KR100866039B1 - Apparatus for filtering wastewater - Google Patents

Abstract

The present invention relates to a wastewater filtration apparatus, and has an object of providing a wastewater filtration apparatus which is configured to have high efficiency and to be free of clogging caused by contaminants and not to require a large site.

To this end, the present invention by rotatably installing a filtering drum having a plurality of holes formed in the raw water tank while flowing the raw water to the outer peripheral surface of the filtering drum while rotating the filtering drum and at the same time the hole of the filtering drum It is configured to forcibly pull out the filtered water to the outside of the raw water tank in the filtration drum, and to forcibly remove the contaminants in the raw water that did not pass through the hole of the filtration drum from the lower portion of the raw water tank to the outside of the raw water tank. do.

In addition, a long hair filter may be attached to the outer peripheral surface of the filtration drum in the present invention.

Raw water tank, filtration drum, solids, suspended solids, pond purification

Description

Wastewater Filtration Unit {APPARATUS FOR FILTERING WASTEWATER}

1 is a partially cutaway perspective view of a wastewater filtration device according to an embodiment of the present invention.

2 is a view showing a state in which a long hair filter is attached to the outer peripheral surface of the filtration drum of the wastewater filtration apparatus according to an embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

10: raw water tank 20: filtration drum

30: pipe for discharge of filtered water 40: contaminant moving shaft

50: pump 60: filtered water tank

The present invention relates to a wastewater filtration apparatus, and more particularly, to a filtration apparatus for filtering contaminants in the form of solids or suspended solids from sewage water generated in homes, factories, ponds and the like.

In general, various sewage such as sand, gravel, wood, and cloth exists in household sewage, and sewage such as cellulose is present in wastewater generated in a factory. Home sewage and plant wastewater enters the sewage treatment plant, but the inclusion of such contaminants in home sewage and plant wastewater interferes with the normal operation of the sewage treatment plant and damages various equipment. Any debris must be filtered from household sewage and plant wastewater before it enters.

Conventionally, sedimentation or screening devices have been used to filter out contaminants from household sewage and factory wastewater.

In the case of the precipitation apparatus, since gravity precipitation is mainly performed, a long residence time is required, and thus the efficiency is very low.

In addition, in the case of a screen device, there is a problem that frequently clogged when the load of the impurities is high. Frequent blockages in the screening system can lead to frequent breakdowns of machines in the sewage treatment plant, and the operation of the sewage treatment plant must be stopped.

In particular, both the sedimentation device and the screen device require an inherently large site due to its operation principle, and the demand for a large site is a big disadvantage because the recent trend is to build a small sewage treatment plant rather than a large sewage treatment plant.

Accordingly, an object of the present invention is to provide a wastewater filtration apparatus which is designed to solve such problems of the prior art and is configured such that clogging due to contaminants does not occur easily and does not require a large site while having high efficiency.

In order to achieve the above object, the present invention, by rotatably installing a filtration drum having a plurality of holes formed in the raw water tank while flowing the raw water to the outer peripheral surface of the filtration drum while rotating the filtration drum Forcing the filtered water passing through the hole of the filtration drum to the outside of the raw water tank in the filtration drum and forcing the contaminants in the raw water that did not pass through the hole of the filtration drum from the lower portion of the raw water tank to the outside of the raw water tank. Characterized in that configured to withdraw.

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

1 is a partially cutaway perspective view of a wastewater filtration device according to an embodiment of the present invention. In Figure 1 is shown a cut part to make the wastewater filtration device according to an embodiment of the present invention to be seen well.

As shown, the wastewater filtration apparatus according to the present embodiment is mainly composed of a raw water tank 10, a filtration drum 20, a pipe 30 for filtration water discharge, and a contaminant moving shaft 40.

The raw water tank 10 is a conventional type of water tank for accommodating raw water (waste water). A raw water inlet 11 for introducing raw water into the raw water tank 10 is formed at the upper end of the back side of the raw water tank 10.

The filtration drum 20 is a porous hollow cylindrical body in which a plurality of holes 21 are formed, and is rotatably installed in the raw water tank 10. That is, the filtration drum 20 is rotatably installed in the raw water tank 10 by being formed integrally with the filtered water discharge pipe 30 rotatably installed with respect to the raw water tank 10.

In more detail with respect to the filtered water discharge pipe 30, the filtered water discharge pipe 30 is rotatably installed with respect to the raw water tank 10 while watertightly penetrating the raw water tank 10, the filtering drum ( It is provided along the rotation axis of 20, and is integrally formed with the filtration drum 20, welding, or the like. As can be seen in FIG. 1, it can be seen that watertight bearings are provided at the portions that meet the filtered water discharge pipe 30 on both outer surfaces of the raw water tank 10, although the leader line is not drawn out and indicated by the member number. The watertight bearing is shown in an annular shape, and the annular watertight bearing is supported while surrounding the outer circumferential surface of the filtrate water discharge pipe 30 on both outer surfaces of the raw water tank 10. By this watertight bearing, the pipe 30 for filtering water is rotatably installed with respect to the raw water tank 10 while penetrating watertightly through the raw water tank 10.
Further, a plurality of holes 31 are formed in the portion of the filtrate discharge pipe 30 located in the filtration drum 20.

A pump 50 is provided downstream of the pipe 30 for filtering water discharge.

In addition, the contaminant moving shaft 40 is rotatably installed with respect to the raw water tank 10 while watertightly penetrating the raw water tank 10 at the lower part of the filtration drum 20. As can be seen in FIG. 1, it can be seen that watertight bearings are provided at the portions where both the outer surfaces of the raw water tank 10 meet with the contaminant moving shaft 40, although the leader line is not drawn out and indicated by the member number. The watertight bearing is shown in an annular shape, and the annular watertight bearing surrounds and supports the outer circumferential surface of the contaminant moving shaft 40 on both outer surfaces of the raw water tank 10. By this watertight bearing, the contaminant moving shaft 40 is rotatably installed with respect to the raw water tank 10 while watertightly penetrating the raw water tank 10.
The screw 41 is formed in the part located in the raw water tank among the contaminant moving shafts 40. In addition, in the advancing direction of the screw 41 of the contaminant moving shaft 40, a contaminant discharge port 13 is formed.

Raw water introduced through the raw water inlet 11 flows to the outer circumferential surface of the filtration drum 20, and the filtered water passing through the hole 21 of the filtration drum 20 is used to discharge the filtrate in the filtration drum 20. The pipe 30 and the pump 50 are forcibly drawn out of the raw water tank 10. That is, the filtered water passing through the hole 21 of the filtration drum 20 flows into the hole 31 of the filtrate discharge pipe 30, and thus flows into the hole 31 of the filtrate discharge pipe 30. The filtered water is forcibly sucked by the pump 50 and forcibly drawn out of the raw water tank 10.
Meanwhile, in FIG. 1, raw water introduced through the raw water inlet 11 flows to the outer circumferential surface of the filtration drum 20, as indicated by an arrow on the filtration drum 20. In order for the raw water introduced through the raw water inlet 11 to flow to the outer circumferential surface of the filtration drum 20, the raw water inlet 11 protrudes inward from the rear wall of the raw water tank 10 so that the raw water inlet 11 It will be apparent to those skilled in the art that the distal end is positioned on the filtration drum 20. However, in FIG. 1, in order to clearly show the configuration of the filtration drum 20, the configuration of the raw water inlet 11 is schematically illustrated. Instead, the raw water introduced through the raw water inlet 11 as an arrow is filtered. It shows that it flows on the outer peripheral surface of the drum 20. As shown in FIG.
Therefore, the raw water introduced through the raw water inlet 11 is essentially passed through the filtration drum 20. However, if the raw water introduced through the raw water inlet 11 does not go through the filtration drum 20 and the amount of raw water introduced through the raw water inlet 11 is small, Emissions can be shut off. To this end, a shutoff valve may be installed at the rear end of the contaminant discharge port 13. Thus, the configuration of installing the shut-off valve in the middle of the path to control the flow rate is a technique known in the art, so the drawings for this are omitted. When the shutoff valve is closed, raw water is not discharged from the contaminant discharge port 13, so that even if the amount of raw water flowing through the raw water inlet 11 is small, the amount of raw water in the raw water tank 10 is increased to allow for filtration. By allowing the raw water to exist in the drum 20 and the pipe 30 for filtration water, the raw water is filtered through the filtration drum 20 and the pipe 30 for filtration water discharge.

Here, the filtered water discharged to the outside of the raw water tank 10 in the filtered water discharge pipe 30 may be discharged through the filtered water tank (60).

The filtered water tank 60 is provided outside one side of the raw water tank 10 through which one end of the filtered water discharge pipe 30 passes. Filtration tank 60 is shown in a cut portion for convenience of illustration is formed in a closed type.

Downstream of the filtered water tank 60, a filtered water outlet 61 is provided. In this case, the pump 50 is installed downstream of the filtered water outlet 61. Therefore, the filtrate in the filtrate discharge pipe 30 is moved to the filtrate tank 60 by the pump 50 and then discharged to the outside through the filtrate discharge port 61.

Meanwhile, contaminants that do not pass through the holes 21 of the filtration drum 20 among the raw water flowing through the raw water inlet 11 and flowing to the outer circumferential surface of the filtration drum 20 fall to the bottom of the raw water tank 10. After stacking, the screw 41 of the contaminant moving shaft 40 is moved to the contaminant outlet 13 by being forced out of the raw water tank 10 and removed.

The drum driving pulley 33 is fixedly installed at the other end of the filtrate discharge pipe 30 penetrating the outside of the other side of the raw water tank 10, and the movement of the contaminants penetrating the outside of the other side of the raw water tank 10 is carried out. The other end of the screw 41 of the shaft 40 is provided with a fixed matter moving shaft drive pulley 43 is fixed.

Although not shown, it will be seen that the drive belt connected to the drive motor is wound around the drum drive pulley 33 and the contaminant moving shaft drive pulley 43.

In addition, as illustrated in FIG. 2, a long hair filter 23 may be attached to the outer circumferential surface of the filtration drum 20. The long hair filter 23 is in the form of a plurality of elongated hairs and covers the holes 21 of the filtration drum 20 to prevent infiltrating impurities in the raw water into the holes 21 of the filtration drum 20. .

On the other hand, the long-term filter 23 is caught in the contaminants, in order to remove this may be provided with an air inlet 63 in the middle of the filtered water outlet (61). The high pressure air is introduced into the filtration drum 20 through the air inlet 63 through the filtration water outlet 61 and the filtration tank 60, and then exits to the outside of the filtration drum 20 through the hole 21. By exiting, the contaminants caught in the long hair filter 23 are separated from the long hair filter 23. In addition, although not shown, it will be appreciated that the air inlet 63 is provided with an air source, an open / close valve, and the like.

In addition, a viewing window 15 for observing the inside of the raw water tank 10 and an overflow drain 17 for discharging the excessively supplied raw water to the outside of the raw water tank 10 are provided on the upper side of the raw water tank 10. It may be installed.

In addition, although not shown, the inner wall of the filtration drum 20 may be provided with a filter for reducing biological water quality to improve the vitality of the filtered water.

While the invention has been described above with reference to specific embodiments, various modifications, changes or modifications may be made in the art within the spirit and scope of the appended claims, and thus, the foregoing description and drawings It should be construed as illustrating the present invention rather than limiting the technical spirit of the present invention.

As described above, according to the wastewater filtration apparatus of the present invention, the filtered water passing through the rotating filtration drum in the raw water tank and the contaminants in the raw water not passed through the filtration drum are separately forced out of the raw water tank. As a result, the wastewater filtration device has a high efficiency, but does not easily cause clogging caused by contaminants and does not require a large site.

Claims (10)

The filtering drum having a plurality of holes is rotatably installed in the raw water tank to rotate the filtering drum while flowing the raw water to the outer circumferential surface of the filtering drum and to filter the filtered water passing through the holes of the filtering drum. Is configured to forcibly pull out the raw water tank from the raw water tank to the outside of the raw water tank, and to remove any contaminants in the raw water which have not passed through the holes of the filtering drum. Means for forcibly removing the filtered water passing through the hole of the filtration drum to the outside of the raw water tank in the filtration drum, rotatably installed relative to the raw water tank while watertightly penetrating the raw water tank, A filter water discharge pipe integrally formed with the filtration drum along a rotation axis of the drum and having a plurality of holes formed in a portion located in the filtration drum, and a pump installed downstream of the filtrate discharge pipe, The filtered water discharged to the outside of the raw water tank in the filtered water discharge pipe is discharged through the filtered water tank, The filtered water tank is installed outside one side of the raw water tank through which one end of the filtered water discharge pipe passes, And a drum driving pulley fixedly installed at the other end of the filtered water discharging pipe penetrating the outside of the other side of the raw water tank. delete delete delete delete The method according to claim 1, Means for forcibly removing the contaminants in the raw water that did not pass through the hole of the filtration drum from the lower portion of the raw water tank to the outside of the raw water tank, A compact moving shaft provided with a plurality of screws in a portion located in the raw water tank rotatably installed with respect to the raw water tank while watertightly penetrating the raw water tank under the filtration drum; And a contaminant discharge port formed to penetrate the raw water tank at a lower end portion in a traveling direction of the screw of the contaminant moving shaft. The method according to claim 6, Sewage water filtration device, characterized in that the other end of the moving object shaft passing through the other side of the raw water tank is fixed to the movement of the driving object pulley. The method according to claim 1, The wastewater filtration apparatus, characterized in that the long hair filter having a plurality of elongated hairs is attached to the outer circumferential surface of the filtration drum. The method according to claim 1, Downstream of the filtered water tank is provided with a filtered water outlet, The wastewater filtration device, characterized in that the air inlet is installed in the middle of the filtered water outlet. The method according to claim 1, Sewage water filtering device, characterized in that the raw water inlet for introducing the raw water into the raw water tank formed on the upper side of the raw water tank.

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