KR101606410B1 - Apparatus for back washing by valve control of pump room and operation method of same - Google Patents

Abstract

The repair backwash system according to an embodiment of the present invention includes a replenishing water line, a surface layer water line, a layer number line, a first backwash line, a second backwash line, a replenishing water discharging line, and an elevated water tank, A surface water supply pump, a deep water supply pump and a makeup water discharge valve, a first surface water supply valve, a second surface water supply valve, a first deep water supply valve, a second deep water supply valve, A first backwash water supply valve, and a second backwash water supply valve.
Therefore, according to the hydraulic backwash system and the method for operating the pump back valve according to the pump chamber valve control method of the present invention configured as described above, the water pressure by the surface water pump or the deep water pump and the replenishing water by the head difference of the high- By applying the water pressure to the deep water line or the surface layer water line, the cleaning effect is excellent.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic backwash system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic backwash system, and more particularly, to a backwash system that blows off sediments, weak foul substances, and sediments accumulated in pipelines when a withdrawal port is settled, The water pump and the water tank pressure by the elevated water tank are used and the swirl section is set in a certain area to constitute the backwashing so that the backwashing efficiency can be maximized, System and a method of operating the same.

Deep ocean water is sea water at a depth of 200m or more at which the sun does not reach the ocean from the continental shelf. This deep ocean water circulating the earth for a long time near 1200-2000 years in deep water is often called deep seawater.

Here, the characteristics of deep seawater can be expressed in several ways. First, the annual water temperature is constantly low due to low temperature stability. Secondly, nutrition is enriched up to tens of times of surface water. Second, The fourth is the presence of minerals, which means that there are dozens of trace elements, and lastly it has been aged, and it is formed under high pressure for many years.

1, Korean Patent Registration No. 10-1089132 discloses a system for collecting and collecting deep seawater in an ocean, comprising: a collecting unit 100 for collecting collected deep seawater; A microfiltration process tank 200 for receiving deeper water from the water supply tank 110, a sand filtration process tank 300, a water supply source tank 400, An eleventh water supply tank 310 for storing and discharging the raw water filtered through the microfiltration unit 300 and a second water supply unit 310 for storing and discharging the filtered water supply water (clean water) A second water supply tank 210 for storing and discharging raw water filtered in the microfiltration process tank 200 to send the raw water to the first or second stage osmosis process tank 220 or 230, A first single-stage osmosis processing tank 220 for filtering the filtered raw water passing through the tank 200 and the second water supply tank 210, The electrodialysis process tank 280 electrodeposits the raw water having passed through the first single-stage osmosis process tank 220 or the second single-stage osmosis process tank 230, and the third water supply tank 291, Or a fifth water supply tank 250 or a seventh water supply tank 260, a tenth water supply tank 295, an ion exchange resin processing tank 280, and a sixth water supply tank 293. Water Treatment System for Deep Ocean Water Treatment ".

In connection with the deep water intake system, Korean Patent Laid-Open Publication No. 10-2006-0000690 discloses a system for "a flexible water intake pipe in which a water intake port is formed at a lower end and a deep water is introduced, A flexible connection pipe through which the deep water collected at one end is connected to the side of the water intake tank and through which the other end of the connection pipe is connected, And a pumping pump for discharging deep seawater stored in the storage tank to the outside through a pumping water pipe.

Normally, when the inner side of the pipe becomes clogged, a kind of rubber cannon, called Pig, is pushed into the pipe to pierce the clogged pipe. In the case of the bent pipe, the pipe sometimes becomes more difficult and more difficult.

Therefore, in spite of the above-mentioned prior art, there is a continuing need for development of a hydraulic backwash system by pump room valve control that can improve the backwashing efficiency as much as possible in backwashing blowing sediments accumulated in pipelines and the like Has come.

[Prior Art Literature]

1. Korean Registered Patent No. 10-1089132 (Registered on November 28, 2011)

2. Korean Unexamined Patent Publication No. 10-2006-0000690 (published on 2006.01.06)

It is an object of the present invention to provide a hydraulic backwash system by pump-room valve control that can improve backwash efficiency as much as possible in backwashing blowing sediments accumulated in pipelines and the like.

A water repellent backwash system according to an embodiment of the present invention includes a surface water line having one end connected to a sea water surface and a surface water supply pump connected to one side so that surface water is supplied to the surface water storage tank; A deeper water line in which a deeper water supply pump is connected to one side of the deeper water so that the deeper water is disposed adjacent to the deep water so that the deeper water is supplied to the deep water reservoir; A replenishing water line to which a replenishing water supply pump is connected is connected to one side so as to supply replenishing water supplied from the outside and a replenishing water discharging line is connected to the other side so as to discharge the replenishing water stored inside, An elevated water tank installed higher than the set head by sea level; A first backwash line connected to one side of the surface water line from one side of the deep water line; A second backwash line connected to the other side of the deep water line from the other side of the surface layer water line; And a plurality of valves connected to one side of the replenishing water discharging line, surface layer water line and deep layer water line and selectively opening and closing the replenishing water, surface layer water, and deep water through the inside, and the surface water or deep water line And the surface water line or the deep water line is backwashed by the replenishing water discharged from the replenishing water discharging line.

In the repair backwash system according to the pump chamber valve control according to the embodiment of the present invention, the first surface water supply valve and the second surface water supply valve are connected to the front and rear ends of the surface water supply pump, A first deep seawater supply valve and a second deep seawater supply valve are respectively connected to the first backwash water line and the second backwash water line, and the first backwash water supply valve is connected to the first backwash water line and the second backwash water supply valve is connected to the second backwash water line .

A surface water supply pump, a deep water supply pump, a makeup water supply pump, and a control unit for controlling the plurality of valves.

In the normal operation mode, the supplementary water supply pump is operated under the control of the control unit to supply supplemental water to the inside of the high-priced water tank, to operate the surface layer water supply pump to supply surface water to the inside of the surface layer water tank, And the deep water is supplied to the inside of the deep water reservoir.

In the case of the surface layer line backwash mode, the second deep water supply valve and the second backwash water supply valve are opened under the control of the control unit, the deep water supply pump is operated, and the deep water supplied through the deep water line is discharged to the second backwash water line And the surface layer water line is backwashed as the replenishing water and the deep layer water to be discharged are discharged through the surface layer water line.

In the case of the deep sea line backwash mode, the second surface water supply valve and the first backwash water supply valve are opened under the control of the control unit, the surface water supply pump is operated, surface water is supplied through the surface water line, And the surface layer water supplied through the surface layer water line is discharged through the deep water line, the deep water line is backwashed.

If backwashing is required, hydrostatic pressure by water head can be used. If strong backwashing is required, the backwashing performance can be controlled by applying pressure to the deep water line or surface water line by using a makeup water pressure pump .

An angle of engagement of the supernatant water discharge line and the surface water line connected to the elevated water tank; And a joint angle of the first backwash line branched from the deep water line and the surface layer water line and an angle of connection between the replenishing water discharge line and the deep water line connected to the high water tank; And a coupling angle of the first backwash line and the deep water line which are branched from the surface layer water line, respectively, are maintained.

And the backwash is accelerated by the vortex generated in the swirl zone provided in the deep water line or the surface layer water line.

Therefore, according to the hydraulic backwash system and the method for operating the pump back valve according to the pump chamber valve control method of the present invention configured as described above, the water pressure by the surface water pump or the deep water pump and the replenishing water by the head difference of the high- By applying the water pressure to the deep water line or the surface layer water line, the cleaning effect is excellent.

According to the hydraulic backwash system and the operating method of the pump chamber valve control of the present invention, backwashing is performed by utilizing a surface water pump or a deep water pump and a plurality of control valves to facilitate backwashing, There is another effect which is inexpensive.

Further, according to the hydraulic backwash system and the operation method thereof according to the pump chamber valve control of the present invention, the angle of engagement between the replenishing water discharging line and the surface layer water line supplied from the expensive water tank; And the coupling angle of the first backwash line branched from the deep water line and the surface layer water line are mutually coupled in the form of branch pipes so as to maintain the set value [theta], respectively.

According to another aspect of the present invention, there is provided a hydraulic backwash system and a method of operating the same, wherein a swirl section is formed in a predetermined area of a deep water line or a surface water line, Since the make-up water, the deep water or the surface layer water swirls backward in the swirl interval, there is another effect of maximizing the backwashing efficiency.

According to another aspect of the present invention, there is provided a hydraulic backwash system and a method of operating the same, wherein the backwash is controlled by using a hydrostatic pressure due to a water head difference, and when a strong backwash is required, There is another effect that the backwashing performance can be controlled by applying pressure to the deep water line or the surface water line by using the water pressure pump and discharging it.

1 is a block diagram schematically illustrating a deep ocean water treatment system according to the prior art.
FIG. 2 is a schematic view showing a hydraulic backwash system by a pump chamber valve control according to an embodiment of the present invention.
FIG. 3 is a block diagram showing the normal operation of the hydraulic backwash system by the pump chamber valve control shown in FIG.
FIG. 4 is a block diagram showing a process of backwashing the deep water line in the hydraulic backwash system by the pump chamber valve control shown in FIG.
FIG. 5 is a block diagram showing a process of backwashing surface water lines in the hydraulic backwash system by the pump chamber valve control shown in FIG.
6 is an enlarged view showing part A shown in Figs. 4 and 5. Fig.
7 is a cross-sectional view showing a swirl section provided in a set interval of a deep water line or a surface layer water line.
8 is a flowchart showing a process in which the surface water line is backwashed in the hydraulic backwash system by the pump chamber valve control.
9 is a flowchart showing a process in which a deep water line is backwashed in a hydraulic backwash system by pump room valve control.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Embodiments in accordance with the concepts of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application.

It is to be understood, however, that it is not intended to limit the embodiments according to the concepts of the present invention to the particular forms of disclosure, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises ",or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

Like reference numerals refer to like elements throughout the specification.

FIG. 2 is a schematic view showing a hydraulic backwash system by a pump chamber valve control according to an embodiment of the present invention, and FIG. 3 is a block diagram illustrating a normal operation of a hydraulic backwash system by the pump chamber valve control shown in FIG.

2 and 3, a hydraulic backwash system 700 according to a pump chamber valve control according to an embodiment of the present invention includes a replenishing water line 710, a surface water line 720, a deep water line 730, A replenishing water feed pump 770, and an elevated water tank 740. The replenishing water supply pump P1, which is connected to each of the lines, includes a first reversing line 750, a second reversing line 760, a replenishing water discharging line 770, The surface water supply pump P2, the deep water supply pump P3 and the replenishing water discharge valve V11, the first surface water supply valve V21, the second surface water supply valve V22, the first deep water supply valve V31, 2 deep water supply valve V32, a first backwash water supply valve Vr1, and a second backwash water supply valve Vr2.

3, a make-up water pressure pump P4 is connected to the lower side of the make-up water discharge valve V11, and a makeup water discharge line 770 branched from the makeup water pressure pump P4 A first supplemental water supply valve V41 and a second supplemental water supply valve V42 are connected and opened and closed so that the supplemental water can selectively pass to the surface water line 720 or deep water line 730,

Hereinafter, the connection relationship among the components constituting the hydraulic backwash system 700 by the pump chamber valve control according to the embodiment of the present invention, and the operation and effect of the components will be described.

A water repellent backwashing system 700 according to an embodiment of the present invention includes a surface layer water supply line P2 having one end connected to the surface water supply pump P2 so that surface water is supplied to the surface water storage tank, (720); A deep water line 730, one end of which is disposed adjacent to the deep sea floor, and a deep water supply pump P3 is connected to one side so that the deep water is supplied to the deep water reservoir; A replenishing water line 710 to which a replenishing water feeding pump P1 is connected is connected to one side so as to supply the replenishing water supplied from the outside and a replenishing water line 710 to which the replenishing water is supplied to the other side An elevated water tank 740 to which a line 770 is connected and which is installed higher than the set head by the sea level; A first backwash line 750 connected to one side of the surface layer water line 720 from one side of the deep water layer line 730; A second backwash line 760 connected to the other side of the deep layer water line 730 from the other side of the surface layer water line 720; And a plurality of valves V11, V21, V21, and V22 connected to one side of the replenishing water discharging line 770, the surface layer water line 720, and the deep water line 730 so as to selectively pass the replenishing water, surface water, V2, V31, V32, Vr1, Vr2), deep sea water supplied from the surface layer water line 730 or deep sea water line 730 supplied from the surface layer water line 720, and makeup water discharged from the makeup water discharge line 770 The surface layer water line 720 or the deep water line 730 is backwashed.

When strong backwashing is required, pressure is applied to the deep water line 730 or the surface water line 720 using a makeup water pressure pump P4 The backwashing performance can be controlled.

In addition, the hydraulic backwash system 700 according to the pump chamber valve control according to an embodiment of the present invention may include a surface water supply pump, a deep water supply pump, a makeup water supply pump, a controller (not shown) for controlling a plurality of valves; .

Here, the controller may select and set a normal operation mode, a surface layer line backwash mode, and a deep water line backwash mode by operating an operator of the hydraulic backwash system 700 by the pump chamber valve control according to an embodiment of the present invention One or more buttons that can; A memory for storing a control program capable of controlling the plurality of modes; And a display for displaying the selected plurality of modes.

Therefore, when the operator operating the hydraulic backwash system 700 by the pump chamber valve control according to the embodiment of the present invention sets the normal operation mode, the supplementary water supply pump is operated under the control of the controller, Supplementary water is supplied to the inside of the high-priced water tank, the surface water supply pump is operated to supply surface water to the inside of the surface water tank, and the deep water supply pump is operated to supply deep water to the inside of the deep water water tank.

On the other hand, when the operator operating the hydraulic backwashing system 700 by the pump chamber valve control according to the embodiment of the present invention selects the surface layer line backwash mode or the deep water line backwash mode other than the normal operation mode, The surface layer line or the deep layer water line is backwashed in accordance with the control signal of the control unit.

The first backwashing line 750 and the second backwashing line 760 are connected to the valves V11, V21, V22, V31, V32, Vr1 and Vr2 and the replenishment water supply pump P1, (P2) and the deep water supply pump (P3) are as shown in Fig.

As shown in FIG. 3, when the hydraulic backwash system 700 is normally operated by the pump chamber valve control, the replenishing water is stored inside the elevated tank 740 as the replenishing water supplying pump P1 is operated, The deep sea water is stored in the surface water reservoir (not shown) through the surface water line 720 due to the operation of the deep water reservoir line 720 and the deeper water supply pump P3 is operated, (Not shown).

In this case, the temperature of deep seawater is almost constant throughout the year through seasons, and the temperature of seawater surface water is 16 ~ 28 ℃, but the water temperature of deep sea water is 9 ℃, which shows low temperature stability. Plankton, microorganisms, There is little cleanliness.

Deep sea water was not detected in 10 kinds of bacteria such as pathogenic Escherichia coli and pathogenic virus except general bacteria. Total bacteria count is one tenth to one hundredth of clean water at the surface water.

In addition, the deep ocean water contains about 5 to 10 times of inorganic nutrients of surface water, while it contains many kinds of minerals that are more than 70 kinds of essential elements for human being, but it may be harmful if ingested in a large amount One of the essential trace elements, copper and zinc, is deeply related to human health. It is a characteristic of ocean deep seawater that it has a very good mineral balance.

In addition, the deep seawater is aged for a long time at low temperature and high pressure of the deep sea for a long time and has a low organic matter content, low pH (near pH 7.8) compared with surface water, Cluster is less characteristic.

Therefore, due to the above characteristics, deep sea water has been actively researched and commercialized in fields such as marine temperature difference generation, salt water production, marine therapy, treatment of atopic dermatitis, skin care cosmetics, aquaculture, .

On the other hand, in oceanic surface waters, the thermal energy is environmentally friendly as natural energy, does not cause side effects such as global warming, has an advantage of being infinite in nature, has seasonal fluctuations of temperature lower than river water, And it is possible to use the heat to the lower temperature than the river water. Since it has a temperature difference of about 5 ~ 10 ° C at the time of heating and cooling, it has very excellent characteristics as a heat source of the heat pump.

However, the ocean surface water has lower salinity and mineral content than the deep ocean water, and the density is lower due to the higher temperature.

6 is an enlarged view showing part A shown in Figs. 4 and 5. Fig.

6, the coupling angle of the supernatant water line 720 and the replenishing water discharging line 770 connected to the elevated water tank 740; And the angle of the first backwash line 750 branched from the deep water line 730 and the surface water line 720 are maintained at a predetermined value.

7 is a cross-sectional view showing a swirl section provided in a set interval of a deep water line or a surface layer water line.

7, a swirl interval S is provided in the section set in the deep layer water line or the surface layer water line. By the protrusion D formed on the inner wall or the spring member I disposed on the inner side, The backwashing efficiency is maximized because the makeup water, deep water or surface water is swirled backwashing in the corresponding swirl section (S) of the line or deep water line.

The swirl interval S is set in a section immediately before meeting the surface layer water line 720 from the elevated water tank 740 or in a section immediately before reaching the deep water line 730 from the elevated water tank 740, .

FIG. 5 is a block diagram showing a process of backwashing the surface layer water line in the hydraulic backwash system by the pump chamber valve control shown in FIG. 3, and FIG. 8 is a block diagram of the hydraulic backwashing system controlled by the pump chamber valve, And FIG.

5 and 9, by the operator operating the hydraulic backwash system 700 according to the pump chamber valve control according to the embodiment of the present invention, the surface layer line backwash mode other than the normal operation mode is selected , The surface layer water line 720 is backwashed as the following steps are performed.

That is, the method of backwashing the surface layer water line 720 of the hydraulic backwash system 700 by the pump chamber valve control according to the embodiment of the present invention, as shown in FIG. 8, Filling the high-priced water tank 740 with make-up water (S110); (S120) opening the replenishing water discharging valve (V11) and discharging the replenishing water downward through the replenishing water discharging line (770); The second deep seawater supply valve V32 and the second backwash water supply valve Vr2 are opened and the deep seawater supply pump P3 is operated to supply deep seawater supplied through the deep seawater line 730 to the second backwash line 760, (S130); And discharging the replenishing water and the deep water to be discharged through the surface water line 720 to the sea and backwashing the surface water line 720 (S140).

In addition, the operator operating the hydraulic backwash system 700 according to the pump chamber valve control according to the embodiment of the present invention selects the deep water line backwash mode, which is not the normal operation mode, Line 730 is backwashed.

FIG. 4 is a block diagram showing a process of backwashing the deep water line in the hydraulic backwash system by the pump chamber valve control shown in FIG. 3, and FIG. 9 is a flowchart illustrating a hydraulic backwash system by pump room valve control, And FIG.

As shown in FIG. 4 and FIG. 9, the backwashing method for the deep water line 730 of the hydraulic backwash system 700 by the pump chamber valve control according to the embodiment of the present invention, as shown in FIG. 9, , Filling the elevated water tank 740 with the makeup water through the makeup water line 710 (S210); Opening the replenishing water discharging valve V11 to discharge the replenishing water downward through the replenishing water discharging line 770 (S220); A step S230 of opening the second surface water supply valve V22 and the first backwash water supply valve Vr1 and activating the surface water supply pump P2 to supply surface water through the surface water line 720; And discharging the surface layer water supplied through the replenishing water to be discharged and the surface layer water line 720 through the deep layer water line 730 to the sea and backwashing the deep layer water line 730 (S240) .

Therefore, according to the hydraulic backwash system 700 and the backwashing method by the pump chamber valve control according to an embodiment of the present invention, the water pressure by the surface water supply pump P2 or the deep water supply pump P3 At the same time, by applying the water pressure of the replenishing water by the head difference of the elevated water tank 740 to the deep water line 730 or the surface water line 720, the cleaning effect is excellent.

According to the repairing backwash system 700 and the backwashing method by the pump chamber valve control of the present invention, the surface water supply pump P2 or the deep water supply pump P3 and the plurality of valves V11, V21, V22, V31, V32 , Vr1, and Vr2), back-washing is facilitated and installation and maintenance costs are reduced.

According to the hydraulic backwash system 700 and the backwashing method by the pump chamber valve control of the present invention, the coupling angle of the supernatant water discharge line 770 connected to the supernatant tank 740 and the surface water line 720; And the angle of the first backwash line 750 branched from the deep water line 730 and the surface layer water line 720 are mutually coupled in the form of branch pipes so as to maintain the set value θ respectively, There is another effect.

According to the hydraulic backwashing system 700 and the backwashing method by the pump chamber valve control according to another embodiment of the present invention, a swirl section is provided in a predetermined region of the deep water line 730 or the surface water line 720 The backwashing water, the deep seawater, or the surface layer water is backwashed in the corresponding swirl interval of the surface layer water line 720 or the deep water layer 730, thereby further maximizing the backwashing efficiency.

According to the hydraulic backwashing system 700 and the backwashing method by the pump chamber valve control according to another embodiment of the present invention, when weak backwashing is required, hydrostatic pressure due to the water head difference is used and strong backwashing is required There is another effect that the backwashing performance can be controlled by applying pressure to the deep water line 730 or the surface water line 720 using the makeup water pressure pump P4.

If backwashing is required, hydrostatic pressure by water head can be used. If strong backwashing is required, backwashing performance can be controlled by applying pressure to the deep water line or surface water line by using a makeup water pressure pump .

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is therefore to be understood that the embodiments described above are illustrative in all aspects and not restrictive.

The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

700: Repair backwash system by pump room valve control
710: Make-up water line 720: Surface water line
730: deep water line 740: elevated water tank
750: first backwash line 760: second backwash line
770: replenishing water discharge line D: projection
I: spring-shaped member P1: makeup water supply pump
P2: surface water supply pump P3: deep water supply pump
P4: Supplementary water pressure pump S: Swirl section
V11: Supplementary water discharge valve V21: First surface water supply valve
V22: Second surface water supply valve V31: First deep water supply valve
V32: second deep water supply valve Vr1: first backwash water supply valve
Vr2: Second backwash water supply valve V41: First supplementary water supply valve
V42: Second supplementary water supply valve

Claims (9)

A surface water line in which a surface water supply pump is connected to one side so that the surface water is supplied to the surface water storage tank;
A deeper water line in which a deeper water supply pump is connected to one side of the deeper water so that the deeper water is disposed adjacent to the deep water so that the deeper water is supplied to the deep water reservoir;
A replenishing water line to which a replenishing water supply pump is connected is connected to one side so as to supply replenishing water supplied from the outside and a replenishing water discharging line is connected to the other side so as to discharge the replenishing water stored inside, An elevated water tank installed higher than the set head by sea level;
A first backwash line connected to one side of the surface water line from one side of the deep water line;
A second backwash line connected to the other side of the deep water line from the other side of the surface layer water line; And
And a plurality of valves connected to one side of the replenishing water discharge line, surface layer water line and deep water line, wherein the replenishing water, surface water, and deep water are selectively opened and closed through the inside,
The surface layer water line or the deep water line is backwashed by the deep water supplied from the surface layer water line or the deep water line supplied from the surface layer water line and the makeup water discharged from the makeup water discharge line,
A first surface water supply valve and a second surface water supply valve are connected to the front and rear ends of the surface water supply pump respectively and a first deep water supply valve and a second deep water supply valve are connected to the front and rear ends of the deep water line, A first backwash water supply valve is connected to one backwash line, a second backwash water supply valve is connected to the second backwash line,
Further comprising: a surface water supply pump, a deep water supply pump, a makeup water supply pump, and a control unit for controlling the plurality of valves,
In the normal operation mode, under the control of the control unit,
The replenishment water supply pump is operated to supply replenish water to the inside of the high-priced water tank, the surface water supply pump is operated to supply surface water to the inside of the surface water reservoir, and the deep water supply pump is operated to supply deep water to the inside of the deep water reservoir A hydraulic backwash system with pump chamber valve control.
delete delete delete The method according to claim 1,
In the case of the surface layer line backwash mode, under control of the control unit,
The second deep water supply valve and the second backwash water supply valve are opened and the deep water supply pump is operated so that the deep water supplied through the deep water line is discharged through the second backwash line, And the surface layer water line is backwashed as it is discharged through the pump chamber valve control system.
The method according to claim 1,
In the case of the deep sea line backwash mode, under the control of the control unit,
The second surface water supply valve and the first backwash water supply valve are opened and the surface water supply pump is operated to supply surface water through the surface water line and the surface water supplied through the replenishing water and the surface water line to be discharged is discharged through the deep water water line Wherein the deep water line is backwashed as it is discharged.
The method according to claim 5 or 6,
If backwashing is required, hydrostatic pressure by water head can be used. If strong backwashing is required, the backwashing performance can be controlled by applying pressure to the deep water line or surface water line by using a makeup water pressure pump Features a hydraulic backwash system with pump chamber valve control.
The method according to claim 1,
An angle of engagement of the supernatant water discharge line and the surface water line connected to the elevated water tank; And a joint angle of the first backwash line branched from the deep water line and the surface layer water line and an angle of connection between the replenishing water discharge line and the deep water line connected to the high water tank; And a coupling angle of the first backwash line branched from the surface layer water line and the deep water line is maintained.
The method according to claim 1,
And the backwashing is accelerated by the vortex generated in the swirl zone provided in the deep water line or the surface layer water line.

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