KR101567042B1 - Water filter equipment having Auto back-washing and oxygen-bubble supply function - Google Patents

Abstract

The present invention relates to a filtering apparatus and to a filtering apparatus having an automatic back washing and oxygen bubble supply function, comprising: an upper chamber in which a motor is positioned; a drainage chamber installed at the lower part of the upper chamber and forming drainage pipe toward a side; a filtering chamber installed to receive rotational force of the motor at the lower part of the drainage chamber and rotate and forming a plurality of filtering holes; a filtering material seated within the filtering chamber; and a support plate on which the filtering chamber is seated, thereby being capable of back-washing the filtering material by the rotational force of the motor or the like in the case that an abnormal material is deposited in the filtering material during a filtering operation to lower filtering efficiency; continuing to automatically perform the filtering operation after back-washing; at the same time, generating the oxygen bubbles in sewage or waste water to perform a cleaning function for the sewage or the waste water.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a filter device having an automatic backwashing function and an oxygen bubble supply function,

The present invention relates to a filtration apparatus and more particularly, it relates to a filtration apparatus for backwashing a filter medium by a rotational force without separating a filtration apparatus as well as a filtration action of a foreign matter contained in a wastewater, rain water, water or the like, And to an automatic backwashing and oxygen bubble feeding function for increasing the dissolved oxygen amount by supplying oxygen bubbles to the filtration apparatus.

Filtration apparatuses for filtering foreign substances such as sludge contained in water are used for pretreatment before advanced treatment of various wastewater, treatment of foreign matter such as sludge in water treatment process, or water treatment for recycling purpose.

Korean Patent Registration No. 10-0866039 discloses a filtration apparatus such as a wastewater as a filtration apparatus used for the above purpose. However, due to the gap of the filter medium, foreign substances such as sludge, which are physically larger than the gap, are filtered out. There is a problem in that foreign matter such as sludge is deposited on the gap of the filter medium, and the filtration efficiency is lowered. To this end, cleaning (cleaning) of the filter medium is required.

In addition, the filtration devices perform only a function of filtering out foreign substances such as sludge. In addition to this, there is a need for a filtration device having a hybrid function capable of carrying out various functions for purifying wastewater, etc. Is emerging.

Korea Patent No. 10-0866039

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a filtration device having an automatic backwashing function and an oxygen bubble supply function, in which the filtration material is easily cleaned and the filtration action is not stopped during the filtration of the filtration material.

Another object of the present invention is to provide a filtration apparatus having an automatic backwashing function and an oxygen bubble supplying function capable of performing a purifying function for waste water and the like by increasing the amount of dissolved oxygen by supplying oxygen to wastewater and the like.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a filtering apparatus having an automatic backwashing function and an oxygen bubble supplying function. A drain chamber mounted on a lower portion of the upper chamber and having a drain pipe formed on a side surface thereof; A filtration chamber in which a plurality of filtration holes are formed, the filtration chamber being mounted to rotate under the rotation of the motor at a lower portion of the drainage chamber; A filter medium positioned inside the filtration chamber; And a support plate on which the filtration chamber is placed.

At this time, the motor and the filtration chamber are connected by a power transmission unit, the power transmission unit includes a first power transmission unit having one end coupled to the motor and the other end formed with a coupling protrusion; A second power transmission hole formed at one end thereof with a coupling groove into which the coupling protrusion is inserted and at the other end with a gear portion; And an inner race fisher formed on an inner circumference of the filtration chamber and configured to mesh with the ground plane.

The second power transmitting member may include a cylindrical body, a gear portion disposed to form a fluid transfer hole having a larger diameter than the main body and spaced from the main body, and a plurality of gear grooves and gear protrusions alternately formed repeatedly; And a plurality of joints connecting the gear teeth and the gear protrusions with the main body, wherein the joint teeth are formed to have a downward gradient from the main body toward the gear portion.

Meanwhile, the drainage chamber is configured to communicate with the outside by providing a vent hole on the upper surface of the drain pipe

In addition, it is possible to prevent backflow of wastewater and odor to the inside of the drainage chamber by providing a backflow in the drainage pipe, wherein the ventilation hole is formed between the drainage chamber and the reverse side of the drainage pipe to be.

At this time, the filtration chamber is composed of an outer pipe portion having a plurality of filtration holes and an inner pipe portion having a plurality of filtration holes formed to form a certain gap with the outer pipe portion.

In addition, hemispherical protrusions are formed on a lower surface of the inner tube, and an upper surface of the receiving plate is provided with an embossed groove for receiving the protrusions.

According to the filtration apparatus having an automatic backwashing and oxygen bubble supplying function according to the present invention, when foreign matter is deposited on the filter medium during the filtration operation and the filtration efficiency is lowered, the water level rises and the filtration column is rotated by detecting the water level. There is an advantage that the automatic backwashing can be performed and the filtering action can be continuously performed again after backwashing.

In addition, since the oxygen bubbles are generated (dissolved) in the wastewater by washing the filter medium, the amount of dissolved oxygen is increased, so that the purification function for the waste water and the like can be performed.

1 is a perspective view showing a filtration apparatus having an automatic backwashing and oxygen bubble supplying function according to the present invention,
2 is an exploded perspective view showing a basic example of a filtration column of the present invention,
Fig. 3 is a side sectional view of Fig. 1,
4 is an exploded perspective view showing a power transmitting portion which is a constitution of the present invention,
5A and 5B are side cross-sectional views showing an operating state of the filtration apparatus shown in Fig.

In describing the present invention, terms and words used in the present specification and claims are to be construed in accordance with the principles of the present invention, on the basis that the inventor can properly define the concept of a term in order to best explain his invention It should be construed as meaning and concept consistent with the technical idea of.

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

The filtration device having the function of automatic backwashing and oxygen bubble feeding of the present invention is used for the treatment of foreign matter such as sewage, wastewater or sewage sludge introduced into a manhole, As a basic example of the present invention, a filtration apparatus having an automatic backwashing and oxygen bubble feeding function includes an upper chamber 100, a drainage chamber 300, a filtration chamber 400 , a filter medium 500, As its constituent elements.

1 to 3, a space is formed in the upper chamber 100 and a motor 110 is formed in an inner space of the upper chamber 100, (110) is connected to the filtration chamber (400), and a specific structure thereof will be described below.

A space is formed in the lower portion of the upper chamber 100, and a drainage chamber 300 communicating with the drainage pipe 310 is formed at a side of the upper chamber 100 and the lower portion of the drainage chamber 300 is opened.

In addition, a receiving portion 340 is formed in the lower end of the drainage chamber 300 to have an enlarged diameter, and the upper end of the filtration chamber 400 is inserted into the receiving portion 340.

Wastewater or the like treated with a foreign material such as sludge to be described below is discharged to the outside through the drain pipe 310. The drain pipe 310 constitutes a reverse side 311 as shown in FIG. It is proper to prevent the odor, treated wastewater, and the like from flowing backward to the drain pipe 310.

The backflow prevention valve 311 is a conventional backflow preventive device and structurally opens only in one direction, thereby blocking the flow of water, gas, etc. flowing backward from the opposite direction. The operation of the backflow 311 may be mechanically opened or closed by the flow direction of the water to be drained, but may be automatically opened or closed according to a control command of the operator by providing a control facility (not shown) It is a matter of course.

A vent hole 350 is further formed in the upper surface of the drain pipe 310. The vent hole 350 is formed in the upper part of the drain pipe 310 so that foreign matters such as sludge deposited on the filter material 500 The water inside the filtration chamber 400 is discharged to the outside through the filter medium 500 and is discharged to the inside space of the filtration chamber 400 which is in a vacuum state, It becomes a means of an air passage for introducing air.

The air that flows naturally into the filter media 500 also flows through the filter media 500 by the centrifugal force of the filtration chamber 400 and then flows into the waste water. At this time, A relatively small amount of bubbles corresponding to the gaps of the particles 500 are generated.

Therefore, oxygen bubbles are generated during backwashing of the filtration apparatus by rotating the filtration chamber 400, and the amount of dissolved oxygen (DO) in the wastewater increases. Therefore, the wastewater discharged through the water discharge pipe 310 is regulated And the BOD (biological oxygen demand) that is being used can be discharged as much as possible.

This is because the cleaning of the filtration chamber 400 must be performed periodically in order to increase the filtration efficiency and the supply of the oxygen bubble due to the cleaning of the filtration chamber 400 is accompanied by the BOD (biological oxygen demand) It is possible to expect an effect that can be steadily reduced.

Although not shown in the drawing, a water level sensor is provided in a facility such as an air conditioner, a manhole, or a tank in which the filtration apparatus according to the present invention is installed, so that the filtration efficiency is lowered due to the closing phenomenon of the filter medium 500, When the water level rises to a predetermined level or higher, it is sensed and the motor 110 is automatically rotated to perform backwashing and supply of oxygen bubbles to the filter medium 500.

It is preferable that the position of the vent hole 350 is formed between the drainage chamber 300 and the backside 311 because the inner tube 420 of the filtration chamber 400 rotates, When the hole 421 generates an oxygen bubble and discharges it to the outside of the filter media 500, a vacuum is generated inside the inner pipe 420 to allow external air to flow through the vent hole 350. In the filtration chamber 400, The flow of air is prevented from being blocked by the backflow 311 when the vent hole 350 is longer than the position of the backflow 311.

Also, since the vent hole 350 is formed on the upper side of the drain pipe 310, it is possible to prevent the lower and wastewater passing through the drain pipe 310 from leaking, and the filtration chamber 400 into which the air flows, 300, the air flow is guided downward to minimize the bending (friction) with respect to the traveling direction of the air, which is advantageous in terms of efficiency.

As shown in FIGS. 2 and 3, the filtration chamber 400 includes an outer tubular portion 410 having a plurality of first filtration holes 411 formed thereon, a plurality of outer tubular portions 410, And an inner tube portion 420 formed with two filtration holes 421.

The outer tubular portion 410 and the inner tubular portion 420 are bolt-connected to a joint portion 415 formed with a bolt hole (not shown) at an upper end thereof, and the outer tubular portion 410, A filter material 500 to be described below is placed in a space formed by the tube portion 420 and the joint portion 415.

In this case, a filtering frame 430 may be further provided between the outer tubular portion 410 and the inner tubular portion 420 to serve as a frame of the filter material 500 to shape the filter material 500, The frame 430 includes a plurality of projecting tabs 432 for maintaining a gap between the outer tubular portion 410 and the inner tubular portion 420 and a filter medium 500 having a spacing And a space portion 434.

The outer tubular portion 410 and the inner tubular portion 420 are connected to each other by a finishing plate 490 at the lower end thereof. The finishing plate 490 has a hollow 491 formed at the center thereof.

It is proper that the finishing plate 490 can be attached to and detached from the outer tubular portion 410 and the inner tubular portion 420. This is because when the finishing plate 490 is attached and detached, . Since the detachable structure of the finishing plate 490 can be variously configured, a detailed description thereof will be omitted.

A protrusion 422 is formed on the lower surface of the inner tube 420 so as to be inserted into the hollow 491 of the finishing plate 490. The protrusion 422 has a hemispherical protrusion 423 The protrusion protrusion 423 is inserted into the protrusion groove 610 formed on the upper surface of the support plate 600 to prevent eccentricity from being applied to the entire rotation of the filtration chamber 400.

In addition, the inner race (420) is integrally formed with the inner race (420) at the upper end of the inner race (420). The internal game fisher unit 470 is included in the power transmitting unit 440. The internal fisher fisher unit 470 is continuously and repeatedly connected to the internal fishes 470 in a zigzag shape along the circumference thereof, And is engaged with the second power transmission port 460, which will be described below, by the insertion engagement method.

Hereinafter, the power transmitting portion 440 will be described in detail with reference to FIG.

As shown in the figure, the power transmitting portion 440 includes a first power transmitting portion 450, a second power transmitting portion 460, and an internal game portion 470.

One end of the first power transmission hole 450 is coupled to the motor 110 so that the first power transmission hole 450 receives the rotational force of the motor 110 and the other end of the first power transmission hole 450 is connected to the motor 110, A projection 454 is formed.

At this time, it is preferable that the engaging protrusions 454 are formed in a quadrangular to hexagonal prism shape so that the rotational force of the motor 110 is transmitted to the engaging grooves 462 having a groove structure having a corresponding structure Do.

The second power transmission port 460 includes a cylindrical main body 461 and a coupling groove 462 having a groove structure of a quadrangular to hexagonal shape corresponding to the coupling projection 454 on the upper surface of the main body 461. [ A plurality of gear grooves 465 and a plurality of gear teeth 466 are alternately arranged along the circumference of the body 461 so as to form a fluid transfer hole 467 having a diameter larger than that of the main body 461, And a plurality of joints 463 which connect the gear teeth 464 and the gear teeth 465 and the gear teeth 466 to the main body 461.

The gear groove 465 and the gear protrusion 466 have a structure in which they engage with the connection bone 471 and the cartilage mount 472 of the internal game fish 470, (461) toward the gear portion (464).

Therefore, as the motor 110 rotates, the inner race 470, in which the first power transmission port 450 and the second power transmission port 460 interlock with each other and engages with the second power transmission port 460, Waste water or the like filtered through the filter medium 500 is discharged to the drain pipe 310 through the fluid transfer hole 467 through which the filtration chamber 400 is vertically communicated. It is.

At this time, the joint seal 463 has a downward gradient from the main body 461 toward the gear portion 464, thereby reducing the friction with the discharged wastewater, thereby improving the drainage efficiency and the device performance .

An insertion portion 412 having a smaller diameter is formed in the upper portion of the outer tubular portion 410 so that the insertion portion 412 is inserted into the receiving portion 340. Eccentricity is prevented by the protrusion protrusion 423 and the catch groove 610 in the lower part of the filtration chamber 400 and eccentricity is prevented by constituting the insertion part 412 and the receiving part 340 at the upper part, So that the chamber 400 can rotate without deviating.

The first filtration hole 411 of the outer tubular portion 410 is connected to the bottom of the first filtration hole 411 through the fluid passage hole 467 and the bottom of the first filtration hole 411, So that foreign substances such as sludge trapped in the filter material 500 can be leaked through the first filtration hole 411 during backwashing and oxygen supply.

The second filtration hole 421 of the inner tube portion 420 is formed by filtering the lower and wastewater through the first filtration hole 411 and the filter medium 500 so that the second power transmission hole 460 Wastewater or the like that has been filtered through the fluid transfer hole 467 of the discharge pipe 310 is discharged to the drain pipe 310.

The filter medium 500 is formed in a cylindrical shape having a hollow shape (not shown in the figure), and the inner tube 420 is embedded in the hollow. The material of the filter medium 500 is not limited, The spirally compressed shape of the material may be presented. In order to filter out the foreign matter from the wastewater or the like, the filtration chamber 500 The centrifugal force is generated in the filter medium 500 due to the rotation of the filter medium 500 and the foreign substances deposited between the gaps of the filter medium 500 are easily discharged to the outside by the centrifugal force. In order to induce the generation of oxygen bubbles through the gap of the filter medium 500, the stainless steel filter medium 500 is formed so as not to generate rust.

A support plate 600 is formed on the lower portion of the filtration chamber 400. The support plate 600 has a structure for allowing the filtration chamber 400 to be rotated from the upper portion thereof when the rotation force is generated . A protrusion protrusion 423 formed in the filtration chamber 400 is inserted into the protrusion groove 610 and the protrusion protrusion 423 is inserted into the protrusion protrusion 423 from the inside of the protrusion groove 610, So that the projecting projection 423 is rotated.

The retainer 341 is preferably inserted between the drain chamber 340 and the filtration chamber 400 by retaining the retainer 341 in order to prevent foreign substances from entering the drain chamber 340, And the retainer 341 is attached to the insertion portion 412 and rotated when the filtration chamber 400 rotates.

The cover 480 is fixed to the drain chamber 300 and the support plate 600 to stably fix the filtration chamber 400 and serve as a fixing shaft to smoothly rotate without eccentricity during backwashing, ) It is desirable to reduce the friction of the rotating load in water at least during rotation for backwashing.

Hereinafter, the operation of the filtration apparatus having the automatic backwashing and oxygen bubble feeding function of the present invention will be described with reference to 5a and 5b.

First, as shown in FIG. 5A, lower and wastewater flows into the first filtration hole 411 of the filtration chamber 400 and flows into the lower and wastewater through the filter medium 500 to remove foreign substances such as sludge Wastewater or the like that has been treated flows into the drainage chamber 300 through the fluid transfer hole 467 and the introduced wastewater or the like is discharged to the outside through the drainage pipe 310.

When the waste water or the like is filtered using the filtration apparatus, foreign substances such as sludge are deposited on the filter medium 500, thereby lowering the filtration efficiency of the filtration apparatus. In this case, as shown in FIG. 5B, the control unit 40 is operated by an automatic operation by detection of a water level sensor (not shown) or the like or by an operator's operation, thereby operating the motor 110, The centrifugal force is applied to the filtration media 500 in the filtration chamber 400 and the centrifugal force is applied to the filtration media 500 The foreign matter such as sludge immersed in the gap flows out to the outside through the first filtration hole 411, and the filter material 500 is backwashed.

At this time, when the filter medium 500 is backwashed, foreign matter such as sludge which has flowed into the gap of the filter medium 500 flows out to the outside, and the lower and wastewater existing in the filtration chamber 400 and the drain pipe 310 is discharged to the filter medium 500 A vacuum is formed inside the filtration chamber 400 and then flows through the vent hole 350 of the drain pipe 310. As in the backwashing principle described above, Wastewater or the like through the filter material 500, and the discharged air is in the form of a small oxygen bubble due to the gap of the filter material 500, and as shown in Fig. 5B, the purification function by the oxygen bubble Can be performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

100: upper chamber 300: drainage chamber
400: Filtration chamber 500: Filter medium
600:

Claims (8)

An upper chamber in which the motor is housed; A drain chamber mounted on a lower portion of the upper chamber and having a drain pipe formed on a side surface thereof; A filtration chamber mounted to rotate under the rotation of the motor at a lower portion of the drainage chamber and having a plurality of filtration holes; A filter medium positioned inside the filtration chamber; And a support plate on which the filtration chamber is placed, the filtration apparatus having an automatic backwashing and oxygen bubble supplying function,
Wherein the drainage chamber is configured to communicate with the outside by providing a vent hole on an upper surface of the drainage pipe,
Wherein the motor and the filtration chamber are connected by a power transmission portion, the power transmission portion has one end coupled to the motor and the other end formed with a coupling protrusion, the one end having a coupling groove into which the coupling protrusion is inserted And the other end of which is formed with a gear portion; And an inner race formed on an inner periphery of the filtration chamber and adapted to engage with the gear portion,
The second power transmitting member includes a cylindrical main body; A gear portion disposed so as to form a fluid transfer hole having a larger diameter than the main body and spaced from the main body and having a plurality of gear grooves and gear protrusions formed alternately and repeatedly; And a plurality of joints for connecting and reinforcing each of the gear grooves and each gear projection and the main body,
Wherein the coupling is configured to form a downward gradient from the main body toward the gear portion so as to reduce the friction between the lower and wastewater filtered by the drain pipe through the fluid transfer hole to prevent the drainage efficiency from being lowered. Filtering device with cleaning and oxygen bubble feeding function.
delete delete delete The method according to claim 1,
And a backflow is provided in the inside of the drain pipe so as to prevent reverse flow of waste water and odor into the drainage chamber,
Wherein the vent hole is formed between the drainage chamber and the back-up portion of the area of the drain pipe.
The method according to claim 1,
Wherein the filtration chamber comprises an outer pipe portion having a plurality of filtration holes and an inner pipe portion having a plurality of filtration holes formed to form a constant gap with the outer pipe portion.
The method according to claim 6,
Wherein a hemispheric protrusion protrusion is formed on a lower surface of the inner pipe portion, and an air groove is formed on an upper surface of the receiving plate to accommodate the protrusion protrusion.


The method according to claim 6,
Wherein the filtration chamber is provided with a lid surrounding the outside thereof,
And an inserting portion is formed at an upper portion of the outer tube portion to have a smaller diameter and to be inserted and fixed into the drainage chamber,
And a retainer for blocking foreign matter from flowing into the connection portion with the drainage chamber when the filtration chamber is rotated,
Wherein the cover is fixed to an outer surface of the drainage chamber and to the base plate,
Wherein the retainer is disposed between the drainage chamber and the lid and is in close contact with the insertion portion when the filtration chamber is rotated.

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