KR20020090940A - Water purifier with filtration quantity control function - Google Patents

Abstract

PURPOSE: A water purification quantity variation control type water purifier is provided in which quantity of water purification stored in a reservoir (cold reservoir/hot reservoir) is arbitrarily variably set by operation of a water purification quantity setting button as occasion demands. CONSTITUTION: In a water purifier comprising first to Nth filters(22a to 22n) for purifying water by filtering raw water to be purified flown in through a water supply line(20), and a reservoir(24) in which purified water is stored so as to discharge the purified water through a drinking water discharge valve(12), the water purification quantity control type water purifier comprises a water purification quantity setting button(14) for setting the quantity of purified water stored in the reservoir; first flow rate detection sensor(26) which is installed on the path of the water supply line(20) to detect flow rate of the raw water to be purified flown into the first filter; second flow rate detection sensor(30) for detecting discharging quantity of purified water discharged through the drinking water discharge valve(12) from the reservoir; an electronic control valve(28) for opening and closing the raw water to be purified flown in through the water supply line; a control part(32) for undertaking control of visually indicating the set purification water quantity as opening and closing the electronic control valve(28) to maintain the water purification quantity set by the water purification quantity setting button(14) in the reservoir(24) based on flow rates detected by the first and second flow rate detection sensors(26,30); and a water purification quantity display driving part(34) for displaying the set water purification quantity on a water purification quantity display part(16) under controlling of the control part.

Description

Water Purifier with Water Volume Control Method {WATER PURIFIER WITH FILTRATION QUANTITY CONTROL FUNCTION}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purifier of a variable water control method, and more particularly, to a water purifier of a water amount control method for controlling the amount of purified water stored in a storage tank (cold water tank and / or a hot water tank) to a set level.

Currently, water purifiers are widely used to provide purified water in the form of cold water and hot water from which harmful components such as impurities and heavy metals are removed through a plurality of filtering processes.

According to such a water purifier, there are usually a plurality of filters for filtering the tap water supplied from the tap water, and a reservoir for storing the purified water filtered by the filter, in which the corresponding water purifier is supplied with hot and cold water. If it is designed to be installed is divided into a cold water tank for the storage of cold water and a hot water tank for the storage of hot water.

That is, for the cold water tank, a cooling system for circulating the refrigerant in a heat exchange method to maintain the purified water stored in the cold water tank at a low temperature is required. For the hot water tank, the heating of the purified water stored in the hot water tank to a predetermined temperature by operation of the heater is required. The system is needed.

If the corresponding water purifier is capable of supplying cold water and hot water, a cold water discharge valve for discharging cold water and a hot water discharge valve for discharging hot water are installed. There is also proposed a structure in which discharge of mixed water by selective discharge or mixing thereof is possible.

Therefore, it is possible to drink the required cold or hot water by the selective operation of the cold water discharge valve or the hot water discharge valve installed in the front of the water purifier.

Here, the water storage tanks (ie, cold water tanks and hot water tanks) provided in a conventional water purifier are set to a constant capacity according to the type of the corresponding water purifier, and the positive water set at the time of manufacture of the water purifier is always stored for the reservoir. do.

That is, the amount of water discharged through the beverage discharge valve (cold water discharge valve or hot water discharge valve) in a state in which a constant amount of purified water is stored at all times is replenished.

Therefore, since the water tank of a conventional water purifier is always maintained at a constant amount irrespective of the required amount of purified water for the above reason, for example, when the required amount of purified water is small, the circulation of the purified water stored in the water storage tank is intermittent. In some cases, conditions such as breeding of bacteria and contamination of purified water are likely to occur.

In general, water purification (especially room temperature or cold water) held in a water tank for a long time often drains the water purification water in consideration of the possibility of germ propagation, resulting in waste of resources.

In view of this, in recent years, a method has been proposed in which a plotter is installed in a reservoir (cold water tank or hot water tank) to control the amount of purified water stored in the reservoir according to the position of the plotter in consideration of the purified amount of the corresponding water purifier. Although it is a state, in the method of controlling the amount of the integer stored in the reservoir by the plotter, arbitrary variable control of the amount of the integer is impossible, so that the control of the amount of the integer during the use of the corresponding water purifier is impossible. .

Accordingly, the present invention has been made in view of the above-described prior art, and the variable amount variable control designed to arbitrarily variably set the amount of purified water stored in the reservoir (cold water tank / hot water tank) by the operation of the purified water amount setting button as needed. The purpose is to provide a water purifier of the type.

In order to achieve the above object, according to the first embodiment of the present invention, the first to Nth filter for filtering and purifying the raw water of the purified water flowing through the water supply passage and storing the purified water through the beverage discharge valve A water purifier having a water tank for discharging, the water purifier having a water amount setting button for setting an amount of purified water stored in the water tank, and a flow rate of the raw water to be purified which is installed on the water supply path and flows into the first filter side. A first flow rate detection sensor for detecting, a second flow rate detection sensor for detecting a discharge amount of purified water discharged from the water reservoir through the beverage discharge valve, an electronic control valve for opening and closing the purified water source water flowing through the water supply passage, The purified water amount set by the purified water amount setting button is maintained in the reservoir based on the flow rates detected by the first and second flow rate detection sensors. A water purifier according to the present invention, comprising: a control unit for controlling the visual display of the set water amount while opening and closing the electronic control valve; and a water level display driving unit for displaying the set water amount under the control of the control unit. Is provided.

Preferably, the purified water amount set by the purified water amount setting button is set between the lowest reservoir water amount and the maximum reservoir water amount of the reservoir.

According to the second embodiment of the present invention, the first to N-th filter for filtering and purifying the purified raw water flowing through the water supply passage, and storing the purified water in a state of being cooled and heated by a cooling system and a heating system. A water purifier having a cold water tank and a hot water tank to store water, and a cold water discharge valve and a hot water discharge valve installed correspondingly to the cold water tank and the hot water tank to discharge cold water and hot water, and to set an amount of purified water stored in the cold water tank and the hot water tank. Water supply amount setting button for the water supply, water inlet detection sensor for detecting the water inlet of the purified water flowing through the water supply passage, cold water discharge amount detection sensor and hot water discharge amount detection for detecting the discharge amount of the cold water discharge valve and the hot water discharge valve Sensors, the first and second electronic control valve is provided for the cold water tank and the hot water tank to open and close the purified water flowing into the cold water tank and the hot water tank, the cold water tank and A control unit for controlling the water purification amount set by the purified water amount setting button is maintained in the hot water tank while controlling the display of the purified water amount is visually displayed, under the control of the control unit to display the purified water amount set by the purified water amount display unit There is provided a water purifier of a water amount control method having a water amount display driver.

Preferably, the purified water amount set by the purified water amount setting button is set between the lowest stored water amount and the maximum stored water amount for the cold water tank and the hot water tank.

In contrast, the purified water amount setting button is provided independently for the cold water tank and the hot water tank.

According to the present invention, the control unit is a water supply amount detection signal of the water supply amount detection sensor, the cold water discharge amount detection sensor and the cold water discharge amount detection signal and the hot water discharge amount from the cold water discharge amount detection sensor for the purified water amount set by the water purification amount setting button And controlling the first and second electronic control valves to open and close based on the detection signal to maintain the set amount of purified water in the cold water tank and the hot water tank.

In the water purifier of the purified water control method according to the present invention, the control unit displays the purified water set by the purified water setting button visually on the purified water display unit while opening and closing the electronic control valve on the basis of the water inlet and outlet water (cold water tank / hot water tank) ) Is always maintained at the above-mentioned amount of purified water, thereby eliminating the unreasonableness of unnecessarily having to store an integer at a maximum storage amount at all times.

1 is a schematic view for explaining the appearance of a water purifier of a water purification method according to a first embodiment of the present invention;

2 is a block diagram of a water purifier of a water purification method according to a first embodiment of the present invention;

3 is a flowchart for explaining the operation of the water purifier of the water amount control method according to the present invention shown in FIG.

4 is a block diagram of a water purification method according to a second embodiment of the present invention;

5 is a flowchart for explaining the operation of the water purifier of the water amount control method according to the second embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: water purifier, 12: beverage discharge valve,

14: purified water amount setting button, 16: purified water amount display unit,

26: first flow rate detection sensor, 28: electronic control valve,

30: second flow rate detection sensor, 32: control unit,

64: cold water tank, 66: hot water tank,

72: purified water amount setting button, 74: water quantity detection sensor,

76a, 76b: first and second electronic control valve, 78: cold water discharge detection sensor,

80: hot water discharge detection sensor, 82: control unit,

84: purified water display driver, 86: purified water display.

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

1A and 1B are views showing a water purifier of the water amount control method according to the first embodiment of the present invention, Figure 2 is a schematic diagram showing the configuration of the water purifier of the water amount control method shown in FIG.

Referring to the drawings, at least one beverage discharge valve 12 for discharging the purified water is installed on the front of the water purifier 10, and the amount of water for the water tank provided in the corresponding water purifier 10 is arbitrarily variable ( A purified water amount setting button 14 for adjusting the amount of purified water) and a purified water amount display unit 16 for visually displaying the purified water amount set by the purified water amount setting button 14 are provided.

Specifically, the purified water amount setting button 14 is a structure for varying the purified water amount stored in the water storage tank in an up / down manner, and the purified water amount display unit 16 corresponds to the purified water amount set by the purified water amount setting button 14. It consists of, for example, LCD or LED display elements for displaying in the range from the minimum level Min of the reservoir to the maximum level Max (e.g., 10 liters).

In addition, according to the corresponding water purifier 10, in the middle of the water supply passage 20 into which the tap water from the tap water flows, a plurality of ordinary filters (i.e., first to Nth filters) 22a to 22n are interposed. A reservoir 24 is provided at the rear end of the final N-th filter 22n, and the beverage discharge valve 12 is linked to the reservoir 214.

According to the present invention, in front of the first filter 22a in the middle of the water supply passage 20, a first flow rate detection sensor 26 (FM1) and a corresponding water supply passage (26) for detecting the water supply amount of the tap water ( An electronic control valve 28 is provided for opening and closing the water supply path of 20, and detecting the flow rate discharged through the beverage discharge valve 12 between the reservoir 24 and the beverage discharge valve 12. The second flow rate detection sensor 30 (FM2) for is installed.

Preferably, according to the present invention, the control unit 32 is provided to control the amount of the purified water stored in the water storage tank 24, the control unit 32, the purified water amount setting signal of the purified water amount setting button 14, The flow rate detection signal from the first flow rate detection sensor 26 and the flow rate detection signal from the second flow rate detection sensor 30 are applied, and the control unit 32 opens and closes the valve to the solenoid control valve 28 side. The control signal is output.

In addition, the controller 32 is connected with a purified water amount display driver 34 for driving the purified water amount display unit 16 in response to the purified water amount setting signal by the purified water amount setting button 14.

Referring to the flowchart of FIG. 3 for the water purifier according to the first embodiment of the present invention described above with reference to the flowchart of FIG. 3, the desired water amount is set by the water purification amount setting button 14 ( In step 40 of FIG. 3, when the setting of the purified water amount is made, the controller 32 controls the purified water amount display driver 34 so that a visual display of the set purified water amount is made by the purified water amount display unit 16. (Step 42 of FIG. 3).

In addition, the controller 32 outputs a water supply path opening signal to the solenoid control valve 26, and accordingly, the tap water passes through the water supply path 20 to the first filter to the Nth filter ( 22a to 22n), filtering is performed, and then stored in the reservoir 24 (step 42 in FIG. 3).

Here, the amount of tap water flowing through the water supply passage 20 is detected by the first flow rate detection sensor 26 and applied to the controller 32, and the control unit 32 detects the first flow rate. The activation period of the electronic control valve 28 is controlled based on the flow rate detection signal from the sensor 26 and the flow rate detection signal from the second flow rate detection sensor 30.

The control unit 32 reaches the purified water amount set for the reservoir 24 based on the flow rate detection signal (that is, the amount of water received) detected from the first flow rate detection sensor 26 (in step 44 of FIG. 3). yes), the control unit 32 applies the water supply path closing signal to the electronic control valve 38 to deactivate the electronic control valve 38, so that the water supply passage 20 is closed and the tap water is closed. Further inflow of the water is blocked so that the water purification operation 24 is stopped (step 46 of FIG. 3).

In this state, when discharge is made from the beverage discharge valve 12 (yes in step 48 of FIG. 3), the amount of purified water discharged from the reservoir 24 is detected by the second flow rate detection sensor 30. The controller 32 is applied to the control unit 32, and thus the control unit 32 opens the electronic control valve 28 to allow the tap water to flow through the water supply passage 20.

Here, the introduced tap water is detected by the first flow rate detection sensor 26 and applied to the controller 32, and the controller 32 corresponds to the amount of the discharged purified water by the electronic control valve ( 28, the tap water corresponding to the amount discharged from the reservoir 24 is eventually stored in the reservoir 24 through the water purification process (step 50 of FIG. 3).

Therefore, in the first embodiment of the present invention, as the purified water is executed by the amount set by the purified water amount setting button 14, it is possible to properly use the purified water stored in the water storage tank 24, which is a wasteful factor of tap water. Removed.

FIG. 4 is a block diagram showing the configuration of the water purifier of the variable water control method according to the second embodiment of the present invention. In the second embodiment, control is performed by setting the amount of water for the cold water tank and the hot water tank in which cold water and hot water are stored. It relates to a structure for making it happen.

That is, the first to Nth filters 62a to 62n are provided on the path of the water supply pipe 60 through which the raw water (the tap water in this example) to be purified is introduced, and behind the final Nth filter 62n. A cold water tank 64 is installed on the path of the first branch pipe 60a branched from the water supply pipe 60, and a hot water tank 66 is disposed on the path of the second branch pipe 60b from the water supply pipe 60. Is installed.

In addition, the cold water discharge valve 64a which is similar to the beverage discharge valve 12 of FIG. 2 and exposed to the outside of the corresponding water purifier is connected to the rear of the cold water tank 64, and the hot water tank 66 At the rear, the hot water discharge valve 66a is similar to the beverage discharge valve 12 of FIG. 2 and exposed to the outside of the corresponding water purifier.

The cold water tank 64 is linked with a cooling system 68 including a refrigerant cycle for cooling the purified water stored therein, and the hot water tank 66 is for heating the purified water stored therein. A heating system 70 including a heater is associated.

In addition, in Fig. 4, 72 is an up / down water purification amount setting button for setting the required amount for the maximum storage amount of the cold water tank 64 and the hot water tank 66 is exposed outside the front of the water purifier. The purified water amount setting button 72 is provided so that the same purified water amount is set for the cold water tank 64 and the hot water tank 66, but may be provided separately for the cold water tank 64 and the hot water tank 66, if necessary. It is preferable to set the purified water amount to the cold water tank 64 sequentially by the single purified water amount setting button 72, and then to set the purified water amount to the hot water tank 66 programmatically.

74 is an intake quantity detection sensor for detecting the amount of tap water flowing through the water supply passage 60.

76a is a first electronic control valve for opening and closing the path of the purified water flowing into the cold water tank 64, 76b is a second electronic control valve for opening and closing the path of the purified water flowing into the hot water tank 66.

78 is a cold water discharge detection sensor discharged from the cold water tank 64 through the cold water discharge valve 64a, 80 is a hot water discharge detection sensor discharged from the hot water tank 66 through the hot water discharge valve 66a. to be.

82 is in charge of the overall control of the corresponding water purifier, while the water quantity detection signal from the water quantity detection sensor 74 and the cold water discharge amount detection sensor 78 are based on the purified water amount set by the water purification amount setting button 72. The first and / or second electronic control valves 76a and 76b are opened and closed on the basis of the cold water discharge amount detection signal from the hot water discharge amount detection signal and the hot water discharge amount detection signal from the hot water discharge amount detection sensor 80. A control unit for controlling the amount of purified water flowing into the hot water tank 66 and visually displaying the level of the purified water set by the purified water amount setting button 72.

84 indicates that the purified water amount set by the purified water amount setting button 72 is displayed on the purified water amount display unit 86 installed at a predetermined position (ie, 16 in FIG. 1) of the corresponding water purifier under the control of the control unit 82. It is a constant quantity display driver.

The water purifier of the purified water control method according to the second embodiment of the present invention having the above-described configuration will be described in detail with reference to the flowchart shown in FIG.

When the desired amount of purified water and the desired amount of purified water are made (step 90) by the purified water amount setting button 72, the controller 32 controls the purified water amount display driver 84 to control the purified water amount display unit 86. By means of a visual indication of the set amount of purified water (step 92).

In addition, when the controller 82 opens the first and second solenoid control valves 76a and 76b, tap water flows in through the water supply path 60 to allow the first to Nth filters 62a to. Filtering is performed while passing through 62n to obtain a purified water, which is stored in the cold water tank 64 and the hot water tank 66 via the open first and second electronic control valves 76a and 76b. (Step 92).

Here, the control unit 82 when the water supply amount of water detected by the water supply detection sensor 74 reaches the water purification amount set by the water purification amount setting button 72 (yes in step 94) the first and The second solenoid control valves 76a and 76b are closed to stop the water purifying operation (step 96).

Therefore, the maximum amount of stored water is not stored in the cold water tank 64 and the hot water tank 66, but the required amount of purified water (that is, the amount set by the purified water amount setting button 72) is stored.

In this state, for example, hot water is discharged (discharged) by the operation of the hot water discharge valve 66a (i.e. yes in step 98) or cold water is discharged by the operation of the cold water discharge valve 64a (ie, step 100). Is yes), the discharge amount of the cold water tank 64 is detected from the cold water discharge amount detection sensor 78 and applied to the controller 82 or the discharge amount of the hot water tank 66 is the hot water discharge amount detection sensor 80. Is detected and applied to the controller 82.

Therefore, the control unit 82 controls the opening of the electronic control valve on the cold water or hot water side in which the discharge is detected again so that the positive integer set in the cold water tank 64 or the hot water tank 66 is always stored. .

Meanwhile, according to the present invention, in the second embodiment, a plurality of water purification amount setting buttons 72 may be provided for individually setting cold water and hot water, and a plurality of water purification amount display portions 86 may be provided.

On the other hand, the single purified water amount setting button 72 may sequentially set the cold water and hot water or the hot water and cold water purified amounts so that the cold water and the hot water can be separately controlled.

If necessary, an electronic control valve may be provided on the path of the water supply passage 60 to control the amount of water supplied.

As described above, according to the water purifier of the purified water control method according to the present invention, the variable water level can be set from the maximum storage amount to the storage tank or the cold water tank and the hot water tank. In addition to the disadvantages associated with the waste of raw water (ie, tap water), which is caused by the wastewater, the maximum storage amount can be minimized, such as the growth of bacteria, especially in the cold water tank can be minimized.

Claims (6)

In a water purifier having a first to N-th filter for filtering and purifying the raw water of the purified water flowing through the water supply passage and a reservoir for storing the purified water to be discharged through the beverage discharge valve, A purified water amount setting button for setting an amount of purified water stored in the reservoir, A first flow rate detection sensor installed on a path of the water supply path and detecting a flow rate of the purified water source water flowing into the first filter side; A second flow rate detection sensor for detecting an amount of water discharged from the reservoir through the beverage discharge valve; An electronic control valve for opening and closing the purified water source water flowing through the water supply passage, Based on the flow rate detected by the first and second flow rate detection sensor is responsible for the control to visually display the set water amount while opening and closing the electronic control valve to maintain the water amount set by the water amount setting button in the reservoir A control unit, And a purified water amount display driver configured to display the set purified water amount on the purified water amount display unit under the control of the controller. The water purifier according to claim 1, wherein the purified water amount set by the purified water amount setting button is set between the lowest and maximum water reservoirs of the reservoir. First to Nth filters for filtering and purifying the purified raw water flowing through the water supply passage, a cold water tank and a hot water tank for storing the purified water and storing the purified water in a cooled and heated state by a cooling system and a heating system, and the cold water. In the water purifier with a cold water discharge valve and a hot water discharge valve installed correspondingly to the tank and the hot water tank to discharge cold water and hot water, A purified water amount setting button for setting an amount of purified water stored in the cold water tank and the hot water tank; Intake quantity detection sensor for detecting the inflow of the purified water source water flowing through the water supply passage, Cold water discharge amount detection sensor and hot water discharge amount detection sensor for detecting the discharge amount of the cold water discharge valve and the hot water discharge valve, First and second electronic control valves installed on the cold water tank and the hot water tank to open and close the purified water flowing into the cold water tank and the hot water tank; A control unit which controls the set amount of water visually while controlling the amount of purified water set by the purified water amount setting button in the cold water tank and the hot water tank; And a purified water amount display driver for displaying the purified water amount set by the purified water amount setting button under the control of the controller. The water purifier according to claim 3, wherein the purified water set by the purified water amount setting button is set between the lowest and the lowest amount of water for the cold water tank and the hot water tank. The water purifier according to claim 3, wherein the purified water amount setting button is provided independently for the cold water tank and the hot water tank. 4. The control unit according to claim 3, wherein the control unit receives an input water amount detection signal of the water input amount detection sensor, a cold water discharge amount detection sensor and a cold water discharge amount detection signal from the cold water discharge amount detection sensor, and hot water for the purified water amount set by the water purification amount setting button. And a control for opening and closing the first and second electronic control valves on the basis of the discharge amount detection signal to maintain the set amount of purified water in the cold water tank and the hot water tank.