JP7157904B2 - sanitary washing equipment - Google Patents

Description

Aspects of the present invention relate generally to sanitary washing devices.

In recent years, sanitary washing apparatuses are required to have a low-profile design more than ever before. Under such circumstances, the height of the sanitary washing apparatus is restricted by a nozzle unit having a private part washing nozzle (hereinafter also simply referred to as "nozzle") for washing the human private part.

As a method for lowering the height of the sanitary washing device, it is conceivable to hollow out the rear of a seated toilet bowl (hereinafter also simply referred to as "toilet bowl") to integrate the toilet bowl and the sanitary washing device. However, with this method, the sanitary washing device can only be attached to a dedicated toilet bowl. Therefore, it is preferable to use a sheet-type sanitary washing device installed on the upper surface of the toilet, which can be attached to any toilet bowl. The nozzle unit installed in this sheet-type sanitary washing device has a low silhouette while maintaining the conventional washing point, washing angle, nozzle trajectory that does not interfere with the buttocks, and nozzle extension point that does not submerge when washing the toilet bowl. As a countermeasure, it is conceivable to form the nozzle into an upwardly convex curved shape.

Japanese Patent No. 5257859

However, if the nozzle has an upwardly convex curved shape, there is a risk that dirty water, filth, etc. attached to the nozzle during washing of the private parts may flow behind the nozzle along the outer surface of the nozzle after the nozzle is housed.

A tube that supplies water to the nozzle is connected to the nozzle and moves with the operation of the nozzle. Therefore, if dirty water or the like adheres to the tube, depending on how the tube is handled, there is a risk that the dirt will spread to surrounding members or the inner part of the casing (the part behind the nozzle) when the tube moves.

The present invention has been made based on the recognition of such problems, and provides a sanitary washing device capable of suppressing the diffusion of dirt by a tube when a private washing nozzle having an upwardly convex curved shape is provided. for the purpose.

A first invention comprises a private part washing nozzle for washing a human private part, a tube for supplying water to the private part washing nozzle, a water inlet connecting part connected to an upstream side of the tube for supplying water to the tube, and the A casing for housing the private parts washing nozzle, the tube, and the water inlet connection, wherein the private parts washing nozzle is curved so as to protrude upward and advances and retreats along an arcuate virtual trajectory. , The sanitary washing device, wherein the water inlet connection is provided above the private part washing nozzle.

According to this sanitary washing device, the nozzle unit can be made smaller in the vertical direction by forming the private part washing nozzle into a curved shape that protrudes upward. As a result, the casing can be downsized in the vertical direction. Further, according to this sanitary washing device, by providing the water inlet connecting portion above the private part washing nozzle, the tube can be routed above the private part washing nozzle. As a result, even if dirty water or the like adheres to the tube, the movable range of the tube is the space above the private part washing nozzle, so the movement of the tube suppresses the diffusion of dirt to the surrounding members and the inner part of the casing. can.

According to a second invention, in the first invention, in a housed state in which the privates washing nozzle is housed inside the casing, a rear end of the privates washings nozzle is located behind a vertex of the virtual trajectory. A sanitary washing device characterized by

According to this sanitary washing device, the nozzle unit can be downsized in the vertical direction by positioning the rear end of the private part washing nozzle behind the vertex of the virtual trajectory in the stored state. As a result, the casing can be downsized in the vertical direction.

A third invention is based on the second invention, wherein the rear end of the water inlet connection is located behind the vertex of the virtual trajectory, and the water inlet connection is substantially horizontal or extends from upstream to downstream. The sanitary washing device is characterized in that it is provided so as to incline downward.

According to this sanitary washing device, when the rear end of the water inlet connection is located behind the apex of the virtual trajectory, the water inlet connection is provided substantially horizontally or inclined downward from upstream to downstream. Thus, bending of the tube can be suppressed.

In a fourth aspect based on the second aspect, the rear end of the water inlet connection is located forward of the vertex of the virtual trajectory, and the water inlet connection is substantially horizontal or extends from upstream to downstream. The sanitary washing device is characterized in that it is provided so as to incline upward.

According to this sanitary washing device, when the rear end of the water inlet connection is located forward of the vertex of the virtual trajectory, the water inlet connection is provided substantially horizontally or inclined upward from upstream to downstream. Thus, bending of the tube can be suppressed.

In a fifth aspect based on the first aspect, in a housed state in which the private-parts washing nozzle is housed inside the casing, the rear end of the private-parts washing nozzle is positioned at the vertex of the virtual trajectory, or at a position closer to the vertex than the vertex. The rear end of the water inlet connecting portion is positioned forward of the vertex of the virtual trajectory, and the water inlet connecting portion is substantially horizontal or inclined upward from upstream to downstream. It is a sanitary washing device characterized by being provided in.

According to this sanitary washing device, the rear end of the private part washing nozzle is positioned at the apex of the virtual orbit or in front of the apex in the stored state, so that dirty water or the like is removed from the private part washing nozzle in the stored state. can be suppressed from flowing backward from the rear end of the . As a result, it is possible to prevent dirty water or the like from dripping into the inner part of the casing, and to prevent dirt from accumulating in the inner part of the casing. Further, according to this sanitary washing device, when the rear end of the water inlet connection is located forward of the vertex of the virtual trajectory, the water inlet connection is substantially horizontal or inclined upward from upstream to downstream. By providing at , bending of the tube can be suppressed.

In a sixth invention, in any one of the first to fifth inventions, a nozzle driving section for advancing and retracting the private parts washing nozzle is further provided, and at least part of the nozzle driving part is arranged below the private parts washing nozzle. A sanitary washing device, characterized in that it is provided with:

According to this sanitary washing device, by providing at least a part of the nozzle drive section below the nozzle, the space below the nozzle can be effectively utilized as the movable range of the nozzle drive section, and the casing can be made smaller. can be done.

ADVANTAGE OF THE INVENTION According to the aspect of this invention, the sanitary washing|cleaning apparatus which can suppress the spreading|diffusion of dirt by a tube is provided when the private-parts washing|cleaning nozzle which has an upward convex curved shape is provided.

1 is a perspective view schematically showing a toilet apparatus provided with a sanitary washing device according to an embodiment; FIG. It is a block diagram showing typically the important section composition of the sanitary washing device concerning an embodiment. FIG. 4 is a side view schematically showing the periphery of the private parts washing nozzle of the sanitary washing device according to the embodiment; FIG. 4 is a side view schematically showing the periphery of the private parts washing nozzle of the sanitary washing device according to the embodiment; FIG. 11 is a side view schematically showing the periphery of a private part washing nozzle of another sanitary washing device according to the embodiment. FIG. 11 is a side view schematically showing the periphery of a private part washing nozzle of another sanitary washing device according to the embodiment.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, in each drawing, the same reference numerals are given to the same constituent elements, and detailed description thereof will be omitted as appropriate.
FIG. 1 is a perspective view schematically showing a toilet apparatus equipped with a sanitary washing device according to an embodiment.
As shown in FIG. 1, the toilet apparatus includes a seated toilet bowl (toilet bowl) 800 and a sanitary washing device 100 installed thereon. The sanitary washing device 100 has a casing 400 , a toilet seat 200 and a toilet lid 300 . The toilet seat 200 and the toilet lid 300 are pivotally supported with respect to the casing 400 so as to be freely openable and closable.

Inside the casing 400, there is built-in a private part washing function unit that realizes washing of the private parts such as the "buttocks" of the user sitting on the toilet seat 200, and the like. The private parts washing function unit includes, for example, a nozzle unit. Further, for example, the casing 400 is provided with a seating detection sensor 404 that detects the seating of the user on the toilet seat 200 . When the seating detection sensor 404 detects the user sitting on the toilet seat 200 , when the user operates the operation unit 500 (see FIG. 2 ) such as a remote controller, the private washing nozzle (nozzle) 473 is moved to the toilet bowl 800 . It can be advanced into the bowl 801 or retreated from the bowl 801 . Note that the sanitary washing device 100 shown in FIG. 1 shows a state in which the nozzle 473 has advanced into the bowl 801 .

The nozzle 473 discharges water (washing water) toward the human body's private parts to wash the human body's private parts. At the tip of the nozzle 473, a buttocks washing spout 474a, a soft washing spout 474b, and a bidet washing spout 474c are provided. The nozzle 473 can jet water from a bottom washing spout 474a or a soft washing spout 474b provided at its tip to wash the "bottom" of the user sitting on the toilet seat 200. FIG. Alternatively, the nozzle 473 can jet water from a bidet washing spout 474c provided at its tip to wash the private parts of a woman sitting on the toilet seat 200. FIG. In the specification of the present application, "water" includes not only cold water but also heated hot water.

Modes for washing the "bottom" include, for example, "bottom washing" and "soft washing" for gently washing with a water flow that is softer than the "bottom washing". The nozzle 473 can perform, for example, "bottom washing", "soft washing", and "bidet washing".

In the nozzle 473 shown in FIG. 1, the bidet washing spout 474c is provided closer to the tip of the nozzle 473 than the soft washing spout 474b, and the soft washing spout 474b is located closer to the nozzle 473 than the bottom washing spout 474a. However, the installation positions of the bottom washing spout 474a, the soft washing spout 474b, and the bidet washing spout 474c are not limited to this. In addition, although the nozzle 473 shown in FIG. 1 is provided with three spouts, for example, the soft washing spout 474b may be omitted, or four or more spouts may be provided. good.

In the embodiment, the water spouting angle of the bottom washing spout 474a, the water spouting angle of the soft washing spout 474b, and the water spouting angle of the bidet washing spout 474c are different, for example. The water discharge angle is, for example, the angle (minor angle) formed between the upper surface of the toilet bowl 800 and the discharged water. The water spouting angle of the bottom washing spout 474a is, for example, about 43 degrees. The water spouting angle of the soft cleansing spout 474b is, for example, about 43 degrees. The water spouting angle of the bidet washing spouting port 474c is, for example, about 47 degrees.

FIG. 2 is a block diagram schematically showing the main configuration of the sanitary washing device according to the embodiment.
FIG. 2 also shows the main configuration of the waterway system and the electrical system.
As shown in FIG. 2 , the sanitary washing device 100 has a water guide section 20 . The water guide section 20 has a conduit 20a from a water supply source 10 such as a tap or a water storage tank to the nozzle 473 . The water guide section 20 guides the water supplied from the water supply source 10 to the nozzle 473 through the conduit 20a. The pipe line 20a is formed by, for example, parts such as an electromagnetic valve 431, a heat exchanger unit 440, and a flow path switching part 472, which will be described below, and a plurality of pipes connecting these parts.

A solenoid valve 431 is provided on the upstream side of the water guide section 20 . The electromagnetic valve 431 is an electromagnetic valve that can be opened and closed, and controls water supply based on a command from the control unit 405 provided inside the casing 400 . In other words, the electromagnetic valve 431 opens and closes the pipeline 20a. By opening the electromagnetic valve 431, the water supplied from the water supply source 10 flows into the pipeline 20a.

A pressure regulating valve 432 is provided downstream of the solenoid valve 431 . The pressure regulating valve 432 regulates the pressure in the pipeline 20a to within a predetermined pressure range when the water supply pressure is high. A check valve 433 is provided downstream of the pressure regulating valve 432 . The check valve 433 suppresses backflow of water to the upstream side of the check valve 433 when the pressure in the pipeline 20a is reduced.

A heat exchanger unit 440 (heating section) is provided downstream of the check valve 433 . The heat exchanger unit 440 has a heater and heats the water supplied from the water supply source 10 to e.g. That is, the heat exchanger unit 440 produces hot water.

The heat exchanger unit 440 is an instantaneous heating type (instantaneous type) heat exchanger using, for example, a ceramic heater. An instantaneous heating type heat exchanger can raise the temperature of water to a specified temperature in a short time compared to a hot water storage heating type heat exchanger using a hot water storage tank. Note that the heat exchanger unit 440 is not limited to an instantaneous heating type heat exchanger, and may be a hot water storage heating type heat exchanger. Moreover, the heating unit is not limited to the heat exchanger, and may use other heating methods such as microwave heating.

The heat exchanger unit 440 is connected with the controller 405 . The control unit 405 raises the temperature of the water to the temperature set by the operation unit 500 by controlling the heat exchanger unit 440 according to the operation of the operation unit 500 by the user, for example.

A flow rate sensor 442 is provided downstream of the heat exchanger unit 440 . Flow sensor 442 detects the flow rate of water discharged from heat exchanger unit 440 . That is, the flow rate sensor 442 detects the flow rate of water flowing through the conduit 20a. The flow sensor 442 is connected to the controller 405 . The flow rate sensor 442 inputs the detection result of the flow rate to the control unit 405 .

An electrolytic cell unit 450 is provided downstream of the flow rate sensor 442 . The electrolytic cell unit 450 electrolyzes the tap water flowing inside to generate a liquid containing hypochlorous acid (functional water) from the tap water. The electrolytic cell unit 450 is connected to the controller 405 . The electrolytic cell unit 450 generates functional water under the control of the controller 405 .

The functional water generated in the electrolytic cell unit 450 may be, for example, a solution containing metal ions such as silver ions and copper ions. Alternatively, the functional water generated in the electrolytic cell unit 450 may be a solution containing electrolytic chlorine, ozone, or the like. Alternatively, the functional water generated in the electrolytic cell unit 450 may be acidic water or alkaline water.

A vacuum breaker (VB) 452 is provided downstream of the electrolytic cell unit 450 . The vacuum breaker 452 has, for example, a channel for flowing water, an intake port for taking air into the channel, and a valve mechanism for opening and closing the intake port. For example, the valve mechanism closes the intake port when water is flowing through the channel, and opens the intake port to take air into the channel when the flow of water stops. That is, the vacuum breaker 452 draws air into the conduit 20a when there is no water flow in the water conduit 20. As shown in FIG. A float valve, for example, is used for the valve mechanism.

The vacuum breaker 452 draws air into the pipeline 20a as described above, thereby facilitating draining of the downstream portion of the pipeline 20a from the vacuum breaker 452, for example. Vacuum breaker 452 facilitates draining nozzle 473, for example. In this way, the vacuum breaker 452 extracts water from the nozzle 473 and takes air into the nozzle 473, so that, for example, cleaning water in the nozzle 473 and dirty water accumulated in the bowl 801 can be removed from the water supply source 10 ( It suppresses backflow to the water supply side.

A pressure modulating section 454 is provided downstream of the vacuum breaker 452 . The pressure modulation section 454 applies pulsation or acceleration to the flow of water in the conduit 20a of the water guide section 20, and controls the bottom washing spout 474a, the soft washing spout 474b, and the bidet washing spout 474c of the nozzle 473 and the nozzle washing section. The water spouted from the water spouting part of 478 is given pulsation. That is, the pressure modulating section 454 changes the flow state of the water flowing through the conduit 20a. The pressure modulating section 454 is connected to the control section 405 . The pressure modulation section 454 changes the water flow state based on the control by the control section 405 . The pressure modulating section 454 varies the pressure of water in the pipeline 20a.

A flow rate adjusting section 471 is provided downstream of the pressure modulating section 454 . The flow rate adjustment unit 471 adjusts the water force (flow rate). A channel switching unit 472 is provided downstream of the flow rate adjusting unit 471 . The flow path switching unit 472 performs opening/closing and switching of water supply to the nozzle 473 and the nozzle cleaning unit 478 . The flow rate adjusting section 471 and the channel switching section 472 may be provided as one unit. The flow rate adjusting section 471 and the channel switching section 472 are connected to the control section 405 . Operations of the flow rate adjusting unit 471 and the flow switching unit 472 are controlled by the control unit 405 .

A nozzle 473 , a nozzle cleaning section 478 , and a spray nozzle 479 are provided downstream of the flow path switching section 472 . The nozzle 473 receives a driving force from the nozzle driving portion 476 and advances into the bowl 801 of the toilet bowl 800 or retreats from the bowl 801 .

The nozzle cleaning section 478 cleans the outer peripheral surface (body) of the nozzle 473 by, for example, jetting functional water or water from the water discharge section. The spray nozzle 479 turns washing water and functional water into a mist and sprays it onto the bowl 801 . In this example, a spray nozzle 479 is provided separately from the nozzle 473 for washing the human body. Without being limited to this, the nozzle 473 may be provided with a spout for spraying a mist-like liquid onto the bowl 801 .

In addition, downstream of the channel switching portion 472, there is a buttocks washing channel 21 that supplies the nozzle 473 with water supplied from the water supply source 10 via the water guide portion 20 or functional water generated in the electrolytic cell unit 450. , a soft cleansing channel 22 and a bidet cleansing channel 23 are provided. The bottom washing flow path 21 connects the flow path switching portion 472 and the bottom washing spout 474a. The soft wash flow path 22 connects the flow path switching portion 472 and the soft wash spout 474b. The bidet washing channel 23 connects the channel switching portion 472 and the bidet washing spout 474c.

In addition, the surface cleaning channel 24 and the spray channel 25 are provided downstream of the channel switching section 472 . The surface cleaning flow path 24 guides the water supplied from the water supply source 10 through the water guide section 20 and the functional water generated in the electrolytic cell unit 450 to the water discharge section of the nozzle cleaning section 478 . The spray channel 25 guides the water supplied from the water supply source 10 and the functional water generated in the electrolytic cell unit 450 to the spray nozzle 479 via the water guide section 20 .

The control unit 405 controls the flow path switching unit 472 to switch the bottom washing flow path 21, the soft washing flow path 22, the bidet washing flow path 23, the surface washing flow path 24, and the spray flow path 25. switch between open and closed. In this way, the channel switching unit 472 switches the channel for each of the plurality of water outlets such as the buttocks washing outlet 474a, the soft washing outlet 474b, the bidet washing outlet 474c, the nozzle washing section 478, and the spray nozzle 479. It switches between a state in which it communicates with 20a and a state in which it does not communicate with conduit 20a.

The control unit 405 is supplied with power from the power supply circuit 401, and operates the solenoid valve 431 and the heat exchanger based on signals from the human body detection sensor 403, the seating detection sensor 404, the flow rate sensor 442, the operation unit 500, and the like. It controls the operations of the unit 440, the electrolytic cell unit 450, the pressure modulation unit 454, the flow rate adjustment unit 471, the flow path switching unit 472, the nozzle driving unit 476, and the like.

As shown in FIG. 1, the human body detection sensor 403 is embedded in a recessed portion 409 formed in the upper surface of the casing 400 and detects a user (human body) approaching the toilet seat 200 . In other words, the human body detection sensor 403 detects a user near the sanitary washing device 100 . A transmission window 310 is provided in the rear portion of the toilet lid 300 . Therefore, when the toilet lid 300 is closed, the human body detection sensor 403 can detect the presence of the user through the transmission window 310 . The control unit 405 automatically opens the toilet lid 300 in response to detection of the user by the human body detection sensor 403, for example.

The casing 400 also has various functions such as a "warm air drying function" for blowing warm air toward the "buttocks" of the user sitting on the toilet seat 200 to dry them, a "deodorizing unit", and an "indoor heating unit". Mechanisms may be provided accordingly. At this time, an exhaust port 407 from the deodorizing unit and an exhaust port 408 from the indoor heating unit are appropriately provided on the side surface of the casing 400 . However, in the present invention, the sanitary washing function part and other additional function parts may not necessarily be provided.

3 and 4 are side views schematically showing the vicinity of the private part washing nozzle of the sanitary washing device according to the embodiment.
As shown in FIGS. 3 and 4, the nozzle 473 is curved upward. In this way, the nozzle unit can be made smaller in the vertical direction by forming the nozzle 473 into a curved shape that protrudes upward. Thereby, the casing 400 can be downsized in the vertical direction.

The nozzle 473 is supported by a nozzle support portion 480 provided below the nozzle 473 . The nozzle 473 advances and retreats (advances and retreats) while moving (sliding) along the slope of the upper surface of the nozzle support portion 480 . In other words, the inclination of the upper surface of the nozzle support portion 480 follows the trajectory of the nozzle 473 (virtual trajectory VO, which will be described later). In this example, the upper surface of the nozzle support portion 480 slopes upward from the rear end toward the center and slopes downward from the center toward the front end. Note that the nozzle support portion 480 may be, for example, a tubular member that accommodates the nozzle 473 .

At least a portion of the nozzle drive unit 476 that advances and retracts the nozzle 473 is provided below the nozzle 473, for example. In this example, at least a portion of the nozzle drive section 476 is provided inside the nozzle support section 480 . By providing at least a portion of the nozzle drive section 476 below the nozzle 473 in this way, the space below the nozzle 473 can be effectively utilized as the movable range of the nozzle drive section 476, and the casing 400 can be made smaller. be able to.

The nozzle drive unit 476 has, for example, a motor, gears, cable racks (flexible rack gears), and the like. The nozzle drive unit 476 advances and retreats the nozzle 473 connected to the cable rack by, for example, rotating a gear with a motor to move the cable rack. In this example, the cable rack is routed below nozzle 473 . In other words, the cable rack is arranged to extend rearward from the nozzle 473, curve downward, and curve forward. For example, when the nozzle 473 is housed inside the casing 400 , the end of the cable rack that is not connected to the nozzle 473 is positioned below the nozzle 473 .

A tube 475 for supplying water to the nozzle 473 is connected to the nozzle 473 . The tube 475 constitutes, for example, at least a part of the buttocks washing channel 21, the soft washing channel 22, and the bidet washing channel 23. One end (downstream side) of the tube 475 is connected to the nozzle 473 , and the other end (upstream side) of the tube 475 is connected to a water inlet connection portion 477 that supplies water to the tube 475 . For example, a portion of tube 475 is located inside nozzle 473 and another portion of tube 475 is located outside nozzle 473 .

The nozzle 473 has a hollow cylindrical shape with an opening at the rear end, and can accommodate a nozzle head (not shown) in the internal space. A cross section of the nozzle 473 in the advancing/retreating direction is, for example, substantially perfect circular. On the front upper surface of the nozzle 473, a buttocks washing spout 474a, a soft washing spout 474b, and a bidet washing spout 474c are provided. The nozzle head is provided inside the nozzle 473 and below the bottom washing spout 474a, the soft washing spout 474b, and the bidet washing spout 474c. The nozzle head is connected to a tube 475 and discharges water supplied from the tube 475 from the bottom washing spout 474a, the soft washing spout 474b, or the bidet washing spout 474c. A tube 475 connected to the nozzle head extends behind the nozzle 473 through the space inside the nozzle 473 . Nozzle 473 is connected to a cable rack of nozzle drive section 476 .

The axial center of the nozzle 473 is, for example, along the advance/retreat trajectory of the nozzle 473 (virtual trajectory VO described later). The axis of the nozzle 473 is, for example, an arcuate shape having the same radius of curvature (first radius of curvature CR1 described later) as the trajectory of the advance and retreat of the nozzle 473 .

As shown in FIGS. 3 and 4, the sanitary washing device 100 (casing 400) is installed on the toilet bowl 800. As shown in FIG. The nozzle 473 , the tube 475 , the water inlet connection portion 477 , the flow path switching portion 472 , the nozzle support portion 480 , the nozzle cleaning portion 478 , and the nozzle driving portion 476 are housed inside the casing 400 . The nozzle 473 can extend outside the casing 400 .

A nozzle lid 600 is provided in front of the nozzle 473 . The nozzle lid 600 is provided so as to be able to open and close with respect to an opening provided in front of the nozzle 473 . The nozzle lid 600 is rotatably supported on the front surface of the casing 400 . As shown in FIG. 3, the nozzle lid 600 is in a closed state in which the nozzle 473 is housed inside the casing 400 and the opening is closed, and as shown in FIG. The advanced state is an open state in which the opening is opened.

The nozzle cleaning section 478 is attached to the front end of the nozzle support section 480 . The nozzle cleaning section 478 includes a member (water discharge section) 478a formed with water discharge holes for discharging cleaning water, and a support 478b thereof. The nozzle cleaning section 478 cleans the outer peripheral surface (body) of the nozzle 473 by, for example, jetting functional water or water from the water discharge section 478a when the nozzle 473 advances and retreats. Although the nozzle cleaning section 478 is configured separately from the nozzle support section 480 in this example, the nozzle cleaning section 478 may be configured integrally with the nozzle support section 480 .

The water inlet connection portion 477 is connected to the flow path switching portion 472 . In other words, one end (downstream side) of the water inlet connection portion 477 is connected to the upstream side of the tube 475 , and the other end (upstream side) of the water inlet connection portion 477 is connected to the flow path switching portion 472 . In this example, the rear end of the water inlet connection portion 477 is connected to the upstream side of the tube 475 , and the front end of the water inlet connection portion 477 is connected to the flow path switching portion 472 .

The water inlet connecting portion 477 and the flow path switching portion 472 are provided above the nozzle 473 . Tube 475 is routed above nozzle 473 . In other words, the tube 475 extends rearward from the nozzle 473 , curves upward, curves forward, and is connected to the water inlet connection 477 provided above the nozzle 473 .

In the specification of the present application, “above the nozzle 473” means a position above the virtual orbit VO in side view and not overlapping the nozzle 473 in side view.

By providing the water inlet connecting portion 477 above the nozzle 473 in this manner, the tube 475 can be routed above the nozzle 473 . As a result, even if dirty water or the like adheres to the tube 475, the movable range of the tube 475 is the space above the nozzle 473, so the movement of the tube 475 spreads the dirt to the surrounding members and the inner part of the casing 400. can be suppressed.

Also, in this example, the water inlet connection portion 477 and the flow path switching portion 472 are provided directly above the nozzle 473 . In other words, the water inlet connection portion 477 and the flow path switching portion 472 are provided above the nozzle 473 and at a position overlapping the nozzle 473 when viewed from above. By providing the water inlet connecting portion 477 right above the nozzle 473 in this way, twisting of the tube 475 when moving the nozzle 473 forward and backward can be suppressed. Thereby, the nozzle 473 and the tube 475 can be operated more stably. The water inlet connecting portion 477 and the flow path switching portion 472 may be provided, for example, above the nozzle 473 and not overlapping the nozzle 473 when viewed from above.

Also, as shown in FIG. 3, in this example, in the housed state where the nozzle 473 is housed inside the casing 400, the rear end of the nozzle 473 is located behind the vertex VT of the virtual trajectory VO. In other words, in the retracted state, the rear end of the nozzle 473 exceeds the vertex VT of the virtual trajectory VO in the longitudinal direction. The vertex VT is located directly above the center of curvature CT of the virtual trajectory VO.

The virtual trajectory VO is the trajectory of the nozzle 473 moving forward and backward. The axis of the nozzle 473 is along the virtual trajectory VO. The virtual trajectory VO is, for example, arcuate with a first radius of curvature CR1. The first curvature radius CR1 is, for example, 100 mm or more and 800 mm or less, preferably about 170 mm.

Also, as shown in FIG. 3, in this example, the rear end of the water inlet connection portion 477 is located behind the vertex VT of the virtual orbit VO. In addition, the water inlet connecting portion 477 is provided so as to be substantially horizontal or inclined downward from upstream to downstream (from the flow path switching portion 472 side to the tube 475 side). In this way, when the rear end of the water inlet connection part 477 is located behind the vertex VT of the virtual orbit VO, the water inlet connection part 477 is provided substantially horizontally or inclined downward from upstream to downstream. Thus, bending of the tube 475 can be suppressed.

Further, as shown in FIG. 3, the front end of the nozzle 473 is located above the upper surface of the toilet bowl 800 in the retracted state. The upper surface of the toilet bowl 800 is, for example, the surface that contacts the toilet seat 200 . The upper surface of the toilet bowl 800 is, for example, the upper surface of a rim provided on the toilet bowl 800 . By locating the front end of the nozzle 473 above the upper surface of the toilet bowl 800 in the retracted state, the front end of the nozzle 473 can be kept away from the toilet bowl 800 as much as possible. As a result, it is possible to prevent dirty water or the like from dripping into the inner portion of casing 400 , and it is possible to prevent dirt from accumulating in the inner portion of casing 400 .

The operation of the nozzle will be described below.
As shown in FIG. 3, the entire nozzle 473 is housed inside the casing 400 when the nozzle is not in use. When the nozzle 473 cleans the private parts, the nozzle 473 advances forward and downward as shown in FIG. At this time, the nozzle 473 moves along the virtual trajectory VO. When the nozzle 473 moves forward and downward, the nozzle 473 contacts the nozzle cleaning portion 478, and the water discharge portion 478a of the nozzle cleaning portion 478 and the nozzle cover 600 are pushed upward. For example, until the nozzle 473 reaches a predetermined position, the nozzle 473 is washed by water jetting from the water jetting portion 478a.

As shown in FIG. 4, when the nozzle 473 reaches a predetermined position, water is discharged from the buttocks washing spout 474a, the soft washing spout 474b, or the bidet washing spout 474c toward the private parts of the user to wash them. is done.

When washing the private parts is completed, the nozzle 473 moves rearward and upward toward the inside of the casing 400 . When the nozzle 473 retreats, the nozzle 473 retreats rearward and upward as shown in FIG. 3, and the entire nozzle 473 is accommodated in the casing 400. At this time, the nozzle 473 moves along the virtual trajectory VO. For example, until the nozzle 473 reaches a predetermined position, the nozzle 473 is washed by water jetting from the water jetting portion 478a.

In this way, by discharging water from the nozzle cleaning part 478 when the nozzle 473 is accommodated inside the casing 400, dirty water and the like adhering to the nozzle 473 are washed away before the nozzle 473 is accommodated inside the casing 400. be able to. As a result, it is possible to prevent dirty water or the like from dripping into the inner portion of casing 400 , and it is possible to prevent dirt from accumulating in the inner portion of casing 400 . In addition, since the nozzle 473 slides smoothly due to the water discharged from the nozzle cleaning portion 478, the sliding resistance when the nozzle 473 is retracted can be further reduced.

The nozzle 473 may be, for example, a so-called multi-stage nozzle having a first tubular portion extending from the casing 400 and a second tubular portion extending from the first tubular portion. By making the nozzle 473 a multistage nozzle in this manner, the size of the nozzle unit can be reduced in the front-rear direction. Thereby, casing 400 can be miniaturized in the front-rear direction.

When the nozzle 473 is a multi-stage nozzle, for example, the first cylindrical portion and the second cylindrical portion are curved so as to protrude upward. The axis of the first cylindrical portion and the axis of the second cylindrical portion are along the virtual trajectory VO, for example. The axis of the first cylindrical portion and the axis of the second cylindrical portion are, for example, arcuate with a first radius of curvature CR1. Alternatively, in the accommodated state, the axis of the portion where the first tubular portion and the second tubular portion overlap is along the virtual orbit VO, for example. In the housed state, the axial center of the portion where the first tubular portion and the second tubular portion overlap is, for example, an arc shape having a first radius of curvature CR1.

Further, when the nozzle 473 is a multi-stage nozzle, the buttocks washing spout 474a, the soft washing spout 474b, and the bidet washing spout 474c are provided, for example, in the second cylindrical portion. For example, in the stowed state, the spouts (bottom washing spout 474a, soft washing spout 474b, and bidet washing spout 474c) provided in the second tubular portion are stowed inside the first tubular portion. In this manner, in the stored state, the spout of the second tubular portion is accommodated inside the first tubular portion, so that dirty water or the like attached around the spout can be dammed up by the first tubular portion during storage. . As a result, it is possible to prevent dirty water or the like from dripping into the inner portion of casing 400 , and it is possible to prevent dirt from accumulating in the inner portion of casing 400 .

FIG. 5 is a side view schematically showing the periphery of a private part washing nozzle of another sanitary washing device according to the embodiment.
As shown in FIG. 5, in this example, the rear end of the water entry joint 477 is located forward of the vertex VT of the virtual orbit VO. In addition, the water inlet connection portion 477 is provided so as to be substantially horizontal or inclined upward from upstream to downstream (from the flow path switching portion 472 side to the tube 475 side). In this way, when the rear end of the water inlet connection portion 477 is located forward of the vertex VT of the virtual orbit VO, the water inlet connection portion 477 is provided substantially horizontally or inclined upward from upstream to downstream. Thus, bending of the tube 475 can be suppressed.

FIG. 6 is a side view schematically showing the periphery of a private part washing nozzle of another sanitary washing device according to the embodiment.
As shown in FIG. 6, in this example, in the retracted state, the rear end of the nozzle 473 is located at the vertex VT of the virtual trajectory VO or ahead of the vertex VT. In other words, in the retracted state, the rear end of the nozzle 473 does not exceed the vertex VT of the virtual trajectory VO in the longitudinal direction.

In this way, by positioning the rear end of the nozzle 473 at the vertex VT of the virtual orbit VO or in front of the vertex VT in the stored state, sewage, etc. can be suppressed from flowing backward. Therefore, it is possible to prevent sewage or the like from dripping into the innermost portion of the casing 400 and to prevent dirt from accumulating in the innermost portion of the casing 400 .

Also, as shown in FIG. 6, in this example, the rear end of the water inlet connection portion 477 is located forward of the vertex VT of the virtual orbit VO. In addition, the water inlet connection portion 477 is provided so as to be substantially horizontal or inclined upward from upstream to downstream (from the flow path switching portion 472 side to the tube 475 side). In this way, when the rear end of the water inlet connection portion 477 is located forward of the vertex VT of the virtual orbit VO, the water inlet connection portion 477 is provided substantially horizontally or inclined upward from upstream to downstream. Thus, bending of the tube 475 can be suppressed.

As described above, according to the embodiment, when the nozzle 473 having an upwardly convex curved shape is provided, it is possible to suppress the diffusion of dirt by the tube 475 .

The embodiments of the present invention have been described above. However, the invention is not limited to these descriptions. Appropriate design changes made by those skilled in the art with respect to the above embodiments are also included in the scope of the present invention as long as they have the features of the present invention. For example, the shape, size, material, arrangement, installation form, and the like of each element included in the sanitary washing device 100 are not limited to those illustrated and can be changed as appropriate.
Moreover, each element provided in each of the above-described embodiments can be combined as long as it is technically possible, and a combination of these is also included in the scope of the present invention as long as it includes the features of the present invention.

10 Water supply source 20 Conduit part 21 Bottom washing channel 22 Soft washing channel 23 Bidet washing channel 24 Surface cleaning channel 25 Spraying channel 100 Sanitary washing device 200 Toilet seat 300 Toilet cover 310 transmission window 400 casing 401 power supply circuit 403 human body detection sensor 404 seating detection sensor 405 control unit 407 exhaust port 408 exhaust port 409 concave portion 431 electromagnetic valve 432 pressure regulating valve 433 check valve 440 heat exchanger unit 442 flow rate sensor 450 electrolytic cell unit 452 vacuum breaker 454 pressure modulation section 471 flow rate adjustment section 472 flow path switching section 473 nozzle 474a bottom washing spout 474b soft washing spout 474c bidet washing spout 475 tube 476 nozzle driving part 477 water inlet connection part 478 nozzle washing part 478a water spouting part 478b support body 479 spray nozzle 480 nozzle support part 500 operation part 600 nozzle cover 800 toilet, 801 bowl, CT center of curvature, CR1 first radius of curvature, VO virtual trajectory, VT vertex

Claims (7)

a private cleaning nozzle for cleaning the private parts of the human body;
a tube for supplying water to the private washing nozzle;
a water inlet connection connected to the upstream side of the tube and supplying water to the tube;
a casing housing the private washing nozzle, the tube, and the water inlet connection;
with
The local cleaning nozzle is curved to be convex upward, and advances and retreats along an arc-shaped virtual trajectory,
The sanitary washing device, wherein the water inlet connecting portion is provided above the private part washing nozzle. 2. The sanitary washing device according to claim 1, wherein, in a housed state in which said private parts washing nozzle is housed inside said casing, a rear end of said private parts washing nozzle is located behind a vertex of said virtual trajectory. . the rear end of the water inlet connecting portion is located behind the vertex of the virtual trajectory,
3. The sanitary washing device according to claim 2, wherein the water inlet connecting portion is provided so as to be substantially horizontal or inclined downward from upstream to downstream. the rear end of the water inlet connection is located forward of the vertex of the virtual trajectory,
3. The sanitary washing device according to claim 2, wherein the water inlet connecting portion is provided so as to be substantially horizontal or inclined upward from upstream to downstream. In a housed state in which the private-parts washing nozzle is housed inside the casing, the rear end of the private-parts washing nozzle is located at the vertex of the virtual trajectory or in front of the vertex,
the rear end of the water inlet connection is located forward of the vertex of the virtual trajectory,
2. The sanitary washing device according to claim 1, wherein said water inlet connecting portion is provided so as to be substantially horizontal or inclined upward from upstream to downstream. further comprising a nozzle driving unit for advancing and retracting the private washing nozzle,
The sanitary washing device according to any one of claims 1 to 5, wherein at least a portion of the nozzle drive section is provided below the private parts washing nozzle. The sanitary washing device according to any one of claims 1 to 6, wherein the water inlet connecting portion is provided at a position overlapping with the private parts washing nozzle when viewed from above.

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