KR20240018213A - Water treatment system having a detachable filtration membrane assembly - Google Patents

Abstract

A water treatment system comprising a separable filtration membrane assembly is disclosed. A water treatment system including a separable filtration membrane assembly according to an embodiment of the present invention includes a support unit disposed inside a treatment tank that stores raw water to be treated; and a filtration membrane for filtration of raw water and supported by a support unit to perform filtration of raw water, comprising a filtration membrane assembly supporting the filtration membrane and disposed inside the raw water, and a filtration membrane assembly connected to at least a portion of the support unit. It is provided with a supporting module, and includes a top-and-bottom separable filtration treatment unit in which the support module disposed at the top and the filtration membrane assembly disposed at the bottom are mutually assembleable and separable.

Description

Water treatment system having a detachable filtration membrane assembly}

The present invention relates to a water treatment system, and more specifically, to a water treatment system equipped with a filtration membrane and performing filtration treatment of raw water, by assembling and assembling the filtration membrane support structure, which is a structure supporting the filtration membrane, in a simpler and more efficient manner. This relates to a water treatment system having a detachable filtration membrane assembly that can be disassembled, so can be more easily installed and dismantled even in places with limited assembly space, and can be more firmly fixed despite a simple assembly method.

The sewage and wastewater treatment process using a membrane bioreactor (hereinafter referred to as the MBR method) is a process that combines the advantages of separation membrane technology with the conventional activated sludge process. Depending on the pore size and surface charge of the membrane, the treatment targets present in raw water and sewage and wastewater are treated. It is an advanced separation process that can almost completely separate and remove substances (organic, inorganic contaminants, microorganisms, etc.).

MBR (Membrane Bio Reactor) is a technology that directly filters sludge using a microfiltration (MF) or ultrafiltration (UF) membrane instead of the final settling basin of the biological activated sludge method.

The MBR method separates flocs and ensures stable water quality regardless of the sedimentation of microorganisms. It can maintain a high concentration of microorganisms, improving the treatment performance of organic matter and nitrogen, and has the effect of reducing the overall process site area. has

This MBR method is being commercialized in the water treatment field, but it has several problems such as excessive initial investment in equipment, high energy costs, and problems with membrane contamination.

The process of cleaning a contaminated filtration membrane can be divided into a physical cleaning process and a chemical cleaning process.

The physical cleaning process applies physical shock to the filtration membrane to maintain good permeation performance of the filtration membrane. Examples include a backwashing process, aeration process, and reciprocating process. The backwashing process is a method of removing contaminants attached to the surface of the filtration membrane by flowing air or water back through the filtration membrane, and the acidification process is a method of removing contaminants attached to the surface of the filtration membrane by air bubbles by spraying air from under the filtration membrane. , the reciprocating process is a method of removing contaminants attached to the surface of the filtration membrane by directly moving the filtration membrane.

The chemical cleaning process restores the permeation performance of the filtration membrane by cleaning the filtration membrane using chemicals when contamination of the filtration membrane accumulates and the permeation performance of the filtration membrane deteriorates as the fluid is treated over a long period of time.

Generally, the physical cleaning process is performed continuously, and the chemical cleaning process is performed intermittently.

In such a conventional water treatment system, the filtration membrane support structure, which is a structure that supports the filtration membrane in the assembled state, is generally placed on the upper part of the treatment tank for storing raw water and then lowered, thereby being introduced into the treatment tank and placed at a predetermined position. As the capacity of raw water to be treated increases and the depth of the treatment tank increases, the size of the structure supporting the filtration membrane increases and its height also increases.

Accordingly, in order to insert the structure supporting the assembled filtration membrane into the inside of the treatment tank, a large space is required to move the structure. In particular, a high filtration membrane support structure is installed in the treatment tank indoors. In the case of installation, an upper space of approximately the same height as the depth of the treatment tank is required, making installation difficult in narrow places.

Therefore, in order to install a structure that supports the filtration membrane even in a narrow place, it is necessary to provide a filtration membrane support structure, which is a structure that supports the filtration membrane, in a structure that can be separated and assembled.

In addition, the filtration membrane must be replaced periodically in the filtration membrane support structure. Generally, the work of assembling and disassembling the filtration membrane for maintenance of the filtration membrane placed underwater is performed underwater, so the method is difficult and there is a problem in that precise work is impossible. In order to replace the filtration membrane more easily, it is necessary to provide a filtration membrane support structure that can be separated and assembled.

Meanwhile, during the operation of the water treatment system, aeration is applied or reciprocation of the filtration membrane is performed to minimize blockage of the filtration membrane, so it is necessary to prevent fouling. In this case, a filtration membrane support structure that can be separated and assembled must be used to support the filtration membrane. If the structure itself is not firmly assembled or the filtration membrane is not firmly supported, fatigue accumulates in the connection portion of the filtration membrane support structure itself or the connection portion with the filtration membrane, damaging the joint stability. If this condition continues, the filtration membrane or filtration membrane support structure may accumulate. There is a problem that can lead to damage to the structure itself.

Republic of Korea Patent No. 10-2021951, (2019.09.09.)

Therefore, the technical problem to be achieved by the present invention is that, in a water treatment system equipped with a filtration membrane and performing filtration treatment of raw water, the filtration membrane support structure, which is a structure supporting the filtration membrane, can be assembled and disassembled in a simpler and more efficient manner. The aim is to provide a water treatment system with a detachable filtration membrane assembly that can be more easily installed and dismantled even in places with limited assembly space and can be more firmly fixed despite the simple assembly method.

According to one aspect of the present invention, a support unit disposed inside a treatment tank that stores raw water to be treated; and a filtration membrane assembly for filtration of the raw water and supported by the support unit to perform filtration of the raw water, the filtration membrane assembly supporting the filtration membrane and disposed inside the raw water, and at least a portion of the support unit. It has a support module connected to support the filtration membrane assembly, and the support module disposed at the top and the filtration membrane assembly disposed at the bottom are provided to be mutually assembled and separable. Characterized in that it includes a top and bottom separable filtration processing unit. A water treatment system can be provided that includes a removable filtration membrane assembly.

The top and bottom separable filtration unit may further include a pressurized fixing module disposed between the support module and the filtration membrane assembly and fixing the filtration membrane assembly to the support module through a pressing operation that pressurizes at least a portion of the filtration membrane assembly. You can.

The filtration membrane assembly includes a plurality of unit filtration membrane assemblies arranged to be spaced apart from each other along the longitudinal direction of the support module, and each of the plurality of unit filtration membrane assemblies is positioned between a pair of lower support frames disposed below the support module. A filtration membrane coupling frame capable of passing through the space and having a width such that both ends are in contact between the inner surfaces of the pair of lower support frames, and to which the filtration membrane is coupled; and are coupled to the upper part of the filtration membrane coupling frame, spaced apart from each other by a predetermined distance along the longitudinal direction of the support module, and intersecting the longitudinal direction of the support module so as to be held by the upper surfaces of the pair of lower support frames. It may include a plurality of locking support protrusions that are coupled to protrude in the desired direction.

The pressurized fixing module includes a bracket coupled to an upper support frame disposed on top of the support module; a pressing frame that stands between the bracket and the locking support protrusion of the filtration membrane assembly and fixes the filtration membrane assembly to the support module by pressing both ends of the locking support protrusion; And it may include a pressure bolt disposed through a screw connection on one side of the bracket and pressing the upper end of the pressure frame downward.

The pressurizing fixing module further includes a guide protrusion coupled to one side of the pressing frame, and the support module includes a guide frame in which the guide protrusion is fitted to form a guide groove that guides the movement of the pressing frame. can do.

The guide groove includes: a horizontal guide groove that guides the horizontal movement of the pressing frame in order to position the pressing frame on the upper part of the locking support protrusion; And the pressing frame located on the upper part of the engaging protrusion may include a vertical guide groove that guides the vertical movement of the pressing frame in order to press both ends of the engaging supporting protrusion.

Embodiments of the present invention provide a top-and-bottom separable filtration processing unit that can be assembled and separated from each other by pressing a portion of the support module disposed at the top and a portion of the filtration membrane assembly disposed at the bottom, thereby forming a filtration membrane. Since the filtration membrane support structure, which is a supporting structure, can be assembled and disassembled in a simpler and more efficient manner, it can be more easily installed and dismantled even in places where assembly space is limited.

In addition, despite the simple coupling method, the filtration membrane support structure and the filtration membrane can be more firmly fixed.

1 is a side view schematically showing a water treatment system including a separable filtration membrane assembly according to an embodiment of the present invention.
Figure 2 is an enlarged plan view and side view of portion A of Figure 1.
FIG. 3 is a perspective view schematically showing a top-bottom separation type filtration treatment unit supported by the support unit of FIG. 1.
FIGS. 4 to 7 are diagrams sequentially showing the process of assembling a top-bottom separable filtration treatment unit in order to place the top-bottom separable filtration treatment unit on top of the support unit of FIG. 1.
FIG. 8 is an enlarged view of part B of FIG. 7, and is a detailed view showing the coupling relationship of the pressurized fixing module.

In order to fully understand the present invention, its operational advantages, and the objectives achieved by practicing the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by explaining preferred embodiments of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

Figure 1 is a side view schematically showing a water treatment system including a separable filtration membrane assembly according to an embodiment of the present invention, Figure 2 is an enlarged plan view and side view of portion A of Figure 1, and Figure 3 is a It is a perspective view schematically showing a top-and-bottom separable filtration treatment unit supported by the support unit of 1, and FIGS. 4 to 7 show a top-and-bottom separable filtration treatment unit in order to place the top and bottom separable filtration treatment unit on top of the support unit of FIG. 1. This is a drawing sequentially showing the process of assembling, and Figure 8 is an enlarged view of part B of Figure 7, showing in detail the coupling relationship of the pressurized fixing module.

Prior to a detailed description, according to an embodiment of the present invention shown in these drawings, the support module 510 of the top-bottom separable filtration unit 500 is provided with a plurality of roller assemblies 513, so that it can be moved back and forth. It was prepared as a support module.

That is, the top-bottom separable filtration unit 500 is provided with a filtration membrane 531 for filtration of raw water and is supported by the support unit 300 to perform filtration of raw water, and moves back and forth along the support unit 300. 1 to 8 show a case where the filter is provided in a reciprocating motion manner so that it can play the role of cleaning the contaminated filtration membrane.

Therefore, as shown in these drawings, a water treatment system including a separable filtration membrane assembly according to an embodiment of the present invention includes a treatment tank 100, a support unit 300, and a top-and-bottom separable filtration treatment unit 500. and an extended reciprocating drive unit 700.

In contrast, according to another embodiment of the present invention not shown in these drawings, the top-bottom separable filtration unit 500 is a fixed type in which reciprocating motion is not possible when it is not necessary to perform the operation of cleaning the contaminated filtration membrane by reciprocating motion. It may be provided to have a support module.

According to another embodiment of the present invention, the plurality of roller assemblies 513 of the support module 510 may be omitted in the top-bottom separable filtration unit 500 and may be provided in a fixed form so that reciprocating movement is not possible. Accordingly, the extended reciprocating drive unit 700 may also be omitted.

The treatment tank 100 is a place to store raw water to be treated, and is a place where physical filtration of raw water is performed by an upper and lower separable filtration unit 500, which will be described later.

The support unit 300 is disposed inside the treatment tank 100, serves to support a top-and-bottom separable filtration treatment unit 500, which will be described later, and includes a rail structure 310 and a support structure 330.

The rail structure 310 is arranged so that a plurality of roller assemblies 513 provided in the support module 510 of the top and bottom separable filtration unit 500, which will be described later, are in rolling contact, thereby enabling smooth reciprocating movement of the support module 510. It is a component that makes it possible.

In addition, according to another embodiment of the present invention in which the top-bottom separable filtration unit 500 is provided with a fixed support module that cannot reciprocate, the plurality of roller assemblies 513 are omitted from the top-bottom separable filtration unit 500. It will be a component that supports the support module 510 in its current state.

The support structure 330 serves to support the rail structure 310 and can be provided in various shapes to safely support depending on the size of the treatment tank 100 and the size and weight of the top and bottom separable filtration treatment unit 500. You can.

Meanwhile, the top-bottom separable filtration unit 500 is provided with a filtration membrane 531 for filtration of raw water and is supported by the support unit 300 to perform filtration of raw water.

This top-bottom separation type filtration unit 500 includes a filtration membrane assembly that supports the filtration membrane 531 and is disposed inside the raw water, and a support module connected to at least a portion of the support unit 300 to support the filtration membrane assembly, The support module disposed at the top and the filtration membrane assembly disposed at the bottom are provided so as to be able to be assembled and separated from each other.

At this time, a portion of the support module disposed at the upper portion and a portion of the filtration membrane assembly disposed at the lower portion are provided to enable mutual assembly and separation by pressing each other.

As described above, in a conventional water treatment system, the filtration membrane support structure, which is a structure that supports the filtration membrane, is generally placed on the upper part of the treatment tank for storing raw water in an assembled state and then lowered to allow it to be introduced into the treatment tank in advance. It is placed at a determined location. As the capacity of raw water to be treated increases and the depth of the treatment tank increases, the size and height of the structure supporting the filtration membrane increases.

Accordingly, in order to insert the assembled filtration membrane support structure into the treatment tank, a large space is required to move the structure. In particular, installing a high filtration membrane support structure in an indoor treatment tank requires a large space. In this case, since an upper space of approximately the same height as the depth of the treatment tank is required, installation is difficult in narrow places.

Therefore, in order to install the filtration membrane support structure even in a narrow place, it is necessary to provide the filtration membrane support structure in a structure that can be separated and assembled.

In addition, the filtration membrane must be replaced periodically in the filtration membrane support structure. Generally, the work of assembling and disassembling the filtration membrane for maintenance of the filtration membrane placed underwater is performed underwater, so the method is difficult and there is a problem in that precise work is impossible. In order to replace the filtration membrane more easily, it is necessary to provide a filtration membrane support structure that can be separated and assembled.

Ultimately, according to the present invention, a filtration membrane assembly 530 that supports the filtration membrane 531 and is disposed inside the raw water, and a support module 510 connected to at least a portion of the support unit 300 and supporting the filtration membrane assembly 530. The above-described problem can be solved by providing a top-and-bottom separable filtration unit 500, which is provided with a support module 510 disposed at the top and a filtration membrane assembly 530 disposed at the bottom so as to be able to be assembled and separated from each other. There will be.

That is, in order to install a structure supporting the filtration membrane even in a narrow place, a separable filtration membrane assembly 530 is provided so that the filtration membrane support structure can be easily separated and assembled, so that the filtration membrane assembly 530 in a separated state can be easily handled. Since it can be taken out from the tank, disassembly and assembly of the filtration membrane for maintenance of the filtration membrane can be performed quickly and simply outside the treatment tank rather than underwater.

As shown in detail in FIGS. 1 and 3, the top-bottom separable filtration unit 500 according to an embodiment of the present invention includes a support module 510, a filtration membrane assembly 530, and a pressurized fixing module 550. Including, the filtration membrane support structure can be assembled and disassembled in a simpler and more efficient manner through a simple and efficient structure, which will be explained below, so it can be installed and dismantled more easily even in places where assembly space is limited, and can be easily assembled. Regardless of the method, it can be fixed more firmly.

Additionally, when the support module 510 is provided in a movable manner capable of reciprocating movement, it is possible to prevent the filtration membrane support structure from being damaged by the reciprocating movement.

First, the filtration membrane assembly 530 is a component that includes a filtration membrane 531 and is placed at a predetermined location in the treatment tank 100.

And, the support module 510 has at least a portion of its upper end supported by the support unit 300 and at least a portion of its lower portion supports the filtration membrane assembly 530, so that the filtration membrane assembly 530 is placed at a predetermined position in the treatment tank. It plays a supporting role.

The support module 510 and the filtration membrane assembly 530, which play this role, are provided so that they can be assembled and separated from each other in an individually assembled state, so that they can be assembled together in a simpler and more efficient manner during the process of being introduced into the treatment tank. Since it can be easily disassembled during the process of removing it from the treatment tank, it can be more easily installed and dismantled even in places where assembly space is limited.

According to an embodiment of the present invention, the support module 510 is a structure provided to enable rolling contact with the rail structure 310 disposed at the top of the support unit 300, and includes an upper support frame 511 and a roller. It includes an assembly 513, a lower support frame 515, and a guide frame 517.

When the structure of the support module 510 is described with reference to FIG. 4, the upper support frame 511 and the lower support frame 515 are provided long along the longitudinal direction, which is the direction of reciprocating movement, and each consists of a pair facing each other. They are placed parallel to each other.

A pair of upper support frames 511 are disposed on the upper part of the rail structure 310 of the support unit 300, and a plurality of roller assemblies 513 are provided on the lower surface of the pair of upper support frames 511 to form a rail structure ( 310) is coupled to the upper part to enable contact with the cloud.

According to another embodiment of the present invention, the plurality of roller assemblies 513 are provided in a form in which the support module 510 is fixed so that reciprocating movement is not possible in the top and bottom separable filtration processing unit 500, as described above. The roller assembly 513 may be omitted.

A pair of lower support frames 515 serve to support the filtration membrane assembly 530, and are disposed below the pair of upper support frames 511, but are narrower than the gap between the pair of upper support frames 511. are placed at intervals. Due to this structure, the lower part of the support module 510 can pass through the space formed by the rail structure 310 of the support unit 300, but the pair of upper support frames 511 of the support unit 300 It may be supported by the upper part of the rail structure 310.

That is, by lowering the support module 510 from the upper part of the rail structure 310 of the support unit 300, the lower part of the support module 510 is moved to the rail structure 310, as shown in FIG. 4. By passing through the space formed by and fitting the plurality of roller assemblies 513 to the rail provided on the upper part of the rail structure 310, the support module 510 can be easily arranged.

The guide frame 517 is disposed between the upper support frame 511 and the lower support frame 515. According to an embodiment of the present invention, as shown in FIGS. 4 to 8, the upper guide frame 517U and a lower guide frame 517D. However, the present invention is not limited to this, and more guide frames 517 may be provided depending on the length of the pressing frame 552, which will be described later.

This guide frame 517 is fitted with a guide protrusion 554, which will be described later, to form a guide groove 518 that guides the movement of the pressing frame 552, so that the pressing frame 552 can be guided to an accurate position. do.

Here, the guide groove 518 includes a horizontal guide groove 518H and a vertical guide groove 518V.

The horizontal guide groove 518H serves to guide the horizontal movement of the pressing frame 552 to position the pressing frame 552, which will be described later, on the upper part of the hanging support protrusion 535, and the vertical guide groove 518V serves to guide the pressing frame 552 to position it on the upper part of the hanging support protrusion 535. The pressing frame 552 located on the upper part of the support protrusion 535 serves to guide the vertical movement of the pressing frame 552 in order to press both ends of the locking support protrusion 535.

Next, the filtration membrane assembly 530 is supported by the lower support frame 515 disposed below the support module 510, and a plurality of unit filtration membranes are arranged to be spaced apart from each other along the reciprocating direction of the support module 510. Includes assembly (530U).

That is, the structure in which a plurality of unit filtration membrane assemblies (530U) are provided allows each filtration membrane to be replaced more easily and conveniently.

According to one embodiment of the present invention, as shown in detail in FIG. 5, six unit filtration membrane assemblies (530U) are arranged in parallel along the reciprocating direction, but the present invention is not limited thereto, and the treatment tank (100) It may be provided in various numbers depending on the size and amount of raw water to be filtered.

The support module 510 of the above-described structure is provided in a grid form so that a plurality of unit filtration membrane assemblies 530U can be arranged one by one.

Each of these plurality of unit filtration membrane assemblies (530U) includes a filtration membrane 531, a filtration membrane coupling frame 533, and a locking support protrusion 535.

The filtration membrane coupling frame 533 can pass through the space between a pair of lower support frames 515 disposed at the lower part of the support module 510, and has both ends between the inner surfaces of the pair of lower support frames 515. It is formed to have a width that contacts, and is a place where the filtration membrane 531 is coupled.

A plurality of locking support protrusions 535 are coupled to the upper part of the filtration membrane coupling frame 533 by being spaced apart from each other by a predetermined distance along the reciprocating direction, and are supported by the upper surface of a pair of lower support frames 515. If possible, it is coupled so that it protrudes in a direction that intersects the direction of reciprocating motion.

By having a structure in which a plurality of locking support protrusions 535 are coupled to protrude from the upper part of the filtration membrane coupling frame 533 in a direction intersecting the direction of reciprocating movement, the lower part of the unit filtration membrane assembly 530U is supported by the support module 510. However, the plurality of locking support protrusions 535 may be supported by the upper surface of the lower support frame 515 of the support module 510.

That is, by lowering the unit filtration membrane assembly 530U from the upper part of the grid-shaped unit space formed on the upper part of the support module 510, the lower portion of the unit filtration membrane assembly 530U, as shown in FIG. Simply by passing through the grid-shaped unit space formed at the top of the support module 510 and hanging the plurality of locking support protrusions 535 on the upper surface of the lower support frame 515 of the support module 510. The unit filtration membrane assembly (530U) can be placed.

Next, the pressurized fixing module 550 is disposed between the support module 510 and the filtration membrane assembly 530, and holds the filtration membrane assembly 530 as a support module ( 510).

That is, according to the present invention, by providing a pressurized fixing module 550 and fixing the filtration membrane assembly 530 to the support module 510 through a pressing operation, the filtration membrane support structure can be more easily assembled or separated while supporting the filtration membrane. The structure can be firmly fixed.

This pressure-type fixing module 550 includes a bracket 551, a pressure frame 552, a pressure bolt 553, a guide protrusion 554, and a guide pad 555.

The bracket 551 is coupled to the upper support frame 511 disposed on the upper part of the support module 510, and serves to fix and support the pressure frame 552, which will be described later.

It is placed standing between the bracket 551 and the latching support protrusion 535 of the filtration membrane assembly 530, and serves to secure the filtration membrane assembly 530 to the support module 510 by pressing both ends of the latching support protrusion 535. do.

The pressure bolt 553 is disposed through a screw connection on one side of the bracket 551 and serves to press the upper end of the pressure frame 552 downward.

The guide protrusion 554 is coupled to one side of the pressing frame 552 and is fitted into the guide groove 518 provided in the guide frame 517 of the above-described support module 510 to accurately position the pressing frame 552. can guide you.

That is, the guide protrusion 554 guides the horizontal movement of the pressing frame 552 along the horizontal guide groove 518H, so that the pressing frame 552 is located on the upper part of the holding protrusion 535, and the guide protrusion 554 ) guides the vertical movement of the pressing frame 552 along the vertical guide groove 518V, so that the pressing frame 552 descends to press both ends of the holding protrusion 535.

The guide pad 555 is provided between the lower end of the pressing frame 552 and the upper surface of the locking support protrusion 535 and is provided in the form of wings as shown in detail in FIGS. 4 to 8 to guide the correct position. It can be made of a material such as urethane that reduces friction, so that the pressing frame 552 and the locking support protrusion 535 can be more firmly fixed.

Hereinafter, a process in which the top-bottom separable filtration unit 500 having the above-described structure is assembled and placed on the upper part of the support unit 300 will be described with reference to FIGS. 4 to 8.

First, Figure 4 shows the support module 510 disposed in the support unit 300.

In this step, by lowering the support module 510 from the upper part of the rail structure 310 of the support unit 300, the lower part of the support module 510 is lowered into the rail structure 310 as shown in FIG. 4. ), and by fitting the plurality of roller assemblies 513 to the rail provided at the top of the rail structure 310, the support module 510 can be easily placed.

Next, Figure 5 shows a state in which the filtration membrane assembly 530 is placed on the support module 510.

In this step, the unit filtration membrane assembly 530U is lowered from the upper part of the grid-shaped unit space formed on the support module 510, as shown in FIG. 5. It is simple by passing the lower part through a grid-shaped unit space formed in the upper part of the support module 510 and hanging the plurality of locking support protrusions 535 on the upper surface of the lower support frame 515 of the support module 510. Thus, the unit filtration membrane assembly (530U) can be placed.

Next, Figure 6 shows a state in which the pressurizing frame 552 of the pressurized fixing module 550 is disposed on the support module 510.

In this step, the guide protrusion 554 guides the horizontal movement of the pressing frame 552 along the horizontal guide groove 518H, so that the pressing frame 552 is located on the upper part of the holding protrusion 535, and the guide protrusion ( 554 guides the vertical movement of the pressing frame 552 along the vertical guide groove 518V, so that the pressing frame 552 descends to press both ends of the locking protrusion 535.

Next, Figure 7 shows a state in which the bracket 551 of the pressurized fixing module 550 and the pressurizing bolt 553 are combined to fix the filtration membrane assembly 530 to the support module 510, and Figure 8 shows the B of Figure 7 This is a drawing showing an enlarged portion, showing in detail the coupling relationship of the pressurized fixed module.

In this step, the bracket 551 of the pressurized fixing module 550 is first coupled to the support module 510. The bracket 551 is coupled to the upper support frame 511 disposed on the top of the support module 510. It serves to fix and support the pressing frame 552. Next, the press bolt 553 is screwed to the bracket 551 to press the upper part of the press frame 552. That is, the lower end of the pressing frame 552 presses both ends of the locking support protrusions 535 of the filtration membrane assembly 530, thereby finally fixing the filtration membrane assembly 530 to the support module 510.

When assembled through these steps, the top-bottom separable filtration unit 500 is placed on top of the support unit 300 provided inside the treatment tank 100. Afterwards, covers such as grating may be additionally placed as shown in FIG. 3.

The disassembly process of the top-bottom separable filtration unit 500 is performed in the reverse order of the above-described process.

Meanwhile, the extended reciprocating drive unit 700 serves to reciprocate the top and bottom separable filtration treatment unit 500. As shown in detail in FIGS. 1 and 2, the extended reciprocating drive unit 700 One side is fixed to the upper end of the treatment tank 100, and the other side is provided to extend vertically downward by a predetermined distance from the upper end of the treatment tank 100 and is coupled to at least a portion of the upper and lower separable filtration unit 500.

As described above, according to another embodiment of the present invention not shown in FIGS. 1 to 8, the top-bottom separable filtration unit 500 does not need to perform the operation of cleaning the contaminated filtration membrane by reciprocating motion. It may be provided to be provided with a fixed support module that is not capable of reciprocating movement. In this case, the plurality of roller assemblies 513 of the support module 510 are omitted from the top and bottom separable filtration treatment unit 500, making reciprocating movement impossible. It may be provided in a fixed form, and accordingly, the extended reciprocating motion drive unit 700 may also be omitted.

The conventional reciprocating drive device was generally provided on one side of the upper part of the treatment tank 100 to push or pull the corner of the filtration membrane support structure. This conventional reciprocating drive device applied force at a position deviated from the center of gravity of the filtration membrane support structure. As this is applied, biased fatigue accumulates, damaging the stability of the structure, and if this condition continues, there is a problem that it may lead to damage to the structure.

However, according to one embodiment of the present invention, the extended reciprocating drive unit 700 is provided to extend vertically downward by a predetermined distance from the upper end of the treatment tank 100, thereby increasing the weight of the top and bottom separable filtration treatment unit 500. It can be coupled to the central area of the side part close to the center, and by pushing and pulling this area, the top-bottom separable filtration unit 500 can be reciprocated more stably and efficiently. As a result, biased fatigue accumulates, damaging the stability of the structure. Furthermore, it is possible to solve problems that may lead to damage to the structure.

That is, as shown in the plan view (a) of FIG. 2, the extended reciprocating drive unit 700 is coupled to the central area of the top and bottom separable filtration processing unit 500 along the horizontal direction, and the side view of FIG. 2 (b) ), the extended reciprocating drive unit 700 is coupled to the central area of the top-and-bottom separable filtration unit 500 along the horizontal direction, so that it is closer to the center of gravity of the top-and-bottom separable filtration unit 500. It is possible to drive reciprocating motion in the position. Therefore, it is possible to solve the problem that can occur in the conventional method of coupling at a position deviated from the center of gravity, where biased fatigue accumulates, damaging the stability of the structure and further leading to damage to the structure.

This extended reciprocating drive unit 700 includes a support coupling part 710, a hydraulic cylinder 730, a motion transmission part 750, a motion support part 760, and a hydraulic drive part 770. .

The support coupler 710 is coupled to the upper end of the treatment tank 100, so that when the extended reciprocating drive unit 700 is operated, the remaining portion of the extended reciprocating drive unit 700 is connected to the treatment tank 100. It plays a supporting role.

The hydraulic cylinder 730 is rotatably coupled to the support coupling portion 710 and is provided to extend vertically downward by a predetermined distance from the upper end of the treatment tank 100, and is contracted by the operation of the hydraulic drive portion 770, which will be described later. and is elongated.

The motion transmission unit 750 is coupled between the end of the hydraulic cylinder 730 and the side part of the support module 510 and serves to transmit the contraction and extension of the hydraulic cylinder 730 to the reciprocating movement of the support module 510. , includes a motion transmission hinge 751 and a motion transmission link bar 753.

The motion transmission hinge 751 is coupled to the side support frame 519 disposed on the side of the support module 510, and the motion transmission link bar 753 is attached to the motion transmission hinge 751 and the ends of the hydraulic cylinder 730. Each is rotatably coupled. By having this link structure, it is possible to transmit the contraction and expansion of the hydraulic cylinder 730 to the reciprocating motion of the support module 510.

The motion support portion 760 is coupled between the end of the hydraulic cylinder 730 and the side portion of the treatment tank 100 and serves to support the movement of the hydraulic cylinder 730 and the motion transmission portion 750, and includes a motion support hinge ( 761) and a movement support link bar 763.

The motion support hinge 761 is coupled to the side portion of the treatment tank 100, and the motion support link bar 763 is rotatably coupled to the motion support hinge 761 and the end of the hydraulic cylinder 730, respectively. By having this link structure, it is possible to support the movement of the hydraulic cylinder 730 and the motion transmission unit 750.

The hydraulic drive unit 770 is connected to the hydraulic cylinder 730 and serves to drive the hydraulic cylinder 730.

Hereinafter, with reference to FIG. 2, the operation of the extended reciprocating drive unit 700 having the above-described structure will be described in detail.

A motion transmission link bar 753 and a motion support link bar 763 are rotatably coupled to the end of the hydraulic cylinder 730, respectively. That is, the three ends are rotatably coupled to each other on one rotation axis, so that the coupling angles formed by the three ends can be freely changed.

And, the other end of the motion transmission link bar 753 is rotatably coupled to the motion transmission hinge 751 coupled to the side support frame 519 disposed on the side of the support module 510, and the motion support link bar. The other end of 763 is rotatably coupled to a movement support hinge 761 coupled to the side surface of the treatment tank 100.

Here, the motion support hinge 761 is coupled to the side part of the treatment tank 100 and cannot be moved, so it supports the movement of the hydraulic cylinder 730 and the motion transmission unit 750 connected by the motion support link bar 763. You can do it.

In addition, the motion transmission hinge 751 is coupled to the side support frame 519 disposed on the side of the support module 510 and can move together, so that the hydraulic cylinder 730 connected by the motion transmission link bar 753 Contraction and extension can be transmitted through the reciprocating motion of the support module 510.

As shown in detail in FIG. 2, in a state where the hydraulic cylinder 730, the motion transmission link bar 753, and the motion support link bar 763 are coupled to each other at an obtuse coupling angle, the hydraulic cylinder 730 is When stretched downward along the direction line, the coupling angle between the motion transmission link bar 753 and the motion support link bar 763 increases and the motion transmission hinge 751 moves away from the motion support hinge 761 along the Y direction line. As it moves in this direction, the support module 510 to which the motion transmission hinge 751 is coupled moves in the right direction.

Conversely, when the hydraulic cylinder 730 is contracted upward along the As it moves in a direction closer to the motion support hinge 761, the support module 510 to which the motion transmission hinge 751 is coupled moves to the left.

Ultimately, as this process is repeated, the support module 510 can be reciprocated, so the entire portion of the upper and lower filtration unit 500 connected to the support module 510 and the filtration membrane 531 are reciprocated to remove the contaminated filtration membrane. The cleaning operation can be performed effectively.

By providing the extended reciprocating drive unit 700 of this structure, while the motion transmission unit 750 transmits the contraction and extension of the hydraulic cylinder 730 to the reciprocating movement of the support module 510, the motion support unit 760 ) serves to support the movement of the hydraulic cylinder 730 and the motion transmission unit 750, so that the reciprocating motion of the support module 510 can be moved without shaking in the correct direction, and the extended reciprocating motion drive unit ( 700) Since it is firmly supported, it is possible to implement highly reliable reciprocating motion that is safer and can extend the lifespan.

In addition, an additional advantage that can be obtained by providing the extended reciprocating drive unit 700 of this structure is that the installation space can be utilized to the maximum.

That is, only a width narrow enough to combine the motion transmission unit 750 and the motion support unit 760 needs to be provided between the side portion of the treatment tank 100 and the support module 510 of the top-bottom separable filtration treatment unit 500. By arranging the hydraulic cylinder 730 in a vertical direction along the narrow width, it is possible to arrange a device that transmits power and a device that implements a reciprocating motion in the minimum installation space for the reciprocating motion.

Furthermore, by using a hydraulic system operated by the hydraulic cylinder 730 and the hydraulic drive unit 770, reciprocating motion can be implemented with greater force than a conventional water treatment system that implements reciprocating motion using a motor drive method, In a water treatment system in which a plurality of unit filtration membrane assemblies (530U) are arranged in parallel, a large number of unit filtration membrane assemblies (530U) can be provided, thereby increasing the size of the treatment tank 100 and the amount of raw water to be filtered. It can be increased.

In this way, according to this embodiment, by providing a top and bottom separable filtration processing unit that can be assembled and separated from each other by pressing a portion of the support module disposed at the top and a portion of the filtration membrane assembly disposed at the bottom. Since the filtration membrane support structure, which is the structure that supports the filtration membrane, can be assembled and disassembled in a simpler and more efficient manner, it can be more easily installed and dismantled even in places where assembly space is limited.

In other words, the filtration membrane assembly can be simply separated and assembled in order to install a structure that supports the filtration membrane even in a narrow place. This makes it possible to more easily remove the separated filtration membrane assembly from the treatment tank, allowing treatment rather than underwater. Disassembly and assembly of the filtration membrane for maintenance of the filtration membrane can be performed quickly and simply from outside the tank.

In addition, despite the simple coupling method, the filtration membrane support structure and the filtration membrane can be more firmly fixed.

Furthermore, by providing an extended reciprocating drive unit 700, one side of which is fixed to the upper end of the treatment tank 100 and the other side extending vertically downward by a predetermined distance from the upper end of the treatment tank 100, It can be coupled to the central area of the side part close to the center of gravity of the separable filtration unit 500, and by pushing and pulling this area, the top and bottom separable filtration unit 500 can be reciprocated more stably and efficiently, thereby reducing biased fatigue. It is possible to solve problems that accumulate and damage the stability of the structure, which can further lead to damage to the structure.

As such, the present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and changes can be made without departing from the spirit and scope of the present invention. Accordingly, such modifications or variations should be considered to fall within the scope of the claims of the present invention.

100: treatment tank 300: support unit
310: rail structure 330: support structure
500: Top and bottom separable filtration unit 510: Support module
511: upper support frame 513: roller assembly
515: lower support frame 517: guide frame
518: Guide groove 519: Side support frame
530: Filtration membrane assembly 531: Filtration membrane
533: Filtration membrane combination frame 535: Jamming support protrusion
550: Pressurized fixing module 551: Bracket
552: Pressure frame 553: Pressure bolt
554: guide protrusion 555: guide pad
700: Extended reciprocating drive unit 710: Support coupling part
730: Hydraulic cylinder 750: Movement transmission unit
760: movement support unit 770: hydraulic drive unit

Claims (6)

A support unit disposed inside a treatment tank that stores raw water to be treated; and
A filtration membrane for filtration of raw water is provided and supported by the support unit to perform filtration of the raw water, and the filtration membrane assembly supports the filtration membrane and is disposed inside the raw water, and is connected to at least a portion of the support unit. A separation unit comprising a support module for supporting the filtration membrane assembly, and a top-and-bottom separable filtration unit in which the support module disposed at the upper portion and the filtration membrane assembly disposed at the lower portion are provided so as to be capable of being assembled and separated from each other. A water treatment system comprising a capable filtration membrane assembly. According to paragraph 1,
The top and bottom separable filtration unit,
A detachable filtration membrane assembly further comprising a pressurized fixing module disposed between the support module and the filtration membrane assembly and fixing the filtration membrane assembly to the support module through a pressing operation that pressurizes at least a portion of the filtration membrane assembly. A water treatment system comprising: According to paragraph 2,
The filtration membrane assembly includes a plurality of unit filtration membrane assemblies arranged to be spaced apart from each other along the longitudinal direction of the support module,
Each of the plurality of unit filtration membrane assemblies,
It can pass through the space between a pair of lower support frames disposed at the lower part of the support module, and is formed so as to have a width such that both ends are in contact between the inner surfaces of the pair of lower support frames, and the filtration membrane is coupled thereto. Filtration membrane combination frame; and
The filtration membrane coupling frame is disposed and coupled to the upper part of the support module at a predetermined distance along the longitudinal direction of the support module, and intersects the longitudinal direction of the support module so as to be held by the upper surface of the pair of lower support frames. A water treatment system having a separable filtration membrane assembly comprising a plurality of catch support protrusions coupled to protrude in a direction. According to paragraph 3,
The pressurized fixed module is,
A bracket coupled to an upper support frame disposed on top of the support module;
a pressing frame that stands between the bracket and the locking support protrusion of the filtration membrane assembly and fixes the filtration membrane assembly to the support module by pressing both ends of the locking support protrusion; and
A water treatment system having a detachable filtration membrane assembly, characterized in that it is disposed through a screw connection on one side of the bracket and includes a pressure bolt that presses the upper end of the pressure frame downward. According to clause 4,
The pressurized fixed module is,
It further includes a guide protrusion coupled to one side of the pressing frame,
The support module is,
A water treatment system having a separable filtration membrane assembly, comprising a guide frame in which the guide protrusion is fitted to form a guide groove that guides movement of the pressing frame. According to clause 5,
The guide groove is,
a horizontal guide groove that guides horizontal movement of the pressing frame in order to position the pressing frame on the upper part of the locking support protrusion; and
Water treatment with a detachable filtration membrane assembly, wherein the pressing frame located on the upper part of the engaging protrusion includes a vertical guide groove that guides the vertical movement of the pressing frame to press both ends of the engaging supporting protrusion. system.

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