KR0167325B1 - Process for control of water purifier of drain - Google Patents

Abstract

More particularly, the present invention relates to a method of controlling water in a water purifier, and more particularly, in order to prevent water contamination due to long-time power outage during use of a water purifier, To a water purifier drainage control method at the time of occurrence of a power failure.

A method for controlling water purifier drainage at the time of occurrence of a power failure according to the present invention includes: a first step of detecting on / off of a power source applied to a water purifier; A second step of recording the occurrence time of the power failure using time measuring means when the power is off; A third step of detecting the power when the power is on, recording the current time using the time measuring means, and calculating the power failure time; And a fourth step of performing an integer operation when the electrostatic discharge duration exceeds a predetermined time, performing an integer operation after performing an automatic cleaning, and performing only an integer operation if the predetermined time is not exceeded.

Description

How to control water purifier drainage in case of power failure

FIG. 1 is a block diagram showing a schematic configuration of a conventional purifier. FIG.

FIG. 2 is a schematic block circuit diagram of a conventional purifier; FIG.

3 is a flowchart for explaining a water purifier drainage control method in the occurrence of a power failure of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

1: raw water valve 2: high turbidity filter

3: Precipitation filter 4: Pump

5: All carbon filter 6: Membrane filter

7: Wastewater regulator 8: Fukanbon filter

9: Sterilization filter 10: Water tank

11: Drain valve 21: Main control unit

22: voltage on / off detection unit 23: time display unit

More particularly, the present invention relates to a method of controlling water in a water purifier, and more particularly, in order to prevent water contamination due to long-time power outage during use of a water purifier, To a water purifier drainage control method of an electrostatic generator for performing an integer number of strokes.

As the distrust of tap water increases due to environmental pollution, the use of water purifier is gradually spreading. A water purifier is a device for filtering a natural water (hereinafter referred to as "raw water") such as tap water or a weak water. The water purifier passes various kinds of filtering means to remove foreign substances or harmful substances contained in raw water, Water.

Various types of water purifiers are used, and reverse osmosis water purifiers are representative ones. The reverse osmosis water purifier purifies raw water by using a so-called reverse osmosis filter (hereinafter referred to as a membrane filter). The membrane filter is formed of a plurality of pores having a very small diameter to remove foreign matter and harmful substances.

In addition, the water purifier senses the amount of water stored in the water storage tank in order to enhance the convenience of use and provide various functions, and develops an automatic method of supplying raw water by controlling a valve that supplies raw water when water is insufficient, .

1 shows a configuration example of a conventional reverse osmosis pressure water purifier.

As shown in the figure, the reverse osmosis pressure water purifier includes a raw water valve 1 for controlling the supply of raw water such as tap water or natural water, and a water tank 2 for filtering debris of relatively large particles in raw water passing through the raw water valve 1 A turbidity filter (2), a sedimentation filter (3) for filtering the residue of relatively small particles that have not been filtered while passing through the high turbidity filter (2), a pressurizing pump A total carbon filter 5 for removing chlorine components and odors in the raw water and a membrane filter 6 for removing ionic heavy metals remaining in the raw water passing through the whole carbon filter 5, A wastewater regulator 7 for regulating the concentration ratio of the concentrated water (wastewater) to the generated water (drinking water) of the raw water passing through the membrane filter 6 and discharging the wastewater; Chlorine component contained in A sterilizing filter 9 for removing germs in the raw water that has passed through the after-carbon filter 8, and a valve for discharging purified water, And a purified water tank 10 to which the water tank 11 is connected.

The high turbidity filter 2 is used as a thin wire mesh, and is used to filter large debris. The sedimentation filter 3 is composed of a nonwoven fabric and filters foreign matter of relatively small particles such as sand or mud. The entire carbon filter 5 and the after-carbon filter 8 are the same as activated carbon made of carbon as the main raw material, and remove chlorine component particles and odor contained in the raw water. The pump 4 is for moving the raw water at a very high pressure. This is related to the operating state of the membrane filter 6, since pure water is supplied to the membrane filter 6 at a pressure of 60 psi or more on average.

Since the chlorine component particles and odor contained in the raw water are removed as in the above-mentioned purified water stroke, a disinfectant component which is suitable for drinking but can suppress the propagation of bacteria is removed, so that water is not used in the purified water tank and stored for a long time Bacterial breeding probability increases. This is because bacteria are rapidly increased inside the water tank, especially when normal water treatment can not be performed for a long time due to a power failure during the use of a water purifier. In addition, the above-described problems also occur when the power source of the water purifier is removed by a user's long-time external oil supply or the like. Of course, water purifier may be drained at the time of long-term outflow, however, it is necessary for the user to directly drain the control panel and forget the drainage of the purifier.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a method for preventing contamination of purified water caused by bacteria caused when a power failure occurs for a long time, have.

According to an aspect of the present invention, there is provided a method for controlling water purifier drainage at the time of occurrence of a power failure, including: a first step of detecting on / off of a power source applied to a water purifier; A second step of recording the occurrence time of the power failure using time measuring means when the power is off; A third step of detecting the power when the power is on, recording the current time using the time measuring means, and calculating the power failure time; And a fourth step of performing an integer operation when the electrostatic discharge duration exceeds a predetermined time, performing an integer operation after performing an automatic cleaning, and performing only an integer operation if the predetermined time is not exceeded.

Hereinafter, a method for controlling water purifier drainage in the occurrence of a power failure will be described in detail with reference to the accompanying drawings.

First, a second diagram, which is a conventional partial block circuit diagram in which the method of the present invention is performed, is described.

As shown in the figure, the apparatus includes a raw water valve 1, a pressurizing pump 4, a drain valve 11 for discharging the purified water stored in the purified water tank 10, and a main control unit 21. When the water level reaches a low level (set to perform the water purification stroke when the water level is reached at the time of designing), the main control unit 21 grasps the signal inputted from the water level sensing unit (not shown) The raw water is discharged by opening the raw water valve 1, the pump 4 and the sterilizing filter 9 and opening the wastewater regulator 7 so that the foreign substances contained in the membrane filter 6 are discharged to the outside. . When the washing time has elapsed, the water purification valve 1, the pump 4 and the sterilizing filter 9 are continuously operated to filter the raw water and store it in the purified water tank 10. Reference numeral 22 denotes a voltage on / off detection unit for detecting occurrence of a power failure, and reference numeral 23 denotes a time display unit for knowing the current time. The time display unit 23 may use a clock incorporated in a microprocessor used as the main control unit 21. [

The water purifier drainage control method of the present invention, which is performed using the above-mentioned block circuit, when the power failure occurs for a long time, the water purifier completely stops functioning, so that the purified water inside the purified water tank can not circulate. Therefore, there is a possibility that the bacteria grows in the water and contamination may occur. Therefore, it is possible to remove the contaminated water and provide fresh water without worrying about the user at all.

According to the present invention, when a power failure occurs during use of the water purifier, the on / off of the power source is detected. This can be accomplished by separately configuring a voltage on / off sensing unit 22 (see FIG. 2) for sensing a voltage down, or by measuring the change in the driving voltage input to the main control unit 21. When the voltage down is detected, the main control unit 21 measures the current time from the time display unit 23 according to this signal, and stores the measured time in the memory unit built in the main control unit 21. [ After that, the power supply is cut off, and the water purifier stops operating.

The time display unit 23 may use a clock incorporated in the microcomputer used as the main control unit 21 or an electronic clock using a separate backup battery for stable operation.

When the power is supplied to the water purifier again after the elapse of a time in the state where the power supply is interrupted, the main controller 21 controls the voltage of the voltage inputted to the driving voltage terminal of the voltage on / off sensor 22 or the main controller 21 The power supply can be confirmed by the change. The main control part 21 which has confirmed the power input again measures and stores the current time from the time display part 23.

Therefore, the memory unit of the main control unit 21 stores two time data, that is, the power-off time T1 and the power-on time T2. The main control unit 21 can calculate the blackout time from the time data (power on time - power off time).

If the calculated power failure time is longer than a predetermined time (for example, 48 hours), the main controller determines that the water stored in the storage tank is contaminated by the bacteria and performs the cleaning operation. The predetermined time may be determined at the time of designing, or may be configured such that the user directly inputs time. The determination of the time is preferably set to the minimum time that the bacteria can reproduce in the water after the occurrence of the power failure.

The presence or absence of the purified water in the purified water tank is detected using a conventional level sensor. If the purified water is stored in the purified water tank 10, the main control part 21 uses the drain valve 11 to discharge the purified water to the outside. If the purified water is not stored in the purified water tank 10, the main control unit 21 performs an automatic washing process of washing the membrane filter 6. The automatic washing step is for eliminating bacterial contamination that may occur in the raw water stagnated inside the filter. The automatic washing step is performed for about 10 minutes while the purified water is not stored in the purified water tank 10 It is to drain. When the drainage is completed, the main control unit 21 performs a normal purification stroke.

The water purification process or the cleaning process may be performed in different ways for each water purifier, but these are all limited by the present invention. The purified water as described above is stored in the purified water storage tank 10 without draining to the outside. Therefore, even if the user turns off the power of the water purifier due to a long time outage or a long time out, fresh water can always be supplied.

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 spirit and scope of the invention as defined by the appended claims and their equivalents. .

Claims (1)

In the water purifier including the raw water valve 1 and the pressurizing pump 4, the main control unit 21 for controlling the entire stroke and the time display unit 23, (21); A second step of recording the time (T1) at which the power failure occurred using the time display unit (23) to the main control unit (21) when the power is off; When the power is on, it detects this and records the time T2 when the power is turned on by using the time display unit 23. The power-on time T2 and the power-on time T2, which are measured in the second step, A third step of calculating the time in the main control part 21; And the fourth control unit 21 outputs a control signal to the main control unit 21 so as to perform the integer operation only after performing the automatic cleaning if the power interruption time exceeds the predetermined time, And controlling the flow rate of the water in the water purifier.