KR20010035534A - Tab water supervising system via internet and method therof - Google Patents

Abstract

PURPOSE: A system and a method for managing city tap water using the internet are provided to enable a user to consume safe water, by receiving the measurement values related to the city tap water supplied to the user, and sending the safeness of the water and the water quality improvement plan based on the measurement values, to the user. CONSTITUTION: A plurality of measurement parts(10-1, ..., 10-n), attached to the place into which the water is inputted, measure the various items of the water, and send the measurement values. A storage part(30) stores the reference values of safe water quality that correspond to the measurement items. An analysis part(40) compares the measurement values received from the measurement parts(10-1, ..., 10-n) with the reference values thereof, and thereby determines whether the water is safe. A plurality of output parts(20-1, ..., 20-n) outputs the data which is resulted from the analysis part(40) in connection with the safeness of the water.

Description

Tap water supervising system via internet and method therof}

The present invention relates to a tap water management system and method using the Internet, and more particularly, by transmitting a determination result and a water quality improvement plan for the safety of the tap water determined based on the measured value for the tap water received through the Internet. The present invention relates to a tap water management system and method using the Internet for safe water use.

At present, many ordinary citizens do not trust the safety of tap water used in homes and offices, and abnormal occurrences occur frequently in taste, smell, and color of tap water actually used. Tap water is treated at a water treatment plant and supplied to homes or offices through water pipes. Temporarily stored in water tanks for use in apartments, office buildings, and schools.

In general, the water from the water purification plant is clean and safe because it undergoes strict treatment and water quality inspection, and in many cases it is contaminated during aging of pipes, misjunctions and storage in water tanks. The safety of the water from the water purification plant to the water supply network is the responsibility of the tap water supplier, the local government, and the owner of the building is responsible for the safety of the water in the water tank and in the building's network after entering the private network from the network.

However, until now, only a few areas have been temporarily checked for water contamination in the drainage process, and tap water users have no way to check the safety of their tap water. There was no business owner.

Therefore, ordinary citizens trust or use tap water, or they give up using tap water and purchase and use bottled water or water purifiers. However, even though only the water tank in the office or home can be replaced, even though safe water can be used as it is, there is a problem that even if you use bottled water or water purifier, it is not always possible to obtain safe water.

The technical problem to be achieved by the present invention is to provide a tap water management system and method using the Internet.

Another object of the present invention is to provide a computer-readable recording medium that records a program for executing a tap water management method using the Internet on a computer.

1 is a block diagram showing the configuration of an embodiment of a tap water management system using the Internet according to the present invention.

2 is a flowchart illustrating the operation of an embodiment of the tap water management system using the Internet according to the present invention.

3 is a flowchart illustrating the operation of another embodiment of the tap water management system using the Internet according to the present invention.

In order to achieve the above technical problem, the tap water management system using the Internet according to the present invention, the measurement unit is attached to the inlet of the tap water to measure the tap water according to one or more measurement items that are the criteria of the water quality determination to transmit the measured value; A storage unit for storing safety water quality reference values for the measurement items; An analysis unit to determine whether the tap water is safe by comparing the measured value received from the measurement unit with the safe water quality reference value stored in the storage unit; And it characterized in that it comprises an output unit for receiving and outputting whether or not the safety of the tap water determined by the analysis unit.

In order to achieve the above another technical problem, the tap water management method using the Internet according to the present invention comprises the steps of: (a) receiving a measurement value measured by the tap water from the user according to one or more measurement items that are the criteria of water quality determination; (b) determining whether the tap water is safe by comparing the received measured value with a safe water quality reference value for each measurement item; And (c) characterized in that it comprises the step of transmitting to the user a determination result on the safety of the tap water.

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

1 is a block diagram showing the configuration of an embodiment of the tap water management system using the Internet according to the present invention, Figure 2 is a flow chart showing the operation of an embodiment of the tap water management system using the Internet according to the present invention.

1 and 2, the tap water management system using the Internet according to the present invention is attached to the inlet of the tap water measuring unit for measuring the tap water according to one or more measurement items that are the criteria of the water quality determination to transmit the measurement value 10-1 to 10-n, the storage unit 30 storing the safety water quality reference values for the measurement items, and the storage unit 30 storing the measured values received from the measuring units 10-1 to 10-n. Compared with the stored safety water quality reference value, the analysis unit 40 to determine the safety of the tap water and the output unit 20-1 to 20-n for receiving and outputting the safety status of the tap water determined by the analysis unit 40 is included. do.

The measuring units 10-1 to 10-n, the output units 20-1 to 20-n, and the analyzing unit 40 are connected to the Internet 50 so as to measure data on tap water and safety of tap water. And the output unit 20-1 to 20-n may be attached to the measuring unit 10-1 to 10-n integrally attached, but the user can check the safety of the tap at any time (for example, , Faucet wall, output device of home automation equipment, etc.). In addition, the analysis unit 40 is separate from the administrator operating the water quality management system according to the present invention can check the measured value and the safety of the tap water measured by each measuring unit (10-1 to 10-n) The output device 60 of the can be provided.

The measuring units 10-1 to 10-n are attached to the inlet of tap water, such as a water tank installed in a multi-family house, an office building, a school, or a main water use point such as a faucet, so that tap water flowing in real time according to measurement items The measured value is transmitted to the analysis unit 40 through the Internet 50 (step 200).

The measuring methods used for measuring the tap water in the measuring units 10-1 to 10-n include an electrode method and an absorbance method, but other measuring methods may be used. The electrode method is a method of measuring the type and concentration of a substance contained in the tap water by using a potential difference, the absorbance method is a measure of the wavelength and degree of light absorbed by the generated material when the substance contained in the tap water and the standard chemical reacts. It is a method of measuring the type and concentration of substances contained in tap water.

When measuring tap water by electrode method or absorbance method, possible measurement items include turbidity, nitrogen nitrate, water temperature, hydrogen ion concentration, residual chlorine concentration, heavy metal content, and inorganic ionic substance concentration.

The data transmitted from the measuring units 10-1 to 10-n to the analyzing unit 40 is an electrical signal obtained by converting the measured values for each measuring item into electrical signals. The identification number uniquely assigned to 10-n) is attached. Such data conversion and transmission techniques are easily understood by those skilled in the art, and thus detailed descriptions thereof will be omitted.

The analysis unit 40 is connected to the Internet 50 and compares the measured values received from the measuring units 10-1 to 10-n with the safety water quality reference value stored in the storage unit 30 to determine whether the tap water is safe. (Step 210). Table 1 lists the safety water quality reference values stored in the storage unit 30. Although the safety water quality reference values for drinking water are described here, when the safety water quality reference value for each water use such as agriculture or industrial use is added or replaced, It is natural that the tap water management system and method using the Internet according to the present invention can be applied not only to tap water but also to water quality management according to other uses of water.

Item Water Quality Standards Item Water Quality Standards Ammonia nitrogen (mg / l) 0.5 or less Hexavalent Chromium (mg / l) 0.05 or less Nitric Acid Nitrogen (mg / l) below 10 Manganese (mg / l) 0.3 or less General bacteria (CFU / ml) 100 or less Cadmium (mg / l) 0.01 or less Coliform group (MPN / 50ml) Voice / 50 ml Selenium (mg / l) 0.01 or less Hydrogen ion concentration (pH) 5.8 to 8.5 Phenols (mg / l) 0.005 or less smell Odorless Aluminum (mg / l) 0.2 or less flavor insipidity Permanganate calorie consumption (mg / l) below 10 Chromaticity (degrees) 5 or less Diazinon (mg / l) 0.02 or less Turbidity (NTU) 1 or less Parathion (mg / l) 0.06 or less Detergent (ABS) (mg / l) 0.5 or less Malachion (mg / l) 0.25 or less Total hardness (mg / l) 300 or less Phenytrothion (mg / l) 0.04 or less Chlorine ion (mg / l) 250 or less Trihalmethane (mg / l) 0.1 or less Sulfate ion (mg / l) 200 or less Chloroform (mg / l) 0.08 or less Evaporation residue (mg / l) 500 or less Carbaryl (mg / l) 0.07 or less Boron (mg / l) 0.3 or less 1.1.1-trichloroethane (mg / l) 0.1 or less Residual Chlorine (mg / l) - Tetrachloroethylene (mg / l) 0.01 or less Mercury (mg / l) 0.001 or less Trichloroethylene (mg / l) 0.03 or less Cyan (mg / l) 0.01 or less Dichloromethane (mg / l) 0.02 or less Copper (mg / l) 1 or less Benzene (mg / l) 0.01 or less Iron (mg / l) 0.3 or less Toluene (mg / l) 0.7 or less Lead (mg / l) 0.05 or less Ethylbenzene (mg / l) 0.3 or less Fluorine (mg / l) 1.5 or less Xylene (mg / l) 0.5 or less Zinc (mg / l) 1 or less 1.1-dichloroethylene (mg / l) 0.03 or less Arsenic (mg / l) 0.05 or less Carbon tetrachloride (mg / l) 0.002 or less

Normally, in determining the safety of water, it is judged as safe water only when the measured value is suitable for all the items included in the safety water quality standard. Therefore, when the measured chlorine ion concentration exceeds 250 mg / l, Even if the measured value satisfies the reference value, the water is considered unsafe. Therefore, the analysis unit 40 may be configured to determine whether or not the safety of the water according to the result of the logical product of the result of determining whether it is suitable for the safety water quality reference value for each measurement item.

The safety of the tap water determined by the analysis unit 40 is transmitted to the output unit 20-1 to 20-n through the Internet 50, the output unit 20-1 to 20-n is the received tap water The safety status is output to the user through an audio or visual display.

If it is confirmed that the measurement result for the tap water is safe, the green light emitting elements provided in the output units 20-1 to 20-n may emit light or output characters such as ″ safety ″ (step 230 ), If it is determined that the measurement result for the tap water is unsafe, it may be made to emit light through the red light emitting device, output a letter such as `` dangerous '', or output a warning sound (step 240). The output devices of the output units 20-1 to 20-n may of course adopt other display devices such as a display board.

3 is a flowchart illustrating the operation of another embodiment of the tap water management system using the Internet according to the present invention.

Referring to FIG. 3, the measuring units 10-1 to 10-n periodically measure the tap water according to each measurement item (for example, 1 hour interval, 1 day interval, 1 week interval, etc.) to measure the measured value. Transmitting to the analysis unit 40 (step 300).

The analysis unit 40 compares each measured value with the safety water quality reference value, determines whether the tap water is safe, and transmits it to the output units 20-1 to 20-n through the Internet 50. After storing the measured values in a separate storage device (step 310), the measured values for a certain period of time (for example, one week, one month, etc.) are compared with the safety water quality reference value to determine whether the tap water is safe. The water source is determined based on the step (step 320).

For the determination of such water pollution sources, the measurement cycle is set to one week and the period is one month. Among the measured values transmitted each time, other measurement items satisfy the safety water quality standard without any change, while the iron content is 0.1 and 0.2. , 0.3, 0.4 (mg / l) will be described in detail as an example of a continuous increase.

In this case, the analysis unit 40 determines that the tap water is unsafe only when the measurement value including the iron content of 0.4 mg / l is transmitted, and the tap water is not safe to the output units 20-1 to 20-n. Send not. On the other hand, the analysis unit 40 is determined that the water is contaminated by the corrosion of the storage tank or tube because the iron content is constantly increasing, and as a result, the output unit 20 is determined to be the source of water pollution in the storage tank or tube. -1 to 20-n).

On the other hand, even if the iron content does not exceed the safety water quality standard value, but the trend is constantly increasing, it is preferable to determine the iron as a water pollution source and to transmit a warning signal to the output unit (20-1 to 20-n), In addition, when a water pollution source is specified, it is preferable to transmit a water quality improvement plan (eg replacement of a tube in the above-described example) according to the water pollution source.

As described above, the analysis unit 40 determines whether a specific water pollution source exists through the analysis of the measured value transmitted for a predetermined period (step 330), and if the water pollution source exists, outputs the water pollution source and the water quality improvement plan. 20-1 to 20-n) (step 340). The output units 20-1 to 20-n output safety information, water pollution sources, and improvement measures of the tap water received from the analysis unit 40 to the user through display devices such as a display board, a lamp, and sound (step 350). ).

In the above-described embodiments, each measurement unit and each output unit are distinguished by uniquely assigned identification numbers, and data transmitted between each measurement unit, each output unit, and analysis unit is accompanied by an identification number of a corresponding component. The analysis section can distinguish between which measurement section is the data transmitted and which output section is the data to be sent. Of course, by installing one output unit in a building or home, and configuring a plurality of measurement units connected to the output unit, and then adopting a method such as assigning identification numbers to the output unit and each measuring unit to have a mutual dependency relationship, and the like. And the identification number given between the measurement unit may be to have a certain relationship.

On the other hand, the present invention can also be embodied as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like, which are also implemented in the form of carrier waves (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

In the above, the tap water management system and method using the Internet according to the present invention have been described through representative embodiments, and the tap water management system and method using the Internet according to the present invention can be modified in various forms. Anyone who has this can easily know.

According to the tap water management system and method using the Internet according to the present invention as described above, by comparing the measured value for the tap water with the safe water quality reference value to determine whether the water safety, by informing the tap water users whether the water is safe and health It protects and dispels distrust about tap water, preventing ordinary citizens from using unnecessary bottled water or water purifiers. It can also protect citizens from the health consequences of unsafe drinking water or water purifiers.

On the other hand, by identifying and reporting on water pollution sources, it can prevent contamination of tap water due to deterioration of water pipes and storage tanks, and make it possible for users to use safe tap water through replacement or repair if necessary. It helps to restore the credibility of local governments in charge of local governments and establish active countermeasures in case of problems.

Claims (11)

A measurement unit attached to the inlet of the tap water to measure the tap water according to one or more measurement items which are the criteria for determining the water quality, and to transmit a measurement value; A storage unit for storing safety water quality reference values for the measurement items; An analysis unit to determine whether the tap water is safe by comparing the measured value received from the measurement unit with the safe water quality reference value stored in the storage unit; And The tap water management system using the Internet, characterized in that it comprises an output unit for receiving and outputting the safety of the tap water determined by the analysis unit. The method of claim 1, The measurement item is at least one of the water temperature, hydrogen ion concentration, residual chlorine concentration, heavy metal content, turbidity and inorganic ionic substance concentration, characterized in that the tap water management system using the Internet. The method of claim 1. The measurement unit tap water management system using the Internet, characterized in that for measuring the type and concentration of the substance contained in the tap water using the potential difference. The method of claim 1, The measuring unit measures the type and concentration of the material contained in the tap water by measuring the wavelength and degree of light absorbed by the material generated when the material contained in the tap water and the standard chemical reacts tap water using the Internet Management system. The method of claim 1, The measuring unit measures the tap water at regular intervals and tap water management system using the Internet, characterized in that for transmitting the measured value to the analysis unit. The method of claim 5, The analysis unit further includes a separate storage means for storing each measurement value received for a certain period of time, Comparing each measured value with the safety water quality reference value, judging the water pollution source according to the measurement items affecting the safety of water quality, or determining the water pollution source expected to affect the safety of water quality in the future and transmitting it to the output unit. Tap water management system using the Internet. The method according to claim 1 or 6, The analysis unit transmits the water quality improvement plan for each water pollution source to the output unit, The output unit tap water management system using the Internet, characterized in that for outputting the received water quality improvement with the safety of the tap water. (a) receiving from the user a measurement value for measuring tap water according to one or more measurement items as criteria of water quality determination; (b) determining whether the tap water is safe by comparing the received measured value with a safe water quality reference value for each measurement item; And (C) the tap water management method using the Internet comprising the step of transmitting to the user the results of the determination on the safety of the tap water. The method of claim 8, The measurement item is a tap water management method using the Internet, characterized in that at least one of the water temperature, hydrogen ion concentration, residual chlorine concentration, heavy metal content, turbidity and inorganic ionic material concentration. The method of claim 8, Receive measurement values for tap water at regular intervals from the user, A method of managing tap water using the Internet, characterized by transmitting pollutants for tap water and water quality improvement plans according to each pollutant source based on a result of comparing each measured value transmitted for a predetermined period with a safe water quality reference value. (a) receiving from the user a measurement value for measuring tap water according to one or more measurement items as criteria of water quality determination; (b) determining whether the tap water is safe by comparing the received measured value with a safe water quality reference value for each measurement item; And (c) A computer-readable recording medium having recorded thereon a program for causing a computer to transmit a result of determining whether the tap water is safe or not.