KR20150139814A - System for extracting water recording extracted water flow - Google Patents

Abstract

Provided is a system for extracting purified water, recording flow rate of extracted purified water. The system for extracting purified water, recoding flow rate of extracted purified water comprises a wireless terminal including an RFID tag assigned with an individual ID; and a water purifier including an outlet where purified water is extracted, receiving an RFID signal generated by the RFID tag when the wireless terminal exists within a set distance from the outlet, and recording flow rate of purified water extracted from the outlet on a memory by corresponding to the RFID signal.

Description

[0001] The present invention relates to an extraction system for extracting extracted water,

In particular, the present invention relates to a system for checking the flow rate of purified water by recording the flow rate of the extracted purified water when extracting the purified water from the water purifier.

Recently, the use of water purifiers in various spaces including homes has been rapidly spreading in order to effectively obtain clean purified drinking water. A water purifier is a device for filtering natural water such as tap water or ground water (hereinafter referred to as "raw water"), and filters raw water through several filters to remove foreign matter or harmful substances contained in the raw water Thereby providing drinking water.

1 is a perspective view of a water purifier according to the prior art. Referring to FIG. 1, the water purifier 10 basically includes a filter unit 20, a water storage tank 40 in which the purified water passing through the filter unit 20 is stored, and an extracting unit 60.

The filter unit 20 includes a plurality of filters, for example, a sediment filter 22 for sedimenting and filtering relatively large particles contained in raw water, a filter unit 22 for removing chlorine components from the raw water having passed through the sediment filter 22, A membrane filter 26 for removing the ionic heavy metal remaining in the raw water that has passed through the line carbon filter 24 and a chlorine component And a post-carbon filter (28) for removing odors.

The raw water supplied to the water purifier is passed through the filter unit 20, that is, the sediment filter 22, the line carbon filter 24, the membrane filter 26, and the after- Odor and the like are removed and purified to be used as drinking water.

The purified water discharged through the after-carbon filter 28 is stored in the water storage tank 40, and the water stored in the water storage tank 40 is extracted to the outside through the extraction unit 60.

The extraction unit 60 is provided with an extraction cock 62 for allowing the user to drink water in the reservoir tank 40 as needed. When the user intends to drink water in the reservoir tank 40, 62). ≪ / RTI >

That is, when the user presses the extraction lever 64 mounted on the extraction cock 62, the purified water is extracted from the extraction cock 62, thereby extracting the purified water from the water purifier 10.

However, in the water purifier as described above, when extracting an integer, the flow rate of the extracted integer is recorded to not only check the flow rate of the user's drinking water, but also the flow rate of the purified water consumed by the user The information can not be transmitted and the user may be neglected in health care.

An aspect of the present invention is to provide an extraction system for extracting an integer from a water purifier and recording a flow rate of the extracted integer to check the flow rate of the purified water.

According to an aspect of the present invention, there is provided a wireless terminal including an RFID tag to which a unique identification ID is assigned; And an extracting unit for extracting an integer from the RFID tag. When the wireless terminal is within a set distance from the extracting unit, the RFID tag receives the RFID signal generated by the RFID tag, And a water purifier for recording the flow rate of the extracted purified water in correspondence with the flow rate of the extracted purified water.

In an embodiment of the present invention, the water purifier further comprises: an RFID reader for receiving an RFID signal generated by the RFID tag when the wireless terminal is within a set distance from the extraction port; An extraction flow rate sensing unit for sensing a flow rate of the purified water extracted from the extraction port; And an extraction flow rate record unit for recording the flow rate of the sensed purified water in the memory in correspondence with the RFID signal.

In another embodiment of the present invention, the extraction flow rate recording unit included in the water purifier may accumulate and record the flow rate of the purified water extracted from the extraction port during the set time, thereby extracting the flow rate of the extracted purified water. to provide.

In another embodiment of the present invention, the wireless terminal further comprises an extraction flow rate transmitter for transmitting the information on the extracted flow rate of the integers accumulated during the set time to the wireless terminal. System.

According to the present invention, when extracting an integer from a water purifier, the flow rate of the extracted integer is recorded to check the flow rate of the user's drinking water, and information about the flow rate of the user's drinking water is transmitted to the portable terminal So that the user can drink the proper essence, which can help health care.

1 is a perspective view of a water purifier according to the prior art.
Figure 2 is a block diagram of an integer extraction system that records the flow rate of the extracted purified water according to the present invention.
3 is a block diagram showing an internal configuration of the water purifier of FIG.
4 is a flowchart of an integer extraction method for recording the flow rate of the extracted purified water according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

Figure 2 is a block diagram of an integer extraction system that records the flow rate of the extracted purified water according to the present invention. Referring to FIG. 2, the wireless terminal 100 and the plurality of water purifiers 200a, 200b, and 200c are illustrated. The number of water purifiers that record the extracted water flow rate by the user is three. For example, the first water purifier 200a is a water purifier installed in a user's home, the second water purifier 200b is a water purifier installed in the user's office, and the third water purifier 200c is installed in a restaurant Water purifier.

At this time, the wireless terminal 100 has an RFID (Radio Frequency Identification) tag having a unique identification ID. In the water purifier 200a, 200b, 200c, an RFID signal capable of recognizing a user So that it is possible to record how much integer a person has extracted from the water purifiers 200a, 200b, and 200c. Specifically, the RFID tag includes an RFID chip, which generates an RFID signal in an RFID chip having a unique identification ID.

The water purifiers 200a, 200b and 200c transmit information on the extracted flow rate of the purified water to the user's wireless terminal 100. The user can select the water purifiers 200a, 200b, 200c through the display screen of the wireless terminal 100, 200c can confirm the transmitted information. Therefore, the user can check the flow rate of the purified water extracted and consumed by himself / herself.

Although the three purifiers 200a, 200b, and 200c are exemplified in the above description, any number of purifiers may be used as long as they are one or more purifiers, and the information about the flow rate of the purified water extracted by the user can be transmitted to the radio terminal 100 Any water purifier can be provided at any place.

3 is a block diagram showing an internal configuration of the water purifier of FIG. 2 and 3, the water purifiers 200a, 200b, and 200c include an RFID reader 210 and a controller 220. [

The RFID reader 210 receives the RFID signal generated by the RFID tag provided in the wireless terminal 100 when the user's wireless terminal 100 is located within a predetermined distance from the extraction port of the water purifier 200a, 200b or 200c.

The control unit 220 includes an extraction flow rate sensing unit 221, an extraction flow rate record unit 222, an extraction flow rate comparison unit 223, an extraction flow rate setting unit 224 and an extraction flow rate transmitter 225. Specifically, Let's take a look.

The extraction flow rate sensing unit 221 senses the flow rate of the purified water extracted from the extraction ports of the water purifiers 200a, 200b, and 200c. The flow rate of the purified water extracted from the extraction port of the water purifier 200a, 200b or 200c is detected by the flow sensor or is calculated by calculating the extraction time according to the water pressure.

The extracted flow rate record unit 222 records the flow rate of the purified water detected by the extracted flow rate sensing unit 221 in the internal memory in association with the RFID signal. In particular, the extraction flow rate recorder 222 records the flow rate of the purified water extracted from the extraction port by time zone. By recording the flow rate of the extracted integer for each time zone, it is possible to know how much the user has extracted the flow rate at which time zone.

Further, the extraction flow rate recorder 222 accumulates the flow rate of the purified water extracted from the extraction port during the set time, and records it in the internal memory. For example, the user records the number of integers extracted and consumed for one day. At this time, the extracted flow rate transmitter 225 transmits to the wireless terminal 100 the information about the extracted flow rate of the accumulated constants recorded in the extracted flow rate recorder 222 for the set time.

The extraction flow rate comparator 223 determines whether the extraction flow rate of the integer recorded in the extraction flow rate record unit 222 is smaller than the reference extraction rate set by the time zone. At this time, when the extraction flow rate of the integer recorded in each time zone is smaller than the reference extraction volume set by the time zone, the extraction flow transmission unit 225 transmits information on the extraction flow rate to the wireless terminal 100.

The extraction flow rate setting unit 224 receives and sets the flow rate of the integer to be extracted for each time slot. At this time, the extraction flow transmitter 225 transmits information about the flow rate of the integer to be extracted for each time zone to the wireless terminal 100 at each time zone.

4 is a flowchart of an integer extraction method for recording the flow rate of the extracted purified water according to the present invention. Referring to FIGS. 2 to 4, a description will be given.

First, the user's wireless terminal 100 generates an RFID signal when extracting a user's integer (S100). The wireless terminal 100 is provided with an RFID tag having a unique identification ID and generates an RFID signal in the RFID tag when the wireless terminal 100 exists within a set distance from an extraction port from which an integer is extracted.

Thereafter, the RFID reader of the water purifier 200a, 200b, or 200c receives the RFID signal generated in the wireless terminal 100 (S200). That is, the RFID reader receives the RFID signal generated in the RFID tag of the user wireless terminal 100, so that it can recognize the unique identification ID, thereby recognizing which user extracts the integer.

Thereafter, the extraction flow rate sensing unit 221 senses the flow rate of the purified water extracted from the extraction port of the water purifier (S300). The flow rate of the purified water extracted from the extraction port of the water purifier 200a, 200b or 200c is detected by the flow sensor or is calculated by calculating the extraction time according to the water pressure.

Thereafter, the extraction flow rate record unit 222 records the flow rate of the purified water sensed by the extraction flow rate sensing unit 221 in an internal memory in association with the RFID signal (S400). For example, the user records the number of integers extracted and consumed for one day. At this time, the extracted flow rate transmitter 225 transmits to the wireless terminal 100 the information about the extracted flow rate of the accumulated constants recorded in the extracted flow rate recorder 222 for the set time.

In particular, the extraction flow rate recorder 222 records the flow rate of the purified water extracted from the extraction port of the water purifier 200a, 200b, 200c by time zone, and extracts the purified water extracted from the extraction port of the water purifier 200a, 200b, Are recorded in a cumulative manner.

Thereafter, the extracted flow rate transmitter 225 transmits the information on the extracted flow rate of the accumulated constants recorded in the extracted flow rate recorder 222 to the wireless terminal (S500).

On the other hand, if it is determined that the extraction flow rate of the integer recorded by the extraction flow rate comparing unit 223 is smaller than the reference extraction volume set by the time zone, then, if the extraction flow rate of the integer recorded by the time zone is smaller than the reference extraction volume set by the time zone, A configuration may be added in which the flow rate transmitter 225 transmits information on the extracted flow rate to the radio terminal 100. Such a configuration is necessary for the user to inform the user about the insufficient extraction flow rate when the user is drinking less water, so that the user can drink an essence of the appropriate flow rate.

On the other hand, the extraction flow rate setting unit 224 receives and sets the flow rate of the purified water to be extracted for each time zone, and the information on the flow rate of the purified water to be extracted by the extracted flow rate transmitting unit 225 in each time period is transmitted to the wireless terminal 100, as shown in FIG. Such a configuration is necessary when a user uses a constant to diet, and when an appropriate constant of the flow rate should be consumed at a predetermined time.

As described above, the water extraction system and the water extraction method are exemplified. However, it is possible to implement various water extraction flow recording methods in addition to this, and it is possible to inform the user of such water extraction flow record information and to drink the water properly. Of course.

The present invention is not limited to the above-described embodiments and the accompanying drawings. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims, .

100: Wireless terminal 200a, 200b, 200c: Water purifier
210: RFID reader 220:
221: Extraction flow rate sensing unit 222: Extraction flow rate recording unit
223: Extraction flow rate comparing unit 224: Extraction flow rate setting unit 225: Extraction flow rate transmitter

Claims (4)

A wireless terminal having an RFID tag to which a unique identification ID is assigned; And
And an RFID reader that receives an RFID signal generated by the RFID tag when the wireless terminal is within a set distance from the extraction port and outputs a flow rate of the purified water extracted from the extraction port to the RFID signal A water purifier for storing the water in the memory;
And the flow rate of the extracted purified water. The method according to claim 1,
The water purifier includes:
An RFID reader for receiving an RFID signal generated by the RFID tag when the wireless terminal is within a set distance from the extraction port;
An extraction flow rate sensing unit for sensing a flow rate of the purified water extracted from the extraction port; And
An extraction flow rate recording unit for recording the flow rate of the detected purified water in the memory in association with the RFID signal;
And the flow rate of the extracted purified water. 3. The method according to claim 1 or 2,
Wherein the extraction flow rate recorder included in the water purifier records the flow rate of the purified water extracted from the extraction port during the set time period. The method of claim 3,
And an extracting flow rate transmitter for transmitting the information on the extracted flow rate of the integers accumulated during the set time to the wireless terminal.

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