KR101043720B1 - Treatment device of waste water - Google Patents

Abstract

PURPOSE: An apparatus for disposing the solid and oil components of waste water is provided to prevent the reduction of processing efficiency in a cylindrical filtering part by protecting the cylindrical filtering part from the reintroduction of the solid components. CONSTITUTION: A water tub(1), a circumference chamber(2), a precipitating space(3), a cylindrical filtering part(4), a horizontal filtering part(5), an attaching processing part(6), an oil outlet(7), and a water outlet(8) are prepared. The water tub is installed at the water draining part of a pre-processing tub(10). The circumference chamber is in connection with a processing water supplying pipe. A precipitate discharging pipe(31) is installed in the precipitating space. In the cylindrical filtering part, oil and solid components of processing water pass through a plurality of polymer filters. In the horizontal filtering part, non-processed oil and solid components of processing water pass through a plurality of polymer filters. The attaching processing part attaches and precipitates the solid components.

Description

Wastewater solids and oil component treatment equipment {TREATMENT DEVICE OF WASTE WATER}

The present invention relates to an apparatus for treating solids and oil components of waste water, and more particularly, to effectively remove solids and fine particles of oil components contained in treated water discharged from a pretreatment tank through a single water tank. The present invention relates to an apparatus for treating solids and oil components in wastewater.

Generally, the wastewater flowing into the wastewater treatment plant contains suspended solids, solids and oils.

Therefore, when the wastewater is treated in the wastewater treatment plant, the pretreatment tank pre-treats the wastewater by flotation of suspended solids and oil components in the wastewater and precipitation of SS (Suspended Solids) components.

However, the SS component of the fine particles and the oil droplets of the fine particles remain in the treated water discharged after being pretreated in the pretreatment tank as described above.

Thus, when treating the treated water discharged from the pre-treatment tank, the fine particles contained in the treated water by using a filtration process using sand, an adsorption process using activated carbon, or a process of mixing and processing these processes continuously The method of removing solids and oil droplets of was used.

However, since the SS and oil components remaining in the treated water discharged from the pretreatment tank have very small particle sizes, the SS and oil components are removed by a physical filtration process using particles such as sand and activated carbon. There was a limiting problem.

Accordingly, the present invention has been made to solve the above problems,

An object of the present invention is to efficiently remove the SS component (hereinafter referred to as "solid") and the oil component of the fine particles contained in the treated water discharged from the pretreatment tank through a single water tank. The present invention provides an apparatus for treating solids and oil components of waste water.

Another object of the present invention, by providing an adhesive treatment in the inner space of the cylindrical filter processing unit, which is a lower space of the horizontal filter processing unit, the solid material of the unprocessed residual fine particles in the cylindrical filter processing unit is combined in the horizontal filter processing unit to fall down An object of the present invention is to provide an apparatus for treating solids and oil components in wastewater, which is able to adhere to large particles of solids so that they can be precipitated.

It is still another object of the present invention to provide a solids and oil component separation device for wastewater that is prevented from being reintroduced into the upper portion of the cylindrical filter treatment by coalescing from the horizontal filter treatment.

The present invention for achieving the above object, the water tank provided on the drain side of the pretreatment tank; A circumferential chamber formed at a lower circumference of the water tank and connected to a treatment water supply pipe to which treated water is supplied by a drop from the pretreatment tank, and an open passage is formed at a lower circumference of the inner wall; A precipitation space formed at a lower portion of the inner space of the circumferential chamber and having a precipitate discharge pipe at a side thereof; It is provided on the inner circumference of the circumferential chamber and the oil component of the microparticles and the solid particles of the microparticles contained in the treated water introduced from the circumferential chamber are combined while passing through a plurality of polymer filters to float the oil components and the solids are the settling space. Cylindrical filter processing unit for dropping; It is provided on the upper periphery of the inner circumference of the circumferential chamber and the oil component of the untreated microparticles and the solid particles of the microparticles are passed through a plurality of polymer filters and coalesced, respectively, so that the oil component floats and the solids enter the precipitation space. A horizontal filter processing unit for dropping; An adhesive treatment unit formed in the inner space of the cylindrical filter processing unit and adhering the solid material of the untreated microparticles in the cylindrical filter processing unit to the solids of the large particles falling from the horizontal filter processing unit; An oil discharge pipe provided at an upper portion of the tank; A water discharge pipe disposed at the side of the tank to discharge treated water; It is characterized by including.

The cylindrical filter processing unit; An outer circumferential surface is formed to be in close contact with an inner circumferential surface of the circumferential chamber, and a plurality of water passing holes are formed in the inner, outer and upper and lower plates, and a cylindrical filter passage in which the plurality of polymer filters are filled; A plurality of fixing legs provided at a lower portion of the cylindrical filter cylinder to fix the cylindrical filter cylinder to the lower portion of the water tank; It is characterized by including.

In addition, the horizontal filter processing unit; A conical wall of upper and lower light beams provided to protrude and extend upward from an inner circumferential upper portion of the circumferential chamber and having an opening formed thereon; A circular horizontal filter cylinder which is horizontally fixed to the upper opening of the conical wall through a fixed circumferential wall, and has a plurality of through holes formed in upper and lower plates, and filled with the plurality of polymer filters therein; It is characterized by including.

In addition, the outer diameter of the horizontal filter cylinder is formed smaller than the inner diameter of the cylindrical filter cylinder; The upper portion of the inner circumference of the cylindrical filter cylinder, characterized in that the protruding cutoff tube is further provided to prevent the solid material falling from the horizontal filter processing portion to the upper portion of the cylindrical filter cylinder.

In addition, the polymer filter is characterized by consisting of a cylindrical tube composed of a high molecular polyethylene.

The present invention as described above, by effectively removing the solids of the fine particles and the oil components of the fine particles contained in the treated water discharged from the pre-treatment tank through a single tank, thereby improving the treatment efficiency and the construction of the treatment apparatus The cost can be reduced to a minimum.

In addition, the effect of the coalescence treatment by the polymer filters is obtained, and the solid matter of the residual fine particles included in the treated water firstly processed in the cylindrical filter treatment unit is treated by adhesion in the adhesive treatment unit, thereby further improving the treatment efficiency of the wastewater. There are also effects that can be made.

In addition, by preventing the solid material coalesced from the horizontal filter processing unit falling back to the upper portion of the cylindrical filter processing unit, the processing efficiency of the cylindrical filter processing unit is prevented from being lowered in advance.

1 is a block diagram showing a processing apparatus according to the present invention.
Figure 2 is a partially cutaway perspective view of the water tank according to the present invention.
Figure 3 is an enlarged cross-sectional view of the water tank according to the present invention.
Figure 4 is an enlarged perspective view of the cylindrical filter processing unit according to the present invention.
Figure 5 is an enlarged perspective view of a horizontal filter barrel constituting a horizontal filter processing unit according to the present invention.
6 is a perspective view showing a polymer filter according to the present invention.
7 is a cross-sectional view showing the operation of the treatment apparatus according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the present invention may be embodied in many different forms and should not be limited to the described embodiments.

1 is a configuration diagram showing a treatment apparatus according to the present invention, Figure 2 is a partially cutaway perspective view of the water tank according to the present invention, Figure 3 is an enlarged cross-sectional view showing the water tank according to the present invention.

The wastewater solids and oil component treatment apparatus according to the present invention is provided on the drain side of the pretreatment tank 10 for pretreatment of the wastewater by injecting the wastewater, floating the oil component or suspended solids of the large particles and precipitating the solids of the large particles. It is to serve to remove the solids of the fine particles and the oil component of the fine particles contained in the pretreated treated water.

Therefore, the wastewater solids and oil component treating apparatus according to the present invention includes a water tank 1 and a lower periphery of the water tank 1 to receive pretreated water from the pretreatment tank 10 and receive a lower portion of the inner wall. A circumferential chamber 2 having an open passage 23 formed therein, a settling space 3 provided below the water tank 1, and a cylindrical filter treatment unit provided at an inner circumference of the circumferential chamber 2 ( 4), a horizontal filter processing portion 5 provided at the upper portion of the inner circumference of the circumferential chamber 2, an adhesive treatment portion 6 formed in the inner space of the cylindrical filter processing portion 4, and the water tank 1 And an oil discharge pipe 7 provided at an upper portion of the oil discharge pipe 7 for discharging the injured oil component, and a water discharge pipe 8 provided at the side of the water tank 1 to discharge the treated water.

In addition, the water tank 1 is provided on the drain side of the pretreatment tank 10, and is preferably located at the lower portion of the pretreatment tank 10 so that water may be supplied from the pretreatment tank 10 using a drop. Do.

In addition, the circumferential chamber 2 is formed in the lower periphery of the water tank 1, and the treatment water supply pipe 21 to which the treated water is supplied from the pretreatment tank 10 is connected to the upper portion of the outer tank 22, An open passage 23 is formed in the lower circumference.

The treated water flowing through the treated water supply pipe 21 is supplied by a drop from the pretreatment tank 10, and a valve is provided in the middle of the treated water supply pipe 21 to selectively supply water. It is.

As the treated water supply pipe 21 is located above the circumferential chamber 2 and the open passage 23 is located inside the circumferential chamber 2, the treatment flows into the circumferential chamber 2. The water is introduced into the cylindrical filter processing unit 4 provided inside the circumferential chamber 2 through the drop.

Therefore, the circumferential chamber 2 serves to introduce the treated water introduced from the pretreatment tank 10 into the cylindrical filter treatment unit 4.

In addition, the precipitation space 3 is formed to be recessed downward in the lower portion of the inner space of the circumferential chamber 2, which is the lower portion of the water tank 1, and serves to collect the solid precipitated during treatment.

And in the side of the sedimentation space (3), when the solid is precipitated and accumulated in the sedimentation space (3) over time, the sediment discharge pipe 31 is provided with a valve for discharging the sediment to the outside .

Figure 4 is an enlarged perspective view of the cylindrical filter processing unit according to the present invention, Figure 6 is a perspective view showing a polymer filter according to the present invention.

The cylindrical filter processing unit 4, as shown in Figures 1 to 4 and 6, is provided on the inner periphery of the circumferential chamber 2, the fine particles contained in the treated water introduced from the circumferential chamber 2 The oil component and fine particles of the solid particles are passed through a plurality of polymer filters (F), respectively, to combine the oil component to float and the solids to serve to drop into the precipitation space (3).

That is, the cylindrical filter processing unit 4, the outer peripheral surface is formed to be in close contact with the inner peripheral surface of the circumferential chamber 2, a plurality of through-holes 411 are formed in the inner, outer and upper and lower plates, the inside It includes a cylindrical filter cylinder 41 is filled with a plurality of polymer filters (F). In addition, the cylindrical filter processing unit 4 includes a plurality of fixing legs 42 provided at the lower portion of the cylindrical filter cylinder 41 to fix the cylindrical filter cylinder 41 to the lower portion of the water tank 1. In addition, the upper and lower portions of the inner circumferential surface of the circumferential chamber 2 protrude more and more support protrusions for supporting the upper and lower circumferences of the cylindrical filter cylinder 41. It is provided to protrude by pouring.

On the other hand, the polymer filter (F), as shown in Figure 6 is composed of a cylindrical tube made of polymer polyethylene, and the oil component of the fine particles into the inside of the cylindrical filter cylinder 41 filled with the polymer filter (F) and When the treated water containing the solid particles of the fine particles passes, the oil components of the fine particles pass through the inner hollow portion and the interspace of the polymer filters (F) and coalesce with each other to increase the particles of the oil component. As the solids of the microparticles pass through the inner hollow portion and the interspace of the), they are coalesced (adhered) to each other to increase the size of the solids.

Accordingly, oil components having a larger particle while passing through the cylindrical filter barrel 41 are floated through the plurality of water passage holes 411, and solids having larger particles while passing through the cylindrical filter barrel 41 are passed through the plurality of water passages. Through the hole 411 is to be submerged in the precipitation space (3). In addition, the polymer filter (F) is to prevent the degradation of the treatment efficiency by periodically cleaning with high pressure water as it is composed of a cylindrical tube.

Figure 5 is an enlarged perspective view of a horizontal filter barrel constituting a horizontal filter processing unit according to the present invention, Figure 6 is a perspective view showing a polymer filter according to the present invention.

As shown in FIGS. 1 to 3 and 5 and 6, the horizontal filter processing unit 5 protrudes on the inner circumference of the circumferential chamber 2 and is untreated by the cylindrical filter processing unit 4. The oil component of the fine particles and the solids of the fine particles are passed through a plurality of polymer filters (F), respectively, to coalesce the oil component, and the solids serve to drop the solids into the precipitation space (3).

That is, the horizontal filter processing unit 5 is provided to protrude and extend upward from the inner peripheral upper portion of the circumferential chamber 2, and includes a conical wall 51 of upper and lower light having an opening formed thereon. The horizontal filter processing unit 5 is horizontally fixed to the upper opening of the conical wall 51 through a fixed circumferential wall, and a plurality of water passing holes 521 are formed in the upper and lower plates, and It includes a circular horizontal filter cylinder 52 is filled with the plurality of polymer filters (F). In addition, upper and lower portions of the inner circumferential surface of the fixed circumferential wall protrude more and more support protrusions for supporting the upper and lower circumferences of the horizontal filter cylinder 52. It is provided to protrude by.

On the other hand, the polymer filter (F), as shown in Figure 6 is composed of a cylindrical tube made of polymer polyethylene, the cylindrical filter cylinder 41 into the inside of the horizontal filter cylinder 52 filled with the polymer filter (F) When the treated water containing the oil component of the residual fine particles and the solids of the residual fine particles firstly processed from the upper side passes from the bottom to the upper side, the oil component of the residual fine particles into the inner hollow portion and the interspace of the polymer filters (F). As they pass through, they coalesce with each other to increase oil-based particles, and as solids of residual fine particles pass through internal hollows and interspaces of the polymer filters F, they coalesce (adhesive) to each other to increase the particles of solids. .

Therefore, as the treated water primarily processed in the cylindrical filter barrel 41 passes through the horizontal filter barrel 52 from the bottom to the upper part, the oil components having larger particles pass through the plurality of water passage holes 521 formed thereon. Floating solids, which are floated, are flooded into the precipitation space 3 through a plurality of water passage holes 521 formed at the bottom thereof.

In addition, the oil component, which is primarily processed in the cylindrical filter processing unit 4, has a larger particle size, and the fine particles are further coalesced while passing through the horizontal filter barrel 52, thereby increasing the particle size of the oil component, thereby increasing the particle size of the oil component. Is quickly floated through the water passing hole 521 formed in the upper portion of the horizontal filter cylinder (52). Therefore, the oil component of the primary treated particles is introduced again into the horizontal filter barrel 52, so that the oil components of the residual fine particles contained in the primary treated water can be more quickly removed. have.

In addition, the adhesive treatment part 6 is formed in the inner space of the cylindrical filter treatment part 4, as shown in Fig. 1 to 5, the solid material of the untreated microparticles in the cylindrical filter treatment part (4) It adheres to the solids of the large particles that are coalesced in the horizontal filter processing unit 5 serves to precipitate the untreated solids.

That is, when the solid particles of the untreated residual fine particles in the cylindrical filter processing unit 4 is introduced into the adhesive treatment unit 6, the solids of the fine particles introduced into the adhesive treatment unit 6 are coalesced in the horizontal filter processing unit 5. As a result of being adhered to solid particles of large particles falling down, the particles are dropped and removed, thereby further improving the removal efficiency of the solid particles of the fine particles contained in the treated water primarily processed by the cylindrical filter treatment unit 4.

On the other hand, the outer diameter of the horizontal filter cylinder 52 is formed smaller than the inner diameter of the cylindrical filter cylinder 41. And at the upper portion of the inner circumference of the cylindrical filter cylinder 41, the protruding blocker to prevent the coalesced solids falling from the horizontal filter processing section 5 to the upper portion of the cylindrical filter cylinder 41 43 is further provided. Accordingly, by preventing the solid particles of the large particles coalesced from the horizontal filter processing unit 5 and falling downward through the protruding cutoff tube 43 to be reintroduced into the upper portion of the cylindrical filter processing unit 4, the cylindrical filter processing unit 4 is prevented. There is also an advantage of preventing the treatment efficiency of) from decreasing.

In addition, the oil discharge pipe (7), as shown in Figure 3, is provided on the upper portion of the tank (1) to discharge to remove the final wound oil that is finally floated to the top of the tank (1) to the outside Play a role.

The oil discharge pipe 7 is connected to a pump (not shown) to forcibly suck and discharge oil, and a valve is mounted in the middle to selectively discharge oil.

In addition, the water discharge pipe 8, as shown in Figure 3, is provided on the side of the water tank 1 serves to discharge the final treated water.

And in the middle of the water discharge pipe 8 is a valve is mounted to selectively discharge the oil.

Hereinafter, the operation of the solids and oil component treatment apparatus of the wastewater according to the present invention configured as described above are as follows.

7 is a cross-sectional view showing an operation relationship of the treatment apparatus according to the present invention.

As shown in Figures 1 to 7, when the solids of the fine particles contained in the waste water and the oil components of the fine particles contained in the wastewater through the treatment apparatus according to the present invention, first, the pretreatment tank 10 to precipitate and float Through this, pretreatment water from which the large particles of solids and the large particles of oil are removed is introduced into the upper portion of the circumferential chamber 2 by a drop.

Next, the treated water introduced into the upper portion of the circumferential chamber 2 passes through an open passage 23 provided in the inner lower portion of the circumferential chamber 2 by a drop, and forms a cylindrical filter tube forming the cylindrical filter processing unit 4. Flows into (41).

When the treated water containing the oil component of the microparticles introduced into the cylindrical filter cylinder 41 and the solids of the microparticles passes, the inner hollow portion and the interspace of the polymer filters F filled in the cylindrical filter cylinder 41 are passed. As the oil components of the fine particles pass through, they are coalesced with each other, and the particles of the oil component become larger. Also, the solid particles of the fine particles pass through the internal hollows and interspaces of the polymer filters (F) and coalesce with each other (adhesive) to the solid particles. Becomes large.

Therefore, the oil components with larger particles are floated through the plurality of water passage holes 411, and the solid particles with larger particles are flooded through the water passage holes 411 to the settling space 3, whereby the circumferential chamber ( 2) The treated water flowing into 2) is treated first.

Next, the treated water containing the oil component of the residual fine particles and the solid particles of the residual fine particles primarily treated in the cylindrical filter cylinder 41 is lowered to the horizontal filter cylinder 52 filled with the polymer filter (F). Inflowed and passed.

Then, as the oil components of the remaining fine particles pass through the inner hollow portion and the interspace of the polymer filters F, the particles of the oil component become larger and remain in the inner hollow portion and the interspace of the polymer filters F. As the solids of the microparticles pass, they coalesce with each other and the particles of the solids become large.

Therefore, the oil components having larger particles pass through the plurality of water passage holes 521 formed at the upper portion and float to the top of the water tank 1 to be finally removed. After passing through the immersion into the settling space (3) is finally processed.

In addition, the oil component, which is primarily processed in the cylindrical filter processing unit 4, has a larger particle size as the fine particles are further coalesced while passing through the horizontal filter barrel 52, thereby increasing the flotation force. It is possible to remove the oil of the fine particles more quickly.

Therefore, as described above, the treatment apparatus of the present invention, the solids of the fine particles contained in the treated water discharged from the pre-treatment tank 10 and the advantage that the oil component of the fine particles can be efficiently removed through a single tank There is this.

Meanwhile, in the process as described above, the adhesive treatment part 6 in which the solid matter of the residual fine particles contained in the treated water firstly processed by the cylindrical filter processing part 4 is formed in the inner space of the cylindrical filter processing part 4. Flows into.

Then, the solids of the residual fine particles introduced into the adhesive treatment unit 6 are adhered to the solid particles of the large particles that are coalesced in the horizontal filter processing unit 5, and are dropped and removed. There is also an advantage that can further improve the removal efficiency of the solids of the residual fine particles contained in the treated water.

Although preferred embodiments of the present invention have been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention.

1: tank
2: circumferential chamber
21: treatment water supply pipe
22: inner wall
23: open passage
3: settling space
31: sediment discharge pipe
4: cylindrical filter processing part
41: cylindrical filter cylinder
411: water passage
42: fixed leg
43: protruding blocker
5: horizontal filter processing unit
51: conical wall
52: horizontal filter barrel
521: water passage
6: adhesion treatment
7: oil discharge pipe
8: water discharge pipe
F: polymer filter
10: pretreatment tank

Claims (5)

A water tank provided on the drain side of the pretreatment tank;
A circumferential chamber formed at a lower circumference of the water tank and connected to a treatment water supply pipe to which treated water is supplied by a drop from the pretreatment tank, and an open passage is formed at a lower circumference of the inner wall;
A precipitation space formed at a lower portion of the inner space of the circumferential chamber and having a precipitate discharge pipe at a side thereof;
It is provided on the inner circumference of the circumferential chamber and the oil component of the microparticles and the solid particles of the microparticles contained in the treated water introduced from the circumferential chamber are combined while passing through a plurality of polymer filters to float the oil components and the solids are the settling space. Cylindrical filter processing unit for dropping;
It is provided on the upper periphery of the inner circumference of the circumferential chamber and the oil component of the untreated microparticles and the solid particles of the microparticles are passed through a plurality of polymer filters and coalesced, respectively, so that the oil component floats and the solids enter the precipitation space. A horizontal filter processing unit for dropping;
An adhesive treatment unit formed in the inner space of the cylindrical filter processing unit and adhering the solid material of the untreated microparticles in the cylindrical filter processing unit to the solids of the large particles falling from the horizontal filter processing unit;
An oil discharge pipe provided at an upper portion of the tank;
A water discharge pipe disposed at the side of the tank to discharge treated water;
Solids and oil component processing apparatus of the wastewater comprising a.
The method of claim 1,
The cylindrical filter processing unit;
An outer circumferential surface is formed to be in close contact with an inner circumferential surface of the circumferential chamber, and a plurality of water passing holes are formed in the inner, outer and upper and lower plates, and a cylindrical filter passage in which the plurality of polymer filters are filled;
A plurality of fixing legs provided at a lower portion of the cylindrical filter cylinder to fix the cylindrical filter cylinder to the lower portion of the water tank;
Solids and oil component processing apparatus of the wastewater comprising a.
The method of claim 2,
The horizontal filter processing unit;
A conical wall of upper and lower light beams provided to protrude and extend upward from an inner circumferential upper portion of the circumferential chamber and having an opening formed thereon;
A circular horizontal filter cylinder which is horizontally fixed to the upper opening of the conical wall through a fixed circumferential wall, and has a plurality of through holes formed in upper and lower plates, and filled with the plurality of polymer filters therein;
Solids and oil component processing apparatus of the wastewater comprising a.
The method of claim 3,
The outer diameter of the horizontal filter cylinder is formed smaller than the inner diameter of the cylindrical filter cylinder;
The upper part of the inner circumference of the cylindrical filter cylinder, the solids of the wastewater, characterized in that the projection block for preventing the solid material falling from the horizontal filter processing unit to the upper portion of the cylindrical filter cylinder further provided; Oil component processing device.
The method according to any one of claims 1 to 4,
The polymer filter,
Solid and oil component treatment device for waste water, characterized in that consisting of a cylindrical tube made of high molecular polyethylene.

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