KR100807085B1 - Rotary filter - Google Patents

Abstract

A rotary filter is provided to perform a backwashing process while the filter is in motion, thereby simplifying the work of washing a filter with accumulated sludge and achieving automatic washing. A filtering case(10) has a raw water input port(11) and a back water discharge port(13), which are opened and shut by a control valve. A strainer(20) is formed within the filtering case to have the same axis as the filtering case. A support shaft(14) is extended from one end of the strainer toward an outside of the filtering case. The other end of the strainer is formed outside the filtering case. The strainer is rotatively connected to the filtering case while the strainer communicates with a treatment water discharge port(12) opened and shut by the control valve. A screen(21) is formed on an outer surface of the strainer. Raw water is filtered by the screen, and discharged through the treatment water discharge port. A motor(30) is formed outside of the filtering case, and connected to the support axis of the strainer by gear or belt. A control part controls the raw input port, the back water discharge port, the control valve of the treatment water discharge port and a rotation of the motor.

Description

Rotary filter

The present invention includes a filter barrel provided with a raw water inlet and a backwash water outlet being controlled to open and close by a control valve; The filter barrel is formed coaxially inside, and one end portion is formed with a support shaft extending outside the filter barrel, the other end is formed outside the filter barrel and in communication with the treated water discharge port is controlled opening and closing by a control valve and the filter barrel A strainer which is connected to the rotating material and has a screen formed on an outer circumferential surface thereof, through which the raw water is filtered and discharged to the treated water outlet; A motor formed outside the filter barrel and connected to the support shaft of the strainer by a gear or a belt; A control valve for controlling the driving of the motor and the control valve of the raw water inlet, the backwash water discharge port, the treated water discharge port; It relates to a rotary filter, characterized in that configured.

In general, water pollution refers to a state in which pollutants exceed the natural self-cleaning action of water and are discharged into the natural water, so that the natural water itself cannot perform the self-cleaning action by the physicochemical and biological actions.

It is a fixed water pollutant that emits pollutants through a path leading to lakes or rivers at certain places such as factories, power plants, and sewage treatment plants, and arable land, forests, cities and suburbs, roads, parking lots, and car washes contain It is a non-static water pollution source that emits various pollutants such as asbestos, fertilizers, heavy metals, salt, oil, and garbage.

In order to prevent such water pollution, the pollutants are equipped with water treatment facilities, and those used are water filters.

However, since the flow of polluted water discharged to natural water has the same continuous flow as general water, it is preferable that the operation of the filter to improve the polluted water quality should be continuously performed like the flow of water.

However, since the operation of the filter is to filter out the contaminated sludge by the internal filtration filter, periodic cleaning of the filter is essential.

That is, the filter must be stopped to clean the filter.

Moreover, the washing operation of the filtration filter accumulating sludge is very difficult, and as the frequency of the washing (backwashing) operation to maintain good filtration capacity increases, the filtration efficiency is rather reduced.

It is an object of the present invention to provide a rotary filter in which backwashing proceeds as the operation of the filter continues, and the washing operation of the filtration filter in which sludge is accumulated is simplified, and automatic backwashing is performed.

In order to achieve the above object, the present invention includes: a filter passage provided with a raw water inlet and a backwash water outlet, which are controlled to be opened and closed by a control valve; The filter barrel is formed coaxially inside, and one end portion is formed with a support shaft extending outside the filter barrel, the other end is formed outside the filter barrel and in communication with the treated water discharge port is controlled opening and closing by a control valve and the filter barrel A strainer which is connected to the rotating material and has a screen formed on an outer circumferential surface thereof, through which the raw water is filtered and discharged to the treated water outlet; A motor formed outside the filter barrel and connected to the support shaft of the strainer by a gear or a belt; A control valve for controlling the driving of the motor and the control valve of the raw water inlet, the backwash water discharge port, the treated water discharge port; The rotating filter characterized in that it is configured to the technical gist.

Here, the control unit opens the raw water inlet to form a filtration path such that the raw water is filtered through the screen of the strainer and discharged to the treated water outlet, and the backwash path for discharging sludge accumulated in the filter tank by periodically opening the backwash water discharge port. It is preferred that the rotary filter is characterized in that the control valve to control the control valve to form a.

If the sludge accumulates on the screen of the strainer and the filtration capacity is not formed, the control unit blocks the raw water inlet, the treated water outlet, and the backwash water outlet, and drives the motor to rotate the strainer to accumulate fine sludge on the screen. After centrifugation, it is preferable that the raw water inlet and the backwash water discharge port are opened, and the backwash water in the filter can be discharged.

In addition, the strainer is preferably a rotary filter characterized in that the screen formed by covering the bag-shaped fabric on the skeleton formed of a cylindrical frame.

And the strainer is preferably a rotary filter, characterized in that it is a screen formed of protruding pores.

In addition, the filter barrel is preferably a rotary filter, characterized in that the raw water inlet is formed at the bottom and the backwash water discharge port and the treated water discharge port is formed at the top.

In addition, the filter barrel is preferably a rotary filter, characterized in that the raw water inlet is formed in the middle, the backwash water discharge port is formed at the lower end and the treated water discharge port is formed at the upper end.

According to the present invention, the backwashing proceeds while the operation of the filter continues, and the washing operation of the filtration filter in which the sludge is accumulated is simplified, thereby providing a rotary filter in which automatic backwashing is performed.

Hereinafter, the present invention will be described with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known technology or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. will be.

The terms to be described below are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators, and the definitions should be made based on the contents throughout the specification for describing the present invention.

1 is a cross-sectional structural view of the present invention, FIG. 2 is a cross-sectional structural view of another embodiment of the present invention, FIG. 3 is an actual implementation connection diagram of the present invention, FIG. 4 is a flowchart of a fluid in the practice of the present invention, 5 to 7 are cross-sectional structural views of yet another embodiment of the present invention.

As shown in the figure, the present invention largely includes a control valve 40, a raw water inlet 11, a backwash water outlet 13, a filter barrel 10, a support shaft 14, a treated water outlet 12, and a screen 21. ), A strainer 20, a motor 30, and a controller (not shown: the controller is a device such as a circuit unit for generating a control signal, not shown in the drawing).

The filter barrel 10 of the present invention is a chamber into which raw water is initially introduced.

The filter barrel 10 is connected to the raw water inlet 11 and the backwash water discharge port 13 is controlled by the control valve 40, according to the purpose shown in FIG. The raw water inlet 11 is formed at the bottom and the backwash water discharge port 13 and the treated water discharge port 12 are formed at the upper end, or as shown in FIG. 1, the raw water inlet 11 is formed at a stop and the reverse The washing water discharge port 13 is formed at the lower end and the treated water discharge port 12 is formed at the upper end, but this is merely a consideration that is selected by way of example according to the desired purpose, but is not necessarily limited thereto.

Because the present invention is mainly connected to the pressure pipe and the fluid path is determined by the fluid flow due to the strong hydraulic pressure is only a matter of efficiency in practice, because filtration and backwash is formed by a given path.

The strainer 20 of the present invention is a porous cylindrical tube coaxially formed inside the filter cylinder 10.

The strainer 20 has to be supported at both ends to the filter barrel 10 in order to be formed in a coaxial position in the filter barrel 10, one end of the support shaft 14 is formed to penetrate the filter barrel 10 It extends to the outside, the other end is extended to the outside of the filter barrel 10 in an open state.

The other end portion extending out of the filter barrel 10 communicates with the treated water discharge port 12 whose opening and closing is controlled by the control valve 40, and is supported through the filter barrel 10 so as to be rotatable.

The structure for coupling the strainer 20 to the filter barrel 10 so as to be rotatable material is coupled to form a sliding auxiliary component such as a bearing on the outer peripheral surface of the strainer as shown in Figure 1, or has a + -type center frame as shown in FIG. It can be coupled to the filter barrel by forming a cylindrical skeleton and by a support shaft extending at its center.

Pores of the strainer 20 is a filtration unit for filtering the sludge contained in the raw water, for this purpose formed by a screen or a filtration membrane formed with fine pores, in the following description of the present invention a broad meaning including the concept of the filtration membrane The screen 21 will be referred to collectively.

Accordingly, the screen 21 is generally made of pores finely formed on the outer circumferential surface of the strainer 20, in order to increase the efficiency of filtration, the protruding porous screen 21 in which the pores protrude as shown in FIG. It is also worth noting that it consists of -1).

Since the filtration capacity of the screen 21 is determined according to the state of the pores, in the present invention, the strainer 20 forms a skeleton in a cylindrical frame as shown in FIG. 5, and the bag-shaped fabric 21-2 is placed thereon. It is also preferable to cover and form the screen 21.

Such textile screens can be exchanged after a certain number of filtration and backwashing to form new filtration membranes, providing a convenient maintenance during long-term use.

The motor 30 of the present invention is formed on the outside of the filter barrel 10 is connected to the support shaft 14 of the strainer 20 by a gear or belt 31. The gear or belt 31 is for transmitting the rotational motion of the motor 30 to the support shaft 14, and as shown in FIG. 5, the motor 30 is directly connected to the rotation shaft 14 and omitted. It's okay.

As described above, the strainer 20 is coupled to the rotating shaft by the support shaft 14 and the other end. When the rotational force is transmitted to the support shaft 14 using the motor 30, the strainer 20 is provided. ) Becomes a rotating cylinder in which strong rotation is generated.

The control unit of the present invention is a device for controlling the driving of the motor and the raw water inlet 11, the backwash water discharge port 13, the control valve 40 of the treated water discharge port 12.

That is, as shown in FIG. 3, control valves 40 are formed at the raw water inlet 11, the backwash water discharge port 13, and the treated water discharge port 12, respectively, and these control valves 40 are the control unit. Driven according to the control signal of the opening and closing of each path.

The control unit is generally composed of a circuit unit for generating a designed control signal, the present invention is driven by the control signal of the control unit.

Hereinafter, the operation of the present invention will be described.

First, the present invention has a filtration path connected to the raw water inlet 11, the strainer 20, the treated water outlet (12).

Therefore, when performing filtration, the filtration path is opened to allow the flow of fluid.

When the fluid path is formed, the fluid flows naturally due to water pressure in the pressure pipe, and the sludge contained in the raw water does not pass through the screen 21 of the strainer 20 and accumulates in the filter tank 10.

At this time, the sludge is concentrated by the inlet pressure of the raw water is concentrated to one side inside the filter barrel 10, the backwash water discharge port 13 is formed in the portion where the sludge is concentrated.

Therefore, as shown in FIG. 1, the backwash water discharge port 13 is formed at the lower end of the filter barrel, and in this case, a backwash path connected to the raw water inlet 11 and the backwash water discharge port 13 is formed.

In the present invention, the control unit opens the raw water inlet 11 to form a filtration path such that the raw water is filtered through the screen 21 of the strainer 20 to be discharged to the treated water outlet 12, the backwash water outlet ( 13) is periodically opened to form a backwashing path so that sludge accumulated in the filter container 10 is periodically discharged.

According to this, the present invention performs periodic and intermittent backwashing with filtration as shown in FIG.

This allows for continuous operation without interruption of filtration for backwashing.

In particular, when the plurality of rotary filters are connected in parallel as shown in FIG. 3, if the backwash cycle of each rotary filter is changed, it is possible to operate the filter continuously.

On the other hand, the control unit blocks the raw water inlet 11, the treated water discharge port 12, the backwash water discharge port 13, if the sludge accumulated on the screen 21 of the strainer 20 does not form a filtration capacity The motor 30 is driven.

When the strainer 20 is strongly rotated by the motor 30, the fine sludge accumulated in the screen 21 is centrifuged and scattered in the filter tank. At this time, the raw water inlet 11 and the backwash water discharge port 13 are separated. The screen 21 is cleaned by opening and draining backwash water in the filter vessel 10.

The washing of the fine sludge also has the advantage that it is possible to continue operation without affecting the overall filtration if the backwash time is different while operating a plurality of rotary filters connected in parallel as shown in FIG.

In the embodiment different from the above description, when the raw water inlet 11 is formed at the lower end of the filter barrel 10 and the backwash water discharge port 13 and the treated water discharge port 12 are formed at the upper end, sludge is reversed. It will not accumulate around the water discharge port 13, in which case the washing by the intermittent discharge of backwash water is meaningless, the control unit is sludge accumulated on the screen 21 of the strainer 20 and filtered If the tungsten is not formed, the raw water inlet 11, the treated water outlet 12, and the backwash water outlet 13 are blocked, and the motor 30 is driven to centrifuge the accumulated fine sludge, and then the raw water inlet 11 ) And the backwash water discharge port 13 may be opened to carry out the backwash process only by the step of discharging the backwash water in the filter vessel 10.

Therefore, the present invention configured as described above is the essence of the basic technology to perform the backwashing by rotating the strainer 20 and the filtration and backwashing at the same time, the embodiment shown for the description of the present invention described above Since only one embodiment of the present invention is embodied, it can be seen that various forms of combination are possible to realize the gist of the present invention as shown in FIGS. 6 and 7.

Therefore, the present invention is not limited to the above-described embodiments, and various changes can be made by any person having ordinary skill in the art without departing from the gist of the present invention as claimed in the following claims. It will be said that the technical spirit of this invention is to the extent possible.

1 is a cross-sectional structural view of the present invention

2 is a cross-sectional structural view of still another embodiment of the present invention

3 is a practical implementation connection diagram of the invention

4 is a flow chart of a fluid in the practice of the present invention.

5 to 7 is another embodiment of the present invention

* Explanation of symbols on main parts of the drawings *

10: filter tank 11: raw water inlet

12: treated water discharge port 13: backwash water discharge port

14 support shaft 20 strainer

21: Screen 30: Motor

40: control valve

Claims (7)

A filtration tube provided with a raw water inlet and a backwash water outlet configured to be opened and closed by a control valve; The filter barrel is formed coaxially inside, and one end portion is formed with a support shaft extending outside the filter barrel, the other end is formed outside the filter barrel and in communication with the treated water discharge port is controlled opening and closing by a control valve and the filter barrel A strainer which is connected to the rotating material and has a screen formed on an outer circumferential surface thereof, through which the raw water is filtered and discharged to the treated water outlet; A motor formed outside the filter barrel and connected to the support shaft of the strainer by a gear or a belt; A control valve for controlling the driving of the motor and the control valve of the raw water inlet, the backwash water discharge port, the treated water discharge port; Rotary filter, characterized in that configured. The method of claim 1, wherein the control unit Opening the raw water inlet to form a filtration path so that the raw water is filtered through the strainer screen and discharged to the treated water outlet, And a control valve configured to periodically open the backwash water discharge port to form a backwash path for discharging sludge accumulated in the filter barrel. The method of claim 1 or 2, wherein the control unit If fine sludge accumulates on the screen of the strainer and no filterability is formed, Blocking the raw water inlet, the treated water outlet, and the backwash water outlet and driving the motor to rotate the strainer to centrifuge the fine sludge accumulated on the screen, and then open the raw water inlet and the backwash water outlet to open the backwash water in the filter. Rotary filter, characterized in that for discharging. The method of claim 3 wherein the strainer is Rotating filter, characterized in that the screen formed by covering the bag-shaped fabric on the skeleton formed of a cylindrical frame. The method of claim 3 wherein the strainer is A rotary filter, characterized in that the screen is formed of protruding porous. The method of claim 1 wherein the filter barrel The raw water inlet is formed at the bottom and the backwash water discharge port and the treated water discharge port is characterized in that formed on the top. The method of claim 1 wherein the filter barrel The raw water inlet is formed in the middle stop, the backwash water discharge port is formed at the bottom and the treated water discharge port is characterized in that formed on the top.

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