JP2000291099A - Sterilizing device for toilet stool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent adhesion of scale and slime and generation of bad odor and facilitate the mounting work of the device by connecting an electrolytic part for eluting sterilizable metal ions and a controller for controlling a current- carrying condition through electric cables, in a water reservoir tank of a flush toilet system. SOLUTION: An electrolytic part 3 and a controller 1 are provided in a low tank 10 connected to a toilet stool 14 and electrodes 5, 6 eluting sterilizable metal ion of the electrolytic part 3 are connected to a water level sensor 7 through an electric cable 8. In this way, opened condition of a cleaning valve 13 is detected by a water level sensor 7 because of fall of water level and since electric currents are supplied to the electrodes 5, 6 by restoration of water level, sterilizable metal ions are eluted and cleaning water for the toilet stool containing sterilizable metal ions is stored in the low tank 10. Hence, adhesion of scale and slime and generation of bad odor are prevented. And further, the attaching work is easy and it can be used for a long time despite a small and light weight device.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a flush toilet, a water storage tank to which a water supply pipe is connected, a flush pipe connecting the flush tank to the flush toilet, and a flush valve provided in the flush pipe. The present invention relates to a toilet bowl sterilization apparatus used for a toilet system having a toilet bowl.

[0002]

2. Description of the Related Art When tap water, well water and medium water supplied are directly used as toilet flush water for flush toilets, slime and slime gradually adhere to the toilet due to propagation of various bacteria, and odors are generated. Will occur.

[0003] Several methods are known to address this problem by generating and supplying a component having sterilizing power to toilet flush water.

For example, a toilet flush water supply passage for a flush toilet, an ion generator having a silver electrode plate for mixing silver ions in the toilet flush water supply passage, and an opening / closing valve provided in the toilet flush water supply passage. There is also known a sanitizing and purifying apparatus for toilet flush water including a power supply for supplying power to a silver electrode plate in conjunction with opening and closing operations. (Japanese Utility Model 7-17391)

[0005] In another example, a solid fragrance detergent for flush toilet is put into a water storage tank of the flush toilet, and the detergent is gradually dissolved by a flow of water at the time of washing to keep the inside of the flush toilet clean. BACKGROUND ART Drugs for masking (deodorizing) odors of stool, urine, and decomposition products thereof are known. As such a solid aroma detergent, a mixture of a solubilized component, a detergent component, an aroma component, and a coloring component is generally used. (JP-A-51-39705 and 55-13109)
8, 57-179298).

[0006]

In these inventions, the former has a drawback that the installation work is complicated because the ion generator is provided in the toilet flush water supply channel, and the work can only be performed by a specialized water supply contractor. In the latter, since the solid fragrance detergent is solubilized over time, it takes time to replace the solid fragrance detergent in about several months.

The present invention has been made in order to solve such a problem, and has a function of preventing the adhesion of slime and slime to a flush toilet and the generation of an odor.
It is an object of the present invention to provide a toilet bowl sterilizing apparatus that is easy to attach, small in size and light in weight, can be used for a long time, and is easy to maintain.

[0008]

In order to achieve the above object, the present invention provides a flush toilet, a water storage tank to which a water supply pipe is connected, and connecting the water storage tank and the flush toilet. A washing tube and a sterilization apparatus for a toilet bowl used in a toilet system having a washing valve provided in the washing tube, wherein at least one of at least one of the pair submerged in the water storage tank comprises an electrode that elutes sterilizing metal ions. An electrolysis unit and a control means for controlling an energized state of the electrode fixed to the water storage tank were provided, and both were connected by electric wiring.

[0009] Thus, when a voltage is applied to an electrode made of a metal that elutes germicidal metal ions as an anode, a current flows between the electrodes, and the germicidal metal ions dissolve from the anode electrode and are supplied into the toilet flush water. Is done. After using the flush toilet, the toilet flushing water containing the germicidal metal ions in the water storage tank is supplied to the flush toilet, so after cleaning the dirt, the toilet flushing water containing the germicidal metal ions is flushed. Stays in the toilet trap. Thereby, the inside of the flush toilet is sterilized by the bactericidal metal ions, and it is possible to prevent the generation of scum, the adhesion of slime, and the odor associated with the propagation of various bacteria.

[0010] Preferably, a primary battery or a secondary battery is used as a power supply source of the control device. When silver or copper is used as an electrode made of a bactericidal metal, the current required for elution may be several mA to several hundred mA, and the electrode spacing is 1 cm.
The voltage may be several volts below. Therefore, germicidal metal ions can be eluted by a low power source such as a primary battery or a secondary battery. By this, general 100V
It can be used in toilets without an AC power supply, expanding the range of use. Also, since the battery is used, the size of the device is reduced. Further, the battery replacement time can be grasped from the battery replacement display device that indicates that the battery capacity is running low, thereby facilitating maintenance.

Further, from the electrode replacement display device for displaying the replacement time of the electrode, it is understood that the silver ion cannot be generated at a predetermined concentration due to the consumption of the electrode, and the replacement time of the electrode can be grasped. In the calculation of the electrode replacement period, since the weight of the remaining electrode can be grasped from the number of times of applying the voltage to the electrode, a method of turning on the electrode replacement display device when the electrolysis reaches a certain number of times can be mentioned. Thus, maintenance of the electrode is facilitated.

[0012] More preferably, silver ions are used as the bactericidal metal ions. As bactericidal metal ions, copper ions, zinc ions, and the like are known in addition to the silver ions. Among these, silver ions exhibit a bactericidal effect at the lowest concentration. Therefore, when silver is used for the electrode and silver ions are eluted, the present sterilizing apparatus can be made compact or have a long life as compared with the case where other sterilizing metals are used.

[0013]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic configuration diagram of a toilet bowl sterilization apparatus according to the present invention, and FIG. 2 is a detailed view of a control device 1 thereof.

The low tank 10 connected to the toilet 14 is connected to a water supply pipe 9 for flushing the toilet. The ball tap 2 is provided in the low tank 10. Near the bottom of the low tank, an electrolysis unit 3 including electrodes 5 and 6 and a water level sensor 7 is provided. Further, the control device 1 is provided on the outer wall or the inner wall side of the raw tank 10, and the electrolytic unit 3 is provided.
The electrodes 5, 6 for eluting the germicidal metal ions are connected to the water level sensor 7 by electric wiring 8. The control device 1 includes a control unit 15, an electrode replacement display device 16, a battery replacement display device 17, and a battery 18.

The electrolysis unit 3 is preferably fixed to the inner wall of the tank by an adsorber 4 attached to the electrolysis unit 3 or suspended in the water by a fixed length of electric wiring 8 from the control unit 1.

Next, the operation will be described. Low tank 1
The water stored in the chamber 0 is lifted by rotating the washing cock 11, and flows into the toilet 14 by operating the washing valve 13 connected to the tip thereof. When the water level inside the low tank 10 drops, the ball tap 2 is opened, and tap water from the water supply pipe 9 flows through the ball tap 2. On the other hand, the control device 1 has a water level sensor 7
As a result, the opening of the washing valve 13 is detected based on the drop in the water level, and the electrodes 5 and 6 are energized by returning the water level again. As a result, germicidal metal ions are eluted from either the anode side of the electrodes 5 and 6, and the toilet flush water containing the germicidal metal ions is stored in the low tank 10.

After a predetermined time, the control device 1 stops supplying power to the electrodes 5 and 6.

The polarity of the electrodes 5 and 6 (that is, the anode and the cathode) is periodically inverted by the control device 1 to prevent scale such as calcium carbonate from adhering to the cathode side. At this time, the electrodes 5 and 6 are consumed as the germicidal metal ions are supplied. Therefore, the time when the electrodes are the anode and the time when the electrodes are the cathode are made equal so that the pair of electrodes is consumed evenly. The electrodes 5 and 6 can be used up to the end without waste.

Next, the ion concentration and current required for exhibiting the effects of the present invention will be described by taking silver as an example.
The greater the concentration of silver ions contained in the toilet flush water, the greater the bactericidal activity.However, if the silver ions are excessive, the bowl surface of the toilet bowl may darken due to precipitation of silver chloride or metallic silver. , 300 μg / liter or less. In an actual experiment, it was found that even when the silver concentration was 10 μg / liter, the trap portion was not stained by bacteria, so that it was effective even at a low concentration unlike other metal ions. The lower the silver ion generation concentration, the smaller and lighter the electrode can be used for a long time,
There are advantages of low cost and long life. In addition, the burden on the environment can be kept low.

A method for producing the silver ion at a concentration of 10 μg / liter will be described as an example. The amount of water stored in the low tank is generally about 15 liters. At this time, it is assumed that a current of 0.01 A is applied between the electrodes in the electrolytic section for 14 seconds. Assuming that the electrolysis efficiency (the ratio of the amount used for silver ion generation to the amount of electricity flowing between the electrodes) is 100%,
Assuming that the Faraday constant is 96500, the concentration of silver ions (atomic weight 107.9) in the low tank due to elution from the anode side of the pair of electrodes is about 10 μg as shown in the following equation.
/ Liter. (0.01 × 14 × 107.9 / 96500/15) =
10.4 × 10 ⁻⁶ g / liter ≒ 10 μg / liter The electrolysis efficiency depends on the design of the electrolysis part (electrode area, distance between electrodes, voltage, current, etc.) and the quality of toilet flush water (electric conductivity, chloride ion concentration, pH). And the like, but according to experiments conducted by the applicant of the present invention, it has been found that, under any conditions within the range of tap water in Japan, 50 to 10
Since it is 0%, the silver ion concentration generated is 5 to 10 μm.
g / liter, and it was found that the concentration was very low, but both within the acceptable range for the countermeasures against darkening of the ball surface and the bactericidal effect. However, the above electrolysis conditions are merely examples, and the silver ion concentration may be in the range of 300 μg / liter or less as described above.

Since silver is eluted from the silver electrode (at least one side of which is silver) as silver ions, the silver electrode is gradually consumed. However, if the silver ion concentration is 10
If the volume of the low tank is 15 liters and the number of times of use is 20 times a day, the weight of silver consumed per day is only 0.003 g, which is the product of these, and only 10.95 g of silver is consumed. By using the electrode, the silver electrode can be used for ten years without replacing the silver electrode. If the pair of electrodes is alternately reversed by plus and minus for each electrolysis, one electrode may weigh 5.5 g. Silver density is 1
If the thickness of the silver electrode is 1 mm, a 5.5 g electrode has a size of 2.3 cm on one side of a square. Considering the use for 10 years, it can be said that the size and weight of the electrode are very small. Because silver has low weight,
The production cost can be kept low, and the electrolysis can be performed at a current value of several mA, so that the running cost can be kept low and the battery can be driven. Further, even if the number of times of use per day is 20 times or more, since the number of times of electrolysis is accumulated by the counter, it is possible to accurately grasp the electrode replacement time. The electrode replacement time can be determined by detecting the voltage or current between the electrodes.

As described above, by reducing the weight of silver used for the silver electrode, it is possible to provide a small and lightweight sterilizer. In this case, the replacement life of the silver electrode will be within 10 years, but unlike the case of providing for the toilet flush water supply channel, the piping work by a specialized waterworks contractor is not required, and It is very easy only to open, take out the electrolytic part of the sterilizer, and replace the silver electrode.

The timing of electrolysis is preferably during the time when water is passed through the low tank. This is because the water in the tank is stirred, and the silver ions are easily eluted efficiently. However, not limited to this example, it is possible to generate silver ions even after the end of water supply. After the completion of the water supply, when electrolysis was performed to generate silver ions, a substantially predetermined silver ion concentration was generated. Furthermore, a substantially predetermined silver ion concentration could be generated no matter where the electrolytic portion was located in water.

The supply of silver ions to the toilet flushing water is as follows:
The effect of the present invention can be exhibited even when the cleaning is not performed at every toilet flush. That is, even if only a few times a day (preferably 2 to 4 times) of supplying toilet flush water containing silver ions to the toilet at the time of flushing the toilet, it is possible to prevent the generation of water residue, slime adhesion and odor. Can be.

[0025]

The present invention has the above-described structure and exhibits the following effects. In addition to having a function of preventing the adhesion of slime and slime to the flush toilet and the generation of odor, it is easy to install, can be used for a long period of time while being small and lightweight, and maintenance is easy.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a toilet bowl sterilizer according to an embodiment of the present invention.

FIG. 2 is a detailed view of the control device 1 of the toilet bowl sterilization apparatus shown in FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Control device 2 ... Ball tap 3 ... Electrolysis part 4 ... Suction board 5,6 ... Electrode 7 ... Water level sensor 8 ... Electrical wiring 9 ... Water supply pipe for toilet flushing 10 ... Low tank 11 ... Washing cock 12 ... Bowl chain 13 ... Washing valve 14 toilet bowl 15 control unit 16 electrode replacement display device 17 battery replacement display device 18 battery

Continuation of the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (Reference) C02F 1/50 540 C02F 1/50 540B 550 550C 560 560F (72) Inventor Kenji Sakamoto 2 Nakajima, Kokurakita-ku, Kitakyushu-shi, Fukuoka Prefecture F-term (reference) No. 1-1, Totoki Kiki Co., Ltd. 2D038 AA02 4D061 DA03 DB01 EA02 EB01 EB31 EB37 EB39 GA04 GC15 GC16

Claims (4)

[Claims] 1. A toilet system comprising a flush toilet, a water storage tank to which a water supply pipe is connected, a flush pipe connecting the flush tank and the flush toilet, and a flush valve provided in the flush pipe. In the toilet bowl sterilization device, at least one of at least one of the pair is submerged in the water storage tank, and an electrolysis unit including an electrode that elutes a sterilizing metal ion.
A sterilization device for a toilet bowl, further comprising control means for controlling an energized state of the electrode fixed to the water storage tank, and connecting the both by electric wiring. 2. A battery replacement display device for supplying electric energy to the electrode from a primary battery or a secondary battery, and further comprising a battery replacement display device for displaying that the battery capacity is running low. Toilet sterilizer. 3. An apparatus for sterilizing a toilet bowl according to claim 1, further comprising an electrode replacement display device for displaying an electrode replacement time when said electrode is worn out. 4. The toilet sterilizer according to claim 1, wherein the electrode for eluting the sterilizable metal ions is made of silver.