WO2010134175A1

WO2010134175A1 - Contaminated water treatment device

Info

Publication number: WO2010134175A1
Application number: PCT/JP2009/059284
Authority: WO
Inventors: 弘小川
Original assignee: 株式会社アースクリーン
Priority date: 2009-05-20
Filing date: 2009-05-20
Publication date: 2010-11-25

Abstract

The issue is to provide a contaminated water treatment device that can efficiently separate oil from the contaminated water and allow the water to flow downstream, even when a large volume of contaminated water flows into the reservoir at one time. The contaminated water treatment device (1) is provided with a container (2) that comprises an inlet (3) where contaminated water is introduced from outside, a reservoir (23) inside of which is stored the contaminated water introduced from the inlet (3), and an outlet (4) that discharges the contaminated water stored in the reservoir (23). Oil is separated from the contaminated water in the reservoir (23), the oil is stored in the reservoir (23), and the contaminated water that has been treated is discharged from the outlet (4). An oil-water separating filter (19) formed from a porous polyvinyl acetal material that has continuous micropores is provided at least on the downstream side of the reservoir (23).

Description

Sewage treatment equipment

The present invention relates to a sewage treatment apparatus for separating and treating oil contained in sewage.

Conventionally, there is a grease trap (sewage treatment apparatus) that separates and treats oil contained in sewage before flowing sewage discharged from a kitchen of a food store or the like into a sewer pipe (see, for example, Patent Documents 1 and 2). .

Japanese Patent Laying-Open No. 2005-169316 (page 6, FIG. 1) Japanese Unexamined Patent Publication No. 2006-169726 (page 4, FIG. 1)

However, in the grease wrap (sewage treatment device) described in Patent Documents 1 and 2, the sewage is temporarily stored in the grease wrap (reservoir), and the oil in the stored sewage is floated. If the sewage is not stopped, the oil cannot be separated efficiently. Therefore, when the flow rate of sewage flowing through the grease trap increases, such as when a large amount of sewage flows at once, the problem is that the oil in the sewage cannot be sufficiently separated and untreated sewage flows into the sewer pipe. is there.

The present invention has been made paying attention to such problems, and even if a large amount of sewage flows into the storage part at once, a sewage treatment apparatus that can efficiently separate oil from sewage and flow it downstream. The purpose is to provide.

In order to solve the above problems, the sewage treatment apparatus of the present invention comprises:
A container body having an introduction part for introducing sewage from the outside, a storage part for storing the sewage introduced from the introduction part, and a discharge part for discharging the sewage stored in the storage part is provided, A sewage treatment apparatus that separates oil from sewage in the storage unit, stores the oil in the storage unit, and discharges treated sewage from the discharge unit,
An oil-water separation filter formed of a polyvinyl acetal porous material having fine continuous pores is provided at least on the downstream side of the reservoir.
According to this feature, when water is impregnated in the fine continuous pores of the polyvinyl acetal porous body, the water easily passes through, and the oil is prevented from passing by being repelled by the surface tension of the water in the pores, By using an oil / water separation filter using this property, even if a large amount of sewage flows into the storage part at once, the oil can be efficiently separated from the sewage and flowed downstream of the storage part.

The sewage treatment apparatus of the present invention is
The partition plate is disposed so as to partition the inside of the container body into an upstream side and a downstream side, and the partition plate is formed with a passage portion through which the sewage passes, and the passage portion is connected to the oil water. It is characterized by being blocked by a separation filter.
According to this feature, oil can be separated from the sewage on the upstream side of the partition plate by the oil / water separation filter, and only the treated sewage can be passed to the downstream side of the partition plate.

The sewage treatment apparatus of the present invention is
The oil / water separation filter is submerged in sewage water inside the container body, and is provided with an air diffuser that diffuses bubbles toward the oil / water separation filter.
According to this feature, the flow of sewage is generated on the surface of the oil / water separation filter by the air bubbles being diffused, and along with this flow, the oil etc. adhering to the surface of the oil / water separation filter can be washed away. The clogging of the separation filter can be prevented.

The sewage treatment apparatus of the present invention is
The air diffuser is disposed on the upstream side of the oil / water separation filter, and is inclined so that the oil / water separation filter falls toward the upstream side.
According to this feature, air bubbles diffused by the air diffuser and the flow of sewage along the flow of the bubbles easily hit the surface of the inclined oil / water separation filter, and the oil adhering to the surface of the oil / water separation filter is allowed to flow. I can leave.

The sewage treatment apparatus of the present invention is
The discharge part is blocked by the oil / water separation filter.
According to this feature, oil or the like can be separated from the sewage inside the container body by the oil / water separation filter, and only the sewage treated from the discharge part can be discharged to the outside of the container body.

The sewage treatment apparatus of the present invention is
Repeated water immersion means for repeatedly immersing the oil / water separation filter in sewage is provided.
According to this feature, the oil / water separation filter is repeatedly immersed in the sewage to prevent drying thereof, and a relative flow is generated between the surface of the oil / water separation filter and the sewage, and along with this flow, the oil / water separation filter The oil attached to the surface of the oil can be washed away, and the oil-water separation filter can be prevented from being clogged by the oil.

The sewage treatment apparatus of the present invention is
The container body has a substantially cylindrical shape with an inclined central axis, the container body is rotatably installed around the central axis, and the repetitive water immersion means rotationally drives the container body to rotate. It is characterized by being a means.
According to this feature, the sewage is unevenly distributed below the inclined inner surface of the container body, and the container body rotates around the central axis in this state so that the relative movement between the container body and the sewage is repeated. Thus, by using this phenomenon, it is possible to configure a repeated water immersion means for repeatedly immersing the oil / water separation filter in the sewage.

The sewage treatment apparatus of the present invention is
Backwashing means for supplying wash water from the downstream side to the oil / water separation filter that closes the discharge portion is provided.
According to this feature, the washing water supplied by the backwashing means flows from the downstream side to the upstream side of the oil / water separation filter that closes the discharge part, and the oil component adhered to the upstream side of the oil / water separation filter that closes the discharge part, etc. The oil-water separation filter can be prevented from clogging due to oil or the like.

The sewage treatment apparatus of the present invention is
The polyvinyl acetal porous material has a pore size of 5 to 800 μm.
According to this feature, the polyvinyl acetal porous material having a pore diameter of 5 to 800 μm has a pore diameter that most easily retains moisture, and an oil-water separation filter that can efficiently separate oil from sewage can be formed.

The sewage treatment apparatus of the present invention is
The polyvinyl acetal porous material has a porosity of 80 to 95%.
According to this feature, the polyvinyl acetal porous body having a porosity of 80 to 95% is most easily retained in water, and an oil / water separation filter capable of efficiently separating oil from sewage can be formed.

It is a vertical side view which shows the grease strap in Example 1. FIG. It is a top view which shows a grease strap. FIG. 2 is a cross-sectional view of the grease strap in FIG. It is a vertical side view which shows the grease strap in Example 2. FIG. It is a top view which shows a grease strap. FIG. 5 is a BB cross-sectional view showing the grease strap in FIG. 4. It is a vertical side view which shows the sewage treatment apparatus in Example 3. FIG. It is a rear view which shows a sewage treatment apparatus. It is an enlarged side view which shows the discharge part of a sewage treatment apparatus.

DETAILED DESCRIPTION Embodiments for implementing a sewage treatment apparatus according to the present invention will be described below based on examples.

The sewage treatment apparatus according to Example 1 will be described with reference to FIGS. Hereinafter, the left side of FIG. 1 and FIG. 2 will be described as the front side (front side) of the grease strap. Reference numeral 1 in FIG. 1 is a grease trap as a sewage treatment apparatus in the first embodiment. The grease strap 1 is mainly installed in a food store or the like, and separates oil contained in the sewage before flowing the sewage discharged from a kitchen of the food store or the like into a sewer pipe.

As shown in FIG. 1, the grease strap 1 has a storage tank 2 as a container body in the present embodiment for temporarily storing sewage, and the storage tank 2 is embedded in the floor surface or the ground. Yes. The storage tank 2 is connected to an introduction pipe 3 as an introduction part in this embodiment for introducing sewage discharged from a kitchen of a food store or the like, and discharges the treated sewage to a sewer pipe (not shown). In this embodiment, a discharge pipe 4 is connected as a discharge unit.

The discharge pipe 4 is connected to the storage tank 2 via the trap pipe 5, and the opening of the trap pipe 5 is submerged in the sewage stored in the storage tank 2. Therefore, bad odors and the like flowing from the sewer pipe are prevented from entering the storage tank 2.

The introduction pipe 3 is inserted on the surface of the storage tank 2 opposite to the surface to which the discharge pipe 4 is connected. A basket 6 for receiving a large solid content (garbage) contained in the introduced sewage is provided below the opening of the introduction pipe 3. The basket 6 is detachably locked to locking pieces 7 provided on the left and right inner surfaces of the storage tank 2.

The fixing

plates

8 and 9 provided so as to partition the flow of sewage are fixed to the bottom surface of the storage tank 2. The fixing

plates

8 and 9 are provided at two positions on the front and rear sides, and are arranged upstream of the

respective fixing plates

8 and 9 so as to partition the inside of the storage tank 2 into an upstream side and a downstream side.

Partition plates

10 and 11 are provided.

These two

partition plates

10 and 11 are held by holding

strips

12 and 13 extending in the vertical direction, and each

partition plate

10 and 11 is erected in the vertical direction by the holding strips 12 and 13. Yes. During maintenance of the grease strap 1, the

partition plates

10 and 11 can be detached from the holding strips 12 and 13 by sliding the

partition plates

10 and 11 upward.

Note that the lower ends of the

partition plates

10 and 11 are separated from the bottom surface of the storage tank 2. Further, the upstream partition plate 10 is disposed in the state of being close to the upstream fixing plate 8, and the downstream partition plate 11 is disposed in the state of being in proximity to the downstream fixed plate 9. Yes.

As shown in FIG. 2, a diffuser pipe 14 as a diffuser means in the present embodiment having a substantially cylindrical shape is provided at the lower end portion of the downstream partition plate 11. The air diffuser 14 is attached to the partition plate 11 via an attachment fitting 15.

In addition, the air diffuser 14 is disposed on the upstream side of the downstream partition plate 11, and the air diffuser 14 extends in the longitudinal direction along the partition plate 11 from side to side. Furthermore, since the lower half of the partition plate 11 is submerged in the sewage, the air diffuser 14 is submerged in the sewage.

Air is supplied to the diffuser tube 14 from a blower motor (not shown) installed outside via the hose 16, and fine bubbles are generated from the outer peripheral surface of the diffuser tube 14. Yes. The sewage stored in the storage tank 2 is aerated using the air diffuser pipe 14 to activate microorganisms in the sewage to purify the sewage.

Note that the upper side of the storage tank 2 is opened, and the opening of the storage tank 2 is closed by a lid member 17. The inside of the storage tank 2 can be cleaned and maintained by opening the lid member 17 and removing the

partition plates

10 and 11 from the holding strips 12 and 13.

As shown in FIG. 3, the downstream partition plate 11 is formed with a passage portion 18 through which the central portion is cut out in a quadrangular shape and allows sewage to pass therethrough. And the oil-water separation filter 19 is provided so that the passage part 18 may be obstruct | occluded.

When the oil / water separation filter 19 is provided on the partition plate 11, first, the oil / water separation filter 19 is stretched on the frame member 20 attached to the partition plate 11, and the frame member 20 is attached using the screwing member 21. It is attached to the partition plate 11. In this way, the oil / water separation filter 19 is provided on the partition plate 11.

The frame member 20 in the present embodiment has a substantially rectangular shape when viewed from the front, and is a flat plate member when viewed from the side. A central portion of the frame member 20 is cut out in a square shape, and an oil / water separation filter 19 is stretched in the cut-out portion.

The oil / water separation filter 19 of this example is formed of a polyvinyl acetal porous material (PVA filter) having fine continuous pores. The polyvinyl acetal porous material used in the oil / water separation filter 19 is obtained by crosslinking reaction (acetalization reaction) of a reaction solution having polyvinyl alcohol (PVA), a pore-forming agent, a crosslinking agent, a crosslinking catalyst, and a polyurethane resin. Thereafter, the pore-forming material is removed to produce a porous body having fine continuous pores.

The average pore diameter of the polyvinyl acetal porous material in this example is in the range of 5 to 800 μm, and the porosity is in the range of 80 to 95%. In addition, the trapping efficiency when the polyvinyl acetal porous material in this example filters sewage is 10 to 70%, and the trapping accuracy is 30 to 200 μm.

Furthermore, when the fine continuous pores of the polyvinyl acetal porous body are impregnated with moisture, the moisture easily passes through the porous body, and the oil is repelled by the surface tension of the moisture in the pores, thereby It will not pass. By utilizing this phenomenon, in this embodiment, the polyvinyl acetal porous material is used as a filter for separating oil and moisture.

As shown in FIGS. 1 and 3, the oil-water separation filter 19 has a lower half portion submerged in the sewage, and the oil-water separation filter 19 has a half continuous pore in the lower half portion. Is impregnated with moisture. The water impregnated in the fine continuous pores penetrates to the upper end portion of the oil / water separation filter 19 by capillary action. Therefore, even if all parts of the oil / water separation filter 19 are not submerged in the sewage, by impregnating a part of the oil / water separation filter 19, the entire oil / water separation filter 19 is impregnated. It can be used as a filter for separating oil and moisture.

As shown in FIG. 1, the storage tank 2 is divided into three storage regions, an upstream region 22, a central region 23, and a downstream region 24, by two front and

rear partition plates

10 and 11. The sewage introduced from the introduction pipe 3 first passes through the basket 6 and flows into the upstream region 22 of the storage tank 2 with a large solid content removed.

The sewage passes through the gap between the lower end of the upstream partition plate 10 and the bottom surface of the storage tank 2 and the fixed plate 8 and flows into the central region 23 of the storage tank 2. At this time, since the oil component easily floats in the water, the oil component is levitated and separated from the sewage in the upstream region 22 of the storage tank 2, and the oil component is stored in the upstream region 22 of the storage tank 2.

However, when a large amount of sewage flows from the introduction pipe 3 or when the flow rate of sewage is high, unseparated oil flows into the central region 23 of the storage tank 2. In the central region 23 of the storage tank 2, sewage is temporarily stored. In the central region 23 of the storage tank 2, oil is efficiently levitated and separated from the sewage, and a large amount of oil is stored in the storage tank 2. Is stored in the central region 23 of the. In addition, the center area | region 23 of the storage tank 2 comprises the storage part in a present Example.

The sewage passes through the gap between the lower end of the partition plate 11 on the downstream side, the bottom surface of the storage tank 2 and the fixed plate 9 and flows into the downstream region 24 of the storage tank 2. Moreover, since the oil-water separation filter 19 is provided in the downstream partition plate 11, waste water is filtered by this oil-water separation filter 19, and the oil component and water | moisture content in waste water are isolate | separated. . The sewage that has passed through the oil / water separation filter 19 is in a state in which the oil has been removed, and the treated sewage flows into the downstream region 24 of the storage tank 2.

In addition, since there is a gap between the lower ends of the

partition plates

10 and 11 and the bottom surface of the storage tank 2, the fine solid content (SS) contained in the sewage is flowed downstream from this gap to the sewer. It is discharged to a pipe (not shown). Therefore, the fine solid content contained in the sewage is prevented from collecting in the storage tank 2.

As shown in FIG. 1, the flow of sewage is generated by the fine bubbles generated from the air diffuser 14. The flow of this sewage is represented by the upward flow rising from the diffuser pipe 14, the flow away from the oil / water separation filter 19 on the surface of the sewage, and the downward flow that sinks again toward the bottom surface of the storage tank 2 as shown in FIG. A flow of sewage in a predetermined direction that rotates counterclockwise is generated.

The removed oil or the like (including fine solids) may remain on the upstream surface of the oil / water separation filter 19, but as described above, the sewage flows in a predetermined direction inside the storage tank 2. Therefore, oil and the like adhering to the surface of the oil / water separation filter 19 can be washed away together with this flow. In this embodiment, the air diffuser 14 constitutes an oil removing means for removing oil attached to the surface of the oil / water separation filter 19.

As described above, in this embodiment, the oil-water separation filter 19 formed of a polyvinyl acetal porous body having fine continuous pores is provided at least on the downstream side of the storage tank 2, so that the fine continuous polyvinyl acetal porous body is provided. When the pores are impregnated with moisture, the moisture easily passes through, and the oil is prevented from passing by being repelled by the surface tension of the moisture in the pores. By using the oil / water separation filter 19 utilizing this property, Even if a large amount of sewage flows into the storage part, oil can be efficiently separated from the sewage and flowed downstream of the storage part.

Further, the partition plate 11 is disposed so as to partition the inside of the storage tank 2 into an upstream side and a downstream side, and the partition plate 11 is formed with a passage portion 18 through which sewage passes. Is blocked by the oil / water separation filter 19, the oil component is separated from the sewage on the upstream side of the partition plate 11 by the oil / water separation filter 19, and only the treated sewage can be passed to the downstream side of the partition plate 11. .

Further, the oil / water separation filter 19 is submerged in the sewage inside the storage tank 2, and air bubbles are diffused by providing the air diffusion pipe 14 that diffuses the bubbles toward the oil / water separation filter 19. As a result, a flow of sewage is generated on the surface of the oil / water separation filter 19, and along with this flow, oil and the like adhering to the surface of the oil / water separation filter 19 can be washed away.

In addition, microorganisms enter the fine continuous pores of the oil / water separation filter 19, and the oil and the like attached to the surface of the oil / water separation filter 19 are decomposed by the microorganisms. Furthermore, fine solids (SS) attached to the surface of the oil / water separation filter 19 by microorganisms are also decomposed.

In addition, the polyvinyl acetal porous material having a pore diameter of 5 to 800 μm has the pore diameter that can most easily retain moisture, and the oil / water separation filter 19 that can efficiently separate the oil from the sewage can be formed.

In addition, the polyvinyl acetal porous body having a porosity of 80 to 95% is most easily retained in water, and the oil / water separation filter 19 capable of efficiently separating the oil from the sewage can be formed.

Next, the sewage treatment apparatus according to Example 2 will be described with reference to FIGS. It should be noted that the same components as those shown in the above-described embodiment are denoted by the same reference numerals and redundant description is omitted. Hereinafter, the left side of FIG. 4 and FIG. 5 will be described as the front side (front side) of the grease strap 1.

As shown in FIGS. 4 to 6, the configuration other than the frame member 20 'provided with the oil / water separation filter 19 is the same as that of the first embodiment. The frame member 20 ′ according to the second embodiment has a substantially quadrangular shape when viewed from the front, and has a substantially wedge shape (substantially triangular) with the upper side protruding upstream from the side view. A central portion of the frame member 20 ′ is cut out in a square shape, and an oil / water separation filter 19 is stretched at the cutout portion.

The oil / water separation filter 19 stretched on the frame member 20 'is inclined so as to fall toward the upstream side. As in the first embodiment described above, the flow of sewage is generated by the fine bubbles generated from the air diffuser pipe 14 arranged on the upstream side of the oil / water separation filter 19. It rises while being moved upstream along the slope. Therefore, the flow of sewage in a predetermined direction that rotates counterclockwise in FIG. 4 is likely to occur.

As described above, in the second embodiment, the air diffuser 14 is disposed on the upstream side of the oil / water separation filter 19 and is inclined so that the oil / water separation filter 19 is tilted toward the upstream side. The flow of sewage along the generated bubbles and the flow of bubbles becomes easy to hit the surface of the inclined oil / water separation filter 19, and the oil adhering to the surface of the oil / water separation filter 19 can be washed away. Therefore, the filtration performance of the oil / water separation filter 19 can always be maintained.

Next, the sewage treatment apparatus according to Example 3 will be described with reference to FIGS. Hereinafter, the left side of FIG. 7 and FIG. 9 will be described as the front side (front side) of the grease strap. The code | symbol 30 of FIG. 7 is a sewage treatment apparatus which purifies the sewage discharged | emitted from kitchens, such as a food store, with microorganisms.

As shown in FIG. 7, the sewage treatment apparatus 30 includes a container body 31 (rotary kiln) having a cylindrical shape, and the container body 31 is inclined so that the central axis thereof is inclined and the front side of the container body 31 is increased. is set up. Therefore, the sewage introduced into the container body 31 flows from the front side toward the rear side. The container body 31 is rotatably supported by support rollers 32 provided at four locations in the front and rear directions.

A large number of microorganism-supporting carriers 33 (filter material) that can be freely moved are placed inside the container body 31, and these carriers 33 can be used as a bed of aerobic microorganisms. Yes. Each carrier 33 has a substantially ball shape and is formed of a polyvinyl acetal porous material (PVA sponge) having fine continuous pores.

In addition, the polyvinyl acetal porous body has the same configuration as the material used for the oil-water separation filter 19 of Examples 1 and 2 described above. Furthermore, not only a single material but also a plurality of materials of carriers 33 can be mixed and used. The carrier 33 can be added with not only aerobic microorganisms but also neutralizers, odor inhibitors and the like.

An outer peripheral gear 34 is provided on the outer peripheral surface of the central portion of the container body 31. A drive motor 36 as a rotational drive means in this embodiment having a drive gear 35 meshed with the outer peripheral gear 34 is provided in the vicinity of the container body 31. By driving the drive motor 36, the container body 31 is rotationally driven around its central axis. The container body 31 is rotationally driven counterclockwise in the rear view (see FIG. 8).

In the front side (upstream side) of the container body 31, an introduction unit 37 is provided as an introduction unit in the present embodiment for introducing sewage into the container body 31. An introduction pipe 38 is connected to the introduction unit 37, and sewage discharged from a kitchen such as a food store is introduced into the container body 31 through the introduction pipe 38. The introduction unit 37 is fixedly supported with respect to the ground.

A discharge part 39 for discharging sewage to the outside of the container body 31 is provided on the rear side (downstream side) of the container body 31. The discharge portion 39 has a substantially cylindrical shape that becomes narrower as it goes rearward. The discharge part 39 is provided integrally with the container body 31, and the container body 31 is rotationally driven, and the discharge part 39 is also rotationally driven.

As shown in FIG. 9, the outer peripheral surface of the discharge part 39 is a punching metal part in which a large number of small holes 40 are formed, and sewage inside the container body 31 flows out from the small holes 40 of the punching metal part. The On the inner peripheral surface of the punching metal portion, a polyvinyl acetal porous body (PVA filter) having the same structure as the material used for the oil-water separation filter 19 of Examples 1 and 2 described above and having fine continuous pores is used. The oil-water separation filter 41 formed in is provided. The small hole 40 in the punching metal portion is closed by the oil / water separation filter 41.

In the sewage treatment apparatus 30 according to the third embodiment, the discharge unit 39 is closed by the oil / water separation filter 41, so that the oil is separated from the sewage inside the container body 31 by the oil / water separation filter 41 and processed from the discharge unit 39. Only the dirty water can be discharged to the outside of the container body 31.

In addition, the maximum diameter of the discharge part 39 is formed smaller than the diameter of the container body 31, and a part of the back plate 42 of the container body 31 is a partition plate for storing sewage. The sewage overflowing from the back plate 42 flows into the discharge part 39. Further, the water level of the sewage inside the container body 31 is always a water level at which a part of the oil / water separation filter 41 is submerged. In addition, the container body 31 comprises the storage part in a present Example.

Furthermore, although the sewage is stored at a slight water level on the lower side of the inner peripheral surface of the container body 31, the above-described numerous carriers 33 are contained in approximately half the volume inside the container body 31. For this reason, most of the carriers 33 are arranged on the sewage water so as to be easily exposed to air.

The container body 31 is rotationally driven, and the oil / water separation filter 41 provided on the outer peripheral surface of the discharge portion 39 is also rotationally driven. Every time the container body 31 rotates, the entire inner peripheral surface of the discharge part 39, that is, all the parts of the oil / water separation filter 41 can be impregnated with dirty water. In the present embodiment, the drive motor 36 that rotationally drives the container body 31 constitutes a repeated flooding means that repeatedly floods the sewage.

As shown in FIGS. 7 and 8, a drainage receiving portion 43 is provided at a position below the discharge portion 39 to cover a substantially half portion on the lower side of the discharge portion 39. The treated sewage that has flowed out from the discharge part 39 flows into the drain receiving part 43, and is discharged to a sewer pipe (not shown) through the drain pipe 44 connected to the drain receiving part 43. It has become.

In the upper position of the discharge part 39, a shower nozzle 50 is provided as backwashing means in the present embodiment for supplying wash water from the downstream side to the oil / water separation filter 41. The shower nozzle 50 can inject cleaning water at a high pressure toward the punching metal portion of the discharge portion 39. The shower nozzle 50 may be always operated or may be operated at regular time intervals.

The washing water sprayed from the shower nozzle 50 passes through the small holes 40 in the punching metal portion of the discharge portion 39 and flows from the downstream surface of the oil / water separation filter 41 to the upstream surface. Oil and fine solids adhering to the upstream surface of the oil / water separation filter 41 can be washed away by the washing water toward the inside of the container body 31.

An air supply pipe 45 that supplies air to the inside of the container body 31 is connected to the center of the discharge part 39. Air is supplied to the air supply pipe 45 from the blower motor 46 via the hose 47. Fresh air supplied from the air supply pipe 45 to the inside of the container body 31 flows from the downstream side (rear side) to the upstream side (front side) of the container body 31, and from the exhaust cylinder 48 provided in the introduction unit 37. It is designed to be exhausted outside.

A plurality of stirring plates 49 for stirring the carrier 33 are fixed to the inner peripheral surface of the container body 31. When the container body 31 is driven to rotate, the carrier 33 is moved upward by the stirring plate 49 and dropped again downward. By repeating this movement of the carrier 33, the carriers 33 stacked at the lower position are crushed by their own weight, and the carrier 33 lifted by the stirring plate 49 is restored to its original size by the restoring force. Come back.

Therefore, the carrier 33 repeatedly impregnates sewage and discharges the impregnated sewage, and the carrier 33 repeatedly sucks and discharges air. The aerobic microorganisms carried on the carrier 33 decompose oil and fine solids contained in the sewage inside the container body 31 so that the sewage is purified.

As described above, in the third embodiment, the oil / water separation filter 41 is repeatedly submerged in the sewage by being provided with the drive motor 36 as the repeated water immersion means for repeatedly immersing the oil / water separation filter 41 in the sewage, and drying thereof is prevented. In addition, a relative flow is generated between the surface of the oil / water separation filter 41 and the sewage, and along with this flow, the oil adhering to the surface of the oil / water separation filter 41 can be washed away. Clogging can be prevented. In the third embodiment, the drive motor 36 constitutes an oil content removing means for removing the oil content and the like adhering to the surface of the oil / water separation filter 41.

The container body 31 has a substantially cylindrical shape with an inclined central axis. The container body 31 is rotatably installed around the central axis, and the container body 31 is rotated by a drive motor 36 serving as a rotation driving means. By driving, the sewage is unevenly distributed on the lower side of the inner peripheral surface of the inclined container body 31. In this state, the container body 31 rotates around the central axis, so that the container body 31 and the sewage Relative movement is repeated, and this phenomenon can be used to constitute a repeated water immersion means for repeatedly immersing the oil / water separation filter 41 in the sewage.

Further, by providing a shower nozzle 50 as backwashing means for supplying wash water from the downstream side to the oil / water separation filter 41 that closes the discharge portion 39, the wash water supplied by the shower nozzle 50 is discharged from the discharge portion 39. The oil or the like that flows from the downstream side to the upstream side of the oil / water separation filter 41 that closes the oil and adheres to the upstream side of the oil / water separation filter 41 that closes the discharge portion 39 can be washed away. Clogging can be prevented.

Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and modifications and additions within the scope of the present invention are included in the present invention. It is.

For example, in Examples 1 to 3, the sewage treatment apparatus of the present invention is used for separating oil contained in sewage discharged from kitchens of food stores and the like. The apparatus may be used for the treatment of sewage discharged from facilities such as apartment buildings such as apartments, hotels, restaurants, hospitals, etc., or may be used for the treatment of sewage discharged from machine factories or automobile factories. It may be installed in a ship or the like and used for the treatment of ballast water or other oil water, or may be used for collecting oil that has flowed into the ocean or river.

In the first and second embodiments, one partition plate 11 is provided with the oil / water separation filter 19 stretched on one frame member 20, but a plurality of small frame members 20 are provided on one partition plate 11. The sewage may be filtered by an oil / water separation filter 19 attached to the small frame member 20.

Moreover, in the said Example 1 and 2, although the diffuser pipe | tube 14 as a diffuser means is provided in the lower end part of the partition plate 11, this diffuser pipe | tube 14 may not be provided and the sewage which generate | occur | produces from the diffuser pipe | tube 14 Even if there is no flow, the oil / water separation filter 19 can separate oil and water sufficiently efficiently.

Further, in the second embodiment, the oil / water separation filter 19 is inclined so as to fall toward the upstream side by stretching the oil / water separation filter 19 on the frame member 20 having a substantially wedge shape in a side view. The oil-water separation filter 19 is tilted so that the entire partition plate 11 to which the frame member 20 used in the first embodiment is attached is tilted toward the upstream side (front side) from the vertically erected state. You may make it incline so that it may fall down toward an upstream.

In addition, the inside of the container body 31 of the third embodiment is partitioned by a partition plate having a passage portion, and the passage portion of the partition plate is closed by the oil / water separation filter 41 so as to remove oil from the sewage. Also good.

In the third embodiment, the discharge portion 39 having a substantially cylindrical shape that is narrowed toward the rear is provided on the back surface of the container body 31. However, the discharge portion is not limited to the shape of the third embodiment. The opening (discharge part) formed in the back plate 42 of the container body 31 is covered with a punching metal plate having a flat plate shape, and a small hole of the punching metal plate is closed with an oil / water separation filter 41 to form a discharge part. May be.

1 Grease strap (sewage treatment equipment)
2 Storage tank (container)
3 Introduction pipe (introduction section)
4 discharge pipe (discharge section)
10, 11 Partition plate 14 Air diffuser (air diffuser)
18 Passing part 19 Oil /

water separation filter

20, 20 ′ Frame member 22 Upstream area 23 Central area (storage part)
24 Downstream area 30 Sewage treatment apparatus 31 Container body (storage part)
33 Carrier 36 Drive motor (rotation drive means, repeated flooding means)
37 Introduction unit (introduction section)
39 Discharge part 40 Small hole 41 Oil-water separation filter 49 Stirring plate 50 Shower nozzle (back washing means)

Claims

A container body having an introduction part for introducing sewage from the outside, a storage part for storing the sewage introduced from the introduction part, and a discharge part for discharging the sewage stored in the storage part is provided, A sewage treatment apparatus that separates oil from sewage in the storage unit, stores the oil in the storage unit, and discharges treated sewage from the discharge unit,
An oil-water separation filter formed of a polyvinyl acetal porous body having fine continuous pores is provided at least on the downstream side of the storage section.
The partition plate is disposed so as to partition the inside of the container body into an upstream side and a downstream side, and the partition plate is formed with a passage portion through which the sewage passes, and the passage portion is connected to the oil water. The sewage treatment apparatus according to claim 1, wherein the sewage treatment apparatus is blocked by a separation filter.
The said oil-water separation filter is immersed in the sewage inside the said container body, and the aeration means which diffuses a bubble toward the said oil-water separation filter is provided. Sewage treatment equipment.
4. The sewage according to claim 3, wherein the air diffuser is disposed on the upstream side of the oil / water separation filter and is inclined so that the oil / water separation filter is tilted toward the upstream side. Processing equipment.
The sewage treatment apparatus according to any one of claims 1 to 4, wherein the discharge part is closed by the oil / water separation filter.
6. The sewage treatment apparatus according to any one of claims 1 to 5, further comprising a repetitive water immersion means for repeatedly immersing the oil / water separation filter in sewage.
The container body has a substantially cylindrical shape with an inclined central axis, the container body is rotatably installed around the central axis, and the repetitive water immersion means rotationally drives the container body to rotate. The sewage treatment apparatus according to claim 6, which is a means.
The sewage treatment apparatus according to any one of claims 5 to 7, further comprising back washing means for supplying washing water from a downstream side to the oil / water separation filter that closes the discharge portion.
The sewage treatment apparatus according to any one of claims 1 to 8, wherein the polyvinyl acetal porous body has a pore diameter of 5 to 800 µm.
The sewage treatment apparatus according to any one of claims 1 to 9, wherein the porosity of the polyvinyl acetal porous material is 80 to 95%.