KR101538308B1 - Purification apparatus and method for water having back-wash function - Google Patents

Abstract

The present invention relates to a water treatment apparatus having a back washing function and a water treatment method using the same, which comprises: a plurality of water tanks (10) for storing contaminated water; filters (100) installed inside the water tanks (10) respectively, having openings formed on sides thereof, and having hollow holes (101) formed therein; purified water discharge pipes (21) connected to the openings of the filters (100); air inflow pipes (210) connected to the water tanks (10) respectively; and a compressing portion (200) for injecting air toward the air inflow pipes (210). In a purification mode, the contaminated water of the water tanks (10) is purified by penetrating through side walls of the filters (100) in an inner side direction and is collected in the hollow holes (101). Then, the contaminated water is discharged through the purified water discharge pipes (21). In a back washing mode, the purified water, purified through the purification mode, as well as air, introduced through the air inflow pipes (210), are introduced to the hollow hole (101) of the water tank (10a) for carrying out a back wash between the water tanks (10) and penetrate through side walls of the filters (100) toward the outside, and then wash the filters (100). The present invention enables to increase space efficiency by minimizing the size of the water treatment apparatus, and has an advantage of being applied to a construction site or a small-sized sewage treatment plant. By enabling to effectively wash a filter, the present invention enables to realize a full automation of the apparatus, and to increase work efficiency due to simple maintenance work.

Description

TECHNICAL FIELD [0001] The present invention relates to a water treatment apparatus having a backwash function and a water treatment method using the same. BACKGROUND OF THE INVENTION [0002]

The present invention relates to an environmental field, and more particularly, to a water treatment apparatus having a backwash function and a water treatment method using the same.

Various studies have been made on a water treatment apparatus for purifying contaminated water using a filter.

Since the filtration filter used in the water treatment apparatus is clogged by foreign substances during filtration, it is essential to maintain the performance of the water treatment apparatus stably and to automate the entire process.

However, the conventional water treatment apparatus has the following problems.

First, since the area of the site is large when the water treatment apparatus is installed, it is disadvantageous to install the water treatment apparatus on a construction site and a small-scale sewage treatment plant, and the space efficiency is low.

Second, since the conventional water treatment apparatus does not have a structure capable of efficiently cleaning the filtration filter by a fully automatic method, a separate backwash water tank and a backwash pump should be installed, and a device for removing sludge formed inside the water tank should also be installed do.

Such a sludge removal device and a backwash water tank are separately installed, which is costly and has a problem that the area occupied by the water treatment device becomes larger.

Third, in the conventional water treatment apparatus, all the filters constituting the apparatus must be shut down during the maintenance work for replacing or repairing the filter, thus reducing the efficiency of the operation.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a water treatment apparatus, which minimizes the area of a water treatment apparatus to improve space efficiency and is advantageously applicable to a construction site and a small-scale sewage treatment plant, It is an object of the present invention to provide a water treatment apparatus having a backwash function that realizes automaticization of the apparatus, simplifies maintenance and repair work and improves work efficiency, and a water treatment method using the same.

In order to solve the above problems, the present invention provides a water treatment system comprising: a plurality of water tanks (10) storing polluted water; A filter 100 installed in each of the plurality of water tanks 10 and having an opening at one side and a hollow 101 formed therein; A purified water discharge pipe (21) connected to an opening of the filter (100); An air inlet pipe 210 connected to the plurality of water tanks 10; And a pressurizing unit 200 for injecting air to the air inlet pipe 210. In the purifying mode, the contaminated water in the plurality of water tanks 10 is purified while permeating the side wall of the filter 100 inward, And is discharged through the purified water discharging pipe 21. In the backwash mode, the purified water purified through the purifying mode is discharged to the outside through the air inlet pipe 210, Of the filter (100) while flowing into the hollow (101) of the water tank (10a) performing backwashing, out of the water tank (10) A water treatment apparatus having a function is proposed.

The purified water discharge pipe (21) includes a plurality of branch pipes (23) whose other end is connected to one opening of the one end of the plurality of filters (100); And one integral pipe (22) for collecting the purified water by integrating one end of the plurality of branch pipes (23).

Preferably, the integrating tube 22 is provided with a discharge valve 24, the discharge valve 24 is opened in the purge mode, and closed in the backwash mode.

Preferably, the plurality of branch pipes 23 are provided with a plurality of pumps 25, respectively, and the pump 25 is driven in the purge mode and stops in the backwash mode.

It is preferable that a plurality of the filters 100 are provided in each of the plurality of water tanks 10 and the other ends of the branch pipes 23 are connected to the openings of one end of the plurality of filters 100 Do.

The pump 25 is driven in the purge mode in which all of the pumps 25 are driven and in the backwash mode the pump 25 installed in the water tank 10a for backwashing among the plurality of the water tanks 10 25 are stopped.

In the backwash mode, the discharge valve 24 is closed, and the pump 25 installed in the water tank 10a for performing backwashing among the plurality of water tanks 10 is preferably stopped.

The filter 100 preferably has a cylindrical structure.

It is preferable that the air inlet pipe 210 is provided with an inlet valve 211 and the inlet valve 211 is closed in the purge mode and is opened in the backwash mode.

It is preferable that the sludge removing unit 300 is installed on the other side of the plurality of tanks 10 so as to remove the sludge formed in the water tank 10.

The sludge removing unit 300 preferably removes sludge by vacuum suction.

The sludge removing unit 300 is preferably driven by the sludge removing unit 300 installed in the water tank 10a to perform backwashing among the plurality of water tanks 10 in the backwash mode.

The present invention is a water treatment method using a water treatment apparatus having the backwash function, characterized in that the contaminated water flowing into the plurality of water tanks (10) is purified so as to penetrate the side wall of the filter (100) ); A purified water discharging step of discharging the purified water purified in the purifying step; And the air introduced through the air inlet pipe 210 and the purifying water purified through the purifying step are introduced into the hollow 101 of the water tank 10a performing backwashing among the plurality of water tanks 10 (100), and the other end of the purified water discharge pipe (21) is connected to an opening of one end of the plurality of filters (100) And a single integrated pipe 22 through which one end of the plurality of branch pipes 23 is integrated to discharge the purified water. The integrated pipe 22 is provided with a discharge valve A plurality of pumps 25 are provided in the plurality of branch pipes 23 and the discharge valve 24 is opened in the purge step and the pump 25 is driven In the backwashing step, the discharge valve (24) is closed, and the plurality of water And the pump (25) provided in the water tank (10a) for performing backwashing is stopped in the bath (10).

It is preferable that a plurality of the filters 100 are provided in each of the plurality of water tanks 10 and the other ends of the branch pipes 23 are connected to the openings of one end of the plurality of filters 100 Do.

The backwashing step further comprises a sludge removal step of removing the sludge by driving the sludge removing unit 300 installed in the water tank 10a for backwashing among the plurality of water tanks 10, The removing unit 300 is preferably installed on the other side of the plurality of water tanks 10 so as to remove the sludge formed in the water tank 10 by vacuum suction.

The present invention minimizes the area of the water treatment apparatus to increase the space efficiency, and is advantageously applied to a construction site and a small-scale sewage treatment plant. The filter can be efficiently cleaned to realize the automatic operation of the apparatus, A water treatment apparatus having a backwash function that improves the efficiency of a work and a water treatment method using the same are proposed.

FIG. 1 is a block diagram illustrating a water treatment apparatus having a backwash function according to an embodiment of the present invention.
1 is a configuration diagram of a purge mode of the first embodiment;
2 is a configuration diagram of a backwash mode in the first embodiment;
3 is a configuration diagram of the purge mode of the second embodiment;
4 is a configuration diagram of the backwash mode of the second embodiment;
5 is a cross-sectional view of a first embodiment of a filter.
6 is a sectional view of a second embodiment of a filter.

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

1 and 2, the water treatment apparatus according to the present invention includes a plurality of water tanks 10 in which polluted water is stored; A filter 100 installed in each of the plurality of water tanks 10, having an opening at one side thereof and a hollow 101 formed therein; A purified water discharge pipe 21 connected to the opening of the filter 100; An air inlet pipe 210 connected to the plurality of water tanks 10; And a pressurizing unit 200 for injecting air to the air inlet pipe 210.

The water treatment apparatus of the present invention operates as follows in the purification mode and the backwash mode, respectively.

In the purge mode, the contaminated water in the plurality of water tanks 10 is purified while passing through the sidewalls of the filter 100 in the inside direction, collected in the hollow 101, and then discharged through the purified water discharge pipe 21 (Figs. 5).

On the other hand, in the backwash mode, the purified water purified through the purification mode flows into the hollow 101 of the water tank 10a which performs backwashing among the plurality of water tanks 10 and passes through the sidewall of the filter 100 in the outward direction, (FIG. 2, FIG. 4, FIG. 6).

Air introduced into the water tank 10a through the air inlet pipe 210 generates bubbles, and the bubbles indirectly collide against the side walls of the filter 100, thereby improving backwash efficiency.

Through the above structure, the water treatment apparatus of the present invention can clean the contaminated water and clean the filter by controlling each component according to the gastight mode and the backwash mode by a control unit (not shown) There is an advantage that it can be realized.

Therefore, since there is no need to provide a separate backwash water tank and backwash pump in comparison with the conventional water treatment apparatus, the cost can be saved, and in particular, the area occupied by the water treatment apparatus can be reduced, And a structure that is very advantageous for installation in a small-scale sewage treatment plant.

The filter 100 of the present invention has a structure in which a hollow 101 is formed therein and an opening is formed at one side of the filter 100. The filter 100 can be filtered from the outside to the inside of the filter 100, Any structure may be used so long as it is formed so that it can be desorbed (backwashing).

That is, the filter 100 may be formed in a flat or spiral structure, and it is particularly preferable that the filter 100 is formed in a cylindrical structure for efficient cleaning and cleaning.

The filter 100 is made of a material having a plurality of micro-hollows (pulolite resin or the like), and may be any material that can be cleaned while the contaminated water is permeated therethrough.

More specifically, a plurality of water tanks 10 used in the water treatment apparatus of the present invention are formed, and a filter 100 is installed therein, respectively (FIG. 1).

With this structure, there is an advantage that only the operation of the corresponding filter 100 to perform the maintenance work or the backwash mode can be stopped, and the remaining filters 100 can be kept in the operating state.

In other words, the conventional water treatment apparatus has a disadvantage that all the filters constituting the apparatus must be stopped during a maintenance operation for replacing or repairing the filter.

On the other hand, the water treatment apparatus of the present invention is advantageous in that the operation efficiency of the entire water treatment process can be improved since only the operation of the water tank 10a provided with the filter 100 is stopped.

For this structure, the purified water discharge pipe 21 used in the water treatment apparatus of the present invention has a plurality of branch pipes 23 whose other end is respectively connected to one opening of the plurality of filters 100, and a plurality of branch pipes 23 And a single integrated pipe 22 through which one end of the purified water is discharged to discharge the purified water (FIGS. 1 to 4).

Further, a discharge valve 24 is provided in the above-mentioned integrated pipe 22, and the discharge valve 24 is opened in the purge mode and closed in the backwash mode.

That is, in the purge mode, the discharge valve 24 is opened so that the purified water is discharged through the purified water discharge pipe 21.

On the other hand, in the backwash mode, the discharge valve 24 is closed so that the treated water of the other tank 10, other than the water tank 10a for performing the backwashing of the plurality of the water tanks 10, 10a.

A plurality of pumps 25 are provided in each of the plurality of branch pipes 23 and the pump 25 is driven in the purge mode to force the polluted water to permeate into the hollow of the filter 100, Lt; / RTI >

The pump 25 used in the water treatment apparatus of the present invention drives all of the plurality of pumps 25 in the purge mode and the plurality of the water tanks 10 in the backwash mode, It is easy to stop the pump 25 installed in the water tank 10a for performing backwashing.

Specifically, in the backwash mode, the discharge valve 24 is closed, and the pump 25 installed in the branch pipe 23 connected to the filter 100 for performing the backwash is stopped (FIGS. 2 and 4) .

That is, the filter 25 sucks and discharges filtration water in each of the water tanks 10 during normal operation. On the other hand, when foreign matter is covered on the surface of the filter 100, the filtration efficiency is deteriorated. When a maintenance work for removing the filter 100 is required, only the operation of the pump 25 connected to the filter 100 is stopped to drive the backwash mode.

At this time, the treated water from the flushing water tank 10, which has not stopped the operation of the pump 25, is discharged from the integrated pipe 22 through the branch pipe 23 by the pump 25, And flows into the water tank 10a in which the operation of the pump 25 is stopped again (FIGS. 2 and 4).

The sludge is formed in the water tank 10a provided with the filter 100 through the above backwash mode. In the present invention, the sludge removing unit 300 is installed on the other side of the water tank 10a to remove the sludge. .

The sludge removing unit 300 is formed of a branch pipe and an integrated pipe similar to the structure of the purified water discharge pipe 21 so that each branch pipe is installed on the other side of the plurality of water tanks 10, And is discharged through the pipe.

With this structure, it is possible to efficiently remove the sludge of treated water subjected to backwashing by driving only the sludge removing unit 300 installed in the water tank 10a in the above backwash mode.

In other words, the water treatment apparatus of the present invention stops only the pump 25 connected to the filter 100 in the backwash mode and drives only the sludge removing unit 300 connected to the filter 100, It is advantageous in that it can maximize the cost and reduce the cost of maintenance work.

The sludge removing unit 300 can remove the sludge by the vacuum suction method, thereby increasing the sludge removing efficiency.

Conventionally, there is a problem that a separate sludge removal device is installed, which increases the cost and area of the site occupied by the water treatment device. On the other hand, in the present invention, the sludge removal device, which occupies a large volume, Since only the connected sludge remover 300 is operated, the space efficiency can be improved.

In the water treatment apparatus of the present invention, a plurality of filters 100 are provided in each of a plurality of water tanks 10, and a plurality of branch pipes 23 are branched at the other end, The water treatment efficiency can be further improved through the connected structure.

The air inlet pipe 210 is provided with an inlet valve 211 which is closed in the purge mode and does not interfere with the purifying function and is opened in the backwash mode to introduce air into the interior of the water tank 10.

Next, a water treatment method using a water treatment apparatus having a backwash function of the present invention will be described.

First, a purge step is performed in which the contaminated water flowing into the plurality of water tanks 10 is purified so as to transmit the sidewalls of the filter 100 inward and discharged through the purified water discharge pipe 21 (FIG. 5).

In this purifying step, a purified water discharging step for discharging purified water is performed.

In addition to the air introduced through the air inflow pipe 210, the purified water purified through the above purification step is introduced into the water tank 10a of the plurality of water tanks 10 for backwashing, A backwashing step of washing the filter 100 by allowing the sidewall to permeate outward is performed (FIG. 6).

At this time, the purified water discharge pipe 21 has a plurality of branch pipes 23, the other end of which is connected to one end opening of the plurality of filters 100, and a branch pipe 23, And a plurality of pumps 25 are installed in the plurality of branch pipes 23. The discharge pipe 24 is connected to the integrated pipe 22 and the discharge pipe 24 is connected to the discharge pipe 24,

In the above purification step, the discharge valve 24 is opened and all the pumps 25 are driven.

On the other hand, in the above backwashing step, the discharge valve 24 is closed and only the pump 25 provided in the water tank 10a for performing backwashing among the plurality of water tanks 10 is stopped.

It is preferable that the sludge removing step for removing the sludge is performed by driving the sludge removing unit 300 installed in the water tank 10a for backwashing among the plurality of water tanks 10 in the backwashing step.

The sludge removing unit 300 is installed on the other side of the plurality of water tanks 10 so as to remove the sludge formed in the water tank 10 by vacuum suction.

In addition, the filter 100 may be formed in a structure in which a plurality of the filters 100 are provided in each of the plurality of water tanks 10.

In the case of this structure, the plurality of branch pipes 23 are branched at the other end and connected to the openings of the one end of the plurality of filters 100, respectively.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: water tank 21: purified water discharge pipe
22: Integration hall 23: Branch organization
24: exhaust valve 25: pump
100: filter 101: hollow of the filter
200: pressurizing portion 210: air inlet pipe
211: inlet valve 300: sludge removal

Claims (15)

A plurality of water tanks (10) in which polluted water is stored;
A filter 100 installed in each of the plurality of water tanks 10 and having an opening at one side and a hollow 101 formed therein;
A purified water discharge pipe (21) connected to an opening of the filter (100);
An air inlet pipe 210 connected to the plurality of water tanks 10;
A pressing unit 200 for spraying air to the air inlet pipe 210;
A sludge removing unit 300 installed on the other side of the plurality of water tanks 10 to remove sludge formed in the water tank 10 by vacuum suction;
Including,
In the purifying mode, the contaminated water in the plurality of water tanks 10 is purified while passing through the sidewalls of the filter 100 in the inward direction, collected in the hollow 101, discharged through the purified water discharge pipe 21,
In the backwash mode, purified water purified through the purifying mode is introduced into the hollow 101 of the water tub 10a performing backwashing, in addition to the air introduced through the air inlet pipe 210, The filter 100 is washed while passing through the side wall of the filter 100 in the outward direction,
The purified water discharge pipe (21)
A plurality of branch pipes (23) whose other end is connected to one opening of the one end of the plurality of filters (100);
One integrated pipe (22) for integrating one end of the plurality of branch pipes (23) to discharge purified water;
≪ / RTI &
A discharge valve (24) is installed in the integrated pipe (22), the discharge valve (24) is opened in the purge mode, closed in the backwash mode,
A plurality of pumps (25) are provided in the plurality of branch pipes (23), and the pumps (25) are all driven by the plurality of pumps (25) in the purge mode, 24 is closed and the pump 25 provided in the water tank 10a for performing backwashing among the plurality of water tanks 10 is stopped,
The air inlet pipe 210 is provided with an inlet valve 211,
The inlet valve 211 is closed in the purge mode, is opened in the backwash mode,
The sludge removal unit 300
Wherein the sludge removing unit (300) installed in the water tank (10a) for performing backwashing among the plurality of water tanks (10) in the backwash mode is driven. delete delete delete delete delete delete The method according to claim 1,
The filter (100)
Wherein the water treatment apparatus has a cylindrical structure. delete delete delete delete A water treatment method using a water treatment apparatus having a backwash function according to any one of claims 1 to 8,
A purifying step of purifying contaminated water flowing into the plurality of water tanks 10 so as to transmit the sidewalls of the filter 100 inwardly and discharging the purified water through the purified water discharge pipe 21;
A purified water discharging step of discharging the purified water purified in the purifying step; And
In addition to the air introduced through the air inlet pipe 210, the purified water purified through the purifying step flows into the hollow 101 of the water tank 10a performing backwashing among the plurality of water tanks 10 And a backwashing step of washing the filter (100) by allowing the sidewall of the filter (100) to permeate outwardly
≪ / RTI &
The purified water discharge pipe 21 has a plurality of branch pipes 23 at the other end thereof connected to open ends of the openings of the plurality of filters 100 and a plurality of branch pipes 23, (22), wherein the integrated tube (22)
A discharge valve 24 is installed in the integrated pipe 22 and a plurality of pumps 25 are installed in the plurality of branch pipes 23,
In the purifying step, the discharge valve 24 is opened, the pump 25 is driven,
Wherein the discharge valve is closed in the backwashing step and the pump 25 provided in the water tank 10a for performing backwashing among the plurality of water tanks 10 is stopped. Way. 14. The method of claim 13,
The filter (100)
A plurality of water tanks (10) are provided in each of the plurality of water tanks (10)
The plurality of branch pipes (23)
And the other ends are branched and connected to the openings of the one end of the plurality of filters (100), respectively. 14. The method of claim 13,
The backwashing step
A sludge removing step of removing sludge by driving the sludge removing unit 300 installed in the water tank 10a for backwashing among the plurality of water tanks 10;
Further,
Wherein the sludge removing unit (300) is installed on the other side of the plurality of water tanks (10) so as to remove sludge formed in the water tank (10) by vacuum suction.

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