KR20040060891A - purifier with economic flushing system - Google Patents

Abstract

The present invention can be reused as the washing water for washing the precipitate filter without draining the washing water for washing the reverse osmosis filter when the composition of the water purifier as the main components of the precipitation filter (primary filter) and reverse osmosis filter (membrane filter) It is then discharged to reduce the washing water to wash the existing sedimentation filter.

The water purifier is composed of sedimentation filter, all carbon filter, membrane filter, after carbon filter, sterilization filter and water tank, and the booster pump is formed next to the precipitation filter to form the pressure necessary for reverse osmosis of the reverse osmosis filter. It is connected to the washing water discharge pipe of the reverse osmosis filter and the water supply pipe for supplying water to the water purifier, and the three-hole connection, and the other connection pipe to the sediment filter. Install the electronic valve and reverse valve on the reverse osmosis filter washing water discharge pipe, install the reverse valve on the water supply pipe, and install the electronic valve on the washing water discharge pipe of the precipitation filter. When the solenoid filter and the reverse osmosis filter are opened, the reverse osmosis filter is washed by the pressure of the boost pump, and the wash water passes through the electromagnetic valve and the reverse valve to wash the settling filter through the three-hole connection (Y). It is discharged out through the discharge pipe and the electronic valve. When the electron valve closes, it becomes a water purification process. The filter cleaning work is performed by opening and closing the electronic valve installed in the discharge section of the precipitation filter and the reverse osmosis filter at the same time.In case of washing only the precipitation filter, only the electronic valve installed in the discharge pipe of the precipitation filter needs to be opened and closed.

Description

Purifier with economic flushing system

Water Purifier is composed of several kinds of filters in several stages and removes impurities such as particulate solids, gaseous dissolved substances and various viruses in the process of water passing through the filter. Filter out large particulate solids, carbon filters adsorb dissolved gases, and reverse osmosis filters remove very fine solids. The reverse process of the reverse osmosis filter consists of a water taste sterilization process and a purified water tank that stores purified water.

Particularly, the sedimentation filter and reverse osmosis filter have different particle sizes depending on the size of the filter hole. The primary filter filters large particles of material in the sedimentation filter, and then the reverse osmosis filter filters small particles. . Particulate matter that cannot pass through the filter adheres to the filter surface, and if it is attached a lot, the filter hole is clogged and the filtration performance is degraded. Therefore, the surface of the filter is frequently washed. In the conventional technique, the sediment filter and the reverse osmosis filter are washed separately, and the water used for washing is discharged immediately. As a result, the water discarded by washing the water purifier is about 1.5-5 times that of the purified water, and the waste of water is too large. In the water purifier, cleaning of the filter is inevitable, but by improving the cleaning method, it is possible to prevent waste of water that is discarded by washing.

Among the various filters used in the water purifier, the porous filter has a large particle size attached to the surface if the water purification is continued, and the attached material should be removed periodically or as needed for washing. The water used to clean the filter is discharged out through the discharge pipe. The amount of water used for cleaning is 1.5-5 times that of purified water, which is too much waste of water. In order to minimize the waste of water by reducing the amount of water used for washing while obtaining the effect of the washing is a technical problem of the present invention is achieved and lowered. In other words, if the reverse osmosis filter washed water is reused to wash the sedimentation filter, the waste water used to wash the conventional sedimentation filter will be prevented.

1; General Configuration and Washing Water Piping Diagram of Water Purifier with Reverse Osmosis Filter

2; Wash Flow and Piping Detail

3; Schematic of pressure change in washing process

Brief description of the main parts and symbols in the drawings

1. Precipitation filter (primary filter) 2. All carbon filter 3. Reverse osmosis filter (membrane filter)

4, fucarbon filter 5 ,. Sterilization Filter 6. Water Purifier 7. Pressure Boosting Pump

k. Electronic valve s. Electron valve m. Reverse displacement n. Reverse

a, water pipe b. Wash water pipe o. Discharge line c. d. e. f. g. h connector

Y. 3-prong connector x. Connector

P1. Feed pressure P2. Precipitation Filter Inlet Pressure P3. Reverse Osmosis Filter Washing Water Pipe

The present invention relates to a water purifier water-saving washing device for reducing the amount of water used to clean the water purifier filter, and in a water purifier having a precipitation filter and a reverse osmosis filter, it is used again to wash the sediment filter without throwing away the water used for the reverse osmosis filter. To drastically reduce the waste of water.

There are many kinds of water purifiers, but mainly a combination of filter type and reverse osmosis type (filter type) is used.

In general, the water purifier used is a precipitation filter (primary filter) and a boost pump to form reverse osmosis in order of water flow. All carbon filter Reverse osmosis filter (membrane) After carbon filter Sterilization filter Water purification process consisting of water purification tank and precipitation filter It consists of a washing device for washing the reverse osmosis filter.

The water purifier composed of several stages of filters is attached to the surface of the sedimentation filter and the reverse osmosis filter in the process of water purification, which gradually blocks the pores of the filter, thereby degrading the filter function. Therefore, in order to maintain the normal function of the filter, the material caught in the filter should be removed frequently or at regular intervals. The water in the water purifier is used to remove the substance caught on the filter surface. Currently, the water purifier cleans the sedimentation filter and the reverse osmosis filter separately, and the water used for washing is discharged outward.

The water used to clean the filter is 1.5 to 5 times the amount of purified water.

The present invention is a technique for reducing the amount of water used to clean a filter.

The water purifier of the general configuration is configured as shown in Figure 1 for the purpose of the present invention. Install a reverse valve (n) in the water supply pipe (a) for supplying water to the water purifier and connect it to the three-prong connector (Y) and connect the three-prong connector (Y) and the precipitation filter (1) with the connector (x). Install the electronic valve (k) and the reverse finger (m) in the washing water pipe (b) for discharging the washing water of the reverse osmosis filter (3) and connected to the other end of the three-prong connector (Y) by the connecting pipe (x) It is connected to the precipitation filter (1).

The three-hole connector (Y) is connected to the water supply pipe (a) having a reverse side (n), and the reverse osmosis filter (3) of the reverse osmosis filter (3) by a washing water pipe (b) having a reverse side (m) and an electronic side (k) It is connected to the washing water outlet, it is connected to the sedimentation filter (1) feed port by a connecting pipe (x).

In the water purifier configured as described above, the water supplied through the water supply pipe (a) passes through the reverse valve (n) and is supplied to the sedimentation filter (1) through the three-prong connector (Y) and the connection pipe (x) and filtered first. The water is boosted by the boosting pump 7 through the connecting pipe (c) and flows into the all carbon filter (2) through the connecting pipe (d). Various gases and odors are absorbed and removed by the connecting pipe (e). It is introduced into the reverse osmosis filter (3) to filter out most of the dissolved solids passed through the precipitation filter (1) by the fine pores of the reverse osmosis filter. The water passing through the reverse osmosis filter is flavored with water in the carbon filter (4) and finally sterilized in the sterilization filter (5), and then flows into the purified water tank (6) to be used as drinking water. The boost pump 7 installed between the sedimentation filter and the all carbon filter is necessary for raising the water pressure required for the reverse osmosis filter 3.

In general, the precipitation filter 1 and the reverse osmosis filter 3 are used by repeatedly washing the material attached to the filter surface with water, and the other filter is replaced with a new one when the service life is over. Therefore, the present invention is limited to the precipitation filter (1) and reverse osmosis filter (3) used by repeated washing. Of course, the sedimentation filter (1) and reverse osmosis filter (3) also need to be replaced with new ones after repeated use of the filter for a long time.

The filter washing of the sedimentation filter (1) and the reverse osmosis filter (3), the movement and discharge of the washing water, and the related configuration are connected to the discharge pipe (o) at the washing water outlet of the sedimentation filter (1) as illustrated in FIG. The electron valve s is installed in the discharge pipe o.

A washing water pipe (b) is connected to the washing water outlet of the reverse osmosis filter (3), an electronic valve (k) and a reverse displacement (m) are installed on the washing water pipe (b), and the washing water pipe (b) is a three-hole connection (Y). Is connected to.

The three-prong connector (Y) is also connected to the water supply pipe (a) where the reverse side (n) is installed, and the other end is connected to the water supply port of the precipitation filter (1) by the connection pipe (x).

The cleaning of the filter is explained and reduced by the configuration of the cleaning device.

Open the electronic valve (k) in Figure 2, the water washed the reverse osmosis filter (3) is passed through the reverse valve (m) through the washing water pipe (b) through the three-way connector (Y) through the diesel pipe (x) It is supplied to the precipitation filter (1). Opening the electronic valve (s) installed in the discharge pipe (o) of the sedimentation filter (1) and the washing water supplied to the sedimentation filter is discharged out to wash the sedimentation filter (1). In general, the washing is performed by opening the electron valves (s) and (k) at the same time. When the electron valves (s) and (k) are closed, the cleaning is completed and the water purification proceeds.

In the case of washing only the precipitation filter 1, only the electronic valve s of the precipitation filter needs to be opened.

In the washing process, it is possible to examine various situations that may occur in the water supply pipe (a) and the washing water pipe (b) and the connection pipe (x) connected to the boosting pump 7 and the three-prong connector Y. It is important to prove.

First, the water purifier of the representative representation is divided into water purification process and washing process.

In the water purification process, the water is introduced into the sedimentation filter (1) via the water supply pipe (a), the reverse side (n), the three-hole connection (Y) and the connection pipe (x), and the reverse osmosis filter (3) by the boost pump (7). The water pressure required for) is subtracted to become an integer while passing through a subsequent filter.

There is no possibility that the water flowing in this water purification process flows directly into the reverse osmosis filter (3) through the washing water pipe (b) from the three-prong connection (Y). That is because the reverse water (m) is installed in the wash water pipe (b) connected to the three-prong connector (Y) because it blocks the flow. Therefore, the inflow into the reverse osmosis filter (3) directly through the washing water pipe (b) is blocked and flows into the precipitation filter (1) only through the connecting pipe (x).

In the washing process, if the electron valve (k) of the reverse osmosis filter (3) and the electron valve (s) of the precipitation filter (1) are opened at the same time, the reverse osmosis filter (3) is washed with the increased pressure by the boost pump (7). After the discharged water is introduced into the settling filter (1) through the three-hole connector (Y) and the connecting pipe (x) through the washing water pipe (b) to clean the settling filter and discharged through the discharge pipe (o) ( 2).

The washing of the reverse osmosis filter 3 to wash water flows back from the three-neck connection pipe (Y) to the water supply pipe (a) is blocked by the reverse displacement (n).

During washing, the changes in the water pressure in the settling filter (1), the boost pump (7) and the reverse summ filter (3) in the wash water pipe (b) are examined. For the purpose of examination, the water pressure of the water supply pipe (a) is the water pressure of the P1 washing water pipe (b) and the water pressure of the P2 connecting pipe (x) is P3 as shown in FIG.

Opening the initial electronic valves (s) and (k) results in P2 P3 P1, and when the wash water is discharged through the discharge pipe (o), P1 P3 P2. In this state, water is supplied to the water purifier through the water supply pipe (a). The washing proceeds with repeated pressure changes.

That is, when the washing water is discharged outside, the water supplied to the boosting pump is reduced, and the water pressure of the washing water is lowered. At this time, water is introduced through the water supply pipe (a) to supply additional water for washing the reverse osmosis filter (3). . When the electronic valve (s) and (k) are closed, the washing is finished immediately and the water purification process proceeds. Reducing the amount of water discarded by filter cleaning saves water. The current water purifier separately washes the primary filter and the reverse osmosis filter and discharges water directly out, but the present invention can reduce the water wasted for washing by reusing the water after the reverse osmosis filter to wash the sedimentation filter. will be.

Since the water for washing the reverse osmosis filter is water that has already passed through the sedimentation filter, it is not a problem to use it to clean the sedimentation filter. Changes in pressure can also be expected to have a high cleaning effect.

In the water purifier that purifies water by using several types of filters step by step, the small material and water pass through and the large material adheres to the surface of the filter, depending on the size of the filter hole. Water purification will fall. Therefore, the material attached to the surface of the filter should be removed (washed) from time to time. The water purifier uses water to wash foreign substances attached to the filter, and the amount of washing water required is about 1.5-5 times that of the purified water. Therefore, it is possible to save a lot of water by reusing the washing water of the previous filter (large hole) instead of immediately discharging the washing water after washing the subsequent filter (small hole) of the water purifier composed of several standard filters.

The present invention is expected to be developed a lot of technology to reduce the amount of wash water in the future by saving and reducing water by reusing the wash water washed the reverse osmosis filter of the water purifier as the wash water of the precipitation filter.

Claims (3)

Pressure required for reverse osmosis in the water purification process to purify the water in several stages, such as sedimentation filter (1), all carbon filter (2), reverse osmosis filter (3), after carbon filter (4), sterilization filter (5) In the water purifier provided with a boost pump 7 to generate, the reverse osmosis by minimizing and reducing the waste of water by reusing the sediment filter with the washing water to wash the sediment filter without discharging the washing water for washing the reverse osmosis filter immediately outside. Install an electronic valve and a reverse valve on the wash water pipe of the filter water, connect it to one end of the three-prong connector, and install a reverse valve on the water supply pipe supplying water to the water purifier, connect it to the three-prong connector, and connect the other end of the sediment filter to the It is connected to the water inlet and the discharge pipe is connected to discharge the sediment filter washing water to the outside. The water-saving washing water purifier device to automatically open and close used as wash water to wash the precipitate is discarded from the filter directly to the wash water washing the reverse osmosis filter, and saving the wash water by the discharge for the purpose to prevent the waste of water The reverse osmosis filter of claim 1 is provided with an electronic valve and a reverse valve in the discharge pipe for discharging the washing water, and a water supply pipe for supplying water to the water purifier is provided with a reverse valve and connected to a three-hole connector, so that the washing water flows back through the water pipe during the washing process. Water purifier water purification device equipped with a reverse valve in the wash water pipe connecting the three-hole connector and the reverse osmosis filter so as to prevent the feed water flowing into the reverse osmosis filter without passing through the sediment filter in the water purification process Water purifier water purifier that allows the solenoid valve installed in the washing water discharge pipe of the sediment filter of claim 1 to be opened and closed independently without interlocking with the solenoid valve of the reverse osmosis filter so that only the sediment filter can be washed whenever necessary.