly circulates the waste water to prevent sediment and foreign matter contained in the waste water from being deposited or settled, and to prevent it from being attached to the spare membrane processing plate 110 described later. 110 will be prevented from closing.

In particular, when the concentration of the wastewater filled in the primary collection tank 101 becomes thick, the purified water is purified by the wastewater recycling and purification treatment apparatus 1 according to the present invention through the purification gas supply pipe 120 and the concentration of the wastewater. Lower the waste water so that the waste water is stirred and crushed smoothly.

Waste water that is continuously crushed and stirred in the primary collecting tank 101 passes through the leisure membrane processing plate 110, and impurities are filtered out, remaining in the primary collecting tank 101 and passing only sewage to the secondary collecting tank 102. The sewage is easily introduced into the secondary collection tank 102 by the pressure applied from the hydraulic nozzle 150.

The sewage flowing into the secondary collection tank 102 is circulated by oxygen supplied (injected) by the operation of the air dispersing device 160 and again finely (secondly) by the secondary cutter pump 170 (secondary). ) Is cut.

The air diffuser 160 is discharged while the outside air (air) is supplied to the air nozzle 163 through the air pipe 162 by the operation of the air pump 161.

The sewage is aerobic and anaerobic decomposition by the air injected (discharged) through the air nozzle 163, the sewage is circulated by the air injected (discharged) through the air nozzle (163) secondary cutting pump 170 will cut the remaining dirt more easily.

Sewage from which residual dirt is cut by the secondary cutting pump 170 is supplied to the inlet strainer 230 of the acid purifier 20 through a wastewater discharge pipe 180.

The primary purified sewage supplied to the inlet filter network 230 of the acid purifier 20 through the sewage discharge pipe 180 passes through the inlet filter network 230 and the adsorption filter 240 installed at the lower side thereof, and has a bulky substance. The filter is filtered again and falls to fill the air purifier tank 200.

The acid generator 250 is operated in the acid purification tank 200 in which the waste water falls while being filtered again while passing through the inlet strain 230 and the adsorption filter 240.

The fine impurities contained in the sewage are adsorbed by the adsorption filter 242 installed on the inner surface of the acid purification tank 200, and the impurities rising upward are filtered again by the adsorption filter 241 and then discharged through the discharge pipe 210. While being supplied to the primary antibacterial filtering unit 30.

In particular, since the adsorption filter 241 contains the elvan, the elvan is adsorbed and decomposed to contaminants, organic matter and various bacteria by adsorption, and deodorizing and neutralizing. In the interior of the filter to promote the decomposition of anaerobic and anaerobes, therefore, in the acid purification tank 200, the purification of sewage and fermentation by the microorganism is made quickly.

In addition, the adsorption filter 242 installed on the inner surface of the acid purification tank 200 is a membrane filter for removal and exchange (exchange) to promote the purification by adsorbing contaminants, organic matter and various bacteria contained in the sewage.

The air diffuser 250 installed in the air purifier tank 200 is supplied with external air to the diffuser 253 through the air pipe 252 by the operation of the air pump 251, and thus the inside of the air purifier tank 200. Sprayed on sewage filled in.

In particular, since the diffuser 253 is formed in a microporous plate structure, that is, a honeycomb type (HIVE), the inside surface of the acid purification tank 200 is covered with numerous small bubbles during aeration to reduce odor and to deposit sediment. It is circulated to the upper side, increases the safety and uniformity of the bubble and vigorously induces the decomposition of aerobic microorganisms.

Purified sewage discharged through the discharge pipe 210 of the acid purification tank 200 is introduced into the primary filter processing tank 300 of the primary microorganism and the antibacterial filter processing unit 30 through the inlet pipe 301.

Sewage flowing through the inlet pipe 301 located at a high position is filled in the primary filter treatment tank 300, and the wastewater filled in the inlet chamber 31 is mixed with the ring-shaped media 350.

The ring-shaped media 350 mixed with the sewage may allow the sewage to come into contact with the microorganisms, and help to improve the sedimentation efficiency such as purification and deodorization treatment and oxidation by the decomposition action by the microorganisms, and remove impurities from the sewage (treated water). Adsorption primarily controls turbidity.

The ring-shaped media 350 is constantly moving freely according to the sewage flowing from the acid purification tank 200, and thus can help the decomposition by the microorganism.

In addition, the sewage (treated water) introduced into the acid purification tank 200 is filtered while passing through the primary antibacterial filter processing frame 330 by the aeration generated in the air dispersing device 320, and the secondary microorganisms through the discharge pipe 302. And it is supplied to the secondary filter processing tank 400 of the antibacterial filter processing unit 40.

The air diffuser 320 is blown from the diffuser 323 installed under the replacement filter tank 315 by the outside air moving through the air pipe 322 by the operation of the air pump 321, diffuser 323 Sewage (treated water) is forced to move upward (increased) by the air injected from the) to be introduced into the primary antibacterial filter processing frame (330).

Sewage (treated water) by the air injected from the diffuser 323 to the upper side as described above, the elvan rock 334 and the activated carbon 333 and elvan rock 332 filled in the primary antibacterial filter processing frame 330 and The filter is filtered (purified) while passing through the filter yarn 331 in sequence.

Elvan 334 and 332 adsorb contaminants, organics and various bacteria by adsorption to decompose and deodorize and neutralize. Activated carbon 333 moves adsorbate molecules to the adsorbent (activated carbon) outer surface. The adsorbate is diffused through the large and medium pores of activated carbon, and the adsorbed substance is adsorbed (purified) as the adsorbed substance is bonded to the micropores or filled in the micropores.

The filter sand 331 filters impurities contained in the sewage (treated water) that has passed through the elvan 334 and 332 and the activated carbon 333 to discharge almost purified water.

The primary antibacterial filter processing frame 330 in which the filter function is dropped is taken out to the upper side of the replacement filter processing tank 315 using the replacement filter handle 340, and the new primary antibacterial filter processing frame 330 is loaded to filter the filter ( Purification) function.

 The quasi-purified water discharged from the primary microorganism and the antimicrobial filter processing unit 30 is introduced into the secondary filter treatment tank 400 of the secondary microorganism and the antimicrobial filter processing unit 40 through the inlet pipe 401 and filled.

When the quasi-purified water is filled to a predetermined position of the secondary filter processing tank 400, a level sensor (not specifically shown) senses this to operate the diffuser 420.

When the air pump 421 of the air diffuser 420 operates, the outside air (air) is supplied to the air diffuser 423 through the air pipe 422, and the air diffuser 423 installed below the replacement filter processing tank 415. Sprayed from

 Air injected from the diffuser 423 installed under the replacement filter treatment tank 415 is forced to move the purified water upward to the secondary antibacterial filtering frame 430 loaded in the replacement filter treatment tank 415. Rise) to the secondary antibacterial filter processing frame 430.

As described above, the sewage (treated water) is discharged from the diffuser 423 upward by the air injected into the secondary antibacterial filter processing frame 430, and the ban rock 434, activated carbon 433, and filtered sand 432. And passing through charcoal 431 is filtered (purified) with almost perfect purified water.

Elvan 434 adsorbs contaminants, organics and various bacteria by adsorption to decompose and deodorize and neutralize. Activated carbon 433 moves adsorbate molecules to the adsorbent (activated carbon) outer surface Adsorption (purification) takes place as the diffused adsorbate is diffused through the large and medium pores of the activated carbon and the adsorbed material is combined with the inner surface of the micropores or filled into the micropores. Impurities contained in the sewage (treated water) passed through 433) are filtered to discharge almost purified water.

Charcoal 431 removes odors by absorbing pollutants (by placing them in the pores inside the charcoal) when strong moisture absorption and discharge humidity is high, and absorbs and removes various chemicals, etc. .

Purified water filtered (purified) with nearly perfect purified water while passing through the elvan rock 434, activated carbon 433, filtered sand 432, and charcoal 431, which are filled in the secondary antibacterial filter processing frame 430 as described above. While being discharged through the discharge pipe 402 is discharged while being sterilized by the UV treatment lamp 450 installed on the upper side of the discharge pipe 402.

Purified water sterilized by the UV treatment lamp 450 as described above and discharged through the discharge pipe 402 of the secondary filter treatment tank 400 is 1 of the primary diffuser processing unit 50 through the inlet pipe 501. It is supplied to the chamfer type acid treatment tank 500 is filled.

When the purified water flowing into the primary cluster type acid treatment tank 500 of the primary acid processor processing unit 50 is filled to a predetermined height, a level sensor (not specifically shown) senses this to operate the diffuser device 510.

When the air pump 511 of the air diffuser 510 is operated, the outside air (air) is supplied to each diffuser 513 formed in a honeycomb type (HIVE) through the air pipe 512 and injected.

 Air injected from each diffuser 423 formed in a honeycomb (HIVE) is injected into the purified water of the primary honeycomb acid treatment tank 500 to generate bubbles to induce the purified water to contain a lot of oxygen, the safety of the bubbles And increase the uniformity and induce the decomposition of aerobic microorganisms.

Purified water discharged through the discharge pipe 502 of the primary diffuser processing unit 50 is transferred through the transfer pipe 505, the secondary honeycomb processing through the inlet pipe 601 of the secondary diffuser processing unit 60 It flows into the tank 600.

 When the purified water flowing into the secondary honeycomb acid treatment tank 600 of the secondary acid processor 60 is filled to a predetermined height, a level sensor (not specifically shown) senses this to operate the diffuser device 630. .

When the air pump 631 of the air diffuser 630 is operated, the outside air (air) is supplied to the diffuser 633 formed in a honeycomb type HIVE through the air pipe 632 and injected.

Air injected from each diffuser 633 formed in a honeycomb (HIVE) is injected into the purified water of the secondary honeycomb acid treatment tank 600 to generate bubbles to induce the purified water to contain a lot of oxygen, the safety of the bubbles And increase the uniformity and induce the decomposition of aerobic microorganisms.

In particular, the air injected from a part of the diffuser 633 installed under the replacement filter processing tank 605 forcibly moves the purified water toward the turbidity purification filter filtering frame 620 loaded inside the replacement filter processing tank 605. Up) to be introduced into the turbidity purification filter frame (620).

As described above, the wastewater (treated water) is discharged from the diffuser 633 to the upper side by using activated carbon 623, anthracite 622, and filter sand 621 filled in the turbidity purification filter frame 620. As it passes through, it is filtered again and the turbidity is purified and purified into complete purified water.

Activated carbon 623 moves the adsorbate molecules to the outer surface of the adsorbent (activated carbon), the adsorbate diffuses through the macropore and the mesopores of the activated carbon, and the adsorbed diffuser is bonded to the micropore inner surface or filled in the micropores. Adsorption (purification) is performed, and the anthracite 622 and the filter sand 621 filter impurities and the like contained in the purified water so that the purified water is excellent in turbidity and completely purified.

Impurities and the like are filtered through the turbidity filtering filter frame 620 to purify water having excellent turbidity and completely purified, and then flow into the complete purification tank 700 of the complete filtration filter unit 70 through the inlet pipe 701.

Since the complete purification tank 700 maintains the inflow side and the discharge side is low (beveled), the purified water flowing into the inflow side is naturally transported to the discharge side, thereby controlling the turbidity by using the flow rate.

The purified water flowing into the complete purification tank 700 is filtered again while passing through the activated carbon filtration filter 710 and the filter yarn 720 and sterilized by the UV treatment water lamp 730 when discharged through the discharge pipe 702. As it is processed, it is discharged through the discharge pipe 702.

The purified water that has been completely filtered through the complete filtration filter 70 is supplied to the horizontal filtration filter 80 and purified again.

The purified water passed through the complete filtration filter 70 is sprayed to the upper side of the first filter 831 installed in the inlet chamber 81 through the supply nozzle 810, and sprayed to the upper side of the first filter 831. The purified water is filtered while passing through the second filter 831, the filter space 833, and the second filter 832 and filled in the lower side of the horizontal filtration filter tank 800.

As described above, the purified water filled in the lower side of the horizontal filtration filter tank 800 is transferred through the suction transport pipe 850 installed in the discharge chamber 82, and the supply pipe 910 of the purified water sterilization collection unit 90 is It is collected in the final collection tank 900 through, when the purified water is discharged through the supply pipe 910 is passed through the final filtration filter 911 installed at the end of the supply pipe 910 is finally purified and discharged.

The purified water collected in the final collection tank 900 of the purified water sterilization collecting unit 90 is sterilized by the ultraviolet sterilization lamp of the UV sterilization system 930, and when the level is filled up to a predetermined height, a level sensor (not shown) is provided. It senses this to operate the diffuser 920.

When the air pump 921 of the air diffuser 920 is operated, the outside air (air) is supplied to the coil type engine 925 through the air pipe 922 and injected through the injecting holes 926 which are numerously perforated.

Air injected through the injection hole 926 of the coil-type acid engine 925 is injected into the purified water to generate bubbles to induce the purified water to contain a lot of oxygen, increase the safety and uniformity of the bubbles and decompose the aerobic microorganisms Induce.

The purified water is supplied to the toilet 3 or the urinal 4 of the toilet 2 through the purified water supply pipe 1200 provided with the hydraulic pump 1210 inside the final collection tank 900.

Purified water collected in the collection tank 900 is collected in the preliminary storage tank 1000 of the purified water reserve storage unit 100 through the backflow prevention tube 1010 formed to communicate with the upper end.

In particular, the purified water collected in the preliminary storage tank 1000 is collected in the first preliminary water supply tank 1001, and moves to the second preliminary water supply tank 1002 through the vertical filter plate 1100 to be collected.

Purified water collected in the first preliminary water supply tank unit 1001 may be supplied to the primary water collection tank 101 of the water collecting tank unit 10, and the final water collecting tank 900 and the second preliminary water supply tank unit 1002. The purified water collected in the water is supplied to the toilet 3 or the urinal 4 of the toilet 2 by the purified water branch supply pipe 1220 connected to the purified water supply pipe 1200 by operating the hydraulic pump 210.

The sewage recycling purification apparatus 1 according to the present invention is repeatedly performed as described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

1: Sewage Recycling Purification System 2: Toilet
3: toilet 5: solar heat sink
10: collecting tank unit 20: acid purification unit
30: the first microorganism and antimicrobial filter processing unit 40: the second microorganism and antimicrobial filter processing unit
50: primary acid processor processing unit 60: secondary acid processor processing unit
70: complete filtration filter 80: horizontal filtration filter
90: purified water sterilization collection unit 100: purified water reserve storage unit
100: collecting tank 110: filtration membrane processing plate
160. 250. 320. 420. 510. 630. 920: Air diffuser
200: Sangi Purification Tank 260: Wall-mounted Elvan stone replacement filter
300: primary filter treatment tank 330: primary antibacterial filtering frame
350: ring-shaped media 400: secondary filter treatment tank
430: secondary antibacterial filtering frame 450. 730: UV treatment lamp
500: primary honeycomb acid treatment tank 600: secondary honeycomb acid treatment tank
620: turbidity purification filter frame 700: complete septic tank
800: horizontal filtration filter tank 830: horizontal filtration filter
900: final collection tank 925: coil type engine
1000: preliminary storage tank 1300: gas discharge device

Claims (22)

Collects wastewater from toilets and washbasins in circulation wash-type portable toilets, and cleans and disposes the gas generated in the purification process by discharging it to the outside by the discharge device, and supplies it to be recycled as wastewater treatment in toilets. In an apparatus;
A collecting tank unit for supplying oxygen after crushing, stirring, and filtering wastewater discharged from the toilet and the basin;
The sewage from the collection tank is filtered by the strainer and the adsorption filter to separate the sediment. The oxygen is supplied to the sewage from which the sediment is separated to promote the aerobic treatment and decomposition of the waste water. An acid purifier which is discharged after passing;
A first microorganism and an antimicrobial filter processing unit which repeatedly performs a process of purifying, deodorizing and oxidizing filthy water supplied from an acid purifier by a microorganism and filtering and discharging it by an antimicrobial filtering unit;
A primary acid treatment unit for supplying oxygen to the semi-purified water discharged by antibacterial treatment from the first and second microorganisms and the antimicrobial filter treatment unit to promote the aerobic treatment and decomposition of the waste water and then discharge it;
While passing through the primary acid treatment unit, oxygen is supplied again to the semi-purified water with the maximum oxygen content to promote aerobic treatment and decomposition of the waste water, and then filtered by the turbidity filtering unit to improve the turbidity, and then discharge the secondary acid treatment unit. ;
A complete filtration filter for purifying the purified water having an improved turbidity through an activated carbon filtration filter composed of activated carbon and filtered sand;
A horizontal filtration filter for purifying the filtered water passing through the complete filtration filter through a horizontal filtration filter and purifying again;
A purified water sterilization collecting unit for collecting purified water passed through a horizontal filtration filter unit to a collecting tank but continuously supplying oxygen by an air diffuser and sterilizing by an ultraviolet sterilizing lamp;
Purification water preservation unit for collecting and storing the purified water to be sterilized in a preliminary storage tank, and a reserve water storage unit for supplying to the toilet and the waste water collection tank of sewage is collected. The water collecting tank of claim 1, further comprising: a collecting tank unit configured to supply oxygen after crushing, stirring, and filtering wastewater discharged from the toilet and the basin;
Dividing the inside of the collecting tank into a primary collecting tank and a secondary collecting tank by a filtration membrane processing plate installed vertically;
Inside the primary collection tank, a waste water supply pipe for supplying waste water and a purified water supply pipe for circulating purified water are installed, and a primary cutter pump and an agitator are installed at upper and lower portions (bottom), respectively, and hydraulic nozzles are disposed at the upper and lower portions. Respectively installed;
Inside the secondary collection tank is installed an air dispersing device for supplying oxygen to promote the aerobic treatment and decomposition of the waste water is filled, a secondary cutter pump is installed in the upper upper end, the sewage discharge pipe is installed in the secondary cutter pump Connected to supply the waste water to the inlet strainer of the purifier, the wastewater recycling and purification apparatus of the circulating flush type portable toilet characterized in that the. The apparatus of claim 1, further comprising: an acid purifier for filtering and discharging the sewage supplied from the collecting tank and filtering and discharging the sewage while aerobic decomposition;
A vertical support is installed in the upper part of the air purifier tank in which the discharge pipe is installed at an upper part of the one surface so that the lower part is in communication with the upper part;
An inlet strainer and an adsorption filter are installed vertically between one surface of the acid purifier tank and the vertical support, on which the discharge pipe is not installed;
An adsorption filter installed at a lower side of the discharge pipe in a vertical supporter on one surface of the acid purifier tank in which the discharge pipe is installed to be supported by a horizontal support plate;
And an air dispersing device installed to supply and supply oxygen from the inside of the air purifying tank to the upper side of the air purifying tank. The method of claim 1, wherein the primary microorganism and antimicrobial filter processing unit for discharging after filtering the effluent supplied from the acid purification unit, and the secondary microorganism and antimicrobial filter processing unit;
Each of the primary filter and the secondary filter processing tanks having inlet and outlet pipes on each side are respectively equipped with vertical partition plates, and the lower ends thereof communicate with each other. Divided;
Replacement filter processing tanks formed at the lower side of the discharge chamber are provided with a primary antibacterial filtering frame and a secondary antibacterial filtering frame each provided with a replacement filter handle on an upper surface thereof;
At the lower side of each of the replacement filter treatment tank to supply oxygen to the primary antibacterial filtering frame and the secondary antibacterial filtering frame by means of an air purifier to promote aerobic treatment and decomposition of the waste water; Sewage recycling and purification device for mobile toilet. The method of claim 1, wherein the primary acidifier treatment unit for supplying oxygen to the semi-purified water to maximize the content of oxygen and discharged;
An inlet pipe and an outlet pipe are respectively provided on the upper side of the side wall facing the primary honeycomb acid treatment tank;
The primary honeycomb acid treatment tank is installed with an acid treatment device to promote the aerobic treatment and decomposition of the waste water by supplying oxygen injection from the lower side to the upper side of the primary honeycomb acid treatment tank; Sewage recycling and purification apparatus for circulating flush type portable toilet. The secondary acid processor of claim 1, further comprising: a secondary acid processor configured to supply oxygen to the quasi-purified water supplied from the primary acid processor and filter the turbidity filtering to discharge oxygen;
Inside the secondary honeycomb processing tank with inlet and outlet pipes installed at the upper side of the opposing side wall, a vertical divider is installed to pass the inside of the secondary honeycomb processing tank to the inside of the secondary honeycomb processing tank. It is divided into the discharge chamber provided, wherein the inlet chamber and the discharge chamber is to communicate with the lower side of the vertical partition plate;
A filter turbidity filtering frame having a handle on an upper end of the filter treatment tank formed in the discharge chamber;
An inlet chamber and an outlet chamber communicating with each other in the second honeycomb type acid treatment tank, in which oxygen is injected and supplied from the lower side to the upper side to install an acid treatment unit for promoting aerobic treatment and decomposition of waste water; Sewage recycling and purification apparatus for circulation flush type toilet. According to claim 1, Complete filtration filter for completely purifying the semi-purified water discharged from the secondary acid treatment unit;
The septic tank was kept high on the inlet side and low on the outlet side;
An inlet pipe is installed at an upper end of an inlet side of the complete purification tank, and an outlet tube is installed at a lower end of the inlet side;
An activated carbon filtration filter in the inlet tube side and a filter sand in the outlet tube side of the complete purification tank;
Sewage treatment of the circulating flush type portable toilet, characterized in that the complete purification tank between the filter yarn and the discharge pipe to install a UV treatment lamp to sterilize the purified water discharged to the discharge pipe. The method of claim 1, wherein the horizontal filtration filter for repurifying the purified water passing through the complete filtration filter by the horizontal filtration filter;
The interior of the horizontal filtration filter tank is divided into an inlet chamber and an outlet chamber by a vertical partition plate installed vertically, wherein the inlet chamber and the outlet chamber communicate with the lower side of the vertical partition plate;
Separating the first filter and the second filter up and down in the lower portion of the inflow chamber so that a filter space is formed between the first filter and the second filter;
An upper side of the first filter having a supply nozzle connected to the discharge pipe of the complete purification tank;
The discharge chamber is installed in the suction conveying pipe vertically by the support piece so that the lower end of the suction conveying pipe is located under the second filter; Sewage recycling and purification apparatus of the circulating flush type portable toilet characterized in that the. The purifying water sterilization collecting unit of claim 1, wherein the purified water is supplied to the horizontal filtration filter unit;
An upper end portion of the final collection tank having a supply pipe connected to the suction feed pipe of the horizontal filtration filter part and equipped with a final filtration filter at the discharge end;
Installing an air diffuser inside the final collection tank to facilitate aerobic treatment and decomposition of the purified water filled in the final collection tank;
Installing a plurality of UV sterilization systems at an inner lower end of the final collection tank to sterilize the purified water filled in the final collection tank;
Sewage recycling and purification equipment of the circulating flush type portable toilet, characterized in that the inside of the final collection tank is installed to provide a purified water supply pipe with a water pressure pump. According to claim 1, Purified water reserve storage unit;
Communicating the upper end of the preliminary storage tank with the final collecting tank of the purified water sterilization collecting part by a backflow prevention pipe;
Installing a vertical filter plate in the preliminary storage tank to divide the preliminary storage tank into a first preliminary water supply tank portion and a second preliminary water supply tank portion;
The first preliminary water supply tank part is provided with a recovery supply pipe to supply purified water to the primary collection tank of the collection tank part;
The second preliminary water supply tank unit is connected to the purification water supply pipe and the purified water supply pipe to supply the purified water to the toilet of the toilet; Sewage recycling and purification apparatus of the circulating flush type portable toilet characterized in that the. The method of claim 1, wherein the diffuser device;
At the inner bottom of the collecting tank, an air nozzle or honeycomb spraying body is installed at a predetermined height from the floor.
The air nozzle or honeycomb spraying body is connected to an air pump and an air pipe installed on the outside of the collecting tank; sewage recycling and purification apparatus for a circulating flush type portable toilet. The filter membrane processing plate of claim 2, further comprising: a filtration membrane processing plate installed inside the collection tank;
A filtration membrane frame formed with a rectangular frame and having a distribution hole that is circulated back and forth at regular intervals to distribute air;
A filtering plate attached to the front surface of the distribution hole drilled at regular intervals on the inner surface of the filtration membrane frame;
Forming a pneumatic supply port and a pneumatic discharge port in the filtration membrane frame to supply and circulate the pneumatic pressure inside the filtration membrane frame;
Pneumatic nozzles are formed at upper and lower inner surfaces of the filtration membrane frame at regular intervals to inject pneumatic pressure into the filtration membrane frame;
Sewage recycling and purification apparatus for a circulating flush type portable toilet, characterized in that the outer surface of the filtration membrane frame is provided with a support with an attachment ring. According to claim 3, Wall-mounted elbow replacement filter is installed on the inner surface of the air purifier tank;
A replacement filter frame having a plurality of filter mounting chambers formed longitudinally or horizontally and having an attachment ring on the outer surface thereof;
The wastewater recycling and purification apparatus of the circulating flush type portable toilet characterized in that it is formed of a ganban stone filter mounted to each filter mounting chamber formed in the replacement filter frame. The method of claim 4, wherein the primary antibacterial filter unit and the secondary antibacterial filter inlet chamber;
And a plurality of ring-shaped media. The wastewater recycling and purification apparatus of the circulating flush type portable toilet characterized in that it comprises. The method of claim 4, wherein the primary antibacterial filtering frame or secondary antibacterial filtering frame
A filter frame formed in the shape of a rectangular parallelepiped and having a replacement filter handle formed at an upper end thereof;
Installing a plurality of filter loading chambers between the porous plate and the porous plate by installing the porous plates spaced apart at regular intervals in the filter frame;
Each filter loading chamber is filled with a filtering material, respectively; Sewage recycling and purification apparatus for a circulating flush type portable toilet. The method according to claim 6, wherein the primary filter processing tank, secondary filter processing tank, secondary honeycomb type acid treatment tank;
The UV sterilization system is installed on the upper side of each discharge pipe to sterilize the waste water discharged and purified; and the wastewater recycling and purification treatment apparatus of the circulating flush type mobile toilet. The method according to claim 6, Turbidity purification filter frame is installed in the filter processing tank of the secondary diffuser processing unit;
A filter frame formed in the shape of a rectangular parallelepiped and having a replacement filter handle formed at an upper end thereof;
Installing a plurality of filter loading chambers between the porous plate and the porous plate by installing the porous plates spaced apart at regular intervals in the filter frame;
Each filter loading chamber is filled with a filtering material, respectively, the filter sand, anthracite and activated carbon stacked in order from the upper side to the lower side; Sewage recycling and purification apparatus of the circulating flush type portable toilet characterized in that the. The apparatus of claim 9, wherein the diffuser device is installed inside the final collection tank in the purified water sterilization collection unit;
In the inner lower part of the final collection tank, a coil-type diffuser with a cap attached to the end is installed at a predetermined height from the floor.
The coil type diffuser is connected to an air pump and an air pipe installed outside of the final collection tank; and the wastewater recycling and purification apparatus of the circulation type flush toilet. The method according to claim 11, wherein the honeycomb spray;
A honeycomb spray frame formed in a hexagonal shape in plan view;
Maintaining the honeycomb spraying frame in a single layer or stacking in a multi-layer;
The honeycomb spraying frame is formed of a honeycomb structure by assembling a plurality of adjacent sides;
Sewage recycling and purification equipment of a circulating flush type portable toilet, characterized in that the interior of the honeycomb spraying frame maintained in a single layer or a multi-layer as built in the oxygen supply pipe frame provided with a pressure control device at the bottom. The method according to claim 15, wherein the filtering material is filled in each filter field chamber of the primary antibacterial filtering frame or the secondary antibacterial filtering frame;
A sewage recycling apparatus for recycling sewage in a circulating flush type portable toilet, characterized in that it is selectively filled with filtered sand, elvan, activated carbon, and charcoal. 20. The method of claim 19, Oxygen supply pipe frame is installed in the interior of the honeycomb spray frame;
A wastewater recycling and purification apparatus for a circulating flush type portable toilet, characterized in that the tip portion embedded in the honeycomb spray frame is formed of any one of branched, polygonal, and circular ring shapes. The method of claim 9, wherein the final filter is installed in the supply pipe of the final collection tank;
An activated carbon filtration filter is built into the inside of the filtration frame;

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