KR102316927B1 - Water purifing apparatus and method for determining filter exchange period thereof - Google Patents

Abstract

A water treatment device according to an embodiment of the present invention stores a flow rate-differential pressure correlation graph for a plurality of filters in a range of differential pressure limited according to a limit value of the inlet pressure of raw water set through a pressure reducing valve. A memory, a differential pressure sensor for measuring the differential pressure of the internal filter, a flow sensor for measuring the flow rate of water flowing into the internal filter, and a flow rate of a plurality of filters stored in the memory based on the initial differential pressure and flow rate measured in the initial installation step - It may include a filter replacement time management unit that selects one of the differential pressure correlation graphs and determines the replacement timing of the internal filter according to whether the periodically measured differential pressure and flow rate match the selected graph.

Description

How to determine when to replace a water treatment device and its filter

The present application relates to a water treatment device and a method for determining the filter replacement time thereof.

A water purifier, which is one of the representative small water treatment devices, is a device that provides drinking water by filtering raw water through a plurality of filters to remove foreign substances or harmful substances contained in the raw water.

In order to increase the efficiency and extend the life of the water treatment equipment, periodic filter management and replacement is required. Conventional water treatment equipment determines the filter replacement time depending on the operation time. That is, when the operating time is counted and the accumulated operating time reaches a preset time, the filter replacement time is displayed so that the user can replace the filter. As described above, the conventional water treatment equipment has a problem in that it is difficult to replace the filter in a timely manner because the filter is replaced depending on the operating time despite the change in the filter replacement time depending on the environment in which the water treatment equipment is installed.

In the art, it relates to a water treatment device capable of determining an accurate filter replacement time so that a user can timely replace the filter, and a method for determining the filter replacement time thereof.

A water treatment device according to an embodiment of the present invention stores a flow rate-differential pressure correlation graph for a plurality of filters in a range of differential pressure limited according to a limit value of the inlet pressure of raw water set through a pressure reducing valve. A memory, a differential pressure sensor for measuring the differential pressure of the internal filter, a flow sensor for measuring the flow rate of water flowing into the internal filter, and a flow rate of a plurality of filters stored in the memory based on the initial differential pressure and flow rate measured in the initial installation step - It may include a filter replacement time management unit that selects one of the differential pressure correlation graphs and determines the replacement timing of the internal filter according to whether the periodically measured differential pressure and flow rate match the selected graph.

The method for determining the filter replacement timing of a water treatment device according to an embodiment of the present invention includes a process of setting a limit value of the inlet pressure of raw water through a pressure reducing valve, and a differential pressure limited according to the set limit value of the inlet pressure of raw water. In the range, the flow rate-differential pressure correlation of the plurality of filters stored in the memory based on the process of storing the flow rate-differential pressure correlation graph for the plurality of filters in the memory, and the initial differential pressure and the flow rate measured in the initial installation stage The process of selecting one graph among the relationship graphs, the process of periodically measuring the differential pressure and the flow rate, and the process of determining the replacement timing of the internal filter according to whether the periodically measured differential pressure and the flow rate match the selected graph may include.

In addition, the means for solving the above-mentioned subject does not enumerate all the characteristics of this invention. Various features of the present invention and its advantages and effects may be understood in more detail with reference to the following specific embodiments.

By determining the filter replacement time based on the differential pressure sensor and the flow sensor, it is possible to determine the exact filter replacement time, and by outputting an alarm so that the user recognizes this, there is an advantage that the user can replace the filter in a timely manner.

1 is a block diagram showing the configuration of a water treatment device according to an embodiment of the present invention;
2 is a flowchart illustrating a method for determining a filter replacement timing of a water treatment device according to an embodiment of the present invention, and
3 is an exemplary diagram illustrating a flow rate-differential pressure correlation graph pre-stored in a memory of a water treatment device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiment of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art. The shapes and sizes of elements in the drawings may be exaggerated for clearer description.

Hereinafter, a method for determining a water treatment device and a filter replacement time thereof according to an embodiment of the present invention will be described. In particular, a description will be given of a water treatment device for determining the filter replacement time based on the differential pressure sensor and the flow rate sensor and outputting an alarm so that the user recognizes this, and a method for determining the filter replacement time thereof.

In the following description, a water treatment device is a generic term for various types of home appliances that filter raw water through a plurality of filters, and may include, for example, a water purifier, a water heater, a chiller, an ionizer, and the like. However, the following description will be described by taking the water purifier as an example.

1 is a block diagram showing the configuration of a water treatment device according to an embodiment of the present invention.

1, the water treatment device according to an embodiment of the present invention includes a control unit 100, a memory 110, an input unit 120, a display unit 130, a filter replacement time management unit 140, a differential pressure sensor ( 150 ), a flow sensor 160 , and an alarm unit 170 .

The control unit 100 controls the overall operation of the water treatment device. In particular, the control unit 100 processes a function for determining the filter replacement time based on the differential pressure sensor 150 and the flow rate sensor 160 and outputting an alarm so that the user recognizes it.

The memory 110 stores a microcode of a program for processing and control by the controller 100 and various reference data, temporary data generated during execution of various programs, and various data for storage that can be updated. In particular, in the manufacturing stage, the memory 110 uses a range of differential pressures limited according to the limit value of the inlet pressure of the raw water set through the pressure reducing valve (not shown), for various filters obtained through experiments. Pre-save the flow rate-differential pressure correlation graph for each star.

The input unit 120 may include a plurality of function buttons, and provides button input data corresponding to a button input by the user to the control unit 100 . Here, the functions of the input unit 120 and the display unit 130 may be performed by a touch screen unit (not shown), and the touch screen unit (not shown) performs a touch screen input through a user's screen touch and Responsible for graphic screen output through touch screen.

The display unit 130 displays status information generated during the operation of the water treatment device, a limited number of characters, a large amount of moving images and still images, and the like. The display unit 130 may use a liquid crystal display (LCD).

The filter replacement time management unit 140 selects one of the flow rate-differential pressure correlation graphs of various filters pre-stored in the memory 110 based on the initial differential pressure and flow rate measured in the initial installation step, and then periodically The replacement timing of each internal filter is determined according to whether the measured differential pressure and flow rate match the selected graph. In detail, the filter replacement timing management unit 140 measures the initial differential pressure and the flow rate through the differential pressure sensor 150 and the flow rate sensor 160 in the initial installation stage, and then stores the initial pressure in the memory 110 . Based on the flow rate-differential pressure correlation graph of various filters in the used state, one filter having a graph matching the measured initial differential pressure and the flow rate is identified, and the flow rate-differential pressure correlation of the checked filter replacement time state Select the graph. Thereafter, the filter replacement timing management unit 140 periodically measures the differential pressure and the flow rate through the differential pressure sensor 150 and the flow rate sensor 160, and the periodically measured differential pressure and flow rate is the selected replacement timing state. check whether it matches the flow-differential pressure correlation graph of and outputs alarm information informing the filter replacement time through the input unit 120 . If the periodically measured differential pressure and flow rate do not match the flow rate-differential pressure correlation graph of the selected replacement timing state, the filter replacement timing management unit 140 determines that the replacement timing of the internal filter has not arrived.

The differential pressure sensor 150 is installed at both ends (ie, front and rear ends) of each internal filter to measure the differential pressure of the internal filter.

The flow sensor 160 is installed in front of each internal filter to measure the flow rate of water flowing into the internal filter.

The alarm unit 170 notifies the user of the measurement result of the differential pressure and the flow rate, the filter replacement time, and the like. The alarm unit 170 may output an alarm so that the user recognizes the measurement result of differential pressure and flow rate, filter replacement timing, etc. through human senses such as sight and hearing. For example, by using a buzzer or LED (Light Emitting Diode) to output a warning sound or blink a warning lamp, or by displaying guidance through the display unit 130, measurement results for differential pressure and flow rate, filter replacement time, etc. You can output an alarm notifying you.

2 is a flowchart illustrating a method for determining a filter replacement timing of a water treatment device according to an embodiment of the present invention.

Referring to FIG. 2 , the water treatment device sets a limit value of the inlet pressure of the raw water through the pressure reducing valve in the manufacturing step in step 201 . Accordingly, the range of the differential pressure of the internal filter that can be measured is limited.

After that, in the manufacturing step in step 203, the water treatment device is a flow rate-differential pressure correlation graph for various filters obtained through experiments in the range of differential pressure limited according to the set limit value of the inlet pressure of the raw water. pre-stored in memory. In general, the inlet pressure of raw water is not constant in water treatment equipment, and accordingly, the range of the differential pressure of the internal filter that can be measured is very diverse. However, there is a limit to the memory capacity to obtain and store in advance the flow rate-differential pressure correlation graph for various filters through experiments for all differential pressure ranges. Therefore, it is desirable to prevent the inlet pressure from exceeding a predetermined value through the pressure reducing valve and to obtain and store in advance a flow rate-differential pressure correlation graph for various filters for various filters through an experiment in the limited differential pressure range. . The flow rate-differential pressure correlation graph is, through experiments in the manufacturing stage, according to the usage status of the filters for a predetermined time (eg, 1 hour) for various filters, for example, the initial usage status (of the inflow flow rate). Flow rate and differential pressure in the state in which 100% is extracted), in the intermediate use state (the state in which 90% of the extraction flow in the initial use state is extracted), and in the replacement period state (the state in which 80% of the extraction flow in the initial use state is extracted) As a graph obtained by obtaining the correlation between the two, it can be obtained as shown in FIG. 3 .

Thereafter, in step 205, the water treatment device measures the initial differential pressure and the flow rate for a predetermined time in the initial installation step, and outputs alarm information informing of the initial measurement result.

Then, in step 207, the water treatment device identifies one filter having a graph matching the initial measurement result based on the flow rate-differential pressure correlation graph of the various filters in the initial use state previously stored in the memory, and the confirmation Select the flow rate-differential pressure correlation graph of the replacement time of the old filter. The water treatment device regards the internal filter as the same filter as the identified filter.

Thereafter, in step 209 , the water treatment device measures the differential pressure and the flow rate for a predetermined time at a predetermined cycle.

Thereafter, in step 211 , the water treatment device checks whether the differential pressure and the flow rate measured for a predetermined time at a predetermined period match the flow rate of the selected replacement time state-differential pressure correlation graph. That is, it is checked whether the differential pressure and the flow rate measured for a predetermined time in a predetermined period match any point on the flow rate-differential pressure correlation graph of the selected replacement time state.

In step 211, when the differential pressure and flow measured for a predetermined time in a predetermined cycle match the flow rate-differential pressure correlation graph of the selected replacement time state, in step 213, the replacement time of the internal filter arrives in the water treatment device It is determined that it has been done, and alarm information to inform the filter replacement time is output.

On the other hand, in step 211, if the differential pressure and the flow rate measured for a predetermined time in a predetermined period do not match the flow rate-differential pressure correlation graph of the selected replacement time state, the replacement time of the internal filter of the water treatment device arrives It is determined that it has not been done, and the process returns to step 209 and repeats the following steps. Although not shown, the water treatment device may output alarm information informing of the measurement result before returning to step 209 .

Thereafter, the water treatment device ends the algorithm according to the present invention.

Although not shown, when the internal filter is replaced by the user according to the output of the alarm information notifying the filter replacement timing in step 213, the water treatment device returns to step 205 and measures the initial differential pressure and flow rate for a predetermined time, After outputting alarm information indicating the measurement result, the following steps may be repeated.

In this way, the water treatment device and the filter replacement time determination method according to the embodiment of the present invention can determine the exact filter replacement time by determining the filter replacement time based on the differential pressure sensor and the flow sensor, and alarm to the user to recognize it. By outputting , there is an advantage that the user can replace the filter in a timely manner.

In addition, in the water treatment device and the method for determining the filter replacement timing according to the embodiment of the present invention, the limit value of the inlet pressure of raw water is set through the pressure reducing valve in the manufacturing step, and the limit value of the inlet pressure of the raw water is limited according to the set limit value In the range of differential pressure to be used, the flow rate-differential pressure correlation graph for various filters obtained through experiments is stored in memory and used to determine the filter replacement time, thereby overcoming the problem of the conventional memory capacity limitation and simplifying the system. There are advantages that can be

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and variations are possible within the scope without departing from the technical spirit of the present invention described in the claims. It will be apparent to those of ordinary skill in the art.

100: control unit
110: memory
120: input unit
130: display unit
140: filter replacement time management unit
150: differential pressure sensor
160: flow sensor
170: alarm unit

Claims (6)

In the range of differential pressure limited by the limit value of the inlet pressure of the raw water set through the pressure reducing valve, the flow-differential pressure correlation data in the initial use state and the flow-differential pressure correlation in the replacement state for each of a plurality of different types of filters a memory for storing relational data;
a differential pressure sensor that measures the differential pressure of the internal filter;
A flow sensor that measures the flow rate of water flowing into the internal filter;
The initial differential pressure and flow rate measured in the initial installation step are matched with the flow rate-differential pressure correlation data of the initial use state for each of the plurality of filters stored in the memory, and the flow rate of the matched initial use state-differential pressure correlation data indicates Check the filter as the installed filter, select the flow rate-differential pressure correlation data of the replacement timing state for the filter identified as the installed filter, and then periodically measure the differential pressure and the flow rate flow-differential pressure correlation in the selected replacement timing state A water treatment device including a filter replacement time management unit that determines when to replace the installed filter according to whether it matches the relational data.
delete According to claim 1, wherein the filter replacement time management unit,
Periodically measuring the differential pressure and the flow rate through the differential pressure sensor and the flow sensor,
checking whether the periodically measured differential pressure and flow rate match the flow rate-differential pressure correlation data of the selected replacement time state;
When the periodically measured differential pressure and flow rate match the flow rate-differential pressure correlation data of the selected replacement time state, it is determined that the replacement time of the installed filter has arrived, and alarm information notifying the filter replacement time is output through the alarm unit. do,
If the periodically measured differential pressure and flow rate do not match the flow rate-differential pressure correlation data of the selected replacement time state, it is determined that the replacement time of the installed filter has not arrived.
The process of setting the limit value of the inlet pressure of the raw water through the pressure reducing valve;
In the range of differential pressure limited according to the set limit value of the inlet pressure of raw water, the flow rate-differential pressure correlation data of the initial use state and the flow rate-differential pressure correlation data of the replacement time state for each of a plurality of different types of filters storing in memory and
The process of measuring the initial differential pressure and flow rate at the initial installation stage;
The process of matching the initial differential pressure and flow rate measured in the initial installation step with the flow rate-differential pressure correlation data of the initial use state for each of the plurality of filters stored in the memory;
The process of confirming the filter indicated by the matched flow rate-differential pressure correlation data of the initial use state as an installed filter;
The process of selecting the flow rate-differential pressure correlation data of the replacement timing state for the filter identified as the installed filter;
The process of periodically measuring the differential pressure and flow, and
and determining the replacement timing of the installed filter according to whether the periodically measured differential pressure and flow rate match the flow rate-differential pressure correlation data of the selected replacement timing state.
delete The method of claim 4, wherein the process of determining the replacement timing of the internal filter according to whether the periodically measured differential pressure and flow rate matches the selected data comprises:
The process of checking whether the periodically measured differential pressure and flow rate match the flow rate-differential pressure correlation data of the selected replacement time state;
When the periodically measured differential pressure and flow rate match the flow rate-differential pressure correlation data of the selected replacement time state, determining that the replacement time of the installed filter has arrived, and outputting alarm information indicating the filter replacement time; ,
When the periodically measured differential pressure and flow rate do not match the flow rate-differential pressure correlation data of the selected replacement timing state, determining that the replacement timing of the installed filter has not arrived; Way.

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