JP4226356B2 - Sanitary washing device - Google Patents

Description

【０１２８】
表１に示すように、培養液の保温温度が７０℃、８０℃および９０℃においては、どの測定時間においてもカビおよび細菌は全て死滅していることがわかる。
【０１２９】
培養液の保温温度が６０℃の場合、カビについては、どの測定時間においても全て死滅しているが、細菌については、１分経過時の測定で８５株の細菌が残存していた。
【０１３０】
なお、経過時間０分における数は、熱抵抗性試験前の初期状態で存在するカビおよび細菌の数を示す。
【０１３１】
以上の結果より、おしりノズル１に繁殖するカビおよび細菌を死滅させるためのノズル洗浄用高温水の温度の範囲は６０℃以上１００℃未満であることがわかった。また、カビおよび細菌を完全に死滅させるためのより効果的なノズル洗浄用高温水の温度の範囲は７０℃以上１００℃未満であることがわかった。
【０１３２】
したがって、ノズル洗浄用高温水の温度を６０℃以上１００℃未満に設定することが好ましく、ノズル洗浄用高温水の温度を７０℃以上１００℃未満に設定することがより好ましい。
【０１３３】
以上に示す本実施例においては、おしりノズル１およびビデノズル２が人体洗浄ノズル装置に相当し、ノズル洗浄用ノズル３がノズル洗浄装置および噴出装置に相当し、制御部４が制御手段に相当する。また、瞬間加熱装置３３が加熱装置に相当し、ポンプ１３が洗浄水供給手段に相当し、切替弁１４が流量調整手段に相当し、ノズル洗浄時期表示パネル３１３が報知手段に相当する。
【０１３４】
【発明の効果】
本発明に係る衛生洗浄装置によれば、蒸気により人体洗浄ノズル装置に付着した汚れを浮き上がらせるとともに、高温水により汚れを流し去ることにより、人体洗浄ノズル装置の汚れを確実に除去することができる。また、人体洗浄ノズル装置が蒸気に触れることにより、殺菌効果および除菌効果が得られる。さらに、蒸気は、高温水が十分に行き渡らない部分にまで十分に浸入するため、人体洗浄ノズル装置の全体を十分に洗浄することができる。
【０１３５】
また、蒸気は、湯気として視覚的に認識することができるので、使用者は、人体洗浄ノズル装置の洗浄中であることを認識することができる。それにより、人体洗浄ノズル装置の洗浄時に、使用者が高温になっている人体洗浄ノズル装置に誤って触れることが防止される。したがって、安全性を確保しつつ人体洗浄ノズル装置を清潔に保つことができる。
【図面の簡単な説明】
【図１】本発明の一実施例に係る衛生洗浄装置を便器に装着した状態を示す斜視図
【図２】図１の遠隔操作装置の一例を示す模式的平面図
【図３】本発明の一実施例に係る衛生洗浄装置の本体部の構成を示す模式図
【図４】瞬間加熱装置の構造を示す一部切り欠き断面図
【図５】ノズル部の一部を示す外観斜視図
【図６】おしりノズルから人体の被洗浄面に向けて洗浄水が噴出される場合のノズル部の模式的断面図
【図７】ノズル洗浄用ノズルからノズル洗浄用高温水またはノズル洗浄用蒸気が噴出される場合のノズル部の模式的断面図
【図８】ノズル洗浄用ノズルによる洗浄時の制御部の処理動作の第１の例を示すフローチャート
【図９】ノズル洗浄用ノズルによる洗浄時の制御部の処理動作の第２の例を示すフローチャート
【図１０】ノズル洗浄用ノズルによる洗浄時の制御部の処理動作の第３の例を示すフローチャート
【図１１】ノズル洗浄用ノズルによる洗浄時の制御部の処理動作の第４の例を示すフローチャート
【符号の説明】
１ おしりノズル
２ ビデノズル
３ ノズル洗浄用ノズル
４ 制御部
１３ ポンプ
１４ 切替弁
３０ ノズル部
３３ 瞬間加熱装置
１００ 衛生洗浄装置
３００ 遠隔操作装置
３１３ ノズル洗浄時期表示パネル[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sanitary washing device that ejects wash water supplied from a water supply source to a human body.
[0002]
[Prior art]
Conventionally, a sanitary washing apparatus provided with a human body washing nozzle for washing a local part of the human body is widely known. This sanitary washing apparatus has a configuration in which washing water is supplied to a human body washing nozzle and the washing water is ejected from the human body washing nozzle toward a local part.
[0003]
In such a sanitary washing apparatus, at the time of washing, the tip of the human body washing nozzle approaches the local part and ejects washing water. For this reason, the human body washing nozzle is likely to be exposed to sewage and filth during washing, and the tip of the human body washing nozzle needs to be washed.
[0004]
Therefore, a sanitary washing device equipped with a nozzle washing device has been developed in order to wash a dirty human washing nozzle when washing a local part of the human body. In this case, after the local cleaning, the human body cleaning nozzle is cleaned by ejecting water to the human body cleaning nozzle.
[0005]
However, it is difficult to sufficiently remove the dirt of the human body washing nozzle by ejecting water, and the sterilization effect cannot be obtained. Therefore, it has also been proposed to clean the human body cleaning nozzle using a chemical solution (see, for example, Patent Document 1).
[0006]
[Patent Document 1]
JP-A-8-93034
[0007]
[Problems to be solved by the invention]
However, when the human body washing nozzle is cleaned using a chemical solution, the cost of the chemical solution is increased and the labor for replenishing the chemical solution is also generated.
[0008]
An object of the present invention is to provide a sanitary washing device capable of sufficiently washing and sterilizing a human body washing nozzle device and reducing the cost and labor of washing.
[0009]
[Means for Solving the Problems]
In order to solve the conventional problems, the sanitary washing device of the present invention includes a human body washing nozzle device that jets washing water to the human body, Alternately steam and hot water towards the human body cleaning nozzle device Nozzle cleaning device for cleaning human body cleaning nozzle device by jetting, and nozzle cleaning device The nozzle cleaning device is controlled so that the cycle of jetting steam and high-temperature water is repeated for a predetermined time. And a control means.
[0010]
In the sanitary washing device according to the present invention, steam By human body cleaning nozzle apparatus As the dirt attached to the surface rises, Hot water By removing the dirt, the dirt of the human body washing nozzle can be surely removed. Also human body cleaning nozzle apparatus But steam By touching, a bactericidal effect and a sterilizing effect can be obtained. further, steam Is Hot water The human body cleaning nozzle is fully penetrated even to the part where it does not spread sufficiently apparatus Can be thoroughly cleaned.
[0011]
Also, steam Can be visually recognized as steam, so the user can apparatus It can be recognized that the cleaning is in progress. Thereby, human body cleaning nozzle apparatus The human body cleaning nozzle is hot when the user is cleaning apparatus Accidental touching is prevented. Therefore, the human body cleaning nozzle device can be kept clean while ensuring safety.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
The invention according to claim 1 is a sanitary washing device that ejects wash water supplied from a water supply source to the human body, and a human body washing nozzle device that jets wash water to the human body, Alternately steam and hot water towards the human body cleaning nozzle device Nozzle cleaning device for cleaning human body cleaning nozzle device by jetting, and nozzle cleaning device The nozzle cleaning device is controlled so that the cycle of jetting steam and high-temperature water is repeated for a predetermined time. And a control means.
[0013]
In the sanitary washing device according to the present invention, steam By human body cleaning nozzle apparatus As the dirt attached to the surface rises, Hot water By washing away dirt by human body cleaning nozzle apparatus It is possible to reliably remove dirt. Also human body cleaning nozzle apparatus But steam By touching, a bactericidal effect and a sterilizing effect can be obtained. further, steam Is Hot water The human body cleaning nozzle is fully penetrated even to the part where it does not spread sufficiently apparatus Can be thoroughly cleaned.
[0014]
Also, steam Can be visually recognized as steam, so the user can apparatus It can be recognized that the cleaning is in progress. Thereby, human body cleaning nozzle apparatus The human body cleaning nozzle is hot when the user is cleaning apparatus Accidental touching is prevented. Therefore, the human body cleaning nozzle device can be kept clean while ensuring safety.
[0015]
According to a second aspect of the present invention, in the configuration of the sanitary washing device according to the first aspect, the control means is a nozzle cleaning device. First to expel steam Thus, the nozzle cleaning device is controlled.
[0016]
in this case, steam Can be visually recognized as steam, the user can recognize that the cleaning of the human body cleaning nozzle has started. Thereby, human body cleaning nozzle apparatus The human body cleaning nozzle is hot when the user is cleaning apparatus Accidental touching is prevented. Therefore, safety is sufficiently ensured.
[0017]
The invention according to claim 3 is the claim 1 In the configuration of the sanitary washing device described, the control means is a nozzle washing device First, high-temperature water is ejected and then steam is ejected Thus, the nozzle cleaning device is controlled.
[0018]
in this case, steam Can be visually recognized as steam, so the user can apparatus It can be recognized that the cleaning is in progress. Thereby, human body cleaning nozzle apparatus The human body cleaning nozzle is hot when the user is cleaning apparatus Accidental touching is prevented. Therefore, safety is sufficiently ensured.
[0019]
Also, The nozzle cleaning device includes a heating device for heating the cleaning water, a cleaning water supply means for supplying the cleaning water to the heating device, and a liquid state heated by the heating device or steam And a control means for controlling the temperature and state of the wash water obtained by the heating device. Is preferred .
[0020]
In this case, the cleaning water is supplied to the heating device by the cleaning water supply means. Liquid state heated by a heating device or steam Is ejected by the ejection device. Moreover, the temperature and state of the washing water obtained by the heating device are controlled by the control means. Thereby, a plurality of types of washing water having different temperatures and states can be generated by the heating device.
[0021]
Also, The control means was heated by the heating device Hot water To control the temperature of the liquid to 60 ° C or higher and lower than 100 ° C Is preferred .
[0022]
In this case, it is ejected by the ejection device by the control means. Hot water Is controlled to 60 ° C. or more and less than 100 ° C. Thereby, propagation of mold and bacteria in the human body washing nozzle device can be effectively suppressed.
[0023]
Also, The control means was heated by the heating device Hot water To control the temperature of 70 to 100 ° C Is preferred .
[0024]
In this case, it is ejected by the ejection device by the control means. Hot water Is controlled to be 70 ° C. or higher and lower than 100 ° C. Thereby, the disinfection effect of mold and bacteria in the human body washing nozzle device can be obtained to the maximum.
[0025]
Also, The control means causes the heating device to perform preheating before the cleaning water is supplied to the heating device by the cleaning water supply means. Is preferred .
[0026]
In this case, the heating device is preheated by the control means before the cleaning water is supplied to the heating device. So that the liquid state or steam It is possible to shorten the time until the is generated. This ensures that the liquid state or steam Can be supplied to the ejection device.
[0027]
Also, The control means is in a liquid state heated by the heating device or steam That controls the cleaning water supply means so that unheated cleaning water is supplied to the heating device after the heating operation of the heating device is finished Is preferred .
[0028]
In this case, unheated cleaning water is supplied to the heating device by the cleaning water supply means in a state where the heating operation by the heating device is completed. Thereby, the temperature of a heating apparatus can be lowered | hung and scale adhesion can be prevented.
[0029]
Also, The washing water supply means includes a flow rate adjusting means for adjusting the flow rate of the washing water supplied to the heating device, and the control means obtains the washing water obtained by the heating device by adjusting the flow rate supplied to the heating device by the flow rate adjusting means. To control the temperature and condition of Is preferred .
[0030]
In this case, the control means adjusts the flow rate of the cleaning water supplied to the heating device by the flow rate adjusting means. Thereby, the temperature and state of the washing water heated by the heating device are controlled. Therefore, a plurality of types of washing water having different temperatures and states can be generated by the heating device.
[0031]
Also, Further provided with an informing means for informing when to perform the washing operation of the human body washing nozzle device by the nozzle washing device Is preferred .
[0032]
In this case, the notification means notifies the time when the cleaning operation of the human body cleaning nozzle device by the nozzle cleaning device should be performed. Accordingly, the user can surely recognize the time when the cleaning operation should be performed, and can effectively suppress the growth of mold and bacteria in the human body cleaning nozzle device.
[0033]
Moreover, when the cleaning operation is required by the notification means, the fact is notified, so unnecessary cleaning operations can be reduced. Thereby, extra energy consumption for the cleaning operation can be reduced.
[0034]
Also, 11. The structure of the sanitary washing device according to claim 10, wherein the notification means notifies the time when the cleaning operation of the human body cleaning nozzle device by the nozzle cleaning device should be performed every predetermined time. Is preferred .
[0035]
In this case, the notification means notifies the time when the cleaning operation of the human body cleaning nozzle device by the nozzle cleaning device should be performed every predetermined time. Accordingly, the user can surely recognize the time when the cleaning operation should be performed, and can effectively suppress the growth of mold and bacteria in the human body cleaning nozzle device.
[0036]
Moreover, when the cleaning operation is required by the notification means, the fact is notified, so unnecessary cleaning operations can be reduced. Thereby, extra energy consumption for the cleaning operation can be reduced.
[0037]
Also, The notification means notifies the time when the cleaning operation of the human body cleaning nozzle device by the nozzle cleaning device should be performed within a predetermined period after the use of the human body cleaning nozzle device. Is preferred .
[0038]
In this case, the notification means notifies the time when the cleaning operation of the human body cleaning nozzle device by the nozzle cleaning device should be performed within a predetermined period after the use of the human body cleaning nozzle device. Accordingly, the user can surely recognize the time when the cleaning operation should be performed, and can effectively suppress the growth of mold and bacteria in the human body cleaning nozzle device.
[0039]
Moreover, when the cleaning operation is required by the notification means, the fact is notified, so unnecessary cleaning operations can be reduced. Thereby, extra energy consumption for the cleaning operation can be reduced.
[0040]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0041]
FIG. 1 is a perspective view showing a state in which a sanitary washing device according to an embodiment of the present invention is mounted on a toilet.
[0042]
As shown in FIG. 1, the sanitary washing device 100 is mounted on the toilet bowl 600. The tank 700 is connected to a water pipe and supplies cleaning water into the toilet 600.
[0043]
The sanitary washing device 100 includes a main body 200, a remote operation device 300, a toilet seat 400 and a lid 500.
[0044]
A toilet seat 400 and a lid 500 are attached to the main body 200 so as to be freely opened and closed. Further, the main body 200 is provided with a cleaning water supply mechanism including the nozzle unit 30 and the control unit 4 is built therein. The control unit 4 of the main body 200 controls the cleaning water supply mechanism based on a signal transmitted by the remote operation device 300 as will be described later. Further, the control unit 4 of the main body 200 includes a heater (not shown) built in the toilet seat 400, a deodorizing device (not shown) provided in the main body 200, a hot air supply device (not shown), and the like. Also controls.
[0045]
Next, FIG. 2 is a schematic plan view showing an example of the remote control device 300 of FIG.
As shown in FIG. 2, the remote control device 300 includes a display panel 301, an adjustment switch 302, a butt switch 303, a stop switch 305, a bidet switch 306, a drying switch 307, a nozzle cleaning switch 309, a speaker 310, and an LED (light emitting diode). 311, a child lock switch 312 and a nozzle cleaning time display panel 313.
[0046]
The user presses down the adjustment switch 302, the butt switch 303, the stop switch 305, the bidet switch 306, the drying switch 307, the nozzle cleaning switch 309, and the child lock switch 312. Thereby, the remote operation device 300 wirelessly transmits a predetermined signal to the control unit 4 provided in the main body 200 of the sanitary washing device 100 described later. The control unit 4 of the main body 200 receives a predetermined signal wirelessly transmitted from the remote operation device 300 and controls the cleaning water supply mechanism and the like.
[0047]
For example, when the user presses down the butt switch 303 or the bidet switch 306, the nozzle part 30 of the main body part 200 in FIG. 1 moves and the washing water is ejected. By depressing the stop switch 305, the ejection of the washing water from the nozzle unit 30 is stopped.
[0048]
In addition, when the child lock switch 312 is pressed, a predetermined signal transmitted from the remote operation device 300 to a control unit described later is invalidated. By depressing the nozzle cleaning switch 309, the nozzle unit 30 of the main body unit 200 is cleaned. Details of this cleaning will be described later. By depressing the drying switch 307, hot air is jetted from a hot air supply device (not shown) of the sanitary washing device 100 to a local part of the human body.
[0049]
The adjustment switch 302 includes water force adjustment switches 302a and 302b. When the user depresses the water pressure adjustment switches 302a and 302b, the pressure of the cleaning water ejected from the nozzle unit 30 changes. Moreover, the bar graph-like lighting display of the display panel 301 changes with the pressing operation of the water flow adjustment switches 302a and 302b.
[0050]
In addition, the nozzle cleaning time display panel 313 displays that nozzle cleaning is instructed at the nozzle cleaning time.
[0051]
Hereinafter, the main body 200 of the sanitary washing device 100 according to an embodiment of the present invention will be described. FIG. 3 is a schematic diagram showing the configuration of the main body 200 of the sanitary washing device 100 according to one embodiment of the present invention.
[0052]
3 includes a control unit 4, a branch tap 5, a strainer 6, a check valve 7, a constant flow valve 8, a water stop solenoid valve 9, a flow sensor 10, a heat exchanger 11, a temperature sensor 12a, 12b and 12c, the pump 13, the switching valve 14, the instantaneous heating device 33, and the nozzle part 30 are included. The nozzle unit 30 includes a buttocks nozzle 1, a bidet nozzle 2, and a nozzle cleaning nozzle 3. The instantaneous heating device 33 includes a thermistor 33a, a thermistor 33b, and a thermal fuse (not shown).
[0053]
As shown in FIG. 3, the branch tap 5 is inserted in the water pipe 201. A strainer 6, a check valve 7, a constant flow valve 8, a water stop electromagnetic valve 9, a flow sensor 10, and a temperature sensor 12 a are sequentially connected to the pipe 202 connected between the branch tap 5 and the heat exchanger 11. It is inserted. Further, a temperature sensor 12 b and a pump 13 are inserted in a pipe 203 connected between the heat exchanger 11 and the switching valve 14.
[0054]
First, purified water flowing through the water pipe 201 is supplied to the strainer 6 by the branch tap 5 as cleaning water. The strainer 6 removes dust and impurities contained in the cleaning water. Next, the check valve 7 prevents the backflow of the cleaning water in the pipe 202. And the flow volume of the washing water which flows through the piping 202 by the constant flow valve 8 is maintained constant.
[0055]
A relief pipe 204 is connected between the pump 13 and the switching valve 14, and a relief water pipe 205 is connected between the water stop solenoid valve 9 and the flow sensor 10. A relief valve 206 is inserted in the relief pipe 204. The relief valve 206 is opened when the pressure in the pipe 203, particularly on the downstream side of the pump 13, exceeds a predetermined value, and prevents problems such as damage to the equipment and disconnection of the hose at the time of abnormality.
[0056]
On the other hand, of the cleaning water supplied with the flow rate adjusted by the constant flow valve 8, the cleaning water not sucked by the pump 13 is released and discharged from the water pipe 205. Thereby, a predetermined back pressure acts on the pump 13 without being influenced by the water supply pressure.
[0057]
Next, the flow rate sensor 10 measures the flow rate of the cleaning water flowing in the pipe 202 and gives the measured flow rate value to the control unit 4. Further, the temperature sensor 12 a measures the temperature of the cleaning water flowing in the pipe 202 and gives a temperature measurement value to the control unit 4.
[0058]
Subsequently, the heat exchanger 11 heats the cleaning water supplied through the pipe 202 to a predetermined temperature based on the control signal given by the control unit 4. The temperature sensor 12 b measures the temperature of the cleaning water heated to a predetermined temperature by the heat exchanger 11 and gives a temperature measurement value to the control unit 4.
[0059]
The pump 13 pumps the wash water heated by the heat exchanger 11 to the switching valve 14 based on a control signal given by the control unit 4. The switching valve 14 supplies cleaning water to any one of the butt nozzle 1, the bidet nozzle 2, and the instantaneous heating device 33 based on a control signal given by the control unit 4.
[0060]
When the cleaning water is supplied to the butt nozzle 1 or the bidet nozzle 2 of the nozzle unit 30, the cleaning water is ejected from the butt nozzle 1 or the bidet nozzle 2. On the other hand, when the cleaning water is supplied to the instantaneous heating device 33, the cleaning water is heated by the instantaneous heating device 33, and the heated cleaning water or steam generated by the heating is supplied to the nozzle cleaning nozzle 3. The temperature sensor 12 c measures the temperature of steam and hot water supplied to the nozzle cleaning nozzle 3 and gives a temperature measurement value to the control unit 4.
[0061]
Hereinafter, the cleaning water heated by the instantaneous heating device 33 is referred to as nozzle cleaning high temperature water, and the steam generated by the heating of the instantaneous heating device 33 is referred to as nozzle cleaning steam.
[0062]
High temperature water for nozzle cleaning or steam for nozzle cleaning is ejected from the nozzle cleaning nozzle 3 to the buttocks nozzle 1 or bidet nozzle 2. In the instantaneous heating device 33, the thermistor 33a, the thermostat 33b, and the temperature fuse prevent overheating of the cleaning water.
[0063]
The flow rate of the cleaning water ejected from the butt nozzle 1 and the bidet nozzle 2 and the flow rates of the high temperature water for nozzle cleaning and the steam for nozzle cleaning ejected from the nozzle cleaning nozzle 3 are adjusted by the switching valve 14.
[0064]
The control unit 4 is based on a signal transmitted wirelessly from the remote control device 300 of FIG. 1, a measured flow rate value given from the flow rate sensor 10, and a temperature measurement value given from the temperature sensors 12a, 12b, 12c, Control signals are given to the heat exchanger 11, the pump 13, the switching valve 14 and the instantaneous heating device 33.
[0065]
FIG. 4 is a partially cutaway sectional view showing the structure of the instantaneous heating device 33. 4, the instantaneous heating device 33 includes a casing 504, a sheathed heater 505, a heat conductor 506, a pipe 510, a thermistor 33a, a thermostat 33b, and a thermal fuse 33c.
[0066]
The casing 504 has a substantially rectangular parallelepiped shape. In the casing 504, a pipe 510 and a sheathed heater 505 are provided with a predetermined interval so as to extend in the longitudinal direction, and both end portions of the casing 504 protrude from the both end surfaces to the outside.
[0067]
In the casing 504, the pipe 510 and the sheathed heater 505 are covered with a heat conductor 506. The sheathed heater 505 has a built-in heating wire and generates heat when electric power is supplied.
[0068]
During the nozzle cleaning described above, cleaning water is introduced into the pipe 510 from the water supply port 511 by the switching valve 14.
[0069]
When electric power is supplied to the sheathed heater 505, heat generated by the sheathed heater 505 is transmitted to the pipe 510 through the heat conductor 506. As a result, the cleaning water introduced into the pipe 510 is heated, and the high temperature water for nozzle cleaning or the steam for nozzle cleaning is discharged from the discharge port 512.
[0070]
Here, in FIG. 4, when the water supply port 511 side of the pipe 510 is the upstream side of the instantaneous heating device 33 and the discharge port 512 side is the downstream side of the instantaneous heating device 33, the thermistor 33 a and the thermostat 33 b are downstream of the instantaneous heating device 33. On the side. Further, the thermal fuse 33 c is provided on the side surface of the casing 504.
[0071]
In this embodiment, the thermistor 33a, the thermostat 33b, and the thermal fuse 33c have different operation reference temperatures. Thereby, adjustment of overheating prevention of three steps can be performed. Furthermore, even if any one of the thermistor 33a, the thermostat 33b, and the thermal fuse 33c fails, overheating is prevented by the remaining two.
[0072]
The thermistor 33 a is attached to the sheathed heater 505 and detects the temperature of the sheathed heater 505. The control unit 4 determines the temperature of the sheathed heater 505 supplied from the thermistor 33a, and performs control so as to lower the temperature of the sheathed heater 505 when it is in an overheated state.
[0073]
The thermostat 33b is attached so that the temperature of the washing water flowing through the pipe 510 can be detected. When the temperature of the cleaning water flowing through the pipe 510 exceeds the operation reference temperature of the thermostat 33b, the thermostat 33b operates to cut off the power supply of the sheathed heater 505.
[0074]
Finally, the thermal fuse 33c is tightly fixed to the casing 504. When the temperature of the casing 504 exceeds the operation reference temperature of the thermal fuse 33c, the supply of electric power to the sheathed heater 505 is interrupted by blowing the thermal fuse 33c.
[0075]
The above-described functions of the thermistor 33a, thermostat 33b, and thermal fuse 33c prevent overheating of cleaning water by the sheathed heater 505 and overheating of the sheathed heater 505 itself.
[0076]
In the instantaneous heating device 33 according to the present embodiment, the sheathed heater 505 is used as a heating means for cleaning water, but not limited to this, a mica heater, a ceramic heater, a print heater, or the like may be used.
[0077]
Further, each of the thermistor 33a, the thermostat 33b, and the thermal fuse 33c prevents overheating of the instantaneous heating device 33. By connecting the thermistor 33a or the thermostat 33b to the control unit 4, the control unit 4 causes the thermistor 33a or the thermostat to be connected. The temperature of the sheathed heater 505 may be feedback controlled or fed forward controlled based on the temperature measurement value 33b.
[0078]
FIG. 5 is an external perspective view showing a part of the nozzle unit 30. In FIG. 5, the butt nozzle 1 and the bidet nozzle 2 having a cylindrical shape are provided in parallel so as to be adjacent to each other, and the nozzle cleaning nozzle 3 is attached so as to cover the upper ends of the butt nozzle 1 and the bidet nozzle 2. Yes.
[0079]
A tube 3 t is connected to the rear end of the nozzle cleaning nozzle 3, and the tube 3 t is connected to the discharge port 512 of the instantaneous heating device 33. Thereby, high temperature water for nozzle cleaning or steam for nozzle cleaning is supplied from the instantaneous heating device 33 to the nozzle 3 for nozzle cleaning through the tube 3t.
[0080]
FIG. 6 is a schematic cross-sectional view of the nozzle portion when the cleaning water is jetted from the buttocks nozzle toward the surface to be cleaned of the human body, and FIG. 7 is the nozzle cleaning high temperature water or the nozzle cleaning steam from the nozzle cleaning nozzle. It is a typical sectional view of a nozzle part in case water is ejected.
[0081]
6 and 7, the whole or a part of the nozzle part 30 is accommodated in the casing of the main body part 200.
[0082]
Hereinafter, the cleaning of the local part of the human body by the butt nozzle 1 is referred to as a butt cleaning.
The buttocks nozzle 1 includes a piston 20, a cylinder 21 and a spring 23. A washing water inlet 24a is provided at the rear end surface of the cylinder 21, and a washing water inlet 24b is provided at the side portion. A first flow path 20 a and a second flow path 20 b are formed inside the piston 20, and an ejection hole 25 is provided on the upper surface of the tip of the piston 20.
[0083]
Washing water is supplied from the washing water inlet 24b of the cylinder 21 at the start of the buttocks washing. As a result, as shown in FIG. 6, the piston 20 provided in the cylinder 21 protrudes outside the casing of the main body 200 against the elastic force of the spring 23.
[0084]
Thereafter, cleaning water is supplied from the cleaning water inlets 24 a and 24 b of the cylinder 21. Thus, the cleaning water supplied from the cleaning water inlet 24a is introduced into the first flow path 20a of the piston 20 and is ejected from the ejection hole 25 while being given a rotational force. Further, the cleaning water supplied from the cleaning water inlet 24 b is introduced into the second flow path 20 b of the piston 20 and is ejected from the ejection hole 25.
[0085]
In this way, since rotational force is applied to the cleaning water sent from the first flow path 20a to the ejection hole 25, the cleaning water ejected from the ejection hole 25 toward the surface to be cleaned has a spreading angle. . Washing ejected from the ejection hole 25 by adjusting the ratio of the flow rate of the cleaning water in the first flow path 20a and the flow rate of the cleaning water in the second flow path 20b using the switching valve 14 described above. The spread angle of water can be adjusted.
[0086]
At the end of the buttocks cleaning, the supply of cleaning water to the cleaning water inlets 24a and 24b of the cylinder 21 is stopped. As a result, as shown in FIG. 7, the piston 20 is accommodated in the cylinder 21 by the elastic force of the spring 23. In this case, the piston 20 is held in the cylinder 21 by the elastic force of the spring 23 and thus does not protrude from the main body 200.
[0087]
A cleaning water inlet 24c is provided on the rear end surface of the nozzle cleaning nozzle 3, and the nozzle cleaning is performed on the lower surface of the front end of the nozzle cleaning nozzle 3 so as to face the ejection hole 25 of the buttocks nozzle 1 and the ejection hole of the bidet nozzle 2. A hole 24d is provided. Inside the nozzle cleaning nozzle 3, there is formed a flow path 24e that communicates the cleaning water inlet 24c and the nozzle cleaning hole 24d. As described above, the washing water inlet 24c is connected to the outlet 512 of the instantaneous heating device 33 through the tube 3t (FIG. 5).
[0088]
At the time of nozzle cleaning, nozzle cleaning high temperature water or nozzle cleaning steam is supplied from the instantaneous heating device 33 to the cleaning water inlet 24c of the nozzle cleaning nozzle 3. Thereby, as shown in FIG. 7, the nozzle cleaning high temperature water or the nozzle cleaning steam is ejected from the nozzle cleaning hole 24d through the flow path 24e in the direction of the arrow J1.
[0089]
The nozzle cleaning high-temperature water or nozzle cleaning steam ejected from the nozzle cleaning hole 24d of the nozzle cleaning nozzle 3 is ejected around the ejection hole 25 of the buttocks nozzle 1 and the ejection hole of the bidet nozzle 2. Thereby, the dirt adhering to the periphery of the ejection hole 25 of the nozzle 1 or the ejection hole of the bidet nozzle 2 is peeled off by the high temperature water for nozzle cleaning or the steam for nozzle cleaning, and flows into the toilet 600. As a result, the periphery and the sterilization of the ejection hole 25 of the buttocks nozzle 1 and the ejection hole of the bidet nozzle 2 are performed.
[0090]
Next, the cleaning operation by the nozzle cleaning nozzle 3 will be described.
FIG. 8 is a flowchart showing a first example of the processing operation of the control unit 4 at the time of cleaning by the nozzle cleaning nozzle 3.
[0091]
As shown in FIG. 8, first, the control unit 4 preheats the sheathed heater 505 of the instantaneous heating device 33 (step S1). Next, the control unit 4 causes the switching valve 14 to supply cleaning water to the pipe 510 of the instantaneous heating device 33 (step S2). Next, the controller 4 causes the nozzle cleaning steam to be ejected from the nozzle cleaning nozzle 3 by the heating of the instantaneous heating device 33 (step S3).
[0092]
Subsequently, the control unit 4 causes the nozzle cleaning nozzle 3 to eject the nozzle cleaning high-temperature water by heating the instantaneous heating device 33 (step S4). Next, the control unit 4 determines whether or not a predetermined time has elapsed (step S5). When the predetermined time has elapsed, the nozzle cleaning ends. If the predetermined time has not elapsed, the process returns to step S2 and the above processing is repeated.
[0093]
In this example, the preheating of the sheathed heater 505 described above can shorten the time until the nozzle cleaning steam and the nozzle cleaning hot water are generated. Thereby, when the user presses down the nozzle cleaning switch 309, the nozzle cleaning steam and the high temperature water for nozzle cleaning can be immediately supplied to the nozzle cleaning nozzle 3.
[0094]
In addition, the nozzle cleaning steam is ejected from the nozzle cleaning nozzle 3 at the beginning of the cleaning, and then the nozzle cleaning high-temperature water is ejected, so that the user can visually confirm that the nozzle cleaning process has started. Can be recognized. Thereby, it can prevent that a user misidentifies that it is a failure of an apparatus, and can prevent that a user sits on the toilet seat part 400 accidentally.
[0095]
Further, a cycle in which nozzle cleaning steam is jetted after nozzle cleaning hot water is jetted from the nozzle cleaning nozzle 3 is repeated for a predetermined time. Thereby, it can be visually recognized by the steam that the user is in the middle of the cleaning process. Thereby, a user can be prevented from sitting on the toilet seat 400 by mistake. Further, since no display means for indicating that the nozzle cleaning process is in progress is required, no extra cost is incurred.
[0096]
Furthermore, the use of nozzle cleaning steam and nozzle cleaning hot water is harmless to the human body and the environment.
[0097]
FIG. 9 is a flowchart showing a second example of the processing operation of the control unit 4 at the time of cleaning by the nozzle cleaning nozzle 3.
[0098]
As shown in FIG. 9, first, the controller 4 preheats the sheathed heater 505 of the instantaneous heating device 33 (step S11). Next, the control unit 4 causes the switching valve 14 to supply cleaning water to the pipe 510 of the instantaneous heating device 33 (step S12). Next, the controller 4 causes the nozzle cleaning high-temperature water to be ejected from the nozzle cleaning nozzle 3 by the heating of the instantaneous heating device 33 (step S13).
[0099]
Subsequently, the control unit 4 causes the nozzle cleaning steam to be ejected from the nozzle cleaning nozzle 3 by the heating of the instantaneous heating device 33 (step S14). Next, the control unit 4 determines whether or not a predetermined time has elapsed (step S15). When the predetermined time has elapsed, the nozzle cleaning ends. If the predetermined time has not elapsed, the process returns to step S12 and the above processing is repeated.
[0100]
In this example, the preheating of the sheathed heater 505 described above can shorten the time until the nozzle cleaning steam and the nozzle cleaning hot water are generated. Thereby, when the user presses down the nozzle cleaning switch 309, the nozzle cleaning steam and the high temperature water for nozzle cleaning can be immediately supplied to the nozzle cleaning nozzle 3.
[0101]
Further, a cycle in which nozzle cleaning steam is jetted after nozzle cleaning hot water is jetted from the nozzle cleaning nozzle 3 is repeated for a predetermined time. Thereby, it can be visually recognized by the steam that the user is in the middle of the cleaning process. Thereby, a user can be prevented from sitting on the toilet seat 400 by mistake. Further, since no display means for indicating that the nozzle cleaning process is in progress is required, no extra cost is incurred.
[0102]
Furthermore, the use of nozzle cleaning steam and nozzle cleaning hot water is harmless to the human body and the environment.
[0103]
FIG. 10 is a flowchart showing a third example of the processing operation of the control unit 4 at the time of cleaning by the nozzle cleaning nozzle 3.
[0104]
As shown in FIG. 10, first, the control unit 4 preheats the sheathed heater 505 of the instantaneous heating device 33 (step S21). Next, the controller 4 causes the switching valve 14 to supply cleaning water to the pipe 510 of the instantaneous heating device 33 (step S22). Next, the control unit 4 causes the nozzle cleaning steam to be ejected from the nozzle cleaning nozzle 3 by the heating of the instantaneous heating device 33 (step S23).
[0105]
Subsequently, the control unit 4 causes the nozzle cleaning nozzle 3 to eject the nozzle cleaning high-temperature water by heating the instantaneous heating device 33 (step S24). Next, the control unit 4 determines whether or not a predetermined time has elapsed (step S25). When the predetermined time has elapsed, the control unit 4 supplies cleaning water to the pipe 510 and cools the instantaneous heating device 33 (step S26). Thereby, nozzle cleaning is completed. If the predetermined time has not elapsed, the process returns to step S22 and the above processing is repeated.
[0106]
In this example, the preheating of the sheathed heater 505 described above can shorten the time until the nozzle cleaning steam and the nozzle cleaning hot water are generated. Thereby, when the user presses down the nozzle cleaning switch 309, the nozzle cleaning steam and the high temperature water for nozzle cleaning can be immediately supplied to the nozzle cleaning nozzle 3.
[0107]
Further, the nozzle cleaning steam is ejected from the nozzle cleaning nozzle 3 at the beginning of the cleaning, and then the nozzle cleaning high-temperature water is ejected, so that the user visually recognizes that the nozzle cleaning process has started. Can be recognized. Thereby, it can prevent that a user misidentifies that it is a failure of an apparatus, and can prevent that a user sits on the toilet seat part 400 accidentally.
[0108]
Further, a cycle in which nozzle cleaning steam is jetted after nozzle cleaning hot water is jetted from the nozzle cleaning nozzle 3 is repeated for a predetermined time. Thereby, it can be visually recognized by the steam that the user is in the middle of the cleaning process. Thereby, a user can be prevented from sitting on the toilet seat 400 by mistake. Further, since no display means for indicating that the nozzle cleaning process is in progress is required, no extra cost is incurred.
[0109]
In addition, the use of nozzle cleaning steam and nozzle cleaning hot water is harmless to the human body and the environment.
[0110]
Furthermore, the temperature of the pipe 510 can be lowered by passing water through the pipe 510 of the instantaneous heating device 33 at the end of the cleaning process. Thereby, the scale can be prevented from adhering to the pipe wall of the pipe 510.
[0111]
FIG. 11 is a flowchart showing a fourth example of the processing operation of the control unit 4 at the time of cleaning by the nozzle cleaning nozzle 3.
[0112]
As shown in FIG. 11, first, the controller 4 preheats the sheathed heater 505 of the instantaneous heating device 33 (step S31). Next, the controller 4 causes the switching valve 14 to supply cleaning water to the pipe 510 of the instantaneous heating device 33 (step S32). Next, the control unit 4 causes the nozzle cleaning nozzle 3 to eject the nozzle cleaning high-temperature water by heating the instantaneous heating device 33 (step S33).
[0113]
Subsequently, the controller 4 causes the nozzle cleaning steam to be ejected from the nozzle cleaning nozzle 3 by the heating of the instantaneous heating device 33 (step S34). Next, the control unit 4 determines whether or not a predetermined time has elapsed (step S35). When the predetermined time has elapsed, the control unit 4 supplies cleaning water to the pipe 510 and cools the instantaneous heating device 33 (step S36). Thereby, nozzle cleaning is completed. If the predetermined time has not elapsed, the process returns to step S32 and the above processing is repeated.
[0114]
In this example, the preheating of the sheathed heater 505 described above can shorten the time until the nozzle cleaning steam and the nozzle cleaning hot water are generated. Thereby, when the user presses down the nozzle cleaning switch 309, the nozzle cleaning steam and the high temperature water for nozzle cleaning can be immediately supplied to the nozzle cleaning nozzle 3.
[0115]
Further, a cycle in which nozzle cleaning steam is jetted after nozzle cleaning hot water is jetted from the nozzle cleaning nozzle 3 is repeated for a predetermined time. Thereby, it can be visually recognized by the steam that the user is in the middle of the cleaning process. Thereby, a user can be prevented from sitting on the toilet seat 400 by mistake. Further, since no display means for indicating that the nozzle cleaning process is in progress is required, no extra cost is incurred.
[0116]
In addition, the use of nozzle cleaning steam and nozzle cleaning hot water is harmless to the human body and the environment.
[0117]
Furthermore, the temperature of the pipe 510 can be lowered by passing water through the pipe 510 of the instantaneous heating device 33 at the end of the cleaning process. Thereby, the scale can be prevented from adhering to the pipe wall of the pipe 510.
[0118]
Note that generation of nozzle cleaning steam or nozzle cleaning high-temperature water is selected by adjusting the flow rate of cleaning water by the switching valve 14 and controlling the power value to the sheathed heater 505.
[0119]
In this embodiment, the nozzle cleaning process may be performed periodically. In this case, a message indicating that the nozzle cleaning should be performed is displayed on the nozzle cleaning timing display panel 313 of the remote control device 300 at the nozzle cleaning timing. The nozzle cleaning time is determined by measurement of a predetermined time by the control unit 4 or measurement of the number of times the user is seated on the toilet seat 400.
[0120]
After the user performs local cleaning, the nozzle cleaning process is performed at least once per week. Thereby, the growth of mold in the buttocks nozzle 1 and the bidet nozzle 2 can be suppressed. Moreover, the power consumption for nozzle cleaning can be reduced by reducing the implementation of the nozzle cleaning process.
[0121]
Further, the nozzle cleaning process is performed once a day for 3 days after the user performs the local cleaning. Thereby, propagation of spore bacteria having heat resistance can be suppressed.
[0122]
In this embodiment, as a method for notifying the nozzle cleaning time, the display on the nozzle cleaning time display panel 313 of the remote control device 300 is displayed to indicate that the nozzle cleaning should be performed. However, the present invention is not limited to this. The nozzle cleaning time may be notified by the speaker 310 of the remote control device 300. Alternatively, the nozzle cleaning time may be notified by turning on an LED (light emitting diode) 311 of the remote control device 300.
[0123]
A heat resistance test was conducted on mold and bacteria (Pseudomonas.sp) propagating on the butt nozzle 1.
[0124]
First, sterilized water is put into a plurality of Erlenmeyer flasks, and the Erlenmeyer flasks are kept at a predetermined temperature set in plural. Next, a certain amount of mold and bacteria culture solution is placed in an Erlenmeyer flask, and the number of molds and bacteria present in the Erlenmeyer flask after a predetermined time has elapsed.
[0125]
In this example, the temperature of the sterilized water in the Erlenmeyer flask was 60 ° C., 70 ° C., 80 ° C., and 90 ° C. In addition, the number of molds and bacteria present in the Erlenmeyer flask was measured when 1 minute, 3 minutes and 5 minutes passed.
[0126]
Table 1 shows the results of the heat resistance test for fungi and bacteria under the above test conditions.
[0127]
[Table 1]

[0128]
As shown in Table 1, when the incubation temperature of the culture solution is 70 ° C., 80 ° C., and 90 ° C., it can be seen that all molds and bacteria are killed at any measurement time.
[0129]
When the incubation temperature of the culture solution was 60 ° C., all molds were killed at any measurement time, but 85 bacteria were left in the bacteria when measured at 1 minute.
[0130]
In addition, the number in elapsed time 0 minutes shows the number of mold | fungi and bacteria which exist in the initial state before a heat resistance test.
[0131]
From the above results, it was found that the temperature range of the nozzle cleaning high-temperature water for killing mold and bacteria that propagated on the buttocks nozzle 1 is 60 ° C. or more and less than 100 ° C. Moreover, it turned out that the range of the temperature of the hot water for more effective nozzle washing | cleaning for killing mold | fungi and bacteria completely is 70 degreeC or more and less than 100 degreeC.
[0132]
Therefore, it is preferable to set the temperature of the high temperature water for nozzle cleaning to 60 ° C. or higher and lower than 100 ° C., and it is more preferable to set the temperature of the high temperature water for nozzle cleaning to 70 ° C. or higher and lower than 100 ° C.
[0133]
In the present embodiment described above, the butt nozzle 1 and the bidet nozzle 2 correspond to the human body cleaning nozzle device, the nozzle cleaning nozzle 3 corresponds to the nozzle cleaning device and the ejection device, and the control unit 4 corresponds to the control means. The instantaneous heating device 33 corresponds to a heating device, the pump 13 corresponds to a cleaning water supply unit, the switching valve 14 corresponds to a flow rate adjusting unit, and the nozzle cleaning time display panel 313 corresponds to a notification unit.
[0134]
【The invention's effect】
According to the sanitary washing device according to the present invention, steam By human body cleaning nozzle apparatus As the dirt attached to the surface rises, Hot water By washing away dirt by human body cleaning nozzle apparatus It is possible to reliably remove dirt. Also human body cleaning nozzle apparatus But steam By touching, a bactericidal effect and a sterilizing effect can be obtained. further, steam Is Hot water The human body cleaning nozzle is fully penetrated even to the part where it does not spread sufficiently apparatus Can be thoroughly cleaned.
[0135]
Also, steam Can be visually recognized as steam, so the user can apparatus It can be recognized that the cleaning is in progress. Thereby, human body cleaning nozzle apparatus The human body cleaning nozzle is hot when the user is cleaning apparatus Accidental touching is prevented. Therefore, the human body cleaning nozzle device can be kept clean while ensuring safety.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a state in which a sanitary washing device according to an embodiment of the present invention is mounted on a toilet.
FIG. 2 is a schematic plan view showing an example of the remote control device of FIG.
FIG. 3 is a schematic diagram showing a configuration of a main body of a sanitary washing device according to an embodiment of the present invention.
FIG. 4 is a partially cut cross-sectional view showing the structure of the instantaneous heating device
FIG. 5 is an external perspective view showing a part of a nozzle portion.
FIG. 6 is a schematic cross-sectional view of a nozzle portion when cleaning water is ejected from a buttocks nozzle toward a surface to be cleaned of a human body.
FIG. 7 is a schematic cross-sectional view of a nozzle portion when nozzle cleaning high-temperature water or nozzle cleaning steam is ejected from a nozzle cleaning nozzle.
FIG. 8 is a flowchart showing a first example of a processing operation of a control unit at the time of cleaning by a nozzle cleaning nozzle.
FIG. 9 is a flowchart showing a second example of the processing operation of the control unit at the time of cleaning by the nozzle cleaning nozzle.
FIG. 10 is a flowchart showing a third example of the processing operation of the control unit at the time of cleaning by the nozzle cleaning nozzle.
FIG. 11 is a flowchart showing a fourth example of the processing operation of the control unit at the time of cleaning by the nozzle cleaning nozzle.
[Explanation of symbols]
1 Wet nozzle
2 Bide nozzle
3 Nozzle cleaning nozzle
4 Control unit
13 Pump
14 Switching valve
30 Nozzle part
33 Instantaneous heating device
100 Sanitary washing device
300 Remote control device
313 Nozzle cleaning time display panel

Claims (3)

A sanitary washing device that jets wash water supplied from a water supply source to a human body,
A human body washing nozzle device for ejecting the washing water to the human body;
A nozzle cleaning device for cleaning the human body cleaning nozzle device by alternately ejecting steam and high-temperature water toward the human body cleaning nozzle device;
A sanitary washing apparatus comprising: control means for controlling the nozzle washing apparatus so that a cycle of ejecting steam and high-temperature water from the nozzle washing apparatus is repeated for a predetermined time . The control means includes
2. The sanitary washing apparatus according to claim 1, wherein the nozzle washing apparatus is controlled so that vapor is first ejected from the nozzle washing apparatus. The control means includes
2. The sanitary washing apparatus according to claim 1, wherein the nozzle washing apparatus is controlled such that high temperature water is first ejected from the nozzle washing apparatus and then steam is ejected .

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