KR101117748B1 - Back washing filter system - Google Patents

Abstract

PURPOSE: A backwashing purifier is provided to constantly maintain the filtering and purifying performance of water by supplying ozone to water and improving the washing efficiency of a filter. CONSTITUTION: A container main body(200) is filled with a filtering member(100). A water supplying part(201) supplies water from the upper side of the container main body. A backwashing part(202) is arranged at the lower side of the container main body to wash the filtering member. A water draining hole(203) is in connection with the water supplying part and the backwashing part to discharge purified water through the filtering member. An ozone supplying part(204) introduces ozone into the container main body to eliminate impurities from the filtering member. An air vent(205) and a valve(206) control the flow of air generated from the inside of the container main body.

Description

BACK WASHING FILTER SYSTEM

The present invention relates to a backwash water purifier, and more particularly, a backwash for effectively washing impurities contained in sand through an ozone supply in washing a filter medium particle of a water purifier that purifies water supplied to a water purification plant or a swimming pool. It relates to a water purifier.

In general, water purification plants, which require the handling and management of water, are installed in place of water intake and water supply lines in order to supply water after treating it with water.

The water filter is configured to induce water to come into contact with a filtering element having a particulate form, such as a filter medium particle, or a filtering element having a surface area, and to filter impurities contained in the water through the filtering element in the process.

There are several types of filters used to purify water. Typical nonwoven fabrics and activated carbon are used.

In the case of the nonwoven fabric, a nonwoven fabric rod rolled in a roll is embedded in the filter body so that water is purified. In the case of the nonwoven fabric rod, it is formed by rolling multiple layers of thin nonwoven fabric, so the shape does not change and the nonwoven fabric rod can be used as it is embedded in the filter container.

In the case of activated carbon method, since the activated carbon particles are made of filter material particles, they are contained in a separate activated carbon container so as not to be scattered, and the activated carbon container is used in a filter container.

Conventional water purification devices have been commercialized in various ways using natural filtration, ion exchange, reverse osmosis, activated carbon filtration.

Currently commercially available natural filtration water purification device has a disadvantage of low water purification rate and the ability to filter out fine particles or heavy metals and ammonia nitrogen because it uses the atmospheric pressure.

Ion exchange water purifiers use ion exchange resins to separate and remove metal salts dissolved in water in an ionic state, which cannot remove particles such as bacteria, E. coli, and viruses.

The reverse osmosis water purifier applies a constant pressure to water and passes the semipermeable membrane of a specially manufactured polymer material to remove only pure water having a low molecular weight and to filter impurities having a large molecular weight. Impurities can be completely removed, but it completely filters out elements such as potassium and manganese, which are necessary for the human body, and has a very low filtration rate.

Activated charcoal water purifier is a method of filtration using charcoal or synthetic resin with greater filtration than charcoal. It is known to be effective in removing odors such as iron, trihalomethane, synthetic detergents, and pesticides.

However, this filtration method has a disadvantage in that the purified water rate is low because it uses atmospheric pressure. As such, there is a difference in water purification performance and pros and cons depending on the filtration method. Recently, many water purifiers using a secondary or tertiary mixed filtration method have been used.

The biggest problem of conventional water purifiers is that the filter must be replaced frequently. In order to solve this problem, as a method of regenerating the filter without having to change the filter while having high water purification efficiency, a backwashing method of the filter has been developed.

The backwashing method regenerates the filter by pressurized passing water that has already been purified in the direction opposite to the water purification direction of the filter to remove the filter foreign matter accumulated in the filter.

However, there was a need to improve the backwashing efficiency only by the pressurized passage of water. That is, it was difficult to expect sufficient washing efficiency because water was simply passed through the filter in the direction opposite to the water purification direction to remove accumulated foreign matter accumulated on the filter.

In particular, a water purification device installed in a water treatment plant, a swimming pool, etc., in which a large amount of foreign substances are generated and continuous filtration of the foreign substances is required, and a backwash device for regeneration of the filter is required.

The present invention was devised to improve the problems of the prior art, and supplies ozone to the water to clean the foreign matter accumulated in the filter constituting the water purification device to improve the washing efficiency of the filter to maintain a constant and continuous water filtration and purification performance Its purpose is to be able to maintain it.

The backwash water purifying apparatus according to the present invention for achieving the above object,
In the backwash water purification device comprising a filter container with a built-in filter member and a water supply unit which is in communication with the filter container for water purification by passing water into the filter container,

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A container body for purifying water in a process of filling a filter member made of sand filter material particles therein with the water passing through the filter member; A water supply unit configured to supply water to the upper part of the container main body to pass water through the filter member filled in the container main body to purify the water; A backwashing unit which is distinguished from the water supply unit and configured to wash the filter member by feeding back the washing water to the container body; A drain hole connected to the water supply part and a backwash part to discharge the purified water through the container body inside the filter member; An ozone supply unit installed outside of the container body to inject ozone into the container body to remove impurities and foreign matter accumulated in the filter member; It consists of an air vent and a valve installed on the upper side of the container body to control the air flow generated inside the container body,
The water supply unit includes a water supply pipe for supplying water supplied from the outside into the container body, a supply pipe extending from the water supply pipe connected to the upper side of the container body to supply water into the container body, and water supplied to the supply pipe. A water supply control valve installed in the water supply pipe for control, and first, second and third shut-off valves installed in the water supply pipe such that water flowing along the water supply pipe flows separately from the backwashing part,

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The backwashing unit may include: a filtered water pipe for supplying purified water from the outside into the container body; a washing water supply pipe connecting the filtered water pipe to the container body for supplying washing water into the container body; and the washing water supply pipe. Consists of a connection pipe connected to the water supply pipe to discharge the washing water supplied into the container body with purified water through,
The ozone supply unit includes an ozone generator for generating ozone, an ozone supply pipe connecting the ozone generator and the container body to supply the ozone generated by the ozone generator to the container body, and ozone flowing along the ozone supply pipe. It is composed of a blower installed at one end of the ozone supply pipe to be pumped into the container body,
It is characterized in that the injector is installed in the ozone supply pipe to pressurize the ozone generated from the ozone generator through the ozone supply pipe to be fed to the container body side.
In addition, the filtration treated water pipe is provided with a filtration treated water control valve for intermitting the washing water supply, characterized in that the intermittent valve for controlling the discharge of water in the container body is installed in the periphery of the washing water supply pipe.
In addition, in order to control the mixing of the water flowing along the water supply pipe and the washing water flowing along the filtered water treatment pipe is characterized in that it is configured by installing a backwash opening and closing valve in the connecting pipe connecting the water supply pipe and the filtered water pipe.

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The present invention has the effect of regenerating the filter without having to replace the filter while having a high water purification efficiency.
In addition, by supplying ozone to improve the washing efficiency of the impurities accumulated in the filter filter medium particles, there is an effect that can provide a high-performance filter and water purification device.
In addition, it can be effectively applied to water treatment plants, swimming pools, etc., where a large amount of foreign substances are generated and continuous filtration of the foreign substances is required.

1 is an overall configuration diagram of a backwash water purifying apparatus according to an embodiment of the present invention.
Figure 2 is a reference diagram for explaining the valve arrangement and operation state of the backwash water purifying apparatus according to an embodiment of the present invention.
3 is a water purification mode explanatory diagram of a backwash water purifying apparatus according to an embodiment of the present invention.
Figure 4 is a view of washing and backwash mode of the backwash water purifying apparatus according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is an overall configuration diagram of a backwash water purifying apparatus according to an embodiment of the present invention. Figure 2 is a reference diagram for explaining the valve arrangement and operation state of the backwash water purifying apparatus according to an embodiment of the present invention. 3 is an explanatory view of the water purification mode of the backwash water purifying apparatus according to the embodiment of the present invention. 4 is a view illustrating a washing and backwashing mode of the backwashing water purifying apparatus according to an exemplary embodiment of the present invention.

The present invention is for washing the filter medium (filter member) installed for the purpose of water purification treatment of water intake and water supply facilities, such as water purification plants, swimming pools, public bath facilities, etc. that require the handling and management of water.

In the backwash water purifying apparatus according to the present invention, a filter container body 200 incorporating a filter member 100 is configured. In addition, a water supply unit 201 is configured to communicate with the filter container main body 200 to pass water through the filter container main body 200 to purify the water.

The main part consists of the container main body 200 which purifies the water in the process which fills the filter member 100 which consists of filter medium particle inside, and makes the filter member 100 contact and let water pass.

In addition, a water supply unit 201 is configured to supply water to the upper side of the container body 200 in order to purify the water by passing the water through the filter member 100 filled in the container body 200.

In addition, the back washing part 202 is configured at the lower part of the container body 200 to clean the filter member 100 by supplying the washing water back to the container body 200 by being separated from the water supply part 201.

In addition, the drain port 203 is connected to the water supply unit 201 and the backwashing unit 202 to discharge the purified water through the internal filter member 100 of the container body 200.

In addition, the ozone supply unit 204 is configured outside the container body 200 to remove impurities and foreign matter accumulated in the filter member 100 by adding ozone to the container body 200.

In addition, in order to control the air flow generated inside the container body 200, the air vent 205 is installed on the upper side of the container body 200, and the valve 206 is configured to open and close the air vent 205.

In addition, the water supply unit 201 extends from the water supply pipe 207 and the water supply pipe 207 for supplying water supplied from the outside into the container main body 200 to supply the water into the container main body 200. The water flowing along the water supply pipe 208 and the water supply pipe 207 installed in the water supply pipe 207 to control the water supplied to the supply pipe 208 and the supply pipe 208 connected to the upper side of the 200 backwashing unit It is composed of the first and second shut-off valves 210 and 211 installed in the water supply pipe 207 so as to flow separate from the (202).

In addition, the backwashing unit 202 may be a filtration treated water pipe 212 for supplying purified water from the outside into the container main body 200, and a filtration treated water pipe 212 for supplying washing water into the container main body 200. ) And the water supply pipe 207 and filtration to discharge the washing water supplied into the container body 200 through the backwashing supply pipe 213 and the backwashing supply pipe 213 together with the purified water. It consists of a connection pipe 214 connecting the treatment water pipe (212).

In addition, the filtration treated water pipe 212 is provided with a filtration treated water control valve 215 for controlling the supply of the wash water, the peripheral portion of the backwashing supply pipe 213 to control the discharge of water in the container body 200 An intermittent valve 216 is installed.

In addition, the backwashing opening and closing is connected to the connection pipe 217 connecting the water supply pipe 207 and the filtered water pipe 212 to control the mixing of the water flowing along the water supply pipe 207 and the washing water flowing along the filtered water pipe 212. Valve 218 is installed.

In addition, the ozone supply unit 204, the ozone generator 219 for generating ozone, and the ozone generator 219 and the container body 200 to supply ozone generated by the ozone generator 219 into the container body 200. ) To the blower 221 installed at one end of the ozone supply pipe 220 to feed the ozone supply pipe 220 and the ozone flowing along the ozone supply pipe 220 to be put into the container body 200. It is composed.

The ozone generator 219 is a mechanism for generating ozone. In general, it is dissolved in water, absorbed, inhibits the growth of microorganisms and is classified as a cleaning and maintenance material such as sterilization and sterilization, and is used as a cleaning and cleaning material for the filter member 100 in the present invention.

In addition, the injector 222 is installed in the ozone supply pipe 220 to pressurize the ozone generated from the ozone generator 219 through the ozone supply pipe 220 to be fed to the container main body 200. The injector 222 mixes and accelerates the fluid pushed through the blower 221 to the container body 200.

Reference numeral 223 denotes 'ozone supply control valve' and 224 denotes 'ozone measuring gauge'.

Referring to the operation and effect of the backwash water purification apparatus according to the present invention configured as described above are as follows.

In the purified water treatment by the backwash water purifying apparatus according to the present invention, the water requiring the purified water is supplied through the water supply pipe 207 and the water supplied along the water supply pipe 207 is filtered while passing through the filter member 100. To drain the water through the drain 203 to purify water, and to regenerate the filter member 100 by washing foreign substances and residual impurities deposited or adsorbed on the filter member 100 in a repetitive water treatment process. It is.

The filter element 100 that can be used may use various particulate filter media. For example, sand grains and activated carbon particles, and purifying materials effective for filtration and purification of water.

The function of each valve shown in FIG. 2 is as follows.

① water supply control valve 209-It is a valve for introducing or intermitting the water of the purified water flowing along the water supply pipe 207 into the container body 200 through the supply pipe 208.

② No. filtered water control valve 215-The valve for sending or blocking the washing water (purified water) flowing along the filtered water pipe 212 into the container body (200).

③ backwash opening / closing valve 218-a valve installed in the connecting pipe 217 for connecting the water supply pipe 207 and the filtration treated water pipe 212, and the water supply pipe 207 and the filtration treated water pipe 212 are the reverse back-opening valve 218 Through the opening and closing).

No. ④ No. 1 shutoff valve 210-This is a valve for intermittently preventing the flow of water to flow to the connection pipe (214) or to flow.

⑤ intermittent valve 216-is a valve for opening and closing when the flow of the washing water flowing along the filtered water pipe 212 is intermittent and purified water and washed water flows.

⑥ on / off valve (not shown)-It is a valve installed in the ozone supply pipe 220 to control the secondary movement of the fluid pumped through the blower (221).

No. ⑦ ozone supply control valve 223-the ozone generated in the ozone generator 219 to transfer or block the ozone supply pipe 220 or to control the ozone supply amount.

⑧ ozone supply amount control valve (not shown)-the ozone supplied to the ozone supply pipe 220 is accelerated through the blower 221 and the injector 222 and finally supplied to the filter member 100 of the container body 200 It is a valve installed to adjust the supply side.

⑨ valve-is a valve installed in the air vent 205 to selectively export the internal pressure formed in the container body 200 through the air vent (205) as needed.

In the normal water purification operation mode of the backwash water purification device, as shown in FIG. 2, the water supplied along the water supply pipe 207 flows into the container body 200 through the supply pipe 208, and the introduced water passes through the filter member ( As it comes into contact with 100, impurities and foreign substances contained in the water are filtered and purified by the filter member 100, and the water purified by the drain 203 is discharged.

In the water purifying operation mode, the valve opening / closing state is closed by closing all the valves ②③④⑥⑦⑧ except valves ①, ⑤, and ⑨, and the purified water treatment operation is possible.

That is, opening and closing of the valve in the constant water operation mode opens the water supply control valve 209, the intermittent valve 216, and the air vent 205 side valve 206, as shown in FIG. The shutoff valves 210 and 211 and the filtration control valve 215 and the backwash valve 218 are all closed.

In the water treatment of water, the filter member 100 exhibits a foreign matter lamination phenomenon on the surface in proportion to the amount of foreign matter filtration, and the water treatment ability gradually deteriorates.

The method of removing impurities accumulated in the filter member 100 includes a method of directly removing the filter member 100 from the container body 200 and cleaning and cleaning it. However, periodic management is required and management is inconvenient.

The present invention can be cleaned by opening and closing the valve as necessary without removing the filter member 100 in the container body 200 from the container body 200, and sterilization of the filter member 100 by supplying ozone Always have a cleaning efficiency.

The washing method is a type of backwashing by washing the washing water and ozone from the bottom to the top to wash the filter member 100 mounted in the container body 200.

That is, the washing water is supplied from the outside through the filtration treated water pipe 212 of the backwashing unit 202, and at the same time, the ozone generator 219 of the ozone generating unit 204 is operated to generate ozone to blow the blower 221. The ozone is pumped into the container body 200 through the washing process for the filter member 100 in a state in which washing water and ozone are mixed.

The backwash mode for the filter member 100 is as shown in FIGS. 2 and 4. First, general filtration is performed in a state in which ① water supply control valve 209 and ② filtered water control valve 215 are opened and the remaining valves ③④⑤⑥⑦⑧⑨ are locked. In this state, water to be filtered is supplied into the container body 200 along the water supply pipe 207, and the washing water is introduced into the container body 200 along the backwashing supply pipe 213 along the filtered water pipe 212. .

Then, close the ①②③④⑤ valve and open the ⑨ valve before the filtration backwash. In this state, the washing water supplied along the filtration water pipe 212 proceeds to the filter member 100 while moving upward through the lower portion of the filter member 100.

The ozone backwash opens the valve ⑥⑦⑧ and sets the operating time of the brower 221 to about 5 minutes to supply ozone to the filter member 100 strongly through the brower 221 to proceed with ozone washing.

Thereafter, the reverse back-opening closing valve 218 and the first shut-off valve 210 of ④ are opened for back washing, and the remaining valves are locked.

In the cleaning of the filter member 100, ① water supply control valve 209 and ⑤ intermittent valve 216 are opened and the remaining valves are closed.

To proceed to the filtration state in this state, open the ① water feed control valve (209) and ② the filtered water control valve (215) and lock the remaining ③④⑤⑥⑦⑧⑨ to return to the initial filtration state.

The backwash water purifying apparatus according to the present invention may perform the cleaning of the filter member 100 from the outside by only operating the valve, if necessary, and pumps the ozone generated through the ozone generator 219 into the container body 200. Therefore, there is an advantage in that the cleaning efficiency for impurities accumulated in the filter member 100 may be improved.

In particular, the backwash water purifier according to the present invention is installed in water intake and water supply facilities such as water purification plants, swimming pools, and public bath facilities that require the handling and management of water to clean and reliably clean and regenerate the filter through the ozone sterilization effect. Can be.

As described above, the present invention has been described with reference to the drawings and specification, with reference to an embodiment of the invention, but it is an example. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention.

100: filter member
200: dragon
201: Water supply department
202: backwash
203: drain
204: ozone supply unit
205: Air vent
206: valve
207: water supply pipe
208: supply pipe
209: water supply control valve
210: first shutoff valve
211: 2nd shutoff valve
212: filtration water pipe
213: backwashing supply pipe
214: connector
215: filtration water control valve
216: check valve
217: connector
218: backwash valve
219: ozone generator
220: ozone supply pipe
221: blower
222: injector

Claims (7)

The water purification vessel main body 200 and the inverse of the water purification process by the filter member 100 in the process of embedding the filter member 100 in the water purification vessel body 200 and passing the water into the container body 200. In the washing water purifier,
A container body 200 for purifying water in a process of filling the filter member 100 made of filter material particles therein and contacting and passing the water through the filter member 100; filled in the container body 200. A water supply unit 201 configured to supply water from an upper side of the container body 200 to pass water through the filter member 100 to purify the water; A backwashing unit 202 configured at a lower portion of the container body 200 to wash the filter member 100 by supplying the washing water back to the container body 200 by being separated from the water supply unit 201; A drain 203 configured to connect the water supply unit 201 and the backwashing unit 202 to discharge the purified water through the internal filter member 100 of the container body 200; An ozone supply unit 204 installed outside the container body 200 to remove impurities and foreign matter accumulated in the filter member 100 by injecting ozone into the container body 200; In order to control the air flow generated in the container body 200 is made of an air vent 205 and the valve 206 for opening and closing the air vent 205 installed on the upper side of the container body 200,
The water supply unit 201 includes a water supply pipe 207 for supplying water supplied from the outside into the container body 200, and a container extending from the water supply pipe 207 to supply water into the container body 200. A supply pipe 208 connected to the upper side of the main body 200, a water supply control valve 209 installed in the water supply pipe 207 to control the water supplied to the supply pipe 208, and flows along the water supply pipe 207 It is composed of the first and second shut-off valves 210 and 211 installed in the water supply pipe 207 so that water flows separately from the back washing unit 202,
The backwashing unit 202 may include a filtration treated water pipe 212 for supplying purified water from the outside into the container main body 200, and a filtration treated water pipe for supplying the washing water into the container main body 200. A backwashing supply pipe 213 connecting 212 to the container body 200 and a water supply pipe 207 for discharging the washing water supplied into the container body 200 through the backwashing supply pipe 213 together with purified water. ) And a connection pipe 214 connecting the filtered water pipe 212,
The ozone supply unit 204 may include an ozone generator 219 for generating ozone, and an ozone generator 219 and a container body 200 to supply ozone generated by the ozone generator 219 into the container body 200. Blower 221 installed at one end of the ozone supply pipe 220 to feed the ozone supply pipe 220 and the ozone flowing along the ozone supply pipe 220 to be introduced into the container body 200. Consisting of,
Injector into the ozone supply pipe 220 to pressurize the ozone generated from the ozone generator 219 through the ozone supply pipe 220 to be pumped to the lower portion of the filter member 100 installed inside the container body 200. 222) backwash water purifier, characterized in that configured by installing. delete delete The method of claim 1,
The filtration treated water pipe 212 is provided with a filtration treated water control valve 215 for controlling the supply of washing water, and the peripheral portion of the backwashing supply pipe 213 to control the discharge of water in the container body 200 Backwash water purifier, characterized in that the intermittent valve for 216 is installed. The method of claim 1,
In order to control the mixing of the water flowing along the water supply pipe 207 and the washing water flowing along the filtration water pipe 212, the backwashing opening and closing is connected to the connection pipe 217 connecting the water supply pipe 207 and the filtration water pipe 212. Backwash water purifier, characterized in that configured by installing a valve (218). delete delete

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