KR101879335B1 - Cleanwater supply system and cleanwater control method using thereof - Google Patents

Abstract

The present invention relates to an information processing apparatus and method, which are capable of storing and transmitting a first information value, which is measured information of an external weather or an air condition, to a first server, A second server configured to calculate a second information value that is information on the second information value and to transmit the calculated second information value, a second server that is connected to be capable of wireless communication with the second server, 2 information value and a second information value calculated from the second server through wireless communication with the second server, and supplies an integer controlled by the second information value to the user And an integer supply device configured to provide the terminal with data of an outflow state, which is information on an integer supplied to the user, wherein the second information value and the outflow state Data provides a constant control method using constant supply system, and this is made available to the user to be monitored by the MS.

Description

TECHNICAL FIELD [0001] The present invention relates to a water supply system and a water control system using the water supply system.

The present invention relates to a purified water supply system for supplying purified water according to the conditions of the outside air and a water control method using the same.

A water purifier is a device that filters harmful elements such as foreign substances and heavy metals contained in water by physical and chemical methods. For this purpose, a general water purifier generally includes a filter unit for filtering contaminants from raw water containing pollutants, a water collection unit for storing water that has passed through the filter unit, an extraction unit for extracting the purified water stored in the water collection unit . When power is supplied to the water purifier, the raw water is supplied to the filter unit to be purified and stored in the water receiving unit, and the stored water is taken out through the take-out unit according to a user's selection.

Patent Document 10-2014-0090032 discloses a water purifier control method capable of controlling the operation of a water purifier using a terminal device.

The water purifier control method of the present invention includes: a communication connection step of establishing communication between a terminal device and a water purifier; a state information acquisition step of acquiring status information of the water purifier stored in the storage of the water purifier, A display step of visually displaying a state of the water purifier using the state information, and a display step of displaying the status information stored in the storage unit of the water purifier according to an input change signal And a setting change step.

According to the water purifier control method of the present invention, operation control of the water purifier can be easily performed according to a user's intention, thereby preventing unnecessary power wastage.

Patent Document 10-1160986 discloses an indoor air pollution degree measurement apparatus and an indoor air control system using the indoor air pollution degree measurement apparatus. The patent discloses an indoor air pollution degree measurement apparatus that uses a sensing unit that senses temperature, humidity, carbon monoxide, carbon dioxide, So that indoor air can be controlled.

Thus, conventionally, there has been an invention for controlling the operation of the water purifier using a control system and a terminal for controlling the temperature of the room. However, there has been no invention to control the water purifier according to the conditions of the outdoor dust amount or the yellow dust amount.

In recent years, personal hygiene has become an important issue due to the yellow dust problem or the mart problem. Accordingly, it is necessary to control the temperature of the purified water based on the amount of outside dust and the amount of yellow sand, and to provide the user with information on the recommended purified water amount per day, data on the outflow state, and the like.

It is an object of the present invention to provide a purified water supply system for controlling the temperature of a purified water supplied to a user according to conditions of outdoor weather or an air condition and a water control method using the same.

Another object of the present invention is to provide a purified water supply system that provides data on the outflow state to be supplied to a user in accordance with conditions of outdoor weather or air condition, and a water control method using the same.

In order to solve the above problems, a water supply system of the present invention comprises: a first server configured to store and transmit a first information value, which is measured external weather or air condition information; A second server configured to calculate a second information value that is information about an integer to be provided to the user based on the first information value and to transmit the calculated second information value, And receiving the second information value from the second server through the wireless communication, and receiving the second information value calculated from the second server through wireless communication with the second server, 2 < / RTI > information value to the user, and provides the terminal with data of the outgoing state, which is information about the integer supplied to the user, Includes values, and the second information value and the data of the heading state is made to be provided to the user through the monitoring terminal.

According to an embodiment of the present invention, the first information value includes at least one of a dust amount, a yellowing amount, a temperature, and a humidity.

According to another embodiment of the present invention, the second information value includes at least one of a recommended constant amount of water and information on a temperature value of an integer, and the purified water supply device supplies an integer of the temperature value to a user, And provides the terminal with information on the recommended purified water amount per day.

Wherein the second server and the integer supplying device are configured to perform wireless communication in a Wi-Fi manner so as to transmit and receive information in real time, and the second information value is And the data in the outgoing state may be transmitted from the purified water supply device to the second server and provided to the terminal.

The terminal has input means for making the purified water supply device operable as an integer control mode, and the input means can be activated to be inputable when the second information value exceeds a predetermined value.

According to another embodiment of the present invention, the terminal and the purified water supply device are configured to wirelessly communicate using a near field communication (NFC) method, and the terminal transmits the second information Value to the integer supply device.

Wherein the purified water supply device is provided with an outflow button for allowing the user to take out a purified water to be supplied to the user and the outflow button is provided with a fingerprint recognition part for enabling the user to recognize the fingerprint at the outgoing, The data of the outgoing state may be received by the user through the fingerprint recognition unit and the data of the outgoing state by the user may be provided to the terminal from the constant supply device.

Wherein the terminal is provided with a first terminal and the purified water supply device is provided with a second terminal which is capable of being tagged with the first terminal and the first terminal and the second terminal are tagged, The purified water supply device is capable of wireless communication.

The terminal provides the information of the user to the purified water supply device, and the purified water supply device can provide the terminal with the data of the outflow state per user.

In order to solve the above-mentioned problem, an integer control method using the water supply system of the present invention stores a first information value, which is information of an external weather or air condition measured using a first server, Calculating a second information value that is information on an integer to be provided to a user based on the first information value received from the first server, And providing the terminal with data of an outgoing state, which is information on an integer supplied to the user.

According to an embodiment of the present invention, the step of calculating the second information value may include determining whether the first information value provided to the second server exceeds a reference value, Is greater than the reference value, the second information value is calculated.

The second server provides information to the terminal so that the second server recognizes the first information value when the first information value exceeds the reference value and transmits the information through the input of the user to the integer control mode . ≪ / RTI >

According to another aspect of the present invention, in the step of supplying the user with the integer, the integer may be supplied by inputting an exit button provided with the fingerprint recognition unit, And provides the terminal with information on the heading state data for each user.

The purified water supply system of the present invention receives information of the amount of dust or yellow dust and provides information of the recommended water purification amount per day, and provides information on an integer of a proper amount to be consumed by the user according to the external air condition.

According to another aspect of the present invention, there is provided a water supply system for a water purification system, comprising: a first server for receiving information on the amount of dust or yellow dust; a second server for calculating a proper temperature of the water based on the calculated temperature; Enabling the supply of a constant temperature.

In the meantime, the water supply system of the present invention includes a fingerprint recognition unit on an outflow button to manage the amount of purified water for each user, thereby providing the user with information on the residual purified water among daily recommended purified water.

1 is a conceptual diagram showing a purified water supply system according to a first embodiment of the present invention;
2 is a conceptual diagram showing a purified water supply system according to a second embodiment of the present invention;
3 is a flow chart showing an integer control method using the purified water supply system of the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or similar elements are denoted by the same or similar reference numerals, and a duplicate description thereof will be omitted. The suffix " part " for the constituent elements used in the following description is to be given or mixed with consideration only for ease of specification, and does not have a meaning or role that distinguishes itself. In the following description of the embodiments of the present invention, a detailed description of related arts will be omitted when it is determined that the gist of the embodiments disclosed herein may be blurred. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. , ≪ / RTI > equivalents, and alternatives.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected to the other element, although other elements may also be present in between. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between.

The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, the terms " comprises ", or " comprising ", and the like, specify that the presence of a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of features, numbers, steps, operations, components, parts, or combinations thereof.

FIG. 1 is a conceptual diagram showing a purified water supply system 100 according to a first embodiment of the present invention, and FIG. 2 is a conceptual diagram showing a purified water supply system 200 according to a second embodiment of the present invention.

Referring to Figs. 1 and 2, the purified water supply system 100, 200 according to the present invention will be described.

The purified water supply system 100 or 200 according to the present invention includes a first server 10, a second server 20, a purified water supply device 30 and terminals 40 and 50.

The first server 10 is configured to obtain a first information value, wherein the first information value is information of an external weather or air condition. For example, the first information value may include at least one of a dust amount, a yellow amount, a temperature, and a humidity.

The first server 10 may be, for example, a Kweather, a weather station site, or a portal site for providing weather information. The first server 10 receives and collects the measured external weather or air condition information. The first information value may be measured through an externally installed sensor 13. The first server 10 is configured to transmit the first information value to the second server 20, which will be described later.

The second server 20 is configured to calculate the second information value based on the first information value provided from the first server 10. The second information value is information about an integer to be provided to the user calculated based on the first information value. For example, the second information value may be defined as at least one of the amount of the recommended integer per day and the information on the temperature value of the integer. The second server 20 is a server capable of transmitting the calculated second information value.

The second server 20 can be a server that forms a database of weather, air pollution, and the like, manages the database, and determines and processes database information. The second server 20 calculates the second information value based on at least one of the dust amount, the amount of yellow dust, the temperature and the humidity, among the information on the first information value which is the external weather or air condition .

The second server 20 can calculate the second information value when the first information value exceeds the reference amount.

The integer supply device 30 receives the second information value calculated from the second server 20 via wireless communication with the second server 20 and supplies the integer controlled by the second information value to the user, And to provide the data of the outgoing state to the terminals (40, 50).

The heading state data may include information on the integer supplied to the user, and may include the outgoing water amount and the temperature of the outgoing water number.

Further, the purified water supply device 30 may supply the user with an integer of the temperature value of the second information value, and provide the information of the recommended purified water amount per day to the terminals 40 and 50. [

As will be described later, the purified water supply device 30 supplies data in an outgoing state to the terminal 40 via the second server 20 or directly to the terminals 40 and 50 without going through the second server .

The terminal of the present invention may be a smart phone, a portable storage medium, or the like. However, the present invention is not limited to this, and can be understood as a configuration capable of monitoring first and second information values and outgoing state data, and wirelessly communicating with the second server 20 and the purified water supply device 30. [

The integer supply system 100, 200 provides a second information value and outgoing state data to the terminals 40, 50 to allow the user to monitor it.

For example, the integer supply device 30 receives the second information value calculated from the second server 20 through wireless communication with the second server 20, and supplies the integer of the calculated temperature value to the user . In addition, the purified water supply device 30 may be configured to provide the user with a recommended amount of purified water per day through the display unit.

The information of the recommended purified water amount per day may be provided from the second server 20 to the terminal 40, and the user confirms the information.

The terminals 40 and 50 are connected to the second server 20 in a wireless communication manner and receive second information values from the second server 20 through wireless communication. Referring to FIGS. 1 and 2, the first and second embodiments of the purified water supply system 100 and 200 are illustrated. According to the communication method of the second server 20 and the purified water supply device 30, The terminals 30 and 40 are used differently.

Communication between the purified water supply device 30 and the second server 20 may be performed using a WiFi method or a Near Field Communication (NFC) method.

The Wi-Fi (Wireless Fidelity) in the present invention will be understood as a local area network using a radio wave or an infrared transmission method.

In addition, near field communication (NFC) can be understood as a technique for performing wireless communication with a short distance.

In the present invention, an example in which the purified water supply device 30 and the second server 20 communicate wirelessly by the WiFi method can be understood as the purified water supply system 100 of the first embodiment. An example in which the purified water supply device 30 and the second server 20 communicate wirelessly by the short-range wireless communication method can be understood as the purified water supply system 200 of the second embodiment. As described above, the purified water supply systems 100 and 200 of the first and second embodiments are shown in Figs. 1 and 2, respectively.

When the integer supply device 30 and the second server 20 communicate with each other in a WiFi manner, the second information value calculated by the second server 20 is transmitted from the second server 20 to the purified water supply device 30 And the data in the outgoing state is provided from the purified water supply device 30 to the second server 20. [ In addition, data on the outgoing state is provided to the terminal 40 from the second server 20.

As described above, the data of the outgoing state in the present invention may include information such as the amount of water left by the user from the purified water supply device 30 and the temperature of the outgoing water. The second server 20 can provide the terminal 40 with a recommended remaining amount of water to be drunk one day after subtracting the water amount from the recommended water amount per day and if the user drank water several times a day, It is possible to provide the terminal 40 with the information of the recommended remaining water amount per day minus the sum of the plurality of watering amounts.

In a first embodiment in which the purified water supply device 30 and the second server 20 are in wireless communication in a WiFi manner, the purified water supply system may include the terminal 40. The terminal 40 receives the second information value from the second server 20. If the second information value provided by the user exceeds the reference amount, the user operates the operation of the purified water supply device 30 through the input means 45 . ≪ / RTI > The input means 45 may be provided in the terminal 40 to enable the purified water supply device 30 to operate as a constant control mode. The input means 45 may be activated to be inputable when the second information value exceeds a predetermined value, for example, if the second information value in the terminal 40 exceeds a predetermined value, It can be a button on the application.

The constant control mode in the present invention is understood as a mode for controlling the integer to be provided to the user by the second information value calculated based on the first information value. For example, in the constant control mode, the integer supply device can control the temperature of the integer to be provided to the user based on the second information value.

The water supply device 30 is provided with an outflow button 35 for allowing the user to dispense purified water to be supplied to the user. The outflow button 35 is provided with a fingerprint recognition unit 35a for recognizing the user's fingerprint Can be installed. The water supply device 30 provides the second server 20 with information on the amount of purified water that has flowed out by the user when the user has left the water purification unit 35a through the fingerprint recognition unit 35a. Further, the user can provide the user's terminal 40 with information on the remaining amount of purified water minus the sum of the plurality of watering amounts from the recommended watering amount per day.

Unlike the second embodiment described later, in the first embodiment, since the second server 20 and the purified water supply device 30 wirelessly communicate with each other in the Wi-Fi manner, information is given to each other without passing through the terminal 40 Can receive. The data in the outgoing state is provided from the purified water supply device 30 to the second server 20 and then provided to the terminal 40 again.

The terminal 40 can receive the first and second information values and the outbound state data from the second server 20. The terminal 40 can switch the purified water supply device 30 to the constant control mode through a tagging method with the purified water supply device 30. [ The terminal 40 may be provided with a first terminal 48 and the purified water supply device 30 may be provided with a second terminal 38 capable of being tagged with the first terminal 48. [ Further, by tagging the first terminal 48 and the second terminal 38, the purified water supply device can receive user information from the terminal 40 and provide the terminal 40 with information on the amount of water per user have.

In the case of the second embodiment, in which the second server 20 and the purified water supply device 30 wirelessly communicate with each other via the short-range wireless communication method, the integer supply system 200 receives the second information value from the second server 20, And a terminal 50 adapted to transmit to the feeder 30.

The terminal 50 is provided with a second information value from the second server 20. The terminal 50 can switch the purified water supply device 30 to the constant control mode through a tagging method with the purified water supply device 30. [ The terminal 50 may be provided with a first terminal 58 for tagging and the purified water supplying device 30 may be provided with a second terminal 38 capable of being tagged with the first terminal 58. By tagging the first terminal 58 and the second terminal 38, the purified water supply device can receive the user information from the terminal 50, and provide the terminal 50 with the information on the amount of water flow and the heading state data can do.

When the number of users per person is controlled by the water supply device, the information on the amount of water per user is separately monitored and provided to the terminal so as to check the remaining recommended amount of purified water per day.

Wireless communication between the second server 20 and the purified water supply device 30 is enabled by the terminal 50 because the second server 20 and the purified water supply device 30 are made in a short distance wireless communication method. On the other hand, the terminal 50 provides the user with first and second information values and outgoing state data, and the user can monitor the first and second information values.

On the other hand, when tagging the terminal 50 while the user is leaving an integer, the outgoing state data may be provided from the constant supply device 30 to the terminal 50 even if the outgoing button 35 is not subjected to the fingerprint recognition method . Of course, as in the first embodiment, it is also possible to provide the fingerprint recognition unit 35a in the outgoing button 35 to distinguish the user from the fingerprint and transmit the data in the outgoing state.

The purified water supply system 100 or 200 of the present invention receives information on the amount of dust or yellow sand and provides information on the calculated recommended daily water amount to provide information on an integer of a proper amount to be consumed by the user according to the external air condition .

The water supply system 100 or 200 of the present invention receives information on the amount of dust or yellow dust using the first server 10 and calculates the appropriate temperature of the purified water on the basis of the received information, By supplying it, it is possible to supply the constant temperature constant according to the condition of the outside air.

The water supply system 100 or 200 of the present invention includes a fingerprint recognition unit 35a on the water release button 35 to manage the amount of purified water per user so that the information of the residual purified water Lt; / RTI >

The constant control method using the purified water supply system 100 or 200 of the present invention collects first information value which is information of outside weather or air condition using the first server 10 and transmits it to the second server 20 (S20a) of calculating a second information value, which is information on a recommended daily water quantity and an integer temperature value based on the first information value provided from the first server 10, (S30) of supplying an integer controlled by the value to the user (S30), and providing the terminal with data of outgoing state, which is information on the integer supplied to the user (S40).

The integer controlled by the second information value may be an integer of the calculated temperature value.

The step S20a of calculating the second information value may include a step S20b of determining whether the first information value provided to the second server 20 exceeds the reference value, The second information value can be calculated.

When the first information value exceeds the reference value, the second server 20 provides information to the terminal 40 so as to recognize the user, and uses the input means 45 provided in the terminal 40 And converts it into the constant control mode through the user's input (S25).

In the constant control mode, the integer supply device 30 provides the terminal 40, 50 with data of the integer and the heading state of the calculated temperature value to the user.

In the step S30 of supplying the integer to the user, the supply of the constant is made possible by the input of the outflow button 35 provided with the fingerprint recognition unit 35a, (35a), and provides the terminal (40, 50) with information on the heading state data for each user.

The above-described purified water supply system and the water control method using the same are not limited to the configuration and the method of the embodiments described above, but the embodiments may be modified so that all or some of the embodiments are selectively combined .

In addition, the detailed description of the invention described above is a concrete example for the inventors of the present invention to carry out the invention as an embodiment of the present invention, and the applicant's right is not limited thereto. The applicant's rights are set forth in the claims set forth below.

Claims (13)

A first server configured to store and transmit a first information value, the first information value being composed of measured external weather or air condition information;
A second server configured to calculate a second information value configured by a recommended daily water intake amount and an appropriate temperature constant based on the first information value provided from the first server and to transmit the calculated second information value, ;
A terminal connected wirelessly with the second server to receive the second information value from the second server; And
A second server that receives the second information value through wireless communication with the second server or the terminal and supplies an integer of the temperature controlled by the second information value to the user, And a remaining recommended water intake amount obtained by subtracting an amount of the purified water supplied to the user from the recommended water intake amount per day to the second server or the terminal. The method according to claim 1,
Wherein the first information value comprises at least one of a dust amount, a yellow amount, a temperature, and a humidity. The method according to claim 1,
Wherein the purified water supply device supplies the user with an integer of the temperature included in the second information value and provides information on the remaining recommended water intake to the terminal. The method of claim 3,
Wherein the second server and the stationary supply device are configured to perform wireless communication in a Wi-Fi manner so as to transmit and receive information in real time,
By the Wi-Fi wireless communication,
Wherein the second information value is transmitted from the second server to the constant supply device and the data in the outgoing state is provided to the terminal at the purified water supply device via the second server. 5. The method of claim 4,
Wherein the terminal comprises input means for causing the purified water supply device to operate in a constant temperature controllable constant control mode,
Wherein the input means is conditionally activated to be inputable when the second information value exceeds a predetermined value. The method of claim 3,
The terminal and the purified water supply device are configured to wirelessly communicate with each other using a near field communication (NFC)
Wherein the terminal is configured to transmit the second information value provided from the second server to the purified water supply device. A first server configured to store and transmit a first information value that is information of the measured external weather or air condition;
A second server configured to calculate a second information value, which is information about an integer to be provided to a user based on the first information value provided from the first server, and to transmit the calculated second information value;
A terminal connected to the second server in a wireless communication manner and receiving the second information value from the second server through the wireless communication; And
The second server receives the second information value calculated from the second server through wireless communication with the second server, supplies an integer controlled by the second information value to the user, And an integer supply device configured to provide the terminal with data of an outgoing state of information,
Wherein the second information value and the outgoing state data are provided to the user through the terminal to be monitored,
Wherein the purified water supply device has an outflow button for leaving out the purified water to supply to the user,
Wherein the outgoing button is provided with a fingerprint recognition unit for recognizing the fingerprint of the user at the time of heading,
Wherein the purified water supply device identifies the user through the fingerprint recognizing part at the time of going out and provides the data of the watering state for each user to the terminal. The method according to claim 4 or 6,
The terminal is provided with a first terminal,
Wherein the purified water supply device is provided with a second terminal adapted to be tagged with the first terminal,
Wherein the terminal and the purified water supply device communicate wirelessly by tagging the first terminal and the second terminal. 9. The method of claim 8,
The terminal providing user information to the purified water supply device by tagging the first terminal and the second terminal,
Wherein the integer supply device provides the tagged terminal with data of outgoing state corresponding to the user identified by the tagging. Storing a first information value, which is made up of external weather or air conditions measured using a first server, and transmitting the first information value to a second server;
Calculating, at the second server, a second information value including a recommended daily water intake amount and an appropriate temperature constant based on the first information value received from the first server;
Providing the second information value to a terminal wirelessly communicable with the second server;
Providing an integer number of the temperature controlled by the second information value to the user by receiving the second information value from the integer supply device connected to the second server or the terminal in a wireless communication manner; And
Providing the second server or the terminal with data of outgoing state constituted by an amount of purified water supplied to the user or a remaining recommended water intake amount obtained by subtracting the amount of purified water supplied to the user from the recommended water intake per day Wherein the water supply system comprises: 11. The method of claim 10,
Wherein the step of calculating the second information value at the second server includes a step of determining whether the first information value provided to the second server exceeds a reference value, The second information value is calculated based on the second information value. 12. The method of claim 11,
After the step of calculating the second information value at the second server,
Activating an input means provided in the terminal when the second information value exceeds the reference value; And
Further comprising the step of switching the purified water supply device to an integer temperature controllable constant control mode based on an input of a user applied through the input means. Storing a first information value, which is information of an external weather or air condition measured using the first server, and transmitting the first information value to a second server;
Calculating a second information value that is information on an integer to be provided to the user based on the first information value received from the first server;
Supplying an integer controlled by the second information value to the user at an integer supply; And
Providing data on the outgoing state, which is information on an integer supplied to the user, to a terminal connected to the purified water supply device in a wireless communication manner,
The step of supplying the integer to a user comprises:
The integer is supplied by an input of an outgoing button provided with a fingerprint recognition unit. When a fixed number of integers is output, the user is identified by using the fingerprint recognition unit, and information on the outgoing state data for each user is provided to the terminal Wherein the water supply system is a water purification system.

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