KR101187110B1 - Toilet bowl - Google Patents

Abstract

The present invention relates to a toilet bowl device,

Since the bidet nozzle 51 is moved to the retracted position, the cleaning water having a bactericidal property is ejected from the nozzle wash water jet port 60 to the bidet wash water jet port 52 of the bidet nozzle 51 so that a large-capacity silver electrode It is possible to prevent mold from occurring in the bidet nozzle 51 without using it. In addition, since the disinfectant is stored in the same hot water tank as the hot water heater, the disinfectant contacts the washing water that has been warmed, so that the solubility of the disinfectant component in the washing water is increased. Therefore, since the washing water containing a high concentration of bactericidal components is ejected from the nozzle washing water jet port 60 to the bidet washing water jet port 52, the effect of preventing the occurrence of mold in the bidet washing water jet port 52 is increased, and a large amount of silver It is characterized by preventing mold from occurring in the bidet nozzle 51 without using an electrode.

Description

Toilet bowl device {TOILET BOWL}

The present invention relates to a toilet apparatus for cleaning a user's cleaning target site by ejecting the washing water to the user's cleaning target site from a jet of the nozzle.

In the case of the toilet bowl, since each of the nozzle and the storage place of the nozzle is always wet with water as well as excreta adhered to the nozzle, odor may be generated on the basis of mold generation at the nozzle. Conventionally, mold generation was suppressed through an electrolysis device in a water supply passage of washing water to a nozzle (see Japanese Patent Laid-Open No. 2005-105741 and Japanese Patent Laid-Open No. 2000-204632). The electrolysis device according to these patent documents uses a silver electrode, and generates silver ions based on electrolysis of silver to contain silver ions in the washing water.

The conventional toilet device has a disadvantage of requiring a power supply device for electrolyzing water. In addition, since the silver ion concentration of the washing water advances as the consumption of the silver electrode proceeds, it is necessary to use a large capacity silver electrode that does not lower the silver ion concentration below the required level. Because of this, not only is the cost very high, but there is also the problem of consuming a large amount of rare silver and worsening the environment.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a toilet device capable of preventing mold from occurring in a nozzle without using a large-capacity silver electrode.

The toilet seat apparatus of the present invention is installed in the toilet seat for the user to put the buttocks, a nozzle which is installed relatively movable with respect to the toilet seat, the water is injected as a washing water for cleaning the user's cleaning target site, and installed in the nozzle And a jet port for jetting the washing water injected into the nozzle, an effective position at which the jet port faces the user's cleaning target site while the user puts the hips on the toilet seat, and the jet port faces the user's cleaning target site. A drive source for moving the nozzle between the invalid positions which are not to be disposed, a washing tool facing the jet port in a state in which the nozzle is moved and operated in an invalid state, and positioned at an upstream side of the flow of washing water with respect to the washing tool; Installed on the basis of heating the washing water upstream of the washing tool. And a disinfectant which is provided to be located downstream or in the same part of the flow of the washing water relative to the heating source to impart bactericidal properties to the washing water, wherein the heating source is warmed and the germicide is The washing water imparting bactericidal properties is jetted toward the jet port in an ineffective state of the cleaning tool.

Since the cleaning water having a bactericidal property is ejected from the cleaning port to the ejection port of the nozzle while the nozzle is moved to the invalid position, mold can be prevented from occurring in the nozzle without using a large-capacity silver electrode. Moreover, the disinfectant is provided so that it may be located downstream or the same part of the flow of wash water with respect to a heating source. For this reason, since the disinfectant contacts the wash water heated by water, the solubility of the disinfectant component of the disinfectant in the washing water becomes high. Therefore, since the warmed wash water which contains the disinfecting component in high concentration | concentration in the nozzle outlet is ejected, the effect which prevents mold generation becomes high.

[Example 1]

As shown in FIG. 1, the hollow casing 2 is detachably fixed to the upper surface of the toilet bowl 1. The case 2 functions as a hot water tank in which the washing water for cleaning the toilet 1 is temporarily stored in addition to each of the user's anus and urinary tract, and the case 2 has a control panel 3. It is joined. As shown in Fig. 2, the control panel 3 includes an anal cleansing switch 4, a bidet switch 5, a stop switch 6, a hot water switch 7, a jet pressure switch 8 and a toilet seat heating switch. Each of 9 is operably mounted, and each of the anal cleansing switch 4 and the toilet seat heating switch 9 is connected to a control circuit 10 mainly composed of a microcomputer. This control circuit 10 includes a CPU 11, a ROM 12, and a RAM 13, and based on the output signal from each of the anal cleansing switch 4 to the toilet seat heating switch 9, The operation contents of each of the positive switch 4 and the toilet seat heating switch 9 are detected.

As shown in FIG. 2, the remote control signal receiving circuit 14 is connected to the control circuit 10. The remote control signal receiving circuit 14 receives an infrared signal transmitted from the remote controller 15, and the remote controller 15 includes an anal cleansing switch, a bidet switch, a stop switch, a hot water switch, a jet pressure switch, and a toilet seat heating switch. Each of these is mounted so that operation is possible. The remote controller 15 transmits an infrared signal corresponding to the operation contents of the anal cleansing switch and the toilet seat heating switch, and the control circuit 10 controls the remote controller according to the reception result of the remote control signal receiving circuit 14. We detect each operation contents of anal cleansing switch-toilet seat warming switch of (15).

As shown in FIG. 1, the toilet seat 16 is attached to the case 2 so that rotation is possible about the horizontal axis 17. As shown in FIG. The toilet seat 16 is rotated about the axis 17 between a horizontal use position in contact with the upper surface of the toilet bowl 1 and an unused position in an inclined state spaced upwardly from the upper surface of the toilet bowl 1. 1 shows the toilet seat 16 in a use position. The toilet seat 16 is a user puts a hip in a use position, and the toilet seat 16 is made of synthetic resin. A heater wire 18 (see FIG. 2) is embedded in the toilet seat 16. This heater wire 18 heats the toilet seat 16 from the inside so that a user will not feel cold when a user puts the buttocks on the toilet seat 16. This heater wire 18 is connected to the control circuit 10 via the heater drive circuit 19, as shown in FIG. 2, and the control circuit 10 is the toilet seat heating switch 9 of the control panel 3. Toilet seat heating mode that turns on the heater wire 18 and the toilet seat that does not turn on the heater wire 18 according to the operation contents of the control panel and the toilet seat heating switch of the remote controller 15. Non-heating modes are switched between each other.

As shown in FIG. 1, the lid 20 is attached to the case 2 so as to be rotatable about the toilet seat 16 and the common shaft 17. This cover 20 is rotated about the toilet seat 16 about the axis 17 between the open position spaced apart from the toilet seat 16, and the closed position which contacts the toilet seat 16, FIG. Silver cover 20 is shown in the open position. The lid 20 disables and closes each of the toilet bowl 1 and the toilet bowl 16 on the basis of being in the closed position in the use position of the toilet seat 16 and opening in the use position of the toilet seat 16. Each of the toilet bowl 1 and the toilet seat 16 is made available based on being in position.

As shown in FIG. 1, the case 2 is equipped with a seating sensor 21. This seating sensor 21 consists of an infrared sensor which has a detection area above the front toilet seat 16, and detects a seat of a user based on what the user seats on the toilet seat 16, and outputs a seating signal. do. This seating sensor 21 is connected to the control circuit 10, as shown in FIG. 2, and the control circuit 10 is based on the presence or absence of the seating signal from the seating sensor 21, and the user has a toilet seat ( 16) It is determined whether or not seated on. This seating sensor 21 corresponds to a detector.

As shown in FIG. 3, one end of the hose 23 is connected to the case 2, and a valve mechanism 24 is connected to the other end of the hose 23. This valve mechanism 24 is equipped with the hose connection part 25, and the hose connection part 25 is connected to the branch plug 27 through the hose 26, as shown in FIG. The branch plug 27 has one water receiving port and two water discharge ports, and the hose 26 is connected to one discharge port of the branch plug 27. The drip port of this inlet stopper 27 is connected to the water pipe, and the tap water is washed from the branch stopper 27 through the hose 26, the valve mechanism 24, and the hose 23 in turn in the case 2. It is injected as water. The remaining discharge port of this branch plug 27 is connected to a low-tank 22 via a hose 28, as shown in FIG. The furnace tank 22 stores washing water for discharging waste from the inside of the toilet 1, and tap water is discharged from the branch cap 27 through the hose 28 as a washing water in the furnace tank 22. Is injected.

As shown in FIG. 3, a cylindrical water outlet 29 is fixed to the bottom plate of the case 2, and a bolt-shaped water stopper is disposed on the inner circumferential surface of the water outlet 29. 30 is screwed in. The water stopper 30 is peeled off from the inner circumferential surface of the water outlet 29 by closing the water outlet 29 in a state where the water outlet 29 is screwed to the inner circumferential surface of the water outlet 29 so that the washing water in the case 2 can not flow out. In this state, the water outlet 29 is opened so that the washing water in the case 2 can flow out, and the washing water inside the case 2 is moved outwardly based on removing the water stopper 30 from the water outlet 29. Discharged.

As shown in FIG. 5, the valve mechanism 24 includes an on-off valve 31 and a pressure reducing valve 32. The pressure reducing valve 32 depressurizes the tap water injected from the hose 26 via the hose connecting portion 25 to flow to the hose 23, and is piped upstream of the on / off valve 31. The on-off valve 31 uses the on-off valve solenoid 33 (refer to FIG. 2) as a drive source, and tap water is discharged from the hose 23 to the case 2 in the on-state of the on-off valve solenoid 33. It becomes an open state which can be injected into the inside, and becomes a closed state in which tap water cannot be injected into the case 2 in the off state of the on-off valve solenoid 33. This switching valve solenoid 33 is connected to the control circuit 10 via the solenoid drive circuit 34, as shown in FIG. 2, and the control circuit 10 controls the on-off valve solenoid 33 on-off. On and off operation of the on-off valve 31 is performed.

As shown in FIG. 3, the case 2 is equipped with a water level gauge 35. The water level gauge 35 has a float 37 and a float switch 38 inserted into the guide rod 36 extending in the vertical direction and the outer circumferential surface of the guide rod 36 so as to be movable in the vertical direction (FIG. 2). Each of the guide rod 36 and the float 37 is accommodated in the case 2, as shown in FIG. The float 37 has a specific gravity smaller than that of the washing water in the case 2, and moves along the guide rod 36 between the lower limit position and the rising limit position according to the level of the washing water in the case 2. The float switch 38 is mechanically switched between the on state and the off state according to the vertical position of the float 37. This float switch 38 is connected to the control circuit 10, as shown in FIG. 2, and the control circuit 10 opens / closes the valve 31 so that the washing water of a predetermined level is always stored in the case 2. ) Is opened and closed according to the electrical state of the float switch 38.

As shown in FIG. 3, the case 2 is equipped with an overpressure preventing valve 39. This overpressure prevention valve 39 is an upper closed type in which the internal pressure of the case 2 is lower than the required level, and is closed on the basis that the internal pressure of the case 2 rises above the required level. Is switched to the open state. The case 2 is equipped with an overflow tube 40. One end of the overflow tube 40 is inserted into the case 2, and when the amount of washing water exceeding the limit level is injected into the case 2, the excess washing water exceeding the limit level is overflow tube. It is discharged from the inside of the case 2 to the outside through the 40. The other end of the overflow tube 40 is inserted into the toilet 1, and the washing water overflowed from the inside of the case 2 is introduced into the toilet 1 through the overflow tube 40. Discharged.

Inside the case 2 is housed a hot water heater 41 (see Fig. 2) made of a sheathed heater. The hot water heater 41 is heated to warm water based on heating the washing water in the case 2, and is connected to the control circuit 10 via the heater drive circuit 42 as shown in FIG. 2. . The water temperature sensor 43 made of a thermistor is accommodated in the case 2, and the water temperature sensor 43 is connected to the control circuit 10. The water temperature sensor 43 detects the temperature of the washing water in the case 2, and the control circuit 10 sets the target water temperature according to the operation contents of the hot water switch 7, and the water temperature sensor 43 The temperature of the washing water in the case 2 is controlled as a result of setting the target temperature based on driving control of the hot water heater 41 so that the output signal converges on the result of setting the target water temperature. This hot water heater 41 corresponds to a heating source.

As shown in FIG. 3, the case 2 is equipped with a thermostart 44 and a thermal fuse 5. Each of these thermostarts 44 and the temperature fuse 45 is interposed in the supply path of the power supply to the hot water heater 41, and the thermostart 44 and the temperature fuse 45 are connected in series with each other. The temperature fuse 45 operates based on the surface temperature of the hot water heater 41 rising to a required level, and when the temperature fuse 45 is operated, the supply path of power to the hot water heater 41 is cut off. On the basis of this, the hot water heater 41 is forcibly turned off. The thermostart 44 is a normally closed type in which the surface temperature of the hot water heater 41 is turned on in a normal state below a required level. The thermo start 44 is switched from the on state to the off state based on the surface temperature of the hot water heater 41 exceeding the required level. When the thermo start 44 is switched from the on state to the off state, the hot water is The hot water heater 41 is forcibly turned off based on the interruption of the supply path of power to the heater 41.

As shown in FIG. 4, the outer nozzle 46 is attached to the case 2 so that it can move linearly in the front-back direction. The outer nozzle 46 has a cylindrical shape extending linearly in the front-rear direction, and each of the front and rear surfaces of the outer nozzle 46 is open. The nozzle cover 47 is fixed to the case 2. This nozzle cover 47 forms a cylindrical shape surrounding the external nozzle 46, and the length of the front and rear direction of the nozzle cover 47 is set shorter than the external nozzle 46. As shown in FIG. The inner nozzle 48 is fixed to the inner circumferential surface of the outer nozzle 46. These external nozzles 46 and the internal nozzles 48 constitute an anal cleansing nozzle 49, and the anal cleansing nozzle 49 is located between the external nozzle 46 and the internal nozzle 48, and is placed in the case 2. A straight flow passage through which the washing water in the water can flow is formed. An anal wash water jet port 50 is formed at the front end of the outer nozzle 46. The anal rinse water jet port 50 is composed of a plurality of through-holes opened upward, and the washing water flowing inside the anal rinse nozzle 49 is jetted upward from the anal rinse water jet port 50. This anal cleansing nozzle 49 corresponds to a nozzle, and the anal cleansing water jet port 50 corresponds to a jet port for ejecting cleansing water into an anus, which is a user's washing target site.

A hollow bidet nozzle 51 is fixed to the external nozzle 46 as shown in FIG. This bidet nozzle 51 is accommodated in the inside of the external nozzle 46, and the front end part of the bidet nozzle 51 protrudes forward from the front end surface of the anal cleaning nozzle 49. As shown in FIG. At the front end of this bidet nozzle 51, each of the bidet washing water jet port 52 and the toilet bowl washing water jet port 53 is formed. The bidet washing water jet port 52 is composed of a plurality of through holes opened upward, and the toilet bowl washing water jet port 53 is formed of a plurality of through holes opened downward, and the washing flows through the inside of the bidet nozzle 51. Water is jetted upward from the bidet washing water jet port 52, and jetted downward from the toilet bowl flushing water jet port 53. This bidet nozzle 51 is corresponded to a nozzle, and the bidet washing | cleaning water jet port 52 is corresponded to the ejection opening which sprays a wash water to the urinary device which is a user's washing | cleaning object site | part.

The external nozzle 46 is connected to the rotating shaft of the nozzle manipulation motor 54 (see FIG. 2) through nozzle manipulation mechanics. This nozzle operation mechanism transmits the rotational force of the nozzle motor 54 to the external nozzle 46, and the anal cleaning nozzle 49 and the bidet nozzle 51 are moved and operated integrally with each other via the external nozzle 46. . This nozzle motor 54 is connected to the control circuit 10 via the motor drive circuit 54a as shown in FIG. 2, and the control circuit 10 controls the amount of rotation of the nozzle motor 54. As shown in FIG. On the basis of this, the anal cleansing nozzle 49 is moved to each of the retracted position and the forward position, and the bidet nozzle 51 is moved to the retracted position and the advance position, respectively. This nozzle motor 54 corresponds to a drive source, the forward position corresponds to the effective position, and the retracted position corresponds to the invalid position.

4A illustrates a state in which each of the anal cleansing nozzle 49 and the bidet nozzle 51 is moved to the retracted position, and the retracted position of the anal cleansing nozzle 49 is the anal cleansing nozzle 49. Is set to a position stored inside the nozzle cover 47 without protruding forward from the front face of the nozzle cover 47, and the retracted position of the bidet nozzle 51 is the front face of the bidet nozzle 51. It is set to the position accommodated in the inside of the nozzle cover 47 without protruding forward from the front end surface of this nozzle cover 47, and each of the anal cleaning nozzle 49 and the bidet nozzle 51 is moved to a retracted position. In this state, the front end face of the bidet nozzle 51 protrudes forward from the front end face of the anal cleansing nozzle 49. 4B illustrates a state in which each of the anal cleansing nozzle 49 and the bidet nozzle 51 is moved and operated in the forward position, and the forward position of the anal cleansing nozzle 49 is set by the user in the toilet seat ( 16) is set to a position where the anal flushing water jet port 50 faces the user's anus when it is seated in the normal posture, and the forward position of the bidet nozzle 51 is the user's normal posture to the toilet seat 16. The bidet washing water jet port 52 is set at a position opposite to the urinary user when the user is seated on the floor.

As shown in FIG. 5, the case 2 is connected to a drip port of the flow regulating valve 56 via a hose 55. This flow regulating valve 56 has three discharge ports of an anal flushing water port, a bidet flushing water port, and a nozzle flushing water discharge port, and the anal flushing water discharge port is connected to the anal flushing nozzle ( 49 is connected, and the bidet nozzle 51 is connected to the bidet washing | cleaning water outlet port via the hose 58, and the nozzle washing water jet port 60 is connected to the nozzle washing | cleaning outlet port through the hose 59. . As shown in FIG. 4, the nozzle washing water jet port 60 is fixed to the nozzle cover 47, and the anal washing water jet port 50 of the anal cleaning nozzle 49 is retracted from the anal cleaning nozzle 49. In the state, it is disposed inside the jetting area of the nozzle cleaning water jet opening 60, and the bidet cleaning water jet opening 52 of the bidet nozzle 51 is ejected from the nozzle cleaning water jet opening 60 in the retracted state of the bidet nozzle 51. It is placed inside the area. This jet region refers to an area in which the washing water is jetted from the nozzle washing water jet port 60. In each of the recesses of the anal cleaning nozzle 49 and the bidet nozzle 51, the nozzle washing water jet port 60 is anal cleansed. Each of the water jet port 50 and the bidet washing water jet port 52 faces the nozzle cleaning water jet port 60, and the anal cleaning water jet port 50 is based on the fact that the washing water is jetted from the nozzle cleaning water jet port 60. And each of the bidet washing water jet ports 52 is washed with washing water. This nozzle washing water jet port 60 corresponds to a washing port.

The flow regulating valve 56 incorporates a switching valve. The switching valve is to switch between an anal cleaning state for opening the anal flushing water port, a bidet cleaning state for opening the bidet cleaning water outlet port, and a nozzle cleaning state for opening the nozzle cleaning water outlet port, and the anal cleaning of the switching valve. When the on-off valve 31 is opened in the state, tap water is injected from the hose 23 into the case 2 as the washing water, and the washing water in the case 2 is sequentially passed through the hose 57 and the anal cleaning nozzle 49. It is ejected from the anal rinse water jet port 50. Further, when the on-off valve 31 is opened in the bidet cleaning state of the switching valve, tap water is injected from the hose 23 into the case 2 as the washing water, and the washing water in the case 2 is the hose 58 and the bidet nozzle. Through 51, it is ejected from each of the bidet washing water jet port 52 and the toilet bowl washing water jet port 53. Further, when the on-off valve 31 is opened in the nozzle cleaning state of the switching valve, tap water is injected from the hose 23 into the case 2 as the washing water, and the washing water in the case 2 passes through the nozzle 59 through the nozzle 59. It is ejected from the washing water jet opening (60). That is, when the hot water heater 41 is operated, the washing water in the case 2 is warmed, the anal washing water jet port 50, the bidet washing water jet port 52, the toilet bowl washing water jet port 53, and the nozzle washing water. The warm water wash water is discharged from each of the jet holes 60.

The changeover valve is driven by a change-over valve drive motor 61 (see Fig. 2). This switching valve motor 61 is connected to the control circuit 10 via the motor drive circuit 62, as shown in FIG. 2, and the control circuit 10 controls the rotation amount of the switching valve motor 61. FIG. The flow rate control valve 56 is in an anal cleaning state, a bidet cleaning state, and a nozzle cleaning state based on the control according to each of the operation contents of the anal cleaning switch 4 of the panel 3 and the operation contents of the bidet switch 5. The flow rate adjustment bar 56 is analized based on the mutual switching and controlling the rotation amount of the switching valve motor 61 according to each of the operation contents of the anal cleaning switch of the remote controller 15 and the operation contents of the bidet switch. The cleaning state, the bidet cleaning state and the nozzle cleaning state are switched to each other.

The flow regulating valve 56 has a built-in opening adjustment mechanism. This opening degree adjustment mechanism adjusts the opening degree of the flow regulating valve 56 using the opening degree adjustment motor 63 (refer FIG. 2) as a drive source, The anal wash water jet port 50, the bidet wash water jet port 52, a toilet bowl From each of the washing water jet port 53 and the nozzle washing water jet port 60, the washing water is jetted at the jet pressure according to the adjustment result of the opening degree of the opening degree adjustment mechanism. The opening degree adjustment motor 63 of this opening degree adjustment mechanism is connected to the control circuit 10 via the motor drive circuit 64, as shown in FIG. 2, and the control circuit 10 of the control panel 3 Anal wash water jet port 50 and bidet based on controlling the rotation amount of the opening degree adjustment motor 63 according to the operation contents of the jet pressure switch 8 and the operation details of the jet pressure switch of the remote controller 15. The washing water is jetted from the washing water jet port 52, the toilet washing water jet port 53, and the nozzle cleaning water jet port 60 at an intensity corresponding to the operation contents of the jet pressure switch 8 and the like.

As shown in FIG. 3, an air pump is connected to the flow regulating valve 56 via a hose 65. This air pump supplies air to the flow regulating valve 56, and when the air pump operates in the open state of the on-off valve 31, the anal washing water jet port 50, the bidet washing water jet port 52, and the toilet bowl cleaning The washing water mixed with air is jetted from each of the water jet port 53 and the nozzle cleaning water jet port 60. This air pump uses the pump motor 66 (refer FIG. 2) as a drive source. This pump motor 66 is connected to the control circuit 10 via the motor drive circuit 67, as shown in FIG. 2, and the control circuit 10 opens and closes the pump motor 66. Air to the washing water jetted from each of the anal flushing water jet port 50, the bidet flushing water jet port 52, the toilet bowl flushing water jet port 53, and the nozzle flushing water jet port 60 based on the operation in the open state of the air. Mix it.

As shown in FIG. 6, in the case 2, a plurality of protrusions 68 are formed at the bottom. A common cover 69 is inserted into each of the plurality of protrusions 68, and the cover 69 is fused to each of the plurality of protrusions 68 and is fixed to the inside of the case 2. A container-shaped cassette case 70 in which a lower surface is opened is detachably joined to the cover 69, and the lower surface of the cassette case 70 is blocked by a cover 69. A metal mesh 71 is joined to the cassette case 70 at a ceiling portion, and another metal mesh 72 is joined to a peripheral portion thereof. Each of these meshes 71 and 72 has a mesh shape of a hole diameter through which the wash water in the case 2 can flow, and the hole diameter of the ceiling mesh 71 is compared with the hole diameter of the mesh 72 in the periphery. It is set small. Each of these meshes 71 and mesh 72 corresponds to a filter, and the cassette case 70 corresponds to a disinfectant container.

As shown in FIG. 6, the disinfectant 73 is accommodated in the cassette case 70. As shown in FIG. The disinfectant 73 includes a plurality of sterilization glass components made of a slow dissolving phosphoric acid system glassy solid dispersion having a metal element uniformly, and the anal cleansing water jet 50 The washing water having a bactericidal effect is ejected from each of the bidet washing water jet port 52, the toilet bowl washing water jet port 53, and the nozzle washing water jet port 60. Each of these sterilizing glasses has a large block shape compared with each of the hole diameter of the mesh 71 and the hole diameter of the mesh 72, and each of the sterilizing glass has a cassette case (through each of the mesh 71 and the mesh 72). It is impossible to escape to the outside of 70, and each through hole of the anal flushing water jet 50 and each through hole of the bidet flushing water jet 52 and each of the through holes of the toilet flushing water jet 53 and the nozzle flushing water jet 53 Each of the 60 is set larger than the hole diameter of the mesh 71 and is set larger than the hole diameter of the mesh 72. Each of these sterile glasses contains about 3% (wt%) silver oxide, about 27% (wt%) zinc oxide and about 1% (wt%) cobalt oxide (and about 69% (wt%) calcium phosphate) It contains. Generally, as soluble glass, phosphoric acid-based glass containing borosilicate glass mainly composed of silicon oxide (SiO ₂ ) and boron oxide (B ₂ O ₃ ) and diphosphorus pentoxide (P ₂ O ₅ ) as main components acid system glass), but phosphate-based glass having high solubility is used as each disinfectant glass. For this reason, since the germicidal effect of each germicidal glass lasts for a long time, it is possible to prevent the scale (scale) from adhering to each of the toilet bowl 1 and the hot water heater 41.

When using a toilet device equipped with a heating device that raises the washing water temperature to increase cleaning power, the evaporation residue (scale) such as calcium, magnesium, and silicic acid contained in the tap water is concentrated on the surface of the hot water heater 41 and the water temperature sensor 43. Precipitates are deposited on each of the surfaces of the c) and deposited on each of the surface of the hot water heater 41 and the surface of the water temperature sensor 43. When this scale is deposited, the heating efficiency of the hot water heater 41 is lowered, and since the accurate temperature measurement by the water temperature sensor 43 is impossible, the temperature control of the hot water heater 41 cannot be performed normally. When the scale is deposited on the toilet bowl 1, it causes a deterioration of the contamination. Therefore, since the contamination is further deposited from the scale, mold and the like tend to occur, the generation of the scale is disadvantageous for the user. For this the time for the acid components contained in each of the air filtering glass is soluble in water chelate (chelate) structure ^{_{(Ca 2 P 6 O 18 2}} - -, Mg 2 P 6 O 18 2) for each of the calcium and magnesium in tap water In addition, the water solubility of the calcium powder is increased, thereby preventing the precipitation of calcium carbonate and calcium silicate as a scale. Therefore, accurate temperature measurement by the water temperature sensor 43 can be continuously carried out for a long time, and the scale can be prevented from adhering to the toilet bowl 1, thereby eliminating the cause of mold occurrence.

Phosphoric acid component (P ₂ O ₅ ) having solubility in washing water in each of the sterilizing glasses has both an effect of maintaining transparency of the sterilizing glass and an effect of solubilizing silver ions in the washing water. When the concentration of the phosphoric acid component is less than 10% by weight, the mechanical strength of the sterilized glass cannot be maintained, and when it exceeds 80% by weight, there is a fear that the mechanical strength of the sterilized glass is reduced. For this reason, 10-80 weight% is preferable and, as for content of the phosphoric acid component of each bactericidal glass, 30-70 weight% is more preferable.

When silver ions, which are antimicrobial components, combine with anions in tap water, especially chlorine and sulfur ions, solubility produces a small salt product, solubility decreases, and silver ions, which are antimicrobial components, are less likely to be released into water. . For this reason, an effective component may not be eluted and the antibacterial effect may fall. In contrast, the washing water in the case 2 has a phosphoric acid component eluted from the sterilizing glass as an anion. For this reason, since the eluted silver ion can be stably maintained in the state which has a disinfecting effect, without forming a poorly soluble salt, the disinfection effect is continued. Therefore, even if the concentration is relatively low, the effective bactericidal effect can be exhibited, so that the cost of the bactericide 73 can be reduced. In addition, the blackening characteristic peculiar to silver ions (a phenomenon in which metal ions turn into silver and blacken the attached substance etc. when silver ions become high in concentration) can be reduced.

Silver oxide elutes as silver ions in washing water, and exhibits a bactericidal effect. Cobalt oxide is added as a metal oxide for coloring the sterilizing glass in blue, and since the sterilizing glass becomes bright blue even at a very low content of about 0.01%, the sterilizing glass becomes easy to visually recognize. Specifically, the disinfection glass may contain 0.1 to 5% by weight of Ag ₂ O, 10 to 90% by weight of the phosphoric acid component, and the content of Ag ₂ O may be determined according to the required bactericidal properties. In other words, when Ag ₂ O is 0.1% by weight or less, the actual bactericidal properties of the sterilized glass are not obtained. When Ag ₂ O is 5% by weight or more, the sterilized glass becomes brown easily discolored and the manufacturing cost is high. the content of Ag ₂ O is preferably adjusted in the range of 0.1% to 5% by weight. Moreover, you may contain about 0-50 weight% of zinc oxide or cerium oxide which has bactericidal property. Each of these zinc oxides and cerium oxides helps prevent browning of the sterile glass and can be expected to have the effect of removing microorganisms and fungi that are not in contact with silver ions, or inhibiting the growth of microorganisms and fungi. However, since the disinfection glass may discolor when the content of zinc oxide and cerium oxide exceeds 50% by weight, the content of zinc oxide and cerium oxide is preferably 50% by weight or less.

Each sterile glass may be any one of a disc shape having a size of about 10 mm and a thickness of about 5 mm and a rectangle of about 5 mm chamfered, the weight of which is several grams. A total of 200 g of sterile glass is stored in the cassette case 70. The size of each of these disinfection glasses is determined by whether the concentration of silver ions sufficient to exert disinfection in the washing water inside the case 2 can be used in a state of being continued for more than 10 years exceeding the average life of the toilet bowl. It calculated | required from a viewpoint, and calculated and optimized based on the dissolution rate of the sterilized glass experimentally obtained. As a result of the calculation, the concentration of silver ions released from the sterilizing glass after 10 years is about 90% of the initial concentration, but this concentration is a value having sufficient bactericidal properties. In other words, when silver ions are impregnated with zeolite, apatite, or the like, the dissolution rate is greatly changed, but the disinfection glass is uniformly dispersed in the disinfection component and the solid solution itself is suspended. Since the bactericidal component is released on the basis, the concentration change is very small. In addition, the antibacterial glass is shape | molded in disk shape or the chamfered rectangle. For this reason, it can prevent that the sterile glass is crushed and leaked by the impact by the water pressure of washing water. Moreover, in order to suppress that the burr etc. at the time of shape | molding the sterilization glass unnecessarily fall out from the sterilization glass, you may make a round angle or grind | polish with a barrel.

Silver ions have bactericidal effects even at low concentrations of around 1 ppb (part per billion). This is because the dissolved silver ions are concentrated on the surface in combination with each of the resin as the base material of the anal cleansing nozzle 49 and the resin as the base material of the bidet nozzle 51 and the glass component on the surface of the toilet bowl 1. Each of these adsorptions does not easily fall off, and can always be washed with water having a bactericidal component to maintain a substantially constant concentration of silver ions attached to the surface over a long period of time. 7 is a graph showing the correlation between silver ions in washing water and elapsed days. The solid line of FIG. 7 experimentally calculated the correlation between the silver ion in the washing water and the number of days when using the toilet bowl by storing the sterilizing glass in the cassette case 70 for about 200 g for each day. It shows the concentration of silver ions that can achieve sufficient bactericidal effect in water. As shown in FIG. 7, the effective concentration of silver ions can be maintained even after 10 years have elapsed.

Calcium phosphate is very completely dissolved in the washing water, and silver ions elute slowly over a long period of time. For this reason, it is possible to select each of the required amount and the optimal size of the sterilizing glass and to maintain the disinfecting effect without the user managing to replace the sterilizing glass. However, when the frequency of use is high and management is necessary, the disinfection glass may be replaced for each cassette case 70. In this case, if the cassette case 70 is formed of a transparent material so that the disinfection glass in the cassette case 70 can be identified from the outside, and the disinfection glass is colored with cobalt oxide or the like, the presence or absence of the disinfection glass can be easily confirmed. . In addition, a coloring agent is a density | concentration which is not harmful to a human body, and should just be an inorganic pigment etc .. For example, the same effect can be obtained even if any pigments, such as copper oxide, iron oxide, manganese oxide, and talc, are added. In particular, when coloring with copper oxide, copper ions themselves also have bactericidal properties, so a synergistic effect can be expected.

Each of FIGS. 8 and 9 is a flowchart showing an operation control program stored in the ROM 12 of the control circuit 10 in advance, and the CPU 11 of the control circuit 10 in step S1 of FIG. 8. The operation state of the blowoff pressure switch 8 is judged. For example, when the user operates the jet pressure switch 8, the flow advances from step S1 to step S2, and sets the jet pressure of the washing water in accordance with the operation contents of the jet pressure switch 8. Then, the amount of rotation of the opening degree adjustment motor 63 is set in accordance with the result of setting the ejection pressure, and the opening degree of the flow rate regulating valve 56 is driven based on driving the opening degree adjustment motor 63 in accordance with the result of setting the amount of rotation. It sets in accordance with the operation content of the blowoff pressure switch 8.

When the CPU 11 proceeds to step S3 of FIG. 8, the CPU 11 determines the operation state of the hot water switch 7. For example, when the user operates the hot water switch 7, the flow advances from step S3 to step S4, and sets the water temperature of the washing water in accordance with the operation contents of the hot water switch 7. And based on setting the output of the hot water heater 41 according to the setting result of water temperature, and driving the hot water heater 41 according to the setting result of an output, the water temperature of wash water is made into the operation content of the hot water switch 7. Therefore, set it.

When the CPU 11 proceeds to step S5 of FIG. 8, the CPU 11 determines the presence or absence of the user based on the presence or absence of the seating signal from the seating sensor 21. This step S5 corresponds to the judging means, for example, when the user places the hips on the toilet seat 16, the CPU 11 is based on the presence of a seating signal from the seating sensor 21 in step S5. It is determined that the user exists, and it is determined whether the anal cleansing switch 4 is turned on or off in step S6, and whether the bidet switch 5 is turned on or off in step S8. For example, when the user operates the anal cleansing switch 4 with the butt portion placed on the toilet seat 16, the CPU 11 judges the ON of the anal cleansing switch 4 in step S6, and the step ( In step S7, the buttocks washing flag is turned on to proceed to step S9. In addition, when the user operates the bidet switch 5 with the butt portion placed on the toilet seat 16, the CPU 11 determines whether the bidet switch 5 is turned on in step S8 and proceeds to step S9. do.

When the CPU 11 proceeds to step S9, the nozzle motor 54 is driven in the forward direction by the maximum amount previously stored in the ROM 12. This maximum amount is a value for moving and operating each of the anal cleansing nozzle 49 and the bidet nozzle 51 from the retracted position to the forward position, and each of the anal cleansing nozzle 49 and the bidet nozzle 51 is performed in step S9. Moves from the retracted position to the advanced position based on the operation of the nozzle motor 54 at.

When the CPU 11 operates each of the anal cleansing nozzle 49 and the bidet nozzle 51 in the step S9 from the retracted position to the forward position, the CPU 11 determines the set state of the anal cleansing flag in step S10. When it is determined in step S10 that the anal cleansing flag is turned on, in step S11, the anal cleansing flag is turned off, and in step S12, the flow rate control valve ( Open the anal cleansing outlet port of 56). In addition, when it is determined in step S10 that the anal cleansing flag is turned off, the flow advances to step S13, and the water discharge port for bidet washing of the flow rate control valve 56 is rotated based on the rotation operation of the switching valve motor 61. To open.

When the CPU 11 opens the anal flushing water discharge port or the bidet flushing water discharge port of the flow regulating valve 56, the CPU 11 moves to the flow rate regulating valve 56 based on driving the pump motor 66 in step S14. Send air. Then, the flow advances to step S15 to open and close the solenoid valve solenoid 33. That is, when the user operates the anal cleansing switch 4, in step S15, the warmed washing water containing the antibacterial component is injected from the anal cleansing water jet port 50 of the anal cleansing nozzle 49 into the anus of the user. When the user operates the bidet switch 5, in step S15, the warmed washing water containing the antibacterial component is injected from the bidet washing water jet port 52 of the bidet nozzle 51 into the urinary device of the user. In addition, warm water-washed washing water containing a bactericidal component is injected from the toilet bowl washing water jet port 53 of the bidet nozzle 51 to the toilet bowl 1. This step S15 corresponds to the washing process starting means.

When the CPU 11 opens the on-off valve solenoid 33 in step S15, it determines whether the stop switch 6 is on or off in step S16. For example, when the user operates the stop switch 6, the CPU 11 determines the on of the stop switch 6 in step S16, stops the pump motor 66 in step S17, The jetting operation of the washing water is stopped based on closing the on-off valve solenoid 33 in step S18. This step S18 corresponds to the washing process stop means.

When the CPU 11 closes the opening / closing valve solenoid 33 in step S18, the anal cleaning nozzle 49 and the bidet nozzle (based on driving the nozzle motor 54 in the reverse direction by the maximum amount in step S19). Each of 51) is moved from the forward position to the retracted position. Then, the nozzle cleaning outlet port of the flow control valve 56 is opened based on the rotation operation of the switching valve motor 61 in step S20, and the on-off valve solenoid 33 is opened in step S21. . In the open state of the opening / closing valve solenoid 33, the hot watered washing water containing the bactericidal component is ejected from the nozzle washing water jet port 60, and the anal washing water jet port 50 and the bidet nozzle of the anal cleaning nozzle 49 are ejected. Hot water-washed washing water containing a bactericidal component is injected into each of the bidet washing water jet ports 52 of 51.

When the CPU 11 opens the on-off valve solenoid 33 in step S21, the timer T is reset to "0" in step S22 of FIG. 9, and the clock signals in step S23. Judge the presence or absence. The clock signal is output at regular time intervals from a clock generator inside the control circuit 10. When the CPU 11 determines that the clock signal is in step S23, it proceeds to step S24. The unit value stored in advance in the ROM 12 is added to the timer T.

When the CPU 11 adds the timer T in step S24, the nozzle cleaning stop time (for example, 10 seconds) stored in advance in the ROM 12 by the addition result of the timer T in step S25. ). When it is determined that the addition result of the timer T has reached the nozzle cleaning stop time, the flow advances to step S26, and the washing water from the nozzle washing water jet port 60 is based on closing the opening / closing valve solenoid 33. Stops the eject operation.

When the CPU 11 closes the opening / closing valve solenoid 33 in step S26, it determines whether there is a seating signal from the seating sensor 21 in step S27. For example, when the user raises the hip from the toilet seat 16 after the operation of the stop switch 6 and moves out of the detection area of the seating sensor 21, the CPU 11 moves from the seating sensor 21 in step S27. Based on the absence of the seating signal, it is determined that the user does not exist, the timer T is reset to "0" in step S28, and the presence or absence of a clock signal is determined in step S29. When it is determined that there is a clock signal, the flow advances to step S30 to add the unit value to the timer T.

When the CPU 11 adds the timer T in step S30, the toilet cleaning start time (for example, 10 seconds) stored in advance in the ROM 12 by the addition result of the timer T in step S31. ). This toilet cleaning start time is after the user finishes discharging, the washing water for operating the lever of the furnace tank 22, and discharges the excrement from the furnace tank 22 into the toilet 1, is injected into the toilet 1 It is assumed that the time for the flow of the washing water disappears, and when the CPU 11 determines in step S31 that the addition result of the timer T has reached the toilet cleaning start time, the process proceeds to step S32, and the nozzle The anal cleaning nozzle 49 and the bidet nozzle 51 are each moved from the retracted position to the advanced position based on driving the motor 54 in the forward direction by the maximum amount. Then, the bidet cleaning water discharge port of the flow control valve 56 is opened based on the rotation operation of the switching valve motor 61 in step S33, and the on-off valve solenoid 33 is opened in step S34. . In the open state of the opening / closing valve solenoid 33, hot water-washed washing water containing the bactericidal component is ejected from each of the bidet washing water jet port 52 and the toilet bowl washing water jet port 53, and the toilet bowl 1 is sanitized. The warmed washing water containing the component is sprayed. This step S34 corresponds to toilet bowl cleaning means.

When the CPU 11 opens the on-off valve solenoid 33 in step S34, the counter N is reset to "0" in step S35, and the nozzle motor 54 is ROM (in step S36). 52) and rotates in the reverse direction by a predetermined intermediate amount. This intermediate amount is a value for moving each of the anal cleansing nozzle 49 and the bidet nozzle 51 from the forward position to the toilet cleaning limit position, and the toilet cleaning limit position is rearward of the forward position and forward of the retreat position. Is set.

When the CPU 11 operates each of the anal cleaning nozzle 49 and the bidet nozzle 51 in a step S36 from the forward position to the toilet cleaning limit position, the intermediate amount of the nozzle motor 54 is moved in step S37. The anal cleansing nozzle 49 and the bidet nozzle 51 are moved from the toilet bowl cleaning limit position to the forward position based on the rotational operation by the forward direction. The flow advances to step S38 to add the round trip value "1" previously stored in the ROM 12 to the counter N. FIG.

When the CPU 11 adds "1" to the counter N in step S38, the number of round trip limits stored in advance in the ROM 12 by the addition result of the counter N in step S39 (for example, , 3). Here, when determining "N <number of round trip limits", it returns to step S36 and reciprocally operates each of the anal cleaning nozzle 49 and the bidet nozzle 51 between an advance position and a toilet cleaning limit position. That is, the toilet washing water jet port 53 reciprocates in the front-rear direction and injects the disinfecting washing water heated in the toilet 1 to the toilet.

When the CPU 11 reciprocates each of the anal cleansing nozzle 49 and the bidet nozzle 51 by the number of round trips between the forward position and the toilet bowl cleaning limit position, in step S39, &quot; N = return limit number &quot; To judge. Then, in step S40, the spraying operation of the washing water is stopped based on closing the on-off valve solenoid 33, and in step S41, the anus is based on rotating the nozzle motor 54 in the reverse direction by the maximum amount. Each of the cleaning nozzle 49 and the bidet nozzle 51 is moved and moved from a forward position to a retracted position.

According to the said Example 1, it has the following effects.

Since the washing water having bactericidal properties is ejected from the nozzle cleaning water jet opening 60 to each of the anal cleaning water jet opening 50 of the anal cleaning nozzle 49 and the bidet cleaning water jet opening 52 of the bidet nozzle 51, It is possible to prevent mold from occurring in each of the anal cleansing nozzle 49 and the bidet nozzle 51 without using the silver electrode. Further, since each of the anal cleaning nozzle 49 and the bidet nozzle 51 was moved to the retracted position, the cleaning water having a bactericidal property was ejected from the nozzle cleaning water jet port 60, and thus the external nozzle 46 and the nozzle cover. (47) The fungus can easily disintegrate. In addition, the disinfectant 73 was housed in the same case 2 as the hot water heater 41. For this reason, since the disinfecting agent 73 contacts the wash water heated by water, the solubility of the disinfecting component of the disinfecting agent 73 in the washing water becomes high. Therefore, since the washing water containing a high concentration of the antibacterial component is sprayed from the nozzle washing water jet port 60 to each of the anal washing water jet port 50 and the bidet washing water jet port 52, the anal washing water jet port 50 and the bidet cleaning are ejected. The effect of preventing the occurrence of mold in each of the water jet ports 52 is increased.

Silver ions released from the disinfectant 73 generally have positive electricity, and positively charged silver ions are attracted to the minus charge of the bacteria, causing the bacteria to lose their electrical balance in the cells. Is killed and also killed because it reacts with the -SH group of the enzyme in the bacterium to destroy the activity. When silver ions are released from the phosphate-based glass of the disinfectant 73, hydroxy radicals (-OH) are produced at the same time, and bacteria are killed by the oxidative activity.

The release of silver ions from the disinfectant includes a method of impregnating silver ions with a porous body such as zeolite or apatite and using ion-substituted silver ions. Since the silver ions are eluted little by little from the surface of the substance, the concentration becomes high immediately after the start of use, but since the porous body such as zeolite or apatite is eluted and not worn, the dissolution rate of the disinfectant component inside the porous body is slowed down. Elution concentration is lowered. Unlike zeolites and apatites containing silver ions in the related art, phosphate ions are present. Therefore, silver ions are stably present by the chelate action. For example, each of the anal cleansing nozzle 49 and the bidet nozzle 51 is present. Since the silver adsorbs by reacting with the resin used in the resin and the inorganic filler contained in the resin, the bactericidal effect is increased, and the adsorbed silver ions suppress the growth of bacteria on the surface even after washing, and You can keep it last. Since the silver ions emitted from the disinfectant 73 have a binding action to the hydroxyl group (-OH) not only for the resin but also for the glassy substance, for example, the silver ions bind to the glass glaze component on the surface of the toilet bowl made of pottery, As in the resin surface, bactericidal properties can be imparted.

Each through hole of the anal flushing water jet port 50 and each of the through holes of the bidet washing water jet port 52 and each of the through holes of the toilet flushing water jet port 53 and the nozzle cleaning water jet port 60 are respectively placed in the cassette case 70. It was set larger than the hole diameter of the mesh 71 located in the ceiling part of (), and was set larger than the hole diameter of the mesh 72 located in the circumference of the cassette case 70. For this reason, when the antibacterial agent 73 escaped from the inside of the cassette case 70, each through hole of the anal wash water jet port 50 and each through hole of the bidet wash water jet port 52 and the toilet bowl water jet 53 Since each of the through holes of the nozzle and the nozzle cleaning water jet opening 60 is discharged from each of the through holes of the anal cleansing water jet opening 50 and the through holes of the bidet cleaning water jet opening 52 It is possible to prevent an obstacle in the jetting operation of the washing water on the basis of being filled in one of each through hole of the toilet bowl washing water jet port 53 and the nozzle cleaning water jet port 60.

When the user operates the stop switch 6, the washing water is ejected from the toilet bowl water jet port 53 into the toilet bowl 1 based on the elapse of the toilet cleaning start time based on the determination that the user is not present. The toilet cleaning process is started. For this reason, after the user finishes discharging, the washing water for discharging the excreta from the furnace tank 22 into the toilet 1 by operating the lever of the furnace tank 22 is injected, and the flow of the washing water in the toilet 1 is lost. Since the washing water having bactericidal properties in the toilet bowl 1 is ejected from the toilet bowl washing water jet port 53 at the time point, the washing water jetted from the toilet bowl washing water jet port 53 into the toilet bowl 1 is cleaned from the furnace tank 22. It does not flow by water. Therefore, it is possible to prevent odor from occurring in the toilet bowl 1.

In general, a toilet is molded from a ceramic base, and a glass glaze is applied to the surface of the toilet. When feces adhere to the surface of this toilet, there is a possibility that bacterial breeding occurs as a nutrient source and odor occurs. The unpleasant odor of the toilet is caused by a large amount of urine splashing inside the edge of the toilet when the man urinates in front of the toilet. This was announced by Lion Corporation at the Japan Society of Home Economics in 2005, where a man stood in front of the toilet and urinates a week later. It also contains a lot of bacteria. After 1 week, the number of bacteria is about 2000 / cm2. The causative organism is Staphylococcus aureus (Staphylococcus aureus, etc.), and Staphylococcus decomposes urine, resulting in a strong ammonia odor. Occurs. Odor becomes stronger when this urine spatter is dried. This unpleasant odor is due to the presence of sulfur-containing compounds containing elemental sulfur in the structure of dried urine.

The bidet nozzle 51 was reciprocated between the forward position and the toilet cleaning limit position when jetting the flushing water into the toilet 1 from the toilet washing water jet port 53 of the bidet nozzle 51. For this reason, since the washing | cleaning water is sprayed in the toilet 1 from the toilet washing-water jet port 53 extensively, the germicidal effect of the toilet bowl 1 becomes high in the toilet bowl 1 extensively. The warm-watered washing water containing the germicidal component was ejected from each of the anal washing water jet port 50 of the anal washing nozzle 49 and the bidet washing water jet port 52 of the bidet nozzle 51. For this reason, since the user's washing | cleaning object site | part is wash | cleaned with the warm water wash water containing an antibacterial component, the sanitization effect of a washing | cleaning object site | part also becomes high.

Since the disinfectant 73 is stored in the case 2 storing the washing water, a dedicated tank for storing the disinfectant 73 becomes unnecessary. Moreover, since the whole flow path is not disturbed, the flow rate does not change with time depending on the degree of solubility of the disinfectant 73. In addition, the washing water is heated in the case 2 from the first use of the washing water in the case 2 until the next use. For this reason, since the solubility of the disinfectant 73 becomes high, the density | concentration of the disinfecting component of the washing | cleaning water sprayed from the nozzle washing water jet opening 60 can be maintained at a constant high value.

[Example 2]

FIG. 10 shows processing contents executed by the CPU 11 of the control circuit 10 as shown in FIG. 9, and the CPU 11 performs anal washing water of the anal cleansing nozzle 49 in step S26 of FIG. 10. When each cleaning operation of the bidet washing water jet opening 52 of the jet nozzle 50 and the bead nozzle 51 is stopped, it is determined whether or not a lever switch is turned on in step S42. This lever switch is turned on based on the user operating the lever. This lever is operably mounted to the furnace tank 22, and at the time of operation of the lever, the washing water for discharging wastes from the furnace tank into the toilet bowl 1 is discharged.

If the CPU 11 judges that the lever switch is turned on in step S42, the CPU 11 proceeds to step S28. That is, when the user flows the excrement based on operating the lever of the furnace tank 22, the toilet washing water jet port based on the passage of the toilet cleaning start time (5 seconds in this case) on the basis of operating the lever. The 53 moves from the retracted position to the forward position, and sprays the warmed antibacterial washing water in the toilet 1 while reciprocating between the forward position and the toilet cleaning limit position. Therefore, when the flow of the washing water for discharging the excreta in the toilet 1 disappears, the washing water having a bactericidal property is ejected from the toilet bowl washing water jet port 53 into the toilet bowl 1, so that a bad smell may occur in the toilet bowl 1. It can be prevented from occurring.

[Example 3]

As shown in FIG. 11, the disinfectant case 81 is interposed so that the hose 59 can be attached and detached, and the mesh 82 corresponded to a filter is joined inside the disinfectant case 81. As shown in FIG. The mesh 82 corresponds to a filter, and the hole diameter of the mesh 82 is the size of each through hole of the anal washing water jet port 50, the size of each of the through holes of the bidet washing water jet port 52, and the toilet washing water. It is set smaller than each of the size of each through hole of the jet port 53 and the size of the nozzle washing water jet port 60.

The inner space of the disinfectant case 81 is partitioned by the mesh 82 into the upper washing water distribution chamber 83 and the lower disinfectant storage chamber 84. In the state where the hose 59 is connected to the washing water distribution chamber 83, the disinfectant 73 is stored in the disinfectant storage chamber 84, and the flow rate control valve 56 is switched to the nozzle cleaning state. When the opening / closing valve 31 is opened, the antibacterial washing water is sequentially discharged from the nozzle washing water jet opening 60 via the hose 59 and the disinfecting agent 73 in the disinfecting case 81, and the flow regulating valve 56 ), When the on-off valve 31 is opened in the state of being switched to the anal washing state, in the state in which the antibacterial washing water is not discharged from the anal washing water jet port 50, and the flow rate control valve 56 is switched to the bidet washing state. Even when the open / close valve 31 is opened, the antibacterial washing water is not discharged from each of the bidet washing water jet port 52 and the toilet bowl washing water jet port 53.

According to the third embodiment, the following effects are obtained.

The hot water is heated by the hot water heater 41 and the hot water heater 41 is heated by the hose 57 and the hot water heater 41 to supply the washing water to the anal cleansing nozzle 49 without the bactericidal agent 73. The hose 58 which supplies the washing water to which the bactericide 73 does not provide bactericidal property to the bidet nozzle 51 and the warm water which is heated by the hot water heater 41, and the bactericide 73 gives the bactericidal property. The hose 59 which supplies water to the nozzle washing water jet opening 60 was provided. For this reason, since the washing | cleaning water which has bactericidal property is supplied only to the nozzle washing water jet opening 60, the usage-amount of the disinfecting agent 73 can be reduced. Each of these hoses 57 and 58 corresponds to the first water supply passage, and the hose 59 corresponds to the second water supply passage.

The inside of the disinfectant case 81 is partitioned into an upper washing water distribution chamber 83 and a lower disinfecting agent storage chamber 84, a hose 59 is connected to the washing water distribution chamber 83, and the disinfectant is The disinfectant 73 was stored in the storage chamber 84. For this reason, since the flow path of the washing water does not pass directly to the disinfectant 73 stored in the columnar shape, only the component dissolved in the disinfectant case 81 flows in the flow path therefrom. The disinfectant 73 can be suppressed from becoming a pressure loss of running water. In addition, when the antibacterial agent 73 becomes small, it is possible to prevent the pressure loss from being generated based on the mesh 82 being filled by the antibacterial agent 73, or the flow of water changes by changing the degree of pressure loss. Can be. Since the disinfectant case 81 is detachably installed, the disinfectant 73 can be replenished based on the replacement of the disinfectant case 81 with a new disinfectant case 81.

Example 4

12, the disinfectant case 81 is detachably interposed in the hose 55, and when the on-off valve 31 is opened in the state in which the flow regulating valve 56 is switched to the nozzle cleaning state. The open / close valve 31 is discharged from the nozzle cleaning water jet opening 60 in the state where the antibacterial cleaning water is passed through the antibacterial agent 73 in the germicide case 81 and the flow rate control valve 56 is switched to the anal cleaning state. Is opened, the disinfectant washing water via the disinfectant 73 in the disinfectant case 81 is discharged from the anal washing water jet port 50, and is opened and closed in a state where the flow rate adjusting valve 56 is switched to the bidet washing state. When the valve 31 is opened, the disinfectant washing water passing through the disinfectant 73 in the disinfectant case 81 is discharged from each of the bidet washing water jet port 52 and the toilet bowl washing water jet port 53.

According to the fourth embodiment, the following effects are obtained.

The fungicide case 81 was connected to the downstream of the case 2 immediately after the case 2. For this reason, since the wash water flows into the disinfectant case 81 after it is heated by the hot water heater 41, the disinfecting component is easily dissolved from the disinfectant 73.

In each of the embodiments 3 to 4, a transparent portion is provided on part or all of the disinfectant case 81, so that the inside of the disinfectant case 81 can be visually recognized from the outside, and the disinfectant case ( The use situation of the disinfectant 73 in the 81) may be confirmed from the outside. In this configuration, it is preferable that the phosphate-based glass is colored with a metal such as cobalt or iron to increase the visual recognizability of the disinfectant 73.

[Example 5]

The heating unit 90 is connected to the downstream of the valve mechanism 24 via the hose 23 as shown in FIG. The heating unit 90 is formed by winding a heater wire on an outer circumferential surface of a metal heating tube. The heating tube 90 is based on the opening and closing of the valve 31 when the anal cleaning switch 4 or the bidet switch 5 is operated. The tap water flows through the inside, and the heater wire is warmed based on the heating of the tap water in the heating tube. The heating unit 90 is connected to a flow rate regulating valve 56 via a hose 55. The disinfectant case 81 is detachably interposed in this hose 55, and the disinfectant washing water is discharged from the nozzle washing water jet opening 60 in a state where the flow rate control valve 56 is switched to the nozzle washing state. In the state where the flow rate control valve 56 is switched to the anal rinse state, the antibacterial washing water is discharged from the anal rinse water outlet 50, and in the state where the flow rate control valve 56 is switched to the bidet washing state, 52) and the disinfectant washing water are discharged from each of the toilet bowl washing water jet ports 53.

According to the fifth embodiment, the following effects are obtained.

The disinfectant case 81 was connected to the downstream of the heating unit 90 immediately after the heating unit 90. For this reason, since the washing water is heated by the heating unit 90 and then flows into the disinfectant case 81, the disinfecting component is easily dissolved from the disinfectant 73.

In each of the first to fifth embodiments, a nozzle cleaning switch is attached to each of the control panel 3 and the remote controller 15, and the nozzle cleaning switch of the control panel 3 or the nozzle cleaning of the remote controller 15 is mounted. When the switch is operated, the nozzle cleaning course may be configured. This nozzle cleaning course is from the nozzle cleaning water jet port 60 to the anal cleaning water jet port 50 and the bidet cleaning water jet port 52 in the retreat state of the anal cleaning nozzle 49 and the bidet nozzle 51, respectively. It is a thing which ejects the warm water wash water which has an antibacterial property.

In each of the said Examples 1-5, the thing more than a predetermined size among the grind | pulverized the sterilization glass extended to cube shape or plate shape may be accommodated in the cassette case 7 or the disinfectant case 81. As shown in FIG. Phosphoric acid-based glass generally has a low viscosity when melted and is difficult to be molded, and therefore, it is costly to be molded into a disk shape. For this reason, when crushing and using the disinfecting glass extended to a cube shape or plate shape, cost will become low.

In each of Examples 1 to 5, each of the anal cleaning nozzle 49 and the bidet nozzle 51 is retracted when the washing water is ejected from the nozzle washing water outlet 60 in step S21 of FIG. The position and the nozzle cleaning position may be reciprocated with each other. In this configuration, washing water is ejected from the nozzle washing water jet port 60 to the anal washing nozzle 49 extensively around the anal washing water jet port 50, and the bidet nozzle is centered on the bidet washing water jet port 52. Since the cleaning water is ejected from the nozzle cleaning water jet port 60 in a wide range, the cleaning effect is increased in each of the wide range of the anal cleaning nozzle 49 and the wide range of the bidet nozzle 51.

In each of the first to fifth embodiments, when the anal cleansing switch 4 or the bidet switch 5 is operated, the anal cleansing nozzle 49 and the bidet nozzle 51 before spraying the washing water to the user's cleaning target site. ), The flow rate regulating valve 56 is switched to the nozzle cleaning state while the stop valve is in the retracted position to open and close the valve 31, and the anal cleaning of the anal cleaning nozzle 49 is performed from the nozzle cleaning water jet port 60. The washing water may be jetted for each predetermined time to each of the bidet washing water jet ports 52 of the sphere 50 and the bidet nozzle 51. In this configuration, the cold washing water in the water supply path (hose 55) is discharged when the washing water is jetted from the nozzle washing water jet port 60 to each of the anal washing water jet port 50 and the bidet washing water jet port 52. Therefore, after flushing the washing water from the nozzle washing water jet port 60 to each of the anal washing water jet port 50 and the bidet washing water jet port 52, the anal cleaning water jet port 50 or the bidet washing water jet port 52 is discharged. When the washing water is sprayed on the washing target site of the user, the washing water having a temperature according to the setting result of the hot water switch 7 can be sprayed.

In each of the first to fifth embodiments, the toilet seat 16 may be formed of a corrosion resistant metal such as aluminum.

In each of the first to fifth embodiments, each of the anal cleansing nozzle 49 and the bidet nozzle 51 is mounted on the case 2 so as to be movable in the front and rear directions, and the anal cleansing nozzle 49 and the bidet nozzle ( Each of 51) may be configured to be moved and operated by a separate nozzle motor.

In each of the first to fifth embodiments, the mesh may be replaced with each of the metal mesh 71 and the metal mesh 72.

In each of the first to fifth embodiments, each of the anal cleaning nozzle 49 and the bidet nozzle 51 in steps S36 to S37 of FIG. 9 or steps S36 to S37 of FIG. The movement may be performed reciprocally in the front-rear direction until a predetermined time limit elapses.

In each of the first to fifth embodiments, a cloth or a synthetic resin bag may be used as the cassette case 70 or the disinfectant case 81.

In each of the first to second embodiments, the entire cassette case 70 may be formed of a mesh 71 or a mesh 72.

1 is a perspective view showing an appearance of a toilet device of Embodiment 1;

2 is a block diagram showing an electrical configuration of Embodiment 1;

3 is a view showing a hot water tank of Example 1,

4 shows an anal cleansing nozzle and a bidet nozzle of Example 1,

5 is a block diagram showing a piping state of Example 1;

6 is a view showing a storage state of the sterile glass of Example 1,

7 is a diagram showing a temporal change of the silver ion concentration of Example 1;

8 is a flowchart showing the processing contents of the first half of the control circuit according to the first embodiment;

9 is a flowchart showing the processing contents of the second half of the control circuit according to the first embodiment;

10 is a flowchart showing the processing contents of the second half of the control circuit of Example 2;

11 is a block diagram showing a piping state of Example 3;

12 is a block diagram showing a piping state of Example 4;

FIG. 13 is a block diagram showing a piping state in Example 5. FIG.

* Explanation of symbols for the main parts of the drawings

1: toilet seat 16: toilet seat

21: seating sensor 41: hot water heater

49: anal rinse nozzle 50: anal rinse water spout

51: bidet nozzle 52: bidet washing water outlet

53: toilet flushing water outlet 54: nozzle motor

57, 58: hose 59: hose

60: nozzle washing water jet 70: cassette case

71, 72: mesh 73: fungicide

Step S5: determining whether a user is present
Step S15: Starting Cleaning Process

Step S18: stopping the cleaning process
Step S34: cleaning the toilet bowl

Claims (5)

Toilet seat for the user to put the hips; A nozzle which is installed to be movable relative to the toilet seat, and into which tap water is injected as washing water for cleaning a user's cleaning target site; A jet port disposed in the nozzle and configured to jet washing water from the inside of the nozzle; A driving source for moving the nozzle between an effective position where the jet port faces the user's cleaning target site and an invalid position where the jet port does not face the user's cleaning target site while the user puts the butt portion on the toilet seat. ; It is provided so as to be located upstream of the flow of the washing water with respect to the nozzle, and contains silver oxide in which silver ions as an antimicrobial component are dissolved by washing water, and calcium phosphate for gradually dissolving silver ions in the washing water. Fungicides; It is installed so as to be located on the upstream side or the same part of the flow of the washing water with respect to the disinfectant, and to warm the water based on the heating of the washing water, by contacting the sanitizing agent A heating source for increasing the solubility of the antimicrobial component in the washing water; A nozzle cover in which the ejection port is accommodated therein while the nozzle is moved to an invalid position, and wherein the ejection outlet escapes from the inside when the nozzle is moved to an effective position; And The jet port is provided inside the nozzle cover in a state in which the washing water is installed in the nozzle cover and is heated to the heating source and contains an antibacterial component from the disinfectant. The toilet bowl provided with the washing | cleaning tool which blows toward. The method of claim 1, A disinfectant container containing the disinfectant; The fungicide container is provided with a mesh-shaped filter in which washing water can be distributed and the fungicide cannot be distributed. The toilet is characterized in that the toilet is set larger than the size of the mesh of the filter. delete 3. The method according to claim 1 or 2, A first water supply path for supplying the washing water to the nozzle which is heated to the heating source and to which the antibacterial agent has not given bactericidal properties; And a second water supply path for supplying the washing water heated to the heating source and supplied with the bactericidal agent to the cleaning tool. delete

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