KR20230047231A - Rainwater treatment automatic control filteration device and rainwater treatment system using the same - Google Patents

Abstract

The present invention relates to an automatic rainwater treatment control filtration device and a rainwater treatment system using the same and, more specifically, to an automatic rainwater treatment control filtration device and a rainwater treatment system using the same which accommodate a predetermined amount of rainwater inside a filtration film to continuously immerse the filtration film in the rainwater and automatically control an operation for each component according to a condition of the filtration film so as to increase a filtration function and operating life by maintaining an optimal condition of the filtration film.

Description

Rainwater treatment automatic control filter and rainwater treatment system using it {RAINWATER TREATMENT AUTOMATIC CONTROL FILTERATION DEVICE AND RAINWATER TREATMENT SYSTEM USING THE SAME}

The present invention relates to an automatic rainwater treatment control filtration device and a rainwater treatment system using the same, and more particularly, to maintain an optimal state of the filtration membrane to increase the filtration function and operating life, so that the filtration membrane is continuously immersed in rainwater. It relates to an automatically controlled filtering device for rainwater treatment and a rainwater treatment system using the same, in which a certain amount of rainwater is received and the operation of each component is automatically controlled according to the state of the filtration membrane.

Due to climate change caused by global warming, the water crisis is coming due to the depletion of water resources, the divergence of water resources by region and the deepening of pollution, and there is a possibility that the problem of water shortage will gradually intensify in the future, and the value of rainwater is attracting attention.

Installation cases of rainwater treatment facilities are increasing nationwide, and are expanding beyond existing legally subject facilities. Rainwater from which foreign substances contained in the initial rainwater are excluded is clean water that does not require sterilization or disinfection. emerging as a good alternative. To meet the needs of this era, many technologies are being developed that can effectively secure and use rainwater.

Conventional rainwater treatment facilities first pass through a pretreatment tank that removes visually visible foreign substances, and then secondarily excludes foreign substances included in the initial rainwater by using a filtration membrane (or separation membrane) such as a hollow fiber membrane or a ceramic membrane.

Here, in the case of Korea, the four seasons are distinct and rainfall is concentrated in summer, so rainwater does not collect during the non-summer period when rainfall is concentrated, so the time the filter membrane is exposed to the air is prolonged and the filter membrane is damaged due to the dry surface. problems can arise.

In addition, as described above, since the concentration of rainfall is high in Korea, rainwater treatment facilities can be out of operation for a long time during the dry season, and excessive operation of rainwater treatment facilities during the rainy season when rainfall is concentrated causes damage to suction pumps and filtration membranes. Concerns, maintenance/management costs are excessive.

Therefore, even when rainwater is not collected, the filtration membrane is kept submerged in water and by applying the automatic control system of the rainwater filtration device, the rainwater treatment device and system can solve the above problems and maintain the optimal state of the filtration membrane is in need of development.

Korea Patent Registration No. 10-1314575

The present invention has been made to solve the above-described problems, and an object of the present invention is to automatically control filtration of rainwater treatment equipped with a housing in the form of a water tank capable of accommodating water so that the filtration membrane is continuously maintained in a state submerged in water. to provide the device.

In addition, an object of the present invention is to provide an automatically controlled filtering device for rainwater treatment in which operation is automatically controlled according to the state of the filter membrane in order to prevent damage to the filter membrane due to non-operation or excessive operation and to maintain an optimal filter membrane condition. .

An automatic rainwater treatment control filtration device according to an embodiment of the present invention includes a filtration membrane composed of a ceramic membrane and a hollow fiber membrane; a housing in the form of a water tank accommodating the filtration membrane; and an automatic controller controlling the flow rate of water injected into and discharged from the filtration membrane according to the state of the filtration membrane.

Here, the housing may contain a certain amount of water therein.

In one embodiment, the integrated frame, the automatic control unit may control the flow rate of the water accommodated in the housing so that the filtration membrane is maintained in a state immersed in the water.

In one embodiment, the automatic control unit, a suction pump for sucking the water passing through the filtration membrane; a blower for injecting air to remove foreign substances in the filtration membrane; a backwash pump injecting washing water into the filtration membrane; and an automatic control panel in which operation switches for each configuration of the suction pump, the blower, and the backwash pump are disposed.

Here, operations of the suction pump, the blower, and the backwash pump may be controlled according to the state of the filtration membrane.

In one embodiment, the operation of the suction pump and the backwash pump may be controlled according to the flow rate of water passing through the filtration membrane per unit time.

In one embodiment, the operation of the suction pump may be stopped when the daily average treatment flow rate of the water passing through the filtration membrane decreases or cannot be maintained.

In one embodiment, the backwash pump may inject the washing water for cleaning the filtration membrane into the filtration membrane when the daily average flow rate of water passing through the filtration membrane decreases or cannot be maintained.

In one embodiment, the blower may stop injecting air while the filtration membrane is not in operation, and injecting air may be operated when the filtration membrane is cleaned.

A rainwater treatment system using an automatically controlled filtering device for rainwater treatment according to an embodiment of the present invention includes a rainwater inlet into which rainwater flows; a preprocessing unit that primarily removes foreign substances in the rainwater; a rainwater storage unit accommodating the automatic control filtering device for rainwater treatment and secondarily removing foreign matter from rainwater that has passed through the pretreatment unit; And a filtered water treatment unit for draining the filtered water that has passed through the rainwater storage unit to the outside.

In one embodiment, a plurality of the automatically controlled filtering device for treating rainwater may be accommodated in the rainwater storage unit.

In one embodiment, the plurality of automatically controlled rainwater treatment filtering devices may be stacked in vertical and horizontal directions.

According to the present invention, since the automatic rainwater treatment control filtration device is provided with a simple water tank-type housing capable of accommodating water, the filtration membrane is continuously maintained in a state submerged in water, so that the filtration membrane is prevented from being damaged due to drying. there is.

In addition, according to the present invention, the operation of the suction pump, the backwash pump, and the blower are automatically controlled according to the state of the filtration membrane, so that the filtration membrane is prevented from being damaged due to non-operation or excessive operation, thereby maintaining the optimal filtration membrane state. can

1 is a system diagram showing a rainwater treatment automatic control filtration device and a rainwater treatment system using the same according to an embodiment of the present invention.

The detailed description of the present invention is intended to completely explain the present invention to those skilled in the art. Throughout the specification, when a part is said to “include” a certain component or to “characterize” a certain structure or shape, this excludes other components or excludes other structures and shapes unless otherwise stated. It does not mean that it does, but it can include other components, structures and shapes.

Since the present invention can apply various transformations and have various embodiments, specific embodiments will be presented and described in detail in the detailed description. However, this is not intended to limit the content of the invention by the examples, and should be understood to include all conversions, equivalents, or substitutes included in the spirit and technical scope of the present invention.

1 is a system diagram showing a rainwater treatment automatic control filtering device 100 and a rainwater treatment system 1000 using the same according to an embodiment of the present invention. Referring to FIG. 1, the rainwater treatment automatic control filtering device 100 according to the present invention may be composed of a filtration membrane 10, a housing 20, and an automatic control unit 30, and a rainwater treatment system 1000 using the same It may be composed of a rainwater inlet unit (1), a pretreatment unit (2), a rainwater storage unit (3) and a filtered water treatment unit (4). A description of each component is as follows.

<Rainwater treatment automatic control filtering device>

The rainwater treatment automatic control filtering device 100 according to the present invention may be formed in a cylindrical shape with a certain appearance, and may filter rainwater by being simply submerged in a rainwater storage tank of a certain level without additional equipment. In order to fulfill this role, the rainwater treatment automatic control filtering device 100 may have a movable and compact structure, and may include a filtering membrane 10, a housing 20, and an automatic control unit 30.

The filtration membrane 10 serves to remove foreign substances in the water passing through the membrane. To perform this role, the filtration membrane 10 may be composed of a ceramic membrane and a hollow fiber membrane. Here, the ceramic membrane and the hollow fiber membrane may remove foreign substances contained in the water passing through the membrane by attaching them to the surface of the membrane, and the filtered water may be discharged through a drain formed on one side of the ceramic membrane and the hollow fiber membrane. there is.

In one embodiment, the filtration membrane 10 may be disposed in the housing 20 to be described later, and may include a plurality of ceramic membranes and a plurality of hollow fiber membranes. Here, the filtration membrane 10 may be stacked and disposed in a horizontal direction or a vertical direction based on the bottom surface of the housing 20 . At this time, the filtration membrane 10 may further include a separate support frame for fixing and stacking a plurality of ceramic membranes and hollow fiber membranes.

The housing 20 may be formed in the form of a water tank having a predetermined space therein, and may accommodate the filtration membrane 10 therein. Here, the housing 20 may receive rainwater introduced from the outside and discharge filtered treated water, and for this purpose, it may be connected to the outside by a water supply pipe and a drain pipe in the form of a pipe.

In one embodiment, the housing 20 may maintain a state in which the filtration membrane 10 disposed therein is immersed in water by accommodating a certain amount of water therein. Here, the housing 20 may include a residual water storage space capable of accommodating a certain amount of water in addition to the space occupied by the filtration membrane 10 therein.

In one embodiment, the housing 20 may further include a water level sensor inside to check whether the level of water to which the filtration membrane 10 is immersed has increased. Here, water inside the housing 20 may be supplied or drained through an automatic control unit 30 to be described later so that the filtration membrane 10 therein is continuously immersed in water. To this end, the housing 20 may be connected to the automatic control unit 30 through one or more pipes.

The automatic control unit 30 serves to control the flow rate of water injected into and discharged from the filtration membrane 10 according to the state of the filtration membrane 10 . To perform this role, the automatic controller 30 may include a suction pump 31, a blower 32, a backwash pump 33, and an automatic control panel 34. Here, the operation of the suction pump 31, the blower 32, and the backwash pump 33 may be controlled according to the state of the filtration membrane 10.

In one embodiment, the automatic control unit 30 may control the flow rate of water accommodated in the housing 20 to a certain water level or higher so that the filtration membrane 10 is maintained submerged in the water. Here, the automatic control unit 30 may control the water level in the housing 20 to be maintained above the height of the filtration membrane 10 through the water level detection sensor in the housing 20 . Further, a description of each component of the automatic control unit 30 according to an embodiment of the present invention is as follows.

The suction pump 31 serves to suck water that has passed through the filtration membrane 10, and for this purpose, the suction pump 31 may be connected to the drain of the filtration membrane 10 through a pipe.

In one embodiment, the operation of the suction pump 31 may be controlled according to the flow rate of water passing through the filtration membrane 10 per unit time. Specifically, the operation of the suction pump 31 may be stopped when the daily average treatment flow rate of water passing through the filtration membrane 10 decreases or cannot be maintained. Here, if the daily average treatment flow rate of the water passing through the filtration membrane 10 is reduced or cannot be maintained, the filtration membrane 10 may be clogged with foreign substances and the filtration efficiency may decrease, and when rainwater is continuously injected, the filtration membrane ( 10) may cause damage. Therefore, the operation of the suction pump 31 may be stopped when the daily average treatment flow rate of water decreases or cannot be maintained in order to maintain the optimal state of the filtration membrane 10 and increase rainwater filtration efficiency.

The blower 32 serves to inject air into the filtration membrane 10 in the process of backwashing the filtration membrane 10. To this end, the blower 32 may be connected to a diffuser located below the filtration membrane 10. . Here, the diffusion pipe may be configured to be coupled to the lower portion of the filtration membrane 10 in an integrated structure with the filtration membrane 10.

In one embodiment, the blower 32 may blow air to the filtration membrane 10 during backwashing to separate foreign substances accumulated on the filtration membrane 10 from the filtration membrane 10 . Here, the blower 32 stops operating while the filtration membrane 10 is not in operation in order to save power consumption generated by supplying air during the non-operation period, and when the cleaning of the filtration membrane 10 is in progress and the suction pump 31 Operation may be controlled so that air is injected into the filtration membrane 10 in advance before operation.

The backwash pump 33 serves to inject washing water into the filtration membrane 10, and for this purpose, the backwash pump 33 may be connected to the filtration membrane 10 through a back tubing. Here, the washing water may be used as washing water by circulating the water that has passed through the automatic rainwater treatment control filtration device 100 again. Specifically, the water that has passed through the rainwater treatment automatic control filtering device 100 can be sprayed back to the filtration membrane 10 by the backwash pump 33 and passed through the filtration membrane 10 again by the suction pump 31. A repetitive filtration process may be performed simultaneously with the backwashing of the filtration membrane 10 .

In one embodiment, the operation of the backwash pump 33 may be controlled according to the flow rate of water passing through the filtration membrane 10 per unit time. Specifically, the backwash pump 33 remains inoperative while the suction pump 31 is in operation, and starts operating when the daily average treatment flow rate of water passing through the filtration membrane 10 decreases or cannot be maintained. Washing water may be injected into the filtration membrane 10 to clean the filtration membrane 10 . Here, if the daily average treatment flow rate of the water that has passed through the filtration membrane 10 decreases or cannot be maintained, the filtration membrane 10 may be clogged with foreign substances and the filtration efficiency may decrease, and when rainwater is continuously injected, the filtration membrane ( 10) may cause damage. Accordingly, the backwash pump 33 may be operated when the daily average treatment flow rate decreases or fails to be maintained in order to maintain the optimal state of the filtration membrane 10 and increase rainwater filtration efficiency.

The automatic control panel 34 displays the flow rate of water passing through the filtration membrane 10 so that the user can check the state of the filtration membrane 10 and control each component of the automatic control unit 30, and the suction pump 31, It is a panel where operation switches for each component of the blower 32 and the backwash pump 33 are disposed.

<Rainwater treatment system using automatic rainwater treatment control filter>

The rainwater treatment system 1000 using the automatic control filtering device for rainwater treatment according to the present invention performs a role of filtering and treating rainwater flowing along various paths and containing foreign substances into landscaping water, agricultural water, and industrial water. In order to do this, the rainwater treatment system 1000 using the rainwater treatment automatic control filtering device may be composed of a rainwater inlet 1, a pretreatment unit 2, a rainwater storage unit 3, and a filtered water treatment unit 4. . A description of each component is as follows.

The rainwater inlet 1 serves to collect and receive rainwater introduced through various paths. In order to perform this role, the rainwater inlet 1 is composed of a water tank of a certain size and may include a sensor for checking the flow rate of the incoming rainwater.

The pretreatment unit 2 primarily serves to remove foreign substances in rainwater. To perform this role, the pretreatment unit 2 may include an oil adsorption module and a net-type screen to remove oil present on the surface of the rainwater.

The rainwater storage unit 3 serves to secondarily remove foreign substances in the rainwater that have passed through the pretreatment unit 2 . In order to perform this role, the rainwater storage unit 3 is configured in the form of a water tank capable of storing a certain amount of rainwater and can accommodate the automatic control filtering device 100 for rainwater treatment. Here, the rainwater storage unit 3 may remove smaller foreign substances that could not be removed by the pretreatment unit 2 through the rainwater treatment automatic control filtering device 100.

In one embodiment, the rainwater storage unit 3 may accommodate a plurality of automatically controlled rainwater treatment filtering devices 100. Here, the plurality of automatic rainwater treatment control filtering devices 100 may be stacked in a vertical or horizontal direction based on the bottom surface of the rainwater storage unit 3.

In one embodiment, the plurality of automatically controlled rainwater treatment filtering devices 100 may be stacked by being fitted to each other through irregularities formed on the outer surface of the housing 20 without a separate frame. In another embodiment, a plurality of automatically controlled rainwater treatment filtering devices 100 may be combined with a frame formed to fit the size of the housing 20 and stacked.

The filtered water treatment unit 4 serves to drain the filtered water that has passed through the rainwater storage unit 3 to the outside. In order to perform this role, the filtered water treatment unit 4 includes a plurality of drainage pipes connected to the outside, and can drain the filtered water by controlling the state and flow rate of the filtered water according to the use of the filtered water, such as landscaping water, agricultural water, and industrial water.

Although described with reference to the preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. You will understand that it can be done.

1000: Rainwater treatment system using an automatic control filter for rainwater treatment.
100: Rainwater treatment automatic control filtering device
10: filtration membrane
20: housing
30: automatic control unit
31: suction pump
32: blower
33: backwash pump
34: automatic control panel
1: Storm water inlet
2: pre-processing unit
3: rainwater storage unit
4: filtered water treatment unit

Claims (10)

a filtration membrane composed of a ceramic membrane and a hollow fiber membrane;
a housing in the form of a water tank accommodating the filtration membrane; and
An automatic control unit controlling the flow rate of water injected into and discharged from the filtration membrane according to the state of the filtration membrane;
the housing,
Characterized in that it accommodates a certain amount of water inside,
Rainwater treatment automatic control filtration device.
According to claim 1,
The automatic control unit,
Characterized in that the flow rate of the water accommodated in the housing is controlled so that the filtration membrane is maintained in a state immersed in water.
Rainwater treatment automatic control filtration device.
According to claim 1,
The automatic control unit,
a suction pump for sucking water that has passed through the filtration membrane;
a blower for injecting air to remove foreign substances in the filtration membrane;
a backwash pump injecting washing water into the filtration membrane; and
It consists of an automatic control panel in which operation switches for each component of the suction pump, blower, and backwash pump are disposed,
Characterized in that the operation of the suction pump, blower and backwash pump is controlled according to the state of the filtration membrane,
Rainwater treatment automatic control filtration device.
According to claim 3,
The suction pump and the backwash pump,
Characterized in that the operation is controlled according to the flow rate of water passing through the filtration membrane per unit time,
Rainwater treatment automatic control filtration device.
According to claim 4,
The suction pump,
Characterized in that the operation is stopped when the daily average treatment flow rate of the water passing through the filtration membrane decreases or cannot be maintained,
Rainwater treatment automatic control filtration device.
According to claim 4,
The backwash pump,
Characterized in that the washing water for washing the filtration membrane is injected into the filtration membrane when the daily average treatment flow rate of the water passing through the filtration membrane decreases or cannot be maintained,
Rainwater treatment automatic control filtration device.
According to claim 3,
the blower,
Characterized in that the air injection is stopped while the filtration membrane is not operating and the air injection is operated when the filtration membrane is cleaned.
Rainwater treatment automatic control filtration device.
Using the rainwater treatment automatic control filtration device according to any one of claims 1 to 7,
a rainwater inlet into which rainwater flows;
a preprocessing unit that primarily removes foreign substances in the rainwater;
a rainwater storage unit accommodating the automatic control filtering device for rainwater treatment and secondarily removing foreign matter in the rainwater that has passed through the pretreatment unit; and
Characterized in that it comprises a; filtered water treatment unit for draining the filtered water passing through the rainwater storage unit to the outside,
Rainwater treatment system using automatic rainwater control filtering device.
According to claim 8,
Characterized in that a plurality of the rainwater treatment automatic control filtering device is accommodated in the rainwater storage unit,
Rainwater treatment system using automatic rainwater control filtering device.
According to claim 9,
The plurality of rainwater treatment automatic control filtering devices,
Characterized in that it is laminated in the vertical and horizontal directions,
Rainwater treatment system using automatic rainwater control filtering device.

Images