KR102055953B1 - Filter apparatus - Google Patents

Abstract

The present invention provides a filter housing having an inlet and an outlet so that the ballast water flows in and out; A plurality of filter members provided in the filter housing to filter foreign substances contained in the ballast water; A backwashing unit connected to at least one of the plurality of filter members to remove foreign substances by using a difference between an internal pressure and an atmospheric pressure, and the backwashing unit includes the backwashing unit when the backwashing unit does not need to remove foreign substances. At least one of the plurality of filter members connected to the filter device is provided so that the ballast water is introduced to filter out the foreign matter contained in the ballast water,
According to the present invention, not only the filtration and backwashing of the foreign matter contained in the ballast water can be carried out at the same time, but all the filter members can be set to perform only the filtration process, thereby further improving the filtration performance.

Description

Filter Device {FILTER APPARATUS}

The present invention relates to a filter apparatus, and relates to a filter apparatus capable of backwashing a filter member used in a filtration process such as foreign substances or microorganisms contained in seawater or fresh water.

In general, a ship is provided with a ballast tank (ballast tank) that can store ballast water in order to control the balance and draft of the vessel.

Such ballast tanks can maintain the balance of the vessel by inflow or outflow of ballast water when the vessel is not balanced before and after or left and right balance of the vessel when loading the cargo. In addition, ships are generally designed to enable economical and stable operation when loaded with cargo. Therefore, the ship can perform stable operation by adjusting the amount of ballast water in the ballast tank according to the load of the cargo, thereby creating a condition similar to the state of loading the cargo.

Here, the ballast water stored in the ballast tank is controlled by inflow or outflow of seawater or fresh water around the vessel into the ballast tank using a pump or the like. However, in the process of introducing the ballast water into the ballast tank, not only foreign matters such as gravel, sand, mud, etc., but also organisms and organic materials such as shellfish, crustaceans, and plankton may be introduced together. have. Therefore, when the ship is operated over a long distance, such foreign matter may settle and settle in the ballast tank, thereby degrading the function of the ballast tank. In addition, when a vessel loads cargo and discharges ballast water in a ballast tank, organisms and organic substances contained therein are leaked together, thereby causing a change in the surrounding ecosystem and adversely affecting the surrounding environment.

Accordingly, the International Maritime Organization (IMO) introduced the Ballast Water Purification Regulation in 2004 to prevent ecosystem damage caused by ballast water. Therefore, long-distance ships must install a device that can remove foreign substances such as organisms and organic matter contained in ballast water. In addition, a large number of ballast waters are used for large vessels such as oil tankers, container ships, and LNG carriers that sail at long distances.

Therefore, there is a need for the development of an efficient filter device that can quickly filter a large amount of seawater or freshwater used as ballast water of such large vessels. In addition, the development of a filter device that can improve the filtration efficiency of the filter member by quickly backwashing the filter member even while filtering foreign substances such as microorganisms contained in seawater or fresh water.

The present invention has been made to solve the problems described above, not only can perform the filtration and backwashing of the foreign matter contained in the ballast water at the same time, but also all the filter members can be set to perform only the filtration process to further improve the filtration performance It is possible to provide a filter device that can be improved.

In order to solve the problem as described above, the present invention may include the following configuration.

The filter device according to the present invention comprises a filter housing having an inlet and an outlet so that the ballast water flows in and out; A plurality of filter members provided in the filter housing to filter foreign substances contained in the ballast water; And a back washing unit connected to at least one of the plurality of filter members to remove foreign substances by using a difference between an internal pressure and an atmospheric pressure. When the backwashing unit does not need to remove the foreign matter, the backwashing unit may be provided such that the ballast water flows in such a way that at least one of the plurality of filter members connected to the backwashing unit filters out the foreign matter contained in the ballast water. .

The filter apparatus according to the present invention may further include a selection valve for allowing the backwashing unit to selectively communicate with an inlet or atmosphere of the filter housing.

The filter device according to the present invention may include an inlet formed on at least one side of the filter member such that the ballast water formed in the filter housing is introduced into the filter opening formed in the filter member. The filter member may be installed in the vertical direction in the filter housing. The inlet part has a lower inlet part provided below the filter member, an upper inlet part provided above the filter member, and an inflow passage part formed in the central region of the filter housing to communicate with the lower inlet part and the upper inlet part. It may include.

In the filter device according to the present invention, the backwashing unit is connected to at least one of the plurality of filter members to backwash the foreign matter filtered by the filter member from the filter member; And a connector driving unit which rotates the connector so that the connector is connected to at least one of the plurality of filter members.

In the filter apparatus according to the present invention, the connecting pipe is formed in the lower inlet and connected to the lower side of the filter member, and the upper connection is formed in the upper inlet and connected to the upper side of the filter member. A pipe and a central connection pipe formed in the inflow passage part may connect the lower connection pipe and the upper connection pipe.

In the filter device according to the invention, the selection valve is characterized in that the filter device is installed in the central connecting pipe.

The filter device according to the present invention, the filter device further comprises a partition member provided in the filter member to partition and filter the ballast water supplied from the inlet to the filter opening of the filter member.

The filter device according to the present invention, wherein the partition member is installed at a position higher than the middle of the filter member.

According to the present invention, the following effects can be obtained.

The present invention can not only perform the filtration and backwash of the foreign matter contained in the ballast water at the same time, but also all the filter members can be set to perform only the filtration process can further improve the filtration performance.

1 is a schematic view of a filter apparatus according to an embodiment of the present invention,
2 is a cross-sectional view taken along line AA of the filter device of FIG.
3 is a schematic view of the filter member of the filter device of FIG.
4 is a schematic view of a selection valve of a filter device according to an embodiment of the present invention;
5 is a schematic view showing a case of simultaneously performing a filtration process and a back washing process of the filter device according to an embodiment of the present invention,
6 is a schematic view showing a case where only the filtration process of the filter device according to an embodiment of the present invention,
Figure 7 is an enlarged view showing the filtration process of the filter member of the filter device according to an embodiment of the present invention,
8 is an enlarged view illustrating a backwashing process of the filter device of the filter device according to the embodiment of the present invention.

In the present specification, in adding reference numerals to the components of each drawing, it should be noted that the same components have the same number as much as possible even though they are displayed on different drawings.

On the other hand, the meaning of the terms described herein will be understood as follows.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and the terms “first”, “second”, etc. are used to distinguish one component from another. The scope of the rights shall not be limited by these terms.

It is to be understood that the term "comprises" or "having" does not preclude the existence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

The term "at least one" should be understood to include all combinations which can be presented from one or more related items. For example, the meaning of "at least one of the first item, the second item, and the third item" means not only the first item, the second item, or the third item, but also two of the first item, the second item, and the third item. A combination of all items that can be presented from more than one.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the heat insulating unit for piping according to the present invention will be described in detail.

1 is a schematic view of a filter device according to the present invention, FIG. 2 is a cross-sectional view taken along line AA of the filter device of FIG. 1, FIG. 3 is a schematic view of a filter member of the filter device of FIG. 1, and FIG. 4 is an embodiment of the present invention. 5 is a schematic view showing a selection valve of a filter device according to the present invention, FIG. 5 is a schematic view showing a case of simultaneously performing a filtration process and a backwashing process of a filter device according to an embodiment of the present invention, and FIG. 6 is an embodiment of the present invention. 7 is a schematic view illustrating a case where only the filtration process of the filter device is performed, and FIG. 7 is an enlarged view illustrating the filtration process of the filter member of the filter device according to an embodiment of the present invention, and FIG. 8 is an embodiment of the present invention. It is an enlarged view showing the backwashing process of the filter apparatus of the filter apparatus.

As shown in Figures 1 to 4, the filter device 1 according to an embodiment of the present invention is provided in a ballast tank as ballast water to control the balance and draft of the vessel It is a device for filtering foreign substances such as minerals and microorganisms contained in water such as sea water or fresh water. However, the filter device 1 according to the present invention can be variously used in other devices that need to filter foreign substances such as minerals and microorganisms contained in water, such as seawater or fresh water, which is not limited to the vessel. Water such as seawater or fresh water provided to the ballast tank is referred to as ballast water. Hereinafter, liquids such as seawater and fresh water including ballast water are collectively called water.

The filter device 1 according to the embodiment of the present invention includes a filter housing 10 provided with an inlet 11 for introducing water and an outlet 37 for discharging water introduced through the inlet 11, and a filter. A plurality of filter members 50 installed in the housing 10 and provided in a hollow shape to filter water introduced from the inlet 11 and water introduced from the inlet 11 are provided in the filter housing 10. A plurality of inlets 13 provided on at least one side of the filter member 50 to be supplied to the filter opening 51 formed in the 50 and the foreign matter filtered by the filter member 50 to backwash the filter member 50 from the filter member 50. Backwashing unit 70 having a connecting pipe 71 connected to at least one of the filter member 50 of the water, and the water introduced into the inlet 11 to selectively open and close the inlet and blocking into the connecting pipe 71 It may include a selection valve 81 installed in the connection pipe (71).

The filter housing 10 forms the appearance of the filter device 1. The filter housing 10 may be installed at an inlet area into which water from a ballast tank (not shown) of the ship is introduced, and is filtered by a pump (not shown) installed inside the ballast tank (not shown). Water may flow into the housing 10. The filter mounting part 31 may be provided inside the filter housing 10 to accommodate and mount the filter member 50 to filter the water introduced through the inlet 11.

Inlet 11 may be formed in the lower region of the filter housing 10 as an example of the present invention. However, the inlet 11 is not limited thereto and may be formed in various regions such as an upper region of the filter housing 10 so that water can be introduced therethrough. In addition, the outlet 37 may be formed on the side of the filter housing 10 in which the filter mounting part 31 is formed as an example of the present invention. However, the outlet 37 may be formed in various regions such as the lower region of the filter housing 10 so that the water outlet 37 is not limited thereto.

In one embodiment of the present invention, the filter member 50 may be installed in the vertical direction in the filter housing 10. In this case, the inlet 13 may include a lower inlet 14 provided below the filter member 50 and an upper inlet 15 provided above the filter member 50. In addition, the inlet part 13 may include an inlet passage part 17 formed at the central region of the filter housing 10 to communicate the lower inlet part 14 and the upper inlet part 15 with each other. However, the present invention is not limited thereto, and the filter member 50 may be installed in the filter housing 10 in the horizontal direction, and in this case, the inlet 13 may be formed at both sides of the filter member 50, respectively. In addition, the inlet 13 may be provided only on one side of the filter member 50.

The lower inlet 14 may be provided in the lower regions of the plurality of filter members 50 to supply water introduced through the inlet 11 through the filter openings 51 formed under the plurality of filter members 50. Can be. The upper inlet 15 is the filter opening 51 formed in the upper portion of the plurality of filter members 50 by the water introduced through the inlet 11 is introduced through the lower inlet 14 and the inlet passage 17 It may be provided in the upper region of the plurality of filter members 50 to supply through.

The inflow passage 17 is formed as a penetrating through the central region of the filter mounting portion 31 provided in a cylindrical shape as an example of the present invention can supply the water introduced into the lower inlet 14 to the upper inlet 15. However, the inflow passage 17 is not limited to the central region of the filter housing 10, but the other region of the filter housing 10 to supply water introduced into the lower inlet 14 to the upper inlet 15. It can also be arranged.

The filter mounting part 31 may be provided in a cylindrical shape having a hollow shape to accommodate and install the plurality of filter members 50 as an example of the present invention. However, the filter mounting portion 31 may be provided in various shapes such as a hollow polygonal column. A plurality of flow passages 33 may be formed at the lower and upper portions of the shape filter mounting part 31 to correspond to the filter openings 51 of the plurality of filter members 50 installed in the vertical direction. In one embodiment of the present invention, the filter mounting part 31 may be equipped with six filter members 50 at an equal angle. However, the filter mounting unit 31 is not limited thereto, and five or seven or more filter members 50 of various quantities may be mounted. The lower inlet part 14 is formed below the filter mounting part 31, and the upper inlet part 15 is formed above the filter mounting part 31. In addition, an inflow passage 17 may be formed in the central region of the hollow filter mounting part 31. The filter mounting portion 31 is formed with an outlet portion 35 which flows into the filter member 50 through the flow passage portion 33 and receives the filtered water through the filter hole 53 of the filter member 50. On one side of the filter mounting portion 31, an outlet 37 is formed to discharge the filtered water accommodated in the outlet 35 toward the ballast tank (not shown).

As one example of the present invention, the flow passages 33 may be provided at equal angles in the lower and upper portions of the filter mounting portion 31 respectively corresponding to the filter openings 51 of the six filter members 50. Thus, water flows from the upper inlet portion 15 and the lower inlet portion 14 through the flow passage portion 33 through the filter opening portion 51 of the filter member 50 to filter holes of the filter member 50 ( Filtration is performed while exiting to outlet 35 through 53.

The outlet part 35 is formed outside the filter member 50 in the filter mounting part 31 where water filtered through the filter hole 53 of the filter member 50 is received before being discharged to the outlet port 37. Can be.

The filter member 50 may be mounted in the filter mounting part 31 and may be provided in a hollow shape to filter water introduced into the center from both sides. In one embodiment of the present invention, the filter member 50 may be provided in a pipe shape, and filter openings 51 may be formed at both sides thereof to allow water to flow in or out. The filter member 50 may be provided with a plurality of filter holes 53 to filter the water introduced through the filter opening 51. As an example of the present invention, the filter hole 53 of the filter member 50 may be formed to be filtered when the size of the foreign matter a contained in the incoming water is 45 to 50 micrometers or more. However, the filter hole 53 of the filter member 50 is not limited to this, and the foreign matter having a size smaller than 45 micrometers is not limited depending on the kind or state of the water introduced and the field to which the filter device 1 according to the present invention is applied. ) May also be formed to be filtered. Thus, foreign matter may be filtered while the water introduced through the filter opening 51 of the filter member 50 passes through the filter hole 53.

The filter device 1 according to the first embodiment of the present invention partitions and filters the water supplied to the filter opening portion 51 of the filter member 50 in the filtration process of the filter member 50, and the filter member 50. The filter member 50 may further include a partition member 55 provided in the filter member 50 to partition and filter the filter member 50 in the back washing process.

The partition member 55 is mounted inside the hollow filter member 50 through the filter openings 51 formed on both sides of the filter member 50 from the upper inlet portion 15 and the lower inlet portion 14, respectively. Not only the water introduced can be partitioned and filtered, but also in the process of backwashing by the backwashing unit 70, the backwashing can be performed. Therefore, when there is only the lower inlet 14 in the filtration process, a lot of filtration occurs in the lower region adjacent to the lower inlet 14 of the filter member 50, the lower inlet 14 of the filter member 50 The foreign matter (a) is stuck in the lower region close to the filtration efficiency may be a problem, the water is introduced from both sides of the filter member 50 through the lower inlet 14 and the upper inlet 15 Filtration efficiency can be improved. In addition, by further installing the partition member 55, the filter member 50 can separate and filter the water introduced from the lower inlet 14 and the water introduced from the upper inlet 15, respectively. It can be further improved. In addition, the partition member 55 may be installed when the inflow portions 13 are provided at both sides of the filter member 50, respectively, and the partition member 55 is provided when only the inflow portion 13 is provided at one side of the filter member 50. 55 need not be installed.

The backwashing unit 70 is connected to at least one of the plurality of filter members 50 to remove the foreign matter by using the difference between the internal pressure and the atmospheric pressure. When the backwashing unit 70 does not need to remove the foreign matter, the backwashing unit 70 may include water so that at least one of the plurality of filter members 50 to which the backwashing unit 70 is connected can filter out the foreign matter. It is prepared to be introduced.

The backwashing unit 70 may include a connecting tube 71 rotatably connected to both sides of at least one of the plurality of filter members 50, and the connecting tube 71 may include at least one of the plurality of filter members 50. Connector driving unit 75 for rotating the connection tube 71 to be connected, and the discharge pipe in communication with the connection tube 71 to discharge the foreign matter (a) washed from the filter member 50 through the connection tube 71 ( 79). When the filter device 1 according to the present invention includes the selection valve 81, a separate backwash valve for opening and closing the discharge pipe 79 is not provided, but a separate reverse for opening and closing the discharge pipe 79 as necessary. Wash valves may be installed.

The connection pipe 71 is formed in the lower inlet 14 and connected to the lower side of the filter member 50 as an example of the present invention, and is formed in the upper inlet 15 and the filter member ( An upper connection pipe 73 connected to the upper side of the 50, and the central connection pipe 74 is formed in the inflow passage portion 17 to connect the lower connection pipe 72 and the upper connection pipe 73. have.

The lower connection pipe 72 may be rotatably provided to be selectively coupled to one of the plurality of flow passages 33 formed at the bottom of the filter mounting part 31 as an example of the present invention. Thus, the foreign matter (a) accumulated in the filter member 50 communicated with the lower connection pipe 72 in the back washing process can be discharged through the lower connection pipe (72).

The upper connection pipe 73 may be rotatably provided to be selectively coupled to one of the plurality of flow passages 33 formed on the filter mounting part 31 as an example of the present invention. Thus, the foreign matter (a) accumulated in the interior of the filter member 50 in communication with the upper connecting pipe 73 in the back washing process can be discharged through the upper connecting pipe (73).

The central connection pipe 74 is provided in the central region of the filter mounting portion 31 of the hollow shape to connect the upper connection pipe 73 and the lower connection pipe 72 as an example of the present invention, the lower discharge pipe 79 Is combined. That is, as an example of the present invention, the central connecting pipe 74 may be installed in the inflow passage 17 formed in the central region of the filter mounting part 31. Thus, the foreign matter (a) transferred through the upper connection pipe 73 and the lower connection pipe 72 may be discharged to the discharge pipe 79 through the central connection pipe (74).

The connector pipe driving unit 75 is provided as one example of the present invention so that the central connector 74, the upper connector 73, and the lower connector 72 can be integrally rotated. The connector tube driving unit 75 is provided as a driving motor such that the central connector tube 74, the upper connector tube 73, and the lower connector tube 72 can be integrally rotated as an example of the present invention, and the upper side of the filter housing 10. Can be installed on However, the connector driving unit 75 is not limited thereto and may be installed at various positions such as the lower side of the filter housing 10. In addition, the connector driving unit 75 may be driven such that the upper connector tube 73 and the lower connector tube 72 are connected to the filter member 50 in which a large amount of foreign matter a is caught among the plurality of filter members 50. have. In this case, the method for determining the filter member 50 in which a large amount of foreign matter a is sandwiched is provided with a pressure sensor (not shown) inside the plurality of filter members 50 to control the pressure in each filter member 50. By measuring, it can be judged that the higher the pressure, the more foreign matter (a) is caught. When the filter member 50 having a large amount of foreign matter (a) is determined, the connector driving unit 75 may be controlled to connect the upper connector tube 73 and the lower connector tube 72 to the filter member 50.

Discharge pipe 79 is provided in the lower side of the filter housing 10 as an example of the present invention is to discharge the foreign matter (a) to be transferred through the central connection pipe 74 to the outside. Accordingly, the filter device 1 according to the present invention may be subjected to a backwashing process simultaneously with the filtration process as an example of the present invention. That is, the upper connector tube 73 and the lower connector tube 72 is connected to one of the plurality of filter members 50 by the connector tube driver 75. Then, the water is supplied to the filter housing 10 through the inlet 11 so that the water is filled in the filter housing 10 to increase the pressure. At this time, the discharge pipe (79) is the atmospheric pressure and the filter housing 10 is formed inside the relatively high pressure. Accordingly, the water flows back from the outlet portion 35 of the filter housing 10 to the filter hole 53 of the filter member 50 to which the upper connection tube 73 and the lower connection tube 72 are connected. A backwash phenomenon occurs that is washed away. The foreign substance (a) thus separated may be discharged to the discharge pipe 79 through the upper connection pipe 73, the lower connection pipe 72 and the central connection pipe 74 together with the water. Therefore, when there is only the lower connecting pipe 72 in the backwashing process, a lot of backwashing occurs in the lower region adjacent to the lower connecting pipe 72 among the filter members 50, and thus, the lower connecting pipe 72 among the filter members 50. The foreign matter (a) of the lower region close to the) is well washed and may cause a problem that the backwashing efficiency of the foreign matter (a) of the other upper region is lowered, the lower connection tube 72 and the upper connection tube 73 Through the water can be discharged to both sides of the filter member 50 through the lower connection pipe 72 as well as the foreign matter (a) in the area adjacent to the upper connection pipe 73 is well washed to improve the backwashing efficiency You can. In addition, the partition member 55 may be further installed to partition the water discharged to both sides of the filter member 50 through the lower connection pipe 72 and the upper connection pipe 73, thereby further improving backwashing efficiency. have.

The partition member 55 is preferably installed at a position higher than the middle of the filter member 50 installed in the vertical direction as an example of the present invention. For example, the partition member 55 may be installed at a position of about 3/5 to 4/5 of the length of the filter member 50. However, the partition member 55 may be positioned at about 1/2 to 3/5 of the length of the filter member 50 or at a position of 4/5 or more in consideration of the length of the filter member 50 or the diameter of the filter opening 51. Of course, it can be installed. In this way, the partition member 55 is installed at a position higher than the middle of the filter member 50, so that the inflow pressure of the water flowing from the upper inlet 15 to the filter member 50 is reduced by the influence of gravity. In order to perform the filtration of the incoming water more effectively because the amount of water flowing from the lower inlet 14 to the filter member 50 is greater than the inlet pressure of the water flowing into the filter member 50 from the). In addition, in the backwashing process, since the amount of water discharged to the lower connection pipe 72 is greater than the amount of water discharged to the upper connection pipe 73 due to the influence of gravity, the partition member 55 may be lower than the middle of the filter member 50. By installing at a higher position, the backwashing efficiency can be further improved. However, when the diameter of the filter opening 51 on the upper side of the filter member 50 is larger than the diameter of the filter opening 51 on the lower side, the flow rate passing through the filter opening 51 on the upper side is larger. The partition member 55 may be installed at a position lower than the middle of the filter member 50.

The selector valve 81 allows the backwash 70 to selectively communicate with the inlet 11 or the atmosphere of the filter housing 10. The selection valve 81 is connected to the inflow opening 83 formed in the connection pipe 71 so that the water introduced into the inlet 11 is introduced into the connection pipe 71, and the connection pipe 71 so as to communicate with the discharge pipe 79. It is installed in the connecting pipe (71) to selectively open and close the formed outlet opening (85).

The selection valve 81 is provided in the form of a 3-way valve in which the valve disc 87 rotates by the valve driving unit 89 and selectively opens and closes the inlet opening 83 and the outlet opening 85. However, the selection valve 81 may be provided in various forms, such as being provided in the form of two electric valves so as to individually open and close the inlet opening 83 and the outlet opening 85. The selection valve 81 may be installed in the central connection pipe 74 of the connection pipe 71 as an example of the present invention. That is, the selector valve 81 may be installed in the lower region of the central connecting pipe 74 near the inlet 11 so as to supply water of a higher pressure to the connecting pipe 71. In this case, the inlet opening portion 83 and the outlet opening portion 85 may also be installed in the lower region of the central connecting pipe 74 close to the inlet 11. However, the selection valve 81 is not limited thereto, and may be installed in various places such as the middle to the upper region of the central connecting pipe 74, the lower connecting pipe 72, or the upper connecting pipe 73. The selection valve 81 may be operated by driving the valve driving unit 89 by a user's operation or a controller (not shown). That is, when the measured pressure value in the plurality of filter members 50 is smaller than a predetermined set value, it is determined that the backwashing process is not necessary, and the selection valve 81 is operated by a user's operation or a control unit (not shown). The valve driving unit 89 may be driven to open the inlet opening 83 and close the outlet opening 85. In addition, when the pressure value measured inside one of the plurality of filter members 50 is greater than a predetermined set value, it is determined that the backwashing process is necessary, and thus the selection valve ( 81 may drive the valve driver 89 to close the inlet opening 83 and open the outlet opening 85.

The filtration process and the backwash process of the filter device 1 according to the embodiment of the present invention by such a configuration will be described with reference to FIGS. 4 to 8 as follows.

First, referring to the case where the filtration process and the backwashing process are performed at the same time, the selection valve 81 closes the inlet opening 83 and opens the outlet opening 85. Then, water is supplied to the filter housing 10 through the inlet 11. Then, the supplied water is transferred to the lower inlet 14, the inlet passage 17 and the upper inlet 15 and the plurality of filter members 50 through the flow passage 33 of the filter mounting portion 31. Is supplied. The water supplied to the filter member 50 is filtered while passing through the filter hole 53 of the filter member 50 and discharged to the outlet 37 through the outlet 35.

Simultaneously with this filtration process, a backwash process is performed. That is, the water is introduced through the inlet 11, the water inside the filter housing 10 is filled with the pressure rises. In addition, the connector driving unit 75 is driven to connect the upper connector tube 73 and the lower connector tube 72 to the filter member 50 in which a large amount of foreign matter a is sandwiched among the plurality of filter members 50. Then, the discharge pipe 79 is at atmospheric pressure, so the filter hole of the filter member 50 to which the upper connection pipe 73 and the lower connection pipe 72 are connected at the outlet portion 35 in the filter housing 10 having a relatively high pressure. As water flows back to (53), it is possible to backwash the foreign matter (a). The backwashed foreign matter (a) may be discharged to the discharge pipe 79 through the upper connection pipe 73, the lower connection pipe 72 and the central connection pipe 74. And, if the measured pressure value in the plurality of filter members 50 is smaller than a predetermined set value, the selector valve 81 opens the inlet opening 83 and closes the outlet opening 85 so that all the filter members are closed. 50 may be performed to perform the filtration process.

Next, referring to the case of performing only the filtration process, the selection valve 81 opens the inlet opening 83 and closes the outlet opening 85. Then, water is supplied to the filter housing 10 through the inlet 11. Then, the supplied water is transferred to the lower inlet 14, the inlet passage 17 and the upper inlet 15 and the plurality of filter members 50 through the flow passage 33 of the filter mounting portion 31. Is supplied. In addition, the water is supplied through the inlet opening 83 formed in the central connecting pipe 74 of the back washing unit 70 through the central connecting pipe 74, the lower connecting pipe 72 and the upper connecting pipe 73. Water is also supplied to the filter opening 51 of the filter member 50 to which the backwashing unit 70 is coupled. The water supplied to all of the plurality of filter members 50 is filtered while passing through the filter hole 53 of the filter member 50 and is discharged to the outlet 37 through the outlet 35.

Accordingly, the filter device 1 according to the present invention is supplied with water to both filter openings 51 of the filter member 50 through the lower inlet 14 and the upper inlet 15 during the filtration process, the lower inlet The filtration efficiency can be improved compared to the case where only (14) is formed. In addition, when the partition member 55 is provided in the filter member 50, the water introduced from the lower inlet 14 and the water introduced from the upper inlet 15 are separated and filtered, respectively, so that the partition member 55 is provided. The filtration efficiency can be further improved compared to the case without. In addition, by installing the partition member 55 at a position higher than the middle of the filter member 50, the filtration efficiency can be further improved in consideration of the influence of gravity.

In addition, the filter device 1 according to the embodiment of the present invention has a foreign substance (a) through both filter openings 51 of the filter member 50 to the lower connection pipe 72 and the upper connection pipe 73 in the back washing process. Since the water is discharged, etc.), the back washing efficiency can be improved compared to the case where only the lower connection pipe 72 is formed. In addition, when the partition member 55 is provided in the filter member 50, the water introduced from the lower inlet 14 and the water introduced from the upper inlet 15 are separated and filtered, respectively, so that the partition member 55 is provided. The backwashing efficiency can be further improved compared to the case without. In addition, by installing the partition member 55 at a position higher than the middle of the filter member 50, the backwashing efficiency may be further improved in consideration of the influence of gravity.

In addition, in the filter device 1 according to the present invention, all the filter members 50 may perform the filtration process when only the filtration process is performed without performing the backwashing process, thereby further improving the filtration efficiency.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1: filter device 10: filter housing
11 inlet 13 inlet
31 filter mounting portion 35 outlet portion
37: outlet 50: filter member
55: partition member 70: backwash
71: connector 75: connector drive unit
79 discharge pipe 81 selection valve
83: inlet opening 85: outlet opening
87: valve disc

Claims (8)

A filter housing having an inlet port and an outlet port such that ballast water flows in and out;
A plurality of filter members provided in the filter housing to filter foreign substances contained in the ballast water;
A back washing unit connected to at least one of the plurality of filter members to remove foreign substances by using a difference between an internal pressure and an atmospheric pressure; And
A selector valve installed in the backwashing unit,
The backwashing unit is connected to at least one of the plurality of filter members to backwash the foreign matter filtered by the filter member from the filter member, and the connection is connected to at least one of the plurality of filter members. A connector driving unit for rotating the tube, and a discharge pipe communicating with the connection pipe such that foreign substances washed from the filter member to which the connection pipe is connected are discharged through the connection pipe,
The selection valve is installed in the connecting pipe to selectively open and close the inlet opening formed in the connection pipe and the outlet opening formed in the connection pipe to communicate with the discharge pipe so that the water introduced into the inlet flows into the connection pipe,
When the backwashing process is performed on the filter member to which the connection pipe is connected, the selection valve is configured such that foreign matters washed from the filter member to which the connection pipe is connected are discharged through the connection pipe, the outlet opening, and the discharge pipe. Closing the opening and opening the outlet;
When the filter member to which the connecting pipe is connected performs the filtration process, the selection valve is configured to supply the ballast water introduced through the inlet to the filter member to which the connecting pipe is connected through the inlet opening and the connecting pipe. A filter device characterized in that the opening and closing the outlet opening. delete The method of claim 1,
And an inlet formed in the filter housing and provided on at least one side of the filter member such that ballast water introduced from the inlet is supplied to the filter opening formed in the filter member;
The filter member is installed in the vertical direction in the filter housing,
The inlet part has a lower inlet part provided below the filter member, an upper inlet part provided on the upper side of the filter member, and an inflow passage part formed in the central region of the filter housing to communicate with the lower inlet part and the upper inlet part. Filter apparatus comprising a. delete The method of claim 3,
The connecting pipe is formed in the lower inlet and connected to the lower side of the filter member, the upper connecting pipe formed in the upper inlet and connected to the upper side of the filter member, and formed in the inflow passage portion And a central connection pipe connecting the lower connection pipe and the upper connection pipe. The method of claim 5,
The selection valve is a filter device, characterized in that installed in the central connecting pipe. The method of claim 1,
And a partition member provided in the filter member to partition and filter the ballast water supplied to the filter opening of the filter member. The method of claim 7, wherein
The partition member is a filter device, characterized in that installed in a position higher than the middle of the filter member.

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