KR20160085223A - Electrolytic water generator - Google Patents

Abstract

An object of the present invention is to provide an electrolytic water generator which enables replacement times of a plurality of water purification cartridges having different purification performances to be appropriately managed. The electrolytic water generator (1) comprises: an apparatus body (2) which has an electrolytic tank (4) adapted to electrolyze water; and a water purification cartridge (5) which is installed upstream or downstream of the electrolytic tank (4) and purifies water. The water purification cartridge (5) is replaced by being detached from the apparatus body (2). An RFID tag (6) in which at least one piece of information adapted to determine replacement time has been stored is installed in the water purification cartridge (5). The apparatus body (2) comprises: a communication means (7) which reads the information of the RFID tag (6) of the mounted water purification cartridge (5); a control means (8) which calculates replacement time of the water purification cartridge (5) based on the information read by the communication means (7); and a notification means (9) which notifies a user of the calculated replacement time.

Description

[0001] ELECTROLYTIC WATER GENERATOR [0002]

The present invention relates to an electrolytic water producing apparatus for producing electrolytic water by electrolyzing water.

There is known an electrolytic water producing apparatus capable of electrolyzing water to generate electrolytic water (reduced water) in which hydrogen molecules are dissolved. Electrolytic water is attracting attention because it exerts an excellent effect on improvement of gastrointestinal symptoms. In addition, electrolytic water is suitable for removal of active oxygen, and is used for reduction of oxidative stress.

In recent years, household electrolytic water generating apparatuses have been widely used to lightly ingest electrolytic water in everyday life. For example, Patent Document 1 discloses an electrolytic water producing apparatus having an electrolytic cartridge detachable and freely removable for cleaning tap water, and an electrolytic cell electrolyzing water purified by the water purification cartridge.

[Patent Document 1] Japanese Unexamined Patent Application Publication No. 2002-016643 Generally, the purification cartridge is composed of activated carbon, a hollow fiber membrane, and the like, and the purification function is gradually deteriorated as the integrated amount of water passing through the purified water cartridge (the cumulative amount of water) increases. Therefore, in order to obtain electrolytic water of stable quality, replacement with a new purified water cartridge is required. Usually, the electrolytic water producing apparatus is provided with a flow rate sensor for detecting the flow rate of water passing through the water purification cartridge. When the integrated amount of accumulated water reaches the upper limit value, the user is prompted to exchange the water, thereby managing the replacement timing of the purified water cartridge. The incentive upper limit value is predetermined in terms of the quantity of water for which the water purification cartridge effectively functions, and is stored in the memory of the electrolytic water production apparatus. In general, the replacement timing of the water purification cartridge is different depending on the specifications of the water purification cartridge. For example, in the case of the water cartridge of the same capacity, the number of replacement cartridges that can remove more material becomes shorter. As described above, when the upper limit of the incentive maximum value stored in the memory of the electrolytic water producing device differs from the upper limit value for encouraging the water purification cartridge mounted on the apparatus, The replacement timing of the water purification cartridge can not be properly managed. For example, when 5000 liters, which is the upper limit value for encouraging the other water cartridges, is memorized in the memory even though the upper limit value for encouraging the water purifying cartridge is 7000 liters, a notification prompting the user to replace the water purifying cartridge I do it.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electrolytic water producing device capable of appropriately managing the replacement timing of a plurality of kinds of water-resistant cartridges.

The present invention relates to an electrolytic water supply system comprising an apparatus main body having an electrolytic cell for electrolyzing water and a purified water cartridge installed upstream or downstream of the electrolytic water for purifying water, Wherein the apparatus main body includes communication means for reading the information of the storage means of the fixed water cartridge mounted thereon, Control means for calculating the replacement timing of the constant-capacity cartridge based on the information read by the communication means; and notification means for notifying the user of the calculated replacement timing.

In the electrolytic water producing device according to the present invention, the apparatus main body may include a flow rate sensor for detecting the flow rate of water passing through the water purification cartridge, and the information may include information indicating whether or not the water purification cartridge has an effective upper limit .

In the electrolytic water producing device according to the present invention, it is preferable that the communicating means has a function of recording the cumulative quantity of water passing through the water purification cartridge to the storage means.

In the electrolytic water producing device according to the present invention, it is preferable that the information is an incentive upper limit value of use time in which the water purification cartridge effectively functions.

In the electrolytic water producing apparatus according to the present invention, it is preferable that the communication means has a function of recording the accumulation time using the water purification cartridge in the storage means.

In the electrolytic-water producing apparatus according to the present invention, it is preferable that the water-purifying cartridge is configured such that one water-purifying cartridge selected from a plurality of kinds having different purifying performances can be mounted.

In the electrolytic water producing apparatus of the present invention, the water purification cartridge is replaceable by being detached from the apparatus main body. In the water purification cartridge, storage means is provided, and the storage means stores information for determining a predetermined exchange time for each type of water purification cartridge.

The apparatus main body has communication means for reading the information of the purified water cartridge, control means for calculating the replacement timing of the water purification cartridge, and notification means for notifying the user of the replacement timing of the water purification cartridge. The control means calculates the replacement timing of the water purification cartridge based on, for example, the information read by the communication means, and causes the notification means to display the replacement timing. Accordingly, even when any one of the plurality of types of the constant-capacity cartridges having different replacement periods is mounted, the electrolytic-water generation apparatus of the present invention appropriately manages the replacement timing of each of the constant-capacity cartridges and notifies the user .

1 is a perspective view showing a schematic configuration of an electrolytic water producing device of the present invention.
2 is a block diagram showing the configuration of the electrolytic water producing device of FIG. 1;
3 is a flow chart showing the processing procedure of the control means of FIG. 2 when the purified water cartridge is mounted.

Hereinafter, one embodiment of the present invention will be described based on the drawings.

Fig. 1 shows a configuration of the electrolytic water producing apparatus 1 of the present embodiment. The electrolytic water producing apparatus 1 of the present embodiment includes an apparatus main body 2 having an electrolytic bath 4 for electrolyzing water and a purified water cartridge 5 for purifying water supplied to the electrolytic bath 4 . 1, the case constituting a part of the apparatus main body 2 is shown by a chain double-dashed line, and the principal constitution of the electrolytic water producing apparatus 1 is seen.

The electrolytic bath 4 is fixed to the apparatus main body 2 through, for example, a screw (not shown) or the like. The electrolytic bath 4 may be fixed by, for example, fitting or the like. An electrolytic chamber (40) is formed inside the electrolytic bath (4).

The water cartridge 5 is replaceable by being attached to or detached from the apparatus main body 2. The water purification cartridge 5 that has reached the replacement period is replaced with a new purified water cartridge 5 by the user opening the lid member 3 of the apparatus main body 2, for example.

2 is a block diagram of the electrolytic water producing apparatus 1. In Fig. In the present embodiment, the purified water cartridge 5 is provided upstream of the electrolytic bath 4. [ Raw water is supplied to the purified water cartridge (5). In the case of raw water, tap water is generally used, but in addition, well water, ground water, and the like can be used. The purified water cartridge 5 purifies the raw water by filtration and supplies the obtained purified water to the electrolytic chamber 40.

The water purification cartridge 5 may be provided downstream of the electrolytic bath 4. [ In this case, the water purification cartridge 5 purifies the water electrolyzed by the electrolytic bath 4. [

The electrolytic-water producing apparatus 1 of the present invention is configured so as to be capable of selectively mounting a plurality of kinds of water-purifying cartridges 5 having different purifying performances. The user can mount the water purification cartridge 5 having a better cleaning performance instead of the standard water purification cartridge 5. [ In addition, the user can mount the purified water cartridge 5 having a long replacement period in place of the standard purified water cartridge 5. [

Inside the electrolytic chamber 40, a positive electrode feeder 41 and a negative electrode feeder electrode 42 are arranged opposite to each other. A diaphragm 43 is provided between the positive electrode collector 41 and the negative electrode collector 42. The diaphragm 43 divides the electrolytic chamber 40 into an anode chamber 40a on the anode current collector 41 side and a cathode chamber 40b on the cathode current collector 42 side.

Water is supplied to both the anode chamber 40a and the cathode chamber 40b of the electrolytic chamber 40 and the DC voltage is applied to the anode current collector 41 and the cathode current collector 42, The electrolysis of water occurs.

The diaphragm 43 passes ions generated by electrolysis. The positive electrode feeder 41 and the negative electrode feeder 42 are electrically connected through the diaphragm 43. The electrolytic reduced water can be obtained in the cathode chamber 40b by electrolysis of water in the electrolytic chamber 40 and the electrolytic acid water can be obtained in the anode chamber 40a.

In the cathode chamber 40b, hydrogen gas is generated by electrolysis and dissolved in water in the cathode chamber 40b. Therefore, the electrolytic reduced water obtained in the cathode chamber 40b is also referred to as electrolytic water, and is effective for removing active oxygen.

The electrolytic reduced water obtained in the cathode chamber 40b and the electrolytic acid water obtained in the anode chamber 40a are supplied to the water receiving portion (faucet portion) through the flow path switching valve 21 and discharged. The flow path switching valve 21 is configured to switch the connection destination while separating the electrolytic reduced water flow path obtained in the cathode chamber 40b and the electrolytic acid water flow path obtained in the anode chamber 40a.

In the water purification cartridge 5, an RFID tag 6 is provided as a storage means. The RFID tag 6 is storage means capable of recording and reading information by wireless communication. The form of the storage means is not limited to the RFID tag 6. For example, the storage means may be a form in which information is recorded and read between the communication means 7 by wire communication.

In the RFID tag 6, unique ID information for identifying the purified water cartridge 5 is stored. In the present embodiment, the RFID tag 6 stores information for determining the replacement timing of the purified water cartridge 5. [ For example, as information for determining the replacement timing of the purified water cartridge 5, information on the specifications of the purified water cartridge 5 is stored. More specifically, a maximum allowable upper limit value for the water cartridge 5 to function effectively and an upper limit value for the allowable time for which the water cartridge 5 to function effectively are stored. Either one of the upper limit value for promoting the flow rate of water or the upper limit value for encouraging the use time may be stored.

The apparatus main body 2 includes communication means 7 for communicating with the RFID tag 6, control means 8 for controlling each part of the electrolytic water producing apparatus 1, And notification means (9) for notifying the time of exchange.

The communication means 7 performs wireless communication between the RFID tags 6 and reads out the information stored in the RFID tag 6 and outputs the read information to the control means 8 . The communication means 7 of the present embodiment is a reader / writer device having a function of recording information in the RFID tag 6 in addition to the above-described information reading function.

The control means 8 controls each part of the electrolytic water producing apparatus 1 such as the electrolytic bath 4 and the notifying means 9. [ For example, the control means 8 controls an electrolytic current to be supplied to the positive electrode feeder 41 and the negative electrode feeder 42 of the electrolytic cell 4 in order to generate electrolytic water of a desired dissolved hydrogen concentration. The control means 8 controls the synchronization of the polarity of the DC voltage applied to the positive electrode current supply 41 and the negative electrode power supply 42 and the operation of the flow path switching valve 21. [

The control means 8 has a function of counting the memory function and time, and controls each part of the electrolytic water producing apparatus 1 based on the counted time. For example, the control means 8 calculates the replacement timing of the purified water cartridge 5 based on the counted time.

The control means 8 of the present embodiment calculates the replacement timing of the purified water cartridge 5 based on the information for determining the replacement timing read by the communication means 7. [ The control means 8 then controls the notifying means 9 to notify the user that the replacement time of the purified water cartridge 5 has arrived.

Further, the memory of the control means 8 may store the ID information of the above-mentioned water purification cartridge 5 and the upper limit value for encouraging the use amount and the use time in association with each other. In this case, the ID information of the purified water cartridge 5 is substantially information for determining the replacement timing of the water cartridge 5. [

The notifying means 9 notifies the user of the arrival of the replacement time of the purified water cartridge 5 by using voice or light. In the present embodiment, a speaker 91 for outputting sounds, a liquid crystal display (LCD) 92 for displaying images such as character information, and the like are applied. Only one of the speaker 91 and the LCD 92 may be used. The control means 8 may add a configuration for notifying that the replacement time is approaching before the water purification cartridge 5 arrives at the replacement time.

The speaker 91 and the LCD 92 are controlled by the control means 8. That is, the control means 8 outputs a voice signal to the speaker 91, and the speaker 91 outputs voice corresponding to the voice signal inputted from the control means 8. The control means 8 outputs an image signal to the LCD 92 and the LCD 92 outputs an image or a message according to the image signal inputted from the control means 8. [ Instead of the LCD 92, an LED (Light Emitting Diode) for prompting the replacement of the water cartridge 5 may be used.

According to the electrolytic water producing apparatus 1 having the above configuration, even when any one of the plurality of kinds of the purified water cartridges 5 having different cleaning performances is mounted, It is possible to appropriately manage the exchange time and notify the user.

As shown in Fig. 2, the apparatus main body 2 is provided with a flow rate sensor 22 for detecting the flow rate of water passing through the purified water cartridge 5. As shown in Fig. In the present embodiment, the flow rate sensor 22 is provided in the flow path for connecting the purified water cartridge 5 and the electrolytic bath 4, that is, downstream of the purified water cartridge 5. [ The flow sensor 22 may be provided upstream of or in the interior of the purified water cartridge 5 as long as it can detect the flow rate of water passing through the water purification cartridge 5. [

The flow rate sensor 22 detects the flow rate of water and transmits the signal to the control means 8. The control means 8 accumulates the amount of water passing through the purified water cartridge 5 based on the signal transmitted from the flow rate sensor 22. [ The timing of integration is when the water cartridge 5 is first installed. Communication is started between the RFID tag 6 of the purified water cartridge 5 and the communication means 7 and the signal is outputted to the control means 8. [ Therefore, the control means 8 acquires the time when the water supply cartridge 5 is first installed based on the signal inputted from the communication means 7, Start accumulation of the flow rate. Thus, it is possible to manage the replacement timing of the purified water cartridge 5 on the basis of the accumulated flow rate.

The control means 8 also accumulates the use time of the purified water cartridge 5. [ The timing of integration is when the water cartridge 5 is first installed. Thus, it becomes possible to manage the replacement timing of the purified water cartridge 5 based on the accumulated usage time.

Fig. 3 shows the processing procedure of the control means 8 when the purified water cartridge 5 is mounted. The control means 8 detects the start of the water flow based on the signal transmitted from the flow rate sensor 22 and causes the communication means 7 to transmit a radio signal in S2. The wireless signal transmitted by the communication means 7 is received by the RFID tag 6 of the water purification cartridge 5. [ The RFID tag 6 that has received the radio signal converts the information stored in itself into a radio signal and transmits it. The information includes unique ID information for identifying the water cartridge 5 and information for determining an exchange time.

In this embodiment, as information for determining the replacement timing of the purified water cartridge 5, the upper limit of the upper limit of the amount of water that the purified water cartridge 5 can effectively function and the upper limit of the incentive of the use time are included. The upper limit value for encouraging the flow rate and the use time is stored for each type of the water purification cartridge 5 in accordance with the purification performance of the water purification cartridge 5 and the like.

The radio signal transmitted by the RFID tag 6 is received by the communication means 7 and converted into information for determining the ID information and the exchange time of the water purification cartridge 5, 8). Thus, the control means 8 acquires the upper limit value of the upper limit of the number of times the purified water cartridge 5 can effectively function and the upper limit of the upper limit of the use time (S4).

Then, the control means 8 starts the accumulation of the use time (S5) and starts the accumulation of the flow rate (S6). Further, the control means (8) causes the communication means (7) to periodically transmit the accumulated information on the use time and the flow rate. Accordingly, the information on the cumulative usage time and the cumulative quantity of water in the purified water cartridge 5 is periodically recorded in the RFID tag 6 and updated (S7).

The control means 8 then proceeds to S10 and determines whether or not the purified water in the purified water cartridge 5 is discharged from the speaker 91 and the LCD 92. If the accumulated water amount exceeds the above upper limit, And notifies the user of the arrival of the exchange time of the exchange.

The control means 8, even if the accumulated flow rate does not reach the upper limit of the encouraging amount of the flow rate (N in S8), if the use time accumulated by the control means 8 exceeds the upper limit value of the use time (Y in S9), the process proceeds to S10. In S10, the control means 8 causes the speaker 91 and the LCD 92 to notify the user that the time for replacement of the purified water cartridge 5 has arrived.

The control means 8 returns to S7 when the accumulated use time does not reach the upper limit value of the use time (N in S9).

In this embodiment, as shown in S7, information on the cumulative usage time and the cumulative quantity of water in the purified water cartridge 5 is periodically recorded in the RFID tag 6, And stores information on its own use history in the RFID tag 6. These pieces of information are transmitted from the RFID tag 6 to the communicating means 5 when the water cartridge 5 is removed from the apparatus main body 2 of the electrolytic water producing apparatus 1 and then re- 7). Thus, the control means 8 can acquire the use history for each of the purified water cartridges 5, and the accumulation of the flow rate and the use time can be resumed.

According to the electrolytic-water producing apparatus 1 of the present embodiment having the above-described configuration, the control means 8 calculates the replacement timing of the purified water cartridge 5 based on the information read by the communication means 7 , And causes the notifying means (9) to display that the replacement timing of the water purification cartridge (5) has arrived. The electrolytic water producing apparatus 1 can be configured such that even when any one of the plurality of kinds of the water purification cartridges 5 having different replacement periods is mounted, So that it can be notified to the user.

The electrolytic water producing apparatus 1 of the present invention has been described in detail above. However, the present invention is not limited to the above-described specific embodiments, but various modifications may be made. That is, the electrolytic water producing apparatus 1 includes at least an apparatus main body 2 having an electrolytic cell 4 for electrolyzing water, and a water purifier 5 And the purified water cartridge 5 is exchanged by being detached and attached to the apparatus main body 2. The purified water cartridge 5 is provided with an RFID tag 6 storing information for determining the replacement time, The apparatus main body 2 is provided with communication means 7 for reading the information of the RFID tag 6 of the installed purified water cartridge 5, 5), and notification means (9) for notifying the calculated exchange time to the user.

Further, a plurality of electrolytic baths 4, purified water cartridges 5, and communication means may be provided in plurality. For example, a plurality of electrolytic baths 4 may be provided in parallel or in series. Further, for example, a plurality of water cartridges 5 may be provided in parallel or in series. In this case, the single notification means 7 may be configured to communicate with the RFID tags 6 of the respective water cartridges 5, and each of the plurality of notifying means 7 may be configured to communicate with the RFID And may be configured to communicate with the tag 6.

1: electrolytic water producing device 2:
4: electrolytic cell 5: purified water cartridge
6: RFID tag 7: communication means
8: control means 9: notification means
91: speaker (notification means) 92: LCD (notification means)

Claims (6)

An electrolytic water producing apparatus comprising: an apparatus main body having an electrolytic cell for electrolyzing water; and an electrolytic cartridge provided upstream or downstream of the electrolytic cell for purifying water, the electrolytic cartridge being exchanged by being detached from the apparatus main body,
The water purification cartridge is provided with storage means for storing information for determining the replacement time,
The apparatus main body includes:
Communication means for reading the information of the storage means of the water-saving cartridge mounted,
Control means for calculating the replacement timing of the water purification cartridge based on the information read by the communication means;
And notifying means for notifying a user of the calculated exchange time. The apparatus according to claim 1, wherein the apparatus main body includes a flow rate sensor for detecting the flow rate of water passing through the water purification cartridge,
Wherein the information is an upper limit value for encouraging the water cartridge to function effectively. 3. The electrolyzed water producing apparatus according to claim 2, wherein the communication means has a function of recording the cumulative quantity of water passing through the water purification cartridge in the storage means. The electrolytic water producing apparatus according to claim 1 or 2, wherein the information is an incentive upper limit value of use time in which the water purification cartridge effectively functions. The electrolytic water generation apparatus according to claim 4, wherein the communication means has a function of recording the integration time using the water purification cartridge in the storage means. The electrolytic water producing apparatus according to claim 1 or 2, wherein one of the plurality of types of water purification cartridges having different cleaning performances is mountable to the water purification cartridge.

Images