KR101066832B1 - Bidet using ionized water - Google Patents

Abstract

The present invention comprises an electrolytic cell that receives raw water and generates ionized water of acidic and alkaline water; An acidic water storage tank connected to an acidic water tank of the electrolytic cell through an acidic water connecting pipe and storing ionized water generated in the acidic water tank; An alkaline water storage tank connected to an alkali water tank of the electrolytic cell through an alkaline water connecting pipe and storing ionized water generated in the alkaline water tank; An acid water discharge pipe having one side connected to the acid water reservoir; An alkaline water discharge pipe connected to one side of the alkaline water reservoir; A nozzle connection pipe having one side connected to the other side of the acidic water discharge pipe and the other side of the alkaline water discharge pipe and the other side connected to the nozzle; Solenoid valves installed in the acidic water connection pipe, the alkaline water connection pipe, the acidic water discharge pipe, and the alkaline water discharge pipe, respectively; An electrolytic cell driver for driving the electrolytic cell; A valve driver for driving the solenoid valves; A button input / display section having a plurality of operation buttons and having a plurality of display elements for displaying an operation state; And a controller for controlling driving of the solenoid valves in the bidet mode or the washing mode by the operation button input of the button input / display unit so that any one of the acidic water and the alkaline water is injected as the bidet water or the washing water through the nozzle. To provide an ionized bidet constructed.

Description

Ionized Bidet {Bidet using ionized water}

The present invention relates to an ion water bidet, and more particularly to a bidet using acidic water and alkaline water as bidet water and washing water.

In general, the bidet is a device for spraying the washing water toward the user's human body through the bidet nozzle to clean the feces by the physiological phenomenon in the user's human body. The bidet is cleaned by spraying hot or cold water supplied to the bidet nozzle to the user's human body at a predetermined pressure. However, since many bacteria can inhabit the pipe or the water tank and the nozzle of the bidet, there was a problem of concern of the user's human infection by these bacteria.

As such, in order to solve the problems caused by using general tap water as the washing water of the bidet, electrolyzed acidic water is used as the washing water. In a bidet using a conventional acidic water, alkaline water generated by electrolysis is not used but is flowed into the toilet as wastewater. By the way, alkaline water has the same cleaning ability as acidic water as well as acidic water. Therefore, according to the user's choice, it is desired to develop a bidet that can selectively use acidic water and alkaline water as bidet water and / or washing water or alternately use acidic water and alkaline water as bidet water and / or washing water. .

Accordingly, the present invention has been made to meet the above-described conventional requirements, and it is possible to use the electrolyzed acidic water and alkaline water as bidet water and / or washing water according to the user's selection, or the acidic water and the alkaline water alternately. It is an object of the present invention to provide an ionized bidet for use as bidet water and / or washing water.

In addition, the present invention by periodically reversing and applying the power applied to the electrolytic cell electrode, the ionized water to ensure the effective cleaning of the acidic water path and the alkaline water path by allowing the alkaline water and the acidic water discharged to the acidic water discharge path. Another purpose is to provide a bidet.

In order to achieve the above object, the ionized water bidet according to the present invention comprises an electrolyzer for receiving raw water and generating ionized water of acidic and alkaline water; An acidic water storage tank connected to an acidic water tank of the electrolytic cell through an acidic water connecting pipe and storing ionized water generated in the acidic water tank; An alkaline water storage tank connected to an alkali water tank of the electrolytic cell through an alkaline water connecting pipe and storing ionized water generated in the alkaline water tank; An acid water discharge pipe having one side connected to the acid water reservoir; An alkaline water discharge pipe connected to one side of the alkaline water reservoir; A nozzle connection pipe having one side connected to the other side of the acidic water discharge pipe and the other side of the alkaline water discharge pipe and the other side connected to the nozzle; Solenoid valves installed in the acidic water connection pipe, the alkaline water connection pipe, the acidic water discharge pipe, and the alkaline water discharge pipe, respectively; An electrolytic cell driver for driving the electrolytic cell; A valve driver for driving the solenoid valves; A button input / display section having a plurality of operation buttons and having a plurality of display elements for displaying an operation state; And a controller for controlling driving of the solenoid valves in the bidet mode or the washing mode by the operation button input of the button input / display unit so that any one of the acidic water and the alkaline water is injected as the bidet water or the washing water through the nozzle. Characterized in that configured.

Here, the button input / display section includes a button for selecting any one of the acidic water and the alkaline water as the washing water or the bidet water, and the controller sets one of the acidic water and the alkaline water as the washing water or the bidet water. It is preferable to control the ion water set by the button for spraying through the nozzle.

Alternatively, the controller may control to alternately spray the acidic water and the alkaline water as the washing water or the bidet water through the nozzle in the bidet mode or the washing mode by the operation button input of the button input / display unit. In this case, the controller checks a flag that sets whether acidic water or alkaline water is sprayed in the bidet mode or the washing mode in the bidet mode or the washing mode by the operation button input of the button input / display unit. It is preferable to control so that different types of ionized water may be sprayed out of the water and the alkaline water in the previous bidet mode or the washing mode.

In addition, the ionized water bidet according to the present invention, one side is connected to the middle of the nozzle connecting pipe and the other side waste water pipe protruding to the toilet side; And a solenoid valve installed in the wastewater pipe, wherein the controller controls the electrolyzer driving unit in a pipe cleaning mode by inputting an operation button of the button input / display unit to reversely control power applied to the electrodes of the electrolyzer. The alkaline water is generated in the acid tank of the electrolytic cell and the acid water is generated in the alkali bath of the electrolytic cell, and then the valve driving unit is controlled to generate the alkaline water in the acid water reservoir and the acid water discharge pipe, the nozzle connection pipe, and the like. Preferably, the solenoid valve is driven to be discharged through the wastewater pipe and to discharge the generated acidic water through the alkaline water reservoir and the alkaline water discharge pipe, the nozzle connection pipe, and the wastewater pipe.

According to the present invention configured as described above, it is possible to use the electrolyzed acidic water and alkaline water as bidet water and / or washing water according to the user's choice, or to use the alternating acidic and alkaline water as bidet water and / or washing water In this way, it is possible to effectively use alkaline water having a different cleaning ability as well as acidic water together with acidic water having excellent cleaning ability.

In addition, by periodically inverting and applying the power applied to the electrolytic cell electrode, the alkaline water and the alkaline water discharge path are discharged from the alkaline water discharge path, thereby effectively cleaning the acid and alkaline water paths. And alkaline water can be used as bidet water and / or washing water.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the ionized water bidet according to a preferred embodiment of the present invention.

First, the ion water generated by the electrolysis used in the present invention will be described.

With only a small amount of acidic ionized water (hereinafter referred to as "acidic water") produced by electrolysis, microorganisms can be sterilized within tens of seconds. First, ozone in acidic water destroys the cell membranes of microorganisms. Secondly, HClOx in acidic water reacts with amino acids and peptides in microbial cells to disrupt the metabolism of microorganisms. In addition, acidic water sterilizes microorganisms by causing instantaneous electric shock to microorganisms at low pH and high ORP (redox potential coefficient). Experiments have shown that strong acid kills not only bacteria, fungi but also viruses. Viruses affected by the external environment are completely killed within a short time of about 5 seconds, and mold can be sterilized within about 30 seconds except when spores are formed. In addition, since acidic water does not kill bacteria by chemical components, it is not resistant and is effective in killing bacteria that have developed resistance to drugs. In particular, it is known that the sterilization time in the acidic water of MRSA, which is called as the superbacteria, among the infectious bacteria in hospitals is about 15 seconds or less. In addition, acidic water acts directly in the cells of the microorganisms, but does not have any effect on the human body.

In addition, alkaline ionized water having a high pH generated by electrolysis (hereinafter referred to as "alkaline water") has a slow disinfecting power, high reducing power, high cleaning power for organic matter such as protein, fat, protein, etc. attached to a solid surface. It is known to have the ability to clean not only organic contaminants but also impurities such as metals and fine particles.

In addition, the acidic water and the alkaline water can effectively remove the scale attached to the solid surface, and also have an antistatic effect. Therefore, when the solid surface is cleaned with acidic and alkaline water, contaminants do not reattach to the solid surface for a long time due to this antistatic effect.

Therefore, the present invention is to clean the human body parts excreted by the physiological phenomena according to the user's choice of acidic ionized water and alkaline ionized water having the above advantages, the human body excreted by the physiological phenomena by the ion water as well as the excreta Microorganisms such as various fungi present in the site and various bacteria are also intended to keep clean by sterilization.

In addition, the present invention, in order to effectively use the feature that the acidic ionized water and alkaline ionized water to remove the scale attached to the solid surface, the alkaline water and alkaline water in the acidic water discharge path after periodically applying the power applied to the electrolytic cell electrode The acid water is discharged to the discharge path to effectively clean the acid and alkaline water paths.

1 is a side view of the installation state of the ionized water bidet according to an embodiment of the present invention, Figure 2 is a perspective view from above of the ionized water bidet according to an embodiment of the present invention, Figure 3 is ionized water according to an embodiment of the present invention It is a figure which shows the functional block structure of a bidet.

As shown in the drawings, in the ionized water bidet according to the present invention, which is installed on the toilet 11, receives the tap water which is the raw water through the raw water supply pipe 12 connected to the water pipe, and through the raw water supply pipe 12 The tap water received is purified by the filter 13 and is supplied to the electrolytic cell 20 through the purified water supply pipe 14. The purified water supply pipe 14 is provided with a first valve 18 for controlling the purified water flowing in, and a first flow sensor 19 for sensing the purified water flowing in. Here, the filter 13 is made of, for example, activated carbon filter to remove foreign substances contained in the raw water by the activated carbon.

In addition, the electrolytic cell 20 is configured to make the purified water into alkaline water or acidic water by electrolysis. The electrolyzer 20 is divided into two tanks by a diaphragm in the middle portion thereof, and electrodes are installed in each bath, so that a positive power is applied to one electrode and a negative power is applied to the other electrode. In other words, the purified water is electrolyzed so that the purified water of the electrode side of the electrode to which the positive power is applied becomes acidic water, and the purified water of the bath side of the electrode to which the negative power is applied becomes alkaline water. Here, the pH of the ionized water may be adjusted by adjusting the amount of power applied to the electrodes of the electrolyzer 36.

The tank (acidic water tank) on one side of the electrolytic cell (20) centered on the diaphragm is connected to the acidic water storage tank (25) through the acidic water connecting pipe (21), and the other tank (alkaline water tank) is the alkaline water. It is connected to the alkaline water reservoir 26 via the connection pipe 23. The second valve 22 and the third valve 24 are installed in the acidic water connecting pipe 21 and the alkaline water connecting pipe 23, respectively, and the acidic water storage tank 25 and the alkaline water storage tank ( 26) control acidic and alkaline water respectively.

A water level sensor is installed in each of the acidic water reservoir 25 and the alkaline water reservoir 26 to detect the amount of acidic water and the amount of alkaline water stored in the acidic water reservoir 25 and the alkaline water reservoir 26, respectively.

The acidic water reservoir 25 is connected to the acidic water discharge pipe 27, and the acidic water discharge pipe 27 is provided with a fourth valve 28 for controlling the discharge of the acidic water.

The alkaline water reservoir 26 is connected to the alkaline water discharge pipe 29, and the alkaline water discharge pipe 29 is provided with a fifth valve 30 for controlling the discharge of alkaline water.

The acidic water discharge pipe 27 and the alkaline water discharge pipe 29 are each connected to one end of the nozzle connection pipe 31, and the nozzle 34 is coupled to the other end of the nozzle connection pipe 31.

A wastewater pipe 32 is connected to the middle portion of the nozzle connection pipe 31, and the wastewater pipe 32 is configured to drain acidic water and / or alkaline water introduced into the nozzle connection pipe 31 to the toilet as wastewater. The sixth valve 33 is provided. In addition, a second flow rate sensor 34 is installed upstream of the branch point from the nozzle connecting pipe 31 to the waste water pipe 32 to detect the flow rate discharged from the alkaline water reservoir 26 and the acidic water reservoir 25. do.

The first valve 18, the second valve 22, the third valve 24, the fourth valve 28, the fifth valve 30 and the sixth valve 31 are provided from the valve driver 35. Its opening and closing is controlled in accordance with the drive signal and consists of a solenoid valve. In addition, the electrolytic cell 20 is driven according to the power supplied from the electrolytic cell driver 36 to generate acidic water and alkaline water.

In the ionized water bidet according to the present invention, at least the electrolyzer 20, the acidic water reservoir 25, and the alkaline water reservoir 26 are provided inside the rear support 17 shown in Figs. 1 and 2, or Fig. 2 Although not shown in the figure, the side support portion 16 of the bidet may be formed in the structure integrally with the bidet on the immediate side of the base.

The ionized water bidet according to the present invention is provided with a weight sensor 37, the weight sensor 37 is installed inside the seat plate 15 to detect whether the user is sitting on the seat plate.

In the ionized water bidet according to the present invention, a button input / display section 38 is provided on the side support 16. The button input / display section 38 includes buttons for selecting either acidic or alkaline water as bidet water / clean water, buttons for selecting bidet mode, cleaning mode, piping cleaning mode, etc., and bidet water / cleaning. Display elements which can be composed of, for example, LEDs are provided for indicating which of the acidic and alkaline waters are selected as the water and for indicating the selection mode.

In the ionized water bidet according to the present invention, a controller 39 is provided. The controller 39 includes a button input signal from the button input / display unit 38, a detection signal from the weight sensor 37, and a first flow rate. According to the flow rate detection signal from the sensor 19 and the second flow rate sensor 34, and the water level sensor from the water level sensor of the acidic water reservoir 25 and the water level sensor of the alkaline water reservoir 26, Control to open and close the first, second, third, fourth, fifth, and sixth valves 18, 22, 24, 28, 30, 31, and control the electrolytic cell drive 36. To drive control the electrolytic cell 20.

That is, the controller 39 has a low water level in the acidic water reservoir 25 or the alkaline water reservoir 26 based on the water level detection signal input from the water level sensor of the acidic water reservoir 25 or the alkaline water reservoir 26, for example. When it is confirmed that, the valve driving unit 35 is controlled so that the second valve 22, the third valve 24, and the first valve 18 are opened so that the alkaline water and the acidic water from the electrolytic cell 20 are respectively alkaline water tanks ( 26) and the acidic water reservoir 25, purified water is supplied to the electrolytic cell 20, and then the valve driving part 35 is controlled to control the second valve 22, the third valve 24, and the first valve. After the valve 18 is closed, the electrolytic cell drive unit 36 is controlled to generate acidic and alkaline water in the electrolytic cell 20.

Next, a control operation of the controller in the ionized water bidet according to the present invention will be described with reference to FIG. 4.

First, the controller 39 confirms whether the bidet mode or the cleaning mode is selected from the button input / display section 38 (step S1).

When the bidet mode or the washing mode is selected in the step S1, the controller 39 checks whether the acidic water is selected as the bidet water or the washing water (step S2).

When it is confirmed in step S2 that the acidic water is selected as the bidet water or the washing water, the controller 39 controls the valve driving part 35 to control only the fourth valve 28 to be opened (ON), whereby the acidic water The acidic water in the reservoir 25 is discharged as bidet water or washing water through the acidic water discharge pipe 27, the nozzle connecting pipe 31, and the nozzle 34 (step S3).

Thereafter, the controller 39 drives the timer (step S4) and checks through the button input / display unit 38 whether the user requests to stop the bidet mode or the cleaning mode currently in operation (step S5).

If it is confirmed in step S5 that there is a request to stop the bidet mode or the cleaning mode currently in operation, the controller 39 controls the valve driving unit 35 to control the fourth valve 28 to be closed (OFF). , Stop the acidic water of the acidic water reservoir 25 to be discharged as bidet water or washing water through the acidic water discharge pipe 27, the nozzle connecting pipe 31 and the nozzle 34 (step S7), End the bidet mode or cleaning mode.

On the other hand, if it is determined in step S5 that there is no stop request for the bidet mode or the cleaning mode currently in operation, the controller 39 checks whether the timer operation time T has reached a preset time (S6), and the preset time is If it is confirmed that the controller 39 controls the valve drive unit 35 to control the fourth valve 28 to operate (OFF), the acidic water in the acidic water reservoir 25, the acidic water discharge pipe 27 and the nozzle The discharge through the connecting pipe 31 and the nozzle 34 is stopped as bidet water or washing water (step S7), and the currently operating bidet mode or washing mode is terminated.

On the other hand, if it is confirmed in step S2 that the alkaline water is selected as the bidet water or the washing water, the controller 39 controls the valve drive part 35 to control only the fifth valve 30 to be opened (ON), Alkaline water in the alkaline water reservoir 26 is discharged as bidet water or washing water through the alkaline water discharge pipe 29, the nozzle connecting pipe 31, and the nozzle 34 (step S8).

Thereafter, the controller 39 drives the timer (step S9), and checks through the button input / display unit 38 whether the user requests to stop the bidet mode or the cleaning mode currently in operation (step S10).

When it is confirmed in step S10 that there is a stop request for the bidet mode or the cleaning mode currently in operation, the controller 39 controls the valve driving unit 35 to control the fifth valve 30 to be closed (OFF). To stop the discharge of the alkaline water in the alkaline water reservoir 26 as the bidet water or the washing water through the alkaline water discharge pipe 28, the nozzle connecting pipe 31, and the nozzle 34 (step S12). Or exit the cleaning mode.

On the other hand, if it is determined in step S10 that there is no stop request for the bidet mode or the cleaning mode currently in operation, the controller 39 checks whether the timer operation time T is a preset time (S11), and the preset time is If it is confirmed that the controller 39 controls the valve drive unit 35 to control the fourth valve 28 to operate (OFF), the acidic water in the acidic water reservoir 25, the acidic water discharge pipe 27 and the nozzle The discharge through the connecting pipe 31 and the nozzle 34 is stopped as bidet water or washing water (step S12), and the currently operating bidet mode or washing mode is terminated.

On the other hand, the ionized water bidet according to another embodiment of the present invention does not include a button for selecting acidic water and alkaline water as washing water and bidet water, and acidic water and alkaline water as bidet water and washing water when the bidet mode or the washing mode is selected. It may be configured to alternately discharge. In this case, the controller 39 sets the flag "1", for example, if acidic water was used in the previous bidet mode or the previous washing mode, and the flag "0", for example, if alkaline water was used in the previous bidet mode or the washing mode. After setting, when the user selects the bidet mode or the washing mode from the button input / display section 38, if the flag of the previous bidet mode or the washing mode is set to " 1 " Control to be sprayed through the control panel) and then set the flag " 0 ", and if the flag of the previous bidet mode or cleaning mode is set to " 0 ", control to spray the nozzle 34 through the nozzle 34 as the bidet or washing water. Then set the flag "1".

Next, the control operation of the controller in the ionized water bidet according to the present invention will be described with reference to FIG. 5.

First, the controller 39 checks whether the pipe washing mode is selected from the button input / display section 38 (step S20). Here, the pipe washing mode is an electrolytic cell 20, acidic water connection pipe 21, alkaline water connection pipe 23, acidic water storage tank 25, alkaline water storage tank 26, acidic water discharge pipe 27, alkaline water discharge pipe 29 ) To effectively remove the scale accumulated on the back. That is, in order to effectively use the feature of removing the scale attached to the solid surface, the acidic water and the alkaline water are discharged after the power applied to the electrode is reversed and the alkaline water is discharged to the acidic water discharge path and the acidic water is discharged to the alkaline water discharge path. By doing so, an effective washing of the acidic water channel and the alkaline water channel is intended.

When it is determined in step S20 that the pipe washing mode is selected, the controller 39 receives the detection signal from the weight sensor 37 and checks whether the weight is detected on the seat plate 15 (S21). Here, the reason for checking whether the weight is sensed on the seat plate 15 is that when the user presses the button of the button input / display unit 38 incorrectly while sitting on the seat plate 15 and viewing the toilet, the pipe washing mode is selected. This is to disable the mode.

If it is confirmed in step S21 that the weight is detected, the control of the controller 39 ignores the current pipe washing mode and returns to step S20.

On the other hand, if it is determined in step S21 that the weight is sensed, the controller 39 controls the electrolytic cell driver 36 to reverse the power applied to the electrode of the electrolytic cell 20 to drive the electrolytic cell and operate the timer. As a result, alkaline water is generated in the acidic water tank of the electrolytic cell 20, and acidic water is generated in the alkaline water tank of the electrolytic cell. At the same time, the controller 39 controls the valve driver 35 so that the fourth valve 28, the fifth valve 30, and the sixth control valve 33 are driven in an open state (ON). ) And the alkaline water in the alkaline water reservoir 26 is drained to the toilet through the waste water pipe 32 (step S22).

Thereafter, the controller 39 checks whether the operation time T of the timer has reached the preset first set value (step S23), and when it is confirmed that the first set value has been reached, the controller 39 performs the electrolytic cell driver 36. Control to end the driving of the electrolytic cell 20. At the same time, the controller 39 controls the valve driving part 35 so that the fourth valve 28, the fifth valve 30 and the sixth control valve 33 are driven to be turned off (step S24). At this time, the normal water and the alkaline water do not remain in the acidic water storage tank 25 and the alkaline water storage tank 26.

Subsequently, the controller 39 controls the valve driver 35 so that the second valve 22, the third valve 24, and the first valve 18 are driven to be turned on. Alkaline water is to be stored in and the acidic water is stored in the alkaline water reservoir 26 (step S25).

Thereafter, the controller 39 checks whether the water level detection signal inputted from the water level sensor of the acidic water reservoir 25 and the water level sensor of the alkaline water reservoir 26 is a predetermined set value corresponding to the full water level (step S26).

When it is determined in step S26 that the water level detection signal is a predetermined set value, the controller 39 controls the valve driver 35 so that the second valve 22, the third valve 24, and the first valve 18 are controlled. It is made to be closed (OFF) drive (step S27).

Thereafter, the controller 39 checks whether the operation time T of the timer has reached a preset second set value (step S28). This step maintains a predetermined time while the alkaline water is stored in the acidic water reservoir 25 and the acidic water is stored in the alkaline water reservoir 26, so that the scale accumulated in the acidic water reservoir 25 (that is, not removed by the acidic water reservoir) is maintained. The scale) is removed by alkaline water and the scale accumulated in the alkaline water reservoir 26 (that is, the scale not removed by the alkaline water) is given time to remove by the acidic water.

When it is confirmed in step S28 that the second set value is reached, the controller 39 controls the valve driving unit 35 to open the fourth valve 28, the fifth valve 30, and the sixth control valve 33. (ON) to be driven so that the alkaline water of the acidic water reservoir 25 and the acidic water of the alkaline water reservoir 26 are drained to the toilet through the waste water pipe 32 (step S29).

Thereafter, the controller 39 checks whether the detected flow rate input from the second flow rate sensor 34 reaches a predetermined set value (step S30).

When it is confirmed in step S30 that the sensing flow rate reaches a predetermined set value, the controller 39 controls the valve driving unit 35 to control the fourth valve 28, the fifth valve 30, and the sixth control valve ( 33) is driven to close (OFF) (step S31), and the pipe washing mode ends.

As described above, according to the present invention, the electrolyzed acidic and alkaline water can be used as bidet water and / or washing water according to the user's choice, or the acidic and alkaline water can be alternately used as bidet water and / or washing water. In this way, it is possible to effectively use alkaline water having a different cleaning ability as well as acidic water together with acidic water having excellent cleaning ability. In addition, by periodically inverting and applying the power applied to the electrolytic cell electrode, the alkaline water and the alkaline water discharge path are discharged from the alkaline water discharge path, thereby effectively cleaning the acid and alkaline water paths. And alkaline water can be used as bidet water and / or washing water.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. If such changes and modifications fall within the scope of the appended claims, it will be apparent that they belong to the present invention.

1 is a side installation state diagram of the ionized water bidet according to an embodiment of the present invention.

Figure 2 is a perspective view from above of the ionized water bidet according to an embodiment of the present invention.

3 is a view showing a functional block configuration of the ionized water bidet according to an embodiment of the present invention.

4 is a diagram illustrating a control flow of the controller illustrated in FIG. 3.

FIG. 5 is a diagram illustrating a control flow of the controller shown in FIG. 3.

<Explanation of symbols for the main parts of the drawings>

12: raw water supply pipe 13: filter

14: purified water supply pipe 15: the seat

17: rear support 19: first flow sensor

20: electrolyzer 21: acidic water connector

22: second valve 23: alkaline water connection pipe

24: third valve 25: acidic water reservoir

26: alkaline water reservoir 27: acidic water discharge pipe

28: fourth valve 29: alkaline water discharge pipe

30: fifth valve 31: nozzle connector

32: wastewater pipe 34: nozzle

35 valve driving unit 36 electrolytic cell driving unit

37: weight sensor 38: button input / display

39: controller

Claims (5)

An electrolytic cell that receives raw water and generates ionized water of acidic and alkaline water; An acidic water storage tank connected to an acidic water tank of the electrolytic cell through an acidic water connecting pipe and storing ionized water generated in the acidic water tank; An alkaline water storage tank connected to an alkali water tank of the electrolytic cell through an alkaline water connecting pipe and storing ionized water generated in the alkaline water tank; An acid water discharge pipe having one side connected to the acid water reservoir; An alkaline water discharge pipe connected to one side of the alkaline water reservoir; A nozzle connection pipe having one side connected to the other side of the acidic water discharge pipe and the other side of the alkaline water discharge pipe and the other side connected to the nozzle; Solenoid valves installed in the acidic water connection pipe, the alkaline water connection pipe, the acidic water discharge pipe, and the alkaline water discharge pipe, respectively; An electrolytic cell driver for driving the electrolytic cell; A valve driver for driving the solenoid valves; A button input / display section having a plurality of operation buttons and having a plurality of display elements for displaying an operation state; And a controller for controlling driving of the solenoid valves in the bidet mode or the washing mode by the operation button input of the button input / display unit so that any one of the acidic water and the alkaline water is injected as the bidet water or the washing water through the nozzle. Configured by And the controller controls to alternately spray acidic water and alkaline water as the washing water or the bidet water in the bidet mode or the washing mode by the operation button input of the button input / display unit. The method of claim 1, The button input / display section includes a button for selecting either acidic or alkaline water as washing water or bidet water, And the controller controls to spray the ionized water set by a button for setting any one of acidic and alkaline water as washing water or bidet water through the nozzle. delete The method of claim 1, The controller checks a flag that sets whether acidic water or alkaline water is injected in the bidet mode or the washing mode in the bidet mode or the washing mode by the operation button input of the button input / display unit, and the acidic water and the alkaline water are checked. Ionized water bidet, characterized in that the control to spray a different type of ionized water than that injected in the previous bidet mode or cleaning mode. The method of claim 1, A wastewater pipe having one side connected to the middle of the nozzle connecting tube and the other side protruding toward the toilet bowl; Further provided with a solenoid valve installed in the waste water pipe, The controller controls the electrolyzer driving unit in the pipe cleaning mode by the operation button input of the button input / display unit to reversely control the power applied to the electrodes of the electrolyzer to generate alkaline water in the acid tank of the electrolyzer. After the acidic water is generated in the alkaline water tank of the electrolytic cell, the valve driving unit is controlled to discharge the generated alkaline water through the acidic water reservoir and the acidic water discharge pipe, the nozzle connection pipe and the wastewater pipe, and the generated acidic water. Ionized water bidet, characterized in that for driving the solenoid valve to be discharged through the alkaline water reservoir, the alkaline water discharge pipe, the nozzle connection pipe and the waste water pipe.

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