KR100916327B1 - Half-precipitating rotary disc type filtering apparatus with high washing ability - Google Patents

Abstract

A filter device for a half-precipitating rotary disc filter with detergency enhancing function is provided to extend a lifetime of a filter drastically, and to maintain filtering efficiency of the filter for a long time. A washing unit(4) includes a high pressure spraying nozzle(41). A base material plate includes a micro hollow(332). The filter of a villous shape has an acute angle. The length of the villous shape is 5-30mm. The filter of the villous shape is installed at a cleaning water supply pipe(42). The filter is formed on both sides of the supply pipe. The angle of the cleaning water injected from each high pressure spraying nozzle and the base material plate is the acute angle.

Description

Half-precipitating rotary disc type filtering apparatus with high washing ability}

The present invention relates to a semi-precipitating rotary disk filter type filtration device having a washing power enhancing function, and more particularly, to a soluble material, a colloidal material, or a suspended solid according to the properties of treated water such as sewage or purified water, sewage, waste water, and process water. The viscous filter used in the filtration device having the semi-sediment rotating disk filter manufactured to remove the material (SS) at the same time is formed by inclining the high pressure jet nozzle of the jet washer that is operated when it is blocked by various foreign substances. Damage caused by the injection pressure of the washing water applied to the villi in such a way that the spraying direction of the washing water to be sprayed inclined in correspondence to the inclined direction (ie, the direction of the formation of the villi) on the base plate of the villi filter Invented to minimize and greatly increase the cleaning efficiency.

A micro-disc filter device (namely, a filtration device), which is generally named as an element (filter) that has become a disk, is a device for filtering foreign matter contained in the wastewater by being installed in a water flow path.

In the case of such a disk-type filtration device, the direction of the flow of raw water should be different depending on the shape of the filter medium used as the filter. When the filter medium is used as a mesh fiber, raw water passing through the water channel or the tank is introduced into the rotating drum. The discharged water is discharged through various drains formed on the wall of the drum, and the raw water discharged through the drains passes through the mesh fiber filter of the element installed to be supported by the segments on both sides of each drain, and the foreign matter contained in the raw water is meshed. Only the treated water filtered and purified on the inner side of the fiber filter is discharged through the mesh fiber filter.

Here, since the filter medium is a mesh fiber, foreign matters are filtered on the inner surface thereof, so that the washing is easily performed by simply spraying the washing water at a high pressure from the outside of the mesh fiber filter to the inside during washing. I will say no.

In the filtration method of such a disk unit, the coagulation filtration method in which the foreign matter in the raw water is aggregated by the drug (coagulant) to filter the filter is effective because it closes the fine pores of the mesh fiber filter as the drug (coagulant) is added. There is a problem that is extremely degraded.

On the other hand, when the media unit is used as a villi-type filter in the disk unit, unlike a fiber filter having a mesh shape, the villi-type filter has acute angles (ie, larger than 0 degrees) by twisting a thread having a predetermined length on one surface of the base plate. Filter module is installed so as to be supported by the segment of several disk units which are installed at a predetermined interval on the outer circumferential surface of the rotating drum, so that the raw water introduced into the tank for smooth filtering because it is formed by weaving inclined at an angle of less than 90 degrees) Only the treated water filtered through the villi filter and the purified water filtered by the villi filter passes through the villi filter and then flows into the rotating drum through several drain holes drilled in the rotating drum. It is configured to be discharged.

At this time, the villi-type filter is provided with villi made by twisting several strands of thread as described above, so that the filtration efficiency of various foreign substances contained in raw water is good, and there is no damage such as tearing, unless the villi is bald, and thus the life is long. It has a long and cheap manufacturing cost.

When the raw water passes through the villi-type filter having such a configuration, most foreign substances including relatively large foreign substances in the raw water adhere to the surface of the villi and the micro voids of the base plate among the foreign substances that have passed through the villi. Larger foreign matter is again caught between the micropores of the fabric.

Therefore, when the filter unit filter medium is used as the villi filter in the disk unit, the pollution concentration of the raw water is increased to increase the amount of various foreign matters attached to the micropores of the base plate including the outer circumference of the filter. A villi filter installed in a disk unit that does not settle in water among the disk units having a semi-sedimentary state in order to intermittently wash when the rotating drum and the disk unit are rotated whenever the water level of the raw water tank exceeds a certain level. High pressure wash water should be sprayed from the outside of the villi to the villi.

However, in the conventional semi-sedimentation rotating disk filter type filtration apparatus, as shown in FIGS. 1 and 3, several high-pressure jet nozzles are disposed between the disk units that do not settle in the raw water of the disk unit 3 and protrude to a part of the upper surface of the rotating drum 2. When installing the jet washing machine 4 having a 41, the villi-type filter having the villi 333 in which the washing water spray angle of the high-pressure jet nozzle 41 is inclined at an acute angle θ1 on one surface of the base plate 331 ( 33) is installed at right angles.

That is, the conventional high pressure jet nozzle 41 is configured to protrude in a direction perpendicular to the other end of the body portion 40, one end of which is fixed to the washing water supply pipe 42.

However, when irradiated with washing water sprayed from the high-pressure jet nozzle 41 of the spray washing machine 4 in a direction perpendicular to the villi filter 33, the villi 333 are formed by the injection pressure of the washing water in the base plate 331. In one aspect, the villi 333 does not maintain its acute angle (that is, an angle greater than 0 degrees and less than 90 degrees), and a portion is bent or folded in all directions by hydraulic pressure, and eventually the hydraulic pressure is concentrated. This results in a dig.

Therefore, the relatively thick foreign matter buried on the surface of the villi 333 does not flow along with the wash water along the villi filter 33, but is bent or folded in all directions by hydraulic pressure to partially expose the fine pores of the exposed base plate 331. As a result of the forced passage and part of the micro voids, the substrate plate 331 itself causes secondary contamination during the cleaning of the filter. As a result, even if the cleaning is performed intermittently, the time elapses. There is also a problem that the filtration efficiency of the villi filter 33 gradually decreases.

In addition, when a part of the villi 333 is dug up by the hydraulic pressure as described above, the hair root portion of the villi 333 woven on the base plate 331 is impacted by the washing water sprayed at high pressure from the base plate 331. Some of the villi are detached and there is a problem such as shortening the life of the villi-type filter itself.

The present invention has been made to solve such a conventional problem, it is operated when the villi filter used in the filtration device having a semi-sediment rotating disk filter is blocked by various foreign matters and the water level of the raw water is above a certain height. The high pressure jet nozzle of the jet washer is formed to be inclined at a predetermined angle so that the injection direction of the washing water sprayed from the high pressure jet nozzle is inclined to correspond to the direction in which the villi woven to the villi filter are inclined (ie, the direction in which the villi are laid down). The spraying of the washing water applied to the villi can minimize the damage of the villi or the hair loss from the base plate, which can greatly extend the life of the villi filter itself and also wash the base plate itself. Can prevent secondary pollution from occurring in advance and improve filtration efficiency of villi filter To provide anti-settling rotary disk filter type filtration device having a detergency enhancing ability to sustainability as it is an object.

In order to achieve the above object, the present invention is a device in which a plurality of segments and a filter frame, a villi-shaped filter, and a support bracket are arranged at right angles on an outer circumferential surface of a rotating drum installed to traverse the interior of a raw water tank. And a pair of high pressure spray nozzles are installed at predetermined intervals from the washing water supply pipe between the disk units which do not settle in the raw water of the disk unit and protrude to a part of the upper surface of the rotating drum so that the villi filter can be washed. In the semi-sedimentation rotating disk filter type filter device having a jet washing machine, the high pressure jetting nozzle of the jet washer is formed to be inclined at a predetermined angle with respect to the body part, so that the jetting direction of the washing water sprayed from the high pressure jetting nozzle is Woven sloping at an angle on one side of the trial In response to the inclination direction of the villous type filter it characterized in that a jet inclined to the villi.

At this time, the inclination angle of the villi of the villi-type filter is an acute angle, the length is characterized in that 5-30mm.

In addition, the several villus filters installed to face each other in adjacent disk units are installed so that the inclination directions of the villi are symmetric with respect to the washing water supply pipe.

In addition, the angle formed between the injection angle of the washing water irradiated from each of the high-pressure injection nozzle and the base plate of the villi-type filter is characterized by having an acute angle.

In addition, one of the pair of high pressure injection nozzles installed in the same position of the washing water supply pipe so that the injection direction is symmetrical causes the high pressure injection nozzle to inject the washing water to the villi filter on the other side, and the high pressure injection nozzle on the other side is melted on one side. Characterized in that the injection to the model filter.

At this time, the inclination angle of the high pressure injection nozzle of one side of the high pressure injection nozzle is molded to have an angle of 50-70 degrees with the body portion, and the high pressure injection nozzle of the other side is formed to have an angle of 110-130 degrees.

As described above, according to the apparatus of the present invention, the high-pressure injection nozzle of the spray washing machine operated when the villi-type filter used in the filtration device having the semi-sediment rotating disk filter is blocked by various foreign substances in response to the increase in the pollution concentration of raw water. The slant is formed to be inclined at a predetermined angle corresponding to the direction in which the villi are inclined so that the spraying direction of the washing water sprayed from the high-pressure jetting nozzle is inclined in correspondence to the direction in which the villi woven on the base plate of the villi filter are laid down. Therefore, the micropores formed in the base plate of the villi filter are maintained by the villi that are inclined at a predetermined angle while the washing water is injected at a high pressure. Minimize damage or hair loss from the substrate This can not only significantly extend the life of the villi filter itself, but also increase the cleaning efficiency of the villi filter, and also prevent the secondary contamination from the base plate itself during cleaning. It is a very useful invention that can maintain the filtration efficiency of the model filter for a long time.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 shows a front view of the filtration device according to the present invention, Figure 4 shows a side view of the filtration device according to the present invention, Figure 5 is a rotating drum and a disk unit of the filtering device according to the present invention and 6 shows an exploded perspective view of the washing machine, and FIG. 6 shows an exploded perspective view of the spray washing machine of the filtration apparatus according to the present invention.

In addition, Figure 7 shows a perspective view of the combined state of the jet washing machine of the present invention filter device, Figure 8 shows an enlarged perspective view of a portion of the disc unit of the filter device according to the present invention, Figure 9 is the present invention Partial cut-out enlarged cross-sectional view of the disk unit and the jet washer of the filtration apparatus carried out is shown, Figure 10 shows a partially enlarged plan view of the disc unit and jet washer for explaining the washing water jet angle according to the present invention.

According to the present invention, the apparatus includes several segments 31, a filter frame 32, a villous filter 33 and a plurality of segments 31 in a direction perpendicular to the outer circumferential surface of the rotating drum 2 installed to cross the inside of the raw water tank 1; Several disk units (3) made of support brackets (34) are provided at predetermined intervals, and some of the disk units (3) do not settle in the raw water and are located between the disk units protruding from the upper surface of the rotating drum (2). Semi-sedimentary rotating disc filter in which the washing water supply pipe 42 is provided with a pair of high-pressure spray nozzles 41 at a predetermined interval so that the spray washing machine 4 for washing the villi filter 33 is installed. In the type filtration apparatus,

The high pressure jet nozzle 41 of the jet washer 4 is formed to be inclined at a predetermined angle (θ 2, θ 3) with respect to the body portion 40, so that the spray direction of the washing water sprayed from the high pressure jet nozzle 41 is controlled. It characterized in that it is sprayed to the villi 333 inclined corresponding to the inclination direction of the villi 333 of the villi-shaped filter 33 woven inclined at a predetermined angle (θ1) on one surface of the (331).

At this time, the inclination angle θ1 of the villi 333 of the villi-type filter 33 is an acute angle, and the length thereof is 5-30 mm.

In addition, several of the villi-type filters 33 installed to face each other in the adjacent disk unit 3 are installed so that the inclined directions of the villi 333 are symmetric with respect to the washing water supply pipe 42. It features.

In addition, the angle θ4 formed between the injection angle of the washing water irradiated from each of the high-pressure injection nozzles 41 and the base plate 331 of the villi filter 33 is characterized by having an acute angle.

In addition, one of the high pressure injection nozzles 41 of each pair of high pressure injection nozzles 41 installed to be symmetrical in the spray direction at the same position of the washing water supply pipe 42 injects the washing water to the villi filter 33 of the other side. It is characterized in that the other high-pressure injection nozzle 41 is injected to the villi filter 33 of one side.

At this time, the inclination angle θ2 of one of the high pressure injection nozzles 41 of the high pressure injection nozzles 41 is formed to have 50-70 degrees with the body portion 40, and the high pressure injection nozzle 41 of the other side is inclined angle θ. 3) is characterized in that the molded to have a 110-130 degrees.

Referring to the effect of the semi-precipitating rotating disk filter type filter device having a washing power enhancing function configured as described above are as follows.

First, in the filtration device having a semi-sedimentary rotating disk filter to which the present invention is applied, a rotating drum 2 is basically installed to cross the inside of the raw water tank 1, and is perpendicular to the outer circumferential surface of the rotating drum 2. Some disk units (3) consisting of several segments (31), filter frames (32), chorionic filters (33), and support brackets (34) are provided at regular intervals, and the disk units (3) It is installed in the vertical direction between the disk unit protruding to a part of the upper surface of the rotating drum (2) without being precipitated in the raw water, the spray of the configuration in which a pair of high-pressure spray nozzles 41 are provided at predetermined intervals in the washing water supply pipe 42 It has a form provided with the washing machine (4).

At this time, several unit segments 31 constituting the disc unit 3 are formed as one ring segment through the form of continuous coupling on the outer circumferential surface of the rotating drum 2, and detachable on both sides of each unit segment. The filter module (not shown) which can be provided has the structure which provided the villi-type filter 33 in the one surface of one filter frame 32, respectively.

According to the present invention, the angle of the high-pressure jet nozzle 41 of the jet washer 4 in the filter device having the semi-sedimentary rotating disk filter having such a configuration is determined without being formed at right angles with respect to the body portion 40. of the villi filter 33 which is formed to be inclined at θ2 and θ3 so as to be inclined at a predetermined angle θ1 in a predetermined direction from one surface of the base plate 331 by the spraying direction of the washing water sprayed from the high pressure injection nozzle 41. The main technology component is to be sprayed to the villi 333 in an inclined manner corresponding to the inclination direction of the villi 333.

At this time, the villi-shaped filter 33 has an acute angle of inclination angle with respect to a certain direction of a number of villi 333 having a length of 5-30mm on one surface of the base plate 331 with a few micro fine pores 332 ([theta] 1; i.e., an angle greater than 0 degrees and less than 90 degrees) and have a configuration that is woven. Such a chorionic filter 33 is formed of a filter frame 32 that is formed into a substantially fan shape through injection or press pressure. Fixing is installed on one surface through a fixture and then detachably installed on both sides of several segments 31 installed in a ring shape on the outer circumferential surface of the rotating drum 2.

In addition, when each of the filter modules are installed in the segments 31 of the disk unit 3, the villi-type filters 33 are installed to face each other in the adjacent disk unit 3, but the washing water supply pipe 42 is centered. The washing water sprayed from the pair of high-pressure jet nozzles 41 installed on both sides of the washing water supply pipe 42 by installing the slant 333 so as to be symmetrical with each other in the inclined direction of the villi 333 is provided in the disk unit 3 adjacent to each other. The villi 333 may be inclined in a direction corresponding to the inclination direction of the villi 333 of the villi-type filters 33 of the filter modules installed to face each other.

Of course, a number of villi 333 having a length of 5-30 mm have an acute angle of inclination θ1 with respect to a predetermined direction so as to be woven on one surface of the base plate 331 equipped with several micro pores 332. When the micro voids 332 provided in the base plate 331 are covered with overlapping portions of the adjacent villi 333 woven with an acute angle of inclination θ1 in one direction.

Therefore, when raw water passes through the villi filter 33, relatively thick foreign substances are first filtered through the surface of the villi 333 and therebetween, and relatively fine foreign substances including raw water having passed through the villi 333 are filtered. Among the foreign matter larger than the size of the fine pores 332 formed in the base plate 331 is caught by the secondary by the fine pores 332 of the base plate 331 is filtered, the villi 333 over the second After passing through the fine pores 332 of the base plate 331 and only the clean purified water filtered through the fine pores 332 of the base plate 331 flows into the interior of the disk unit 3, the drain hole 21 is opened. It is introduced into the rotating drum (2) through.

On the other hand, the high pressure jet nozzle 41 of the jet washer (4) is not settled in the raw water of the disc unit 3, as described above, the washing water installed in the vertical direction between the disc unit protruding to a part of the upper surface of the rotating drum (2) A plurality of pairs are installed at a predetermined interval from the supply pipe 42, and one of the pair of high pressure injection nozzles 41 of each pair of high pressure injection nozzles 41 installed to be symmetrical in the spray direction at the same position of the washing water supply pipe 42. ) Sprays the washing water onto the villi filter 33 on the other side, and the high-pressure jet nozzle 41 on the other side is sprayed on the villi filter 33 on the one side.

At this time, the inclination angle θ2 of one of the high-pressure jet nozzle 41 of the high-pressure jet nozzle 41 installed so that the spray direction is symmetrical at the same position of the washing water supply pipe 42 is the wash water to the villi filter 33 of the other side Molded to have a body portion 40 and 50-70 degrees so as to spray the inclination angle (θ3) of the high-pressure injection nozzle 41 on the other side of the body so as to spray the washing water to the villi filter 33 on one side Molded to have a portion 40 and 110-130 degrees.

In this way, the disk unit 3 includes filter modules having a form in which a villi-type filter 33 having an acute angle of weaving inclination angle θ1 of the villi 333 with respect to the base plate 331 is provided in the filter frame 32. When installed in the segments 31 of each unit of the villi-type filters 33 are installed facing each other in the adjacent disk unit 3, the inclination direction of the villi 333 around the wash water supply pipe 42 is Install them symmetrically.

In addition, when installing a pair of high-pressure injection nozzle 41 in the same position of the washing water supply pipe 42, the high pressure injection nozzle 41 of one side to spray the washing water to the villi filter 33 of the other side The inclination angle θ2 of the spray nozzle 41 is shaped to have any angle between the body portion 40 and 50-70 degrees, and the high pressure spray nozzle 41 on the other side is sprayed onto the villi filter 33 on one side. When the inclination angle θ3 of the other high pressure injection nozzle 41 is formed to have an angle between 110 and 130 degrees, the injection angle of the washing water irradiated from each of the high pressure injection nozzles 41 and the villi filter 33 The angle θ4 formed between the base plate 331 has an example.

Accordingly, the substrate plate has a slope angle θ1 of the acute angle having the inclination angles of 50-70 degrees and 110-130 degrees, respectively, and the high pressure jet nozzles 41 for injecting the washing water toward the villi filter 33 in opposite directions, respectively. Since the 330 is always inclined in the same direction as the inclined direction of the villus filter 33 of the villi of the villi, the villi 333 is not bent in all directions by the water pressure of the washing water and continuously falls obliquely in one direction. The micro voids 332 formed in the base plate 331 of the villi-type filter 33 are blocked by the villi 333 which are kept inclined at a predetermined angle even while the washing water is injected at a high pressure. Will be maintained.

In other words, the washing water spray angles of the high pressure spray nozzles 41 having the inclination angles of 50-70 degrees and 110-130 degrees, respectively, and spraying the washing water toward the villi filter 33 in opposite directions are the same as those of the chorionic filter 33. Acute angle with the trial 331, so that the injection pressure of the wash water to have an acute angle (θ1) in the base plate 331 in the exposed surface of the villi 333 of the villi filter 33 woven on the base plate 331 It acts in the same inclined direction (that is, at an angle of at least less than 90 degrees obliquely), so that the villi 333 of the villi filter 33 are caused by the pressure of the washing water sprayed from each of the high-pressure jet nozzles 41. It forms a form that is pressed in the direction of the base plate 331, the various foreign substances caught on the villi 333 is detached from the villi smoothly.

In addition, since the villi 333 itself of the villi filter 33 maintains its inclination angle as it is by the injection pressure of the washing water, the base plate 331 generated due to the villi being bent or folded in all directions by the hydraulic pressure. Exposure of the micro voids of the 332 can be completely prevented, so that the relatively thick foreign matter buried on the surface of the villi 333 does not flow along with the wash water along the villi filter 33, but is bent or bent in all directions by water pressure. As a result of forcibly passing through the micropores of the exposed base plate 331 and part of the base plate 331 is caught in the fine pores, the base plate 331 itself can be prevented from secondary contamination during the cleaning of the filter. Therefore, even if the cleaning is performed intermittently, the problem that the filtration efficiency of the villi filter 33 gradually decreases as time passes.

At this time, when the angle formed between the injection angle of the washing water irradiated from the high-pressure injection nozzle 41 and the villi filter 33 forms an angle of 90 degrees or more, the villi 333 may be dug as conventionally. If the angle is too small, even at an acute angle of less than 90 degrees, the washing water may have an inclination angle that is too large and the form may be obliquely irradiated to the villi, so that foreign substances caught between the villi may not be effectively washed. When setting the angle of the high-pressure jet nozzle 41, in view of the inclination angle of the villi 333 of the villi-type filter 33 to be used as a medium, it should be set in harmony with each other.

As described above, the inclination angle θ2 of the high pressure jet nozzle 41 on one side of the high pressure jet nozzles 41 installed to be symmetrical in the jet water supply pipe 42 is 50-70 degrees with the body portion 40. Molded to have any one of the angles to spray the washing water to the villi filter 33 of the other side, the inclination angle (θ3) of the high-pressure injection nozzle 41 on the other side of the body portion 40 and the angle of 110-130 degrees It is formed to have an angle to spray washing water to the villi-type filter 33 on one side, so that the injection pressure of the washing water applied to the villi is obliquely applied at an angle of at least 90 degrees to the villi, so that the villi are injected pressure of the washing water. By minimizing damage or hair loss from the mother board, the life of the villi filter itself can be greatly extended, and the washing efficiency of the villi filter can be increased. Cheoksi to prevent secondary pollution generated in the parent trial itself in advance it is capable of maintaining long-term sustained by the filtration efficiency of the filter convergence model.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

Figure 1 is an enlarged view of the main portion of the villi filter and the spray washer used in the conventional semi-settling rotary disk filter type filtration device.

Figure 2 is an enlarged view of the main portion of the villi filter and the spray washer showing the phenomenon that occurs when washing the villi filter in the conventional filtration device.

Figure 3 is a front view of the filtration device in which the present invention is carried out.

Figure 4 is a side view of the filtration device according to the present invention.

Figure 5 is an exploded perspective view of the rotating drum and the disk unit and the washing machine of the present invention filter.

Figure 6 is an exploded perspective view of the spray washing machine of the filtration device according to the present invention.

Figure 7 is a perspective view of the combined state of the spray washer in the filtration apparatus according to the present invention.

Figure 8 is an enlarged perspective view of a part of the disk unit of the filtration device of the present invention.

9 is an enlarged cross-sectional view of a portion of the disk unit and the jet washer of the filtration device according to the present invention.

10 is an enlarged plan view of a portion of a disk unit and a jet washer for explaining a jet water spray angle according to the present invention.

Explanation of symbols on the main parts of the drawings

1: raw water tank 2: rotating drum

3: disk unit 4: jet washer

21: drain 31: segment

32: filter frame 33: chorionic filter

34: support bracket 40: body

41: high pressure jet nozzle 42: washing water supply pipe

331: substrate 332: fine pores

333: villi

Claims (6)

On the outer circumferential surface of the rotating drum installed to traverse the inside of the raw water tank, several disk units consisting of several segments, a filter frame, a villous filter and a support bracket are installed, and the rotating drum does not settle in the raw water among the disk units. In the semi-precipitating rotating disk filter type filtration apparatus of the configuration in which a jet washing machine is installed between the disk unit protruding to the upper surface and a pair of high pressure spray nozzles are installed in the washing water supply pipe to wash the villi filter. The high pressure jet nozzle of the jet washer is formed to be inclined at a predetermined angle with respect to the body part, so that the spraying direction of the washing water sprayed from the high pressure jet nozzle is inclined at a predetermined angle from one surface of the base plate to the villi gradient direction of the villi filter. Correspondingly to be inclined to spray on the villi, One of the pair of high pressure spray nozzles installed in the same position of the washing water supply pipe so that the high pressure spray nozzles of one side sprays the washing water to the other villi filter, and the other high pressure spray nozzle of the one side of the villi filter Semi-precipitating rotary disk filter type filtration device having a washing power enhancing function, characterized in that to spray on. The method according to claim 1, The inclination angle of the villi of the villi-type filter is an acute angle, the length of the semi-sedimentary rotating disk filter type filtration device having a washing power enhancement function, characterized in that 5-30mm. The method according to claim 1, The chorionic filters installed to face each other in adjacent disk units are installed in such a way that the inclined directions of the villi are symmetrical with respect to the wash water supply pipe. The method according to claim 1, Semi-precipitating rotary disk filter type filtration device having a washing force enhancing function, characterized in that the angle formed between the injection angle of the washing water irradiated from each high-pressure jet nozzle and the base plate of the villi filter has an acute angle. delete The method according to claim 1, The inclination angle of the high pressure injection nozzle of one side of the high pressure injection nozzles is formed to have any one of an angle range of the body portion and 50-70 degrees, and the other high pressure injection nozzle has an angle of inclination angle of 110-130 degrees. Semi-sedimentation rotating disk filter type filtration device having a washing power enhancing function, characterized in that molded.

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