KR20040036035A - Apparatus for measuring time of filter exchange in water purifier - Google Patents

Abstract

PURPOSE: An apparatus for measuring time of filter exchange in water purifier is provided which automatically informs a user of the filter exchange time of the water purifier by calculating flow of water introduced through water supply pipe per unit time as the minimum deviation only with operating time of pump. CONSTITUTION: The apparatus comprises an input part into which discharge quantity of pump per hour and the exchange time of filter per the pump discharge quantity are inputted; a timer for calculating accumulated operating time of the pump; an operation part calculating accumulated discharge quantity of the pump by operating pump discharge quantity and operating time per hour; and a judgement/order part for displaying the judged actual filter exchange time by judging the actual filter exchange time based on the accumulated discharge quantity of the pump calculated by the operation part and the exchange time of filter per the pump discharge quantity memorized in the input part, wherein the judgement/order part automatically or manually resets the actual pump discharge quantity and timer every time when exchanging the filter so that they are initialized.

Description

Apparatus for measuring time of filter exchange in water purifier

The present invention relates to an apparatus for measuring filter replacement time of a water purifier that informs the exact filter replacement time of the water purifier with a minimum deviation even with the operation time of the pump.

In general, water purifiers, in particular reverse osmosis water purifiers are devices designed to provide clean water to users by purifying tap water or ground water by a reverse osmosis method. In addition, in the case of the direct type reverse osmosis water purifier shown in FIG. 1 as an example of the conventional reverse osmosis water purifier, raw water conveyed from the water source is immediately filtered without having a separate storage tank to enable intake of the final purified water.

Looking at the configuration of the conventional direct-type reverse osmosis water purifier shown in Figure 1, the precipitation filter (4), the pump (5), pretreatment carbon filter (6), membrane filter (7) and post-treatment carbon filter (8) sequentially It has a structure arranged, and is connected to the water supply pipe (3) between them. The water supply pipe 3 has a water supply valve 2 for controlling the inflow of raw water supplied from a raw water pipe (not shown) at the inlet side, and discharges purified water for intake through various filters at the outlet side. The water intake cock 9 for connecting is connected.

Usually, the precipitation filter 4 receives raw water such as tap water and groundwater to remove particulate matter, and the pretreatment carbon filter 6 adsorbs chlorine and oxides from the raw water passing through the precipitation filter 4. To remove it. Membrane filter (7) flows the purified water passing through the pretreated carbon filter (6) and removes heavy metals and ionic substances from the purified water, and the post-treated carbon filter (8) removes the membrane filter (7) It receives the purified water and serves to adsorb and remove the gaseous substance dissolved in the purified water. In addition, the pump 5 is located between the precipitating filter 4 and the pretreatment carbon filter 6 to increase the water pressure of the purified water passing through the precipitating filter 4 to transport the water to the pretreatment carbon filter 6. Will be performed.

In addition, the membrane filter 7 is withdrawn from the water supply pipe (3) separate from the concentrated water pipe (11), through the concentrated water pipe (11) heavy metals and ions filtered by the membrane filter (7) The concentrated water (wastewater) containing the acidic substance will be discharged. On the other hand, the concentrated water pipe 11 is provided with a flow control valve (concentrated water control valve; 12) to control the discharge of the concentrated water.

In addition, the water supply pipe (3) flows along the water supply pipe (3) while temporarily storing one or more flow meters (13, 14) for measuring and displaying the amount of water flow per unit area and the raw water or purified water being supplied. A flow rate adjustment tank 15 for adjusting the flow rate is provided. In FIG. 1, one flow meter 13 is installed on the discharge side of the precipitation filter 4 and the other flow meter 14 is installed on the discharge side of the membrane filter 7, and is displayed on each of the flow meters 13 and 14. It is possible to determine the replacement timing of all the filters 4, 6, 7, and 8 according to the cumulative water flow rate. In addition, in FIG. 1, the flow rate adjusting tank 15 is positioned between the precipitation filter 4 and the pump 5, and a part of the final purified water between the flow rate adjusting tank 15 and the post-treatment carbon filter 8. It is directly connected to a separate pipe (16) to feed back and refinish.

In the conventional direct type reverse osmosis water purifier having such a configuration, raw water introduced from the raw water pipe 1 through the water supply pipe 3 is precipitated filter 4, pretreated carbon filter 6, membrane filter 7 and after The water is purified while passing through the treated carbon filter 8 in order to be finally discharged through the water intake valve 10. In addition, the concentrated water generated in the membrane filter 7 is disposed to be discharged to the outside through the concentrated water pipe (11).

In general, since the amount of purified water produced per unit time in a direct type reverse osmosis water purifier is small, it is very sensitive to the flow rate of purified water when measuring the flow rate using a flow meter, and the measurement error of the flow rate also appears large.

In addition, the amount of concentrated water generated varies greatly depending on the region and water quality, that is, the pH level, and in order to more accurately measure the flow rate of purified water passing through each filter, the same number of flowmeters as the entire filter is required. There was a problem that caused the rise.

The present invention has been made to solve the above problems, a water purifier that automatically informs the filter replacement time of the water purifier by calculating the amount of water flowing through the water supply pipe per unit time with a minimum deviation only by the operation time of the pump Its purpose is to provide an apparatus for measuring filter replacement time.

1 is a view showing the configuration of a conventional direct type reverse osmosis water purifier

2 is a view showing an installation state of the filter replacement time measuring apparatus according to the present invention;

3 is a view showing the configuration of the filter replacement time measuring apparatus according to the present invention;

Figure 4 is a block diagram showing the operation of the filter replacement time measuring apparatus according to the present invention

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

2: water supply valve 3: water supply piping

4: settling filter 5 ': pump

6: pretreatment carbon filter 7: membrane filter

8: post-treatment carbon filter 9: water intake cock

11: concentrated water piping 12: flow control valve

20: filter replacement time measuring device 21: input unit

22: timer 23: calculator

24: judgment / command

The present invention for achieving the above object, the input unit for inputting the replacement time of the filter relative to the discharge amount of the pump and the discharge amount of the pump, a timer for calculating the accumulated operating time of the pump, by calculating the discharge amount and the operating time of the pump A calculation unit for calculating the cumulative discharge amount of the pump, and a determination / command unit for judging and displaying the actual replacement time of the filter based on the cumulative discharge amount of the pump calculated by the calculation unit and the filter replacement time compared to the discharge amount stored in the input unit. It provides a filter replacement time measurement device for a water purifier, characterized in that made.

Preferably, the determination / command unit is configured to reset the actual discharge amount and the timer of the pump automatically or manually at every replacement of the filter.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the filter replacement time measuring device of the water purifier according to the present invention in detail.

In the present invention, the same reference numerals are given to the same components as in the prior art, and the new reference numerals are given to the new components, and detailed descriptions of the same components will be omitted.

2 is a view showing the installation state of the filter replacement time measuring apparatus according to the present invention, Figure 3 is a view showing the configuration of the filter replacement time measuring apparatus according to the present invention.

As shown, in the present invention, the water purifier has a structure in which the precipitation filter 4, the pretreatment carbon filter 6, the pump 5 ', the membrane filter 7 and the aftertreatment carbon filter 8 are sequentially arranged. It is connected to the water supply pipe (3) between them.

In the water supply pipe 3, the filter replacement time measuring device 20 of the present invention is provided at one side of the pump 5 '. As an example of the installation of the filter replacement time measuring device 20, in FIG. 2, the filter replacement time measuring device 20 is positioned between the pump 5 ′ and the membrane filter 7. Of course, it is not limited to this.

The filter replacement time measuring device 20 of the present invention includes an input unit 21 for inputting an exchange time of the filters 4, 6, 7, and 8 with respect to the discharge amount per hour of the pump 5 'and the discharge amount of the pump 5', A timer 22 for calculating the accumulated operating time of the pump 5 ', an arithmetic unit 23 for calculating the accumulated discharge amount of the pump 5' by calculating the discharge amount per hour and the operating time of the pump 5 ', The actual replacement time of the filters 4, 6, 7, and 8 is determined based on the cumulative discharge amount of the pump 5 'calculated by the calculation unit 23 and the replacement time of the filter relative to the discharge amount stored in the input unit 21. It is configured to include a judgment / command unit 24 to inform the user in an audiovisual way through an alarm or lamp.

On the other hand, the input unit 21 stores the total accumulated discharge amount of the pump 5 'and resets the discharge amount of the pump 5' automatically or manually at every replacement of the filters 4, 6, 7, and 8. It is provided in a structure that can be initialized.

In FIG. 2, reference numeral "2" denotes a water supply valve, reference numeral "9" denotes a water intake cock, reference numeral "11" denotes a concentrated water pipe, and "12" denotes a flow control valve.

Looking at the operation of the filter replacement time measuring device 20 of the water purifier according to the present invention having such a configuration as follows.

Figure 4 is a block diagram showing the operation relationship of the filter replacement timing measuring apparatus according to the present invention, before the operation of the water purifier, the filter (4, 6, 7 compared to the unit discharge amount of the pump 5 'to the input unit 21 first) Enter the exchange cycle of (8). Subsequently, when the water purifier is operated, the timer 22 and the pump 5 'are simultaneously operated to purify water in each of the filters 4, 6, 7, and 8. At this time, when the calculation unit 23 calculates the actual discharge amount of the pump 5 ', the determination / command unit 24 determines the filter 4 based on the replacement cycle of the filter relative to the unit discharge amount of the pump stored in the input unit 21. The actual exchange time of, 6,7,8) is determined. If it is determined that the numerical value calculated by the calculation unit 23 corresponds to the replacement time of the filters 4, 6, 7, and 8, the determination / command unit 24 may be an audiovisual method such as an alarm or a lamp. The user will be notified of the filter replacement time. Through this, when the user exchanges the filters 4, 6, 7, and 8, the determination / command unit 24 resets and resets the actual discharge amount of the pump 5 'and the timer 22, The above operation is repeated upon reactivation.

As such, the present invention calculates the amount of flowing water flowing along the water supply pipe per unit time with a minimum deviation only by the operation time of the pump to inform the user of the filter replacement time of the water purifier.

As described above, the present invention calculates the amount of flowing water flowing along the water supply pipe per unit time with a minimum deviation only by the operation time of the pump, and the filter replacement time measuring device of the water purifier to automatically inform the filter replacement time of the water purifier By providing a filter can be replaced at a more appropriate time to protect the user's health from bacteria.

Claims (2)

An input unit for inputting an exchange time of the filter relative to the discharge amount of the pump and the discharge amount of the pump, a timer for calculating the accumulated operating time of the pump, an operation unit for calculating the accumulated discharge amount of the pump by calculating the discharge amount and the operating time of the pump, and the And a determination / command unit configured to determine and display the actual replacement time of the filter based on the cumulative discharge amount of the pump calculated by the operation unit and the replacement time of the filter compared to the discharge amount stored in the input unit. Timing device. The method of claim 1, And the determination / command unit is configured to reset and reset the actual discharge amount and timer of the pump automatically or manually at every replacement of the filter.