KR101198915B1 - Sensor network system using movable optical source - Google Patents

Abstract

The present invention relates to a sensor network system using a mobile light source, which is a mobile advanced oxidation treatment device for purifying contaminants in a pool of stored water by photocatalytic reactions, using a ubiquitous sensor network to control water pollution in real time. The present invention relates to a sensor network system using a mobile light source that can operate a purification system only when found to increase the life of the photocatalyst.
The sensor network system using a mobile light source of the present invention for this purpose, the water quality measurement sensor is installed in a position that can measure the water quality of the pool measuring unit for measuring the water quality of the water inside the pool; A mobile advanced oxidation processor configured to be movable in an internal space stored in a predetermined space of the swimming pool to cause photocatalytic reaction with an LED light source of the photocatalyst purifier to sterilize microorganisms and purify the water; Water quality improving means configured to control the water in contact with the mobile advanced oxidation processor, and to be controlled by a remote control signal of a remote place receiving a signal measured from a water quality measurement sensor; It consists of a structure.

Description

Sensor network system using movable optical source

The present invention relates to a sensor network system using a mobile light source. More specifically, the present invention relates to a mobile advanced oxidation treatment apparatus for purifying pollutants in a pool of stored water by a photocatalytic reaction, using a ubiquitous sensor network to real-time operating conditions. The present invention relates to a sensor network system using a mobile light source, which can operate a purification system only when water pollution is detected by adjusting the energy consumption.

The photocatalyst term itself is used to refer to catalysts of photoreactions that accelerate the photoreaction. That is, the photocatalyst should not be consumed by directly participating in the reaction, and accelerates the reaction rate by providing another mechanism path to the existing photoreaction. Photocatalysts can be classified into homogeneous photocatalysts present in solution in a molecular state and heterogeneous photocatalysts dispersed in a medium in a medium as a semiconductor material. Titanium dioxide is the most used photocatalyst. This is because titanium dioxide has good acid resistance and alkali resistance and is harmless to the human body. It is an environmentally friendly material that transforms various pollutants into harmless materials. Photocatalyst reaction is when the surface of an object coated with titanium oxide (TiO2) is irradiated with ultraviolet rays having a wavelength range of 300 to 400 nm emitted from sunlight or fluorescent lamps, and it becomes as if it is heated. In addition to incineration, it also decomposes various pollutants and removes various odors. In photocatalytic action, titanium dioxide absorbs ultraviolet rays and generates electrons and holes when irradiated with light. These electrons and holes have very strong reducing and oxidizing power. Especially, holes generate OH radical and active oxygen by reaction with water and dissolved oxygen.

Currently, widely used methods for removing contaminants in water include adsorption removal using activated carbon, flocculation, chemical oxidation treatment such as Fenton, and treatment using microorganisms. However, among these methods, complete contaminants are not decomposed in the case of adsorption and flocculation. Secondary treatment is required to remove the adsorbed and aggregated contaminants. Emission may cause secondary pollution. The biological treatment method, which is a relatively stable method, has a long processing time and a difficult operation, and thus requires a new water treatment technology to improve and replace the existing method.

Photocatalyst using photochemical reaction is introduced as a new water treatment method, which is not affected by temperature, pollutant concentration, etc. It is not only affected by oxidation and reduction of oil and inorganic pollutants in water but also by sterilization at the same time. It is becoming.

Photocatalyst materials for inducing photochemical reactions include TiO 2, ZnO, CdS, ZrO 2, V 2 O 3, WO 3, and perovskite complex metal oxides (SrTiO 3).

However, conventional photochemical reactions are mainly in the form of powders and particulate photocatalysts, which are dispersed and have expensive filtration facilities such as microfiltration membranes and ultrafiltration membranes to recover fine photocatalytic powder particles (about 0.2 μm) having poor precipitation. As it has been raised as a problem to be addressed, it has been pointed out that the economic feasibility when applying the photocatalytic reaction has been continued, and the spread of environmental pollutant purification products using the photocatalytic reaction has not been properly performed. In addition, the photocatalyst is detached by the peeling phenomenon between the support and the coated photocatalyst according to the use time, and thus the efficiency of the photocatalyst is significantly reduced and the efficiency of the long term operation is not guaranteed.

An object of the present invention for solving the problems according to the prior art, by using a ubiquitous sensor network as a mobile advanced oxidation treatment device to purify the contaminants in the pool pool water stored by the photocatalytic reaction in real time by controlling the operating conditions The present invention provides a sensor network system using a mobile light source that can operate a purification system only when water pollution is detected, thereby increasing the life of the photocatalyst.

Sensor network system using a mobile light source of the present invention for solving the above technical problem, the water quality measurement sensor is installed in a position to measure the water quality of the pool measuring unit for measuring the water quality of the water inside the pool; A mobile advanced oxidation processor configured to be movable in an internal space stored in a predetermined space of the swimming pool to cause photocatalytic reaction with an LED light source of the photocatalyst purifier to sterilize microorganisms and purify the water; Water quality improving means configured to control the water in contact with the mobile advanced oxidation processor, and to be controlled by a remote control signal of a remote place receiving a signal measured from a water quality measurement sensor; Characterized in that consists of.

Preferably, the measuring unit is characterized in that for installing the at least one water quality sensor in a position to measure the water quality of the water inside the pool to measure the state of the water quality.

Preferably, the measuring unit, characterized in that for transmitting a signal when detecting a predetermined value of the pollutant for the water in the pool.

Preferably, the mobile advanced oxidation processor, the guide line for forming an electromagnetic field in any formed path to the bottom of the pool; Sensing means for sensing an electromagnetic field of the guide line and sensing a path of the guide line; The sensing means to move along the guide line, while moving along the guide line in a submerged state inside the pool to cause a photocatalytic reaction with the LED light source to sterilize microorganisms contained in the water and water purification.

Preferably, the photocatalyst purifier, the power supply for supplying a voltage; An LED module having a plurality of LED units on both sides to irradiate a light source; And a photocatalyst which combines the LED module and includes a coupling member positioned to be spaced apart from each other and purifies the photocatalytic reaction by a light source irradiated from the LED unit.

Preferably, the photocatalyst is characterized in that it is composed of titanium oxide (ΤｉＯ₂).

Preferably, the mobile advanced oxidation processor and the photocatalyst purifier are characterized by being waterproofed with a waterproof coating for waterproofing.

Preferably, the mobile advanced oxidation processor, the induction jig for mounting the detection sensor of the sensing means on the left and right to move along the guide line formed in the bottom of the pool; LED modules formed on both sides while being formed in the longitudinal direction to the top of the induction jig; And a photocatalyst for purifying the photocatalytic reaction by a light source irradiated from the LED unit.

Preferably, the mobile advanced oxidation processor is characterized in that the photocatalytic reaction with the LED light source while moving along the path of the guide line in the pool to sterilize and purify the microorganisms contained in the water.

Preferably, the water quality improvement means, by measuring the water quality of the water in real time with a water quality measurement sensor directly connected to the inside of the pool and compare with the water quality information corresponding to the reference value that should be maintained at least for the water quality items measured in the measurement unit Judging the water quality maintenance means; Water quality control means for collecting the water quality state information of the water and periodically storing the information in a storage means, and performing a control operation based on the information by a remote control signal at a remote location; An information transmission control server receiving and querying status information from at least one status information providing server in which water quality status information of water is stored in the storage means; And a display unit which collects information from the information transmission control server and notifies the water quality state of the water.

Preferably, it comprises a center control unit for providing the water quality information on the water quality status of the pool water by comparing the value measured by the water quality measurement sensor with the reference value of the water quality to the display unit and the information storage means, respectively. It is done.

Preferably, the water quality control means is movable by a remote control signal of a remote place The photocatalyst purifier configured in the advanced oxidation processor makes contact with the water, and is characterized by purifying contaminants in the water by photocatalytic reaction between the LED light source and the photocatalyst irradiating a light source by applying power to the LED module.

Preferably, the information transmission control server, receiving and receiving the water quality test data in real time from the water quality measurement sensor through a network to collect and store the water quality test data, and comprehensively analyze and utilize as data for pool water quality management It is done.

Preferably, the display unit is attached to the inside of the pool to start the information characterized in that the display of a variety of display information list including information notification and the water quality status information display and information service of the use water replacement time do.

The present invention as described above is a mobile advanced oxidation treatment to purify the contaminants of the water flowing into the pool by a photocatalytic reaction, by installing a ubiquitous sensor network in the pool to store the water in a predetermined space where the water does not move In addition, by measuring the occurrence of pollutants from time to time, by operating the oxidation treatment device when contaminants are found, there is an effect that can significantly increase the life of the oxidation treatment apparatus.

In addition, there is an effect to configure a management system that can give an alarm through the ubiquitous sensor network when the pollutants are not disposed of properly due to the lifetime of the photocatalyst.

As such, the treatment of organic matter and microorganism sterilization, which are harmful to the human body, can be carried out by the sterilization water of the water, thereby keeping the water in the swimming pool at a prescribed water quality.

In addition, by submerging the sterilization device consisting of a plurality of LED modules and a photocatalyst at regular intervals in the portable advanced oxidation processor in the pool water, the sterilization and purification time of the water according to the photochemical reaction by ultraviolet rays to maximize the sterilization efficiency This is a very useful invention.

1 is a view showing the configuration of a sensor network system using a mobile light source according to the present invention.
2 is a diagram illustrating a mobile advanced oxidation processor of a sensor network system using a mobile light source according to the present invention.
3 is a diagram illustrating a detailed configuration of a mobile advanced oxidation processor of a sensor network system using a mobile light source according to the present invention.
4 is a view showing in detail the water quality improvement means of the sensor network system using a mobile light source according to the present invention.

The present invention for achieving the above object,

A measuring unit for installing a water quality measuring sensor at a position capable of measuring the water quality of the swimming pool and measuring the water quality of the water in the swimming pool;

A mobile advanced oxidation processor configured to be movable in an internal space stored in a predetermined space of the swimming pool to cause photocatalytic reaction with an LED light source of the photocatalyst purifier to sterilize microorganisms and purify the water;

Water quality improving means configured to control the water in contact with the mobile advanced oxidation processor, and to be controlled by a remote control signal of a remote place receiving a signal measured from a water quality measurement sensor; It was achieved by providing a sensor network system using a mobile light source, characterized in that consisting of.

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

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, they can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

1 is a view showing the configuration of a sensor network system using a mobile light source according to the present invention.

As shown, the sensor network system using the mobile light source according to the present invention is an advanced oxidation treatment device for purifying contaminants in water by photocatalytic reaction, and the water purification system is mobile, and the ubiquitous while moving the water purification system. By using the sensor network to adjust the operating conditions in real time, the purification system can be operated only when water pollution is found, thereby increasing the life of the photocatalyst 246.

The water purification system basically improves water quality by controlling the measuring unit 100 consisting of sensors and a mobile advanced oxidation processor 200 for treating water, and the measuring unit 100 and the advanced oxidation processor 200. It is composed of a water quality improvement means 300 to manage the network.

First, the measurement unit 100 measures the water quality state of the water circulated by installing the water quality measurement sensor 110 at a position capable of measuring the water quality of the swimming pool 20.

The measuring unit 100 measures the state of the water quality by installing at least one water quality measuring sensor 110 in a position capable of measuring the water quality of the water inside the swimming pool (20).

In addition, the measurement unit 100 transmits a signal to the center control unit 400 of the remote location when detecting the pollutant of a predetermined value for the water of the swimming pool 20.

When the contaminant is detected in the water in the pool 20 above a predetermined value, the mobile advanced oxidation processor 200 operated to remove contaminants in the water is moved to directly contact the water to purify the water by photocatalytic reaction. do.

The mobile advanced oxidation processor 200 moves underwater in the swimming pool 20 as shown in FIGS. 2 and 3, and is configured to be movable in the inner space of the swimming pool 20 so that the LEDs of the photocatalyst purifier 240 can be used. Photocatalytic reactions with light sources are used to sterilize microorganisms and purify water.

As such, the mobile advanced oxidation processor 200 is shown in FIG. It is largely composed of the operation detecting unit 210, the photocatalyst purifier 240, the guide line 250, the sensing means 260.

First, the operation detecting unit 210 is connected to the measuring unit 100 to detect the pollutants for the water in the measuring unit 100 and determine whether or not water pollution by the operation of the purifying system by receiving the operation whether the portable type The advanced oxidation processor 200 is operated.

In addition, the mobile advanced oxidation processor 200 moves along the guide line 250 formed on the floor according to the operation command of the operation detecting unit 210.

Here, the photocatalyst purifier 240 is preferably provided to be detachable from the induction jig 262 individually.

At this time, the photocatalyst purifier 240 is supplied with an external voltage by the power supply unit 248, and the LED module 242 irradiating a light source to the power supply includes a plurality of LED units on both sides.

The power supply unit 248 is a device for supplying external power to the photocatalyst purifier 240, and is waterproofed to maintain watertightness as it is submerged in water.

The photocatalyst purifier 240 includes a plurality of LED modules 242 and supports the photocatalyst 246 on both sides while maintaining a predetermined distance from the plurality of LED modules 242.

That is, the photocatalyst 246 to be combined with the LED module 242 is a photocatalytic reaction by the light source irradiated from the LED module 242 by the coupling member 244 positioned to be spaced apart from both sides with water Clean up by contact.

Here, the photocatalyst 246 is characterized in that it is composed of titanium oxide (Τ i O 2) applied in one embodiment.

In particular, the photocatalyst 246 to be combined with the LED module 242 causes the photocatalytic reaction of titanium oxide coated on the photocatalyst disc by ultraviolet light emitted from the LED module 242.

Herein, the photochemical reaction (or also referred to as the photocatalytic reaction) means that titanium oxide (also called 'titanium dioxide') is exposed to ultraviolet light (400 nm) to form electrons and electron holes. It produces hydroxy radicals (-OH) and super oxides with strong oxidizing power.

In addition, the hydroxy radical and the super oxide oxidize and decompose the organic compound into water and carbon dioxide, using this principle to oxidatively decompose pollutants in the air into water and carbon dioxide, It decomposes organic compounds and converts them into water and carbonic acid gas. Since bacteria are also organic compounds, they are oxidatively decomposed and sterilized by strong oxidation of photocatalyst.

Therefore, by oxidatively decomposing various pathogens or organic compounds contained in the water, the drinking water is sterilized and purified.

On the other hand, the photocatalyst 246 combined with the LED module 242 is preferably formed so that the ultraviolet light irradiated through the LED module 242 is freely communicated.

Here, the mobile advanced oxidation processor 200 including the photocatalyst purifier 240 and the sensing means 260 is waterproofed with a waterproof coating for waterproofing to maintain watertightness as it is submerged in water.

On the other hand, since the coupling member 244 of the photocatalyst purifier 240 maintains a submerged state in water, it is preferable that the coupling member 244 is formed of a material that does not corrode, and that the coupling member 244 is formed of metal or ceramics. It is preferable to form, and in some cases, a coating layer may be formed on the outer circumference.

More specifically, the raw water to be treated is treated by a photocatalytic reaction and discharged while moving the mobile advanced oxidation processor 200 which is described for the water purification system.

In other words, the mobile water purification system is configured in a square type swimming pool 20 in which the water of the swimming pool 20 is fixedly stored in water.

The mobile water purification system is a measuring unit for transmitting a signal to a remote center control unit 400 when detecting a predetermined value of contaminants with respect to the water of the pool 20 on the inner rectangular border of the pool 20 stored water ( 100) are arranged in plurality.

It is operated according to the measurement information on the water of the swimming pool 20 received from the measuring unit 100.

In this way, a guide line 250 in which an electromagnetic field is formed in a randomly formed traveling path on the bottom surface of the pool 20 in which the water of the pool 20 does not move is configured.

The induction line 250 is formed on the bottom surface of the swimming pool 20 and is formed in a zigzag line.

In addition, the sensing means 260 for detecting the electromagnetic field of the guide line 250 detects the progress of the guide line 250.

At this time, the mobile advanced oxidation processor 200 to move along the guide line 250 by the sensing means 260 while moving along the guide line 250 in a submerged state inside the pool 20 LED light source. As a result, the photocatalytic reaction has a mobile structure for sterilizing microorganisms and purifying water.

The mobile advanced oxidation processor 200 includes an induction jig 262 for mounting the detection sensor 264 of the sensing means 260 on the left and right sides to move along the induction line 250 formed at the bottom of the swimming pool 20. It is composed.

On the other hand, the induction jig 262 is kept in a submerged state in water, it is preferable that it is formed of a material that does not corrode, preferably made of metal or ceramic, etc., in the case of the metal material is preferably formed of stainless, The coating layer may be formed on the outer periphery.

While forming in the longitudinal direction to the top of the induction jig 262, the LED module 242 configured on both sides, by the light source irradiated from the LED module 242 constitutes a photocatalyst 246 to purify by a photocatalytic reaction The water of the swimming pool 20 is purified while moving along the guide line 250.

That is, the mobile advanced oxidation processor 200 is to move along the path of the guide line 250 inside the swimming pool 20 to cause a photocatalytic reaction with the LED light source to purify the microorganisms contained in the water and water purification.

The mobile advanced oxidation processor 200 according to an embodiment of the present invention is a sterilizer which sterilizes and purifies the water stored in the swimming pool with a submerged photocatalyst to remove microorganisms or odors contained in the water.

On the other hand, the water quality improving means 300 is configured to control the water in contact with the mobile advanced oxidation processor 200 of the present invention is configured to be controlled by a remote control signal of a remote location receiving the signal measured from the water quality measurement sensor 110 do.

This, the water quality improvement means 300 is to control to purify the water as shown in Figure 4 to the water quality measurement sensor 110 is directly connected to the inside of the pool 10 by the water quality determination means 310 The water quality of the water is measured in real time and compared with the water quality information corresponding to the reference value that should be maintained at least for the water quality items measured by the measuring unit 100.

The water quality maintenance means (310) is to input the reference value information that should be maintained at least for each of the water quality measurement items of the water used through the information inputted to the maintenance water quality.

Therefore, if any item among the items for evaluating the water quality of the used water exceeds the input baseline information, if the water quality is evaluated as harmful to the user, the input baseline information is transmitted to the center controller 400.

In addition, the remote control signal of the remote control signal based on the information by the water quality control means 320 for collecting the water quality state information of the water by the water quality maintenance means 310 and periodically stores the information in the storage means 322. To perform.

In this way, the information transmission control server 330 configured to receive and provide status information from one or more state information providing servers to the storage means 322 in which the water quality state information of the water is stored in the storage means 322.

The display unit 340 collects information from the information transmission control server 330 to inform the water quality of the water.

In addition, the water quality status information on the water of the swimming pool 20 in which the water quality is measured by comparing the value measured by the water quality measurement sensor 110 with the reference value of the water quality is evaluated to the display unit 340 and the information storage means 322. It includes a center control unit 400 to provide each.

The center control unit 400 determines whether the water quality of the water in the swimming pool 20 is normal or contaminated. If the center control unit 400 determines that the water quality is contaminated, the center control unit 400 controls the operation of the manager or the like. A remote control signal is automatically generated to operate an operation of the mobile advanced oxidation processor 200.

In addition, the water quality control means 320 is movable by the remote control signal of the center controller 400 The photocatalyst purifier 340 configured in the advanced oxidation processor 200 makes contact with the water, and contaminates the water by photocatalytic reaction of the LED light source and the photocatalyst 244 that irradiates a light source by applying power to the LED module 242. To purify the substance.

Here, the information transmission control server 330 receives the water quality test data in real time from the water quality measurement sensor 110 through a network, collects and stores the water quality test data, and compares and comprehensively analyzes the pool 20 to control the water quality. It is used as data.

The information transmission control server 330, when the water quality evaluation result is obtained as the water quality is contaminated or bad, the center control unit 400 provides information for notifying that the current water quality of the water used is bad. Accordingly, the manager recognizes that the use water has been purified, and the manager operates the mobile advanced oxidation processor 200, and the use water is purified quickly.

Then, when the water quality inspection data is obtained from the water quality measurement sensor 110 in a good state in real time, the center control unit 400 transmits the information indicating the water quality state through the information transmission control server 330 through the water quality control means 320. In this way, it is possible to efficiently operate the mobile advanced oxidation processor 200 by stopping the operation of the mobile advanced oxidation processor 200 accordingly.

On the other hand, the display unit 340 is attached to the inside of the pool 20 to start the information and display a variety of display information list, including information notifications related to the replacement time of the water used, water quality status information display of the water used and information services It is.

In addition, those who use the pool 20 to view the water quality information through the display unit 340.

At this time, the information received from the information transmission control server 330 provides information to the display unit 340, the information provided may be provided only the information indicating whether the water quality is good or bad, but the numerical information for each item It may also be implemented to be provided with.

In addition, the collected water quality test data may be disclosed to customers through the display unit 340 to improve reliability of water.

As such, the system for purifying pollutants in the water by photocatalytic reaction can be controlled in real time using a ubiquitous sensor network.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

20: pool 100: measuring unit
110: water quality sensor 200: mobile advanced oxidation processor
210: operation detection unit 240: photocatalyst purifier
242: LED module 244: coupling member
246: photocatalyst 248: power supply
250: guide line 260: detection means
262: induction jig 264: detection sensor
300: water quality improvement means 310: water quality maintenance means
320: water quality control means 322: storage means
330: information transmission control server 340: display unit

Claims (14)

A measuring unit for installing a water quality measuring sensor at a position capable of measuring the water quality of the swimming pool and measuring the water quality of the water in the swimming pool;
A mobile advanced oxidation processor configured to be movable in an internal space stored in a predetermined space of the swimming pool to cause photocatalytic reaction with an LED light source of the photocatalyst purifier to sterilize microorganisms and purify the water;
And water quality improving means configured to control the water in contact with the mobile advanced oxidation processor, and to be controlled by a remote control signal of a remote location receiving a signal measured from a water quality measurement sensor.
The mobile advanced oxidation processor,
Guide lines for forming an electromagnetic field in any formed path on the bottom of the pool;
It includes a sensing means for sensing the electromagnetic field of the guide line, the sensing path of the guide line, the photocatalytic reaction to the LED light source while moving along the guide line by the sensing means in a submerged state inside the pool to be included in the water Sensor network system using a mobile light source, characterized in that the microorganism sterilization and water purification.
The method of claim 1,
The measuring unit,
A sensor network system using a mobile light source, characterized in that the water quality is installed by installing at least one water quality sensor at a position capable of measuring the water quality inside the pool.
The method of claim 1,
The measuring unit,
The sensor network system using a mobile light source, characterized in that for transmitting a signal when a certain amount of contaminants are detected for the water in the pool.
delete The method of claim 1,
The photocatalyst purifier,
A power supply unit supplying a voltage;
An LED module having a plurality of LED units on both sides to irradiate a light source; And
And a photocatalyst that couples the LED module to a photocatalytic reaction by a light source irradiated from the LED unit, including a coupling member positioned to be spaced apart from each other, and a light source irradiated from the LED unit.
The method of claim 5,
The photocatalyst,
Sensor network system using a mobile light source, characterized in that consisting of titanium oxide (ΤｉＯ₂).
The method of claim 1,
The mobile advanced oxidation processor and photocatalyst purifier is a sensor network system using a mobile light source, characterized in that the waterproof coating for waterproof.
The method of claim 1,
The mobile advanced oxidation processor,
Induction jig for mounting the detection sensor of the sensing means on the left and right to move along the guide line formed on the bottom of the pool;
LED modules formed on both sides while being formed in the longitudinal direction to the top of the induction jig; And a photocatalyst for purifying the photocatalytic reaction by a light source irradiated from the LED unit.
delete The method of claim 1,
The water quality improvement means,
A water quality determination means for measuring the water quality of water in real time with a water quality measurement sensor directly connected to the inside of the swimming pool and comparing the water quality information corresponding to the reference value to be maintained at least for the water quality items measured by the measurement unit;
Water quality control means for collecting the water quality state information of the water and periodically storing the information in a storage means, and performing a control operation based on the information by a remote control signal at a remote location;
An information transmission control server receiving and querying status information from at least one status information providing server in which water quality status information of water is stored in the storage means; And
Sensor network system using a mobile light source, characterized in that consisting of; a display unit for collecting information from the information transmission control server to inform the water quality of the water.
The method of claim 10,
And a center controller for providing the water quality information on the pool water, which is evaluated by comparing the value measured by the water quality sensor with the reference value of the water quality, to the display unit and the information storage means. Sensor network system using light source.
The method of claim 10,
The water quality control means,
Removable by remote remote control signal The photocatalyst purifier configured in the advanced oxidation processor makes contact with the water, and uses a mobile light source to purify contaminants in the water by photocatalytic reaction between the LED light source and the photocatalyst irradiating the light source by applying power to the LED module. Sensor network system.
The method of claim 10,
The information transmission control server,
Receiving real-time water quality test data from a water quality measurement sensor through a network, collecting and storing water quality test data, comprehensively analyzing them, and using them as data for pool water quality management.
The method of claim 10,
The display unit includes:
It is attached to the inside of the swimming pool to initiate the information, the sensor network using a mobile light source characterized in that the display of a variety of display information, including information notification regarding the time of replacement of the water used, water quality information display of the water used and information service system.

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