JP7265218B2 - sanitary washing equipment - Google Patents

Description

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

In order to keep the private part washing nozzle (hereinafter also simply referred to as "nozzle") sanitary, for example, before and after using the nozzle, water in the plurality of channels provided in the nozzle is discharged, and the 2. Description of the Related Art There is a sanitary washing device that performs self-cleaning by washing the outer surface around a plurality of spouts of a nozzle using discharged water. By performing such self-cleaning, it is possible to wash away dirt and the like stuck to the inside of the flow path of the nozzle and the exterior surface around the spout.

Japanese Patent Application Laid-Open No. 09-296497 Japanese Patent No. 4631174 JP-A-09-144106

When cleaning the nozzle by self-cleaning, for example, when the nozzle is stored, the water in the flow path is discharged from the spout, and the water hits the wall surface arranged above the nozzle appearance surface, and the water bounces off the wall surface. Use water (bounced water) to wash the external surface. However, in such a method, part of the splashed water is discharged without sufficiently cleaning the outer surface, and sufficient cleaning performance may not be obtained in self-cleaning.

SUMMARY OF THE INVENTION The present invention has been made based on recognition of such problems, and an object of the present invention is to provide a sanitary washing apparatus capable of improving washing performance in self-cleaning.

A first invention includes a casing and a private part washing nozzle that moves forward and backward from the casing to wash a human private part, and the private part washing nozzle is provided behind a first spout and the first spout. and a first water spout between a portion of the first water spout on the rear side of the first water spout on a tangential line to the private parts washing nozzle and the water discharge direction of the first water spout. The angle is an acute angle, and the second water spouting angle between the portion of the second spout that is on the rear side of the second spout on the tangential line to the private parts washing nozzle and the water spouting direction of the second spout is The private-parts washing nozzle has an obtuse angle, and the private-parts washing nozzle is a self-cleaning device that cleans the private-parts washing nozzle by spouting water from the first water outlet and the second water outlet when the private-parts washing nozzle is housed in the casing. A sanitary washing device characterized by being able to perform cleaning.

According to this sanitary washing device, the first water spouting angle is set to an acute angle and the second water spouting angle is set to an obtuse angle. and the water discharged from the second spout and bounced off the wall surface can be made to flow forward. As a result, the water discharged from the first water outlet and bounced off the wall surface makes it easier for the water discharged from the second water outlet and bounced off the wall surface to stay around the first water outlet and the second water outlet. Cleaning performance in self-cleaning can be improved. Further, the water discharged from the second water outlet and bounced off the wall surface can prevent the water discharged from the first water outlet and bounced off the wall surface from entering the rear of the nozzle. As a result, in self-cleaning, it is possible to suppress splashing of water from the back of the nozzle to the internal unit.

A second aspect of the present invention is the sanitary washing device according to the first aspect, wherein the first spout is a bidet washing spout, and the second spout is a buttocks washing spout.

According to this sanitary washing device, the first spout is used as a bidet washing spout, and the second spout is set as a buttocks washing spout, so that water can be spouted to an appropriate position when executing bidet washing or rear washing. be able to. In other words, it is possible to achieve both washing performance in bidet washing, buttocks washing, etc., and washing performance in self-cleaning.

A third invention is the sanitary washing device according to the first or second invention, wherein the first water discharge angle is smaller than an angle obtained by subtracting the second water discharge angle from 180 degrees.

According to this sanitary washing device, by setting the first water spouting angle to be smaller than the angle obtained by subtracting the second water spouting angle from 180 degrees, the water spouted from the first spout and bounced off the wall surface and the second spout Since the confluence position with the water that is discharged from the nozzle and bounces off the wall surface is further behind the nozzle, the self-cleaning water can be flowed further behind the nozzle. As a result, the cleaning range is widened, and the cleaning performance in self-cleaning can be further improved.

A fourth aspect of the invention is the sanitary washing device according to any one of the first to third aspects of the invention, wherein the private part washing nozzle is curved so as to protrude upward.

According to this sanitary washing device, the private part washing nozzle has a curved shape that protrudes upward. It is possible to shorten the advance distance of the nozzle for spouting water. Further, by forming the private part washing nozzle into a curved shape, the size of the nozzle unit can be reduced in the vertical direction. As a result, the casing can be downsized in the vertical direction.

According to a fifth invention, in the fourth invention, the private parts washing nozzle further has a third spout provided between the first spout and the second spout. is.

According to this sanitary washing device, by providing the third water outlet between the first water outlet and the second water outlet, when self-cleaning is performed, the water that is discharged and bounces off the wall surface is more likely to reach the nozzle. Easy to get around. As a result, cleaning performance in self-cleaning can be further improved.

An aspect of the present invention provides a sanitary washing device capable of improving washing performance in self-cleaning.

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. 3 is a perspective view schematically showing the periphery of a private part washing nozzle of the sanitary washing device according to the embodiment; FIG. 3 is a perspective view schematically showing the periphery of a private part washing nozzle of the sanitary washing device according to the embodiment; FIG. 3 is a perspective view schematically showing the periphery of a private part washing nozzle of the sanitary washing device according to the embodiment; Fig. 2 is a side view schematically showing a private part washing nozzle of the sanitary washing device according to the embodiment; 7(a) to 7(c) are side views schematically showing the vicinity of the spout of the private part washing nozzle of the sanitary washing device according to the embodiment. FIG. 4 is a side view schematically showing the flow of water during self-cleaning of the private part washing nozzle of the sanitary washing device according to the embodiment. FIGS. 9(a) to 9(c) are side views schematically showing the spouts of modifications of the private part washing nozzle of the 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. A spout is provided at the tip of the nozzle 473 . In this example, three water outlets are provided: a first water outlet 474a, a second water outlet 474b, and a third water outlet 474c. The second water outlet 474b is provided behind the first water outlet 474a. The third water outlet 474c is provided between the first water outlet 474a and the second water outlet 474b. The third spout 474c is provided as necessary and can be omitted.

In this example, the first spout 474a is a bidet washing spout, the second spout 474b is a buttocks washing spout, and the third spout 474c is a soft washing spout. The nozzle 473 can jet water from a second water outlet 474b or a third water outlet 474c 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 first spout 474a 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.

In this manner, by using the first water outlet 474a as a bidet washing outlet and the second water outlet 474b as a buttocks washing outlet, it is possible to spout water to an appropriate position when executing bidet washing or rear washing. can. In other words, it is possible to achieve both washing performance in bidet washing, buttocks washing, etc., and washing performance in self-cleaning, which will be described later.

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".

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 pulsates or accelerates the flow of water in the conduit 20a of the water guide section 20, and the water is discharged from the first to third water outlets 474a to 474c of the nozzle 473 and the water discharge section of the nozzle cleaning section 478. Gives pulsation to water. 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 .

Further, downstream of the channel switching portion 472 , a first cleaning channel 21 that supplies water supplied from the water supply source 10 via the water guide portion 20 and functional water generated in the electrolytic cell unit 450 to the nozzle 473 . , a second cleaning channel 22 and a third cleaning channel 23 are provided. The first washing channel 21 is a bidet washing channel that connects the channel switching portion 472 and the first water outlet (bidet washing water outlet) 474a. The second washing flow path 22 is a rear washing flow path that connects the flow switching portion 472 and the second water outlet (bottom washing water outlet) 474b. The third cleaning channel 23 is a soft cleaning channel that connects the channel switching portion 472 and the third spout (soft cleaning 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 channel switching unit 472 to switch the first cleaning channel 21 , the second cleaning channel 22 , the third cleaning channel 23 , the surface cleaning channel 24 , and the spray channel 25 . Switches the opening and closing of each channel. In this way, the flow path switching unit 472 switches the pipeline for each of the plurality of water outlets such as the first water outlet 474a, the second water outlet 474b, the third water outlet 474c, the nozzle cleaning 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 to 5 are perspective views schematically showing the vicinity of the private part washing nozzle of the sanitary washing device according to the embodiment.
FIG. 3 shows a housed state in which the nozzle 473 is housed in the casing 400 .
4 and 5 show an advanced state in which the nozzle 473 has advanced from the casing 400. FIG.
3 to 5, members other than those around the nozzle 473 are omitted.

As shown in FIGS. 3 to 5, the nozzle 473 has a housed state in which it is housed in the casing 400 and a state in which it has advanced out of the casing 400 . In the advanced state, the nozzle 473 cleanses the human body by spouting water from the first water outlet 474a, the second water outlet 474b, or the third water outlet 474c.

In this example, the nozzle 473 is a multistage nozzle having a first tubular portion 473a and a second tubular portion 473b. The first cylindrical portion 473a protrudes from the casing 400. As shown in FIG. The second tubular portion 473b is housed inside the first tubular portion 473a and protrudes from the first tubular portion 473a. 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. Note that the nozzle 473 is not limited to a multistage nozzle. The nozzle 473 may be a single-stage nozzle consisting of one cylinder. In this case, the nozzle 473 is housed in a cylindrical member.

Also, in this example, the nozzle 473 is curved so as to be convex upward. In this case, the nozzle 473 advances and retreats along an arc-shaped track. 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. Note that the nozzle 473 is not limited to being curved, and may be linear.

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 advance/retreat trajectory of the nozzle 473 . In this example, the upper surface of the nozzle support portion 480 is inclined downward from the rear to the front. 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 .

The advancing position of the nozzle 473 may differ for each cleaning mode. The position of the nozzle 473 when performing "bottom washing" is, for example, behind the position of the nozzle 473 when performing "bidet washing". Further, the position of the nozzle 473 when performing "soft washing" is, for example, behind the position of the nozzle 473 when performing "bottom washing".

A tube 475 for supplying water to the nozzle 473 is connected to the nozzle 473 . The tube 475 configures at least part of the first cleaning channel 21, the second cleaning channel 22, and the third cleaning channel 23, for example. 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 operation of the nozzle 473 will be described below.
When the nozzle 473 is not in use, the entire nozzle 473 is housed inside the casing 400 as shown in FIG. When the nozzle 473 cleans the private parts, as shown in FIG. 4, the second cylindrical portion 473b advances forward and downward from the first cylindrical portion 473a. When the second cylindrical portion 473b reaches the predetermined position, the first cylindrical portion 473a moves forward and downward along the nozzle support portion 480 as shown in FIG. At this time, the first tubular portion 473a moves forward and downward together with the second tubular portion 473b while the second tubular portion 473b extends forward from the first tubular portion 473a. When the first cylindrical portion 473a reaches a predetermined position, water is discharged from the first water outlet 474a, the second water outlet 474b, or the third water outlet 474c toward the user's private parts to wash them.

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, first, as shown in FIG. 4, the first cylindrical portion 473a retreats to a predetermined position. At this time, the first tubular portion 473a moves rearward and upward together with the second tubular portion 473b while the second tubular portion 473b extends forward from the first tubular portion 473a. When the first cylindrical portion 473a reaches a predetermined position, as shown in FIG. 3, the second cylindrical portion 473b retreats rearward and upward and is accommodated in the first cylindrical portion 473a.

When the nozzle 473 is housed in the casing 400, the nozzle 473 can be self-cleaned by spouting water from the first water outlet 474a and the second water outlet 474b. When the third water outlet 474c is provided, the nozzle 473 spouts water from the first water outlet 474a, the second water outlet 474b, and the third water outlet 474c during self-cleaning.

As shown in FIG. 3, in this example, when the nozzle 473 is housed in the casing 400, the second cylindrical portion 473b provided with the first to third spouts 474a to 474c is the same as the first cylindrical portion. 473a. During self-cleaning, the water discharged from the first to third water outlets 474a to 474c hits the inner wall surface of the first cylindrical portion 473a, and the water bounced off the inner wall surface (rebound water) causes the appearance of the second cylindrical portion 473b. surface is cleaned. If the nozzle 473 is not a multistage nozzle, the water discharged from the first to third water outlets 474a to 474c hits the inner wall surface of the tubular member that houses the nozzle 473, and bounces off the inner wall surface (rebound water). Thus, the external surface of the nozzle 473 is cleaned.

By executing such self-cleaning, it is possible to wash away dirt and the like stuck to the inside of the flow path of the nozzle 473 and the exterior surface around the spout.

FIG. 6 is a side view schematically showing the private part washing nozzle of the sanitary washing device according to the embodiment. 7(a) to 7(c) are side views schematically showing the vicinity of the spout of the private part washing nozzle of the sanitary washing device according to the embodiment.
FIG. 8 is a side view schematically showing the flow of water during self-cleaning of the private part washing nozzle of the sanitary washing device according to the embodiment.
7(a) to 7(c) are enlarged views of the region R1 shown in FIG.
As shown in FIGS. 6 and 7(a) to 7(c), the nozzle 473 spouts water from the first water outlet 474a and the second water outlet 474b at different water spouting angles. The direction of water discharge from each outlet is indicated by a dashed line. More specifically, the nozzle 473 spouts water from the first water outlet 474a at the first water spouting angle θ1 and from the second water outlet 474b at the second water spouting angle θ2. The first water discharge angle θ1 and the second water discharge angle θ2 are different. Further, the nozzle 473 spouts water from the third water spouting port 474c at the third water spouting angle θ3. In this example, the third water jetting angle θ3 is different from the first water jetting angle θ1 and the second water jetting angle θ2. The third water jetting angle θ3 may be the same as the first water jetting angle θ1 or the second water jetting angle θ2.

Here, as shown in FIGS. 7( a ) to 7 ( c ), the “water spouting angle” is the distance between the portion of each spout behind the spout on the tangential line to the nozzle 473 and the water spouting direction. is the angle of Note that the water discharge angle is greater than 0 degrees and less than 180 degrees. The water discharge direction of the water discharge port is the direction in which water is discharged, but the direction of the flow path inside the nozzle 473 connected to each water discharge port can also be regarded as the water discharge direction.

More specifically, as shown in FIG. 7A, the first water discharge angle θ1 of the first water discharge port 474a is located behind the first water discharge port 474a on the tangential line TL1 to the nozzle 473 at the first water discharge port 474a. side portion and the water discharge direction WD1 of the first water discharge port 474a. As shown in FIG. 7(b), the second water discharge angle θ2 of the second water discharge port 474b is the portion behind the second water discharge port 474b with respect to the tangential line TL2 to the nozzle 473 at the second water discharge port 474b It is the angle between the water discharge port 474b and the water discharge direction WD2. As shown in FIG. 7(c), the third water discharge angle θ3 of the third water discharge port 474c is between the portion behind the third water discharge port 474c and the third It is the angle between the water discharge port 474c and the water discharge direction WD3. Note that in this example, the nozzle 473 is curved so as to protrude upward, so the tangents TL1, TL2, and TL3 are not parallel to each other.

As shown in FIG. 7A, the first water discharge angle θ1 is an acute angle (that is, more than 0 degrees and less than 90 degrees). Also, as shown in FIG. 7B, the second water spouting angle θ2 is an obtuse angle (that is, more than 90 degrees and less than 180 degrees). As shown in FIG. 8 , in self-cleaning, water discharged from the first water discharge port 474 a hits the inner wall surface of the first cylindrical portion 473 a and flows toward the rear side of the nozzle 473 . On the other hand, the water discharged from the second water outlet 474b hits the inner wall surface of the first tubular portion 473a and flows toward the front side of the nozzle 473 . The flow of water discharged from each spout is indicated by dashed arrows.

In this way, by setting the first water jetting angle θ1 to an acute angle and the second water jetting angle θ2 to an obtuse angle, the water discharged from the first water jetting port 474a and bounced off the wall surface when self-cleaning is performed moves backward. The water discharged from the second water outlet 474b and bounced off the wall surface can be made to flow forward. As a result, the water discharged from the first water outlet 474a and bounced off the wall surface makes it easier for the water discharged from the second water outlet 474b and bounced off the wall surface to stay around the first water outlet 474a and the second water outlet 474b. It is possible to improve the washing performance in self-cleaning.

Also, when self-cleaning is performed, the water that is discharged from the first water outlet 474a and bounces off the wall surface flows backward, and the water that is discharged from the second water outlet 474b and bounces off the wall surface flows forward. Therefore, the water discharged from the second water outlet 474b and bounced off the wall surface can be prevented from entering behind the nozzle 473 by the water discharged from the first water outlet 474a and bounced off the wall surface. Thereby, in the self-cleaning, it is possible to suppress splashing of water from the back of the nozzle 473 to the inner machine.

As shown in FIGS. 7A and 7B, in this example, the first water discharge angle θ1 is an angle φ obtained by subtracting the second water discharge angle θ2 from 180 degrees (φ=180°−θ2 ). In this manner, by setting the first water discharge angle θ1 to be smaller than the angle φ, the water discharged from the first water discharge port 474a and bounced off the wall surface and the water discharged from the second water discharge port 474b and bounced off the wall surface are separated. The confluence position is further behind the nozzle 473 . That is, the distance between the confluence position and the first water outlet 474a is longer than the distance between the confluence position and the second water outlet 474b. Therefore, the self-cleaning water can be caused to flow further to the rear side of the nozzle 473 . As a result, the cleaning range is widened, and the cleaning performance in self-cleaning can be further improved.

When the first water jetting angle θ1 is an acute angle, the water jetting direction WD1 from the first water jetting port 474a tends to be more rearward than when the first water jetting angle θ1 is a right angle or an obtuse angle. Therefore, in this state, in order to spout water to an appropriate position during bidet washing, etc., it is required to increase the advancing distance of the nozzle 473 . On the other hand, by forming the nozzle 473 into a curved shape, compared with the linear nozzle 473, even when the first water spouting angle θ1 is set to an acute angle, the water spouting direction WD1 from the first water spouting port 474a is on the rear side. hard to become In other words, if the first water discharge angle θ1 is the same, the curved nozzle 473 can discharge water more forward than the linear nozzle 473 . Therefore, the advancing distance of the nozzle 473 for spouting water to an appropriate position can be shortened, and the size of the nozzle unit can be reduced in the front-rear direction.

In addition, by providing the third water outlet 474c between the first water outlet 474a and the second water outlet 474b, when self-cleaning is performed, the water discharged from each water outlet and bounced off the wall surface is more likely to flow into the nozzle. It is easy to go around 473. As a result, cleaning performance in self-cleaning can be further improved.

In this case, the third water discharge angle θ3 is preferably larger than the first water discharge angle θ1. In this example, the third water spouting angle θ3 is an obtuse angle (that is, more than 90 degrees and less than 180 degrees). Also, in this example, the third water discharge angle θ3 is greater than the second water discharge angle θ2. Therefore, the water discharged from the third water outlet 474c hits the inner wall surface of the first cylindrical portion 473a and flows toward the front side of the nozzle 473. As shown in FIG.

Note that the third water discharge angle θ3 may be an acute angle (that is, more than 0 degrees and less than 90 degrees). Also in this case, the third water discharge angle θ3 is preferably larger than the first water discharge angle θ1.

FIGS. 9(a) to 9(c) are side views schematically showing the spouts of modifications of the private part washing nozzle of the sanitary washing device according to the embodiment.
As shown in FIGS. 9(a)-9(c), the nozzle 473 may be linear. In this case, a tangent line TL1 to the nozzle 473 at the first water outlet 474a, a tangent line TL2 to the nozzle 473 at the second water outlet 474b, and a tangent line TL3 to the nozzle 473 at the third water outlet 474c are parallel to each other.

Also in this modified example, the first water jetting angle θ1 is less than 90 degrees and the second water jetting angle θ2 is more than 90 degrees, so that the washing performance in self-cleaning can be improved.

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 water guide section 20a pipeline 21 first cleaning channel 22 second cleaning channel 23 third cleaning channel 24 surface cleaning channel 25 atomizing channel 100 sanitary cleaning device 200 toilet seat 300 toilet lid 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 sensor 450 electrolytic cell unit 452 vacuum breaker 454 pressure modulating section 471 flow regulating section 472 flow switching section 473 nozzle 473a first cylinder Section 473b Second cylindrical section 474a to 474c First to third spouts 475 Tube 476 Nozzle drive section 477 Water inlet connection section 478 Nozzle cleaning section 478a Water outlet section 478b Support body 479 Spray nozzle 480 Nozzle support portion 500 Operation portion 800 Toilet bowl 801 Bowl R1 Region TL1 to TL3 First to third tangent lines WD1 to WD3 Water discharge direction θ1 to θ3 First to third water discharge angles φ Angle

Claims (4)

a casing;
a private part washing nozzle that advances and retreats from the casing to wash a human private part;
with
The private parts washing nozzle has a first spout and a second spout provided behind the first spout,
A first water spouting angle between a portion of the first spout on the rear side of the first spout on a tangential line to the private parts washing nozzle and the water spouting direction of the first spout is an acute angle,
A second water spouting angle between a portion of the second spout on the rear side of the second spout on a tangential line to the private parts washing nozzle and the water spouting direction of the second spout is an obtuse angle,
The private parts washing nozzle can perform self-cleaning for washing the private parts washing nozzle by spouting water from the first water outlet and the second water outlet in a housed state in which the private parts washing nozzle is housed in the casing. and
The sanitary washing device , wherein the first water discharge angle is smaller than an angle obtained by subtracting the second water discharge angle from 180 degrees . 2. The sanitary washing apparatus according to claim 1, wherein said first water outlet is a bidet washing water outlet, and said second water outlet is a buttocks washing water outlet. 3. The sanitary washing device according to claim 1 , wherein the private part washing nozzle is curved so as to protrude upward. 4. The sanitary washing device according to claim 3 , wherein said private part washing nozzle further has a third spout provided between said first spout and said second spout.

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