KR20210002059A - Wastewater treatment system with improved treating efficiency - Google Patents

Abstract

The present invention relates to a sewage water treatment device with improved treatment efficiency of a precipitate and a suspended matter. The sewage water treatment device with improved treatment efficiency of a precipitate and a suspended matter comprises: a pretreatment tank including a first pretreatment tank, a second pretreatment tank, and an adsorption space which includes a floating filter medium formed between the first and second pretreatment tanks; and a sewage water treatment tank. According to the present invention, processing efficiency can be improved.

Description

Wastewater treatment system with improved treating efficiency}

The present invention relates to a sewage treatment apparatus, and more particularly, after separating the precipitate from the introduced sewage water first, and then removing the suspended matter by the supplied oxygen bubbles, the scum is also effectively separated and discharged, thereby improving the treatment efficiency. It relates to a sewage treatment system with improved treatment efficiency.

There are 57 sewage treatment plants equipped with anaerobic digesters in Korea. Most of the sewage treatment plants are medium-sized sewage treatment plants with a daily treatment capacity of 200,000 tons, and the nitrogen load by the fire extinguishing water is about 86% of the design nitrogen load, and it is known that separate treatment of reflux water is required for stable nitrogen removal.

Although the amount of return water generated in the sludge treatment system of the sewage treatment plant is less than 1% of the inflow flow rate, the nitrogen load is 15-40% of the inflow load, and in the case of phosphorus, it reaches 50%.

Accordingly, with the continuous promotion of energy self-sufficiency and sludge reduction projects, there is a trend of increasing the improvement, expansion, and new construction of sewage treatment facilities and digesters. have.

Such high-concentration reflow water is returned to the inlet without any separate treatment, causing rapid load fluctuations, making it difficult to operate the sewage treatment plant and deteriorating the quality of discharged water. In particular, it is known that water quality deteriorates during the winter season when the water temperature decreases.

Furthermore, it is expected that the load of food wastewater pollutants flowing into the sewage treatment facility will increase by discharging after solid-liquid separation according to the food waste mass rate system and allowing and expanding the kitchen waste grinder. At this time, the effect of the nitrogen load caused by the reflow water is aggravated and has become a big problem, but a system that can solve all the problems in Korea has not yet been developed.

[Prior technical literature]

[Patent Literature]

Korean Patent Publication No. 10-2017-0009155 (2017.01.25)

Accordingly, the present invention is conceived to solve the above problems, and a pretreatment tank in which an adsorption space including a floating filter material is formed between the primary pretreatment tank, the secondary pretreatment tank, and the primary and secondary pretreatment tanks, and An object of the present invention is to provide a wastewater treatment device with improved treatment efficiency, which can improve treatment efficiency, as a wastewater treatment device including a wastewater treatment tank.

The present invention for achieving the above object is a wastewater treatment including a first pretreatment tank, a second pretreatment tank, and a pretreatment tank and a wastewater treatment tank in which an adsorption space including a floating filter is formed between the first and second pretreatment tanks. As a device,

The primary pretreatment tank is composed of an inlet, a first dispersion panel installed at the rear of the inlet and having a first dispersion hole, and a nonwoven fabric installed at the rear of the first dispersion panel and vertically mounted in multiple stages in a first horizontal fixture. A first vertical multi-stage adsorption part, a first catching part on which a first nonwoven fabric is placed on the upper part, a second dispersing panel installed on the first catching part and guided to be movable rearward and having a second dispersing hole, the second dispersing Compressed by wastewater by means of a first elastic spring interposed between the upper end of the first nonwoven fabric support and the first stopper, including a first nonwoven fabric supporter with a nonwoven fabric installed downward at a predetermined interval integrally with the panel While being configured to be compressed until the end of the first nonwoven fabric support contacts the first stopper,

In the adsorption space part, the floating filter material is placed on the bottom surface, and the floating filter material adsorbs and removes particulate matter remaining while floating to the top by oxygen supplied through an oxygen supply nozzle mounted at the bottom thereof,

The second pre-treatment tank includes a second hooking part in which a second nonwoven fabric is placed on the front end, a third dispersing panel installed on the second catching part and guided to be movable rearward and having a third dispersing hole formed thereon, and the third distributing panel. A second vertical multi-stage made of a second non-woven fabric supporter mounted with a non-woven fabric installed downward at a predetermined interval integrally with the second non-woven fabric support, and a non-woven fabric vertically mounted side by side in a multi-stage to a second horizontal fixing stand at the rear of the second non-woven fabric support It includes an adsorption unit, and is compressed by wastewater through a second elastic spring between the upper end of the second nonwoven fabric support and the second stopper, and is compressed until the end of the second nonwoven fabric support contacts the second stopper.

The sewage treatment tank according to the present invention has a body housing having a treatment space therein, an inlet space opened in an up-down direction, an internal body housing provided in the inner central part of the body housing, and a lower end of the internal body housing and a body housing A partition plate provided between the treatment space to divide the treatment space into a sedimentation space and an aeration space, a wastewater inlet for supplying wastewater to the inflow space of the internal body housing, and drainage of the filtered treated water provided at the upper end of the body housing A treated water discharge unit for discharging the treated water, a sediment discharge unit for discharging the sediment deposited in the settling space of the body housing, which is a lower side of the inner body housing, and introducing the treated water from which the sediment has been separated from the settling space unit into the aeration space unit. A treated water supply unit for, an oxygen supply unit for injecting oxygen bubbles into the aeration space unit, an oxygen supply rotation unit for rotating the treated water supply unit with respect to the inner body housing, and a scum provided to be suspended in the treated water of the aeration space unit. Includes a scum discharge unit for separating and discharging, and a wastewater circulation unit for separating the wastewater contained in the sediment discharged through the sediment discharge unit and circulating it to the treatment space unit of the body housing, and supplied by the wastewater inlet unit. Sewage water flows into the settling space part along the inlet space part of the inner body housing, and after sediment is settled, it is moved to the aeration space part by the treated water supply part, and then mixed with oxygen bubbles supplied by the oxygen supply part, and the floating material is The treated water separated and from which the suspended matter has been removed is discharged to the treated water discharge unit, and the scum is separated and discharged by the scum discharge unit.

Preferably, the inner body housing further includes a diffusion portion inclined to the outside as the lower end goes downward.

And the treated water discharging unit has a treated water discharging space unit open upwardly, a plurality of treated water discharging pipes provided along the outer periphery of the upper end of the body housing, and the treated water discharging pipe at predetermined intervals, And a treated water discharge pipe for discharging the treated water introduced into the treated water discharge space part, and after the treated water of the aeration space part overflows and moves to the treated water discharge space part, it is drained through each treatment water discharge pipe.

In addition, a plurality of discharge diaphragms are further provided to divide the treated water discharge space portion of the treated water discharge pipe into a predetermined size, and each of the treated water discharge space portions is provided with the treated water discharge pipe.

And it further includes a discharge space control unit for moving the discharge diaphragm along the treated water discharge pipe to adjust the size of each divided treated water discharge space.

In addition, the discharge space control unit has a predetermined width, a diaphragm border provided along the corresponding end of the discharge diaphragm in contact with the inner surface of the treated water discharging space, a diaphragm provided between the diaphragm border and the treated water discharge pipe Packing, a moving plate extending on the diaphragm border and having a constant arc in the outer circumferential direction, a driven gear part formed along the outer circumferential surface of the moving plate, a driving gear meshing with the driven gear, and rotating the driving gear It includes a drive motor for.

And the bottom surface of the body housing is formed to be inclined downward toward the outside from the center point, and the sediment discharge part is a sediment discharge pipe formed along the outer circumference of the bottom surface of the body housing, and the bottom surface of the body housing is scraped to settle. And a scraper for moving the precipitated sediment to the sediment discharge pipe, a scraper driving part for rotating the scraper with respect to the center point of the bottom of the body housing, and a sediment discharge pipe for discharging the sediment deposited in the sediment discharge pipe. .

In addition, the wastewater circulation unit has a dehydration space therein, a dehydration housing provided in the sediment discharge pipe, a dehydration screw rotatably provided in the dehydration housing, a dehydration motor for rotating the dewatering screw, and dehydration in the dewatering housing. And a solids discharge unit for discharging the precipitated solids, and a circulation supply unit for supplying the wastewater dehydrated from the dewatering housing to the treatment space of the body housing.

And the circulation supply unit, a circulation supply pipe for supplying dehydrated sewage water by connecting the dewatering housing and the body housing, a circulation supply tank communicating with the circulation supply pipe to store the dehydrated wastewater, and wastewater stored in the circulation supply tank. The second circulation supply pipe for introducing the circulating supply pipe, and the circulation supply pipe and the second circulation supply pipe are opened and closed respectively, and the supplied sewage water is supplied to the body housing along the circulation supply pipe or supplied to the circulation supply tank for a second circulation. It includes a circulation supply valve for supplying the wastewater stored through the supply pipe to the body housing.

In addition, it further includes a first sensor for measuring the amount of wastewater flowing into the treatment space of the body housing, and a circulation control unit for controlling the circulation supply valve by receiving a signal from the first sensor.

And the treated water supply unit, a plurality of treated water supply pipes provided along the outer circumference of the body housing so that the lower end communicates with the sedimentation space part and the upper end communicates with the aeration space part, and opening and closing each of the treated water supply pipes. It includes a treated water supply valve for.

In addition, the oxygen supply unit has an oxygen supply space portion between the partition plate, an oxygen supply plate provided outside the lower end of the inner body housing, a plurality of oxygen injection nozzles formed at predetermined intervals along the oxygen supply plate, and And an oxygen supply pump for supplying oxygen to the oxygen supply space portion of the oxygen supply plate.

Further, the oxygen supply plate is formed to be inclined downward from an inner end adjacent to the inner body housing to an outer end.

In addition, the oxygen supply rotation unit, a rotation frame positioned in the inflow space of the inner body housing to be connected to the oxygen supply plate, a rotation driving unit for rotating the rotation frame, and fixing the rotation driving unit to the inner body housing It includes a fixed frame for.

And the scum discharge unit has a scum frame and a scum discharge port, a scum discharge head provided in the scum frame for discharging the scum, a scum buoy for floating the scum frame, one end of a material having flexibility and the scum discharge port and It communicates, and the other end is located outside the body housing, and a scum discharge tube for discharging the scum, and a scum discharge pump for discharging the scum through the scum discharge port and the scum discharge tube by generating a suction force.

In addition, a delay unit, which is located in the air space portion and delays the upward movement of the wastewater and oxygen bubbles from which the sediment has been removed, to improve the mixing ratio, is further included.

And the delay part, the outer end is provided along the inner surface of the body housing, the downward slope toward the inside, the inner end is a first delay plate that forms a moving path spaced apart from the outer peripheral surface of the inner body housing by a predetermined distance, And a second delay plate having an inner end portion provided along an outer surface of the inner body housing and being inclined downward toward an outer side, and an outer end portion being spaced apart from the inner peripheral surface of the body housing to form a moving path, At least one of the first and second delay plates is provided, and is alternately positioned in the vertical direction.

In addition, a plurality of communication holes are further formed in the first delay plate and the second delay plate.

And it further includes a gas discharge unit for discharging the gas contained in the wastewater.

In addition, the gas discharge unit is provided inside the gas discharge housing so as to extend upwardly to the upper side of the body housing and is formed narrowly toward the upper side, and to extend upward to the inner body housing, and is narrower toward the upper side. A first gas-liquid filter provided between the gas-discharging housing and the internal gas-discharging housing to separate gas and liquid, a first dry filter for filtering gas that has passed through the first gas-liquid filter, the And a second gas-liquid filter provided in the internal gas discharge housing to separate gas and liquid, and a second dry filter for filtering gas that has passed through the second gas-liquid filter.

In addition, a circulation unit for circulating the treated water of the aeration space unit to the inlet space unit is further provided in the inner body housing.

In addition, the circulation unit has a plurality of circulation holes formed along the inner body housing, communication holes corresponding to each of the circulation holes, and a circulation ring provided to surround the inner body housing, and the circulation ring is rotated. It includes a circulation opening/closing driving part for controlling the degree of opening and closing of each communication hole and the corresponding circulation hole.

In addition, the circulation unit includes a plurality of circulation holes formed along the inner body housing, a circulation opening and closing ring provided to surround the inner body housing, and movable along the inner body housing, and the circulation opening and closing ring. It includes a circulation opening/closing driving part that moves along the housing to adjust the degree of opening and closing of the circulation hole.

As described above, according to the sewage treatment apparatus according to the present invention, after separating the sediment from the introduced sewage water, the suspended matter is also removed by the supplied oxygen, as well as removing the scum generated and treating the gas. It is a very useful and effective invention that makes it possible to improve efficiency.

1 is a view showing the configuration of a pretreatment tank according to the present invention
2 is a view showing a wastewater treatment apparatus according to the present invention
3 is a view showing a treated water discharge unit according to the present invention
4 is a view showing a sediment discharge unit according to the present invention
5 is a view showing a wastewater circulation unit according to the present invention
6 is a view showing an oxygen supply unit according to the present invention
7 is a view showing a scum discharge unit according to the present invention
8 is a view showing a gas discharge unit according to the present invention
9 is a view showing a state further provided with a circulation unit according to the present invention
10 is a view showing another embodiment of the circulation unit according to the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The detailed description to be disclosed hereinafter together with the accompanying drawings is intended to describe exemplary embodiments of the present invention, and is not intended to represent the only embodiments in which the present invention may be practiced. The following detailed description includes specific details to provide a thorough understanding of the present invention. However, those of ordinary skill in the art to which the present invention pertains knows that the present invention may be practiced without these specific details.

In some cases, in order to avoid obscuring the concept of the present invention, well-known structures and devices may be omitted, or may be shown in a block diagram form centering on core functions of each structure and device.

Throughout the specification, when a part is said to "comprising or including" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary. do. In addition, the term "... unit" described in the specification means a unit that processes at least one function or operation. In addition, "a or an", "one", "the" and similar related words are different from this specification in the context of describing the present invention (especially in the context of the following claims). Unless otherwise indicated or clearly contradicted by context, it may be used in a sense encompassing both the singular and the plural.

In describing embodiments of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout this specification.

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

1 is a diagram showing the configuration of a pretreatment tank according to the present invention, FIG. 2 is a view showing a wastewater treatment apparatus according to the present invention, and FIG. 3 is a view showing a treated water discharge unit according to the present invention, and FIG. 4 Is a view showing the sediment discharge unit according to the present invention, Figure 5 is a view showing the oxygen supply unit according to the present invention, Figure 6 is a view showing the scum discharge unit according to the present invention, Figure 7 is A view showing a gas discharge unit, Fig. 8 is a view showing a state in which the circulation unit is further provided according to the present invention, and Fig. 9 is a view showing another embodiment of the circulation unit according to the present invention.

1 is a configuration diagram of a pretreatment tank in which the present invention is implemented, and is formed by connecting the pretreatment tank in a series structure of the first pretreatment tank L and the second pretreatment tank R, but wastewater flows through the inlet 11 A first dispersion panel 14 having a plurality of dispersion holes 13 formed inside the primary pretreatment tank L is installed individually or in plurality.

In the primary pretreatment tank L, the flow of wastewater is evenly distributed up, down, left, and right by the first dispersing panel 14 and transferred to the subsequent first vertical multi-stage adsorption unit 15. The first vertical multi-stage adsorption unit 15 is made of a non-woven fabric 16 that is vertically mounted in a multi-stage parallel to the first horizontal fixing table 17. Each of the nonwoven fabrics may be moved inside according to the flow of water, and is preferably fixedly installed by the first vertical fixing stand 18.

The first vertical multi-stage adsorption unit 15 primarily removes various suspended substances or solids from the wastewater by adsorbing. At this time, the sludge is settled by gravity and discharged downward.

Since the wastewater introduced through the inlet 11 collides with the first dispersion panel 14 and passes through a number of dispersion holes 13, the wastewater flows evenly up and down, left and right, and a plurality of dispersion holes hitting the dispersion panel 4 By the process of passing through (13), a large amount of fine air bubbles are generated inside the first pretreatment tank (L).

In addition, foreign substances in the wastewater flowing into the primary pretreatment tank (L) are floated or precipitated due to the difference in specific gravity.At this time, the bubbles generated as described above are attached to the suspended solids to make the specific gravity lighter than water, so that the suspended solids can easily sleep. As it rises upward, separation and removal by the first vertical multistage adsorption unit 15 is facilitated.

Here, since the primary pretreatment tank L uses the buoyancy of air, it can be said that the sedimentation rate of sludge is very slow, but it is possible to remove floating foreign substances in a faster time.

In the primary pretreatment tank (L) using the buoyancy of air, foreign substances with a high specific gravity are precipitated and collected in the funnel-shaped sludge collecting unit provided at the bottom, and the precipitated foreign substances are transferred to the outside by a transfer screw (not shown). Is discharged.

A second dispersion panel 20 is additionally installed at the end of the primary pretreatment tank L in the direction of the wastewater. The second dispersing panel 20 is installed on the first hooking part (B), and the first pretreatment tank (L) and the adsorption space part (C) to be described later are installed on the first hooking part (B). They are isolated from each other by panels 20.

Foreign matters of a size that cannot pass through the second dispersion hole 21 of the second dispersion panel 20 are removed by floating or settling in the first pretreatment tank L, and the second dispersion of the second dispersion panel 20 is removed. Only the small-sized suspended matter or sediment material passing through the hole 21 flows into the adsorption space part C together with the wastewater.

In the present invention, the second dispersion panel 20 installed on the first engaging portion B is guided at its upper end so as to be movable rearward, and then the first nonwoven fabric support 22 on which the nonwoven fabric is mounted It is integrally installed with the distribution panel 20 in a downwardly spaced state at predetermined intervals. In addition, while being compressed by wastewater through the first elastic spring 25 between the upper end of the first nonwoven fabric support 22 and the first stopper 23, the end of the first nonwoven fabric support 22 becomes a first stopper ( 23).

The first nonwoven fabric support 22 is composed of a frame having a square shape made of a material such as plastic, and may be a form in which a nonwoven fabric is fixed and mounted inside the frame, but is not necessarily limited thereto.

Particulate matter contained in the wastewater that has passed through the second dispersion hole 21 of the second dispersion panel 20 is filtered by the nonwoven fabric mounted on the first nonwoven fabric support 22 installed at the rear end, and the supernatant liquid is a channel formed downward. It is introduced into the adsorption space (C) through.

At the same time, the second dispersion panel 20 presses the first nonwoven fabric 24 fixedly supported in a V-shape to the upper end of the first engaging portion B by hydraulic pressure, thereby blocking the water passage. Accordingly, particulate matter suspended in the wastewater is filtered by the first nonwoven fabric 24, and only the supernatant flows through the nonwoven fabric, so that it can flow into the adsorption space part C.

According to this configuration, even if a large amount of wastewater having a large amount of particulate matter flows into the first pretreatment tank L at a time, the second dispersing hole 21 and the first catching part B of the second dispersing panel 20 ), since water flow is formed only through the first nonwoven fabric 24 installed in), only wastewater with a constant flow rate in a state in which a significant amount of particulate matter has been removed is sent to the adsorption space (C).

In the adsorption space part (C), a floating filter material 30 (for example, a polyurethane material) is mounted on the bottom surface, and the floating filter material remains while floating to the top by oxygen supplied through the oxygen supply nozzle 26 installed at the bottom thereof. To remove the particulate matter. The oxygen supply nozzle 26 is connected to an oxygen supply pump 730 to be described later to supply oxygen.

A third dispersing panel 20' is additionally installed at the rear end of the adsorption space part C in the direction of wastewater. The third dispersion panel 20 ′ is installed on the line of the second locking part B′, and the adsorption space part C and the secondary pretreatment tank R described later are installed on the second locking part B′. They are isolated from each other by the third dispersion panel 20'.

The fine-sized suspended matter that has passed through the third dispersion hole 21 ′ of the third dispersion panel 20 ′ flows into the secondary pretreatment tank R together with wastewater.

In the present invention, the third dispersing panel 20 ′ installed on the second engaging portion B′ is similarly guided at its upper end so as to be movable rearward, and then the second nonwoven fabric support 22 ′ equipped with a nonwoven fabric Is integrally installed with the third dispersing panel 20 ′ and spaced at predetermined intervals downward. In addition, while being compressed by wastewater through a second elastic spring 25 ′ between the upper end of the second nonwoven fabric support 22 ′ and the second stopper 23 ′, the end of the second nonwoven fabric support 22 ′ It is compressed until it reaches the second stopper 23'.

The second non-woven fabric support 22 ′ is similarly composed of a frame having a square shape made of a material such as plastic, and may be a form in which a non-woven fabric is fixed and mounted inside the frame, but is not necessarily limited thereto.

The fine particulate matter contained in the wastewater passing through the third dispersing hole 21 ′ of the third dispersing panel 20 ′ is filtered through the non-woven fabric mounted on the second non-woven fabric support 22 ′ installed at the rear end, and the supernatant is It flows into the secondary pretreatment tank R through a channel formed below.

At the same time, the third dispersion panel 20' presses the second nonwoven fabric 24' fixed and supported in a V-shape to the upper end of the second engaging portion B'at its lower end by hydraulic pressure to block the water passage. . Accordingly, fine particulate matter in the wastewater is filtered through the second nonwoven fabric 24 ′, and only the supernatant flows through the nonwoven fabric, so that it may be introduced into the secondary pretreatment tank R.

In the secondary pretreatment tank R, a second vertical multi-stage adsorption part 15' is mounted therein. The second vertical multi-stage adsorption part 15 ′ is made of a non-woven fabric 16 ′ that is vertically mounted in a multi-stage parallel to the second horizontal fixing table 17 ′. Each of the nonwoven fabrics may be moved inside according to the flow of water, and is preferably fixedly installed by a second vertical fixing stand 18'.

The second vertical multistage adsorption unit 15 ′ additionally removes fine suspended substances or solids that may exist in wastewater by adsorbing. At this time, the excess sludge is settled by gravity and discharged downward.

A fourth dispersing panel 13 ′ formed with a fourth dispersing hole 14 ′ is additionally installed at an end of the secondary pretreatment tank R in the direction of the wastewater.

Through the above configuration, wastewater is introduced into the wastewater inlet 400 of the wastewater treatment apparatus of the present invention while a considerable amount of suspended substances, which are various pollutants, has been pretreated, so that the load in the subsequent procedure can be greatly reduced.

As shown in the drawing, the sewage treatment apparatus according to the present invention includes a body housing 100 and an inner body housing 200, a diaphragm 300, a wastewater inlet 400, a treated water discharge part 500, and a sediment discharge. A unit 600, an oxygen supply unit 700, a scum discharge unit 800, a treated water supply unit 1000, an oxygen supply rotating unit 1100, and a wastewater circulation unit 1200 are included.

The body housing 100 has a processing space portion 110 formed therein, and is formed in a circular cylinder having a diameter or a square or polygonal shape.

And the inner body housing 200 has an inlet space portion 202 opened in the vertical direction therein, and is provided in the inner central portion of the body housing 100, it is preferably formed in a cylindrical shape.

The diaphragm 300 has a plurality of through holes 310, and is provided between the lower end of the inner body housing 200 and the body housing 100 to provide the treatment space 110 to the settling space 112 and the air space. 114).

Here, the inner body housing 200 further includes a diffusion unit 210 that is inclined to the outside as the lower end goes downward, and increases the sedimentation rate of the sediment by diffusing while reducing the speed of the wastewater flowing into the sedimentation space unit 112 .

In addition, the wastewater inlet 400 is provided to supply the wastewater to the inlet space 210 of the inner body housing 200.

The treated water discharge unit 500 is provided at the upper end of the body housing 100 and provided to drain the filtered treated water.

And the sediment discharge unit 600 is provided to discharge the sediment settled in the sedimentation space unit 112 of the body housing 100, which is a lower side of the inner body housing 200.

The treated water supply unit 1000 is provided to introduce the treated water from which the sediment is separated from the settling space unit 112 into the aeration space unit 114.

In addition, the oxygen supply unit 700 is provided on the upper side of the diaphragm 300 and is provided to inject oxygen bubbles into the air space unit 114.

The scum discharge unit 800 is provided so as to float in the treated water of the aeration space unit 114 and is provided to separate and discharge the scum.

Looking at the operating state of the wastewater treatment apparatus, sewage water is supplied to the inflow space 210 of the internal body housing 200 by the wastewater inlet 400, and then flows into the sedimentation space 112 to precipitate Is precipitated.

In addition, the wastewater from which the sediment is separated is moved to the aeration space unit 114 by the treated water supply unit 1000 and then mixed with oxygen bubbles supplied by the oxygen supply unit 700 to separate the suspended matter.

The treated water from which the suspended matter has been removed is discharged to the treated water discharge unit 500, and the scum is separated and discharged by the scum discharge unit 800.

Accordingly, it is possible to effectively remove sediment, suspended matter, and scum from sewage water, thereby improving treatment efficiency.

In addition, the oxygen supply rotating unit 1100 is provided to rotate the treated water supply unit 1000 based on the inner body housing 200.

The wastewater circulation unit 1200 is provided to separate the sewage water contained in the sediment discharged through the sediment discharge unit 600 and circulate it to the treatment space unit 110 of the body housing 100.

To this end, the treated water discharge unit 500 includes a treated water discharge pipe 510 and a treated water discharge pipe 520 as shown in FIG. 3.

The treated water discharge pipe 510 has a treated water discharge space 512 that is open upwards therein, and is provided along the outer periphery of the upper end of the body housing 100.

In addition, a plurality of treated water discharge pipes 520 are provided in the treated water discharge pipe 510 at regular intervals to discharge the treated water flowing into the treated water discharge space unit 512.

After the treated water of the aerated space part 114 overflows and moves to the treated water discharge space part 512, it is drained through each treatment water discharge pipe 520.

Accordingly, the treated water is discharged in a plurality of directions, thereby improving discharge efficiency.

Here, a plurality of discharge diaphragms 530 are further provided to divide the treated water discharge space part 512 of the treated water discharge pipe 510 into a predetermined size.

Each of the treated water discharge spaces 512 partitioned by the discharge diaphragm 530 is provided with treatment water discharge pipes 520, respectively, to rapidly discharge the treated water of the treatment water discharge space 512.

And the treated water discharge unit 500 is a discharge space control unit 540 for moving the discharge diaphragm 530 along the treated water discharge pipe 510 to adjust the size of each divided treated water discharge space 512 It includes more.

The discharge space control unit 540 is composed of a partition plate border 541 and a partition plate packing 542, a moving plate 543, a driven gear unit 544, a driving gear 545, and a driving motor 546.

The diaphragm border 541 has a certain area and is provided along the corresponding end of the discharging diaphragm 530 that contacts the inner surface of the treated water discharging space part 512.

In addition, the diaphragm packing 542 is provided between the diaphragm border 541 and the treated water discharge pipe 510 to partition each treated water discharge space 512 from each other.

The moving plate 543 is formed to extend on the diaphragm border 541 and is formed in a constant arc in the outer circumferential direction, and is formed to be movable along the outer circumference of the treated water discharge pipe 510.

And the driven gear part 544 is formed along the outer peripheral surface of the moving plate 543.

The drive gear 545 is meshed with the driven gear part 544, and the drive motor 546 is provided to rotate the drive gear 545.

In addition, as shown in FIG. 4, the bottom surface of the body housing 100 is formed to be inclined downward toward the outside based on the center point.

And the sediment discharge part 600 is composed of a sediment discharge pipe 610 and a scraper 620, a scraper driving unit 630 and a sediment discharge pipe 640.

The sediment discharge pipe 610 is formed along the outer periphery of the bottom surface of the body housing 100.

In addition, the scraper 620 is provided to scrape the bottom of the body housing 100 to move the precipitated precipitate to the precipitate discharge pipe 610.

The scraper driving part 630 is provided to rotate the scraper 620 based on the center point of the bottom surface of the body housing 100.

And the sediment discharge pipe 640 is provided to discharge the sediment precipitated in the sediment discharge pipe 610.

In addition, as shown in Figure 5, the wastewater circulation unit 1200 includes a dewatering housing 1210, a dewatering screw 1220, a dehydration motor 1230, a solids discharge unit 1240 and a circulation supply unit 1250.

The dehydration housing 1210 has a dehydration space portion 1212 therein, and is provided in the sediment discharge pipe 640.

And the dewatering screw 1220 is rotatably provided in the dewatering housing 1210.

The dewatering motor 1230 is provided to rotate the dewatering screw 1220.

In addition, the solids discharge unit 1240 is provided to discharge the precipitated solids dehydrated in the dewatering housing 1210.

The circulation supply unit 1250 is provided to supply the wastewater dehydrated from the dewatering housing 1210 to the treatment space unit 110 of the body housing 100.

According to such a wastewater circulation unit 1200, as the wastewater contained in the discharged sediment is recovered and circulated back to the body housing 100, treatment efficiency in the body housing 100 can be improved, as well as discharge. It makes it possible to facilitate the subsequent treatment of precipitated solids.

Here, the circulation supply unit 1250 includes a circulation supply pipe 1252, a circulation supply tank 1254, a second circulation supply pipe 1256 and a circulation supply valve 1258.

The circulation supply pipe 1252 is provided to connect the dewatering housing 1210 and the body housing 100 to supply dewatered wastewater.

And the circulation supply tank 1254 is provided in communication with the circulation supply pipe 1252 to store the dehydrated wastewater.

The second circulation supply pipe 1256 is provided to introduce the wastewater stored in the circulation supply tank 1254 to the circulation supply pipe 1254.

In addition, the circulation supply valve 1258 opens and closes the circulation supply pipe 1252 and the second circulation supply pipe 1256, respectively, and supplies the supplied wastewater to the body housing 100 along the circulation supply pipe 1252 or the circulation supply tank 1254 ) Is provided to supply the sewage water stored through the second circulation supply pipe 1256 to the body housing 100 later.

In addition, the wastewater circulation unit 1200 further includes a first sensor 1260 and a circulation control unit 1270.

The first sensor 1260 is provided to measure the amount of wastewater flowing into the treatment space 110 of the body housing 100.

Further, the circulation control unit 1270 is provided to control the circulation supply valve 1258 provided in the circulation supply pipe 1252 and the second circulation supply pipe 1256 by receiving a signal from the first sensor 1260.

The circulation control unit 1270 prevents excessive supply of wastewater to the body housing 100, and stores the dehydrated wastewater in the circulation supply tank 1254 to automatically adjust the supply amount.

In addition, as shown in FIG. 6, the treated water supply unit 1000 includes a treated water supply pipe 1010 and a treated water supply valve 1020.

A plurality of treated water supply pipes 1010 are provided along the outer periphery of the body housing 100 so that the lower end communicates with the settling space part 112 and the upper end communicates with the air space part 114.

In addition, the treated water supply valve 1020 is provided to open and close each treated water supply pipe 1010.

Sewage water from the sedimentation space part 112 may be supplied to the aeration space part 114 through each of these treated water supply pipes 1010.

Of course, by operating each treated water supply valve 1020 to open and close the corresponding treated water supply pipe 1010, the amount of sewage water supply can be adjusted.

In addition, the oxygen supply unit 700 is composed of an oxygen supply plate 710, an oxygen injection nozzle 720, and an oxygen supply pump 730.

The oxygen supply plate 710 has an oxygen supply space part 712 therein, and is provided outside the lower end of the inner body housing 200.

In addition, a plurality of oxygen injection nozzles 720 are formed at regular intervals along the oxygen supply pipe 710, and the oxygen supply pump 730 is used to supply oxygen to the oxygen supply space part 712 of the oxygen supply plate 710. It is equipped.

Here, the oxygen supply plate 710 is formed to be inclined downward as it goes from an inner end adjacent to the inner body housing 200 to an outer end.

Oxygen bubbles are inclined upwardly and outwardly by the oxygen injection nozzle 720 provided in the oxygen supply plate 710 to improve the mixing ratio with the treated water.

In addition, the oxygen supply rotating unit 1100 is composed of a rotating frame 1110, a rotating drive unit 1120, and a fixed frame 1130.

The rotation frame 1110 is located in the inflow space 202 of the inner body housing 200 to be connected to the oxygen supply plate 710.

The rotation frame 1110 is branched outwardly with respect to the center to form an end.

Of course, it is natural that an incision (not shown) is formed at the lower end of the inner body housing 200 so that the end of the rotating frame 1110 is connected to the oxygen supply plate 710 so as to be rotatable.

In addition, the rotation drive unit 1120 is provided to rotate the rotation frame 1110, and the fixing frame 1130 is provided to fix the rotation drive unit 1120 to the inner body housing 200.

It is natural that the fixed frame 1130 is also branched outward in a plurality based on the center, and that the introduced sewage water can be moved downward.

In addition, as shown in Figure 7, the scum discharge unit 800 is composed of a scum frame 810, a scum discharge head 820, a scum buoy 830, a scum discharge tube 840 and a scum discharge pump 850 do.

The scum discharge head 820 has a scum discharge port 822 and is provided in the scum frame 810 to discharge the scum.

And the scum buoy 830 is provided to float the scum frame 810, it is preferably provided with a plurality.

The scum discharge tube 840 is made of a flexible material, and one end communicates with the scum discharge port 822 of the scum discharge head 820, and the other end is located outside the body housing 100 to discharge the scum.

In addition, the scum discharge pump 850 generates a suction force and discharges the scum through the scum discharge port 822 and the scum discharge tube 840.

Here, a head lifting part 860 for lifting the scum discharge head 820 is further provided on the scum frame 810.

As the scum discharge head 820 is moved by the head lifting unit 860 and the position of the scum discharge port 822 is adjusted, the amount of discharge can be adjusted according to the height of the generated scum.

In addition, the body housing 100 further includes a delay unit 120 positioned in the air space unit 114 to delay the upward movement of the wastewater and oxygen bubbles from which the sediment has been removed to improve the mixing ratio.

The delay unit 120 includes a first delay plate 122 and a second delay plate 124.

The first delay plate 122 is provided with an outer end along the inner surface of the body housing 100, and is inclined downwardly toward the inner side, and the inner end is spaced apart from the outer circumferential surface of the inner body housing 200 by a predetermined distance to form a moving path. To form.

In addition, the second delay plate 124 is provided with an inner end along the outer surface of the inner body housing 200, and is inclined downward toward the outside, and the outer end is spaced apart from the inner circumferential surface of the body housing 100 to move To form.

At least one of the first and second delay plates 122 and 124 are provided, but they are alternately positioned in the vertical direction to improve the mixing ratio of the wastewater and oxygen bubbles from which the sediment has been removed to separate the suspended matter. .

In addition, the first delay plate 122 and the second delay plate 124 have a plurality of communication holes 126 further formed to allow some of the wastewater and oxygen bubbles to pass.

In addition, as shown in Figure 8, it further includes a gas discharge unit 900 for discharging the gas contained in the wastewater.

The gas discharge unit 900 includes a gas discharge housing 910 and an internal gas discharge housing 920, a first gas-liquid filter 930, a first dry filter 940, a second gas-liquid filter 950 and a second dry type. It consists of a filter 960.

The gas discharge housing 910 extends upwards of the body housing 100 and is formed narrower toward the upper side.

In addition, the internal gas discharge housing 920 is provided inside the gas discharge housing 910 so as to extend upward of the internal body housing 200, and is formed narrower toward the upper side.

The first gas-liquid filter 930 is provided between the gas discharge housing 910 and the internal gas discharge housing 920 to separate gas and liquid.

In addition, the first dry filter 940 filters the gas that has passed through the first gas-liquid filter 930.

The second gas-liquid filter 950 is provided in the internal gas discharge housing 920 to separate gas and liquid.

In addition, the second dry filter 960 filters the gas that has passed through the second gas-liquid filter 950.

As the wastewater introduced by the gas discharge unit 900 and the gas contained in the treated water are treated, toxic substances and odors contained in the gas may be treated.

In addition, as shown in FIG. 9, a circulation unit 220 for circulating the treated water of the air-air space unit 114 to the inlet space unit 210 is further provided in the inner body housing 200.

The circulation part 220 is composed of a circulation hole 222 and a circulation ring 224 and a circulation opening/closing driving part 226.

A plurality of circulation holes 222 are formed along the inner body housing 200.

And the circulation ring 224 has a communication hole 225 corresponding to each circulation hole 222, is provided to surround the inner body housing 200.

The circulation opening/closing driver 226 rotates the circulation ring 224 to adjust the degree of opening and closing of each communication hole 225 and the circulation hole 222 to adjust the amount of circulation.

On the other hand, as shown in FIG. 10, the circulation unit 220' of another embodiment includes a circulation hole 222', a circulation opening/closing ring 224', and a circulation opening/closing driver 226'.

A plurality of circulation holes 222 ′ are formed along the inner body housing 200.

And the circulation opening and closing ring 224 ′ is provided to surround the inner body housing 200, and is provided to be movable along the inner body housing 200.

The circulation opening/closing drive unit 226' moves the circulation opening/closing ring 224' to adjust the degree of opening and closing of the circulation hole 222' to adjust the amount of circulation.

100: body housing
200: inner body housing
300: Multi attack plate
400: wastewater inlet
500: treated water discharge unit
600: sediment discharge unit
700: oxygen supply unit
800: scum discharge unit
900: gas discharge unit
1000: treated water supply unit
1100: oxygen supply rotating part

Claims (1)

As a wastewater treatment apparatus comprising a primary pretreatment tank, a secondary pretreatment tank, and a pretreatment tank and a wastewater treatment tank in which an adsorption space including a floating filter is formed between the primary pretreatment tank and the second pretreatment tank,
The primary pretreatment tank is composed of an inlet, a first dispersion panel installed at the rear of the inlet and having a first dispersion hole, and a nonwoven fabric installed at the rear of the first dispersion panel and vertically mounted in multiple stages in a first horizontal fixture. A first vertical multi-stage adsorption part, a first catching part on which a first nonwoven fabric is placed on the upper part, a second dispersing panel installed on the first catching part and guided to be movable rearward and having a second dispersing hole, the second dispersing Compressed by wastewater by means of a first elastic spring interposed between the upper end of the first nonwoven fabric support and the first stopper, including a first nonwoven fabric supporter with a nonwoven fabric installed downward at a predetermined interval integrally with the panel While being configured to be compressed until the end of the first nonwoven fabric support contacts the first stopper,
In the adsorption space part, the floating filter material is placed on the bottom surface, and the floating filter material adsorbs and removes particulate matter remaining while floating to the top by oxygen supplied through an oxygen supply nozzle mounted at the bottom thereof,
The second pre-treatment tank includes a second hooking part in which a second nonwoven fabric is placed on the front end, a third dispersing panel installed on the second catching part and guided to be movable rearward and having a third dispersing hole formed thereon, and the third distributing panel. A second vertical multi-stage made of a second non-woven fabric supporter mounted with a non-woven fabric installed downward at a predetermined interval integrally with the second non-woven fabric support, and a non-woven fabric vertically mounted side by side in a multi-stage to a second horizontal fixing stand at the rear of the second non-woven fabric support It includes an adsorption part, and is configured to be compressed by wastewater through a second elastic spring between the upper end of the second nonwoven fabric support and the second stopper, and the end of the second nonwoven fabric support is compressed until it contacts the second stopper,
The wastewater treatment tank,
A body housing having a processing space therein;
An inner body housing having an inlet space portion open in the vertical direction therein and provided at an inner central portion of the body housing;
A diaphragm provided between the lower end of the inner body housing and the body housing to divide the processing space into a settling space and an aeration space;
A wastewater inlet part for supplying wastewater to the inlet space part of the inner body housing;
A treated water discharge unit provided at an upper end of the body housing to drain the filtered treated water;
A sediment discharge unit for discharging the sediment deposited in the sedimentation space portion of the body housing, which is a lower side of the inner body housing;
A treated water supply unit for introducing the treated water from which the sediment has been separated from the settling space unit into the air space unit;
An oxygen supply unit for injecting oxygen bubbles into the aeration space unit;
An oxygen supply rotating unit for rotating the treated water supply unit based on the inner body housing;
A scum discharging unit provided to be floating in the treated water of the aerated space unit to separate and discharge scum; And
Including; a wastewater circulation unit for separating the wastewater contained in the sediment discharged through the sediment discharge unit and circulating it to the treatment space unit of the body housing,
Sewage water supplied by the wastewater inlet unit,
After flowing into the settling space part along the inflow space part of the inner body housing and sedimenting the precipitate, it is moved to the aeration space part by the treated water supply part, and then mixed with the oxygen bubbles supplied by the oxygen supply part to separate the floating matter,
The treated water from which the floating matter is removed is discharged to the treated water discharge unit, and the scum is separated and discharged by the scum discharge unit,
The treated water discharge unit,
A treated water discharging pipe having a treated water discharging space portion opened upwardly therein, and provided along an outer periphery of an upper end of the body housing; And
And a treated water discharge pipe provided in a plurality of treated water discharge pipes at regular intervals for discharging the treated water introduced into the treated water discharge space,
A sewage treatment apparatus, characterized in that after the treated water of the aeration space part overflows and moves to the treated water discharge space part, it is drained through each treated water discharge pipe.

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