KR0137769Y1 - System for monitoring feed valve malfunction of reverse osmotic purifier - Google Patents

Abstract

The present invention relates to a reverse osmosis water purifier, and more particularly, to a raw water valve failure detection device for detecting the factory of the raw water valve is controlled to supply the raw water to the membrane filter acting reverse osmosis.

The raw water valve failure detection device of the reverse osmosis water purifier of the present invention is a water purifier including a membrane filter for generating the generated water stored in the purified water tank and the concentrated water for discharge to the outside, the concentrated water is installed in the pipe passing the concentrated water And a main control unit for determining whether or not the brine is generated by the signal input from the condensed water detector.

Description

Raw water valve defect detection device of reverse osmosis water purifier

1 is a schematic configuration diagram of a conventional reverse osmosis water purifier.

FIG. 2 is a schematic block diagram showing the connecting phase of the concentrated water discharge pipe of the membrane filter of FIG.

3 is a schematic block circuit diagram including a failure detection apparatus according to the present invention.

4 is a flowchart showing the operating state of the raw water valve failure detection device according to the present invention.

* Explanation of symbols for main parts of the drawings

1: raw water valve 2: high turbidity filter

3: settling filter 4: pump

5: all carbon filter 6: membrane filter

7: wastewater regulator 8: fucarbon filter

9: sterilization filter 10: water purification tank

11 valve 21 main controller

23: concentrated water detection unit 25: display unit

P1, P2: Pipe

The present invention relates to a reverse osmosis water purifier, and more particularly, to a raw water valve failure detection device for detecting a failure of the raw water valve is controlled to supply the raw water to the membrane filter acting reverse osmosis.

The use of water purifiers is gradually spreading due to increased distrust in tap water due to environmental pollution. A water purifier is a device for filtering natural water such as tap water or weak water. Provide drinking water to be included.

Various kinds of water purifiers as described above are used, and the reverse osmosis type water purifier may be referred to as a representative one. The reverse osmosis water purifier uses a so-called reverse osmosis filter (hereinafter referred to as a membrane filter) to purify raw water. The membrane filter forms a plurality of pores having a very small diameter to remove foreign substances or harmful substances.

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

As shown, the reverse osmosis water purifier has a raw water valve 1 for controlling the supply of raw water, such as tap water or natural water, and a high volume for filtering the residue of relatively large particles in the raw water passing through the raw water valve 1. Turbidity filter (2), precipitation filter (3) for filtering the residue of relatively small particles not filtered while passing through the high turbidity filter (2), and a pressurizing pump for moving the supplied raw water to a predetermined pressure (4), an all carbon filter (5) for removing chlorine components and odors in raw water, and a membrane filter (6) for removing ionic heavy metals remaining in raw water passing through the all carbon filter (5). And a chlorine component or odor contained in the drinking water regulator 7 for adjusting the ratio of drinking water to wastewater of the wastewater passing through the membrane filter 6 and discharging the wastewater, and in the drinking water passing through the membrane filter 6. Remove The fucarbon filter 8, the sterilization filter 9 for removing the bacteria in the raw water passing through the fucarbon filter 8, and the valve 11 for discharging the purified water, It consists of the purified water tank 10 connected.

The raw water valve 1 is used to control the movement of raw water flowing from the tap, and solenoid valves that are opened and closed by electrical signals are mainly used. The high turbidity filter 2 is used as a thin wire mesh, and is used to filter large debris. In addition, the precipitation filter 3 is composed of a nonwoven fabric, which filters foreign matter of relatively small particles such as sand or mud. The all-carbon filter 5 and the fucarbon filter 8 are the same as activated carbon mainly containing carbon, and remove chlorine component particles and odor contained in raw water. The pump 4 is for moving the raw water to a very high pressure. This is related to the operating state of the membrane filter 6, because the water purification is performed in the membrane filter 6 only when the raw water is supplied at an average pressure of 60 psi or more. Membrane filter 6 is especially operated at high pressure and is very sensitive to temperature, which will damage the filter if it is outside the temperature range of 5-40 ° C.

The fucarbon filter 8 through which the purified water discharged from the membrane filter 6 passes is essentially the same as the all carbon filter 5, and also functions the same. The purified water that has passed through the fucarbon filter 8 is later stored in the purified water tank 10 through a sterilization filter 9 for removing bacteria contained in the purified water. Although not shown in the purified water tank 10, a water level sensing unit for measuring the level of purified water is further provided, and a valve 11 for discharging purified water is provided at the lower side. Although not shown, the water purifier is controlled by the main control unit.

However, when a failure occurs in the raw water valve (1) used in the reverse osmosis water purifier having the structure as described above, there is a problem that the leakage occurs in the raw water valve (1) and overflow occurs in the storage tank (10). In addition, a number of filters shorten the filter life due to the continuous hydraulic pressure of the raw water, may cause waste of water.

The present invention has been made to solve the above problems, an object of the present invention is to provide a raw water valve failure detection device for detecting a failure of the raw water valve of the water purifier using a reverse osmosis filter.

Another object of the present invention is to provide a raw water valve failure detection device that can detect the failure of the raw water valve to prevent the overflow in the purified water tank, extend the life of the filter and prevent waste of water.

The raw water valve failure detection device of the reverse osmosis water purifier of the present invention for achieving the above object, in the water purifier including a membrane filter for generating the generated water stored in the purified water tank and the concentrated water for discharge to the outside, the concentrated water passes And a main control unit installed in a pipe to determine whether the brine is generated by the signal input from the brine detection unit.

Hereinafter, with reference to the accompanying drawings will be described in detail a specific example of the raw water valve failure detection device of the reverse osmosis water purifier of the present invention.

2 is a schematic configuration diagram of the membrane filter 6 showing the installation position of the concentrated water detection unit 23 according to the present invention. As shown in the drawing, two pipes P1 and P2 are connected to the lower side of the membrane filter 6 having reverse osmosis. One pipe (P1) is connected to the wastewater regulator (7) which is a passage for adjusting the concentration of concentrated water discharged from the raw water to the outside, the other pipe (P2) is the fucarbon filter shown in FIG. 8) is connected. In the drawings, the fucarbon filter 8 and the sterilization filter 9 are omitted for convenience of description.

The purified water pipe P2 of the membrane filter 6 is finally connected to the purified water tank 10 to supply purified water. The concentrated water detection unit 23 for detecting the presence or absence of the concentrated water is connected to the middle of the waste water discharge pipe P1 of the membrane filter 6. This position may be at either the front end or the rear end of the waste discharger 7.

In the raw water valve failure detection device of the water purifier according to the present invention, referring to FIG. 3, the wastewater discharge pipe (P1) of the membrane filter (6) separating raw water introduced after passing through the all carbon filter (5) into purified water and wastewater. Concentrated water detection unit 23 is installed in a portion of the) and the main control unit 21 for detecting the presence or absence of concentrated water in accordance with the electrical signal input from the concentrated water detection unit 23 and controls the entire stroke.

The raw water valve 1, the pump 4, the sterilization filter 9 and the display portion 25 are components used in the related art, and the raw water valve 1 is for controlling the movement of raw water flowing from the tap. In addition, the pump 4 is a means for moving the raw water to the pressure required for filtration, the sterilization filter 9 is used to sterilize the bacteria contained in the filtered purified water, such as sterilization, etc., the display unit 25 is a water purifier This is to indicate the temperature and operation status of the.

The operation and effect of the purified water valve failure detection device of the reverse osmosis water purifier of the present invention configured as described above will be described using the flowchart of FIG.

When power is supplied to the water purifier by the user, the main control unit 21 detects an operation state of the water purifier. At this time, the water purifying operation of the water purifier detects the state of the control switch input by the user. In other words, if the operation switch is pressed it is recognized that the water operation. When it is confirmed that the water purifying operation is not performed, the main control unit 21 detects a signal input from the brine detection unit 23 to confirm whether the brine is generated. This signal is an electrical signal that can detect the movement of concentrated water or measure the ion concentration of concentrated water. When the signal output from the brine detection unit 23 is input to the main control unit 21, when the main control unit 21 is confirmed that the concentrated water is generated in a state that the water purification operation is not performed, it is said that the raw water valve (1) You will be judged. That is, when the water purifying operation is not performed, the raw water valve 1 is closed and the inflow of raw water is stopped according to the control signal of the main controller 21. Since the presence of the concentrated water generated in this state is caused by the inflow of water due to the failure of the raw water valve 1, the main control unit 21 determines that the raw water valve 1 is broken. Thereafter, in the main control unit 21, the display unit 25 is used to display the failure of the raw water valve 1 through the display unit 25 to display the failure of the raw water valve 1 to the outside. Through this, the control signal for failure occurrence of the raw water valve 1 is output. If the brine is not produced, the main control unit 21 determines that the raw water valve 1 is in a normal state and checks whether the purified water is in operation again, and then detects the presence of the brine using the brine detector 23.

According to the present invention as described above it is possible to detect the failure of the raw water valve of the water purifier using the reverse osmosis filter, there is an advantage to prevent the overflow of the purified water tank and to prevent waste of water.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that the present invention may be modified or changed within the spirit and scope of the present invention. something to do.

Claims (1)

Reverse osmosis, the membrane filter (6) for generating the product water stored in the purified water tank and the concentrated water to be discharged to the outside, the raw water valve () for adjusting the movement of the raw water and the temperature and operating conditions In the water purifier including a display portion 25 to be displayed on, and a concentrated water detection portion 23 provided in a portion of the wastewater discharge pipe p1 of the membrane filter 6 for separating the incoming raw water into the generated water and the concentrated water. And detecting the presence or absence of the concentrated water according to the electrical signal input from the concentrated water detecting unit 23, and when a signal indicating the generation of the concentrated water is input from the concentrated water detecting unit 23 in the state where the water purification operation is not performed, raw water The raw water valve failure detection device of the reverse osmosis water purifier, characterized in that it comprises a main control unit 21 for displaying the factory of the valve (1) through the display unit (25).