JP7430941B2 - Electrolyzed water generator for toilet and its configuration method - Google Patents

Description

The present invention relates to an electrolyzed water generator for toilets and its construction method. More specifically, the present invention relates to an electrolyzed water generator for toilets and a method of constructing the same. More specifically, when a user's use of the toilet is detected, electrolyte is supplied to the toilet tank and has strong sterilizing and cleaning power through an electrolyzer. Electrolyzed water can be generated quickly, and the electrode polarity of the electrolyzer can be periodically crossed to increase the life span of the electrodes and the efficiency of electrolysis, and the height of the electrolyzer can be freely adjusted. The present invention relates to an electrolyzed water generator for a toilet that can be easily used by being placed in a toilet tank by configuring a stationary structure for generating electrolyzed water, and a method for configuring the same.

In general, a toilet bowl is used for both toileting and urination, including a toilet seat for a person to sit on, a toilet cover rotatably connected to one side of the toilet seat to cover the toilet seat, and a toilet bowl for cleaning the toilet bowl after using the toilet. It consists of a toilet tank that stores water, allowing people to relieve themselves by sitting on the toilet seat, and then closing the toilet cover after urinating.

At this time, the toilet water used to clean the toilet bowl is usually unsterilized tap water, so the toilet tank is home to many invisible bacteria. The components have an environment in which various types of bacteria can easily breed due to excrement and moisture. In particular, various pathogenic bacteria that spread every time a person uses the water from the toilet bowl after using the toilet can seriously contaminate baths and restrooms.

In addition, toilet bowls installed in home baths, restrooms, and toilets in public facilities are used by many people, so they are easily exposed to various pathogenic bacteria, which can lead to dermatitis, gastroenteritis, food poisoning, etc. There is a risk that it may serve as a vector for metastasizing various diseases.

In order to prevent infections caused by such bacteria, toilet bowls must be regularly cleaned and kept clean, and it is extremely important to sterilize the water in toilet bowls, where various types of bacteria can breed. . Furthermore, if the water in the toilet bowl stagnates in one place for a long time, bacteria may grow in the water in the toilet bowl and the water itself may become contaminated. Water changes are also very important for cleanliness.

Currently, in order to effectively prevent bad odors, cleanse, and sterilize the toilet bowl, a soluble solid form of cleaning agent is placed inside the toilet tank, after the cleaning agent is dissolved in water. When the user drains the water from the toilet tank into the toilet bowl, a certain amount of dissolved cleaning fluid is naturally discharged into the toilet bowl, cleaning and sterilizing bacteria and sediment remaining in the toilet bowl. ing.

However, in the method of using the cleaning agent, the amount of cleaning agent diluted in water differs depending on the frequency of use of the toilet bowl, so the amount of cleaning fluid poured into the inside of the toilet bowl is not constant, and If the cleaning agent is not used for a long time, the cleaning agent will be dissolved to a more saturated state than necessary, which will not only shorten the usage period of the cleaning agent, but also cause environmental pollution if the highly concentrated cleaning agent is drained all at once. There is a problem that occurs.
On the other hand, when the toilet bowl is used frequently, there is a problem that the cleaning and sterilization effects of the toilet bowl are poor because the cleaning agent is discharged without being sufficiently dissolved in water.

Further, the cleaning agent is sprayed in a fixed amount through a nozzle or pipe through which the water in the toilet passes at the same time as the water is flushed after using the toilet, and it directly removes the water in the toilet stored in the toilet tank. Since it does not sterilize bacteria but only sterilizes the area that comes into contact with the toilet water while flushing, there is a limit to how perfectly it can clean the toilet bowl water.

In addition, the cleaning agent is synthesized with various chemical substances in order to improve its sterilizing power against bacteria, so if it is exposed to the user's body, it may cause serious burns, inflammation, blindness, etc. They can cause damage, can produce severe odors, and have the inconvenience of having to be replaced at regular intervals, which incurs additional costs.

Therefore, the present invention increases the driving efficiency of the electrolyzer by supplying liquid electrolyte to the toilet tank when the user's use of the toilet is detected, thereby draining the water in the toilet without the user having to perform a separate operation. By using electrolyzed water that can be quickly converted to electrolyzed water and has strong sterilizing and cleaning power, toilet bowls and connecting pipes can be sterilized and cleaned in an environmentally friendly manner without the need for separate cleaning agents. The purpose is to provide an electrolyzed water generator for toilets and a method for configuring the same.

In addition, the present invention can increase the life of the electrodes and the efficiency of electrolysis by periodically crossing the electrode polarities of the electrolyzer, and can freely adjust the height of the electrolyzer to create a variety of sizes. An object of the present invention is to provide an electrolyzed water generator for a toilet, which can be easily installed in a toilet tank, and which can be used by simply installing it in a toilet tank through a stationary structure, and a method for constructing the same. purpose.

Next, the prior art that already exists in the technical field of the present invention will be briefly explained, and then the technical matters that the present invention aims to achieve differentially compared to the above-mentioned prior art will be described.

First, Patent Document 1 relates to an electrolyzed water generator for sterilizing and cleaning toilet bowls, and describes an electrolyzed water generator with strong sterilizing power that is generated by electrolyzing tap water without adding electrolytes to a toilet tank installed in a general household. By flushing water over the inner surface of the toilet bowl, the toilet bowl can be disinfected and cleaned in an easy-to-use manner.In particular, anyone can carry it with them, and it can be easily and easily installed in the toilet tank regardless of time and place. By making it possible to perform electrolysis without the need for preparatory work, electrolyzed water can be generated effectively.Furthermore, the electrolyzed water used as sterilizing cleaning water is flushed into the drain, which also sterilizes the inner surface of the drain. The technical feature is that it combines the convenience and practicality of generating washed and electrolyzed water.

That is, in the prior art, tap water accumulated in the toilet tank is electrolyzed for several tens of seconds to generate electrolyzed water with strong sterilizing power, which is poured onto the inner surface of the toilet bowl, and the electrolyzed water that is being flushed is brought into contact with the toilet bowl. The present invention discloses an electrolyzed water generator for sterilizing and cleaning toilet bowls that can eliminate 99.98% or more of bacteria such as cholera bacteria.

The above-mentioned prior art is partially similar to the present invention in that electrolyzed water generated by electrolyzing tap water accumulated in the toilet tank is poured onto the inner surface of the toilet bowl to sterilize it. However, the present invention supplies liquid electrolyte to the toilet tank when the user's use of the toilet bowl is detected, thereby making it possible to quickly convert the water in the toilet bowl into electrolyzed water without any separate operation by the user. The electrode polarity of the electrolyzer is periodically crossed to increase the electrode life and electrolysis efficiency, and the height of the electrolyzer can be freely adjusted to easily install it in toilet tanks of various sizes. Since the present invention can be easily installed in a toilet tank through a stationary structure, there is a clear difference in structure between the prior art and the present invention.

Further, Patent Document 2 relates to a method and system for providing a clean toilet, which includes a plasma (p1asma) generating section by corona discharge and an electrostatic precipitator in order to purify the air in the toilet and remove the odor of feces. The air purification device consists of an air purification dust collection device, washing water and a sprayer, and strong oxidants are also added to the washing water in order to decompose and remove residual feces stuck inside the toilet bowl. The technical feature is that the electrolyzed water generator is attached to each toilet bowl.

In other words, the above-mentioned prior art eliminates not only the air inside the toilet but also the odor of feces, as well as fundamentally decomposing and removing the residual fecal matter adhering to the toilet bowl, thereby creating a clean toilet. Discloses a method and air purification system that can preserve the environment.

The prior art is partially similar to the present invention in that the electrolyzed water generating device is attached to each toilet bowl, but the present invention is capable of supplying liquid to the toilet tank when a user's use of the toilet bowl is detected. By supplying electrolyte, toilet water can be quickly converted to electrolyzed water without any additional operation by the user, and the electrode polarity of the electrolyzer can be periodically crossed to shorten the life of the electrodes and reduce the electricity consumption. In order to increase the efficiency of decomposition, the height of the electrolyzer can be freely adjusted and installed in toilet tanks of various sizes, and it can be easily installed in toilet tanks through a stationary structure. Therefore, the difference in structure between the prior art and the present invention is obvious.

Korean Publication Patent No. 2017-0083207 (2017.07.18.) Korean Patent Publication No. 2001-0007902 (2001.02.05.)

The present invention was devised in order to solve the above-mentioned problems, and by installing an electrolyzer inside the toilet tank and converting the water in the toilet bowl into electrolyzed water, separate cleaning is possible. The purpose of the present invention is to provide an electrolyzed water generator for a toilet that can environmentally friendly disinfect and clean the toilet bowl and connecting pipes when water from the toilet bowl is used without the need to use a chemical, and a method for configuring the same. .

In addition, the present invention is equipped with a human body sensor on the main body installed outside the toilet tank, so that the user's use of the toilet is automatically sensed and the water in the toilet is flushed without the user having to perform any separate operations. Another object of the present invention is to provide an electrolyzed water generator for toilets that can convert into electrolyzed water, and a method of constructing the same.

In addition, the present invention improves the driving efficiency of the electrolyzer by supplying liquid electrolyte to the toilet tank when a user's use of the toilet is detected. Another object of the present invention is to provide an electrolyzed water generator for toilets that can quickly convert water into water, and a method for constructing the same.

In addition, the present invention supplies tap water and purified water by supplying a liquid electrolyte containing salt, citric acid, potassium, dilute hydrochloric acid, or a combination thereof to the toilet tank when the user's use of the toilet is detected. Another object of the present invention is to provide an electrolyzed water generator for a toilet that can easily generate electrolyzed water regardless of the type of water used as water for a toilet bowl, such as underground water, and a method for configuring the same.

In addition, the present invention can generate electrolyzed water for toilets by periodically crossing the polarity of the electrodes of the electrolyzer installed inside the toilet tank, thereby increasing the lifespan of the electrodes and increasing the efficiency of electrolysis. Another object of the present invention is to provide a container and a method of constructing the same.

In addition, the present invention allows the height of the electrolyzer installed inside the toilet tank to be freely adjusted, so that it can be easily installed in toilet tanks having various sizes, and electrolysis can be performed easily. Another object of the present invention is to provide an efficient electrolyzed water generator for toilets and a method for configuring the same.

Further, the present invention provides an electrolyzed water generator for a toilet that can be easily used by being placed in a toilet tank by configuring a structure for generating electrolyzed water as a stationary type, and a method for configuring the same. For another purpose.

In addition, the present invention allows users to use IoT technology to control the operating status of an electrolyzed water generator for toilets through smart home network control using user terminals such as smartphones, tablets, and laptop computers, and smart home devices such as AI speakers. An electrolyzed water generator for toilets that can improve user convenience by being able to check the operating conditions, change operating settings, automatically control the flush, contact relief agencies in emergency situations, etc., and how to configure it Another purpose is to provide.

An electrolyzed water generator for a toilet according to an embodiment of the present invention includes a main body, an electrolyzer that performs electrolysis and converts toilet water into electrolyzed water when a user uses the toilet, the main body and the electrolyzer. a stationary stand connected to the machine, and by supplying liquid electrolyte from the main body to the electrolyzer via the stationary stand, the water in the toilet bowl is electrolyzed by the electrolyte in the electrolyzer. It is characterized by promoting the conversion to water and increasing the effectiveness of sterilization and cleaning.

The main body also includes an upper body, an electrolyte water tank containing the electrolyte, a human body sensing unit that detects whether a user has used the toilet, and a power source for supplying the electrolyte to the electrolyzer. Based on the provided electrolyte supply motor and the result sensed by the human body sensing unit, if the user's use of the toilet is detected, the power supply to the electrolyzer is controlled so that electrolysis is performed; The present invention is characterized in that it includes a control module that controls driving of the electrolyte supply motor to supply the electrolyte to the electrolyzer through an electrolyte supply hose to promote electrolysis.
Further, the electrolyte is characterized in that it contains salt, citric acid, potassium, hydrochloric acid, or a combination thereof, and is stored in a liquid state in the electrolyte water tank.

The electrolyte water tank is a member into which the electrolyte and water are introduced, and includes an opening into which the electrolyte supply hose is inserted when coupled to the upper body, and at least one around the opening. and a magnet provided at a position corresponding to a magnet provided in the upper body, and the magnet is attached to or detached from the magnet provided in the upper body to be coupled to or separated from the upper body. It is characterized by being

The control module also allows a user to check the operating status of the toilet electrolyzed water generator and change the operating settings through a user terminal including a smartphone, tablet, and laptop computer, or a smart home device including an AI speaker. The method further includes controlling an automatic sink, contacting a relief agency in an emergency situation, or a combination thereof.

In addition, the electrolyzed water generator for toilets has the electrolyzer coupled to one side, and is raised and lowered in an inner space of a support base coupled to one side of the stationary base to raise and lower the height of the electrolyzer. The apparatus further includes a height adjustment part for adjusting the height, and the height adjustment part adjusts the height by moving up and down in the inner space of the support base using a slide rail formed on the surface.

Further, the electrolyzer is composed of at least two electrodes, and the polarity of the electrodes is such that the anode and cathode cross each other at a preset period, and the electrolytic performance deteriorates due to the reduction products generated during the electrolysis process. It is characterized by preventing

Further, the stationary table is a moving path for supplying electric wires for supplying power from a control module provided in the main body to the electrolyzer, and for supplying the electrolyte from the main body to the electrolyzer. An internal space is formed in which an electrolyte supply hose is housed, and the electric wire and the electrolyte supply hose are connected to a support base coupled to one side of the stationary base, and a height for raising and lowering the inner space of the support base. It is characterized in that it is connected to the electrolyzer via the inner space of the adjustment section in sequence.

The electrolyzed water generator for a toilet also includes a drain valve and a sink control motor that winds up a connecting ring connected to the drain valve and drains water from the toilet bowl using power supplied through the control of the control module. , wherein the control module checks the usage time of the toilet to see if it is not used for more than a preset reference time, or if a flushing command for the toilet is received from the user terminal or the smart home device. If so, it is characterized in that power for automatic sinking is controlled to be supplied to the sink control motor.

A method for configuring an electrolyzed water generator for a toilet according to an embodiment of the present invention includes the steps of forming a main body, forming a stationary stand to be placed on a toilet tank, and electrolysis to convert toilet water into electrolyzed water. an electrolyte water tank containing an electrolyte, a human body sensing unit that detects the user's use of the toilet, a control module that controls the operation of the electrolyzer when the user's use of the toilet is detected, and a control module that controls the operation of the electrolyzer when the user uses the toilet; providing the main body with an electrolyte supply motor and an electrolyte supply hose for supplying to the electrolyzer; coupling the main body to one side of the stationary table; and connecting the electrolyzer to one side of the stationary table. an electric wire for supplying power from the control module to the electrolyzer through the internal space of the stationary stand, and an electrolyte supply hose for supplying electrolyte from the electrolyte water tank to the electrolyzer. and the step of connecting the electrolyzer to the electrolyzer.

Further, the method for configuring the electrolyzed water generator for a toilet includes the steps of: forming a support base coupled to one side of the stationary base; forming a height adjustment section coupled to a lower part of the support base; coupling a support base to one side of the stationary base; coupling the height adjustment unit to a lower part of the support base so that the inner space of the support base can be raised and lowered; further comprising the step of coupling the electrolyzer to one side, the electric wire and the electrolyte supply hose being connected to the electrolyzer through each internal space of the stationary stand, the support stand, and the height adjustment part. It is characterized by

The step of forming the support base further includes forming an inner space provided with a guide groove so that the height adjustment part can be inserted and moved up and down, and forming the height adjustment part. The step further includes forming a slide rail on both surfaces of which the guide groove is coupled so as to be inserted into the inner space of the support base and move up and down to adjust the vertical height of the electrolyzer. It is characterized by containing.

A method for driving an electrolyzed water generator for a toilet according to an embodiment of the present invention is to control the power supply to an electrolyzer through a control module and at the same time control the electrolyte supply motor when the toilet is used. controlling the drive to supply the electrolyte provided in the main body to the electrolyzer via the electrolyte supply hose; and performing electrolysis via the electrolyzer in the toilet electrolyzed water generator. converting the toilet water accumulated in the toilet tank into electrolyzed water and promoting electrolysis by the electrolyte supplied through the electrolyte supply hose, the electrolyzer The height can be adjusted inside the toilet tank by being raised and lowered by a height adjustment unit that raises and lowers the inner space of a support base that is connected to one side of a stationary stand that is placed on the tank, and the electric The polarity of at least two electrodes provided in the decomposer is set at a predetermined period so that the anode and cathode cross each other, thereby preventing deterioration of electrolysis performance due to reduction products generated during the electrolysis process. It is characterized by

According to the electrolyzed water generator for toilets of the present invention and its construction method described above, when the user's use of the toilet is detected, liquid electrolyte is supplied to the toilet tank to increase the driving efficiency of the electrolyzer. The water in the toilet bowl can be quickly converted to electrolyzed water without any additional operation by the user. By using electrolyzed water, which has strong sterilizing and cleaning power, the toilet bowl and The effect is that the connecting pipes can be sterilized and cleaned in an environment-friendly manner.

In addition, the present invention can increase the life of the electrodes and the efficiency of electrolysis by periodically crossing the electrode polarities of the electrolyzer, and the height of the electrolyzer can be freely adjusted. This has the advantage that the structure for generating electrolyzed water can be constructed as a stationary type and can be easily placed in a toilet tank for use.

Furthermore, the present invention maximizes user-friendliness by allowing the user to check the operating status of the electrolyzed water generator for toilets and change the operating settings through a user terminal such as a smartphone owned by the user. It has the effect of being able to.

1 is a diagram showing an exploded perspective view of an electrolyzed water generator for a toilet according to an embodiment of the present invention. FIG. 1 is a perspective view showing an assembled electrolyzed water generator for a toilet according to an embodiment of the present invention; FIG. FIG. 1 is a left side view of an electrolyzed water generator for toilets according to an embodiment of the present invention. FIG. 1 is a right side view of an electrolyzed water generator for toilets according to an embodiment of the present invention. FIG. 2 is a diagram for explaining the coupling relationship between the main body of the toilet electrolyzed water generator and the electrolyte water tank according to an embodiment of the present invention. FIG. 1 is a diagram showing a toilet electrolyzed water generator according to an embodiment of the present invention installed in a toilet tank. FIG. 3 is a diagram for explaining height adjustment of an electrolyzer of an electrolyzed water generator for a toilet according to an embodiment of the present invention. FIG. 2 is a diagram for explaining the usage state of the toilet electrolyzed water generator according to an embodiment of the present invention. FIG. 3 is a diagram for explaining automatic flush control in an electrolyzed water generator for toilets according to an embodiment of the present invention. FIG. 2 is a diagram illustrating how to check the operating state, change the operating settings, and control the electrolyzed water generator for toilets through a user terminal or smart home device. 1 is a flowchart illustrating in detail a method of configuring an electrolyzed water generator for a toilet according to an embodiment of the present invention. 1 is a flowchart illustrating in detail the operation process of an electrolyzed water generator for toilets according to an embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the electrolyzed water generator for toilets of the present invention and its construction method will be described in detail below with reference to the accompanying drawings. In each drawing, the same members are given the same reference numerals. Furthermore, specific structural and functional descriptions of embodiments of the present invention are merely illustrative for the purpose of describing embodiments of the present invention, and unless otherwise defined, technical or scientific All terms used herein, including terms used herein, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. Terms as defined in a commonly used dictionary shall be construed to have meanings consistent with their contextual meanings in the relevant art, and unless expressly defined herein, ideal, It is desirable that it not be interpreted in an overly formal sense.

FIG. 1 is an exploded perspective view of an electrolyzed water generator for a toilet according to an embodiment of the present invention, and FIG. 2 is an assembled perspective view of an electrolyzed water generator for a toilet according to an embodiment of the present invention. 3 and 4 are diagrams showing a left side view and a right side view, respectively, of an electrolyzed water generator for a toilet according to an embodiment of the present invention.

The toilet electrolyzed water generator 100 according to an embodiment of the present invention detects the user's use of the toilet bowl using the human body sensing unit 113, and as a result of the sensing, when the user uses the toilet bowl, the toilet water generator 100 that has accumulated in the toilet tank detects that the user uses the toilet bowl. is converted into electrolyzed water by the electrolyzer 150, and when performing electrolysis, the electrolyte contained in the electrolyte water tank 112 is supplied to the electrolyzer 150 to increase the efficiency of electrolysis, thereby achieving strong sterilizing power and Promptly generates electrolyzed water with cleaning power.

That is, since the toilet electrolyzed water generator 100 includes the human body sensing section 113 in the main body 110 provided outside the toilet tank, the user can use the toilet without any separate operation. The water in the toilet bowl can be automatically detected and electrolyzed by the electrolyzer 150 to convert it into electrolyzed water.

In addition, when the toilet electrolyzed water generator 100 senses that a user is using the toilet, it starts electrolysis and at the same time adds an electrolyte containing salt, citric acid, hydrochloric acid, potassium, or a combination thereof to the toilet water. Regardless of the type of water used for toilet bowl water, such as tap water, purified water, or ground water, by increasing the flow of electricity and promoting electrolysis, the water in the toilet bowl can be quickly converted to electrolyzed water. can be converted.

As a result, the electrolyzed water generator 100 for toilets can environmentally sterilize and clean the toilet bowl and connecting pipes when the water from the toilet bowl is used, without requiring the user to use a separate cleaning agent. become.

In addition, the toilet electrolyzed water generator 100 periodically crosses the polarity of the electrodes of the electrolyzer 150 installed inside the toilet tank, thereby increasing the lifespan of the electrodes and increasing the efficiency of electrolysis. be able to.

That is, by periodically crossing the polarities of at least two electrodes included in the electrolyzer 150 according to a preset period, reduction such as white powder generated by cations attached to the cathode during the electrolysis process is reduced. To prevent deterioration of electrolysis performance due to substances.

Further, the electrolyzed water generator 100 for toilets can be easily installed in toilet tanks having various sizes by making the height of the electrolyzer 150 freely adjustable by the height adjustment unit 140. can.

In addition, the electrolyzed water generator 100 for toilets can be easily placed on the upper side of the toilet tank by configuring the structure for generating electrolyzed water as a stationary type (that is, an inverted U-shaped stationary stand 120). It can be used as That is, with the stationary stand 120 as a reference, the main body 110 is provided on the outside of the toilet tank, and the support stand 130, the height adjustment section 140, and the electrolyzer 150 are provided on the inside of the toilet tank. (See Figure 6). At this time, the shape of the stationary stand 120 may be an inverted U-shape, a U-shape, or another fixed stationary stand, and may be formed in various shapes depending on the form of the toilet tank. Make it clear what you can do.

Further, the toilet electrolyzed water generator 100 can be operated by being supplied with a regular power from the outside through the power supply terminal 119 of FIG. 4, or can be operated by using its own battery.

In addition, the electrolyzed water generator 100 for the toilet can be used for the toilet through smart home network control using a user terminal such as a smartphone, tablet, or laptop owned by the user or a smart home device such as an AI speaker. It can be configured to check the operating state of the electrolyzed water generator 100, change the operating settings, automatically control the flow, notify the rescue period in an emergency situation, etc. (see FIG. 10).
Next, the detailed configuration of the toilet electrolyzed water generator 100 will be explained.

As shown in FIGS. 1 to 4, the toilet electrolyzed water generator 100 according to an embodiment of the present invention includes a main body 110, a stationary stand 120, a support stand 130, a height adjustment part 140, an electrolyzer 150, etc. It consists of:

Although not shown, the toilet electrolyzed water generator 100 also includes an audio output unit that converts and outputs the power status and usage status of the toilet electrolyzed water generator 100 into audio, and stores various operating programs. The toilet electrolyzed water generator 100 may further include a memory, a communication unit for transmitting and receiving data for checking the operating state of the toilet electrolyzed water generator 100 or changing operating settings on the remote user terminal 300, and the like.

The main body 110 is installed on the outside of the toilet tank and is coupled to one side of the stand 120. Here, the main body 110 is described as being installed on one side of the toilet tank, but it should be made clear that it can also be installed on the lid of the toilet tank or around the toilet bowl.

As shown in FIG. 1, the main body 110 is roughly divided into an upper body 111 and an electrolyte water tank 112. The upper body 111 includes a human body sensor 113, an electrolyte supply motor 114, an electrolyte supply hose 115, and a control module. 116, a button section 117, a display section 118, and a power supply terminal 119.

At least one magnet 111a is provided on the lower surface of the upper body 111 and can be combined with or separated from the electrolyte water tank 112. That is, by attaching and detaching the magnet 112b provided on the top surface of the electrolyte tank 112, it can be combined with or separated from the electrolyte tank 112 (see FIG. 5).
The electrolyte water tank 112 is connected to or separated from the lower part of the upper body 111 by a magnetic detachment type, and contains an electrolyte therein.
At this time, as shown in FIG. 1, the electrolyte water tank 112 includes an opening 112a, at least one magnet 112b, and a lid 112c.

The opening 112a is formed on the top surface of the electrolyte water tank 112, into which the electrolyte and water are introduced, and is where the electrolyte supply hose 115 is inserted when the upper body 111 is coupled to the opening 112a.

At least one magnet 112b is provided at a position corresponding to the magnet 111a provided on the lower surface of the upper body 111 around the opening 112a, and is attached to and detached from the magnet 111a provided on the upper body 111. , may be coupled to or separated from the upper body 111 (see FIG. 6).

The lid 112c is made of silicone material and serves to tightly close the opening 112a. For example, after the user fills the electrolyte water tank 112 with electrolyte and water (approximately 250 ml), during the time (for example, 5 minutes) for dissolving the electrolyte in water, the electrolyte and water flow outside through the opening 112a. The lid 112c should be closed to prevent water from flowing or being discharged.

The electrolyte is composed of solid powder containing salt, citric acid, potassium, hydrochloric acid, or a combination thereof, and when the toilet electrolyzed water generator 100 is used, it is added to the electrolyte water tank 112 and then added to the water. It is used in liquid form by dissolving it. That is, after the user removes the electrolyte tank 112 from the upper body 111, fills the electrolyte tank 112 with a predetermined amount of electrolyte, fills it with tap water or purified water, and dissolves it for a predetermined period of time. They are used in combination.

The human body sensing unit 113 may include a PIR sensor (PIR) that detects human movement by emitting infrared rays, and as shown in FIG. The upper body 111 detects whether or not the person uses the toilet, and outputs the result of the detection to a control module 116 installed inside the upper body 111.

At this time, the human body sensing section 113 may be configured independently without being included in the upper body 111 and installed at a predetermined position inside the toilet. In this case, the human body sensing section 113 may include a communication module. The sensing results should be transmitted to the control module 116 installed in the upper body 111.
The electrolyte supply motor 114 provides power for supplying the electrolyte contained in the electrolyte water tank 112 to the electrolyzer 150 .

The electrolyte supply hose 115 is a moving path for supplying electrolyte from the electrolyte water tank 112 to the electrolyzer 150 via the upper body 111, and is driven by the electrolyte supply motor 114 to supply electrolyte to the electrolyte water tank 112. The electrolyte contained therein is supplied to the electrolyzer 150.
The control module 116 is a member that totally controls the operation of the toilet electrolyzed water generator 100, and is installed inside the upper body 111.

Furthermore, the control module 116 controls to supply power to the electrolyzer 150 when the user's use of the toilet is detected, based on the result sensed by the human body sensing unit 113, so that electrolysis is performed. By controlling the drive of the electrolyte supply motor 114, the electrolyte contained in the electrolyte water tank 112 is supplied to the electrolyzer 150 via the electrolyte supply hose 115 to perform electrolysis. prompt.

At this time, it is preferable that the control module 116 controls the electrolyte to be supplied in a predetermined amount when supplying the electrolyte to the electrolyzer 150. It is desirable to check the amount of electrolyte from time to time with a sensor (not shown), and if it is insufficient, display this or output it by voice so that the user can replenish the electrolyte in a timely manner. .

Further, the control module 116 controls power on/off of the toilet electrolyzed water generator 100 by the user's operation of the button part 117, and determines whether the toilet electrolyzed water generator 100 is in an operating state. The information is controlled to be displayed through the display unit 118.

Meanwhile, the control module 116 allows the user to check the operating status of the toilet electrolyzed water generator 100 and change the operating settings through a user terminal including a smartphone, a tablet, and a laptop computer, or a smart home device including an AI speaker. , automatic flow control, notification of a relief period in an emergency situation, or a combination thereof. That is, the control module 116 allows the user to control the electrolyzer using IoT technology and smart home network control through an application program installed on a user terminal or an application program installed on a smart home device such as an AI speaker. Check the operating status of the toilet electrolyzed water generator 100, including the operating time of 150, electrolyte supply time, and electrolyte supply amount, and control such as changing operation settings, automatic flush control, and contacting a rescue period in an emergency situation. support.

The button part 117 is provided on the front part of the upper body 111, and is a member for turning on and off the power of the toilet electrolyzed water generator 100. At this time, the button section 117 can be used not only to turn on and off the power of the toilet electrolyzed water generator 100, but also to input data related to the operation time, electrolyte supply time, and supply amount of the electrolyzer 150. can be configured to perform.

The display section 118 is composed of 1ED, 1CD, or a combination thereof, and displays the on/off state of the power supply of the toilet electrolyzed water generator 100. At this time, the display unit 118 may be configured to additionally display the current driving state and setting state of the electrolyzer 150.
The power supply terminal 119 is provided on the side surface of the upper body 111, as shown in FIG. 4, and is a member that supplies operating power to the toilet electrolyzed water generator 100.

Meanwhile, the upper body 111 and the electrolyte water tank 112 have been described as being coupled or separated using a magnet, but the upper body 111 and the electrolyte water tank may be connected to each other by weakening the magnetic force or by external force from the user. 112 may be separated from each other.

In order to prevent this, in the present invention, a fixing member (not shown) is additionally provided at the location where the upper body 111 and the electrolyte water tank 112 are connected, so that the upper body 111 and the electrolyte water tank 112 are difficult to separate due to weakening of magnetic force or external force. It can be configured as follows.

For example, a clip may be formed on the outside of the upper body 111 and the electrolyte water tank 112, and the clip may be fastened when the upper body 111 and the electrolyte water tank 112 are connected, thereby fixing the upper body 111 and the electrolyte water tank 112 to each other by attaching and detaching a magnet; Grooves and protrusions are formed inside the joint portion of the upper body 111 and the electrolyte water tank 112, and the grooves and the protrusions are engaged with each other and fixed when the upper body 111 and the electrolyte water tank 112 are connected. It is possible to fix the magnet to the water tank 112 by attaching and detaching the magnet.

The stand 120 is formed in an inverted U shape to connect the main body 110 and the electrolyzer 150, and is placed on the top and side of the toilet tank. That is, the stationary stand 120 connects the main body 110 located outside the toilet tank, the support stand 130, the height adjustment unit 140, and the electrolyzer 150 located inside the toilet tank. It is something to do.

The stationary stand 120 also includes an electric wire (not shown) for supplying power from a control module 116 installed inside the main body 110 to the electrolyzer 150, and a wire (not shown) for connecting the upper body 111 from the electrolyte water tank 112. An internal space is formed for accommodating an electrolyte supply hose 115 for supplying electrolyte to the electrolyzer 150 through the electrolyte. At this time, the electric wire and electrolyte supply hose 115 sequentially connect the support base 130 coupled to one side of the stationary base 120 and the inner space of the height adjustment unit 140 that moves up and down the inner space of the support base 130. It is connected to the electrolyzer 150 via.

Meanwhile, the electrolyte may be supplied to the electrolyzer 150 through pipes (not shown) embedded in the stationary table 120, the support table 130, and the height adjustment part 140, respectively, and electric wires may also be supplied to the electrolyte. It can be connected to the electrolyzer 150 through the pipe.

The support stand 130 has an inner space (not shown) with an open lower part, the stationary stand 120 is coupled to one side of the upper part, and the inner space has an open space (not shown). The height adjustment part 140 is coupled thereto.

The height adjusting unit 140 has the electrolyzer 150 coupled to one side of its lower part and moves up and down through the inner space of the support base 130 coupled to one side of the stationary base 120 to adjust the height of the electrolyzer 150. The function is to adjust the vertical height of the (see Figure 7).

At this time, the height adjustment unit 140 adjusts the height of the electrolyzer 150 by moving up and down the inner space of the support base through a slide rail 141 formed on the surface. That is, since a guide groove (not shown) is provided in the inner space of the support base 130 so that the height adjustment part 140 can be inserted and moved up and down, a slide rail coupled to the guide groove is provided. 141 is formed on the surface, so that the height adjustment part 140 can easily adjust the height of the electrolyzer 150 while moving up and down in the inner space of the support base 130.

The electrolyzer 150 is connected to one side of the lower part of the height adjustment part 140 and is installed inside the toilet tank, and performs electrolysis to convert the water in the toilet bowl into electrolyzed water by sensing that the user is using the toilet bowl. Performs the function of converting.

That is, the electrolyzer 150 is supplied with power from the control module 116 and performs electrolysis based on the detection of the user's use of the toilet by the human body sensing unit 113, thereby converting the water in the toilet into electrolyzed water. It is to be.

Further, the electrolyzer 150 is supplied with the electrolyte contained in the electrolyte tank 112 through the electrolyte supply hose 115 to promote electrolysis, thereby quickly converting toilet water into electrolyzed water. (See Figure 8).

That is, in the process of electrolyzing toilet water by the electrolyzer 150, the electrolyte is quickly separated into cations and anions close to 100%, so that the current flows well. When the electrolyzer 150 operates, the electrolyte can increase the efficiency of electrolysis.

At this time, the electrolyzer 150 is composed of at least two electrodes, and the polarity of the electrodes is determined by crossing the anode and the cathode at a predetermined period, so that the reduced products generated during the electrolysis process are transferred to the cathode. To prevent the electrolysis performance from deteriorating due to sticking together.
In addition, it is preferable that the electrolyzer 150 be installed close to the bottom surface of the toilet tank so that water in the toilet bowl can be easily electrolyzed.

FIG. 5 is a diagram for explaining the coupling relationship between the main body of the toilet electrolyzed water generator and the electrolyte water tank according to an embodiment of the present invention.
As shown in FIG. 5, the main body 110 is used by combining the upper body 111 and the electrolyte tank 112.
For example, when a user wants to make a liquid electrolyte by putting a solid electrolyte and water into the electrolyte tank 112, the user may hold the electrolyte tank 112 and apply an external force to the electrolyte installed on the lower surface of the upper body 111. The upper body 111 and the electrolyte tank 112 are separated by releasing the magnetic force between the magnet 111a and the magnet 112b provided on the upper surface of the electrolyte tank 112 formed at a corresponding position.

Further, after filling the electrolyte tank 112 with a solid electrolyte and water to create a liquid electrolyte, the user holds the electrolyte tank 112 and moves the magnet 112b provided on the top surface of the electrolyte tank 112 to the The upper body 111 and the electrolyte water tank 112 are connected by matching the magnets 111a provided on the lower surface of the upper body 111.

At this time, the upper body 111 and the electrolyte tank 112 may be separated due to the weakening of the magnetic force or the user's external force. Therefore, in the present invention, a fixing member ( (not shown) may be additionally configured.

FIG. 6 is a diagram showing a toilet electrolyzed water generator according to an embodiment of the present invention installed in a toilet tank.
As shown in FIG. 6, in the toilet electrolyzed water generator 100 of the present invention, the main body 110 is located outside the toilet tank 200 with the stationary stand 120 formed in an inverted U shape as the center. The stationary stand 120, the support stand 130, the height adjustment part 140, and the electrolyzer 150 are located inside the toilet tank 200.

At this time, it is preferable that the height adjustment part 140 is installed while adjusting the height so that it can be installed on the bottom surface of the toilet tank 200. This is to maximize the use of the electrolyte since it sinks to the bottom of the toilet tank 200.

FIG. 7 is a diagram illustrating height adjustment of an electrolyzer of an electrolyzed water generator for a toilet according to an embodiment of the present invention.
As shown in FIG. 7, the height adjustment unit 140 can adjust the vertical height of the electrolyzer 150 by moving up and down the inner space of the support table 130. As shown in FIG.
For example, if the toilet tank 200 is not deep, so that the electrolyzer 150 can be located on the inner lower surface of the toilet tank 200, the height of the toilet tank 200 may be lowered, as shown in FIG. The length adjusting part 140 can be installed while being contracted.

However, if the toilet tank 200 is deep and the electrolyzer 150 cannot be located on the inner lower surface of the toilet tank 200 but is located in the middle or above, as shown in FIG. 7(b). As such, the height adjustment unit 140 can be installed by being extended from the support base 130.

At this time, the height adjustment part 140 is easily raised and lowered by engaging the slide rail 141 formed on the surface with a guide groove (not shown) formed in the inner space of the support base 130. be able to.

FIG. 8 is a diagram for explaining the usage state of the toilet electrolyzed water generator according to an embodiment of the present invention.
As shown in FIG. 8, the electrolyzer 150 performs electrolysis using power supplied from the control module 116 of the main body 110 to convert water stored in the toilet tank 200 into electrolyzed water.

At this time, the electrolyzer 150 is supplied with the electrolyte contained in the electrolyte tank 112 to promote electrolysis, thereby quickly shortening the time required to convert toilet water into electrolyzed water. can. That is, the electrolyte makes it easier for current to flow, and as a result, the water in the toilet bowl is quickly separated into cations and anions through electrolysis performed by the electrolyzer 150, and electrolyzed water is quickly generated. This is something that can be done.

Meanwhile, during the electrolysis process, reduced substances adhere to the cathode of each electrode constituting the electrolyzer 150, which may significantly reduce electrolysis performance. In order to prevent this, the present invention periodically crosses the polarities of at least two electrodes included in the electrolyzer 150 to prevent the electrolysis performance from deteriorating.

FIG. 9 is a diagram for explaining automatic flush control in the toilet electrolyzed water generator according to an embodiment of the present invention.
As shown in FIG. 9, the toilet electrolyzed water generator 100 additionally provides an automatic flushing function.
That is, if the water in the toilet bowl is not used for a long time, the water that has accumulated in the toilet bowl will cause limescale and mold to form, making it difficult to maintain the toilet bowl clean. Accordingly, in case the toilet bowl is not used for a long time, the toilet electrolyzed water generator 100 checks the passage of a predetermined time and automatically flushes the toilet bowl, or automatically flushes the toilet bowl or activates the user terminal or smart home device. It performs the function of automatically flushing the toilet under the control of the user.

To this end, the control module 116 checks the usage time of the toilet, and if it is not used for more than a preset reference time, or if a command to flush the toilet is received from a user terminal or smart home device, Power for automatic flow is supplied to the flow control motor 160. At this time, the power line connected to the sink control motor 160 is branched from the power line connecting the control module 116 and the electrolyzer 150.

The sink control motor 160 is driven by the power supplied under the control of the control module 116 and gradually winds up a connecting ring connected to the drain plug 170, thereby opening the drain plug 170 and draining the drain plug 170. Toilet water accumulated in a toilet tank 200 is discharged into the toilet bowl.

Further, when the water accumulated in the toilet tank 200 is drained, the drain plug 170 is closed and the connection ring wound by the sink control motor 160 returns to its original position. This allows the toilet bowl to be kept clean.

FIG. 10 is a diagram for explaining how to check the operating state, change the operating settings, and control the toilet electrolyzed water generator through a user terminal or smart home device.
As shown in FIG. 10(a), the toilet electrolyzed water generator 100 is connected to the toilet via a user terminal 300 such as a smartphone, a tablet PC, or a notebook computer owned by the user. You can check the operating status and change or control the operating settings.

For example, the toilet electrolyzed water generator 100 may establish a communication connection with the user terminal 300 through a network including wireless communication or wired communication such as WiFi, 1TE, 5G, etc. 300, the operation of the toilet electrolyzed water generator 100 installed in the toilet tank 200 can be remotely checked and controlled using IoT technology.

In addition to checking the operating status of the toilet electrolyzed water generator 100, changing the operating settings, and controlling the electrolyzed water generator 100 using the user terminal 300, the user can also use the AI speaker, etc. as shown in FIG. 10(b). Through smart home network control using smart home devices, the operational status of the toilet electrolyzed water generator 100 can be checked, and operational settings can be changed and controlled.

For example, when a user uses an AI speaker to execute a voice command such as ``Clean the toilet bowl,'' the toilet electrolyzed water generator 100 will automatically flush the toilet bowl, or ``An emergency situation has occurred, so call the fire department.'' By executing a voice command such as "Please report it to me," you can perform controls such as contacting a registered fire department or police station.

Next, an embodiment of a method for configuring the electrolyzed water generator for toilets according to the present invention configured as described above will be described in detail with reference to FIG. 11. At this time, the procedure of each step according to the configuration method of the present invention may be changed depending on the usage environment or a person skilled in the art.

FIG. 11 is a flowchart detailing a method of configuring an electrolyzed water generator for toilets according to an embodiment of the present invention.
First, in order to construct the toilet electrolyzed water generator 100 of the present invention, after performing the step of forming the main body 110 including the upper body 111 and the electrolyte water tank 112 (S101), one side of the upper part of the toilet tank 200 is formed. A step of forming a stationary stand 120 to be placed is performed (S102).

At this time, when the electrolyte water tank 112 is formed in step S101, the electrolyte and water are introduced into the opening 112a into which the electrolyte supply hose 115 is inserted when it is combined with the upper body 111. is formed on the top thereof, and at least one magnet 112b is further provided around the opening 112a. The magnet 112b is configured to be coupled to the magnet 111a provided on the lower surface of the upper body 111 when the electrolyte water tank 112 is coupled to the lower part of the upper body 111.

Next, a step of forming a support base 130 coupled to one side of the stationary base 120 is performed (S103), and a step of forming a height adjustment part 140 coupled to a lower part of the support base 130 is performed (S103). S104), forming an electrolyzer 150 including at least two electrodes for converting toilet water in the toilet tank 200 into electrolyzed water (S105).

At this time, when forming the support base 130 in step S103, an inner space portion having a guide groove (not shown) is formed so that the height adjustment portion 140 can be inserted and moved up and down. Must be. In addition, when forming the height adjustment part 140 in step S104, the height adjustment part 140 is inserted into the inner space of the support base 120 and moves up and down to adjust the vertical height of the electrolyzer 150. Slide rails 141 to which the guide grooves are connected must be formed on both sides.

Thereafter, a human body sensing unit 113 detects whether the user has used the toilet, an electrolyte supply motor 114 provides power to supply electrolyte to the electrolyzer 150 based on the control of a control module 116, and the electrolyte supply motor 114 an electrolyte supply hose 115 that is a moving path for supplying the electrolyte to the electrolyzer 150, a control module 116 that controls the driving of the electrolyzer 150 based on the detection of the user's use of the toilet by the human body sensing section 113, and the toilet. A button part 117 for turning on and off the power of the electrolyzed water generator 100 for toilets, a display part 118 for displaying the on/off state of the power of the electrolyzed water generator 100 for toilets, used in the electrolyzed water generator 100 for toilets. A step of installing a power supply terminal 119 for supplying operating power to the upper body 111 of the main body 110 formed in step S101 is performed (S106).

After coupling the electrolyte water tank 112 to the lower part of the upper body 111 of the main body 110 configured in step S106, a step of coupling the main body 110 to one side of the stand 120 formed in step S012 is performed. S107).

Next, the step of coupling the support base 130 formed in step S103 to the other side of the stationary base 120, and coupling the height adjustment part 140 formed in step S104 to the lower part of the support base 130 is performed. Then, the height adjustment unit 140 is allowed to move up and down the inner space of the support base 130 (S108).

Further, the step of coupling the electrolyzer 150 formed in step S105 to one side of the lower part of the height adjustment part 140 is performed (S109), and the mounting table 120, the support table 130, and the height adjustment part 140, an electric wire for supplying power from the control module 116 to the electrolyzer 150, and an electrolyte supply hose 115 for supplying electrolyte from the electrolyte water tank 112 to the electrolyzer 150. By performing the step of connecting (S110), the installation of the toilet electrolyzed water generator 100 is completed.
Meanwhile, the operation process of the electrolyzed water generator for toilet according to the present invention will be described in detail with reference to FIG. 12 as follows.

FIG. 12 is a flowchart illustrating in detail the operation process of the electrolyzed water generator for toilets according to an embodiment of the present invention.
First, in order to install the toilet electrolyzed water generator 100 in the toilet tank 200, the user grasps the electrolyte water tank 112 with his/her hand, applies a downward external force to separate it from the upper body 111, and then attaches the electrolyte water tank 112 to the toilet tank 200. A solid electrolyte and water are introduced through the opening 112a to dissolve the solid electrolyte in the water for a predetermined period of time, and then the electrolyte water tank 112 is coupled to the upper body 111.

Next, the toilet tank 200 is placed with the stand 120 at the center, the main body 110 is located on the outside, and the support stand 130, the height adjustment part 140, and the electrolyzer 150 are located inside. By adjusting the height using the height adjustment part 140, the electrolyzer 150 is installed so as to be in contact with the bottom surface of the toilet tank 200. At this time, the electrolyzer 150 is elevated inside the toilet tank 200 by moving up and down the inner space of the support stand 130 connected to one side of the stationary stand 120 that is placed in the toilet tank 200. The height can be adjusted.

In this way, when the toilet electrolyzed water generator 100 is installed in the toilet tank 200, the control module 116 provided in the main body 110 allows the user to turn on the toilet electrolyzed water generator 100. Next, it is determined whether or not to operate the button section 117 (S201), and when the button section 117 is operated, the electrolyzed water generator 100 for the toilet is powered on.

In step S201, after the toilet electrolyzed water generator 100 is powered on by the user's operation of the button unit 117, the control module 116 activates a human body sensing unit provided on one side of the upper body 111. A sensing signal is input from 113, and it is determined whether the user's use of the toilet is detected (S202).

As a result of the determination in step S202, if it is detected that the user is using the toilet, the control module 116 performs the step of supplying power to the electrolyzer 115 (S203), and at the same time, drives the electrolyte supply motor 114. and supplying the electrolyte contained in the electrolyte water tank 112 to the electrolyzer 150 through the electrolyte supply hose 115 (S204).

Then, the electrolyzer 150 performs electrolysis using the power supplied from the control module 116 to convert the water stored in the toilet tank 200 into electrolyzed water, which is then supplied through the electrolyte supply hose 115. The step of promoting electrolysis using the electrolyte is performed (S205).

Further, the control module 116 determines whether the user operates the button unit 117 to turn off the power of the electrolyzed water generator 100 for the toilet (S206), and Until the off operation is performed, the steps S202 to S205 of converting the water in the toilet bowl into electrolyzed water through electrolysis are performed repeatedly as the user uses the toilet bowl.

Meanwhile, in the toilet electrolyzed water generator 100, the polarity of at least two electrodes provided in the electrolyzer 150 is adjusted to prevent deterioration of electrolysis performance caused by reduction products generated during the electrolysis process. , the anode and cathode are crossed at a preset period.

Further, the toilet electrolyzed water generator 100 may check the remaining amount of electrolyte in the electrolyte water tank 112 at any time using a sensor (not shown), and display information regarding whether or not there is a shortage. , allows the user to fill the solid electrolyte and water with voice guidance.

As mentioned above, the present invention has been described with reference to the embodiments shown in the drawings, but these are merely illustrative, and those with ordinary knowledge in the field to which the art pertains will be able to understand the various embodiments. It will be appreciated that other variations and equivalent embodiments are possible. Therefore, the technical protection scope of the present invention should be determined by the following claims.

As described above, the present invention can increase the driving efficiency of the electrolyzer by supplying liquid electrolyte to the toilet tank when the user's use of the toilet is detected, so the user does not have to perform any separate operations. By using electrolyzed water, which can quickly convert toilet bowl water into electrolyzed water and has strong sterilizing and cleaning power, toilet bowls and connecting pipes can be sterilized in an environmentally friendly manner without the need for separate cleaning agents. Can be washed.

In addition, the present invention can increase the life of the electrodes and the efficiency of electrolysis by periodically crossing the electrode polarities of the electrolyzer, and the height of the electrolyzer can be freely adjusted. The structure for generating electrolyzed water can be constructed as a stationary type and can be easily placed in a toilet tank.

Furthermore, the present invention allows the user to check the operating status of the toilet electrolyzed water generator and change the operating settings through a user terminal such as a smartphone owned by the user, thereby maximizing the usability for the user. I can do it.

Claims (12)

a main body including an upper body and an electrolyte water tank coupled to the upper body;
an electrolyzer that converts toilet water into electrolyzed water by performing electrolysis when a user uses the toilet;
a stationary stand that connects the main body and the electrolyzer,
The electrolyte water tank is a part into which electrolyte and water are input, and includes an opening into which an electrolyte supply hose is inserted when combined with the upper body, and is attachable to and detachable from the upper body, or is detachable from the upper body. It is configured so that it can be fixed together with the
By supplying the electrolyte contained in the electrolyte water tank through the electrolyte supply hose to the electrolyzer via the stationary stand, the electrolyte converts toilet water into electrolyzed water in the electrolyzer. An electrolyzed water generator for toilets, which is characterized by promoting sterilization and cleaning effects. The main body is
a human body sensing unit that senses whether the user has used the toilet;
an electrolyte supply motor that provides power for supplying the electrolyte to the electrolyzer;
Based on the result detected by the human body sensing unit, if a user's use of the toilet is detected, the power supply to the electrolyzer is controlled to perform electrolysis, and at the same time, the electrolyte supply motor is driven. The toilet of claim 1, further comprising a control module configured to control the electrolyte to be supplied to the electrolyzer via the electrolyte supply hose to promote electrolysis. Electrolyzed water generator. The electrolyte is
salt, citric acid, potassium, hydrochloric acid, or a combination thereof;
The electrolyzed water generator for a toilet according to claim 2, wherein the electrolyzed water generator is stored in a liquid form in the electrolyte water tank. The control module includes:
Users can check the operating status of the toilet electrolyzed water generator, change operating settings, control automatic flushing, and respond to emergency situations through user terminals including smartphones, tablets, and laptops, and smart home devices including AI speakers. The electrolyzed water generator for toilets according to claim 2, further comprising controlling to contact a relief organization, or a combination thereof. The electrolyzed water generator for toilets is
The electrolyzer is coupled to one side thereof, and further includes a height adjustment unit that adjusts the height of the electrolyzer while moving up and down an inner space of a support base coupled to one side of the stationary base.
The height adjustment section is
The electrolyzed water generator for a toilet according to claim 1, wherein the height is adjusted by moving up and down the inner space of the support base using a slide rail formed on the surface. The electrolyzer is
comprising at least two electrodes,
According to claim 1, the polarity of the electrode is such that the anode and the cathode intersect at a predetermined period to prevent deterioration of electrolysis performance due to reduction products generated during the electrolysis process. Electrolyzed water generator for toilets as described. The stationary stand is
An electric wire for supplying power from a control module provided in the main body to the electrolyzer and the electrolyte supply hose, which is a moving path for supplying the electrolyte from the main body to the electrolyzer, are accommodated. An internal space is formed,
The electric wire and the electrolyte supply hose are
The electrolyzer is connected to the electrolyzer through a support base coupled to one side of the stationary base and an inner space of a height adjustment unit that moves up and down the inner space of the support base. , The electrolyzed water generator for toilets according to claim 1. The control module includes :
Controls the sink control motor to wind up the connecting ring connected to the drain valve and drain the water from the toilet bowl.
Check the usage time of the toilet, and if it is not used for more than a preset reference time, or if a toilet flushing command is received from the user terminal or the smart home device, turn on the power for automatic flushing. The electrolyzed water generator for a toilet according to claim 4, wherein the electrolyzed water generator for a toilet is controlled to be supplied to the sink control motor. forming a body including an upper body and an electrolyte reservoir coupled to the upper body;
forming a stand to be placed in the toilet tank;
forming an electrolyzer for converting toilet bowl water into electrolyzed water;
A human body sensing unit that detects the user's use of the toilet, a control module that controls the driving of the electrolyzer when the user's use of the toilet is detected, an electrolyte supply motor that supplies electrolyte to the electrolyzer, and an electrolyte supply hose. a step included in the main body;
coupling the main body to one side of the stand;
coupling the electrolyzer to one side of the stationary table;
An electric wire for supplying power from the control module to the electrolyzer and an electrolyte supply hose for supplying the electrolyte from the electrolyte water tank to the electrolyzer are connected to the electrolyzer through the internal space of the stationary stand. a step of connecting to the
The electrolyte water tank is a part into which the electrolyte and water are input, and includes an opening into which an electrolyte supply hose is inserted when coupled to the upper body, and is attached to and detached from the upper body, or is connected to the upper body. It is configured so that it can be fixed as well as attached and detached,
By supplying the electrolyte contained in the electrolyte water tank through the electrolyte supply hose to the electrolyzer via the stationary stand, the electrolyte converts toilet water into electrolyzed water in the electrolyzer. A method for configuring an electrolyzed water generator for a toilet, characterized in that it promotes sterilization and cleaning effects. The method for configuring the electrolyzed water generator for toilets is as follows:
forming a support base coupled to one side of the stationary base;
forming a height adjustment part coupled to a lower part of the support;
coupling the support base to one side of the stationary base, and coupling the height adjustment unit to a lower part of the support base so that the inner space of the support base can be raised and lowered;
further comprising: coupling the electrolyzer to one side of the height adjustment part;
The electrolyzer for a toilet according to claim 9, wherein the electric wire and the electrolyte supply hose are connected to the electrolyzer through an internal space of the stationary stand, the support stand, and the height adjustment part. How to configure a water generator. The step of forming the support base includes:
The method further includes forming an inner space provided with a guide groove so that the height adjustment part can be inserted and moved up and down.
The step of forming the height adjustment part includes:
The method further includes forming slide rails on both sides of the support base to which the guide grooves are coupled, so that the height of the electrolyzer can be adjusted by being inserted into the inner space of the support and moving up and down. The method for configuring an electrolyzed water generator for a toilet according to claim 10. In an electrolyzed water generator for a toilet, when the toilet is used, the power supply to the electrolyzer is controlled via the control module, and at the same time, the drive of the electrolyte supply motor is controlled, and the electrolyte contained in the electrolyte water tank of the main unit is converted into electrolyte. feeding the electrolyzer via a supply hose;
In the electrolyzed water generator for toilets, electrolysis is performed through the electrolyzer to convert toilet water accumulated in the toilet tank into electrolyzed water, which is supplied through the electrolyte supply hose. promoting electrolysis with an electrolyte;
The electrolyte water tank is a part into which the electrolyte and water are input, and includes an opening into which the electrolyte supply hose is inserted when combined with the upper body, and is attachable to and detachable from the upper body, or It is configured so that it can be fixed as well as attached and detached,
The electrolyzer is raised and lowered within the toilet tank by being raised and lowered by a height adjustment unit that raises and lowers an inner space of a support base that is connected to one side of a stationary base that is placed in the toilet tank. is adjustable;
The polarity of the at least two electrodes included in the electrolyzer is such that the anode and cathode intersect at a preset period to prevent electrolysis performance from deteriorating due to reduction products generated during the electrolysis process. death,
By supplying the electrolyte contained in the electrolyte water tank through the electrolyte supply hose to the electrolyzer via the stationary stand, the electrolyte converts toilet water into electrolyzed water in the electrolyzer. A method for driving an electrolyzed water generator for a toilet, characterized by promoting sterilization and cleaning effects.

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