JP2023529049A - Electrolyzed water generator for toilet and method of construction thereof - Google Patents

Abstract

The present invention relates to an electrolyzed water generator for a toilet and a method thereof, in which an electrolyte is supplied to a toilet tank when a user's use of the toilet bowl is detected, and electrolyzed water having strong sterilizing and detergency is quickly generated by an electrolyzer, the electrode polarities of the electrolyzer are periodically crossed to increase the life of the electrodes and the efficiency of electrolysis, the height of the electrolyzer can be freely adjusted, and the structure for generating electrolyzed water is configured as a stationary type, so that it can be used by simply installing it in the toilet tank. provide a device and method. [Selection drawing] Fig. 1

Description

TECHNICAL FIELD The present invention relates to an electrolyzed water generator for a toilet and a method of configuring the same, and more particularly, when a user's use of the toilet bowl is detected, electrolytes are supplied to the toilet tank to have strong sterilizing and cleaning power through the electrolyzer. Electrolyzed water can be generated quickly, and the electrode polarities of the electrolyzer are periodically crossed to increase the life 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 stationary in a toilet tank by configuring a structure for generating electrolyzed water as a stationary type, and a method of configuring the same.

2. Description of the Related Art Generally, a toilet bowl is used for urinating and urinating, and includes a toilet seat on which a person sits, a toilet cover rotatably coupled 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 in which water is stored, etc., so that a person can sit on the toilet seat and defecate.

At this time, the toilet bowl water for cleaning the toilet bowl is usually unsterilized general tap water, so many invisible bacteria live in the toilet tank. The constituent parts have an environment in which various bacteria tend to breed due to the use of toilets and moisture. In particular, various pathogenic bacteria spreading every time the water in the toilet bowl is used after using the toilet seriously contaminates the bath and toilet.

In addition, toilet bowls installed in baths and restrooms in homes and toilets in public facilities are used by many people, so they are easily exposed to various pathogens, which can lead to dermatitis, gastroenteritis, food poisoning, etc. There is a fear that it will play a role as a medium to metastasize various diseases such as.

In order to prevent infection by such bacteria, the toilet should be cleaned periodically and kept clean, and it is very important to sterilize the water in the toilet where various bacteria grow. . Furthermore, if the water in the toilet bowl remains stagnant in one place for a long period of time, bacteria may grow in the water in the toilet bowl, which may contaminate the water itself. Water changes are also very important for cleanliness.

Currently, in order to effectively prevent odors, cleanse, and disinfect the toilet bowl, a soluble solid detergent is placed inside the toilet tank to dissolve the detergent in water. When the water in the toilet tank is discharged to the toilet by the user's operation, it is naturally discharged to the toilet together with a certain amount of dissolved cleaning liquid, and the bacteria and sediments remaining in the toilet are washed and sterilized. ing.

However, in the method using the cleaning agent, the amount of the cleaning agent diluted with water varies depending on the frequency of use of the toilet bowl, so the amount of cleaning agent introduced into the toilet bowl is not constant. If the is not used for a long time, the cleaning agent will be dissolved to a saturated state more than necessary, which shortens the usage period of the cleaning agent. occurs.
Conversely, when the toilet bowl is used frequently, the cleaning agent is not sufficiently dissolved in water before it is discharged, resulting in poor cleaning and sterilization effects of the toilet bowl.

In addition, the cleaning agent is sprayed in a constant amount through a nozzle or pipe through which the water of the toilet bowl passes at the same time that the water is flushed after using the toilet, and the water of the toilet bowl stored in the toilet tank is directly removed. It does not sterilize, but sterilizes only the parts that come into contact with the toilet while the water is being flushed, so there is a limit to how well the water in the toilet can be washed completely.

In addition, since the cleaning agent is manufactured by synthesizing various chemical substances in order to improve its sterilizing power against bacteria, it may cause serious burns, inflammation, blindness, etc. when exposed to the user's body. It may cause damage, may emit a bad odor, and has problems in that it is inconvenient to replace it at regular intervals, and additional costs are incurred accordingly.

Therefore, according to the present invention, the liquid electrolyte is supplied to the toilet tank when the user's use of the toilet bowl is detected, thereby increasing the driving efficiency of the electrolyzer, so that the toilet bowl can be filled with water without the user's separate operation. By using electrolyzed water that can be quickly converted into electrolyzed water and has strong sterilizing and detergency, it is possible to sterilize and clean the toilet bowl and connecting pipes in an environmentally friendly manner without using a separate cleaning agent. It is an object of the present invention to provide an electrolyzed water generator for toilets and a method of constructing the same.

In addition, the present invention increases the life of the electrodes and the efficiency of electrolysis by periodically crossing the electrode polarities of the electrolyzer, and freely adjusts the height of the electrolyzer to produce various sizes of electrolyzers. It is an object of the present invention to provide an electrolyzed water generator for a toilet that can be easily installed in a toilet tank and can be used by simply installing it in the toilet tank through a stationary structure, and a method of configuring the same. aim.

Next, the prior art that already exists in the technical field of the present invention will be briefly described, and then the technical matters that the present invention aims to achieve in comparison with the prior art will be described.

First, Patent Document 1 relates to an electrolyzed water generator for sterilizing and washing toilet bowls, and a toilet tank installed in a general household is electrolyzed without adding electrolytes to tap water. By running water on the inner surface of the toilet bowl, the toilet bowl can be sterilized and washed with ease of use, especially, anyone can carry it, and it can be simply and easily installed in the toilet tank regardless of time and place, and can be separated separately. It is possible to effectively generate electrolyzed water by making it possible to perform electrolysis without the need for the preparation work of , and furthermore, the electrolyzed water used as sterilizing cleaning water is flowed into the sewage ditch to sterilize the inner surface of the sewage ditch. It is technically characterized by combining the convenience and practicality of generating clean, electrolyzed water.

That is, in the prior art, tap water accumulated in a toilet tank is electrolyzed for several tens of seconds to produce electrolyzed water with a strong sterilizing power, which is poured onto the inner surface of the toilet bowl, and the electrolyzed water that is poured is brought into contact with the toilet bowl. Disclosed is an electrolyzed water generator for sterilizing and cleaning a toilet bowl, which can eliminate 99.98% or more of cholera bacteria, etc.

The prior art has some similarities with the present invention in that electrolyzed water generated by electrolyzing tap water that has accumulated in the toilet tank is poured onto the inner surface of the toilet to sterilize it. However, according to the present invention, the liquid electrolyte is supplied to the toilet tank when the user's use of the toilet is detected, so that the water in the toilet can be quickly converted into electrolyzed water without any separate operation by the user. The electrode polarities of the electrolyzer are periodically crossed to increase the life of the electrodes and the efficiency of electrolysis, and the height of the electrolyzer can be freely adjusted to facilitate installation in toilet tanks of various sizes. It can be used by simply installing it in the toilet tank through a structure configured as a stationary type.

In addition, Patent Document 2 relates to a method and system for providing a clean toilet, which is composed of a plasma (plasma) generating part by corona discharge and an electric dust collector for purifying the air in the toilet and removing the smell of feces. an air purification and dust collector, an air washing device consisting of washing water and a sprayer, and strong oxidants in the washing water to decompose and remove residual fecal matter in the toilet bowl. The technical feature is that the electrolyzed water generator to be generated is attached to each toilet bowl.

That is, the above-mentioned prior art removes not only the air in the toilet but also the odor of feces, as well as fundamentally decomposes and removes the filth of residual feces adhering to the inside of the toilet bowl, thereby keeping the toilet in a clean state. A method and air purification system thereof that can preserve the environment are disclosed.

The prior art has some similarities to the present invention in that the electrolyzed water generator is attached to each toilet bowl, but the present invention is to supply liquid to the toilet tank when the user's use of the toilet bowl is detected. By supplying this electrolyte, the water in the toilet bowl can be quickly converted into electrolyzed water without any separate operation by the user. The electrolyzer can be easily installed in toilet tanks of various sizes by freely adjusting the height of the electrolyzer, and can be easily installed in the toilet tank through a stationary structure. Therefore, the difference in construction between the prior art and the present invention is obvious.

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

Disclosure of the Invention The present invention has been devised to solve the above-mentioned problems, and an electrolyzer is installed inside the toilet tank to convert the water in the toilet bowl into electrolyzed water, thereby performing separate flushing. To provide an electrolyzed water generator for a toilet, and a method of constructing the same, capable of sterilizing and washing a toilet bowl and a connecting pipe in an environmentally friendly manner without using an agent. .

In addition, the present invention automatically senses the user's use of the toilet bowl and dispenses water from the toilet bowl without the user's separate operation by equipping the main body installed outside the toilet tank with a human body sensor. It is another object to provide an electrolyzed toilet water generator that can be converted into electrolyzed water, and a method of constructing the same.

In addition, the present invention supplies a liquid electrolyte to the toilet tank when the user's use of the toilet bowl is detected, thereby improving the driving efficiency of the electrolyzer. Another object is to provide an electrolyzed water generator for a toilet that can be quickly converted into water, and a method of constructing the same.

Further, the present invention supplies tap water or 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 use of the toilet bowl by the user is detected. It is another object of the present invention to provide an electrolyzed water generator for a toilet, and a method of configuring the same, which can easily generate electrolyzed water regardless of the type of water used as toilet water, such as ground water.

In addition, the present invention can generate electrolyzed water for toilets by periodically intersecting the polarities of the electrodes of the electrolyzer installed inside the toilet tank, thereby increasing the life of the electrodes and enhancing the efficiency of electrolysis. Another object is to provide a device and a method for its construction.

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 of various sizes, and electrolyzes the electrolyzer. It is another object of the present invention to provide an electrolyzed water generator for a toilet that can be operated efficiently, and a method of constructing the same.

Furthermore, the present invention provides an electrolyzed water generator for a toilet that can be used by simply installing it in a toilet tank by configuring a structure for generating electrolyzed water as a stationary type, and a method of configuring the same. for another purpose.

In addition, the present invention allows users to use IoT technology to control the operating state of an electrolyzed water generator for toilets through smart home network control that utilizes user terminals such as smartphones, tablets, and notebook computers, and smart home devices such as AI speakers. The electrolyzed water generator for the toilet that can improve the convenience of the user by enabling the user to check the status, change the operation settings, control the automatic flush, and contact the rescue agency in an emergency situation, and the method of configuring the same. 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 converts toilet water into electrolyzed water by performing electrolysis according to the use of a user's toilet, the main body and the electrolyzer. a stationary stand connecting between the main body and the stationary stand, wherein a liquid electrolyte is supplied from the main body to the electrolyzer through the stationary stand, so that the electrolyzer electrolyzes the water in the toilet bowl with the electrolyte. It is characterized by enhancing the effect of sterilization and cleaning by promoting conversion to water.

In addition, the main body includes an upper body, an electrolyte water tank containing the electrolyte, a human body sensing part for sensing whether a user has used the toilet bowl, and power for supplying the electrolyte to the electrolyzer. Based on the provided electrolyte supply motor and the result of sensing by the human body sensing unit, when the user's use of the toilet bowl is sensed, the power supply to the electrolyzer is controlled so that electrolysis is performed; a control module for controlling driving of the electrolyte supply motor to supply the electrolyte to the electrolyzer through an electrolyte supply hose to promote electrolysis.
Also, the electrolyte contains salt, citric acid, potassium, hydrochloric acid, or a combination thereof, and is stored in the electrolyte water tank in a liquid state.

In addition, the electrolyte water tank is a member into which the electrolyte and water are supplied, and includes an opening into which the electrolyte supply hose is inserted when coupled with the upper body, and at least one around the opening. the magnets are provided at positions corresponding to the magnets provided on the upper body, and are attached or detached from the magnets provided on the upper body to be coupled or separated from the upper body. characterized by being

In addition, the control module allows the user to check the operating state of the electrolyzed water generator for toilet, change the operation settings, and It is characterized by further comprising controlling an automatic sink, contacting a rescue agency in an emergency situation, or a combination thereof.

In addition, the electrolyzed water generator for toilet has the electrolyzer coupled to one side thereof, and the electrolyzer can be vertically moved up and down by moving up and down in an inner space of a supporter coupled to one side of the stationary stand. A height adjuster for adjusting the height is further included, and the height adjuster adjusts the height while ascending and descending in the inner space of the support base by a slide rail formed on the surface.

In addition, the electrolyzer is composed of at least two electrodes, and the polarities of the electrodes are such that the anode and the cathode intersect according to a preset cycle, and the electrolysis performance is lowered due to the reduction products generated during the electrolysis process. It is characterized by preventing

In addition, the stationary stand is a wire for supplying power from a control module provided in the main body to the electrolyzer, and a moving passage for supplying the electrolyte from the main body to the electrolyzer. An inner space for housing an electrolyte supply hose is formed, and the electric wire and the electrolyte supply hose are arranged at a height that rises and falls between a supporter coupled to one side of the stand and a space inside the supporter. It is characterized in that it is connected to the electrolyzer sequentially via the inner space of the control unit.

In addition, the electrolyzed water generator for the toilet includes a drain control motor that winds up a connection ring connected to the drain plug and discharges water from the toilet by power supplied through the control of the drain plug and the control module. , wherein the control module checks the usage time of the toilet to see if it has not been used for more than a preset reference time, or if a toilet flush command is received from the user terminal or the smart home device. If so, it is characterized in that it is controlled to supply power for automatic flow to the flow control motor.

A method for constructing 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 stand to be placed in a toilet tank, and electrolyzing to convert toilet water into electrolyzed water. forming an electrolyzer, an electrolyte water tank containing an electrolyte, a human body sensing unit for sensing toilet use by a user, a control module for controlling the driving of the electrolyzer when the user's toilet use is sensed, and the electrolyte. equipping the main body with an electrolyte supply motor and an electrolyte supply hose for supplying the electrolyzer; connecting the main body to one side of the pedestal; and connecting the electrolyzer to one side of the pedestal. a wire for supplying power from the control module to the electrolyzer through the inner space of the pedestal; and an electrolyte supply hose for supplying electrolyte from the electrolyte water tank to the electrolyser. to the electrolyser.

Further, the method for configuring the electrolyzed water generator for toilet includes the steps of forming a support base coupled to one side of the stand, forming a height adjustment unit coupled to a lower portion of the support base, coupling a support base to one side of the stationary base, and coupling the height adjuster to a lower part of the support base so as to be able to move up and down in the inner space of the support base; coupling the electrolyzer to one side, wherein the electric wire and the electrolyte supply hose are connected to the electrolyzer through the respective inner spaces of the pedestal, the support pedestal and the height adjustment part; It is characterized by

The step of forming the support further includes forming an inner space having a guide groove so that the height adjuster can be inserted and moved up and down, forming the height adjuster. The step further includes forming slide rails to which the guide grooves are coupled on both surfaces so as to adjust the vertical height of the electrolyzer while being inserted into the inner space of the support and ascending and descending. characterized by comprising

A method for driving an electrolyzed water generator for a toilet according to an embodiment of the present invention controls power supply to an electrolyzer through a control module when a toilet bowl is used in the electrolyzed water generator for a toilet, and at the same time, controls an electrolyte supply motor. A step of controlling the drive to supply the electrolyte provided in the main body to the electrolyzer through an electrolyte supply hose, and performing electrolysis in the toilet electrolyzed water generator through the electrolyzer. and converting the water in the toilet bowl accumulated in the toilet tank into electrolyzed water, and promoting electrolysis by the electrolyte supplied through the electrolyte supply hose, wherein the electrolyzer is the toilet It is possible to adjust the height inside the toilet tank by moving up and down by the height adjustment part that moves up and down in the inner space of the support stand connected to one side of the stand that is placed on the tank. The polarities of the at least two electrodes provided in the decomposer prevent the deterioration of the electrolysis performance due to the reduction products generated during the electrolysis process due to the crossing of the anode and the cathode according to a preset cycle. It is characterized by

According to the above-described toilet electrolyzed water generator and its configuration method of the present invention, when the user's use of the toilet bowl 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 into electrolyzed water without a user's separate operation. There is an effect that the connecting pipe can be cleaned by sterilizing it in an environmentally 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. There is an effect that the structure for generating electrolyzed water can be configured as a stationary type and can be used by simply placing it in a toilet tank.

In addition, the present invention maximizes usability for the user by allowing the user to check the operating state of the electrolyzed water generator for toilet and change the operating settings through a user terminal such as a smartphone possessed by the user. has the effect of being able to

It is a figure which shows the exploded perspective view of the electrolyzed water generator for toilets by one Embodiment of this invention. FIG. 3 is a view showing an assembled perspective view of an electrolyzed water generator for a toilet according to an embodiment of the present invention; 1 is a left side view of an electrolyzed water generator for a toilet according to one embodiment of the present invention; FIG. 1 is a right side view of an electrolyzed water generator for a toilet according to one embodiment of the present invention; FIG. FIG. 4 is a view for explaining the coupling relationship between the main body of the electrolyzed water generator for a toilet and an electrolyte water tank according to an embodiment of the present invention; FIG. 3 is a view showing a state where the electrolyzed water generator for toilet according to one embodiment of the present invention is installed in a toilet tank; FIG. 4 is a view for explaining height adjustment of the electrolyzer of the electrolyzed water generator for toilet according to an embodiment of the present invention; FIG. 3 is a diagram for explaining the use state of the electrolyzed water generator for toilet according to one embodiment of the present invention; FIG. 4 is a diagram for explaining automatic flush control in the toilet electrolyzed water generator according to the embodiment of the present invention; FIG. 4 is a diagram for explaining confirmation of an operating state, change of operation settings, and control of an electrolyzed water generator for a toilet through a user terminal or a smart home device; 1 is a flow chart detailing a method of configuring an electrolyzed water generator for a toilet according to an embodiment of the present invention; 4 is a flow chart showing in detail the operation process of the electrolyzed water generator for toilet according to an embodiment of the present invention;

Hereinafter, preferred embodiments of an electrolyzed water generator for a toilet and a method of configuring the same according to the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals are given to the same members in each drawing. Also, specific structural or functional descriptions of embodiments of the invention are provided solely for the purpose of describing embodiments in accordance with the invention and unless defined otherwise, technical or scientific All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be construed to have a meaning consistent with the meaning they have in the context of the relevant art, unless explicitly defined herein. It should not be interpreted in an overly formal sense.

FIG. 1 is an exploded perspective view of an electrolyzed water generator for toilets according to an embodiment of the present invention, and FIG. 2 is an assembled perspective view of the electrolyzed water generator for toilets according to an embodiment of the present invention. FIG. 3 and FIG. 4 are left and right side views, 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 senses the user's use of the toilet by the human body sensing unit 113, and when the user uses the toilet as a result of the sensing, the toilet water accumulated in the toilet tank is detected. 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, resulting in strong sterilizing power and Promptly generate electrolyzed water with detergency.

That is, since the electrolyzed water generator 100 for toilet includes the human body sensing part 113 in the body 110 provided outside the toilet tank, the user does not have to operate the toilet separately. is detected automatically, and the electrolyzer 150 electrolyzes the water in the toilet to convert it into electrolyzed water.

In addition, when the user's use of the toilet is detected, the electrolyzed water generator 100 for toilet starts electrolysis, and at the same time, electrolytes containing salt, citric acid, hydrochloric acid, potassium, or a combination thereof are added to the toilet water. Regardless of the type of water used as toilet water, such as tap water, purified water, ground water, etc., the water in the toilet bowl can be quickly converted into electrolyzed water by making electricity flow better and promoting electrolysis. can be converted.

Accordingly, the electrolyzed water generator 100 for the toilet does not require the user to use a separate cleaning agent, and the toilet bowl and the connecting pipe can be cleaned by sterilizing the toilet bowl and the connecting pipe in an environmentally friendly manner when the toilet bowl water is used. become.

In addition, the electrolyzed water generator for toilet 100 periodically intersects the polarities of the electrodes of the electrolyzer 150 installed inside the toilet tank, thereby increasing the life of the electrodes and enhancing the efficiency of electrolysis. be able to.

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

In addition, the electrolyzed water generator 100 for toilet can be easily installed in various sizes of toilet tanks by freely adjusting the height of the electrolyzer 150 through the height adjusting part 140. can.

In addition, the electrolyzed water generator 100 for toilet can be easily installed on the upper side of the toilet tank by configuring the structure for generating electrolyzed water as a stationary type (i.e., the inverted U-shaped stationary base 120). can be used as That is, based on the stand 120, the main body 110 is provided outside the toilet tank, and the support base 130, the height adjuster 140, and the electrolyzer 150 are provided inside the toilet tank. (See Figure 6). At this time, the stand 120 may be in a U-shape or other fixed stand in addition to the inverted U shape, and may be changed into various shapes according to the shape 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 normal power from the outside through the power supply terminal 119 of FIG. 4, or by using a battery provided therein.

In addition, the toilet electrolyzed water generator 100 is controlled by a user terminal such as a smartphone, tablet, or notebook computer possessed by the user, or through a smart home network control utilizing a smart home device such as an AI speaker. It can be configured to check the operation state of the electrolyzed water generator 100, change the operation settings, control the automatic flow, and contact the rescue period in an emergency situation (see FIG. 10).
Next, the detailed configuration of the toilet electrolyzed water generator 100 will be described.

1 to 4, the toilet electrolyzed water generator 100 according to an embodiment of the present invention includes a main body 110, a stand 120, a support 130, a height adjuster 140, an electrolyzer 150, and the like. Consists of

Although not shown, the electrolyzed water generator 100 for toilet stores an audio output unit that converts and outputs the power state and usage state of the electrolyzed water generator 100 for toilet into voice, and various operation programs. A remote user terminal 300 may further include a memory, a communication unit for transmitting/receiving data for confirming the operation state of the electrolyzed water generator 100 for toilet or changing operation settings.

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

As shown in FIG. 1, the 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 portion 117, a display portion 118, and a power supply terminal 119 are provided.

At least one magnet 111 a is provided on the lower surface of the upper body 111 so that it can be coupled to or separated from the electrolyte water tank 112 . That is, it can be coupled or separated from the electrolyte water tank 112 by detaching from the magnet 112b provided on the upper surface of the electrolyte water tank 112 (see FIG. 5).
The electrolyte water tank 112 is attached to or separated from the lower part of the upper body 111 by a magnet 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 112 a is formed on the upper surface of the electrolyte water tank 112 , the electrolyte and water are introduced therein, and the electrolyte supply hose 115 is inserted when the upper body 111 is coupled to the opening 112 a.

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

The lid 112c is made of a silicone material and closes 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 the electrolyte to dissolve in the water, the electrolyte and water flow out through the opening 112a. The lid 112c should be closed so that it cannot flow or be discharged.

The electrolyte is composed of a solid powder containing salt, citric acid, potassium, hydrochloric acid, or a combination thereof. It is dissolved and used in liquid form. That is, after the user removes the electrolyte water tank 112 from the upper body 111 , the electrolyte water tank 112 is filled with a predetermined amount of electrolyte, filled with tap water or purified water, and dissolved for a predetermined time. It is used in combination.

The human body sensing unit 113 may be composed of a PIR sensor (Pyroelectric Infrared Sensor) that detects human movement by emitting infrared rays. senses whether the toilet bowl is used and outputs the sensing result to the control module 116 provided inside the upper body 111 .

At this time, the human body sensing unit 113 may be configured independently without being installed in the upper body 111 and installed at a predetermined position inside the toilet. In this case, the human body sensing unit 113 may be a communication module. By including it, the sensing result should be transmitted to the control module 116 provided 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 passage for supplying electrolyte from the electrolyte water tank 112 to the electrolyzer 150 through the upper body 111, and is driven by the electrolyte supply motor 114 to the electrolyte water tank 112. The contained electrolyte is supplied to the electrolyzer 150 .
The control module 116 is a member for generally controlling the operation of the electrolyzed toilet water generator 100 and is installed inside the upper body 111 .

In addition, the control module 116 performs electrolysis by controlling to supply power to the electrolyzer 150 when the user's use of the toilet bowl is detected based on the result of sensing by the human body sensing unit 113 . In addition, by controlling the driving of the electrolyte supply motor 114, the electrolyte contained in the electrolyte water tank 112 is supplied to the electrolyzer 150 through the electrolyte supply hose 115 for electrolysis. prompt.

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

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

On the other hand, the control module 116 allows the user to check the operating state of the electrolyzed water generator 100 for a toilet and change the operating settings through user terminals including smartphones, tablets, and laptops, and smart home devices including AI speakers. , automatic flow control, contact for relief services in emergency situations, or a combination thereof. That is, the control module 116 allows the user to control the electrolyzer through an application program installed in a user terminal or an application program installed in a smart home device such as an AI speaker using IoT technology and smart home network control. 150 operation time, electrolyte supply time, and electrolyte supply amount of the toilet electrolyzed water generator 100, and control such as change of operation settings, automatic flush control, and communication to the rescue period in emergency situations. to support

The button part 117 is provided on the front part of the upper body 111 and is a member for turning on/off the electrolyzed water generator 100 for toilet. At this time, the button part 117 can additionally input data related to the operation time, the electrolyte supply time, and the supply amount of the electrolyzer 150 in addition to the function of turning on and off the power of the electrolyzed water generator 100 for the toilet. can be configured to perform

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

On the other hand, the upper body 111 and the electrolyte water tank 112 are described as being coupled or separated by using a magnet, but the upper body 111 and the electrolyte water tank may be separated by weakening the magnetic force or by external force of the user. 112 may be separated.

In order to prevent this, in the present invention, a fixing member (not shown) is added to the joint between the upper body 111 and the electrolyte water tank 112, so that they are less likely to be separated due to weakening of the magnetic force or external force. can be configured as

For example, a clip may be provided outside the upper body 111 and the electrolyte water tank 112, and the clip may be fastened at the time of coupling, thereby fixing the upper body 111 and the electrolyte water tank 112 together with attaching/detaching the magnet, or The upper body 111 and the electrolyte water tank 112 are connected to each other by forming grooves and protrusions inside the connecting portion of the upper body 111 and the electrolyte water tank 112, respectively, so that 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. Mutual connection with the water tank 112 can be fixed together with attachment and detachment of the magnet.

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

In addition, the stand 120 includes a wire (not shown) for supplying power from the control module 116 provided inside the main body 110 to the electrolyzer 150, and the upper body 111 from the electrolyte water tank 112. An internal space is formed for accommodating an electrolyte supply hose 115 for supplying the electrolyte to the electrolyzer 150 through it. At this time, the electric wire and the electrolyte supply hose 115 are sequentially moved between the support 130 connected to one side of the stand 120 and the inner space of the height adjuster 140 moving up and down in the inner space of the support 130 . is connected to the electrolyzer 150 via .

Meanwhile, the electrolyte can be supplied to the electrolyzer 150 through pipes (not shown) respectively embedded in the pedestal 120, the support 130, and the height adjuster 140, and the electric wire is also supplied. It can be connected to the electrolyzer 150 through the pipe.

The support base 130 has an inner space (not shown) with an open bottom. The height adjuster 140 is combined.

The height adjuster 140 has the electrolyzer 150 coupled to one side of its lower portion, and moves up and down in the inner space of the supporter 130 coupled to one side of the pedestal 120 so that the electrolyzer 150 can be adjusted. (See FIG. 7).

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

The electrolyzer 150 is coupled to one side of the lower part of the height adjusting part 140 and is installed inside the toilet tank, and performs electrolysis upon detection of the use of the toilet by the user to turn the water in the toilet into electrolyzed water. Performs the function of conversion.

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 toilet water into electrolyzed water. It is to be.

In addition, 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 FIG. 8).

That is, the electrolyte quickly separates into cations and anions so as to approach 100% in the process of electrolyzing the water in the toilet by the electrolyzer 150, so that current flows well. , when the electrolyzer 150 operates, the efficiency of electrolysis can be increased by the electrolyte.

At this time, the electrolyzer 150 has at least two electrodes, and the polarity of the electrodes is such that the anode and the cathode are intersected at a predetermined cycle, so that the reduced products generated during the electrolysis are transferred to the cathode. To prevent deterioration of electrolysis performance due to sticking.
In addition, the electrolyzer 150 is preferably installed near the lower surface of the toilet tank so that the water in the toilet bowl can be easily electrolyzed.

FIG. 5 is a view for explaining the coupling relationship between the main body of the electrolyzed water generator for a toilet 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 water tank 112 .
For example, when a solid electrolyte and water are put into the electrolyte water tank 112 to make a liquid electrolyte, a user holds the electrolyte water tank 112 and applies an external force to the bottom surface of the upper body 111 . The upper body 111 and the electrolyte water tank 112 are separated from each other by releasing the magnetic force between the magnet 111a and the magnet 112b provided on the upper surface of the electrolyte water tank 112 formed at a corresponding position.

In addition, after the solid electrolyte and water are put into the electrolyte water tank 112 to prepare the liquid electrolyte, the user holds the electrolyte water tank 112 and holds the magnet 112b provided on the upper surface of the electrolyte water tank 112 and the The upper body 111 and the electrolyte water tank 112 are coupled by matching the magnets 111a provided on the lower surface of the upper body 111 with each other.

At this time, the upper body 111 and the electrolyte water tank 112 may be separated by the user's external force or the magnetic force is weakened. not shown) can be additionally configured.

FIG. 6 is a diagram showing a state in which an electrolyzed water generator for toilet according to an embodiment of the present invention is installed in a toilet tank.
As shown in FIG. 6, the toilet electrolyzed water generator 100 of the present invention has the main body 110 positioned outside the toilet tank 200 around the stationary base 120 formed in an inverted U shape. The stationary base 120 , the support base 130 , the height adjuster 140 and the electrolyzer 150 are positioned inside the toilet tank 200 .

At this time, it is preferable that the height adjusting 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 view for explaining the height adjustment of the electrolyzer of the electrolyzed water generator for toilet according to one embodiment of the present invention.
As shown in FIG. 7 , the height adjuster 140 can adjust the vertical height of the electrolyzer 150 while moving up and down in the inner space of the supporter 130 .
For example, since the depth of the toilet tank 200 is not deep, if the electrolyzer 150 can be positioned on the inner lower surface of the toilet tank 200, the height of the toilet tank 200 is increased as shown in FIG. The length adjuster 140 can be installed while contracted.

However, when the toilet tank 200 is too deep and the electrolyzer 150 cannot be positioned at the inner lower surface of the toilet tank 200 and is positioned at the middle or upper side, as shown in FIG. As such, the height adjusting part 140 may be installed by extending from the support 130 .

At this time, the height adjusting part 140 is easily moved up and down by engaging a slide rail 141 formed on the surface and 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 how the electrolyzed water generator for toilet according to one embodiment of the present invention is used.
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 the water in the toilet tank 200 into electrolyzed water.

At this time, the electrolyte contained in the electrolyte tank 112 is supplied to the electrolyzer 150 to promote electrolysis, thereby quickly shortening the time required to convert toilet water into electrolyzed water. can. That is, the electrolyte facilitates the flow of electric current, so that 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. is what you can do.

On the other hand, during the electrolysis process, the reduced material may stick to the cathode among the electrodes constituting the electrolyzer 150, which may greatly deteriorate the electrolysis performance. In order to prevent this, the present invention periodically intersects the polarities of at least two electrodes included in the electrolyzer 150 to prevent deterioration of electrolysis performance.

FIG. 9 is a diagram for explaining automatic flush control in the toilet electrolyzed water generator according to one embodiment of the present invention.
As shown in FIG. 9, the toilet electrolyzed water generator 100 additionally provides an automatic flush function.
That is, if the water in the toilet bowl is not used for a long period of time, the water accumulated in the toilet seat causes scale and mold, making it difficult to keep the toilet bowl clean. Accordingly, the toilet electrolyzed water generator 100 checks the elapse of a predetermined period of time and automatically flushes the toilet or turns on the user terminal or smart home device in case the toilet is not used for a long time. It performs the function of automatically flushing the toilet bowl under the control of the user who uses it.

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

The flow control motor 160 is driven by the power supplied under the control of the control module 116 to gradually wind up the connection ring connected to the drain plug 170, thereby opening the drain plug 170 and The toilet bowl water accumulated in the toilet tank 200 is discharged to the toilet bowl.

Also, when the water in the toilet tank 200 is drained, the drain valve 170 is closed and the connection ring wound by the flush control motor 160 returns to its original position. As a result, the toilet can be kept clean.

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

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

In addition to using the user terminal 300 to check the operating state of the toilet electrolyzed water generator 100, change and control operation settings, the user can also use the AI speaker or the like as shown in FIG. 10(b). Through smart home network control using a smart home device, it is possible to check the operation status of the electrolyzed water generator 100 for toilet, and to change operation settings and control.

For example, when a user executes a voice command ``Clean the toilet bowl'' using an AI speaker, the toilet electrolyzed water generator 100 automatically flushes the toilet bowl, or ``There is an emergency, call the fire department. If you execute the voice command "Please deliver it", you can execute control such as contacting the registered fire station or police station.

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

FIG. 11 is a flow chart detailing a method of configuring an electrolyzed water generator for a toilet according to an embodiment of the present invention.
First, in order to configure 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 portion of the toilet tank 200 is formed. Then, a step of forming a stand 120 to be placed on is performed (S102).

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

Next, a step of forming a supporter 130 coupled to one side of the pedestal 120 is performed (S103), and a step of forming a height adjuster 140 coupled to a lower portion of the supporter 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 the supporter 130 is formed in step S103, an inner space having a guide groove (not shown) should be formed so that the height adjuster 140 can be inserted and moved up and down. must. In addition, when forming the height adjuster 140 through step S104, it is inserted into the inner space of the supporter 120 and moves up and down so that the vertical height of the electrolyzer 150 can be adjusted. Slide rails 141 to which the guide grooves are coupled should be formed on both sides.

After that, the human body sensor 113 detects whether or not the user uses the toilet, the electrolyte supply motor 114 provides power for supplying the electrolyte to the electrolyzer 150 under the control of the control module 116, the electrolyte to the electrolyzer 150, a control module 116 for controlling the driving of the electrolyzer 150 based on the detection of the user's use of the toilet bowl by the human body sensor 113, the toilet A button part 117 for turning on/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, and 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 connecting the electrolyte water tank 112 to the lower part of the upper body 111 of the main body 110 formed in step S106, the step of connecting the main body 110 to one side of the pedestal 120 formed in step S012 is performed ( S107).

Next, a step of coupling the supporter 130 formed in step S103 to the other side of the installation table 120 and coupling the height adjustment part 140 formed in step S104 to the lower portion of the supporter 130 is performed. ( S<b>108 ), the height adjuster 140 is allowed to move up and down in the inner space of the supporter 130 .

In addition, a step of coupling the electrolyzer 150 formed in step S105 to one side of the lower portion of the height control unit 140 is performed (S109), and the installation base 120, the support base 130, and the height control unit are connected. 140, a 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. (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.

FIG. 12 is a flow chart illustrating in detail the operating process of the electrolyzed water generator for toilet 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 holds the electrolyte water tank 112 by hand and applies an external force downward to separate the electrolyte water tank 112 from the upper body 111 . A solid electrolyte and water are introduced through the opening 112 a of the upper body 111 , and the solid electrolyte is dissolved in the water for a predetermined time.

Next, the toilet tank 200 is placed around the stand 120, the main body 110 is positioned outside, and the support stand 130, the height adjuster 140, and the electrolyzer 150 are positioned inside. , The height is adjusted by the height adjuster 140 so that the electrolyzer 150 is installed to contact the bottom of the toilet tank 200 . At this time, the electrolyzer 150 moves up and down in the inner space of the supporter 130 coupled to one side of the stand 120 installed in the toilet tank 200 , so that the electrolyzer 150 moves up and down inside the toilet tank 200 . can be adjusted.

With the electrolyzed toilet water generator 100 installed in the toilet tank 200, the control module 116 provided in the main body 110 allows the user to turn on the electrolyzed toilet water generator 100. First, it is determined whether or not the button part 117 is operated (S201), and if the button part 117 is operated, the electrolyzed water generator 100 for toilet is turned on.

After the electrolyzed toilet water generator 100 is turned on by the user's operation of the button 117 in step S201, the control module 116 detects the human body sensor provided on one side of the upper body 111. A sensing signal is input from 113 to determine whether the user's use of the toilet bowl is sensed (S202).

As a result of the determination in step S202, if the use of the toilet by the user is detected, the control module 116 performs a step of supplying power to the electrolyzer 115 (S203), and simultaneously drives the electrolyte supply motor 114. to supply 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 , converts the water accumulated in the toilet tank 200 into electrolyzed water, and supplies the electrolyzed water through the electrolyte supply hose 115 . facilitating electrolysis with the electrolyte (S205).

In addition, the control module 116 determines whether the user operates the button part 117 to turn off the electrolyzed water generator 100 for toilet (S206). The steps S202 to S205 of converting the water in the toilet into electrolyzed water through electrolysis are repeatedly performed until the user uses the toilet.

On the other hand, in the toilet electrolyzed water generator 100, at least two electrodes provided in the electrolyzer 150 have polarities so as to prevent degradation of electrolysis performance caused by reduced products generated during the electrolysis process. , crossing the anode and cathode by a preset period.

In addition, the toilet electrolyzed water generator 100 checks the remaining amount of electrolyte in the electrolyte water tank 112 with a sensor (not shown) at any time, and displays information on whether or not there is a shortage. , voice guidance, etc., to allow the user to fill the solid electrolyte and water.

As described above, the present invention has been described with reference to the embodiments shown in the drawings. It will be appreciated that other variations and equivalents are possible. Therefore, the technical protection scope of the present invention should be determined by the following claims.

As described above, according to the present invention, when the user's use of the toilet bowl is detected, the liquid electrolyte can be supplied to the toilet tank to improve the driving efficiency of the electrolyzer, so that the user does not have to perform a separate operation. , The water in the toilet bowl can be quickly converted into electrolyzed water, and through the use of electrolyzed water with strong sterilizing and detergency, the toilet bowl and connecting pipes can be sterilized in an environmentally friendly manner without using a separate cleaning agent. 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 configured as a stationary type, and can be used by simply placing it in a toilet tank.

In addition, the present invention maximizes usability for the user because the operating state of the electrolyzed water generator for toilet can be checked and the operation settings can be changed through a user terminal such as a smart phone owned by the user. can be done.

Claims (13)

the main body;
an electrolyzer that performs electrolysis and converts the water in the toilet into electrolyzed water according to the use of the toilet by the user;
a stationary stand that connects between the main body and the electrolyzer;
By supplying a liquid electrolyte from the main body to the electrolyzer through the stationary table, the electrolyzer promotes the conversion of water in the toilet bowl into electrolyzed water by the electrolyte, resulting in sterilization and cleaning effects. An electrolyzed water generator for a toilet, characterized by increasing The body is
upper torso and
an electrolyte water tank containing the electrolyte;
a human body sensing unit that senses whether a user has used the toilet;
an electrolyte supply motor that provides power to supply the electrolyte to the electrolyser;
If the user's use of the toilet bowl is detected based on the result of sensing by the human body sensor, the power supply to the electrolyzer is controlled so that electrolysis is performed, and at the same time, the electrolyte supply motor is driven. 2. The toilet according to claim 1, further comprising a control module for controlling to supply said electrolyte to said electrolyser through an electrolyte supply hose to facilitate electrolysis. Electrolyzed water generator. The electrolyte is
containing salt, citric acid, potassium, hydrochloric acid, or combinations thereof;
[Claim 3] The electrolyzed water generator for a toilet according to claim 2, wherein the electrolyzed water is stored in the electrolyte water tank in a liquid state. The electrolyte water tank is
a member into which the electrolyte and water are introduced, the opening into which the electrolyte supply hose is inserted when coupled with the upper body;
At least one magnet provided around the opening,
The magnet is
It is provided at a position corresponding to a magnet provided on the upper body, and is attached to or detached from the magnet provided on the upper body by being attached to or detached from the upper body. 2. The electrolyzed water generator for toilets according to 2. The control module is
Users can check the operation status of the electrolyzed water generator for toilets, change the operation settings, control the automatic sink, and in emergency situations through user terminals including smartphones, tablets and laptops, and smart home devices including AI speakers. 3. The electrolyzed water generator for toilets according to claim 2, further comprising controlling so as to be able to contact a rescue agency, or a combination thereof. The electrolyzed water generator for toilet is
The electrolyzer is coupled to one side, and a height adjuster is provided to adjust the vertical height of the electrolyzer by moving up and down in the inner space of the supporter coupled to one side of the stand. ,
The height adjustment part is
2. The electrolyzed water generator for a toilet according to claim 1, wherein a slide rail formed on the surface adjusts the height while moving up and down the inner space of the support. The electrolyzer is
consisting of at least two electrodes,
2. The polarity of the electrodes is such that the anode and the cathode intersect according to a preset cycle to prevent deterioration of electrolysis performance due to reduced products generated during electrolysis. 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 an electrolyte supply hose as a moving passage 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 sequentially through a supporter coupled to one side of the stationary base and an inner space of a height adjustment unit that ascends and descends in the inner space of the supporter. , The electrolyzed water generator for toilets according to claim 1. The electrolyzed water generator for toilet is
a drain plug and
a sink control motor that winds up a connection ring connected to the drain plug to drain water from the toilet bowl under the control of the control module;
The control module is
Checking the usage time of the toilet, if it is not used for more than a preset reference time, or if a command to flush the toilet is received from the user terminal or the smart home device, power for automatic flushing is turned on. The electrolyzed water generator for toilets according to claim 5, characterized in that it is controlled to supply to said sink control motor. forming a body;
forming a pedestal that rests on the toilet tank;
forming an electrolyser to convert toilet bowl water to electrolyzed water;
an electrolyte water tank containing an electrolyte, a human body sensing unit for sensing the use of a user's toilet bowl, a control module for controlling driving of the electrolyzer when the user's usage of the toilet bowl is sensed, and supplying the electrolyte to the electrolyzer. providing the body with an electrolyte supply motor and an electrolyte supply hose;
coupling the main body to one side of the pedestal;
coupling the electrolyzer to one side of the pedestal;
A wire for supplying power from the control module to the electrolyzer and an electrolyte supply hose for supplying electrolyte from the electrolyte water tank to the electrolyzer are connected to the electrolyzer through the inner space of the stationary stand. A method of constructing an electrolyzed water generator for a toilet, comprising: The configuration method of the electrolyzed water generator for toilet includes:
forming a support base coupled to one side of the mounting base;
forming a height adjuster coupled to the bottom of the support;
coupling a support base to one side of the stationary base, and coupling the height adjuster to a lower part of the support base so as to be able to move up and down in the inner space of the support base;
coupling the electrolyser to one side of the height adjustment unit;
11. The electrolyzed water generator for a toilet according to claim 10, wherein the electric wire and the electrolyte supply hose are connected to the electrolyzer through respective internal spaces of the pedestal, the support pedestal, and the height adjuster. configuration method. The step of forming the support base includes:
further comprising forming an inner space having a guide groove so that the height adjuster can be inserted and moved up and down;
The step of forming the height adjuster includes:
Further, slide rails are formed on both side surfaces to which the guide grooves are coupled so that the electrolyzer can be vertically adjusted while being inserted into the inner space of the support and moved up and down. The method of constructing an electrolyzed toilet water generator according to claim 11, characterized in that it comprises: In the electrolyzed water generator for toilet, when the toilet bowl is used, the control module controls the power supply to the electrolyzer and at the same time controls the driving of the electrolyte supply motor to supply the electrolyte provided in the main body to the electrolyte supply hose. feeding the electrolyser through
In the electrolyzed water generator for toilet, electrolysis is performed through the electrolyzer to convert toilet water accumulated in the toilet tank into electrolyzed water, and the electrolyzed water is supplied through the electrolyte supply hose. facilitating electrolysis with an electrolyte;
The electrolyzer is raised and lowered inside the toilet tank by a height adjuster that ascends and descends in an inner space of a support base coupled to one side of a stand that is installed in the toilet tank. is adjustable and
The polarities of the at least two electrodes provided in the electrolyzer are such that the anode and the cathode intersect according to a preset cycle, thereby preventing deterioration of electrolysis performance due to reduction products generated during the electrolysis process. A method for driving an electrolyzed water generator for a toilet, characterized by:

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