JP2007332537A - Toilet device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To always obtain acidic electrolytic water having strong scale preventive effect and sterilization effect regardless of variation in water quality by using only ions contained in raw water as material, although acidic electrolytic water having strong urolith generation preventive effect and sterilization effect cannot be often obtained satisfactorily due to variation in water quality of raw water even if only the ions contained in raw water are continuously electrolyzed. <P>SOLUTION: Intended ions such as chloride ions are adsorbed and electrolyzed using an adsorption means 12 such as an ion exchange resin, and regeneration of ion exchange resin and desorption of concentrated ions are simultaneously performed. The desorbed chloride ions are electrolyzed by an anode side electrolysis vessel 15, thereby strong acidic electrolytic water having strong sterilization effect and scale preventive effect to a toilet stool can be supplied intermittently. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a toilet apparatus.

  Urine stone is the main strong stain that accumulates on the surface of sanitary ware, etc., and its main component is calcium phosphate, calcium oxalate, and calcium carbonate. These salts accumulate in the following process. The pH of the liquid rises in the process of bacteria breaking down the urea remaining on the toilet surface without being washed away. Calcium ions, phosphate ions, oxalate ions, and carbonate ions derived from tap water and urine precipitate under high pH conditions to produce fine crystals on the toilet surface. Fine crystals form and microorganisms adhere more easily to the short part, facilitating the above process. As a result, a yellow urine stone that generates a strong odor in which calcium salts and organic substances are gathered is obtained.

  In addition, polyvalent cations contained in tap water are neutral to alkaline and cause scale contamination such as carbonates and hydroxides. Natural organic acids such as humic acid and fulvic acid dissolved in tap water form strong bonds with ions such as iron and aluminum, causing scale contamination.

Therefore, generally, a sterilizing detergent or bleach (for example, a detergent containing sodium hypochlorite) or a strong acidic detergent is used to scrape or prevent generation of urine stone dirt. . Such cleaning is an unpleasant task because of the irritating odor of the above bleach. Therefore, a method has been devised in which tap water is electrolyzed continuously to generate free chlorine to suppress urinary stone adhesion under sterilization and acidic conditions (Patent Document 1). This method is intended to prevent generation of urine stones by always flowing weakly acidic electrolyzed water containing hypochlorite ions through sanitary ware and piping. This method has an advantage that maintenance work can be saved because it can be performed automatically without using a consumer.
Japanese Patent No. 3603580

  However, since the chloride ion concentration contained in tap water is 360 μM, the hypochlorite ion concentration of the generated acidic electrolyzed water is only about 30 μM (hereinafter referred to as weakly acidic electrolyzed water). Under this pH condition, free chlorine is mainly hypochlorite ion, and the bactericidal power is only about 1/10 compared with hypochlorous acid. Considering that weakly acidic electrolyzed water is partially neutralized by mixing with urine whose pH has been increased by bacteria, and that there is tap water with low chloride ion concentration in some regions, continuous electrolysis of tap water This method is not sufficient to prevent urolithiasis.

  In order to cope with the former problem, the present invention generates acidic electrolyzed water having a lower pH and a stronger bactericidal power without maintenance and replenishment of materials, and completely prevents urinary stones from being generated and generates odors. And aim to prevent yellowing.

  In order to solve the conventional problem, the toilet apparatus of the present invention has an adsorption tank and a desorption means, and concentrates specific ions such as chloride ions in raw water. By oxidizing the concentrated ions with the electrode for electrolysis, a strongly acidic cleaning solution having a bactericidal action is supplied.

According to the toilet apparatus of the present invention, adhesion of urine stones and scales can be almost completely prevented, so that the frequency and labor of toilet cleaning can be greatly reduced. In addition, no detergent or disinfectant is used, so there is no impact on the environment.

  A toilet apparatus according to claim 1 of the present invention is a toilet, a supply pipe for supplying water to the toilet, an adsorption tank for adsorbing specific components contained in the supplied water, and adsorbed in the adsorption tank Desorption means for concentrating and desorbing the specific component, electrolysis means for oxidizing or reducing the specific component to produce a solution, and wash water supply for supplying the solution produced by the electrolysis means as wash water for the toilet It is equipped with a device. Among the components contained in the supplied water, specific components are concentrated by adsorption / desorption, and electrolyzed water is intermittently generated by electrolyzing the concentrated components. By intermittently supplying electrolyzed water to the toilet bowl, a pH condition is created that prevents urinary stone formation due to microbial action and prevents scale formation. In addition, since the concentration of components contained in the supplied water is steadily lowered, the generation of scale derived from the supplied water can be prevented.

  The toilet apparatus according to claim 2 of the present invention is the toilet device according to claim 1, wherein the concentration tank is configured to pressurize the supplied water, and the adsorption tank is configured to adsorb anions contained in the supplied water. An ion exchange membrane disposed in contact with the adsorption tank; at least a pair of electrodes disposed in contact with the ion exchange membrane; and voltage applying means for electrolyzing water molecules intermittently by the electrodes. In addition, acidic electrolyzed water containing hypochlorous acid is generated as washing water. By electrolyzing intermittently after anion is concentrated with an anion exchange resin, strongly acidic electrolyzed water having stronger sterilizing power than continuous electrolysis of tap water is supplied. Most of the free chlorine is hypochlorous acid. Since the anion is desorbed by electrolyzing water molecules to regenerate the ion exchange resin, there is no need to use an additive for desorption or resin regeneration, and the maintenance is excellent and the sewage treatment facility is not burdened.

  In the toilet apparatus according to claim 3 of the present invention, the adsorption tank adsorbs cations and anions contained in the supplied water, and the ion exchange membrane disposed in contact with the adsorption tank, and the ion exchange Having at least a pair of electrodes arranged in contact with the membrane, and a voltage applying means for electrolyzing water molecules intermittently by the electrodes, generating acidic electrolyzed water and alkaline electrolyzed water as washing water, and at least one of them The water and the other water are neutralized and then drained from the toilet. And after using strongly acidic electrolyzed water for the sterilization washing | cleaning objective, it neutralizes with the strong alkaline electrolyzed water produced | generated simultaneously, and it drains after making a drain pipe not hurt.

  The toilet apparatus according to claim 4 of the present invention is configured to adsorb and remove chlorine gas or the like that can be generated as a secondary accessory when generating strongly acidic electrolyzed water.

  The toilet apparatus according to claim 5 of the present invention decomposes and removes chlorine gas or the like that can be generated as a secondary accessory when generating strongly acidic electrolyzed water.

  The toilet apparatus according to claim 6 of the present invention is provided with a control means, and the control means supplies cleaning water in a predetermined time zone. And sterilization washing water is supplied in the time zone when the activity of microorganisms is most active in the toilet bowl.

  A toilet apparatus according to claim 7 of the present invention is provided with a control means, and is configured to supply cleaning water at an arbitrary time zone according to the setting of the control means. And sterilization washing water is supplied in the time zone which a user desires.

The toilet apparatus according to claim 8 of the present invention is frequently used based on detection means for detecting the use state of the toilet, storage means for storing the use state detected by the detection means, and data stored in the storage means. A washing water supply mechanism including a calculation means for statistically calculating the time zone to be used and a control means for supplying washing water in a certain time zone based on the result of the calculation means. And it learns the time slot | zone with the least frequency of use of a toilet, and supplies sterilization washing water in the time slot | zone.

  The toilet apparatus according to claim 9 of the present invention approximately measures the ion concentration and the amount of supplied water contained in the raw water, and the amount of ions added to the adsorption tank is sufficient to produce sterilized washing water. It is controlled so that electrolysis can be started when the time is exceeded.

  The toilet apparatus according to claim 10 of the present invention is provided with detection means for detecting a change in the state of the toilet, and generates wash water when the state of the toilet changes according to the detection result of the detection means. It detects microbial activity that generates urinary stones in the toilet bowl or conditions under which scale is likely to be generated, and supplies sterilized washing water when certain conditions are satisfied.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

(Embodiment 1)
FIG. 1 shows the appearance of a toilet apparatus according to the first embodiment of the present invention. In FIG. 1, a toilet device 1 is placed on a toilet 3, a main body 2 of the toilet device 1, a toilet seat 4 for a user to sit on, a toilet lid 5, a cleaning nozzle 6 for cleaning a local part of a human body, and the like. It is composed of The main body 2 is provided with a water supply pipe for supplying cleaning water from a water supply source and an electric cable (both not shown) for supplying power from a commercial power source. In addition, the toilet device 1 has a butt cleaning function for the user to clean the anus, a bidet cleaning function for cleaning the female part after use, and a drying function for drying the human body part after cleaning. A room heating function (not shown) for heating the toilet space in the cold is provided, and each operation is performed by an operation unit 7a or a remote controller 7b (hereinafter referred to as a remote controller) provided on the sleeve of the main body 2. To do). The main body 2 includes a human body detecting means 8 for detecting the seating of the user, a tank 9, and a control means 27 for controlling various functions of the toilet apparatus 1 and a cleaning water supply device 10 inside the main body 2. is doing. Control is performed by the control means 27 so that the cleaning function, the drying function, and the toilet seat heating function can be operated only in the human body detection state by the human body detection means 8. The human body detecting means 8 detects whether or not the user is seated on the toilet seat 12 by infrared rays. As a method, the human body detecting means 8 detects the capacitance of the toilet seat, ultrasonic waves or the like is used for the user's toilet seat. It is also possible to use a method for detecting seating on the floor, a method for detecting that the user has entered or left the toilet, a method for detecting the presence of the user in conjunction with the lighting of the toilet, and the like.

  Further, when the operation unit 7a and the remote controller 7b are operated, various operations are performed so that the control means 27 can arbitrarily operate the driving of the human body washing nozzle 6 provided in the various toilet seat device main bodies 2, the toilet seat heating, the washing water supply device 10, and the like. A switch is arranged. Then, the operation of the cleaning supply device 10 is operated by these, and when the cleaning water is generated, the toilet device 1 is drained for cleaning the toilet bowl 3.

  Further, the control means 27 has a calendar, a timer for measuring time, a storage means for detecting and storing the use state of the toilet device, and a calculation means for calculating the use frequency based on the data of the storage means (not shown). ) For example, the human body detecting means 8 calculates the use frequency as the use state of the toilet device field based on the detection result of the user entering or sitting, or stores the use of the cleaning function as the state, and calculates the use frequency. Irrelevant. Based on the calculation result by the calculation means, it also has a learning function for recognizing a time zone in which the toilet device is not frequently used, and stores the usage state of the toilet device 1 in a pattern.

Based on the frequency of use, it is possible to infer changes in the dirty state of the toilet from the use history of the toilet, and further, a sensor for detecting the dirty toilet is provided on the inside of the toilet device body 2 so that the toilet You may make it detect the state of a surface.

Further, the operation unit 7a and the remote controller 7b are provided with a setting switch for setting the timing of supplying the cleaning water by the cleaning water supply device 10 so that the user can arbitrarily control the timing of supplying the cleaning water. is there. further,

Next, FIG. 2 shows an outline of the cleaning water supply apparatus 10. The washing water supply device 10 includes an anode side electrolytic tank 15, a cathode side electrolytic tank 17, a washing tank 22, and a drainage reservoir 23 that are adjacent to each other across the adsorption tank 12 and the diaphragm 18. The electrodes 14 and 16 are made of platinum, iridium oxide, palladium oxide or the like. In the adsorption tank 12, a strongly acidic cation exchange resin and a strongly basic anion exchange resin are mixed and stored.

In FIG. 1, the water supplied from the water supply to the toilet device 1 is branched into a water channel that supplies water to the cleaning water supply device 10 and a water channel that supplies water for human body cleaning within the toilet device body 2. The ions contained in the water supplied to the washing water supply apparatus 10 are adsorbed by the H ⁺ type cation exchange resin and the OH ⁻ type anion exchange resin stored in the adsorption tank 12. Normally, the valve 20 is open, the valves 19 and 21 are closed, and water from which ionic components have been removed is supplied to the washing tank 22. Since water with a low total ion concentration is supplied to the washing tank, the scale is constantly prevented from adhering to the washing tank.

  A direct current is intermittently applied to the electrodes 14 and 16 to cause an electrolysis reaction in the electrolysis tanks 15 and 17. At this time, water molecules in the adsorption tank 2 are electrolyzed and the following reaction occurs.

^{_{H 2 O → H + + OH}} - (1)
The generated H ⁺ ions replace the cations adsorbed on the cation exchange resin, thereby regenerating the cation exchange resin into the H ⁺ form. The released cations pass through the diaphragm 18 and move to the cathode side electrolytic cell 17. In the electrolytic cell 17, the following reaction (2) occurs, and alkaline electrolyzed water is generated.

^{_{2H 2 O + 2e - → 2OH}} - + H 2 (2)
In addition, OH ⁻ ions generated by the reaction (1) regenerate the anion exchange resin to OH ⁻ type, and the desorbed anions pass through the diaphragm 18 and move to the anode side electrolytic cell 15. In the electrolytic cell 15, the following reaction occurs, and acidic electrolyzed water is generated.

^{_{H 2 O → 2H + + 1}} / 2O 2 + 2e - (3)
_{^{2Cl - → Cl 2 + 2e -}} (4)
Cl ₂ + H ₂ O → HClO + H ⁺ + Cl ⁻ (5)
At this time, the valves 19 and 21 are opened and the valve 20 is closed. The generated acidic electrolyzed water is supplied to the cleaning tank 22. Further, the alkaline electrolyzed water has an effect of neutralizing the acidic electrolyzed water drained from the washing tank 22 in the drainage reservoir 23 to prevent the piping from being damaged.

According to the toilet apparatus of the present embodiment, since there is an effect of concentrating anions, particularly chloride ions, in the tap water, compared with the toilet apparatus using a conventional tap water electrolysis cleaning device, the pH of the toilet apparatus Since low acidic electrolyzed water can be generated, hypochlorous acid, which has about 10 times stronger bactericidal power than hypochlorite ions, occupies most of free chlorine. As an example, if tap water having a chloride ion concentration of 0.1 mM is used as raw water and time distribution between normal water flow and electrolysis is set so that the chloride ion concentration is concentrated 100 times, pH 2. Acidic electrolyzed water of about 5 is obtained, and hypochlorous acid having an effective chlorine concentration of about 20-60 ppm is generated. Such a cleaning solution can kill almost all microorganisms in a very short time. Also, under these pH conditions, urinary stone components such as calcium phosphate and calcium oxalate do not precipitate, and iron and other metal hydroxides do not precipitate, and the cleaning tank such as sanitary ware is clean. Can be kept in a state.

  A conductivity meter 25 is provided in the raw water supply pipe and the conductivity of the water supplied to the adsorption tank 2 is continuously measured, and the ion concentration contained in the raw water is calculated approximately based on the conductivity. In addition, the amount of water that has passed through the adsorption tank 12 is measured by the flow meter 26, and the amount of ions adsorbed is estimated from the product of the cumulative amount of water passing through and the ion concentration. Control to start electrolysis after the amount of ions necessary to generate acidic electrolyzed water with sufficiently strong sterilization and cleaning power is adsorbed, and when the toilet is not used frequently and bacteria are likely to grow Based on the usage frequency recognized by the means 27, the operation timing is controlled.

  In the toilet apparatus according to the present embodiment, since the cleaning water supply device that generates cleaning water using tap water as raw water is provided, the cleaning water supplied thereby removes cations and dissolved organic acids, thereby removing minerals. It has the effect of preventing the adhesion of quality and organic scales. Therefore, it is suitable for toilet cleaning applications that dislike scale adhesion and consume a relatively large amount. Further, during electrolysis, the dissolved organic acid that has been adsorbed so far can be desorbed at a higher concentration and supplied to the cleaning application as a surfactant. Because of this action, it is possible to perform cleaning using natural surface-active substances without using soap or detergent. For example, there is a cleaning method that does not affect the environment in areas where sewage treatment facilities are not equipped. It becomes possible.

  Moreover, since the control means 27 controls the timing of the generation of the cleaning water by the cleaning water supply device 10 so as to operate intermittently based on the usage frequency of the toilet according to the frequency of use of the toilet device 1, It is possible to supply cleaning water without causing any problems. In addition, maintenance such as charging of chemicals for generating washing water is unnecessary, and convenience is high. Furthermore, the waste water after toilet flushing can be made water-based so as not to burden the environment.

(Embodiment 2)
FIG. 2 is a configuration diagram of the toilet apparatus according to Embodiment 1 of the present invention. The same components as those in FIG. 1 are denoted by the same reference numerals and description thereof is omitted. The present embodiment is different from the first embodiment in that a pH meter 28 is attached to the lowest trap of the toilet to continuously monitor the pH of the waste water. The pH meter 28 is a detection means that reflects the state of dirt on the toilet. The washing water supply device by the control means 27 so that the electrolysis is started in a time zone in which the pH of the waste water measured by the pH meter 28 exceeds 8.5 and the toilet is not frequently used and bacteria are likely to grow. 10 operation timings are controlled.

  Since the cleaning water supply apparatus of the present invention generates cleaning water using normal tap water, there is no need to add special chemicals, the adsorption means is easy to maintain, and even if drainage is performed after cleaning, there is no environmental impact. Absent.

  In the case of generating cleaning water using the cleaning device of Embodiment 1 and general tap water, if it is necessary to create an effective cleaning water having a certain concentration or more, a process of concentration is necessary and the interval is set. Therefore, it is not always necessary to use cleaning water in daily life, and is suitable for supplying cleaning water when used intermittently. Therefore, it is suitable for washing peripheral products such as toilets for home use, business use, and public use, hand washing, bathtub, washing tub, kitchen sink and the like. In addition, the utility value is high in facilities such as food factories that require regular sterilization while consuming a large amount of water. Also, in areas where surface water containing a relatively high concentration of dissolved organic acids can be obtained, such as in the vicinity of wetlands where conservation is considered to be environmentally ecological, washing water that does not impact the environment is required. High utility value in use. Specifically, it is suitable for cleaning soil dirt at local vegetable collection centers, and for cleaning agricultural machinery and equipment.

External view of toilet apparatus in Embodiment 1 of the present invention Configuration diagram of cleaning water supply apparatus in Embodiment 1 of the present invention The block diagram of the washing water supply apparatus in Embodiment 2 of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Toilet apparatus 2 Toilet apparatus main-body part 3 Toilet bowl 7a Remote control 7b Main body sleeve operation part 8 Human body detection remote control 10 Washing water supply apparatus 11 Pump 12 Adsorption tank 13 DC power supply 14 Anode 15 Anode-side electrolytic cell 16 Cathode 17 Cathode-side electrolytic cell 18 Diaphragm 22 Toilet bowl 23 Drainage reservoir 24 Gas adsorption / removal agent 25 Conductivity meter 26 Flow meter 27 Control means 28 pH meter (detection means)

Claims (10)

A toilet, a supply pipe for supplying water to the toilet, an adsorption tank for adsorbing specific components contained in the supplied water, and a desorption means for concentrating and desorbing the specific components adsorbed in the adsorption tank A toilet apparatus comprising: an electrolytic unit that oxidizes or reduces the specific component to generate a solution; and a cleaning water supply device that supplies the solution generated by the electrolytic unit as cleaning water for a toilet. The concentration tank pressurizes the supplied water, the adsorption tank adsorbs anions contained in the supplied water, the ion exchange membrane disposed in contact with the adsorption tank, and the ions Claims comprising at least a pair of electrodes arranged in contact with the exchange membrane and voltage applying means for electrolyzing water molecules intermittently with the electrodes, and generating acidic electrolyzed water containing hypochlorous acid as washing water Item 1. The toilet device according to Item 1. The adsorption tank adsorbs cations and anions contained in the supplied water, an ion exchange membrane disposed in contact with the adsorption tank, and at least a pair of electrodes disposed in contact with the ion exchange membrane; A voltage application means for electrolyzing water molecules intermittently with the electrode, generating acidic electrolyzed water and alkaline electrolyzed water as washing water, and neutralizing at least one water and the other water from the toilet The toilet apparatus according to claim 1 or 2, wherein drainage is performed. The toilet apparatus of any one of Claims 1-3 provided with the adsorption | suction means which adsorb | sucks the gas component produced when making electrolyzed water. The toilet apparatus of any one of Claims 1-4 provided with the decomposition | disassembly means for decomposing | disassembling the gas component produced when making electrolyzed water. The toilet device according to any one of claims 1 to 5, further comprising a control unit, wherein cleaning water is supplied by the control unit during a predetermined time period. The toilet device according to any one of claims 1 to 6, further comprising a control unit, wherein the cleaning water is supplied in an arbitrary time zone according to the setting of the control unit. Detection means for detecting the use state of the toilet, storage means for storing the use state detected by the detection means, and calculation means for statistically calculating time zones frequently used based on the data stored in the storage means A toilet apparatus according to any one of claims 1 to 7, further comprising a cleaning water supply mechanism including a control means for supplying cleaning water at a predetermined time period based on a result of the calculation means. Measuring means for measuring or approximating the target substance concentration of wash water contained in the supplied water, water amount measuring means for measuring the cumulative amount of raw water that has passed through the adsorption tank, the concentration measuring means, and the water amount measuring means And calculating means to calculate the amount of target substance adsorbed in the adsorption tank, and desorption or electrolysis can be started when the target component in raw water is adsorbed in the amount necessary for the generation of wash water. The toilet apparatus of any one of Claims 1-8 which controls an electrolysis part by the method to do. The toilet device according to any one of claims 1 to 9, further comprising detection means for detecting a change in the state of the toilet, and generating wash water when the state of the toilet changes according to a detection result of the detection means.