KR101959090B1 - Filter apparatus - Google Patents

Abstract

The present invention relates to a filter device, and more particularly, to a filter device having a filter housing having an inlet for introducing water and an outlet for discharging water introduced through the inlet; A plurality of filter members provided in the filter housing and provided in a hollow shape to filter the water introduced from the inlet; An inlet formed in at least one side of the filter member such that water introduced from the inlet is supplied to the filter opening formed in the filter member; A connection pipe 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 connecting pipe connected to at least one of the plurality of filter members to discharge foreign substances backwashed from the filter member, A backwashing section having a communicating discharge pipe; And a flow control valve for controlling the amount of water flowing out through the outlet.
According to the present invention, filtration and backwashing of foreign matter contained in seawater or fresh water can be performed at the same time as well as backwashing efficiency can be further improved.

Description

[0001] FILTER APPARATUS [0002]

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a filter device, and more particularly, to a filter device capable of backwashing a filter member used in a filtration process of foreign matter or microorganisms contained in seawater or fresh water.

Generally, a ship is equipped with a ballast tank capable of storing ballast water to control the balance and draft of the ship.

Such ballast tanks may maintain the equilibrium of the ship by inflow or outflow of ship ballast water if the ship is not balanced before or after or when the ship is loaded with cargo. In addition, ships are generally designed to enable economic and stable operation when cargo is loaded. Therefore, the ship can control the amount of ballast water in the ballast tank according to the load amount of the cargo, thereby making stable operation by making conditions similar to that of loading the cargo.

Here, the ballast water stored in the ballast tank is mainly controlled by a method in which seawater or fresh water around the ship is introduced into or discharged from the ballast tank by using a pump or the like. However, in the process of introducing ballast water into the ballast tanks, not only inorganic substances such as gravel, sand, clay, but also organisms such as seafood, crustaceans, plankton, have. Therefore, when the ship is traveling over a long distance, such foreign matter may settle and stick in the ballast tank, which may deteriorate the function of the ballast tank. In addition, when the ship discharges the ballast water in the ballast tank while the cargo is loaded, the living organisms and organic substances contained in the ballast water are leaked together, thereby causing a change in the surrounding ecosystem and adversely affecting the surrounding environment.

Therefore, the International Maritime Organization (IMO) introduced the Ballast Water Purification Regulation in 2004 to prevent ecosystem damage caused by ship ballast water. Therefore, vessels engaged in long-distance navigation are obliged to install a device capable of removing foreign matter such as organisms or organic substances contained in ballast water. Large ships such as oil tankers, container ships, and LNG carriers that use long distances are used for bulk ship equilibrium.

Therefore, it is required to develop an efficient filter device capable of rapidly filtering a large amount of seawater or fresh water used as ship equilibrium water of such a large-sized ship. It is also required to develop a filter device capable of improving the filtration efficiency of the filter member by quickly backwashing the filter member even when filtering foreign matter such as microorganisms contained in seawater or fresh water.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a filter device capable of simultaneously performing filtration and backwashing of foreign matter contained in seawater or fresh water as well as improving backwashing efficiency .

In order to solve the above-described problems, the present invention can include the following configuration.

A filter device according to an embodiment of the present invention includes a filter housing having an inlet for introducing water and an outlet for discharging water introduced through the inlet; A plurality of filter members provided in the filter housing and provided in a hollow shape to filter the water introduced from the inlet; An inlet formed in at least one side of the filter member such that water introduced from the inlet is supplied to the filter opening formed in the filter member; A connection pipe 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 connection pipe connected to at least one of the plurality of filter members to discharge backwashed foreign substances from the filter member, A backwashing section having a communicating discharge pipe; And a flow control valve for controlling the amount of water flowing out through the outlet.

The filter device according to an embodiment of the present invention includes an inlet opening formed in the connection pipe so that water introduced into the inlet pipe flows into the connection pipe and an outlet opening formed in the connection pipe so as to communicate with the outlet pipe, The flow control valve may be actuated to reduce the amount of water flowing through the outlet when the selector valve closes the inlet opening to perform a backwash process.

A filter device according to an embodiment of the present invention is installed in the filter housing in a vertical direction, and the inflow portion includes a lower inflow portion provided below the filter member, an upper inflow portion provided above the filter member, And an inflow passage formed in a central region of the housing to communicate the lower inflow portion and the upper inflow portion with each other.

The backwashing portion of the filter device according to an embodiment of the present invention may further include a connection pipe driving portion that rotates the connection pipe so that the connection pipe is connected to at least one of the plurality of filter members.

The connection pipe of the filter device according to the embodiment of the present invention includes a lower connection pipe formed in the lower inflow portion and connected to the lower side of the filter member, and a lower connection pipe formed in the upper inflow portion, And a central connection pipe formed in the inflow passage portion and connecting the lower connection pipe and the upper connection pipe.

The selector valve of the filter device according to an embodiment of the present invention may be installed in the central connecting pipe.

The filter device according to the embodiment of the present invention may further include a partition member provided in the filter member to filter and filter the water supplied from the inlet to the filter opening of the filter member.

The partition member of the filter device according to the embodiment of the present invention may be 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 simultaneously perform filtration and backwashing of foreign matter contained in seawater or fresh water, and further improve the backwashing efficiency.

1 is a schematic view of a filter device according to an embodiment of the present invention,
2 is a cross-sectional view of an AA line of the filter device of FIG. 1,
Fig. 3 is a schematic view of the filter element of the filter device of Fig. 1,
4 is a schematic view of a selector valve of a filter device according to an embodiment of the present invention,
FIG. 5 is a schematic view showing a case where filtration and backwashing processes of the filter device according to the embodiment of the present invention are simultaneously performed.
FIG. 6 is a schematic view showing a case where only the filtering process of the filter device according to the embodiment of the present invention is performed.
7 is an enlarged view showing a filtering process of a filter member of a filter device according to an embodiment of the present invention,
8 is an enlarged view showing a back washing process of the filter device of the filter device according to the embodiment of the present invention,
9 is a schematic view of a filter device according to another embodiment of the present invention.

It should be noted that, in the specification of the present invention, the same reference numerals as in the drawings denote the same elements, but they are numbered as much as possible even if they are shown in different drawings.

Meanwhile, the meaning of the terms described in the present specification should be understood as follows.

The word " first, "" second," and the like, used to distinguish one element from another, are to be understood to include plural representations unless the context clearly dictates otherwise. The scope of the right should not be limited by these terms.

It should be understood that the terms "comprises" or "having" does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

It should be understood that the term "at least one" includes all possible combinations 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 the second item and the second item among the first item, Means any combination of items that can be presented from more than one.

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

FIG. 1 is a schematic view of a filter device according to the present invention, FIG. 2 is a sectional view of the filter device of FIG. 1 taken along the line A ??, FIG. 3 is a schematic view of a filter device of the filter device of FIG. 1, FIG. 5 is a schematic view showing a case where the filtration process and the backwashing process of the filter device according to the embodiment of the present invention are carried out at the same time, and FIG. 6 is a schematic view of the filter device according to the embodiment of the present invention. FIG. 7 is an enlarged view showing a filtering process of the filter member of the filter device according to the embodiment of the present invention, and FIG. 8 is an enlarged view of the filter member according to the embodiment of the present invention. 1 is an enlarged view showing a back washing process of a filter device of a filter device according to an embodiment.

1 to 4, a filter device 1 according to an embodiment of the present invention is provided in a ballast tank as ballast water for adjusting the balance and draft of a ship It is a device for filtering foreign matters such as minerals and microorganisms contained in water such as seawater or fresh water. However, the filter device 1 according to the present invention is not limited to ships, but may be variously used in other devices that need to filter foreign matters such as inflow water, such as seawater or fresh water, such as minerals and microorganisms.

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, A plurality of filter members 50 provided in the housing 10 and provided in a hollow shape to filter the water introduced from the inlet 11 and a filter member 50 provided in the filter housing 10 so that water introduced from the inlet 11 flows into the filter member An inlet portion 13 provided on at least one side of the filter member 50 so as to be supplied to the filter opening 50 formed in the filter member 50, A backwashing section 70 having a connecting pipe 71 connected to at least one of the filter members 50 of the water supply pipe 50 and a flow control valve 93 for regulating the amount of water flowing out through the outlet 37 .

The filter device 1 according to the embodiment of the present invention includes a selector valve 81 provided on the connection pipe 71 so that the water introduced into the inlet 11 can be selectively opened and closed by the connection pipe 71 .

The filter housing (10) forms the appearance of the filter device (1). The filter housing 10 may be installed in an inlet region where water of a ballast tank (not shown) of a ship enters in an example of the present invention. The filter housing 10 may be provided with a filter (not shown) installed inside a ballast tank Water may flow into the housing 10. The filter housing 10 may be provided with a filter mounting portion 31 for receiving and mounting the filter member 50 to filter the water introduced through the inlet 11. [

The 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 areas such as an upper area of the filter housing 10 so that water can be introduced. The outlet 37 may be formed on the side surface of the filter housing 10 in which the filter mounting portion 31 is formed. However, the outlet 37 is not limited thereto, and may be formed in various areas such as the lower area of the filter housing 10 to allow water to flow out.

In an embodiment of the present invention, the filter member 50 may be installed vertically in the filter housing 10. In this case, the inflow portion 13 may include a lower inflow portion 14 provided below the filter member 50 and an upper inflow portion 15 provided above the filter member 50. The inlet 13 may include an inlet passage 17 formed in a central region of the filter housing 10 and communicating the lower inlet 14 and the upper inlet 15 with each other. However, the present invention is not limited thereto. The filter member 50 may be installed horizontally in the filter housing 10, and in this case, the inlet 13 may be formed on 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 inflow portion 14 is provided in the lower region of the plurality of filter members 50 so as to supply the water introduced through the inlet 11 through the filter openings 51 formed in the lower portion of the plurality of filter members 50 . The upper inflow portion 15 allows the water introduced through the inflow opening 11 to flow through the lower inflow portion 14 and the inflow passage portion 17 to form the filter openings 51 formed on the upper portions of the plurality of filter members 50. [ The filter member 50 may be provided in the upper area of the plurality of filter members 50. [

The inflow passage portion 17 may be formed in the central region of the filter mounting portion 31 provided in a cylindrical shape to supply the inflow portion 15 with the water introduced into the lower inflow portion 14. [ However, the inlet passage portion 17 is not limited to the central region of the filter housing 10 but may be formed in a different region of the filter housing 10 so as to supply the water introduced into the lower inlet portion 14 to the upper inlet portion 15. [ As shown in FIG.

The filter mounting portion 31 may be formed in a cylindrical shape having a hollow shape so as to accommodate and install a 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 path penetrating portions 33 may be formed in the lower portion and the upper portion of the shape filter mounting portion 31 in correspondence with the filter opening portions 51 of the plurality of filter members 50 provided in the vertical direction. In an embodiment of the present invention, six filter members 50 may be equally mounted on the filter mounting portion 31. However, the filter mounting portion 31 is not limited to this, and the filter member 50 may be mounted in various numbers of five or less or seven or more. A lower inflow portion 14 is formed below the filter mounting portion 31 and an upper inflow portion 15 is formed above the filter mounting portion 31. An inlet passage portion 17 may be formed in a central region of the hollow filter mounting portion 31. The filter mounting portion 31 is formed with an outlet portion 35 that receives the filtered water through the filter hole 53 of the filter member 50 and flows into the filter member 50 through the flow path penetrating portion 33. At one side of the filter mounting portion 31, an outlet 37 is formed to discharge the filtered water accommodated in the outflow portion 35 toward the ballast tank (not shown).

The flow path penetrating portion 33 may be provided at six equal intervals on the lower and upper portions of the filter mounting portion 31 corresponding to the filter opening portions 51 of the six filter members 50 in the present invention. Water is introduced from the upper inflow portion 15 and the lower inflow portion 14 through the flow path penetration portion 33 through the filter opening portion 51 of the filter member 50 and flows into the filter hole 50 of the filter member 50 And the filtration process is performed while escaping to the outflow portion 35 through the openings 53.

The outlet 35 is formed on the outside of the filter member 50 in the filter mounting portion 31 so that the filtered water is received through the filter hole 53 of the filter member 50 before being discharged to the outlet 37 .

The filter member 50 may be provided in the filter mounting portion 31 to be hollow in order to filter the water introduced from the both sides into the center. In an embodiment of the present invention, the filter member 50 is provided in the form of a pipe, and filter openings 51 may be formed to allow water to flow in or out from both sides of the filter member 50. A plurality of filter holes 53 may be formed in the filter member 50 to filter the water introduced through the filter opening 51. The filter hole 53 of the filter member 50 may be formed to be capable of being 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 may be a foreign matter a having a size smaller than 45 micrometers depending on the kind and condition of the water to be introduced and the field to which the filter device 1 according to the present invention is applied. May also be formed so that they can be filtered. Thus, foreign matter can be filtered while the water flowing through the filter opening portion 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 divides 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 a partition member 55 provided in the filter member 50 to divide and backwash the filter member 50 in the backwashing process of the filter member 50.

The partition member 55 is mounted inside the hollow filter member 50 and is connected to the upper inflow portion 15 and the lower inflow portion 14 through filter openings 51 formed on both sides of the filter member 50 It is possible not only to filter the inflowed water and filter it, but also to perform the backwashing by dividing the backwashing by the backwashing unit 70. Therefore, when only the lower inflow portion 14 exists in the filtration process, a large amount of filtration occurs in a lower region of the filter member 50 close to the lower inflow portion 14, and the lower inflow portion 14 of the filter member 50, Water may be introduced from both sides of the filter member 50 through the lower inflow portion 14 and the upper inflow portion 15, The filtration efficiency can be improved. Further, by providing the partition member 55, the filter member 50 can separate and filter the water introduced from the lower inflow portion 14 and the water introduced from the upper inflow portion 15, Can be further improved. The partition member 55 can be provided when the inlet portion 13 is provided on both sides of the filter member 50. When the inlet portion 13 is provided only on one side of the filter member 50, It is not necessary to install the magnetic recording medium 55. [

The backwashing section 70 includes a connection pipe 71 rotatably connected to both sides of at least one of the plurality of filter members 50 and a connection pipe 71 connecting at least one of the plurality of filter members 50 A connection pipe drive part 75 for rotating the connection pipe 71 to be connected to the connection pipe 71 so as to be connected to the connection pipe 71 and a discharge pipe 79). Since 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. However, if necessary, a separate station for opening and closing the discharge pipe 79 A wash valve may be installed.

The connecting pipe 71 is formed in the lower inflow portion 14 and connected to the lower side of the filter member 50. The lower connecting pipe 72 is formed in the upper inflow portion 15, And a central connecting pipe 74 formed in the inflow passage 17 and connecting the lower connecting pipe 72 and the upper connecting pipe 73 to each other, have.

The lower connection pipe 72 may be rotatably provided to selectively connect to one of the plurality of flow path penetration portions 33 formed in the lower portion of the filter mounting portion 31 according to an embodiment of the present invention. Thus, the foreign substances a accumulated in the filter member 50 communicated with the lower connection pipe 72 can be discharged through the lower connection pipe 72 in the backwashing process.

The upper connection pipe 73 may be rotatably provided to be selectively engageable with one of the plurality of flow path penetrating portions 33 formed on the upper portion of the filter mounting portion 31 of the present invention. Thus, the foreign substances a accumulated in the filter member 50 communicated with the upper connection pipe 73 can be discharged through the upper connection pipe 73 during the backwashing process.

The central connecting pipe 74 is provided in the central region of the hollow filter mounting portion 31 to connect the upper connecting pipe 73 and the lower connecting pipe 72 and has a discharge pipe 79 at the lower side thereof, . That is, in the present invention, the central connecting pipe 74 may be installed in the inlet passage portion 17 formed in the central region of the filter mounting portion 31. The foreign substances a transferred through the upper connection pipe 73 and the lower connection pipe 72 can be discharged to the discharge pipe 79 through the central connection pipe 74.

The connection pipe drive unit 75 is provided so as to integrally rotate the central connection pipe 74, the upper connection pipe 73 and the lower connection pipe 72 according to an embodiment of the present invention. The connection pipe drive unit 75 includes a central connection pipe 74, an upper connection pipe 73 and a lower connection pipe 72 which are integrally rotatably provided by a driving motor or the like, As shown in FIG. However, the connection tube drive unit 75 is not limited to this, and may be installed at various positions such as the lower side of the filter housing 10. [ The connection pipe drive unit 75 may be driven such that the upper connection pipe 73 and the lower connection pipe 72 are connected to the filter member 50 in which the foreign matter a is much sandwiched among the plurality of filter members 50 have. In this case, a method of judging the filter member 50 having a large amount of the foreign matter a is performed by mounting a pressure sensor (not shown) or the like inside the plurality of filter members 50, It can be judged that the foreign matter a is much sandwiched by the higher pressure. When the filter member 50 having many foreign substances a is determined, the connection pipe drive unit 75 may be controlled so that the upper connection pipe 73 and the lower connection pipe 72 are connected to the filter member 50.

The discharge pipe 79 is provided on the lower side of the filter housing 10 according to an embodiment of the present invention and discharges the foreign matter a transferred through the central connecting pipe 74 to the outside. Accordingly, the filter device 1 according to the present invention can perform the backwashing process at the same time as the filtration process as an example of the present invention. That is, the connection pipe drive unit 75 connects the upper connection pipe 73 and the lower connection pipe 72 to one of the plurality of filter members 50. Then, water is supplied to the filter housing 10 through the inlet 11, so that the inside of the filter housing 10 is filled with water, so that the pressure is increased. At this time, the discharge pipe (79) is atmospheric pressure and the pressure inside the filter housing (10) is relatively high. The foreign matter a flows from the outlet 35 in the filter housing 10 to the filter hole 53 of the filter member 50 to which the upper connecting pipe 73 and the lower connecting pipe 72 are connected, A backwash phenomenon occurs which is washed away. The separated foreign matter a can 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 only the lower connection pipe 72 is present in the backwashing process, backwashing occurs in a lower region of the filter member 50 close to the lower connection pipe 72, The lower connecting pipe 72 and the upper connecting pipe 73 may be separated from the upper connecting pipe 72 by a predetermined distance, It is possible to discharge the water to both sides of the filter member 50 through the upper connecting pipe 73 and the lower connecting pipe 72 as well as the foreign substances (a) . Further, since the partition member 55 is further provided, water discharged to both sides of the filter member 50 can be divided through the lower connection pipe 72 and the upper connection pipe 73, thereby further improving the backwashing efficiency have.

The partition member 55 is preferably provided 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 about 4/5 of the length of the filter member 50. However, the partition member 55 may be disposed at a position of about 1/2 to 3/5 of the length of the filter member 50 or at least 4/5 of the length of the filter member 50 in consideration of the length of the filter member 50, the diameter of the filter opening 51, Of course, be installed. When the partitioning member 55 is installed at a position higher than the middle of the filter member 50 as described above, the inflow pressure of the water flowing from the upper inflow portion 15 into the filter member 50 due to gravity causes the inflow pressure of the lower inflow portion 14 The amount of water flowing into the filter member 50 from the lower inflow portion 14 is larger than that of the water flowing into the filter member 50 from the lower inflow portion 14 so as to more effectively perform the filtration of the inflow water. The amount of water discharged to the lower connection pipe 72 is larger than the amount of water discharged to the upper connection pipe 73 due to the influence of gravity in the backwashing process, The backwashing efficiency can be further improved by being installed at a high position. However, when the diameter of the filter opening portion 51 on the upper side of the filter member 50 is larger than the diameter of the lower filter opening portion 51, the flow rate through the upper filter opening portion is larger. It is preferable that the member 55 is installed at a position lower than the middle of the filter member 50. [

The selection valve 81 is connected to the inlet pipe 83 formed in the connection pipe 71 and the connection pipe 71 so as to communicate with the discharge pipe 79 so that the water introduced into the inlet 11 flows into the connection pipe 71 (71) so as to selectively open and close the formed outflow opening (85).

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

The flow control valve 93 may be installed in the outflow pipe 91 coupled to the outlet 37 as an example of the present invention. However, the flow rate control valve 93 is not limited to this, and may be installed in the outlet 37 so as to adjust the amount of water flowing out through the outlet port 37, or the like.

5, when the selection valve 81 closes the inflow opening 83 and opens the outflow opening 85 to perform the filtration process and the backwash process at the same time, (Not shown) or the user's manipulation so that the amount of water flowing out through the opening 37 is reduced. That is, when the filtration process and the backwash process are simultaneously performed, the angle of the valve disk of the flow control valve 93 is changed according to the measured pressure value in the filter member 50 requiring backwashing through a control unit The amount of water flowing out through the outlet 37 can be adjusted. Accordingly, when the filtration process and the backwash process are simultaneously performed, the flow control valve 93 is adjusted to reduce the amount of the filtered water discharged through the outlet port 37, thereby increasing the pressure in the outlet port 35 So that the backwashing efficiency can be prevented from being lowered in the backwashing process.

6, the flow control valve 93 is connected to the outlet port 37 when the selector valve 81 opens the inlet opening 83 and closes the outlet opening 85 to perform filtration only, So that the amount of the water flowing out through the water supply pipe is maximized.

The filtering process and the backwashing process of the filter device 1 according to the embodiment of the present invention will now be described with reference to FIGS. 4 to 8. FIG.

First, when the filtration process and the backwash process are simultaneously performed, the selection valve 81 closes the inflow opening 83 and opens the outflow opening 85. Then, water is supplied to the filter housing 10 through the inlet 11. The supplied water is then transferred to the lower inflow portion 14, the inflow passage portion 17 and the upper inflow portion 15 to be supplied to the plurality of filter members 50 through the flow path penetration portion 33 of the filter mounting portion 31, . The water supplied to the filter member 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. In this case, the flow control valve 93 is opened and discharged to the outlet pipe 91 through the outlet 37.

The backwashing process is performed simultaneously with this filtration process. That is, the water flows into the filter housing 10 through the inlet 11, and the pressure rises. The connection pipe drive unit 75 is driven to connect the upper connection pipe 73 and the lower connection pipe 72 to the filter member 50 in which a plurality of foreign matters a among the plurality of filter members 50 are inserted. The outlet pipe 79 is at atmospheric pressure and the outlet pipe 35 of the filter housing 10 having a relatively high pressure is connected to the filter pipe 50 of the filter member 50 to which the upper connecting pipe 73 and the lower connecting pipe 72 are connected, The foreign matter (a) can be backwashed while the water flows backward to the foreign matter (53). The backwashed foreign matter a can be discharged to the discharge pipe 79 through the upper connecting pipe 73, the lower connecting pipe 72 and the central connecting pipe 74. When the filtration process and the backwash process are performed at the same time, the flow control valve 93 is adjusted to reduce the amount of the filtered water discharged through the outlet 37, thereby increasing the pressure in the outlet 35 So that foreign matter (a) sandwiched in the filter hole (53) of the filter member (50) can be effectively removed in the backwashing process, and the backwashing efficiency can be improved.

And, if the measured pressure value in the plurality of filter members 50 is smaller than the predetermined set value, the selector valve 81 opens the inlet opening 83 and closes the outlet opening 85, So that the filter 50 can perform the filtration process.

Next, in the case where only the filtration process is performed, 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. The supplied water is then transferred to the lower inflow portion 14, the inflow passage portion 17 and the upper inflow portion 15 to be supplied to the plurality of filter members 50 through the flow path penetration portion 33 of the filter mounting portion 31, . Water is supplied through the inflow opening 83 formed in the central connecting pipe 74 of the backwashing unit 70 and flows 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 portion 51 of the filter member 50 to which the backwashing portion 70 is coupled. The water supplied to all of the plurality of filter members 50 is filtered while passing through the filter holes 53 of the filter member 50 and is discharged to the outlet 37 through the outlet 35.

In the filter device 1 according to the present invention, water is supplied to both filter openings 51 of the filter member 50 through the lower inflow portion 14 and the upper inflow portion 15 in the filtration process, The filtration efficiency can be improved as compared with the case where only the filter 14 is formed. When the partition member 55 is provided in the filter member 50, the water introduced from the lower inflow portion 14 and the water introduced from the upper inflow portion 15 are separated and filtered, It is possible to further improve the filtration efficiency as compared with the case where there is no filter. Further, by providing the partition member 55 at a position higher than the middle of the filter member 50, filtration efficiency can be further improved in consideration of the influence of gravity.

The filter device 1 according to the embodiment of the present invention is configured to remove the foreign matter a through the filter connecting openings 51 on both sides of the filter member 50 by the lower connecting pipe 72 and the upper connecting pipe 73, The backwashing efficiency can be improved as compared with the case where only the lower connection pipe 72 is formed. When the partition member 55 is provided in the filter member 50, the water introduced from the lower inflow portion 14 and the water introduced from the upper inflow portion 15 are separated and filtered, The backwashing efficiency can be further improved as compared with the case without the backwashing. Further, by providing the partition member 55 at a position higher than the middle of the filter member 50, the backwashing efficiency can be further improved in consideration of the influence of gravity.

In addition, since the filter device 1 according to the present invention uses the selection valve 81 when only the filtration process is performed without performing the backwashing process, all the filter members 50 can perform the filtration process, Can be further improved.

9 is a schematic view of a filter device according to another embodiment of the present invention.

The filter device 100 according to another embodiment of the present invention has a structure in which the upper inflow portion 15 and the inflow passage portion 17 of the inflow portion 13 and the connection pipe of the backwashing portion 70 The selection valve 81 and the partition member 50 are removed and the backwash valve 77 is added to the upper connection pipe 73, Except for these differences, it is the same as the above-described embodiment, and therefore, the difference will be mainly described.

The backwash valve 77 is mounted on the discharge pipe 79 and opens and closes the discharge pipe 79 as an example of the present invention. However, the backwash valve 77 may be mounted between the connection pipe 71 and the discharge pipe 79 so as to open and close the discharge pipe 79.

With this configuration, when the backwash valve 77 is open, the discharge pipe 79 is atmospheric pressure and the pressure inside the filter housing 10 is relatively high. The backwashing phenomenon occurs when the foreign matter a is washed away while the water flows back to the filter hole 53 of the filter member 50 connected to the lower connecting pipe 72 from the outlet 35 in the filter housing 10 . The foreign matter a thus separated is discharged to the discharge pipe 79 through the lower connection pipe 72 together with water, so that the filtration process and the backwash process are simultaneously performed. If the measured pressure value in the plurality of filter members 50 is smaller than the predetermined set value, the backwash valve 77 may be closed by judging that the foreign matter a is not much caught. Therefore, when the filtration process and the backwash process are performed simultaneously, the flow control valve 93 is adjusted to reduce the amount of filtered water discharged through the outlet 37, thereby increasing the pressure in the outlet 35 It is possible to effectively remove the foreign matter (a) sandwiched in the filter hole 53 of the filter member 50 in the backwashing process, thereby improving the backwashing efficiency.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Will be clear to those who have knowledge of.

1: Filter device 10: Filter housing
11: inlet 13: inlet
31: filter mounting part 35:
37: outlet 50: filter element
55: partition member 70:
71: connector 75: connector drive part
81: Selection valve 91: Outflow tube
93: Flow control valve

Claims (8)

A filter housing having an inlet for introducing water and an outlet for discharging water introduced through the inlet;
A plurality of filter members provided in the filter housing and provided in a hollow shape to filter the water introduced from the inlet;
An inlet formed in at least one side of the filter member such that water introduced from the inlet is supplied to the filter opening formed in the filter member;
A connection pipe 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 connecting pipe connected to at least one of the plurality of filter members to discharge foreign substances backwashed from the filter member, A backwashing section having a communicating discharge pipe;
A flow control valve for controlling the amount of water flowing out through the outlet; And
An inlet opening formed in the connection pipe to allow water introduced into the inlet port to flow into the connection pipe and a selection valve provided in the connection pipe to selectively open and close the outlet opening formed in the connection pipe so as to communicate with the outlet pipe,
Wherein the flow control valve adjusts the amount of water flowing out through the outlet to decrease when the selector valve closes the inlet opening to perform the backwashing process. delete The method according to claim 1,
Wherein the filter member is installed vertically in the filter housing,
The inflow portion includes a lower inflow portion provided below the filter member, an upper inflow portion provided above the filter member, and an inflow passage portion formed in a central region of the filter housing to communicate the lower inflow portion and the upper inflow portion with each other And the filter device. The method of claim 3,
Wherein the backwashing unit further comprises a connection pipe driving unit that rotates the connection pipe so that the connection pipe is connected to at least one of the plurality of filter members. 5. The method of claim 4,
The connection pipe includes a lower connection pipe formed in the lower inflow portion and connected to the lower side of the filter member, an upper connection pipe formed in the upper inflow portion and connected to the upper side of the filter member, And a central connection pipe connecting the lower connection pipe and the upper connection pipe. 6. The method of claim 5,
And the selector valve is installed in the central connecting pipe. The method according to any one of claims 1, 3, 4, 5, and 6,
Further comprising a partition member provided in the filter member to filter and filter the water supplied from the inlet to the filter opening of the filter member. 8. The method of claim 7,
Wherein the partition member is installed at a position higher than the middle of the filter member.

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