KR102758715B1 - Purification apparatus for wastewater - Google Patents

Abstract

The present invention relates to a sewage treatment device comprising a sedimentation tank (10) for removing impurities from polluted water and purifying it into primary purified water, a filtration tank (100) for filtering the primary purified water through a fibrous filter (200) and purifying it into secondary purified water, a storage tank (20) for storing the secondary purified water, a backwash pump (21) for supplying the secondary purified water from the storage tank (20) to the filtration tank (100) in order to backwash the fibrous filter (200), a wash water pump (15) for discharging wash water generated by backwashing the fibrous filter (200) to the outside, an air supply unit (22) for generating bubbles in the filtration tank (100), and a control unit for controlling the backwash pump (21), the wash water pump (15), and the air supply unit (22), wherein the filtration tank (100) comprises: A main body (110) having a wastewater inlet (111) formed at the lower side on one side to allow the first purified water from the sedimentation tank (10) to flow in, and a wastewater outlet (112) formed at the upper side on the other side to discharge the second purified water to the storage tank (20); a filter storage portion (120) formed at the center of the main body (110) to accommodate the fibrous filter (200); a lower closing plate (130) formed to close the lower opening of the filter storage portion (120) and having a number of through holes formed that are large enough to prevent the fibrous filter (200) from falling out; The present invention provides a sewage treatment device capable of evenly distributing media, comprising: an air supply pipe (150) installed at the lower end of the lower closing plate (130) and having a plurality of discharge holes formed in a row to generate bubbles by air supplied from the air supply device (22); and a control unit configured to supply air to the air supply pipe (150) by the air supply device (22) even after the start of driving the wash water pump (15), so as to prevent the phenomenon of the fibrous media (200) being pushed due to the driving of the wash water pump (15). As a result, the phenomenon of the media being pushed, which occurs when the wash water is discharged in the backwashing process, is prevented, and stable sewage purification is achieved.

Description

{PURIFICATION APPARATUS FOR WASTEWATER}

The present invention relates to the field of environmental technology, and more specifically, to a sewage treatment device capable of evenly distributing a filter medium and a control method thereof.

Figures 1 and 2 are drawings illustrating a conventional sewage treatment device.

It is composed of a sedimentation tank (10), a filtration tank (100), a storage tank (20), a backwash pump (21), an air supplier (22), an air supply pipe (150), etc.

The sedimentation tank (10) removes impurities from the contaminated water and purifies it into primary purified water.

The filter tank (100) filters primary purified water through a fibrous filter (200) and purifies it into secondary purified water.

The storage tank (20) stores the secondary purified water.

The reverse water pump (21) supplies secondary purified water from the storage tank (20) to the filtration tank (100) to reverse the fibrous filter (200).

The air supply unit (22) supplies air to generate bubbles in the filter tank (100).

In order to reverse the flow of the fibrous filter (200), an air supply pipe (150) is installed along the length direction in the lower central portion of the lower closing plate (130) described below to generate bubbles by air supplied from an air supplier (22), and a plurality of discharge holes (151) are formed in a row.

The filter tank (100) is composed of a main body (110), a filter storage section (120), and a lower closing plate (130).

The main body (110) has a sewage inlet (111) formed at the front lower portion to allow primary purified water to flow in from the sedimentation tank (10), and a sewage outlet (112) formed at the rear upper portion to allow secondary purified water to flow out to the storage tank (20).

The filter storage section (120) is formed in the central portion of the main body (110) to store the fiber-type filter (200).

The lower closing plate (130) is formed to close the lower opening of the filter material receiving portion (120), and a number of through holes having a size sufficient to prevent the fibrous filter material (200) from falling out are formed.

The air supply pipe (150) installed along the longitudinal direction in the lower central portion of the lower closing plate (130) is formed with a plurality of discharge holes in a row.

The general sewage purification process using the above purification device is as follows.

Primary purified water is introduced into the filtration tank (100) through the sewage inlet (111) from the sedimentation tank (10), and the primary purified water is filtered while passing upward through the filter media receiving section (120) to be purified into secondary purified water.

Secondary purified water is discharged from the filter tank (100) through the wastewater outlet (112) to the storage tank (20) and stored therein.

The reverse osmosis process for washing the filter is as follows.

Secondary purified water is supplied from the storage tank (20) to the filtration tank (100) by the reverse water pump (21).

When secondary purified water is filled in the filter media storage unit (120), air is injected through the air supply pipe (150), so that the fibrous filter media (200) is washed by air bubbles introduced through the multiple through holes of the lower closing plate (130).

By means of the wash water pump (15), the wash water generated by the wash step is discharged to the outside from the second sedimentation tank (12).

However, these conventional sewage systems had the following problems:

The fibrous filter (200) is washed by injecting air through the air supply device (22) and the air supply pipe (150), and after the operation of the air supply device (22) is stopped, the washing water stored in the filter storage unit (120) is sucked in by the washing water pump (15) and discharged to the outside. In this process, the fibrous filter (200) is concentrated to one side due to the flow of the discharged washing water, causing a phenomenon of concentration. (Fig. 2)

Stable purification of wastewater can be achieved only when the fibrous filter (200) is evenly distributed in the internal space of the filter storage unit (120). However, for the above reason, if the fibrous filter (200) is not evenly distributed, there is a problem in that stable purification of wastewater cannot be achieved.

Korean Patent No. 10-1484030 Korean Patent No. 10-1878395

The present invention has been made to solve the above problems, and its purpose is to provide a sewage treatment device capable of even distribution of a filter medium, and a control method thereof, which prevents the phenomenon of filter medium crowding that occurs when discharging wash water in a reverse washing process, thereby achieving stable sewage purification.

In order to solve the above problem, the present invention is a sewage treatment device comprising a sedimentation tank (10) for removing impurities from polluted water and purifying it into primary purified water, a filtration tank (100) for filtering the primary purified water through a fibrous filter (200) and purifying it into secondary purified water, a storage tank (20) for storing the secondary purified water, a backwash pump (21) for supplying the secondary purified water from the storage tank (20) to the filtration tank (100) in order to backwash the fibrous filter (200), a wash water pump (15) for discharging wash water generated by backwashing the fibrous filter (200) to the outside, an air supply unit (22) for generating bubbles in the filtration tank (100), and a control unit for controlling the backwash pump (21), the wash water pump (15), and the air supply unit (22), wherein the filtration tank (100) comprises: A main body (110) having a wastewater inlet (111) formed at the lower side on one side to allow the first purified water from the sedimentation tank (10) to flow in, and a wastewater outlet (112) formed at the upper side on the other side to discharge the second purified water to the storage tank (20); a filter storage portion (120) formed at the center of the main body (110) to accommodate the fibrous filter (200); a lower closing plate (130) formed to close the lower opening of the filter storage portion (120) and having a number of through holes formed that are large enough to prevent the fibrous filter (200) from falling out; The present invention proposes a sewage treatment device capable of evenly distributing media, comprising: an air supply pipe (150) installed at the lower end of the lower closing plate (130) and having a plurality of discharge holes formed in a row to generate bubbles by air supplied from the air supply unit (22); and a control unit configured to control air to be supplied to the air supply pipe (150) by the air supply unit (22) even after the start of driving the washing water pump (15) so as to prevent the phenomenon of the fibrous media (200) being pushed due to the driving of the washing water pump (15).

The above control unit preferably drives the reverse-wash pump (21) to supply the secondary purified water from the storage tank (20) to the filter tank (100), supplies air to the air supply pipe (150) by the air supplier (22) to generate air bubbles in the filter tank (100) to reverse-wash the fibrous filter medium (200), and while supplying air to the air supply pipe (150) by the air supplier (22), starts driving the wash water pump (15) to initiate the reverse-washing of the fibrous filter medium (200) and the discharge of the wash water.

It is preferable that the above control unit stops the operation of the air supply unit (22) when the level of the washing water becomes lower than the height of the lower closing plate (130) and controls only the washing water pump (15) to discharge the washing water.

The above sedimentation tank (10) preferably includes a partition wall (13) installed to spatially divide the front and rear; a first sedimentation tank (11) formed at the rear of the partition wall (13); a second sedimentation tank (12) formed at the front of the partition wall (13); a sedimentation pump (14) for discharging sediments settled in the first sedimentation tank (11) to the second sedimentation tank (12); and a washing water pump (15) for discharging sediments and washing water accumulated in the second sedimentation tank (12) to the outside.

In order to reduce the volume of the media receiving portion (120) to compress the fibrous media (200) or expand the volume of the media receiving portion (120) to relax the fibrous media (200), it is preferable to further include a driving means (140) for driving the lower closing plate (130) up and down.

The present invention proposes a control method for the sewage treatment device, characterized in that it comprises a backwash water supply step of driving the backwash water pump (21) to supply the secondary purified water from the storage tank (20) to the filtration tank (100); a backwash step of supplying air to the air supply pipe (150) by the air supplier (22) to generate air bubbles in the filtration tank (100) to backwash the fibrous filter (200); and a backwash and wash water discharge step of starting the operation of the wash water pump (15) while supplying air to the air supply pipe (150) by the air supplier (22) to start backwashing of the fibrous filter (200) and discharge of wash water.

It is preferable to further include a washing water discharge step in which, when the level of the washing water becomes lower than the height of the lower closing plate (130), the operation of the air supply device (22) is stopped and only the washing water pump (15) is driven to discharge the washing water.

The present invention proposes a sewage purification method using the sewage purification device, characterized in that it comprises a filtration preparation step of reducing the volume of the filter medium receiving portion (120) by the driving means (140) to compress the fibrous filter medium (200); a filtration step of introducing the primary purified water from the sedimentation tank (10) into the filtration tank (100) through the sewage inlet (111), and allowing the primary purified water to be filtered while passing upward through the filter medium receiving portion (120) so as to be purified into the secondary purified water; and a storage step of discharging the secondary purified water from the filtration tank (100) into the storage tank (20) through the sewage outlet (112) and storing it.

It is preferable to include a washing preparation step of expanding the volume of the filter medium receiving portion (120) by the driving means (140) to relax the fibrous filter medium (200); a washing step of washing the fibrous filter medium (200) by air bubbles introduced through a plurality of through holes of the lower closing plate (130) by injecting air by the air supply pipe (150) while the secondary purified water is filled in the filter medium receiving portion (120); and a washing water discharge step of discharging the washing water generated in the washing step to the outside by the washing water pump (15).

The present invention proposes a sewage treatment device and a control method thereof capable of evenly distributing a filter medium, which prevents the phenomenon of filter medium crowding that occurs when discharging wash water in a reverse washing process, thereby achieving stable sewage purification.

Figures 1 and 2 are drawings showing a conventional sewage treatment device.
Figure 3 below illustrates an embodiment of the present invention.
Figure 3 is a cross-sectional view of a sewage treatment plant.
Figures 4 and 5 are diagrams showing the usage status of the sewage treatment plant.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings.

As shown in FIG. 3 below, the sewage treatment device according to the present invention is basically configured to include a sedimentation tank (10), a washing water pump (15), a filter tank (100), a storage tank (20), a backwash water pump (21), an air supplier (22), an air supply pipe (150), a control unit, etc.

The sedimentation tank (10) removes impurities from the contaminated water and purifies it into primary purified water, and is divided into the first sedimentation tank (11) and the second sedimentation tank (12).

The filter tank (100) filters primary purified water through a fibrous filter (200) and purifies it into secondary purified water.

The storage tank (20) stores the secondary purified water.

The reverse water pump (21) supplies secondary purified water from the storage tank (20) to the filtration tank (100) to reverse the fibrous filter (200).

The air supply unit (22) supplies air to generate bubbles in the filter tank (100).

The filter tank (100) is composed of a main body (110), a filter storage section (120), and a lower closing plate (130).

The main body (110) has a sewage inlet (111) formed at the front lower portion to allow primary purified water to flow in from the sedimentation tank (10), and a sewage outlet (112) formed at the rear upper portion to allow secondary purified water to flow out to the storage tank (20).

The filter storage section (120) is formed in the central portion of the main body (110) to store the fiber-type filter (200).

The lower closing plate (130) is formed to close the lower opening of the filter material receiving portion (120), and a number of through holes having a size sufficient to prevent the fibrous filter material (200) from falling out are formed.

The air supply pipe (150) is installed at the bottom of the lower closing plate (130) to generate bubbles by air supplied from the air supply device (22), and a number of discharge holes are formed in a row.

The washing water pump (15) discharges washing water generated by the backwash of the fibrous filter (200) to the outside.

The control unit controls the reverse water pump (21), the washing water pump (15) and the air supply unit (22), and controls air to be supplied to the air supply pipe (150) by the air supply unit (22) even after the washing water pump (15) is started to operate, in order to prevent the fibrous media (200) from being pushed due to the operation of the washing water pump (15).

The specific control method by the above control unit is as follows.

By driving the reverse water pump (21), secondary purified water is supplied from the storage tank (20) to the filter tank (100).

Air is supplied to the air supply pipe (150) by the air supply device (22), thereby generating air bubbles in the filter tank (100) and washing the fibrous filter medium (200) in a reverse washing manner.

While supplying air to the air supply pipe (150) by the air supply device (22), the operation of the washing water pump (15) is started so that the backwashing of the fibrous filter (200) and the discharge of the washing water are started.

That is, even if the discharge of the washing water is initiated by driving the washing water pump (15), the supply of air by the air supplier (22) and the air supply pipe (150) continues without interruption.

Accordingly, the fibrous filter (200) is evenly distributed in the internal space of the filter storage unit (120) even after the discharge of the wash water is completed, as it is spread by the air bubbles, despite the flow of the discharged wash water.

When the level of the wash water becomes lower than the height of the lower closing plate (130) (when the fibrous filter (200) is no longer immersed in the wash water), the operation of the air supply (22) is stopped and only the wash water pump (15) is driven to discharge the wash water.

The sedimentation tank (10) removes impurities from the contaminated water and purifies it into primary purified water. (Figure 3)

Specifically, it is composed of a first sedimentation tank (11), a second sedimentation tank (12), a partition wall (13), a sedimentation pump (14), and a washing water pump (15).

A partition wall (13) is installed to spatially divide the front and rear of the internal area of the sedimentation tank (10), and a first sedimentation tank (11) is formed at the rear of the partition wall (13), and a second sedimentation tank (12) is formed at the front of the partition wall (13).

The sediment pump (14) installed in the first sedimentation tank (11) discharges sediment settled in the first sedimentation tank (11) to the second sedimentation tank (12).

The washing water pump (15) installed in the second sedimentation tank (12) discharges the impurities and washing water accumulated in the second sedimentation tank (12) to the outside.

In the sedimentation tank (10), various impurities and wash water generated by the backwash of the fibrous filter (200) are stored. However, if there is no upper partition wall (13) and only a wash water pump (15), these cannot be separated and must be discharged, which may cause an overload in the wash water pump (15).

However, the present invention can solve the above problem as follows by spatially dividing the first sedimentation tank (11) and the second sedimentation tank (12) by a partition wall (13) and installing a separate impurity pump (14) in the first sedimentation tank (11).

That is, in the reverse process, the sedimentation pump (14) is not operated, and only the washing water is stored in the second sedimentation tank (12), and the washing water pump (15) is operated to discharge only the washing water to the outside.

After the reverse process is completed, the sedimentation pump (14) is operated to discharge the sedimentation materials settled in the first sedimentation tank (11) to the second sedimentation tank (12), and then the washing water pump (15) is operated to discharge the sedimentation materials to the outside.

The driving means (140) drives the lower closing plate (130) up and down to compress the fibrous media (200) by reducing the volume of the media receiving portion (120) or to relax the fibrous media (200) by expanding the volume of the media receiving portion (120).

This may be implemented by a float floating on the sewage, or by a drive device driven by a separate motor.

Below, a method for purifying sewage using the above driving means (140) is described.

The general sewage treatment process is as follows (Figure 4).

By means of a driving means (140), the volume of the filter material storage section (120) is reduced to compress the fibrous filter material (200).

Primary purified water is introduced into the filtration tank (100) through the sewage inlet (111) from the sedimentation tank (10), and the primary purified water is filtered while passing upward through the filter media receiving section (120) to be purified into secondary purified water.

Secondary purified water is discharged from the filter tank (100) through the wastewater outlet (112) to the storage tank (20) and stored therein.

The reverse osmosis process for washing the filter is as follows (Fig. 5).

By means of a driving means (140), the volume of the filter material storage section (120) is expanded to relax the fibrous filter material (200).

When secondary purified water is filled in the filter media storage unit (120), air is injected through the air supply pipe (150), so that the fibrous filter media (200) is washed by air bubbles introduced through the multiple through holes of the lower closing plate (130).

By means of the wash water pump (15), the wash water generated by the wash step is discharged from the second sedimentation tank (12) to the outside.

As described above, while the fibrous filter (200) is immersed in the washing water, the injection of air bubbles through the air supply pipe (150) continues to prevent the filter from clumping.

The above is only a description of some of the preferred embodiments that can be implemented by the present invention, and as will be appreciated, the scope of the present invention should not be construed as being limited to the above embodiments, and the technical ideas of the present invention described above and the technical ideas underlying them are all included in the scope of the present invention.

10: Sedimentation tank 11: 1st Sedimentation tank
12: 2nd sinkhole 13: Partition wall
14: Sediment pump 15: Wash water pump
20: Reservoir 21: Backwash pump
22: Air supply 100: Filter tank
110: Main body 120: Storage compartment
130: Lower closing plate 140: Driving means
150 : Air supply pipe 200 : Fiber type filter

Claims (9)

A sewage treatment device comprising a sedimentation tank (10) for removing impurities from polluted water and purifying it into primary purified water, a filtration tank (100) for filtering the primary purified water through a fibrous filter (200) and purifying it into secondary purified water, a storage tank (20) for storing the secondary purified water, a backwash pump (21) for supplying the secondary purified water from the storage tank (20) to the filtration tank (100) in order to backwash the fibrous filter (200), a wash water pump (15) for discharging wash water generated by backwashing the fibrous filter (200) to the outside, an air supply unit (22) for generating bubbles in the filtration tank (100), and a control unit for controlling the backwash pump (21), the wash water pump (15), and the air supply unit (22).
The above filter tank (100) is
A main body (110) having a sewage inlet (111) formed at the lower side on one side to allow the first purified water to flow in from the sedimentation tank (10) and a sewage outlet (112) formed at the upper side on the other side to allow the second purified water to flow out to the storage tank (20);
A filter storage portion (120) formed in the central portion of the main body (110) to store the fiber-type filter material (200);
A lower closing plate (130) formed to close the lower opening of the above-mentioned filter material storage section (120) and having a number of through holes formed therein that are of a size sufficient to prevent the above-mentioned fibrous filter material (200) from coming off;
In order to generate bubbles by air supplied from the air supply device (22), an air supply pipe (150) is installed at the lower part of the lower closing plate (130) and has a plurality of discharge holes formed in a row;
The above control unit,
By driving the above-mentioned reverse-flow pump (21), the secondary purified water is supplied from the above-mentioned storage tank (20) to the above-mentioned filtration tank (100),
By supplying air to the air supply pipe (150) by the air supply device (22), air bubbles are generated in the filter tank (100), and the fibrous filter medium (200) is reversely washed.
While supplying air to the air supply pipe (150) by the air supply device (22), the operation of the washing water pump (15) is started, and the discharge of the washing water is controlled to start along with the backwashing of the fiber-type filter (200).
In order to prevent the phenomenon of the fiber-shaped filter (200) being pushed due to the driving of the washing water pump (15), air is controlled to be supplied to the air supply pipe (150) by the air supply device (22) even after the driving of the washing water pump (15) starts.
A sewage treatment device capable of evenly distributing a filter medium, characterized in that when the level of the wash water falls below the height of the lower closing plate (130), the operation of the air supply device (22) is stopped and only the wash water pump (15) is driven to discharge the wash water. delete delete In the first paragraph,
The above sink (10) is
A partition wall (13) installed to spatially divide the front and rear;
A first sedimentation tank (11) formed at the rear of the above partition wall (13);
A second sedimentation tank (12) formed in front of the above-mentioned partition wall (13);
A sediment pump (14) that discharges sediments settled in the first sedimentation tank (11) to the second sedimentation tank (12);
The washing water pump (15) that discharges the impurities and washing water stored in the second sedimentation tank (12) to the outside;
A sewage treatment device capable of even distribution of a filter medium, characterized by including: In the first paragraph,
In order to reduce the volume of the media storage unit (120) to compress the fiber-type media (200) or expand the volume of the media storage unit (120) to relax the fiber-type media (200), a driving means (140) for driving the lower closing plate (130) up and down;
A sewage treatment device capable of even distribution of a filter medium, characterized by further including: As a control method of the sewage treatment device of paragraph 1,
A reverse-wash water supply step for supplying the secondary purified water from the storage tank (20) to the filtration tank (100) by driving the reverse-wash water pump (21);
A backwashing step of supplying air to the air supply pipe (150) by the air supply device (22) to generate air bubbles in the filter tank (100) and backwashing the fibrous filter medium (200);
A step of backwashing and washing water discharge, in which the operation of the washing water pump (15) is started while supplying air to the air supply pipe (150) by the air supply device (22), so that backwashing of the fiber-type filter (200) and discharge of washing water are started;
A method for controlling a sewage treatment device, characterized by including: In Article 6,
When the level of the washing water becomes lower than the height of the lower closing plate (130), the operation of the air supply device (22) is stopped and only the washing water pump (15) is driven to discharge the washing water;
A method for controlling a sewage treatment plant, characterized by further including: A method for purifying sewage using a sewage treatment device according to Article 5,
A filtration preparation step of compressing the fibrous filter (200) by reducing the volume of the filter storage section (120) by the driving means (140);
A filtration step in which the first purified water is introduced from the sedimentation tank (10) into the filtration tank (100) through the wastewater inlet (111), and the first purified water is filtered while passing upward through the filter medium receiving section (120) to be purified into the second purified water;
A storage step for discharging the secondary purified water from the filter tank (100) through the wastewater outlet (112) into the storage tank (20) and storing it;
A wastewater purification method characterized by including: In Article 8,
A washing preparation step in which the volume of the filter material storage section (120) is expanded by the driving means (140) to relax the fiber-type filter material (200);
A washing step in which the fibrous filter (200) is washed by air bubbles introduced through a number of through holes of the lower closing plate (130) by injecting air through the air supply pipe (150) while the secondary purified water is filled in the filter storage section (120);
A washing water discharge step for discharging the washing water generated by the washing step to the outside by the washing water pump (15);
A wastewater purification method characterized by including:

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