KR102326266B1 - Device for filtering water by sedimentation - Google Patents

Abstract

Disclosed is a sedimentation type water filtration system. A sedimentation type water filtration device according to an embodiment of the present invention includes a sedimentation tank; a first partition plate extending downward from the upper surface of the settling tank to partition the inside of the settling tank and having a lower end spaced apart from the bottom of the settling tank; a second diaphragm extending upward from the bottom of the settling tank while being spaced apart from the first diaphragm to partition the inside of the settling tank and having an upper end spaced apart from the upper surface of the settling tank; an inlet compartment formed between the first partition plate and the first sidewall of the settling tank; an intermediate compartment formed between the first diaphragm and the second diaphragm; a discharge compartment formed between the second partition plate and the second sidewall of the settling tank; a water inlet pipe connected to the upper part of the inlet compartment; a water discharge pipe connected to the discharge compartment at a lower position than the upper end of the second partition plate and guiding the water discharged from the discharge compartment to the water tank; and a magnetic net for filtering foreign substances in the water flowing from the inflow compartment to the intermediate compartment through the lower portion of the first diaphragm, and attaching a metal material to the filter.

Description

DEVICE FOR FILTERING WATER BY SEDIMENTATION

The present invention relates to a sedimentation type water filtration device capable of removing foreign substances from water supplied to a water tank.

The steel mill draws water from the surrounding river and uses it as fire-fighting water. However, since the water collected from the river around the steelworks may contain metal materials such as iron dust, the metal material may adhere to the inner surface of the pipe or valve and narrow the pipeline. In addition, metal materials can accelerate corrosion of piping or valves, which can cause oxidized scale.

In general fire extinguishing equipment, the collected water is stored in a water tank, and in the event of a fire, water is quickly supplied to the fire hydrant so that the fire can be entered at an early stage. However, since fire extinguishing equipment is used only in case of fire, water must be stored for a long period of time.

In particular, water collected from the vicinity of steelworks often contains metal materials that promote corrosion of pipes, pumps, and valves. can

One aspect of the present invention is to provide a sedimentation type water filtration device capable of removing foreign substances in water supplied to a water tank.

Another aspect of the present invention is to provide a sedimentation type water filtration device capable of filtering metal substances contained in water.

According to one aspect of the present invention, a sedimentation tank; a first partition plate extending downward from the upper surface of the settling tank to partition the inside of the settling tank and having a lower end spaced apart from the bottom of the settling tank; a second diaphragm extending upward from the bottom of the settling tank while being spaced apart from the first diaphragm to partition the inside of the settling tank and having an upper end spaced apart from the upper surface of the settling tank; an inlet compartment formed between the first partition plate and a first sidewall of the settling tank; an intermediate compartment formed between the first diaphragm and the second diaphragm; a discharge compartment formed between the second partition plate and a second sidewall of the settling tank; a water inlet pipe connected to the upper part of the inlet compartment; a water discharge pipe connected to the discharge compartment at a position lower than the upper end of the second partition plate and guiding the water discharged from the discharge compartment to the water tank; and a magnet net for filtering foreign substances in the water flowing from the inlet compartment to the intermediate compartment through the lower portion of the first diaphragm, and attaching a metal material to filter the water.

The sedimentation type water filtration device includes: a first water level control valve for controlling the water level in the inlet compartment by opening and closing the outlet of the water inlet pipe; and a second water level control valve configured to control the water level of the water tank by opening and closing the outlet of the water discharge pipe.

The settling type water filtration device includes: a first drain port formed at the bottom of the settling tank under the inlet compartment and the intermediate compartment and opened and closed by a first drain valve; and a second drain port formed at the bottom of the discharge compartment and opened and closed by a second drain valve.

The bottom of the inlet compartment and the intermediate compartment may include an inclined surface inclined downward toward the first drain port, and the bottom of the discharge compartment may include an inclined surface inclined downward toward the second drain hole.

The precipitation type water filtration device includes: a first magnet holder installed in the first drain port and filtering by attaching a metal material included in the water flowing from the inlet compartment to the intermediate compartment; and a second magnet holder installed in the second drain port and filtering by attaching a metal material contained in the water in the discharge compartment.

The first and second magnet holders may include a support member having a lower portion detachably coupled to the first or second drain port, protruding into the settling tank, and having a discharge passage penetrating vertically; a plurality of permanent magnets mounted on the upper peripheral surface of the support member; a locking jaw protruding from the support member under the plurality of permanent magnets in a circumferential direction and supported on the bottom of the settling tank; and a plurality of auxiliary passages formed on the support member under the locking protrusion and penetrating radially outwardly from the discharge passage.

The first and second magnet holders may include a support member having a lower portion detachably coupled to the first or second drain port, protruding into the settling tank, and having a discharge passage penetrating up and down; a plurality of electromagnets mounted on the upper circumferential surface of the support member; a locking jaw protruding from the support member under the plurality of electromagnets in a circumferential direction and supported on the bottom of the settling tank; and a plurality of auxiliary passages formed on the support member under the locking protrusion and penetrating radially outwardly from the discharge passage.

The sedimentation type water filtration device includes: an electric wire extending into the sedimentation tank through the bottom of the sedimentation tank to supply power to the plurality of electromagnets; a wire guide pipe extending upwardly inside the settling tank from the bottom of the settling tank through which the electric wire passes; And it may further include a leak prevention cap for blocking the leakage of water by forming an air pocket to cover the upper portion of the wire guide tube.

The precipitation type water filtration device includes: a first check hole formed on the lower side of the first side wall so as to separate the magnetic net or the first magnetic holder to the outside of the settling tank; a first cover for opening and closing the first inspection port; a second inspection hole formed on the lower side of the second side wall to separate the second magnet holder to the outside of the settling tank; and a second cover for opening and closing the second inspection hole.

The magnet net may be installed under the inlet compartment, and the lower edge may be supported by the support jaws provided at the lower end of the first diaphragm and the lower side of the first side wall.

The precipitation type water filtration device may further include an overflow pipe connected to the upper portion of the discharge compartment higher than the upper end of the second diaphragm.

The settling tank may include an upper cover for opening and closing the upper part.

According to another aspect of the present invention, a sedimentation tank; a first partition plate extending downward from the upper surface of the settling tank to partition the inside of the settling tank and having a lower end spaced apart from the bottom of the settling tank; a second diaphragm extending upward from the bottom of the settling tank while being spaced apart from the first diaphragm to partition the inside of the settling tank and having an upper end spaced apart from the upper surface of the settling tank; an inlet compartment formed between the first partition plate and a first sidewall of the settling tank; an intermediate compartment formed between the first diaphragm and the second diaphragm; a discharge compartment formed between the second partition plate and a second sidewall of the settling tank; a water inlet pipe connected to the upper part of the inlet compartment; a water discharge pipe connected to the discharge compartment at a position lower than the upper end of the second partition plate and guiding the water discharged from the discharge compartment to the water tank; a first drain port formed at the bottom of the settling tank under the inlet and the intermediate compartment and opened and closed by a first drain valve; a second drain port formed at the bottom of the discharge compartment and opened and closed by a second drain valve; a first magnet holder installed in the first drain port and filtering by attaching a metal material included in the water flowing from the inlet compartment to the intermediate compartment; and a second magnetic holder installed in the second drain port and filtering by attaching a metal material included in the water in the discharge compartment;

The sedimentation type water filtration device according to an embodiment of the present invention separates the suspended matter contained in the water by floating in the inlet compartment, sets the sediment contained in the water on the bottom to separate it, and separates the metallic material contained in the water with the magnetic net. Since it is separated using a magnetic holder, foreign substances in the water supplied to the water tank can be easily removed.

The sedimentation type water filtration device according to an embodiment of the present invention can minimize the corrosion of equipment by the water supplied to the water tank because the first magnetic holder and the second magnetic holder as well as the magnetic net filter the metal substances contained in the water. have.

1 is a cross-sectional view showing the internal configuration of a sedimentation type water filtration device according to an embodiment of the present invention.
FIG. 2 is a side view of the sedimentation type water filtration device of FIG. 1. FIG.
3 is a front view of the sedimentation type water filtration device of FIG.
4 is a cross-sectional view showing the magnet net and the first and second magnet holders of the sedimentation type water filtration device according to an embodiment of the present invention.
5 is a perspective view of the first magnet holder of the sedimentation type water filtration device according to an embodiment of the present invention.
6 is a perspective view showing the first magnet holder of the sedimentation type water filtration device according to an embodiment of the present invention from another angle.
7 shows a modified example of the first and second magnet holders of the sedimentation type water filtration device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are presented to sufficiently convey the spirit of the present invention to those of ordinary skill in the art to which the present invention pertains, and are not limited to those presented herein and may be embodied in other forms. In the drawings, in order to clarify the present invention, the illustration of parts not related to the description may be omitted, and the size of the components may be slightly exaggerated to help understanding.

1 to 3, the sedimentation type water filtration apparatus 100 according to an embodiment of the present invention includes a settling tank 110, a first diaphragm 111, a second diaphragm 112, an inlet compartment 113, Intermediate compartment 114, discharge compartment 115, water inlet pipe 120, water outlet pipe 130, first water level control valve 125, second water level control valve 135, magnetic net 140, second It includes a first drain pipe 150 , a second drain pipe 160 , a first magnet holder 170 , and a second magnet holder 180 .

The settling tank 110 may be in the form of a rectangular tank having a long length in the vertical direction. The settling tank 110 is provided on the side of the water tank 300 and the upper deck part 11 may be installed on the support structure 10 spaced upward from the ground. This is to facilitate the supply of water purified in the settling tank 110 to the water tank 300 by installing the settling tank 110 at a high position from the ground. The manager can manage the settling tank 110 in a state in which the support structure 10 ascends to the upper deck 11 of the support structure 10 through the stairs 12 provided on the side thereof.

The first partition plate 111 extends downward from the inner upper surface of the settling tank 110 to partition the inside of the settling tank 110 . As shown in FIG. 1 , the first diaphragm 111 has an upper end in contact with the inner upper surface of the settling tank 110 , and a lower end spaced apart from the bottom of the settling tank 110 by a set interval.

The second diaphragm 112 is spaced apart from the first diaphragm 111 and extends upward from the bottom of the settling tank 110 to partition the inside of the settling tank 110, and the upper end of the settling tank 110 has a set interval with the upper surface of the settling tank 110. are spaced apart

The sedimentation tank 110 may be divided into three spaces by the first diaphragm 111 and the second diaphragm 112 as described above. The settling tank 110 includes an inlet compartment 113 formed between the first diaphragm 111 and the first sidewall 116 of the settling tank 110 , and an intermediate compartment formed between the first diaphragm 111 and the second diaphragm 112 . 114 , the second partition plate 112 and the second side wall 117 of the settling tank 110 may be partitioned into a discharge compartment 115 .

The first diaphragm 111 and the second diaphragm 112 may be installed vertically in the settling tank 110 in a state parallel to each other. The inlet compartment 113 , the intermediate compartment 114 , and the discharge compartment 115 may have a mutually similar volume.

1 and 2, the water inlet pipe 120 is connected to the upper part of the inlet compartment 113. The water inlet pipe 120 extends inside the inlet compartment 113 of the settling tank 110 from an external water supply source so as to supply water to the upper part of the inlet compartment 113 . A valve 121 for controlling the supply of water may be installed in the water inlet pipe 120 outside the settling tank 110 .

A first water level control valve 125 for controlling the water level of the inlet compartment 113 by opening and closing the outlet of the water inlet pipe 120 is installed on the inner upper portion of the inlet compartment 113 . The first water level control valve 125 is a float valve that can block the supply of water when the water level in the inlet compartment 113 reaches a set height, or an electric open/close valve that opens and closes the outlet of the water inlet pipe 120 through water level detection can be

A water discharge pipe 130 for guiding the water of the discharge compartment 115 to the inner upper portion of the water tank 300 is connected to the side of the discharge compartment 115 . The water outlet pipe 130 may extend from the water outlet 131 formed in the second sidewall 117 lower than the upper end of the second diaphragm 112 to the inner upper portion of the water tank 300 . A strainer 132 may be installed in the water discharge pipe 130 between the settling tank 110 and the water tank 300 to finally filter foreign substances contained in the water discharged to the water tank 300 .

A second water level control valve 135 for controlling the water level of the water tank 300 by opening and closing the outlet of the water discharge pipe 130 may be installed inside the water tank 300 . The second water level control valve 135 may be a float valve that can block the supply of water when the water level in the water tank 300 reaches a set height, or an electric on/off valve that opens and closes the outlet of the water discharge pipe 130 through water level detection. have.

As shown in FIG. 1 , the water supplied to the upper part of the inlet compartment 113 through the water inlet pipe 120 flows downward in the inlet compartment 113 and through the lower portion of the first partition plate 111 , the intermediate compartment After being introduced into the 114, it flows upward, and may flow from the upper side of the intermediate compartment 114 to the discharge compartment 115 beyond the upper end of the second diaphragm 112. And the water in the discharge compartment 115 may be supplied to the water tank 300 through the water discharge pipe 130 .

As shown in FIGS. 1 and 4 , the magnetic net 140 may filter foreign substances from the water flowing from the inlet compartment 113 to the intermediate compartment 114 through the lower portion of the first diaphragm 111 . The magnetic net 114 may be filtered by using magnetic force to attach the metal material contained in the water.

The magnet net 140 may be installed in the lower part of the inlet compartment 113 as in the example of FIG. 4 , and the lower side by the support jaw 142 provided below the lower end of the first partition plate 111 and the first side wall 116 . The rim may be supported. The magnetic net 140 may be provided slightly larger than the lower cross section of the inlet compartment 113 so that all water flowing from the inlet compartment 113 to the intermediate compartment 114 can pass and be filtered, and slightly inclined in consideration of the flow of water. can be installed. The magnetic net 140 may include a handle 143 provided thereon. The manager may hold the handle 143 of the magnetic net 140 and pull the magnetic net 140 out of the settling tank 110 to clean it.

4, the first drain pipe 150 is connected to the first drain 151 formed at the bottom of the settling tank 110 under the inlet compartment 113 and the intermediate compartment 114, and the second drain pipe 160 is It is connected to the second drain hole 161 formed at the bottom of the discharge compartment 115 . A first drain valve 152 is installed in the first drain pipe 150 , and a second drain valve 162 is installed in the second drain pipe 160 . The first drain pipe 150 and the second drain pipe 160 can maintain a normally closed state, and when the manager wants to discharge the sediment accumulated on the bottom of the settling tank 110 , the first drain valve 152 and the second By opening the drain valve 162 , the sediment together with the remaining water in the settling tank 110 may be discharged.

The first drain 151 may be provided at an intermediate position between the inflow compartment 113 and the intermediate compartment 114 , and the bottom of the inflow compartment 113 and the intermediate compartment 114 is downward toward the first drain 151 . It may include an inclined inclined surface 118a. The second drain 161 may also be provided at the center of the bottom of the discharge compartment 115 , and the bottom of the discharge compartment 115 may also include an inclined surface 118b inclined downward toward the second drain 161 . Therefore, the sediment in the inlet compartment 113 and the intermediate compartment 114 is guided toward the first drain port 151 by the inclined surface 118a of the lower portion of the inlet compartment 113 and the intermediate compartment 114 and can be smoothly discharged, The sediment in the compartment 115 may be guided to the second drain hole 161 by the inclined surface 118b of the lower portion of the discharge compartment 114 to be smoothly discharged.

Referring to FIG. 4 , the first magnetic holder 170 attaches a metal material included in the water flowing from the inlet compartment 113 to the intermediate compartment 114 in the state installed in the first drain port 151 to filter it. In addition, the second magnet holder 180 can filter by attaching a metal material contained in the water of the discharge compartment 115 in the state installed in the second drain port 161 .

5 and 6 , the first magnetic holder 170 has a lower portion detachably coupled to the first drain 151 , an upper portion protrudes into the settling tank 110 , and a discharge passage 172 that penetrates in the vertical direction. ( 110) A plurality of auxiliary auxiliary projections 174 that are caught and supported by the first drain 151 of the floor, are formed in the support member 171 of the lower side of the stopping projections 174 and penetrate radially outward from the discharge passage 172 A flow path 175 may be included.

The first magnet holder 170 may filter water in such a way that a plurality of permanent magnets 173 attach a metal material. Water and sediment may be discharged to the first drain pipe 150 through the discharge passage 172 and the plurality of auxiliary passages 175 of the first magnetic holder 170 .

The first magnet holder 170 is detachably coupled in such a way that the lower portion of the support member 171 is inserted into the first drain hole 151 . Therefore, the administrator can easily separate the first magnet holder 170 from the first drain hole 151 and withdraw it to the outside of the settling tank 110 , remove the metal material attached to the plurality of permanent magnets 173 and then re-install it. can be used by

The second magnet holder 180 may be provided in the same manner as the first magnet holder 170 except for a different installation position.

7 shows a modified example of the first magnet holder 170 and the second magnet holder 180 . In the example of FIG. 7 , a plurality of electromagnets 193 are employed instead of the permanent magnets 173 . In this case, the plurality of electromagnets 193 may be supplied with power through the electric wire 210 extending inside through the bottom of the settling tank 110 . At the bottom of the settling tank 110 through which the electric wire 210 passes, a leak prevention device 200 for preventing water leakage while allowing the electric wire 210 to enter may be installed.

The leakage preventing device 200 includes a wire guide tube 201 extending upwardly from the bottom of the settling tank 110 through which the wire 210 passes, and an air pocket ( By forming 203), it may include a leak prevention cap 202 that blocks the leakage of water. Since the leakage preventing device 200 is not deformed even after long-term use, it is possible to prevent water leakage into the wire entry part due to corrosion or the like.

The electric wire 210 extending to the outside of the settling tank 110 is connected to the power source 220 , and power supply may be controlled by the power switch 230 . Therefore, in the example of FIG. 7, when the first drain pipe 150 or the second drain pipe 160 is opened to discharge the sediment, the power of the plurality of electromagnets 193 is cut off to separate the metal material attached to the electromagnet 193 to separate the sediment. can be discharged together with

1 and 2, the sedimentation type water filtration device 100 of this embodiment has a settling tank 110 to separate the magnetic net 140 or the first magnetic holder 170 to the outside of the settling tank 110. The first inspection port 221 formed on the lower side of the first side wall 116 of the It includes a second inspection port 231 formed on the lower side of the second side wall 117 of the settling tank 110, and a second cover 232 for opening and closing the second inspection port 231.

In addition, the sedimentation type water filtration device 100 has an overflow pipe 250 connected to the upper part of the discharge compartment 115 at a position higher than the upper end of the second diaphragm 112 , and an upper cover 240 for opening and closing the upper part of the settling tank 110 . ) may contain

Referring to FIG. 3 , on the outside of the settling tank 110 , a first water level gauge 261 that can visually check the water levels in the inlet compartment 113 and the intermediate compartment 114 from the outside, and the water level in the discharge compartment 115 . A second water level gauge 262 that can be visually inspected from the outside may be installed.

The following describes the operation and usage of such a sedimentation type water filtration device.

Referring to FIG. 1 , the water supplied to the upper part of the inlet compartment 113 through the water inlet pipe 120 flows downward in the inlet compartment 113 , and through the lower part of the first partition plate 111 , the intermediate compartment 114 . ) and then flow upwards. In addition, water is filled to the height of the upper end of the second diaphragm 112 in the inlet compartment 113 and the intermediate compartment 114, and then flows from the upper side of the intermediate compartment 114 over the upper end of the second diaphragm 112 to the outlet compartment 115. do. The water in the discharge compartment 115 is supplied to the water tank 300 through the water discharge pipe 130 .

In this process, the suspended matter contained in the water floats to the water surface of the inlet compartment 113, so it is separated from the water, and the sediment with a high specific gravity contained in the water flows from the inlet compartment 113 to the intermediate compartment 114. In the process, since the first drain 151 is deposited from the inlet compartment 113 and the intermediate compartment 114 to the bottom, it is separated from the water. The metal material contained in the water is separated while being attached to the magnet net 140 and the first magnet holder 170 in the process of flowing from the inlet compartment 113 through the lower portion of the first diaphragm 111 to the intermediate compartment 114 . In the discharge compartment 115 , the sediment is also deposited toward the second drain 161 of the floor, and the metal material contained in the water is separated while being attached to the second magnet holder 180 .

As such, the sedimentation type water filtration device 100 of this embodiment separates the suspended matter by floating in the inlet compartment 113, sets the sediment on the bottom to separate it, and separates the metallic material contained in the water with the magnetic net 140 and the first And since it is separated using the second magnetic holders 170 and 180 , foreign substances in the water supplied to the water tank 300 can be easily removed. The water supplied to the water tank 300 through the water discharge pipe 130 may be filtered again by the strainer 132 .

The sediment accumulated on the floor where the first drain 151 and the second drain 161 are located can be discharged to the outside together with the remaining water by the manager opening the first drain pipe 150 and the second drain pipe 160, Floating matter floating on the water surface of the inlet compartment 113 may be removed by an administrator opening the upper cover 240 .

The magnet net 140, the first and second magnet holders 170 and 180 are in a state in which the administrator separates the first cover 222 of the first inspection hole 221 and the second cover 232 of the second inspection hole 231. It can be separated from the settling tank 110 to the outside, and in this state, after removing the attached metal material or other foreign material, it can be installed again. Of course, in this way, the magnet net 140 or the first and second magnet holders 170 and 180 may be replaced with new ones.

When a failure of the first water level control valve 125 occurs while the second water level control valve 135 is closed, the water in the settling tank 110 may be discharged to the outside through the overflow pipe 250 . Therefore, it is possible to protect the settling tank 110 from damage due to pressure rise.

In this embodiment, as in the example shown in FIG. 1 , the magnet net 140 and the first and second magnet holders 170 and 180 are both installed in the settling tank 110 , but the magnetic net 140 in the settling tank 110 . ) is installed and the first and second magnet holders 170 and 180 can be excluded. Alternatively, in contrast to this case, the first and second magnetic holders 170 and 180 are installed in the settling tank, and the magnetic network 140 may be excluded. Even in this case, the metal material contained in the water may be filtered by the magnetic net 140 or installed and the first and second magnetic holders 170 and 180 .

100: sedimentation type water filtration device, 110: sedimentation tank,
111: first diaphragm, 112: second diaphragm,
113: inlet compartment, 114: intermediate compartment;
115: discharge compartment, 120: water inlet pipe,
125: first water level control valve, 130: water discharge pipe,
135: second water level control valve, 140: magnetic net,
150: a first drain pipe, 160: a second drain pipe,
170: a first magnetic holder, 180: a second magnetic holder.

Claims (15)

sedimentation tank;
a first partition plate extending downward from the upper surface of the settling tank to partition the inside of the settling tank and having a lower end spaced apart from the bottom of the settling tank;
a second diaphragm extending upward from the bottom of the settling tank while being spaced apart from the first diaphragm to partition the inside of the settling tank and having an upper end spaced apart from the upper surface of the settling tank;
an inlet compartment formed between the first partition plate and a first sidewall of the settling tank;
an intermediate compartment formed between the first diaphragm and the second diaphragm;
a discharge compartment formed between the second partition plate and a second sidewall of the settling tank;
a water inlet pipe connected to the upper part of the inlet compartment;
a water discharge pipe connected to the discharge compartment at a position lower than the upper end of the second partition plate and guiding the water discharged from the discharge compartment to the water tank; and
and a magnetic net for filtering foreign substances in the water flowing from the inlet compartment to the intermediate compartment through the lower portion of the first diaphragm, and attaching a metal material to filter.
The magnet net is installed in the lower part of the inlet compartment, and the lower edge is supported by the lower edge of the first diaphragm and the support jaw provided on the lower side of the first side wall. According to claim 1,
a first water level control valve for controlling the water level in the inlet compartment by opening and closing the outlet of the water inlet pipe; and
The sedimentation type water filtration device further comprising a; a second water level control valve for controlling the water level of the water tank by opening and closing the outlet of the water discharge pipe. 3. The method of claim 1 or 2,
a first drain port formed at the bottom of the settling tank under the inlet and the intermediate compartment and opened and closed by a first drain valve; and
A sedimentation type water filtration device further comprising a; a second drain port formed at the bottom of the discharge compartment and opened and closed by a second drain valve. 4. The method of claim 3,
The inlet compartment and the bottom of the intermediate compartment include a slope inclined downward toward the first drain port,
The bottom of the discharge compartment is a sedimentation type water filtration device including a slope inclined downward toward the second drain. 5. The method of claim 4,
a first magnet holder installed in the first drain port and filtering by attaching a metal material included in the water flowing from the inlet compartment to the intermediate compartment; and
A sedimentation type water filtration device further comprising a; a second magnetic holder installed in the second drain port and filtering by attaching a metal material contained in the water in the discharge compartment. 6. The method of claim 5,
The first and second magnet holders,
a support member having a lower portion detachably coupled to the first or second drain port and protruding into the settling tank and having a discharge passage penetrating up and down;
a plurality of permanent magnets mounted on the upper peripheral surface of the support member;
a locking jaw protruding from the support member under the plurality of permanent magnets in a circumferential direction and supported on the bottom of the settling tank; and
A precipitation type water filtration device including each; a plurality of auxiliary passages formed on the support member under the locking jaw and penetrated radially outwardly from the discharge passage. 6. The method of claim 5,
The first and second magnet holders,
a support member having a lower portion detachably coupled to the first or second drain port, protruding into the settling tank, and having a discharge passage penetrating vertically;
a plurality of electromagnets mounted on the upper circumferential surface of the support member;
a locking jaw protruding from the support member under the plurality of electromagnets in a circumferential direction and supported on the bottom of the settling tank; and
A precipitation type water filtration device including each; a plurality of auxiliary passages formed on the support member under the locking jaw and penetrated radially outwardly from the discharge passage. 8. The method of claim 7,
an electric wire extending into the settling tank through the bottom of the settling tank to supply power to the plurality of electromagnets;
a wire guide pipe extending upwardly inside the settling tank from the bottom of the settling tank through which the electric wire passes; and
The precipitation type water filtration device further comprising a leak prevention cap for blocking the leakage of water by forming an air pocket by covering the upper portion of the wire guide tube. 6. The method of claim 5,
a first check hole formed on the lower side of the first side wall to separate the magnetic net or the first magnetic holder to the outside of the settling tank;
a first cover for opening and closing the first inspection port;
a second inspection hole formed on the lower side of the second side wall to separate the second magnet holder to the outside of the settling tank; and
Precipitation type water filtration device further comprising; a second cover for opening and closing the second inspection port. delete According to claim 1,
Precipitation type water filtration device further comprising an overflow pipe connected to the upper portion of the discharge compartment higher than the upper end of the second partition plate. According to claim 1,
The sedimentation tank is a sedimentation type water filtration device including an upper cover for opening and closing the upper part. sedimentation tank;
a first partition plate extending downward from the upper surface of the settling tank to partition the inside of the settling tank and having a lower end spaced apart from the bottom of the settling tank;
a second diaphragm extending upward from the bottom of the settling tank while being spaced apart from the first diaphragm to partition the inside of the settling tank and having an upper end spaced apart from the upper surface of the settling tank;
an inlet compartment formed between the first partition plate and a first sidewall of the settling tank;
an intermediate compartment formed between the first diaphragm and the second diaphragm;
a discharge compartment formed between the second partition plate and a second sidewall of the settling tank;
a water inlet pipe connected to the upper part of the inlet compartment;
a water discharge pipe connected to the discharge compartment at a position lower than the upper end of the second partition plate and guiding the water discharged from the discharge compartment to the water tank;
a first drain port formed at the bottom of the settling tank under the inlet and the intermediate compartment and opened and closed by a first drain valve;
a second drain port formed at the bottom of the discharge compartment and opened and closed by a second drain valve;
a first magnet holder installed in the first drain port and filtering by attaching a metal material included in the water flowing from the inlet compartment to the intermediate compartment; and
a second magnet holder installed in the second drain port and filtering the metal material contained in the water in the discharge compartment by attaching it;
The first and second magnet holders are
A sedimentation type water filtration device comprising a support member having a lower portion detachably coupled to the first or second drain port, protruding into the settling tank, and having a discharge passage penetrating up and down. 14. The method of claim 13,
The first and second magnet holders,
a plurality of permanent magnets mounted on the upper peripheral surface of the support member;
a locking jaw protruding from the support member under the plurality of permanent magnets in a circumferential direction and supported on the bottom of the settling tank; and
A precipitation type water filtration device including each; a plurality of auxiliary passages formed on the support member under the locking jaw and penetrated radially outwardly from the discharge passage. 14. The method of claim 13,
The first and second magnet holders,
a plurality of electromagnets mounted on the upper circumferential surface of the support member;
a locking jaw protruding from the support member under the plurality of electromagnets in a circumferential direction and supported on the bottom of the settling tank; and
A precipitation type water filtration device including each; a plurality of auxiliary passages formed on the support member under the locking jaw and penetrated radially outwardly from the discharge passage.

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