KR20190022261A - Filtration System with Real-time Cleaning Function - Google Patents

Abstract

The present invention relates to a filter system with a real-time washing function. The filter system can effectively filter various floating substances included in raw water while being capable of discharging a design flow amount desired by a user in a uniform manner. The filter system includes: a filter protection housing in the shape of a hollow cylinder; a disk-shaped middle flange which is installed in the upper inner part of the filter protection housing to be spaced apart from the upper end of the filter protection housing while having the outer peripheral ends fixed to the inner peripheral surface of the filter protection housing and through-holes therein; a disk-shaped lower flange which is installed in the lower part of the filter protection housing to be spaced apart from the lower end of the filter protection housing while having the outer peripheral ends fixed to the inner peripheral surface of the filter protection housing; a hollow cylindrical filter which has the upper end fixed and installed on the inner peripheral ends of the middle flange and the lower end fixed and installed to the lower flange; raw water supply pipes installed and connected to the filter protection housing between the middle flange and lower flange; filtered water discharging pipes which are installed and connected to the filter protection housing on the upper part of the middle flange; and a washing slit unit which has an upper end supported on the upper cover installed on the upper end of the filter protection housing in a rotatable manner, has the lower end supported on the lower flange in a rotatable manner, and sprays washing water to the filter through slits arranged on ends of protrusion units protruding to the filter.

Description

[0001] The present invention relates to a filtration system having a real-

The present invention relates to a filter system having a real-time cleaning function, and more particularly, to a filter system capable of efficiently and constantly discharging a designed flow rate of filtration water while efficiently filtering a large amount of various suspended substances contained in raw water To a filter system having a real-time flush function.

Currently, there are three basic technologies that are applied to the ship water ballast water treatment and the cooling water treatment for the power plant, and are applied to the filter system that has been patented or registered recently.

The first basic description is as follows. When the raw water containing various suspended substances is injected into the fixed filter having a circular tube shape at the inlet pressure (P1) through the inflow pipe, the pipe discharging the treated water is exposed to the atmospheric pressure or the inflow pressure If there is a back pressure (P2) smaller than P1, the flow of the fluid is generated from the inside of the filter to the outside due to the pressure difference inside the filter, that is, the differential pressure (ΔP = P1-P2) The filtration process proceeds as the material is filtered. On the other hand, during the filtration process, the filter mesh is gradually clogged by the suspended substance over time, so that the pressure difference? P is increased and the discharge flow rate of the treated water is gradually reduced. At this time, when the pressure difference? P reaches a certain threshold value or more, a backwashing process is performed to pierce the filter mesh blocked by the suspended substances in the filtration process. At this time, by operating the suction pump so that the flow of the fluid is generated from the outside of the filter to the inside (that is, opposite to the filtration process), the debris covering the filter is discharged together with a part of the sucked water outside the filter flushing. The basic technology described above is applied to products manufactured by foreign companies such as Filtersafe, Optimarine, MossHydro, etc. The differences between the companies are the shape of the suction device for sucking the filter residue effectively and the suction for the suction efficiency And the method of contact between the distal end and the filter mesh surface. On the other hand, in the application example of this basic technique, an element having a combination of a filter and a suction device is mounted in the filter system, and the individual suction device is composed of several small circular tubes, And a method of increasing the discharge efficiency by increasing the barrier property with the inside of the filter by treating the contact portion with an O-ring by being disposed in contact with the filter mesh by 360 degrees (Application No. 10-2013-7032149). Another example is a method in which a module with nozzles arranged in a suction device in a backwash process is partially disposed and rotated so that a filter mesh for backwashing can be contacted without a dead zone (Application No. 10-2012- 0124654). Another embodiment is a system in which such a filter system is connected in parallel and then controlled by a control device so that some of the filter systems carry out the filtration process and the remaining filter systems carry out the backwash process (Application No.: 10-2011-0079040). In this case, the backwashing process is also divided into a primary washing by air pressure and a secondary washing by water. However, this example has the disadvantage that the number of equipments required for processing the same flow rate and the installation space are relatively large and unavailable.

The second basic description is as follows. When a plurality of filter elements are arranged along the circumference in the cans provided in the filter system housing and the raw water flowing together with the floating material is sent to the inside of the filter element, the floating material is filtered by the difference between the inflow pressure and the discharge pressure, The filtered water is discharged. A filter system of this type is called a candle type filter system. On the other hand, if the residue of suspended solids gradually clogs the filter mesh over time, and the discharge flow rate of the filtered water gradually decreases, the filtered high-pressure inflow water itself or the treated filtered water is fed back by using a compression pump, The filter elements are alternately backwashed. In this case, the backwashing method uses the velocity of the fluid by the pressure of the washing water itself, not the suction, and the flow direction of the fluid is the same as the longitudinal direction of the filter, so that there is great difficulty in completely discharging the deeply closed debris between the filter meshes in the filtration direction of the filter . Therefore, as time passes, the clogging of the entire filter elements gradually progresses, and the discharge flow rate of the treated water is drastically reduced. Such a basic technique is typically employed in products by Boll & Kirch, and application examples thereof include application numbers 10-2011-0125848 and 10-2013-0165729. On the other hand, in order to compensate for the disadvantages of this basic technology, that is, depending on the pressure and speed of the washing water, the debris in the filter is not cleaned well. In order to improve the efficiency of backwashing by vibrating the filter mesh or housing with ultrasonic waves There are also examples (Application No. 10-2012-0077313). However, in this example, since the pressure difference between the inside and outside of the filter continues to be applied, it is almost impossible to shake off the debris tightly sandwiched between the filter meshes by the ultrasonic vibration, which is merely an embodiment.

The third basic technique is the same as that of the second basic technique using a candle type filter element and filtration process and backwashing process, but using a circular tube type filter instead of a candle type filter element, A basket type suction device driven by a motor is used. This method is not suitable for applications where a constant flow rate is continuously applied since the filtration process and the backwash process must be separated and operated sequentially. On the other hand, companies that adopt this basic technology are Filterx and Hydac.

The three basic techniques described above and the features and disadvantages of the application examples are as follows. First, a common feature of all technologies is that they have a separate filtration process and backwash process, which is only slightly different in terms of how the filtration process and the backwash process are conducted. Second, the filtration process and the backwash process may proceed separately or at the same time, but the filtration efficiency relative to the flow rate of the raw water is not relatively high due to the large amount of loss flow used for discharging the clogs between the filter meshes by backwashing. In the commercialized technology, the loss flow rate is 10 ~ 30% relative to the normal flow rate, and the size of the filter system itself is inevitably increased in order to satisfy the desired design flow rate. Third, because the pressure of the fluid such as air or water used for backwashing is not high, it is not possible to completely remove the debris tightly caught between the filter meshes, so that the area of the filter that is clogged with time gradually increases. On the other hand, the time for which the pressure difference DELTA P exceeds the threshold value becomes shorter and the loss flow rate increases sharply, and it is very difficult to discharge the treatment flow rate stably and constantly.

On the other hand, the filter mesh size of the pretreatment filter system required in the ship ballast water treatment system is a sterilizing device among the zooplankton contained in seawater, so that it can not be completely sterilized. Lt; / RTI > Filter systems for filtering marine bio-organisms contained in seawater used as cooling water in nuclear or thermal power plants should use filters with mesh sizes up to 30 μm. The reason for this is that the embryos of marine biofouling organisms such as barnacles that are attached to the cooling water supply pipe and cause fouling phenomena and the size of freshly awakened D larva from eggs are about 40 μm (Hur Young-bae, Hur Seung-bum, Growth, Korean Aquaculture, 2000). A filter with a mesh size of up to 10 μm should be used to filter the green algae from the source water containing green algae at the water treatment plant (Nakdong River Basin Environment Agency, Nakdong River Cyanoba Information Kit, 2015). A common requirement in the above applications is that a fine micro filter having a mesh size of 10 to 40 μm should be used, but it must have a capability of constantly discharging the design flow rate stably for a long time without clogging the filter. Technology is not fully satisfying these requirements, so that many problems are occurring.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and problems, and it is an object of the present invention to provide a filter having a real-time cleaning function capable of efficiently discharging a desired design flow rate while effectively filtering various suspended substances contained in raw water. The purpose of the system is to provide.

Particularly, the present invention is capable of exhibiting a filtration function based on the size of a suspended material and at the same time being able to withstand the pressure of the influent raw water sufficiently and collecting a considerable amount of suspended solids introduced together with the raw water before being filtered by the filter, And to provide a filter system having a real-time cleaning function capable of forcibly washing the filter clogged with suspended solids in real time using the impact pressure of the high-pressure washing water.

As a means for solving the above-mentioned problems, the filter system having a real-

A filter protection housing made of a hollow cylindrical shape,

An intermediate flange in the form of a disc, which is installed in the upper part of the filter protection housing and spaced from the upper end of the filter protection housing, the outer peripheral end of which is fixed to the inner circumferential surface of the filter protection housing,

A lower flange disposed in a lower portion of the filter protection housing and spaced apart from a lower end of the filter protection housing, the outer periphery of the filter protection housing being fixed to an inner circumferential surface of the filter protection housing,

A hollow cylindrical filtration filter having an upper end fixed to an inner peripheral end portion of the intermediate flange and a lower end fixedly installed to the lower flange,

A raw water supply pipe connected to the filter protective housing between the intermediate flange and the lower flange,

A filtered water discharge pipe connected to the filter protective housing on the upper side of the intermediate flange,

The upper end of the upper cover is rotatably supported on the upper end of the filter protection housing and the lower end of the upper cover is rotatably supported on the lower flange. The slit provided on the end of the protrusion protruding toward the filter filter, And a cleaning slit unit for spraying the cleaning slit unit.

The cleaning slit unit may include a hollow portion for receiving washing water therein, the slit may be formed in a vertical direction,

Wherein the end of the cleaning slit unit is located at a hollow portion of the cleaning slit unit and is connected to the high-pressure pump through the inside of the filter protection housing at the lower portion of the lower flange and has a concentric axis with the center axis of the cleaning slit unit, And a high-pressure washing water pipe connected to the upper portion.

Further, a washing water supply hole formed in the lower flange to connect the inside of the filter filter and the inside of the filter protection housing at the lower portion of the lower flange,

And a high-pressure pump supply pipe for connecting the inside of the filter protection housing at the lower portion of the lower flange to the high-pressure pump.

Further, the cleaning slit driving motor provided on the upper surface of the upper cover,

And a reduction gear connected between the cleaning slit driving motor and the cleaning slit unit.

The apparatus further comprises a plurality of floating material collecting units installed in the space between the filtering filter and the filter protecting housing to collect floating materials.

And a floating material discharge pipe connected to a lower portion of the floating material collecting unit and connected to the outside of the filter protective housing through the lower flange.

The filter protection housing further includes a support for the raw water circulation which is fixed to the inner circumferential surface of the filter protection housing and installed in an arc shape toward the filter filter so that the raw water introduced into the filter protection housing rotates. .

According to the present invention, the filter system having a real-time cleaning function of the present invention is capable of efficiently filtering a variety of suspended substances contained in raw water while constantly discharging a design flow rate desired by a user, The present invention is capable of exhibiting a filtration function based on the size of a suspended material and at the same time being able to withstand the pressure of the influent raw water sufficiently and collecting a considerable amount of the suspended substances introduced together with the raw water before being filtered by the filter, And it is also possible to perform forced cleaning in real time using the impinging pressure of the high-pressure washing water.

1 is a sectional view showing a filter system having a real-time cleaning function according to the present invention.
2 is a cross-sectional view showing an AA cross section in Fig.
3 is a view showing another embodiment of a filter protection housing of a filter system having a real-time cleaning function according to the present invention.
4 is a view showing a cleaning slit unit of a filter system having a real-time cleaning function according to the present invention.
5 is a partially enlarged view showing a floating material collecting unit and a floating material discharge pipe of a filter system having a real-time cleaning function according to the present invention.
FIGS. 6 and 7 are views showing an operation process of filtration, cleaning, etc. of a filter system having a real-time cleaning function according to the present invention.
8 is a block diagram illustrating a control process of a filter system having a real-time cleaning function according to the present invention.

Preferred embodiments of a filter system having a real-time cleaning function according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view showing a filter system having a real-time cleaning function according to the present invention, FIG. 2 is a sectional view showing an AA cross-section of FIG. 1, FIG. 4 is a view showing a cleaning slit unit of a filter system having a real-time cleaning function according to the present invention, and FIG. 5 is a view showing a cleaning slit unit having a real- 6 and 7 are views showing operation steps of filtration, washing, etc. of a filter system having a real-time cleaning function according to the present invention, and FIGS. 8 is a block diagram illustrating a control process of a filter system having a real-time cleaning function according to the present invention.

Hereinafter, the components of the filter system having the real-time cleaning function according to the present invention will be described.

1 and 2, the filter protection housing 1 is provided therein with a rectangular filter filter 2, a cleaning slit unit 3, A suspended solids collecting unit 4, a suspended solids discharge pipe 5, a high-pressure washing water supply pipe 6, and the like.

A bottom flange 7 is provided at the lower end of the filter protection housing 1 and a bottom flange 7 is coupled to the filter protection housing 1 to form a part of filtered water for supplying to a high- .

An upper cover 8 is mounted on the upper end of the filter protection housing 1 and an upper flange 9 is provided to prevent the filtered water having a back pressure from leaking through the O- .

 An intermediate flange 10 installed in an upper portion of the filter protection housing 1 and spaced apart from an upper end of the filter protection housing 1 is a disc-shaped member having a through hole formed therein, And serves as a partition for separating the incoming raw water from the filtration water and to fix the upper portion of the rectilinear filter 2 through an O-ring, and is installed at the lower end of the filtrate discharge pipe 14.

A lower flange 12 provided in a lower portion of the filter protection housing 1 and spaced apart from a lower end of the filter protection housing 1 is a disc-shaped member whose outer peripheral end is fixed to the inner peripheral surface of the filter protection housing 1 And separates the space in which the raw water flows and the space in which the filtered water supplied from the high-pressure pump is stored. The lower portion of the rectilinear filter 2 is fixedly coupled to the upper portion, and a Teflon bearing 13 .

3, the filter protection housing 1 may be manufactured as a three-piece structure with the boundary between the intermediate flange 10 and the bottom flange 12, The simplicity of disassembly for assembly and maintenance can be pursued.

A filtration filter (2) provided to filter suspended solids from raw water is a member whose upper end is fixed to the inner circumferential end of the intermediate flange (10) and whose lower end is fixed to the lower flange (12) It is preferable to fabricate a woven metal sheath in the form of a hollow cylinder by filtering out suspended solids larger than the designed size and discharging the filtrate desired by the user.

A raw water supply pipe 11 is connected to the filter protection housing 1 between the intermediate flange 10 and the lower flange 12. The raw water supply pipe 11 is connected to a pipe to be.

A filtered water discharge pipe 14 is connected to the filter protection housing 1 on the upper side of the intermediate flange 10 and the filtered water discharge pipe 14 includes a floating material flowing through the raw water supply pipe 11 This is a pipe for discharging filtered water which has been filtered through the filtration filter 2 in the raw water with suspended solids larger than the designed size.

The cleaning slit unit 3 provided as a means for cleaning the filtration filter 2 has an upper end rotatably supported on an upper cover 8 installed at an upper end of the filter protection housing 1, Is a member rotatably supported on the flange (12) and injecting wash water toward the filtration filter (2) through a cleaning slit (31) provided at a projection end protruding toward the filtration filter (2).

4, the cleaning slit unit 3 includes a hollow portion in which cleaning water is received, and the cleaning slit 31 is formed in a vertical direction. Specifically, as shown in FIG. 4, A cleaning slit chamber 33 formed to protrude radially outward from the high pressure chamber 32 and a high pressure cleaning water discharge pipe 33 formed at an end portion of the cleaning slit chamber 33 in an upward and downward direction, A cleaning slit 31 for spraying the cleaning liquid through a narrow width, a rotary shaft 34 having a concentric axis with the high-pressure chamber 32 and extending upward to allow rotation, (2) is tightly installed in parallel with the longitudinal direction of the filter (2), and the clogged filtration filter (2) is forcibly pierced by using the impinging pressure of the high pressure cleaning water. It is characterized in that the chuck.

The washing slit unit 3 may be provided in plural depending on the amount of raw water to be treated and the load of suspended substances.

A cleaning slit driving motor 15 installed on the upper surface of the upper cover 8 as means for driving the cleaning slit unit 3 and a cleaning slit driving motor 15 installed on the upper surface of the cleaning slit driving motor 15 and the cleaning slit unit 3, The cleaning slit driving motor 15 is a three-phase three-phase motor for rotating the cleaning slit unit 3. The rotational speed is controlled through an inverter receiving a frequency command from the controller, The friction torque of the lip seal, the reduction ratio of the reduction gear, and the efficiency, etc., and the reduction gear unit is preferably determined in consideration of the inertia moment of the cleaning slit unit 3, the torque due to the resistance of water, Is a device for reducing the number of rotations of the small cleaning slit drive motor 15 and converting it into the number of rotations and torque required for rotation of the cleaning slit unit 3. [

A bearing and a first Teflon lip seal 17 are attached to the coupling portion of the upper cover 8 and the rotary shaft 34 to allow rotation of the cleaning slit unit 3 and leakage of filtered water from the rotary part. Specifically, a ball bearing is used as a bearing, and a teflon lip seal is a rotary seal having a lip made of Teflon.

A Teflon bearing 13 is used at the coupling portion of the lower flange 12 and the cleaning slit unit 3 to support the lower portion of the cleaning slit unit 3 and enable rotation of the cleaning slit unit 3, It performs both axial support and lubrication functions. It is made of Teflon to prevent corrosion by the fluid to be filtered.

Pressure washing water pipe is provided for supplying the high-pressure washing water to the washing slit unit 3. The high-pressure washing water pipe has its end located in the hollow portion of the washing slit unit 3, specifically in the high-pressure chamber 32, The cleaning slit unit 3 is connected to the high pressure pump through the interior of the filter protection housing 1 under the flange 12 and has a concentric axis with the central axis of the cleaning slit unit 3 for rotation of the cleaning slit unit 3, Lt; / RTI >

Here, the washing water that has been compressed by the high-pressure pump and has reached the high-pressure chamber 32 of the cleaning slit unit 3 through the high-pressure washing water pipe passes through the filtration water in the filtration filter 2 having the back pressure, A second Teflon lip seal 19 is installed to prevent leakage due to the high pressure generated at this time. Since the second Teflon lip seal 20 is provided, (19) is installed around the high-pressure washing water pipe located at the lower end of the inside of the high-pressure chamber (32) of the cleaning slit unit (3) to effectively prevent leakage of the high-pressure washing water.

The high-pressure pump for supplying the high-pressure rinse water to the high-pressure rinse water pipe receives the rinse water through the supply pipe 21 for the high-pressure pump. The rinse water is used as the rinse water. A washing water supply hole 20 is provided in the lower flange 12 so as to connect the inside of the filter protective housing 1 under the flange 12 and the supply pipe 21 for the high- Pressure pump and the high-pressure pump.

According to another aspect of the present invention, there is provided a floating material collecting unit (4) installed in a space between the filter (2) and the filter protective housing (1) to collect floating materials, A floating material discharge pipe 5 connected to a lower portion of the floating material collecting unit 4 for discharging the material and connected to the outside of the filter protective housing 1 through the lower flange 12 is provided.

As shown in FIG. 5, the floating material collecting unit 4 is a rectangular parallelepiped hollow member having a coupling flange coupled to the filter protection housing 1 on one side thereof. And the floating material discharge pipe 5 is connected to the lower surface of the slit.

The suspended solids collecting unit 4 collects and discharges the suspended solids introduced together with the raw water before being filtered by the filtration filter 2. The difference between the raw water inflow pressure and the filtered water discharge pressure, The floating water contained in the raw water is excessively adhered to the filtration filter 2 so that the clogging of the filtration filter 2 is prevented, And also collects suspended solids floating together with the raw water by the impact pressure of the high-pressure washing water after being filtered by the filtration filter (2).

It is preferable that the suspended solids collecting unit 4 is provided at three intervals of 90 degrees for efficient collection regardless of the flow rate of the filtration water to be treated, the capacity of the filtration filter 2, and the load of the suspended substances to be collected.

According to the present invention, as a means for efficiently introducing filtration action to a cylindrical filter filter 2 in which raw water circulates around the filter filter 2, And a raw water circulating supporter (22) installed at an angle to the filter (2) so as to cause the raw water flowing into the filter protective housing (1) to rotate.

As a result, the filtered raw water flows around the filtration filter 2, and the filtration action is generated. At this time, the suspended solids collecting unit 4 effectively collects the suspended solids contained in the raw water.

Hereinafter, the operation of the filter system having the real-time cleaning function according to the present invention will be described.

2 and 6, raw water introduced through the raw water supply pipe 11 flows into the raw water supply pipe 11 through the raw water supply pipe 11, Clockwise direction as shown in FIG. 2 by the raw water circulating supporter 22 installed on the downstream side. In this process, the filtered water passes through the filtration filter 2, And is discharged to the filtered water discharge pipe 14.

7, when the cleaning slit unit 3 is rotated through the cleaning slit driving motor 15 and the speed reducer 16 and the high-pressure pump is operated, the filtration filter 2 The filtration water in the inner part is supplied to the washing water supply hole 20 through the space below the lower flange 12 the supply pipe 21 for the high pressure pump 11 the high pressure pump 11 the high pressure wash water supply pipe 6 the high pressure chamber 32) -> cleaning slit chamber (33) -> cleaning slit (31), and the cleaning is performed by the high pressure discharge by the filtration filter (2).

The floating material contained in the raw water and flowing through the raw water supply pipe 11 flows along with the raw water through the raw water circulating support 22 around the filtration filter 2 At this time, the fluid flows into the suspended solids collecting unit 4 by the flow of the fluid faster than the filtration direction, and is discharged to the suspended material discharge pipe 5. The suspended solids separated from the filtration filter 2 during the washing process are also collected and discharged in the suspended solids collecting unit 4 in the process of circulating around the filtration filter 2, like the suspended solids flowing along with the raw water.

The filtration, washing, and collecting processes are performed simultaneously during the operation of the filter system, and can be controlled in detail and simultaneously by the control means. Hereinafter, such control means will be described.

8, the controller provided with the command input device is connected to a sensor provided in the filter protection housing 1 (for example, a raw water pressure sensor and a filtration water pressure sensor provided before and after the filtration filter 2) And outputs a motor control signal to the cleaning slit driving motor 15, a frequency control signal to the high pressure pump, a driving cycle signal to the suction pump, and a floating material discharge pipe 5 And outputs an opening signal of an electronic proportional valve installed in the control valve.

1: Filter protection housing 2: Filter filter
3: cleaning slit unit 4: floating material collecting unit
5: Suspended matter discharge pipe 6: High pressure wash water supply pipe
7: bottom flange 8: upper cover
9: upper flange 10: intermediate flange
11: raw water supply pipe 12: bottom flange
13: Teflon bearing 14: Filtrate discharge pipe
15: Cleaning slit driving motor 16: Reducer
17: Bearing and First Teflon Lip Seal
19: second Teflon lip seal 20: wash water supply hole
21: Supply piping for high pressure pump 22: Support for raw water circulation
31: cleaning slit 32: high pressure chamber
33: cleaning slit chamber 34: rotating shaft

Claims (1)

A filter protection housing made of a hollow cylindrical shape,
A hollow cylindrical filtration filter disposed inside the filter protection housing,
A raw water supply pipe connected to the filter protection housing,
A filtered water discharge pipe connected to the filter protection housing,
A cleaning slit driving motor installed on the upper portion of the filter protection housing,
And a reduction gear which connects the cleaning slit drive motor and connects the cleaning means.
Filter system with real-time cleaning function

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