KR101160060B1 - Rotary type Filtering Plant - Google Patents

Abstract

Rotary filter device according to the present invention is an upright cylindrical filter paper body; A rotary filter which is divided into a plurality of sections by a radially installed partition wall and is rotatably installed in the filter paper body with respect to the center of the filter paper body; A backwashing chamber fixed to the filter paper main body having a size corresponding to one section of the rotary filter paper so as to be spatially separable from the other portion of the rotary filter paper; A fiber yarn filter installed in the rotary filter to filter the inflow water passing through the rotary filter, and alternately positioned inside and outside of the backwashing chamber while being rotated with the rotary filter; Compression means for compressing the fiber yarn media in a vertical direction so that the voids of the fiber yarn media located outside the backwashing chamber are reduced; Decompression means for releasing the compression means of the fiber yarn media in a vertical direction so that the voids of the fiber yarn media located in the backwashing chamber are expanded; And a controller configured to rotate the rotary filter only when the water level is equal to or greater than a reference value by measuring the water level of the filter paper body so that the backwashing process for each section is performed.

Description

Rotary filtration device {Rotary type Filtering Plant}

The present invention relates to a rotary filtration device that can be applied as a treatment device for the overflowed sewage pipe overflow water, which can guarantee excellent effluent quality, and can be continuously filtered during the backwashing of the filter medium.

Water pollution in rivers and public waters is mainly regulated in Cheongcheon-si, so it is not regulated in rainy weather, which has substantial water fluctuations and greatly affects the environment of public waters. In addition, some of the overwhelming water discharged during the rainfall is introduced into public waters such as rivers, and the water ecosystem is threatened in terms of hygiene, water pollution prevention, and non-observation.

Accordingly, it is expected that the water quality standards for the treatment of overflowed water in the sewage system will be prepared in the future when the confluence is made. Development is needed.

Conventionally, there is a device for treating the combined sewage pipe overflow water by sedimentation, but there is a problem that such a sedimentation device alone does not guarantee excellent effluent quality. As backwashing of contaminated filter media is possible only when the filtration process is stopped, there is a problem that downtime is present in the operation of the apparatus, thereby reducing the economic efficiency by reducing the contaminated water treatment rate and throughput. .

An object of the present invention devised to solve the problems of the prior art as described above is to be applied as a treatment device of the combined sewage pipe overflow overflow water to ensure excellent effluent quality, and the filtration treatment is continuous even during the backwash of the filter medium It is an object to provide a rotary filtration device that can be made.

Another object of the present invention is to automatically backwash operation only when the water level rises due to the blockage of the entire media through the water level level sensor, and stop the backwash operation when the water level is lowered again due to backwashing, power saving and operation efficiency It is an object of the present invention to provide a rotary filtration device for improving this.

The object of the present invention described above is an upright cylindrical filter paper body; A rotary filter which is divided into a plurality of sections by a radially installed partition wall and is rotatably installed in the filter paper body with respect to the center of the filter paper body; A backwashing chamber fixed to the filter paper main body having a size corresponding to one section of the rotary filter paper so as to be spatially separable from the other portion of the rotary filter paper; A fiber yarn filter installed in the rotary filter to filter the inflow water passing through the rotary filter, and alternately positioned inside and outside of the backwashing chamber while being rotated with the rotary filter; Compression means for compressing the fiber yarn media in a vertical direction so that the voids of the fiber yarn media located outside the backwashing chamber are reduced; Decompression means for releasing the compression means of the fiber yarn media in a vertical direction so that the voids of the fiber yarn media located in the backwashing chamber are expanded; And a control unit rotating the rotary filter only when the water level is greater than or equal to the reference value by measuring the water level of the filter paper body so that the backwashing process for each section is performed.

Here, the compression means is installed on the upper portion of the fiber yarn filter media compression plate for transmitting a compressive force to the entire upper surface of the fiber yarn media; A shaft support configured to guide the vertical movement of the media compression plate; And a spring member installed at an upper portion of the filter medium compression plate and supporting the elastic member so that a compressive force is applied in a downward direction.

In addition, the decompression means, the actuator is operated by receiving a signal from the control unit; A movable chamber interlocked with the actuator to open and close an upper backwash chamber; And a rotation member for allowing the median compression plate to be elevated as the hinge is operated in conjunction with the movable chamber.

In this case, the actuator may be an air cylinder.

The control unit may include a water level sensor for measuring the water level of the filter paper body.

In addition, the filter paper main body, the influent flow path for forming a flow path that flows to the upper side of the inlet water flowing into the rotary filter paper; And an oil and water flow path formed at a central portion of the filter paper main body, passing through the rotary filter paper and forming a path through which the filtered water can be discharged to the outside of the filter paper main body.

And, the rotary filter is characterized in that the plurality of spaced apart up and down inside the filter paper body.

In addition, the rotary filter is characterized in that the upper portion is formed to be open so that the influent flows downward toward the rotation center portion, the lower portion is inclined downward toward the rotation center portion and the lower end is opened to the rotation center portion.

The fibrous filter media has a fan shape corresponding to the section shape of the rotary filter paper, and is pressurized downward by the media compression plate in a state of being installed on an upper side of the media support plate on which a plurality of through holes are formed. It is done.

At this time, the air inlet pipe for introducing air into the back washing chamber from the lower side of the fiber yarn filter; characterized in that it further comprises.

The present invention according to the above configuration can be applied as a treatment device for the combined sewage pipe overflow water, which can guarantee excellent effluent quality, and can be continuously filtered during the backwashing of the filter medium has an excellent filtration efficiency. .

In addition, the present invention is to automatically backwash operation only when the water level rises due to the blockage of the entire media through the water level level sensor, and stop the backwash operation when the water level is lowered again due to backwashing, power saving and operation efficiency Has the effect of improving.

1 is a front sectional view showing one embodiment of a rotary filtration device according to the present invention.
2 is a sectional view taken along the line AA in Fig.
3 is a perspective view showing a media support plate according to the present invention.
Figure 4 is a perspective view showing a fiber yarn media according to the present invention.
5 is a perspective view showing a media compression plate in accordance with the present invention
Figure 6a, 6b is an enlarged view of the main portion showing the action of the compression means and decompression means according to the present invention.

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

Rotary filter device according to the present invention as shown in the figure is largely filter paper body 100, rotary filter paper 200, backwashing room 300, fiber filter medium 400, compression means 510, decompression Means 520, and a control unit (not shown).

In the rotary filtration device of the present invention, the rotary filter paper 200 is installed in the filter paper body 100 so as to be rotated in a fixed position, and a part of the rotary filter paper 200 is accommodated on one side of the filter paper body 100. The backwashing chamber 300 is formed to form an airtight space, and the fiber filter medium 400 is installed on the rotary filter paper 200, and the fiber filter medium 400 is compressed by the compression means 510 and decompression. It has a structure that contracts and expands through the means 520.

The filter paper body 100 has an upright cylindrical shape with an empty inside, and the inflow water introduced into the filter paper body 100 flows to the upper side of the rotary filter paper 200 at the periphery of the filter paper body 100. A flowing inflow path 110 is formed to form a possible path, and a path through which the rotary filter paper 200 passes downward in a central portion of the filter paper main body 100 and the filtered water can be discharged to the outside of the filter paper main body 100. Flowing water outlet 120 is formed.

The rotary filter paper 200 is installed in the filter paper body 100 in a rotatable position relative to the center of the filter paper body 100, and may be installed in a multi-layer structure in the vertical direction as shown in FIG. have.

Such a multi-layer structure can increase the installation area of the rotary filter paper to improve the filtered water treatment capacity.

The rotary filter paper 200 has an inflow water flow path 120 of the filter paper body in the inflow of the inlet water flowing into the rotary filter paper 200 through the flow through the flow inlet flow path 110 of the filter paper body is moved downward by gravity. The upper portion is opened to flow to the rotation center portion of the rotary filter paper 200, the lower portion has a shape that slopes downward toward the rotation center portion, the lower portion has a structure opened to the rotation center portion side.

The rotary filter paper 200 has a structure divided into a plurality of sections having the same shape and size by the radially partitioned partition 210 is provided at equal intervals as shown in Figure 2, the backwashing chamber 300 The filter paper main body 100 has a size corresponding to at least one section of the rotary filter paper 200 so that one section of the rotary filter paper 200 can be spatially separated from another part of the rotary filter paper 200. It is fixedly installed.

The backwashing chamber 300 has an open lower portion so that the backwashing chamber 300 flows toward the circumferential side of the filter paper main body 100 in which a backwashing water pipe is installed in the process of flowing back water in the backwashing chamber 300, and the upper portion of the backwashing chamber 300 flows. The upward slope toward the circumferential side of the filter paper body 100 has a shape, the upper end has a structure that is open to the outside of the filter paper body 100.

In the case where the backwashing is performed to back up the treated water to wash the fibrous media 400 (described below), the fibrous yarn is mixed with the treated water and air as compared to the backwashing by the flow of the treated water only. Since passing through the pores of the filter medium 400 may further improve the backwashing efficiency, the air inlet pipe providing a path through which air can be introduced into the backwashing chamber 300 from the lower side of the fibrous filter medium 400 ( Preferably 600).

The fiber yarn filter 400 has a structure that can be compressed and restored so that the plurality of voids can be expanded or contracted by any pressing force, and the inflow water introduced into the rotary filter 200 is passed by downward flow and is filtered. It is possible to install the rotary filter 200 in the backwashing chamber 300 by providing a plurality of voids through which the treated water is allowed to flow by upward flow.

In the fiber yarn filter 400 is installed in the rotary filter paper 200, as shown in Figure 3 has a fan shape corresponding to the section shape of the rotary filter paper, as shown in FIG. It is seated and installed on the upper side of the media support plate 410 formed with a plurality of through-holes 411 through which water flows.

Such a fiber yarn filter 400 is installed in a plurality of sections formed in the rotary filter paper 200 in a state in which the upper portion is restrained by the compression means 510, the rotational movement with the rotary filter paper 200 while the reverse The washing chamber 300 is alternately positioned outside.

The compression means 510 serves to compress the fiber yarn filter 400 in a vertical direction so that the voids of the fiber yarn filter 400 located outside the backwashing chamber 300 are reduced.

At this time, the compression means 510 is installed on the upper portion of the fibrous media 400, the median compression plate 511 to transmit the compressive force to the entire upper surface of the fibrous media 400, and the media compression plate 511 The shaft support 512 is configured to guide the vertical movement of the) and the spring member 513 is installed on the filter medium compression plate 511 to support the elastic force so that the compressive force is applied in the lower direction. .

The filter medium compression plate 511 is provided with a support frame and a plurality of through holes as shown in Figure 5 so as to be able to evenly apply a compressive force to the first half of the fiber yarn filter 400, and smoothly pass the influent and treated water. It is preferable to have a shape, in the outside of the backwashing chamber 300, the fiber yarn filter 400 is compressed so that the voids 401 of the fiber yarn media is reduced, decompression in the backwashing chamber 300 In conjunction with the means 520 to move in the upper direction of the fibrous media 400, the expansion of the fibrous media 400 is made.

Here, the decompression means 520 is a compression means 510 of the fibrous media 400, in particular the media compression plate 511 so that the voids of the fibrous media 400 located in the backwashing chamber 300 is expanded ) To move in the vertical direction to release the compression.

At this time, the configuration of the decompression means 520, the actuator 521 is operated by receiving a signal from the control unit (not shown), and in conjunction with the actuator 521 to open and operate the upper part of the backwashing chamber 300 The movable chamber 522 and the rotation member 525 for allowing the median compression plate 511 to be elevated as the hinge is operated in conjunction with the movable chamber 522.

In this case, the actuator may use an air (hydraulic) cylinder.

In addition, the movable chamber 522 forms a backwash air drain pipe 523 and a backwash water drain pipe 524 for discharging the backwash air passing through the fibrous media 400 from the bottom to the top and the backwash water on one side. Doing.

At this time, it is preferable that the backwash air drain conduit 523 is formed on the backwash water drain conduit 524.

Rotary filter device of the present invention as described above is installed through the control unit (not shown) to perform the backwashing process for each section by rotating the rotary filter paper 200 only when the water level is above the reference value through the water level measurement of the filter paper body 100 Doing.

At this time, the control unit (not shown) includes a level sensor 531 for measuring the water level of the filter paper body 100.

According to the rotary filtration device according to the present invention, the rotary filter 200 is rotated in a state in which some sections are accommodated in the backwashing chamber 300 to form a backwashable closed space inside the filter paper body 100. Accordingly, the filter paper main body 100 always co-exists with a backwashing zone for flowing down the contaminated water and filtering the filtered zone and a portion of the filtered water for upward flow and backwashing the media.

Conventionally, backwashing could be performed only when the operation for filtration was stopped, but according to the present invention, while the backwashing is performed in some sections as described above, the backwashing may be continuously performed in the remaining sections. There is no need to shut down during the run, which further improves the filtration rate of contaminated water and increases throughput.

In addition, all of the plurality of the fiber filter medium 400 installed in the rotary filter paper 200 is alternately moved between the filtration zone and the backwashing section is washed from time to time to implement a filtration function more smoothly in the filtration zone. In order to prevent the contaminants from being excessively attached to the extent that the fiber yarn filter material 400 is damaged, the life of the fiber yarn filter material 400 may be further improved.

In addition, by applying the fibrous filter media (400) excellent in compression and restoring force as a filter medium, on one side compresses the fibrous filter media (400) so that contaminated water passes through the pores of a fine size and the filtration treatment is performed at the same time On the other side moved to the inside of the washing chamber can further expand the air gap to facilitate backwashing.

The rotary filtration device according to the present invention can be installed in various places where a function of filtration of water is required or can be grafted to various filtration devices, and in particular, passes through the treated water firstly passed through the sedimentation device of the combined sewage pipe overflow water. When applied to filtration, it is possible to guarantee good effluent quality as the combined sewage pipe overflow treatment system.

In addition, the present invention is to automatically backwash operation only when the water level rises due to the blockage of the entire media through the water level level sensor, and stop the backwash operation when the water level is lowered again due to backwashing, power saving and operation efficiency Can be improved.

The present invention has been described with reference to preferred embodiments of the present invention, but the present invention is not limited to these embodiments, and the claims and detailed description of the present invention together with the embodiments in which the above embodiments are simply combined with existing known technologies. In the present invention, it can be seen that the technology that can be modified and used by those skilled in the art are naturally included in the technical scope of the present invention.

100: filter paper body 110: flowing water inlet
120: runoff flow path 200: rotary filter paper
210: partition of the rotary filter 300: backwash room
310: side wall of the backwashing chamber 400: fiber yarn media
401: void 450: media support plate
451: through hole 510: compression means
511: media compression plate 512: shaft support
513: spring member 520: compression release means
521: rotating member 522: actuator
530: control unit 600: air inlet pipe

Claims (10)

Upright cylindrical filter paper body;
A rotary filter which is divided into a plurality of sections by a radially installed partition wall and is rotatably installed in the filter paper body with respect to the center of the filter paper body;
A backwashing chamber fixed to the filter paper main body having a size corresponding to one section of the rotary filter paper so as to be spatially separable from the other portion of the rotary filter paper;
A fiber yarn filter installed in the rotary filter to filter the inflow water passing through the rotary filter, and alternately positioned inside and outside of the backwashing chamber while being rotated with the rotary filter;
Compression means for compressing the fiber yarn media in a vertical direction so that the voids of the fiber yarn media located outside the backwashing chamber are reduced;
Decompression means for releasing the compression means of the fiber yarn media in a vertical direction so that the voids of the fiber yarn media located in the backwashing chamber are expanded; And
And a control unit for performing the section backwashing process by rotating the rotary filter only when the level is higher than the reference value by measuring the level of the filter paper body.
The decompression means may include an actuator operated by receiving a signal from a control unit; And
A movable chamber interlocked with the actuator to open and close an upper backwash chamber;
A rotation member configured to raise and lower the median compression plate as the hinge is operated in conjunction with the movable chamber;
Rotary filtering device characterized in that configured to include.
The method of claim 1, wherein the compression means is installed on the upper portion of the fiber yarn filter media compression plate for transmitting a compressive force to the entire upper surface of the fiber yarn media;
A shaft support configured to guide the vertical movement of the media compression plate; And
A spring member installed on an upper portion of the media compression plate to support the elastic member so that a compressive force is applied in a lower direction;
Rotary filtering device characterized in that configured to include.
delete The rotary filtration device according to claim 1, wherein the actuator is an air cylinder.
The rotary filtering device according to claim 1, wherein the control unit includes a level sensor for measuring the level of the filter paper body.
According to claim 1, wherein the filter paper main body, the inflow water inlet flows to form a flow path that flows to the upper side of the rotary filter paper flowing in; And
It is formed in the central portion of the filter paper body, flowing through the rotary filter and the runoff flow path for forming a discharge path for the treated water filtered outside the filter paper body;
Rotary filtering device characterized in that configured to include.
According to claim 1, wherein the rotary filter is a rotary filter device, characterized in that a plurality of spaced apart up and down inside the filter paper body.
The rotary filter device of claim 1, wherein the upper portion of the rotary filter is open so that the inflow flows downward toward the rotation center, and the lower portion is inclined downward toward the rotation center and the lower end is opened to the rotation center.
According to claim 2, wherein the fibrous media has a fan-shaped shape corresponding to the section shape of the rotary filter paper, it is downward by the media compression plate in a state of being installed on the upper side of the media support plate formed with a plurality of through-holes through which water flows Rotary filtration device characterized in that the pressurized.
The rotary filtration device according to claim 1, further comprising an air inlet pipe for introducing air into the backwashing chamber from the lower side of the fiber yarn filter medium.

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