JP4103176B2 - Human body local cleaning equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a human body local cleaning apparatus, and more particularly to a structure for switching a water channel to a cleaning means.
[0002]
[Prior art]
As a structure of a cleaning nozzle used in a conventional human body local cleaning device, a cleaning nozzle as disclosed in JP-A-6-88370 is known. As shown in FIG. 8, this communicates with the washing water tank 101 and communicates with the anal washing main channel 111 and the anal washing sub-flow channel 112 for washing the anus of the human body, and the anal washing main channel 111. An anal cleaning nozzle body 104 provided with an anal cleaning sub-nozzle hole 103 communicating with the anal cleaning main nozzle hole 102 and the anal cleaning sub-flow path 112, and an opening / closing valve 105 for controlling opening / closing of the anal cleaning sub-flow path 112. When the on-off valve 105 is closed, the cleaning water flows only through the anus cleaning main flow path 111, and the cleaning water is ejected only from the anal anal cleaning main nozzle hole 102, so that a strong and intense sensation can be obtained. When the cleaning pattern and the on-off valve 105 are closed, the cleaning water flows through the anus cleaning main flow path 111 and the anal cleaning sub flow path 112 and is cleaned from both the anal cleaning main nozzle hole 102 and the sub nozzle hole 103. There was ejected, washed pattern distributed friendly experience is obtained in which can be selected according to preference.
[0003]
[Problems to be solved by the invention]
In addition to the case where the cleaning nozzle is configured with two flow paths (main flow path and sub flow path) as in the prior art described above, if a bidet cleaning nozzle for cleaning the female local part is provided, the bidet cleaning flow path Must be constructed, and a total of three channels are required. That is, a flow path switching means for selectively communicating the supply path for supplying the cleaning water from the cleaning water tank to the three flow paths is required. As the flow path switching means for switching to such three flow paths, for example, a rotary valve composed of two rotating plates and a fixed plate is conceivable, but since there are two movable plates, the flow path switching means is large. In addition, there is a problem that the number of parts increases and the cost increases.
[0004]
Further, not only in the above-described conventional technology, but also in a cleaning nozzle configured only with a main flow passage for anus cleaning, the operation of the nozzle is performed by the pressure in the flow channel when the cleaning is stopped (for example, the operation in which the nozzle returns to the cylinder after the cleaning stops) ), And when the nozzle returns to the cylinder, the residual washing water blows out from the nozzle hole due to the residual pressure in the flow path, which makes the user uncomfortable.
[0005]
Therefore, the present invention has been made in view of the above circumstances, and in the human body local cleaning apparatus, the flow path switching means for switching the communication between the supply path of the cleaning water and each flow path is configured in a compact manner, and after the cleaning. It is a technical problem to make it possible to remove the residual pressure in each of the flow paths so that the user does not feel uncomfortable.
[0006]
[Means for Solving the Problems]
In order to solve the above technical problem, the invention of claim 1 includes a cleaning means for cleaning a human body part, a first flow path, a second flow path, and a second flow path respectively communicating with the cleaning means. 3, a wash water tank that stores wash water for washing the human body part, a wash water supply flow path that communicates with the wash water tank, a first communication portion that communicates with the first flow path, A fixed plate formed with a second communication portion communicating with the second flow channel, a third communication portion communicating with the third flow channel, and a drain port communicating with the atmosphere, and rotatable with respect to the fixed plate A slit portion that is attached to the cleaning water and flows through which the cleaning water supplied from the cleaning water tank flows, a communication window portion that can communicate the first communication portion and the drain port, and can communicate the third communication portion and the drain port. And a rotating plate formed with A first state in which the flow path switching means, the slit portion and the first communication portion face each other and the cleaning water flows to the first communication portion, the slit portion and the second communication portion face each other A second state in which cleaning water flows to the second communication portion, a third state in which the slit portion and the third communication portion face each other and cleaning water flows to the third communication portion, the communication window portion The fourth state in which the first communication portion and the drain port are communicated with each other by the above and the fifth state in which the third communication portion and the drain port are communicated by the communication window portion are selectively taken. Control means for controlling the rotation of the rotating plate so as to obtainThe fixing plate is formed with a fourth communication part that communicates with the first communication part by a first bypass flow path, and the slit part and the fourth communication part face each other in the second state. It is that it was set as the human body local washing | cleaning apparatus characterized by these.
[0007]
According to the above invention, the human body local cleaning device includes a cleaning means such as a cleaning nozzle for cleaning the human body local part, and the first flow path, the second flow path, and the third flow respectively communicating with the cleaning means. A channel, a washing water tank for storing washing water for washing a human body part, a flow path switching means having a fixed plate and one rotating plate rotatably attached to the fixed plate, and rotation of the rotating plate And control means for controlling. The fixed plate communicates with the first communication part communicating with the first flow path, the second communication part communicating with the second flow path, the third communication part communicating with the third flow path, and the atmosphere. A drain port is formed, and the rotating plate can communicate the slit portion through which the washing water supplied from the washing water tank flows, the first communication portion and the drain port, and the third communication portion and the drain port. Possible communication windows are formed. And a control means makes the slit part and the 1st communicating part face each other, the 1st state which makes the 1st communicating part flow the washing water which flows through the slit part, the slit part and the 2nd communicating part face each other A second state in which cleaning water flows to the second communication portion, a third state in which the slit portion and the third communication portion face each other and the cleaning water flows to the third communication portion, and the first communication portion by the communication window portion That controls the rotation of the rotating plate so that the fourth state in which the first and second drain ports communicate with each other and the fifth state in which the third communicating portion and the drain port communicate with each other through the communication window portion can be selectively taken. It is.
[0008]
In the present invention, for example, the first flow path is the main flow path to the anal cleaning nozzle, the second flow path is the sub flow path to the anal cleaning nozzle, and the third flow path is the bidet nozzle. In the first state, the wash water supplied from the wash water tank and flowing through the slit portion of the rotating plate flows to the first communicating portion of the fixed plate facing the slit portion. It flows from the first communication part to the first flow path communicating with the first communication part, that is, the main flow path to the anal cleaning nozzle. As a result, cleaning from the main flow path to the anus of the human body becomes possible. Further, in the second state, the cleaning water flows from the slit portion to the second communication portion of the fixed plate facing the slit portion, and the second flow communicating from the second communication portion to the second communication portion. Flows into the channel, i.e., the secondary channel to the anal cleaning nozzle. As a result, it is possible to clean the anus of the human body from the auxiliary flow path. Further, in the third state, the washing water flows from the slit portion to the third communication portion of the fixed plate facing the slit portion, and the third flow communicating from the third communication portion to the third communication portion. It flows into the channel, that is, the bidet channel to the bidet nozzle. As a result, it is possible to wash the female local area from the bidet flow path.
[0009]
As described above, according to the present invention, the three flow paths can be switched with a single rotating plate.
[0010]
Moreover, in the 4th state, the 1st communicating part and drain port of a fixed plate are connected by the communicating window part formed in the rotating plate. For this reason, the residual water in the 1st flow path connected to the 1st communicating part flows into a drain port through a communicating window part, and is further discharged to the atmosphere from a drain port. Accordingly, the water pressure in the first flow path decreases as residual water is discharged from the drain port, and the water pressure of the residual cleaning water in the first flow path adversely affects the operation of the cleaning nozzle or the like. Residual water can be prevented from being ejected.
[0011]
In the fifth state, the third communication portion of the fixed plate and the drain port are communicated with each other by a communication window portion formed on the rotating plate. For this reason, the residual water in the 3rd flow path connected to the 3rd communication part flows into a drain port via a communicating window part, and is further discharged to the atmosphere from a drain port. Accordingly, the water pressure in the third flow path is reduced by discharging the residual water from the drain port, and the water pressure of the residual cleaning water in the third flow path adversely affects the operation of the cleaning nozzle, It is possible to prevent residual water from being ejected from the nozzle.
[0012]
As described above, according to the first aspect of the present invention, the flow path can be switched to the first flow path, the second flow path, and the third flow path by using only one rotating plate. Therefore, a plurality of rotating plates are not required, and the flow path switching means can be configured in a compact manner. Further, since the residual water in the first flow path and the third flow path is discharged from the drain port to the atmosphere, the water pressure of the residual washing water in these flow paths can be reduced, It is possible to prevent problems such as an adverse effect on the operation of the cleaning nozzle due to the residual pressure and the ejection of residual water from the nozzle.
[0014]
According to the invention of claim 1 above,The fixed plate is formed with a fourth communication portion that faces the rotary slit in the second state. Further, the fourth communication part communicates with the first communication part by the first bypass flow path.
[0015]
Therefore, in the second state, the cleaning water supplied from the cleaning water tank and flowing through the slit portion of the rotating plate flows from the slit portion to the second communication portion and the fourth communication portion of the fixed plate facing the slit portion. To do. Further, the washing water flows from the second communication part to the second flow path communicating with the second communication part. In addition, since the fourth communication part communicates with the first communication part by the first bypass flow path, and the first communication part communicates with the first flow path, the wash water flowing to the fourth communication part is It also flows in the first flow path. In this case, for example, if the first flow path is a main flow path to the anal cleaning nozzle and the second flow path is a sub flow path to the anal cleaning nozzle, the main flow of the anal cleaning nozzle is in the second state. Wash water is ejected from both the channel and the sub-channel. Compared to the case where the wash water is ejected from only the main flow path of the anal cleaning nozzle, the wash water is also ejected from the sub-flow path, so that the spray area of the wash water is increased and the dispersive and easy feeling can be obtained. The resulting cleaning pattern can be obtained.
[0016]
Therefore, in the first state, the cleaning water is ejected from only the main flow path, and the relatively strong concentrated cleaning is performed. In the second state, the cleaning water is ejected from both the main flow path and the sub flow path, and the soft soft dispersion cleaning is performed. These cleaning patterns can be switched by the control means.
[0017]
The invention of claim 2 made to solve the above technical problem includes a cleaning means for cleaning a human body part, a first flow path, a second flow path, and a first flow path respectively communicating with the cleaning means. 3, a wash water tank that stores wash water for washing the human body part, a wash water supply flow path that communicates with the wash water tank, a first communication portion that communicates with the first flow path, A fixed plate formed with a second communication portion communicating with the second flow channel, a third communication portion communicating with the third flow channel, and a drain port communicating with the atmosphere, and rotatable with respect to the fixed plate A slit portion that is attached to the cleaning water and flows through which the cleaning water supplied from the cleaning water tank flows, a communication window portion that can communicate the first communication portion and the drain port, and can communicate the third communication portion and the drain port. And a rotating plate formed with A first state in which the flow path switching means, the slit portion and the first communication portion face each other and the cleaning water flows to the first communication portion, the slit portion and the second communication portion face each other A second state in which cleaning water flows to the second communication portion, a third state in which the slit portion and the third communication portion face each other and cleaning water flows to the third communication portion, the communication window portion The fourth state in which the first communication portion and the drain port are communicated with each other by the above and the fifth state in which the third communication portion and the drain port are communicated by the communication window portion are selectively taken. Control means for controlling the rotation of the rotating plate so as to obtain, the communication window portion includes a first communication window portion and a second communication window portion, and in the fourth state, the first communication window portion The first communication part and the drain port communicate with each other, and the fifth state The second communication window portion communicates the third communication portion and the drain port, the fixing plate has a communication hole, and the drain port includes a first drain port and a second drain port. The communication hole is communicated with the second drain port by a second bypass flow path, and the first communication portion and the first drain port are communicated by the first communication window in the fourth state. The communication hole and the slit portion face each other, and in the fifth state, the third communication portion and the first drain port communicate with each other through the second communication window portion, and the slit portion and the second drain port Is a human body local cleaning device characterized by facing each other.
[0018]
According to the invention of claim 2 above,The communication window portion includes a first communication window portion and a second communication window portion. The first communication window portion communicates the first communication portion and the drain port in the fourth state. The second communication window portion communicates the third communication portion and the drain port in the fifth state.
[0019]
As described above, a plurality of communication window portions are provided, and the communication window portion used in the fourth state is different from the communication window portion used in the fifth state, so that each cleaning state (first state, When changing from the second state and the third state) to each drain state (the fourth state and the fifth state), it is possible to prevent problems such as drain water leaking into the unused channel. Is.
[0021]
According to the invention of claim 2 above,A communication hole is formed in the fixed plate. The drain port includes a first drain port and a second drain port. The communication hole is communicated with the second drain port by the second bypass channel. Further, in the fourth state, the first communication portion communicates with the first drain port through the first communication window portion, and the communication hole and the slit portion of the rotating plate face each other. In the fifth state, the third communication portion communicates with the first drain port through the second communication window portion, and the second drain port and the slit portion face each other.
[0022]
Since the present invention is configured as described above, in the fourth state, the first communication portion and the first drain port communicate with each other through the first communication window portion. Thereby, the residual pressure and washing water in the 1st channel connected to the 1st communicating part can be discharged from the 1st drain port. In addition, in the fourth state, the slit portion of the rotating plate faces the communication hole formed in the fixed plate. Since the communication hole communicates with the second drain port communicating with the atmosphere through the second bypass channel, the slit portion communicates with the communication hole, the second bypass channel, the second drain port, and the atmosphere. . Accordingly, the residual pressure and residual water from the cleaning water tank communicating with the slit portion are discharged from the slit portion to the atmosphere through the communication hole, the second bypass channel, and the second drain port. It is.
[0023]
In the fifth state, the third communication portion and the first drain port communicate with each other through the second communication window portion. Thereby, the residual pressure and wash water in the 3rd channel connected to the 3rd communication part can be discharged from the 1st drain port. In addition to this, in the fifth state, the slit portion of the rotating plate faces the second drain port. Therefore, the residual pressure and residual water from the cleaning water tank communicating with the slit portion are discharged from the slit portion to the atmosphere through the second drain port.
[0024]
As described above, according to the present invention, it is possible to realize a configuration that discharges not only the residual pressure and residual cleaning water on the cleaning means side but also the residual pressure and residual cleaning water on the cleaning tank side with a simple configuration.
[0025]
Also,The invention of claim 3The first communication portion changes a flow rate of the wash water flowing in the first flow path as the rotary plate rotates in the first state, and a first outlet port communicating with the first flow path. A second outlet port communicating with the second flow path, and the second flow path as the rotating plate rotates in the second state. A second flow rate adjusting unit that changes a flow rate of the washing water flowing through the third flow path, wherein the third communication unit includes a third outlet port that communicates with the third flow path, and the rotating plate in the third state. A third flow rate adjusting unit that changes a flow rate of the wash water flowing through the third flow path with rotation, and the fourth communication part includes a fourth outlet port that communicates with the first bypass flow path, With the rotation of the rotating plate in the second state, the first A fourth flow rate adjusting unit that changes the flow rate of the wash water flowing through the ipas flow path, and the first flow rate adjusting unit has a cross-sectional area as it moves away from the first outlet port along the rotation direction of the rotary plate. Is the first flow rate adjusting groove, and the second flow rate adjusting portion is a second flow rate adjusting groove whose cross-sectional area is reduced as it moves away from the second outlet port along the rotation direction of the rotary plate. And the third flow rate adjusting portion is a third flow rate adjusting groove whose cross-sectional area is reduced as it moves away from the third outlet port in the rotation direction of the rotary plate, and the fourth flow rate adjusting portion is It is a human body local cleaning device characterized in that it is a fourth flow rate adjusting groove whose cross-sectional area is reduced as it moves away from the fourth outlet port along the rotation direction of the rotary plate. .
[0026]
According to the invention of claim 3 above,Each communication part (first communication part, second communication part, third communication part, fourth communication part) is connected to each flow path (first flow path, second flow path, third flow path, first flow path). Each outlet port (first outlet port, second outlet port, third outlet port, fourth outlet port) communicating with the bypass flow path) and each state (first state, second state, third state) In the second state, the flow rate of the washing water flowing through each flow path (the first flow path, the second flow path, the third flow path, and the first bypass flow path) is changed with the rotation of the rotating plate. Each flow control part (1st flow control part, 2nd flow control part, 3rd flow control part, 4th flow control part) to be made is provided.
[0027]
For this reason, in each state (a 1st state, a 2nd state, a 3rd state, a 2nd state), by rotating a rotating plate, each flow path (a 1st flow path, a 2nd flow path) The flow rate of the cleaning water flowing through the third flow path and the first bypass flow path can be changed.
[0028]
Accordingly, the flow rate of the cleaning water can be adjusted by rotating the rotating plate in each of the first, second, and third states, and cleaning according to the user's preference can be performed.
[0029]
In addition, each flow rate adjustment unit (first flow rate adjustment unit, second flow rate adjustment unit, third flow rate adjustment unit, fourth flow rate adjustment unit) is formed on a fixed plate and each outlet port (first outlet port, second flow rate adjustment unit). Each flow rate adjusting groove (first flow rate adjusting groove, second flow rate adjusting groove, third size) whose cross-sectional area is made smaller as it goes away from the outlet port, the third outlet port, the fourth outlet port) along the rotation direction of the rotary plate. A flow rate adjusting groove and a fourth flow rate adjusting groove).
[0030]
Therefore, when the user rotates the rotating plate in each cleaning state (the first state, the second state, the third state, and the second state), each flow rate adjusting groove (the first state) that faces the slit portion. (1 flow rate adjusting groove, second flow rate adjusting groove, third flow rate adjusting groove, fourth flow rate adjusting groove) change in cross section according to the amount of rotation of the rotary slit. The change in the cross-sectional area is reduced as the distance from the outlet port (the first outlet port, the second outlet port, the third outlet port, the fourth outlet port) increases in the rotational direction of the rotary plate. The cross-sectional area becomes smaller in proportion to the amount of rotation. That is, the flow passage cross-sectional area of the cleaning water flowing through each flow rate adjusting groove is reduced in proportion to the rotation amount of the rotary plate. That is, the flow rate of the washing water flowing through each flow path (the first flow path, the second flow path, the third flow path, and the first bypass flow path) is reduced in proportion to the rotation amount of the rotary plate. It is. For this reason, when it is going to stop the ejection of the washing water from the washing means, the washing water fades out by rotating the rotating plate from each of the first, second, and third states (the ejection amount gradually decreases). Decrease) and stop the flushing water jetting. After the washing water is faded out in this way, residual water is removed in each drain state (fourth state, fifth state).
[0031]
In the human body local cleaning device, the cleaning water in the flow path is changed from a cleaning state (first state, second state, third state) in which cleaning water is ejected from a cleaning means such as a cleaning nozzle to clean the human body part. If the flow rate of the cleaning water is increased when shifting to a drain state (fourth state, fifth state) in which water is drained as drainage, the cleaning water immediately before the cleaning water jetting stops from the cleaning means. The flow rate of the water becomes extremely large, and the washing water is ejected intensely on the human body local area, which causes discomfort to the user. Further, if the flow rate of the cleaning water is constant when shifting from the cleaning state to the drain state, the flow rate adjusting function for adjusting the flow rate of the cleaning water cannot be achieved. On the other hand, the present invention reduces the flow rate of the cleaning water when the transition from the cleaning state to the drain state, and makes the drain state in the state of fading out, so even immediately before the ejection of the cleaning water from the cleaning means stops. The washing water is not ejected intensely, the user is not uncomfortable, and the washing water flow rate can be adjusted in the washing state. Furthermore, the present invention enables the above-described fade-out function and flow rate adjustment function to be more compactly realized by skillfully using one fixed plate in a human body local cleaning device having a plurality of flow paths. It is a thing.
[0032]
Further, by forming each flow rate adjusting portion with each flow rate adjusting groove having the structure described above, each flow channel (first flow channel, second flow channel, third flow channel, The flow rate of the wash water flowing through the first bypass flow path) can be adjusted.
[0035]
Embodiment
Hereinafter, the present invention will be specifically described with reference to embodiments.
[0036]
FIG. 1 is an overall perspective view of the human body local cleaning device in this example. In the figure, a human body local cleaning device 1 mainly includes a toilet 2, a flush tank 3 in which flush water is stored, and a main body 4 placed on the upper part of the toilet 2.
[0037]
The main body 4 is placed on the upper outer periphery of the toilet 2 so as to surround the toilet 2 from the rear side. The toilet seat 41 covers the upper surface of the toilet 2 in the fully closed state, and the toilet seat 41 in the fully closed state (not shown). A main body case 44 that houses a toilet lid 42 that covers the upper portion of the toilet and a functional unit 43 for executing various functions when the toilet 2 is used, and an upper surface of the main body case 44 that is installed by the user's operation. An operation panel 45 in which various functions can be selected, an anal cleaning nozzle device 46 as a cleaning means that protrudes below the toilet seat 41 and cleans the human body part, and a bidet cleaning nozzle device that also protrudes below the toilet seat 41 and cleans the female part 47 is provided. The toilet seat 41 and the toilet lid 42 have pivot shafts (not shown) integrally attached to their respective base ends, and these pivot shafts are pivotally supported by shaft holes formed in the main body case. ing. Therefore, the toilet seat and the toilet lid can be rotated and opened with respect to the shaft hole, and the respective rotation shafts are also rotated with this rotation.
[0038]
FIG. 2 is a diagram of the main body 4 in which the internal functional unit 43 is shown. In the figure, the main body 4 includes the toilet seat 41, the toilet lid 42, the functional part 43, the main body case 44 in which the functional part 43 is accommodated, the anal cleaning nozzle device 46, and the bidet cleaning nozzle device 47 as described above. It is. The function unit 43 is disposed below the operation panel 45 shown in FIG. 1 and detects a press of the operation buttons arranged on the operation panel 45. The function unit 43 is attached to the lower part of the switch substrate 431 and is a microcomputer. A control board 432 comprising control means such as a cleaning water tank 433 disposed below the control board 432 and storing cleaning water to be supplied to the anal cleaning nozzle device 46 and the bidet cleaning nozzle device 47, and the side of the cleaning nozzle devices 46, 47. The warm air fan 434 for supplying warm air during local drying and the deodorizing fan 435 for deodorizing when using the toilet bowl are disposed next to the hot air fan 434. Elements for performing various functions such as a room heating fan 436 for heating the toilet room are installed. The toilet seat opening / closing detection means for detecting the opening / closing state of the toilet seat and the toilet lid opening / closing detection means for detecting the opening / closing state of the toilet lid are provided on the side opposite to the hot air fan 434 with respect to the washing nozzle devices 46, 47. The housed detection unit 437 is disposed above the anal washing nozzle device 46 and the bidet washing nozzle device 47 in the figure, and a washing water channel (washing water channel) and a washing water tank 433 to these nozzle devices 46 and 47. Can be selectively switched to selectively supply cleaning water to the nozzle devices 46 and 47, or the cleaning water channel and the cleaning water tank 433 can communicate with each other to eject the cleaning water from the nozzle devices 46 and 47. Switching means for selectively switching between a clean state and a drain state in which a cleaning water channel and a drain channel communicating with the atmosphere described later communicate with each other so that the cleaning water in the cleaning water channel can be discharged to the atmosphere As a Taribarubu 438 is disposed. Further, a capacitive object detection sensor 48 is embedded in the toilet seat 41. The capacitance type object detection sensor 48 detects a change in capacitance when an object is placed on the upper portion of the toilet seat 41, and detects an object on the upper portion of the toilet seat by the amount of change in the capacitance. .
[0039]
FIG. 3 is a diagram showing a partial cross section of the rotary valve 438, the anal cleaning nozzle device 46, and the bidet cleaning nozzle device 47 in the human body local cleaning device 1 in this example, and a connection configuration thereof. As shown in the figure, the anal cleaning nozzle device 46 includes a movable anal cleaning movable nozzle 463 having an anal cleaning main nozzle hole 461 and an anal cleaning sub nozzle hole 462 at the tip thereof, and an anal cleaning movable nozzle 463. The main component is an anal washing cylinder 464 configured to be housed inside or to be protruded from the inside. The anus cleaning cylinder 464 includes a sub-channel inlet 465 formed on the side thereof and a main channel inlet 466 formed on the rear portion (the left side in the drawing). The main passage inlet 466 communicates with the main passage 51 for anus cleaning as a first passage that enters the cylinder 464 from the inlet 466 for the main nozzle and communicates with the main nozzle hole 461 for anus washing. The sub-flow passage inlet 465 communicates with the anal-washing sub-flow passage 52 as a second flow passage that enters the cylinder 464 from the sub-flow-flow passage inlet 465 and communicates with the sub-nose washing sub-nozzle hole 462. . The bidet cleaning nozzle device 47 is configured to be able to expand and contract a bidet cleaning movable nozzle 472 having a bidet cleaning nozzle hole 471 at its tip, and to be able to house or project the bidet cleaning movable nozzle 472 inside. The bidet cleaning cylinder 473 is the main component. The bidet cleaning cylinder 473 has a bidet channel inlet 474 formed in the rear part (the left side in the figure). The bidet channel inlet 474 enters the cylinder 473 from the bidet channel inlet 474 and performs bidet cleaning. A bidet cleaning flow path 61 communicating with the nozzle hole 471 is communicated.
[0040]
The rotary valve 438 includes a fixed plate 71, a rotating plate 72, a seal packing 73, a case 74 that accommodates them, and a motor 75 for rotating the rotating plate 72. The motor 75 is electrically connected to a microcomputer 8 as a control means for controlling the driving of the motor 75. The microcomputer 8 is disposed on the control board 432 and controls the rotation of the rotating plate 72 by controlling the driving of the motor 75.
[0041]
The fixed plate 71 is fixedly disposed in the case 74, and the rotating plate 72 is disposed in the case 74 so as to face the surface of the fixed plate 71 and to be in surface contact with the fixed plate 71 so as to be rotatable. The seal packing 73 is formed of a rubber material in order to prevent liquid leakage in the rotary valve 438. One surface of the seal packing 73 is a surface opposite to the side of the fixed plate 71 facing the rotating plate 72, and the other surface is a case. 74 is in close contact with the inner wall. Further, the case 74 has a cleaning water supply port 741 to which cleaning water from the cleaning water tank 433 is supplied, a main channel cleaning water discharge port 742 communicating with the anal cleaning main channel 51, and an anal cleaning substream. A sub-channel cleaning water discharge port 743 communicating with the path 52 and a bidet cleaning water discharge port 744 communicating with the bidet cleaning channel 61 are formed. The cleaning water tank 433 and the cleaning water supply port 741 are communicated with each other by a cleaning water supply channel 91.
[0042]
FIG. 4 is a partial cross-sectional view of the rotary valve 438 in FIG. As shown in FIGS. 3 and 4, in the case 74, there are a first communication channel 74a, a second communication channel 74b, a third communication channel 74c, a first drain channel 74d, and a second drain channel 74e. The first bypass channel 74f and the second bypass channel 74g (not shown in FIGS. 3 and 4) are formed. The first communication channel 74 a opens to the main channel cleaning water discharge port 742, and communicates with the main channel for anal cleaning 51 from the main channel cleaning water discharge port 742. The second communication channel 74b opens to the sub-channel cleaning water discharge port 743, and communicates with the anus cleaning sub-channel 52 from the sub-channel cleaning water discharge port 743. The third communication channel 74 c opens to the bidet cleaning water discharge port 744, and communicates with the bidet cleaning channel 61 from the bidet cleaning water discharge port 744. The first drain channel 74d opens to a first drain discharge port 745a formed on the case surface, and is opened to the atmosphere from the discharge port 745a. Similarly, the second drain channel 74e is opened at a second drain outlet 745b formed on the case surface, and is opened to the atmosphere from this outlet. The first communication flow path 74a, the second communication flow path 74b, the third communication flow path 74c, the first and second drain flow paths 74d and 74e are formed on the inner wall of the case where the seal packing 73 is in contact. It has an opening. The first bypass channel 74f and the second bypass channel 74g are each formed in a groove shape on the case inner wall (the case inner wall on the side where the seal packing 73 is in contact).
[0043]
FIG. 5 is a cross-sectional view taken along the line BB in FIG. 4 and shows the inner wall surface of the case 74. In the figure, a first bypass channel 74 f and a second bypass channel 74 g are formed on the inner wall surface of the case 74. 74a ′, 74b ′, 74c ′, 74d ′, and 74e ′ are respectively a first communication channel 74a, a second communication channel 74b, a third communication channel 74c, a first drain channel 74d, and a second drain. It is an opening in the case inner wall surface of the flow path 74e. As is apparent from the figure, one end of the first bypass flow path 74f communicates with the opening 74a 'of the first communication flow path 74a. One end of the second bypass channel 74g communicates with the opening 74e 'of the second drain channel 74e.
[0044]
FIG. 6 is a view showing the plates 71 and 72, FIG. 6A shows the rotating plate 72, and FIG. 6B shows the fixed plate 71.
[0045]
In FIG. 6A, the rotating plate 72 is formed in a disk shape, and a slit portion 721, a first communication window portion 722, and a second communication window portion 723 are provided on one surface (the surface facing the fixed plate). Is formed. The slit portion 721 is formed as a bottomed groove extending from the center of the rotating plate 72 to the edge of the rotating plate 72 in the radial direction. The first and second communication window portions 722 and 723 are formed as fan-shaped bottomed concave portions centering on the center of the rotating plate 72. The slit portion 721 is communicated with the cleaning water tank 433 and the cleaning water supply channel 91, and the cleaning water in the cleaning water tank 433 is discharged by opening the electromagnetic valve 92 disposed on the upstream side of the cleaning water tank 433. It flows into the slit part 721 through the washing water supply channel 91. When the rotating plate 72 and the fixed plate 71 face each other in a predetermined state, the first communication window portion 722 faces a first outlet port 711a and a first drain port 715 of the fixed plate 71 described later. The first outlet port 711a communicates with the first drain port 715. When the rotating plate 72 and the fixed plate 71 face each other in a predetermined state, the second communication window portion 723 faces a third outlet port 713a and a first drain port 715 to be described later. The third outlet port 713a communicates with the first drain port 715.
[0046]
In FIG. 6B, the fixing plate 71 includes a first communication portion 711, a second communication portion 712, a third communication portion 713, a fourth communication portion 714, a first drain port 715, a second drain port 716, and A communication hole 717 is formed. The first communication portion 711 faces an opening 74 a ′ in the case inner wall of the first communication channel 74 a formed in the case 438. Accordingly, the first communication part 711 communicates with the main channel 51 for anal cleaning via the first communication channel 74a. The second communication portion 712 faces the opening 74 b ′ in the case inner wall of the second communication channel 74 b formed in the case 438. Accordingly, the second communication portion 712 communicates with the anal cleaning sub-flow channel 52 via the second communication flow channel 74b. The third communication portion 713 faces an opening 74 c ′ in the case inner wall of the third communication channel 74 c formed in the case 438. Accordingly, the third communication portion 713 communicates with the bidet cleaning channel 61 via the third communication channel 74c. The fourth communication part 714 faces the first bypass flow path 74 f formed on the inner wall of the case 438. Since one end of the first bypass flow path 74f communicates with the opening 74a ′ of the first communication flow path 74a, the fourth communication portion 714 opens the first bypass flow path 74f and the first communication flow path 74a. It communicates with the first communication part 711 via the part 74a ′. The first drain port 715 faces the opening 74d 'in the case inner wall of the first drain channel 74d formed in the case 438. The second drain port 716 faces the opening 74e 'on the case inner wall of the second drain channel 74e formed in the case. Since the first and second drain channels 74d and 74e are open to the atmosphere, the first and second drain ports 715 and 716 communicate with the atmosphere via the first and second drain channels 74d and 74e. To do.
[0047]
As shown in the figure, the first communication portion 711, the third communication portion 713, the fourth communication portion 714, the first drain port 715, and the second drain port 716 have diameters that are substantially equal in distance from the center of the fixed plate 71. It is formed at a directional position. On the other hand, the 2nd communication part 712 is formed in the radial direction position where the distance from the center of the fixed plate 71 is shorter than other communication parts and ports. Further, the second communication portion 712 and the fourth communication portion 714 are in a circumferential positional relationship in which both can face the slit portion 721 of the rotating plate 72.
[0048]
The first communication portion 711 is formed by a first outlet port 711a and a first flow rate adjusting groove 711b. The first outlet port 711a is formed with a hole penetrating the front and back of the fixing plate 71, and the main passage 51 for anus cleaning communicates with the first outlet port 711a formed in this hole shape. The first flow rate adjusting groove 711b communicates with the first outlet port 711a and is formed in a groove shape extending in the counterclockwise circumferential direction from the first outlet port 711a in the drawing.
[0049]
The second communication part 712 is formed by a second outlet port 712a and a second flow rate adjusting groove 712b. Similarly to the first outlet port 711a, the second outlet port 712a is formed with a hole penetrating the front and back of the fixing plate 71. The second outlet port 712a formed in this hole shape has a sub-flow channel 52 for anal washing. Communicate. The second flow rate adjusting groove 712b communicates with the second outlet port 712a, and is formed in a groove shape extending in the clockwise circumferential direction from the second outlet port 712a in the drawing.
[0050]
The third communication portion 713 is formed by a third outlet port 713a and a third flow rate adjusting groove 713b. Similarly to the first outlet port 711a, the third outlet port 713a is formed with a hole penetrating the front and back of the fixing plate 71, and the bidet cleaning channel 61 communicates with the third outlet port 713a formed in this hole shape. is doing. The third flow rate adjusting groove 713b communicates with the third outlet port 713a, and is formed in a groove shape extending in the clockwise circumferential direction from the third outlet port 713a in the drawing.
[0051]
The fourth communication portion 714 is formed by a fourth outlet port 714a and a fourth flow rate adjusting groove 714b. Similar to the first outlet port 711a, the fourth outlet port 714a is formed with a hole penetrating the front and back of the fixing plate 71, and the first bypass channel 74f communicates with the fourth outlet port 714a formed in this hole shape. Further, the first communication passage 711 communicates with the first bypass passage 74f. The fourth flow rate adjusting groove 714b communicates with the fourth outlet port 714a, and extends in the clockwise circumferential direction from the fourth outlet port 714a in the drawing and is formed in a groove shape.
[0052]
The flow rate adjusting grooves 711b, 712b, 713b, 714b are gradually increased in height or width so that the cross-sectional area decreases as the distance from the outlet ports 711a, 712a, 713a, 714a communicated with each other increases. It is formed by changing to.
[0053]
Further, a communication hole 717 is formed in the fixed plate 71. The communication hole 717 opens to the second bypass flow path 74g formed on the inner wall of the case. Since one end of the second bypass flow path 74g communicates with the case inner wall opening 74e ′ of the second drain flow path 74e, the communication hole 717 connects the second bypass flow path 74g and the second drain flow path 74e. It is communicated to the atmosphere via.
[0054]
The operation of the above configuration will be described below with reference to FIG.
[0055]
FIG. 7 shows the relative positional relationship between the fixed plate 71 and the rotating plate 72 in the rotary valve 438 in various states.
[0056]
In order for the user to use the human body local cleaning apparatus 1 shown in this example and perform intensive cleaning with strong cleaning strength after stool, a powerful cleaning button (not shown) of the operation switches of the operation panel 45 is used. ). Then, in the rotary valve 438, the motor 75 is driven, and the driving of the motor 75 is controlled by the microcomputer 8. As a result, the rotary plate 72 of the rotary valve 438 rotates by a predetermined angle, and the fixed plate 71 and the rotary plate 72 have the positional relationship shown in FIG. Thereafter, the electromagnetic valve 92 disposed on the upstream side of the cleaning water tank 433 is opened, and the cleaning water is pumped from the cleaning water tank 433 to the cleaning water supply path 91 by the tap water pressure. In FIG. 7A, the slit portion 721 of the rotating plate 72 faces the first outlet port 711 a in the first communication portion 711 of the fixed plate 71. In this state, the cleaning water in the cleaning tank 433 is pumped by tap water pressure, passes through the cleaning water supply passage 91, and enters the case 74 from the cleaning water supply port 741 formed in the case 74. The cleaning water that has entered the case 74 flows through the slit portion 721 formed up to the edge of the rotating plate 72. At this time, since the slit portion 721 and the first outlet port 711a of the fixed plate 71 face each other, the cleaning water flows from the inside of the slit portion 721 to the first outlet port 711a. The washing water flows from the first outlet port 711a through the first communication channel 74a formed in the case 74, and from the main channel washing water discharge port 742 opened by the first communication channel 74a, the anal washing main channel 51. It will flow to The washing water that has flowed to the anal washing main flow path 51 in this way is ejected from the anal washing main nozzle hole 461 formed in the anal washing nozzle 463 of the anal washing nozzle device 46 to the anus of the human body, and the human body local area. It is to be washed. In this state, the washing water flows only in the first communication part 711 and does not flow from the other communication parts (second communication part 712, third communication part 713, and fourth communication part 714), so the anus is washed. It is possible to perform intensive cleaning with strong momentum only from the main flow channel 51. Further, when the slit plate 721 and the first outlet port 711a face each other, when the rotating plate is rotated counterclockwise and the slit portion 721 and the first flow rate adjusting groove 711b face each other, the slit portion 721 The cleaning water flowing through the first flow first flows into the first flow rate adjusting groove 711b facing the slit portion 721, and then flows into the first outlet port 711a communicating with the first flow rate adjusting groove 711b. The flow rate of the wash water is reduced by the first flow rate adjusting groove 711b, and the flow rate of the wash water flowing through the first outlet port 711a to the main flow channel for anus cleaning 51 is reduced. As described above, the first flow rate adjusting groove 711b serves as a first flow rate adjusting unit that makes it possible to vary the flow rate of the cleaning water flowing in the main flow passage 51 for anus cleaning as the rotating plate rotates in the above state. It fulfills its function. In addition, the state where the slit part 712 and the first outlet port 711a face each other and the state where the slit part 712 and the first flow rate adjusting groove 711b face each other as shown in FIG. It is an example of a 1st state.
[0057]
After the user performs intensive cleaning with high cleaning strength, a stop button (not shown) in the operation panel 45 is pressed to end the cleaning. Then, the electromagnetic valve 92 disposed on the upstream side of the cleaning water tank 433 is closed, and the pumping of the cleaning water from the cleaning water tank 433 to the cleaning water supply path 91 is stopped. At the same time, in the rotary valve 438, the motor 75 is driven and the microcomputer 8 controls the driving of the motor 75. As a result, the rotary plate 72 of the rotary valve 438 rotates counterclockwise by a predetermined angle, and the fixed plate 71 and the rotary plate 72 have the positional relationship shown in FIG. In FIG. 7D, the first communication window portion 722 of the rotating plate 72 partially faces the first outlet port 711 a and the first drain port 715 of the first communication portion 711. For this reason, the first outlet port 711 a of the first communication portion 711 is in communication with the first drain port 715 via the first communication window portion 722. The slit portion 721 is in a state of facing the communication hole 717 of the fixed plate 71. In this state, the internal space of the anal cleaning main flow channel 51 and the anal cleaning nozzle device 46 connected to the anal cleaning main flow channel 51 are connected to the first drain port from the first outlet port 711a through the first communication window 722. 715 is in communication. Therefore, the wash water remaining in the anal cleaning main flow channel 51 and the internal space of the anal cleaning nozzle device 46 connected to the anal cleaning main flow channel 51 flows back to the first outlet port 711a due to the residual pressure, and the first communication is established. It flows into the first drain port 715 through the window 722. And it flows through the 1st drain flow path 74d in a case from the 1st drain port 715, and is discharged | emitted from this 1st drain flow path 74d to air | atmosphere.
[0058]
In this state, the slit portion 721 of the rotating plate 72 faces the communication hole 717 of the fixed plate 71. The communication hole 717 opens to the second bypass flow path 74g, and the bypass flow path 74g communicates with the case inner wall opening 74e 'of the second drain flow path 74e formed in the case 74. Accordingly, the cleaning water supply passage 91 communicated with the slit portion 721 communicates with the communication hole 717, the second bypass passage 74g, and the second drain passage 74e from the slit portion 721, and further into the atmosphere from the second drain passage 74e. You will communicate. Therefore, the residual cleaning water in the cleaning water supply passage 91 flows into the slit portion 721 due to the residual pressure, and further flows from the slit portion 721 to the second drain passage 74e through the communication hole 717 and the second bypass passage 74g. The second drain channel 74e is discharged to the atmosphere.
[0059]
In this way, by setting the state of FIG. 7 (d), the residual water in the anal washing main flow channel 51 and the internal space of the anal washing nozzle device 46 communicating with the anal washing main flow channel 51 is discharged into the first drain flow. The drain water can be discharged from the channel 74d, and the residual water in the cleaning water supply channel 91 can also be discharged from the second drain channel 74e. The state shown in FIG. 7E corresponds to the fourth state in the present invention.
[0060]
Further, when switching from the first state to the fourth state, the rotary plate 72 rotates counterclockwise from the first state shown in FIG. 7A to the fourth state. Therefore, the slit portion 721 and the first flow rate adjusting groove 711 are changed from the state where the slit portion 721 and the first outlet port 711a face each other to the fourth state where the slit portion 721 and the communication hole 717 face each other. Via the face-to-face state. In this state, when the rotating plate 72 rotates counterclockwise, the facing portion of the first flow rate adjusting groove 711b facing the slit portion 721 gradually changes, but the cross-sectional area of the first flow rate adjusting groove 711b is the first outlet port. Since the rotation plate 72 is made smaller in the counterclockwise direction, that is, in a direction approaching the second flow rate adjusting groove 712b, the cross-sectional area becomes smaller as the rotation amount of the rotation plate 72 increases. For this reason, the cross-sectional area of the portion of the first flow rate adjusting groove 711 b facing the slit portion 721 also decreases as the amount of rotation of the rotating plate 72 increases. Accordingly, as the rotating plate 72 rotates, the flow rate of the cleaning water flowing through the anal cleaning main flow path 51 communicating with the first communication portion 711b gradually decreases. Then, it will be in the 4th state and will discharge residual washing water. As described above, when the transition from the first state to the fourth state is performed, the flow rate of the washing water is reduced and the fourth state is set in the faded-out state. The washing water does not squirt strongly just before the stop of the water, and the user does not feel uncomfortable due to the strong squirting of the washing water just before the stop of the washing water.
[0061]
In order for the user to use the human body local cleaning apparatus shown in this example and to perform distributed mild cleaning with relatively weak cleaning strength after stool, a mild cleaning button (see FIG. Press (not shown). Then, in the rotary valve 438, the motor 75 is driven, and the driving of the motor 75 is controlled by the microcomputer 8. As a result, the rotary plate 72 of the rotary valve 438 rotates by a predetermined angle, and the fixed plate 71 and the rotary plate 72 have the positional relationship shown in FIG. Thereafter, the electromagnetic valve 92 disposed on the upstream side of the cleaning water tank 433 is opened, and the cleaning water is pumped from the cleaning water tank 433 to the cleaning water supply path 91 by the tap water pressure. In FIG. 7B, the slit portion 721 of the rotating plate 72 faces the second outlet port 712a of the fixed plate 71 and also faces the fourth outlet port 714a. In this state, the cleaning water in the cleaning tank 433 is pumped by tap water pressure, passes through the cleaning water supply passage 91, and enters the case 74 from the cleaning water supply port 741 formed in the case 74. The cleaning water that has entered the case 74 flows through the slit portion 721 formed up to the edge of the rotating plate 72. At this time, since the slit portion 721 and the second outlet port 712a of the fixed plate 71 face each other, the cleaning water flows from the inside of the slit portion 721 to the second outlet port 712a. Then, the washing water flows from the second outlet port 712a through the second communication channel 74b formed in the case 74, and from the auxiliary channel washing water discharge port 743 in which the second communication channel 74b is opened, It flows to the path 52. The washing water that has flowed into the anal washing sub-flow channel 52 in this manner is ejected from the anal washing sub nozzle hole 462 formed in the anal washing nozzle device 46 to the anus of the human body to wash the human body part. .
[0062]
Further, since the slit portion 721 also faces the fourth outlet port 714a of the fixed plate 71, the cleaning water flows from inside the slit portion 721 to the fourth outlet port 714a. Since the fourth outlet port 714a communicates with the opening 74a ′ of the first communication channel 74a by the first bypass channel 74f formed on the inner wall of the case, the wash water flowing to the fourth outlet port 714a is the first It flows through the bypass flow path 74f and flows through the first communication flow path 74a formed in the case 74 through the opening 74a ′. Then, the first communication flow path 74a flows from the main flow path cleaning water discharge port 742 to the anal cleaning main flow path 51. The washing water that has flowed into the anal washing main flow path 51 in this way is ejected from the anal washing main nozzle hole 461 formed in the anal washing nozzle device 46 to the anus of the human body to wash the human body part. .
[0063]
In this manner, in the state shown in FIG. 7B, cleaning water is ejected from both the anal cleaning main nozzle hole 461 and the anal cleaning sub nozzle hole 462. For this reason, the jetting area of the washing water is expanded, and it is possible to perform a mild and dispersed washing with a weak washing strength. Further, from the state where the slit portion 721 faces the second outlet port 712a and the fourth outlet port 714a, the rotating plate is rotated clockwise to adjust the slit portion 721, the second flow rate adjustment groove 712b, and the fourth flow rate adjustment. When facing the groove 714b, the washing water flowing through the slit portion 721 first flows into the second flow rate adjusting groove 711b and the fourth flow rate adjusting groove 714b facing the slit portion 721, and then the second flow rate adjusting groove. The second outlet port 712a communicated with 712b and the fourth outlet port 714a communicated with the fourth flow rate adjusting groove 714b. The flow rate of the wash water is reduced by the second flow rate adjusting groove 712b, the flow rate of the wash water flowing through the second outlet port 712a to the anus cleaning sub-flow channel 52 is reduced, and the fourth flow rate adjusting groove The flow path cross-sectional area is reduced by 714b, and the flow rate of the washing water flowing through the fourth outlet port 714a to the anal washing main flow path 51 is reduced. As described above, the second flow rate adjusting groove 712b serves as a second flow rate adjusting unit that makes it possible to vary the flow rate of the cleaning water flowing in the anal washing sub-flow channel 52 in accordance with the rotation of the rotating plate in the above state. The fourth flow rate adjusting groove 714b can change the flow rate of the wash water that flows in the anal washing main flow channel 51 with the rotation of the rotating plate in the above state. It functions as a flow rate controller. 7B, the slit 712, the second outlet port 712a, and the fourth outlet port 714a face each other, and the slit 712, the second flow rate adjusting groove 712b, and the fourth flow rate. The state where the adjustment groove 714b faces is an example of the second state in the present invention.
[0064]
After the user performs dispersive cleaning with weak cleaning strength, a stop button (not shown) of the main body side operation panel 45 is pressed to end the cleaning. Then, the solenoid valve is closed, and the pumping of the cleaning water from the cleaning water tank 433 to the cleaning water supply path 91 is stopped. At the same time, in the rotary valve 438, the motor 75 is driven and the microcomputer 8 controls the driving of the motor 75. As a result, the rotary plate of the rotary valve rotates clockwise by a predetermined angle, and the fixed plate and the rotary plate have the positional relationship shown in FIG. The residual washing water in the inside is discharged. Further, the residual cleaning water in the anal cleaning sub-flow channel 52 is discharged to the outside through a gap between the anal cleaning nozzle and the anal cleaning cylinder.
[0065]
7D, the residual water in the internal space of the anal cleaning nozzle device 46 communicating with the anal cleaning main flow channel 51 and the anal cleaning main flow channel 51, and the anal cleaning Residual water in the inner space of the anal cleaning nozzle device 46 communicating with the sub flow channel 52 and the anal cleaning sub flow channel 52 can be discharged as drain water, and residual water in the cleaning water supply channel 91 is also discharged. Is something that can be done.
[0066]
Further, when switching from the second state to the fourth state, the rotating plate 72 rotates counterclockwise from the second state shown in FIG. 7B to the fourth state. Therefore, from the state where the slit portion 721 and the second and fourth outlet ports 712a and 714a face each other to the fourth state where the slit portion 721 and the communication hole 717 face each other, the slit portion 721 and the second and second It passes through the state where the fourth flow rate adjusting grooves 712b and 714b face each other. In this state, when the rotating plate 72 rotates clockwise, the facing portions of the second and fourth flow rate adjusting grooves 712b and 714b facing the slit portion 721 also gradually change, but the second and fourth flow rate adjusting grooves 712b and 714b. The cross-sectional area of the rotary plate 72 is reduced as the rotary plate 72 rotates away from the first outlet port 712a and the fourth outlet port 714a in the clockwise direction, that is, in the direction approaching the first flow rate adjusting groove 711b. The area decreases as the amount of rotation of the rotating plate 72 increases. For this reason, the cross-sectional areas of the facing portions of the second and fourth flow rate adjusting grooves 712 b and 714 b facing the slit portion 721 also become smaller as the amount of rotation of the rotating plate 72 increases. Therefore, the anal cleaning sub-flow channel 52 communicating with the second communication portion 712 and the main flow passage 51 for anal cleaning communicating with the fourth communication portion 714 via the first bypass flow channel 74f are respectively provided with the rotation of the rotating plate 72. The flow rate of the flowing cleaning water gradually decreases. Then, it will be in the 4th state and will discharge residual washing water. As described above, when the transition from the second state to the fourth state is performed, the flow rate of the washing water is reduced and the fourth state is set in the faded-out state. The washing water does not squirt strongly just before the stop of the water, and the user does not feel uncomfortable due to the strong squirting of the washing water just before the stop of the washing water.
[0067]
The user presses a bidet cleaning button (not shown) among the operation switches of the operation panel 45 in order to use the human body local cleaning apparatus 1 shown in this example and perform the female local cleaning. Then, in the rotary valve 438, the motor 75 is driven, and the driving of the motor 75 is controlled by the microcomputer 8. As a result, the rotary plate 72 of the rotary valve 438 rotates by a predetermined angle, and the fixed plate 71 and the rotary plate 72 have the arrangement relationship shown in FIG. Thereafter, the electromagnetic valve 92 disposed on the upstream side of the cleaning water tank 433 is opened, and the cleaning water is pumped from the cleaning water tank 433 to the cleaning water supply path 91 by the tap water pressure. In FIG. 7C, the slit portion 721 of the rotating plate 72 faces the third outlet port 713 a of the fixed plate 71. In this state, the cleaning water in the cleaning tank 433 is pumped by tap water pressure, passes through the cleaning water supply passage 91, and enters the case 74 from the cleaning water supply port 741 formed in the case 74. The cleaning water that has entered the case 74 flows through the slit portion 721 formed up to the edge of the rotating plate 72. At this time, since the slit portion 721 and the third outlet port 713a of the fixed plate 71 face each other, the cleaning water flows from the inside of the slit portion 721 to the third outlet port 713a. Then, the cleaning water flows from the third outlet port 713a through the third communication channel 74c formed in the case 74, and enters the bidet cleaning channel 61 from the bidet cleaning water discharge port 744 opened by the third communication channel 74c. It will flow. The washing water that has flowed into the bidet washing flow channel 61 in this manner is ejected from the bidet washing nozzle hole 471 formed in the bidet washing nozzle device 47 to the female local part, thereby washing the female local part. Further, when the slit plate 721 and the third outlet port 713a face each other, when the rotating plate 72 is rotated clockwise and the slit portion 721 and the third flow rate adjusting groove 713b face each other, the slit portion 721 The washing water flowing through the first flow flows into the third flow rate adjusting groove 713b facing the slit portion 721, and then flows into the third outlet port 713a communicating with the third flow rate adjusting groove 713b. The flow rate of the cleaning water is reduced by the third flow rate adjusting groove 713b, and the flow rate of the cleaning water flowing through the third outlet port 713a to the bidet cleaning flow channel 61 is reduced. As described above, the third flow rate adjusting groove 713b is a third flow rate adjusting unit that makes it possible to vary the flow rate of the cleaning water flowing in the bidet cleaning flow path 61 as the rotating plate 72 rotates in the above state. It fulfills the functions of In addition, the state where the slit part 712 and the third outlet port 713a face each other and the state where the slit part 712 and the third flow rate adjusting groove 713b face each other as shown in FIG. It is an example of a 3rd state.
[0068]
After the user performs bidet cleaning, a stop button (not shown) in the main body side operation panel 45 is pressed to end the cleaning. Then, the solenoid valve is closed, and the pumping of the cleaning water from the cleaning water tank 433 to the cleaning water supply path 91 is stopped. At the same time, in the rotary valve 438, the motor 75 is driven and the microcomputer 8 controls the driving of the motor 75. As a result, the rotary plate 72 of the rotary valve 438 rotates clockwise by a predetermined angle, and the fixed plate 71 and the rotary plate 72 have the positional relationship shown in FIG. In FIG. 7E, the slit portion 721 of the rotating plate 72 faces the second drain port 716. The second drain port 716 communicates with a second drain channel 74 e formed in the case 74. Accordingly, the cleaning water supply passage 91 communicated with the slit portion 721 communicates with the second drain port 716 and the second drain flow channel 74e from the slit portion 721 and communicates with the atmosphere. Accordingly, the residual cleaning water in the cleaning water supply passage 91 flows into the slit portion 721 due to the residual pressure, and further flows from the slit portion 721 through the second drain port 716 and the second drain passage 74e, and is discharged to the atmosphere. Is.
[0069]
Further, the second communication window 723 of the rotating plate 72 faces the third outlet port 713 a and the first drain port 715 of the third communication portion 713. For this reason, the third outlet port 713a is in communication with the first drain port 715 via the second communication window 723. In this state, the bidet cleaning channel 61 and the inner space of the bidet cleaning nozzle device 47 connected to the bidet cleaning channel 61 pass from the third outlet port 713a through the second communication window 723 to the first drain port 715. It will be in communication with. For this reason, the residual water in the bidet cleaning channel 61 and in the inner space of the bidet cleaning nozzle device 47 connected to the bidet cleaning channel 61 passes through the third communication channel 74c to the third outlet port 713a due to the residual pressure. It flows backward and flows into the first drain port 715 through the second communication window 723. And it flows through the 1st drain flow path 74d in case 74 from the 1st drain port 715, and is discharged | emitted to air | atmosphere. This state is the fifth state in the present invention.
[0070]
Further, when switching from the third state to the fifth state, the rotating plate 72 rotates clockwise from the third state shown in FIG. 7C to the fifth state. For this reason, from the state where the slit part 721 and the third outlet port 713a face each other to the fifth state where the slit part 721 and the second drain port 716 face each other, the slit part 721 and the third flow rate adjusting groove 713b. And go through a face-to-face state. In this state, when the rotating plate 72 rotates clockwise, the portion of the third flow rate adjusting groove 713b facing the slit 721 gradually changes, but the cross-sectional area of the third flow rate adjusting groove 713b is the third outlet port 713a. Since the rotating plate 72 is made smaller as the rotating plate 72 rotates clockwise, the cross-sectional area becomes smaller as the amount of rotation of the rotating plate 72 increases. For this reason, the cross-sectional area of the facing portion of the third flow rate adjusting groove 713b facing the slit portion 721 also decreases as the amount of rotation of the rotating plate 72 increases. Therefore, as the rotary plate 72 rotates, the flow rate of the cleaning water flowing through the bidet cleaning flow path 61 communicating with the third communication portion 713 gradually decreases. Then, it will be in the 5th state and will discharge residual washing water. As described above, when the transition from the third state to the fifth state is performed, the flow rate of the cleaning water is reduced, and the fifth state is set in the faded-out state. The washing water does not squirt strongly just before the stop of the water, and the user does not feel uncomfortable due to the strong squirting of the washing water just before the stop of the washing water.
[0071]
As described above, when intensive cleaning with strong cleaning strength is performed when cleaning the human body part, when this cleaning is finished so as to be in the first state (the state shown in FIG. 7A). Is in the fourth state (the state shown in FIG. 7D), and when performing dispersive cleaning with a weak cleaning strength, the second state (the state shown in FIG. 7B) is obtained. Thus, when this cleaning is finished, the fourth state (the state of FIG. 7 (d)) is obtained, and when the female local portion is cleaned, the third state (the state of FIG. 7 (c)). Thus, when this cleaning is finished, the drive of the motor 75 is controlled so as to be in the fifth state (the state shown in FIG. 7E), the rotation of the rotary plate 72, that is, the rotary valve 438 switching operation. Is to control.
[0072]
As described above, the human body local cleaning device 1 of the present example includes the anal cleaning nozzle device 46 and the bidet cleaning nozzle device 47 serving as cleaning means for cleaning the human body local portion, and the first cleaning device that communicates with the anal cleaning nozzle device 46. An anus cleaning main channel 51 as a channel, an anus cleaning sub-channel 52 as a second channel, a bidet cleaning channel 61 communicating with the bidet cleaning nozzle device 47, and a cleaning for cleaning a local body part A flow having a cleaning water tank 433 for storing water, a cleaning water supply passage 91 communicating with the cleaning water tank, a fixed plate 71 and a single rotating plate 72 rotatably attached to the fixed plate 71. A rotary valve 438 as path switching means and a microcomputer 8 as control means for controlling the rotation of the rotary plate 72 are provided. The fixing plate 72 has a first communication portion 711 that communicates with the anal cleaning main flow channel 51, a second communication portion 712 that communicates with the anal cleaning sub-flow channel 52, and a third communication that communicates with the bidet cleaning flow channel 61. A first drain port 715 communicating with the atmosphere is formed, and the rotating plate 72 includes a slit 721 through which cleaning water supplied from the cleaning water tank 433 flows, and a first communication unit 711 and a first A first communication window portion 722 capable of communicating with the drain port 715 and a second communication window portion 723 capable of communicating with the third communication portion 713 and the first drain port 715 are formed. The microcomputer 8 has the first state in which the cleaning water flowing in the slit portion 721 is caused to flow to the first communication portion 711 by causing the slit portion 721 and the first communication portion 711 to face each other, the slit portion 721 and the second communication portion 711. A second state in which the cleaning water flows to the second communication portion 722 by facing the portion 722; a third state in which the cleaning water flows to the third communication portion 713 by facing the slit portion 721 and the third communication portion 713; A fourth state in which the first communication portion 711 and the first drain port 715 are connected by the first communication window portion 722, and a third communication portion 713 and the first drain port 715 by the second communication window portion 723. The rotation of the rotary plate 72 is controlled by controlling the drive of the motor 75 so that the fifth state in which the two are connected can be selectively taken.
[0073]
Therefore, in the first state, the cleaning water supplied from the cleaning water tank 433 and flowing through the slit portion 721 of the rotating plate 72 flows to the first communicating portion 711 of the fixed plate 71 facing the slit portion 721, The fluid flows from the first communication portion 711 to the anal washing main flow path 51 communicating with the first communication portion 711. Thereby, the main flow channel 51 can be washed into the anus of the human body. In the second state, the cleaning water flows from the slit portion 721 to the second communication portion 712 of the fixed plate 71 facing the slit portion 721, and from the second communication portion 712 to the second communication portion 712. The fluid flows into the communicating anal flow sub-flow channel 52. As a result, it is possible to clean the anus of the human body from the auxiliary flow path 52. Further, in the third state, the cleaning water flows from the slit portion 721 to the third communication portion 713 of the fixed plate 71 facing the slit portion 721, and from the third communication portion 713 to the third communication portion 713. The fluid flows into the communicating bidet cleaning channel 61. Accordingly, it is possible to wash the female local area from the bidet washing flow path 61. As described above, in the present invention, the three flow paths can be switched by the single rotating plate 72.
[0074]
In the fourth state, the first communication portion 711 of the fixed plate 72 and the first drain port 715 are communicated with each other by the first communication window portion 722 formed in the rotating plate 72. For this reason, residual water in the anal washing main flow path 51 communicated with the first communication portion flows through the first communication window portion 722 to the first drain port 715, and further from the first drain port 715 to the first drain flow channel 74d. Through the atmosphere. Accordingly, the water pressure in the anal washing main flow path 51 is reduced by discharging residual water from the first drain port 715, and the water pressure of the residual washing water in the anal washing main flow path 51 is used to operate the washing nozzle and the like. It is possible to prevent an adverse effect and the ejection of residual water from the anal cleaning nozzle.
[0075]
In the fifth state, the third communication portion 713 of the fixed plate 71 and the first drain port 715 are communicated with each other by the second communication window portion 723 formed in the rotating plate 72. For this reason, the residual water in the bidet cleaning flow channel 61 communicated with the third communication portion 713 flows to the first drain port 715 through the second communication window portion 723, and further from the first drain port 715 to the first drain flow channel. It is discharged to the atmosphere through 74d. Therefore, the water pressure in the bidet cleaning flow path 61 is reduced by discharging the residual water from the first drain port 715, and the water pressure in the bidet cleaning flow path 61 causes the operation of the cleaning nozzle and the like. It is possible to prevent adverse effects and to prevent residual water from being ejected from the bidet cleaning nozzle.
[0076]
As described above, according to the present example, only one rotating plate 72 is used, and the main flow channel 51 for irrigation, the secondary flow channel 52 for irrigation, and the flow channel 61 for bidet cleaning are linearly connected. Since the water can be switched, a plurality of rotating plates 72 are not required, and the rotary valve 438 can be configured compactly. Further, since the residual water in the anal cleaning main flow channel 51 and the bidet cleaning flow channel 61 is discharged from the drain port to the atmosphere, the water pressure of the residual cleaning water in these flow channels can be reduced. It is possible to prevent problems such as an adverse effect on the operation of the cleaning nozzle due to the residual pressure in the road and the ejection of residual water from the nozzle.
[0077]
The fixed plate 71 is formed with a fourth communication portion 714 that communicates with the first communication portion 711, and the slit portion 721 and the fourth communication portion 714 face each other in the second state. For this reason, in the second state, the cleaning water supplied from the cleaning water tank 433 and flowing through the slit portion 721 of the rotating plate 72 flows from the slit portion 721 to the second communicating portion 712 of the fixed plate 71 facing the slit portion 721. Then, the fluid flows to the fourth communication portion 714, and further flows from the second communication portion 712 to the anal washing sub-flow channel 52 communicated with the second communication portion 712. On the other hand, the fourth communication portion communicates with the first communication portion, and this first communication portion communicates with the anal cleaning main flow channel 51. Therefore, the wash water flowing through the fourth communication portion is in contact with the fourth communication portion. From 714, it also flows into the main channel 51 for anus cleaning. In this way, since wash water is ejected not only from the main flow path of the anus cleaning nozzle but also from the sub flow path, a washing pattern in which the spray area of the wash water is increased and a dispersive and gentle sensation can be obtained. It is something that can be done.
[0078]
Therefore, in the first state, the cleaning water is ejected from only the main flow path 51, and the relatively strong concentrated cleaning is performed. In the second state, the cleaning water is ejected from both the main flow path 51 and the sub flow path 52. Therefore, it is possible to switch between these cleaning patterns by the microcomputer 8.
[0079]
The rotary valve 438 includes a case 74 that houses the fixed plate 71 and the rotating plate 72, and the fourth communication portion 714 is connected to the first communication portion 711 by a first bypass channel 74 f formed on the inner wall of the case 74. ing. By connecting the fourth communication part 714 and the first communication part 711 with the first bypass flow path 74f formed on the inner wall of the case in this way, it can be configured more compactly than the structure in which the communication flow path is provided outside the case. It can be done.
[0080]
The fixed plate 71 has a second drain port 716 communicating with the atmosphere and a communication hole 717 communicating with the second drain port 716. In the fourth state, the communication hole 717 faces the slit portion 721. Yes. For this reason, the slit portion 721 communicates with the second drain port 716 through the communication hole 717. Accordingly, the remaining water of the cleaning water from the side of the cleaning water tank communicating with the slit portion 721 flows from the slit portion 721 through the communication hole 717 and the second drain port 716, and further the second drain port 716 communicates with the second drain port 716. It is discharged from the drain channel 74e to the atmosphere, that is, the remaining cleaning water on the cleaning tank side can also be discharged.
[0081]
Further, the second drain port 716 communicates with the communication hole 717 through a second bypass channel 74 g formed on the inner wall of the case 74. By connecting the second drain port 716 and the communication hole 717 with the second bypass flow path 74g formed on the inner wall of the case in this way, it can be configured more compactly than the configuration in which the communication flow path is provided outside the case. It is.
[0082]
In addition, the first communication portion 711 has a first outlet port 711a that communicates with the anal washing main flow path 51 and a flow rate of the washing water that flows through the anal washing main flow path 51 with the rotation of the rotating plate 72 in the first state. A first flow rate adjusting groove 711b as a first flow rate adjusting portion to be changed, and the second communication portion 712 is a second outlet port 712a communicating with the anal washing sub-flow channel 52 and the rotating plate 72 in the second state. And a second flow rate adjusting groove 712b as a second flow rate adjusting portion for changing the flow rate of the cleaning water flowing through the anal cleaning sub-flow channel 52, and the third communication portion 713 includes the bidet cleaning flow channel 61. A third flow rate as a third flow rate adjusting unit that changes the flow rate of the cleaning water flowing through the bidet cleaning flow path 61 in accordance with the rotation of the rotation plate 72 in the third state. The fourth communication portion 714 includes a node groove 713b, and the fourth communication portion 714 is a fourth outlet port 714a that communicates with the first bypass flow path 74f and the cleaning that flows through the first bypass flow path 74f as the rotation plate 72 rotates in the second state. A fourth flow rate adjusting groove 714b is provided as a fourth flow rate adjusting unit that changes the flow rate of water. Therefore, in each state (first state, second state, third state), each flow path (first flow path, second flow path, The flow rate of the washing water flowing through the third flow path) can be changed. Therefore, by rotating the rotating plate 72 in each of the first, second, and third states, the flow rate of the cleaning water can be adjusted, and cleaning according to the user's preference can be performed.
[0083]
The first flow rate adjusting groove 711b has a smaller cross-sectional area as it moves away from the first outlet port 711a in the circumferential direction, that is, along the rotational direction of the rotating plate 72. Similarly, the second flow rate adjusting groove 712b The sectional area of the third flow rate adjusting groove 713b decreases as the distance from the outlet port 712a increases in the rotational direction of the rotary plate 72. The third flow rate adjusting groove 713b decreases as the distance from the third outlet port 713a increases in the rotational direction of the rotary plate 72. The area of the fourth flow rate adjusting groove 714 b is reduced, and the cross-sectional area of the fourth flow rate adjusting groove 714 b is reduced as the distance from the fourth outlet port 714 a increases in the rotational direction of the rotary plate 72.
[0084]
For this reason, when shifting from the first state where the first communication portion 711 and the slit portion 721 face each other to the fourth state where the communication hole 717 and the slit portion 721 face each other, the slit portion 721 of the first flow rate adjusting groove 711b. The cross-sectional area of the portion facing the surface decreases as the amount of rotation of the rotary plate 72 increases, and the flow rate of the washing water flowing through the flow passage of the main passage for anus cleaning 51 communicating with the first communication portion 711 gradually decreases. Thereafter, the fourth state is reached, and the residual cleaning water in the anal cleaning main flow path 51 is discharged from the first drain flow path 74d through the first drain port 715, and the residual water in the cleaning water supply flow path 91 is The fluid is discharged from the second drain channel 74e through the communication hole 717 and the second drain port 716. Thus, after the flow rate of the washing water fades out in the first state, the fourth state is reached, and the residual water is discharged. Similarly, when the second communication portion 712, the fourth communication portion 714, and the slit portion 721 face each other and shift from the second state to the fourth state, the slits of the second flow rate adjustment groove 712b and the fourth flow rate adjustment groove 714b. The cross-sectional area of the portion facing the portion 721 decreases as the amount of rotation of the rotating plate 72 increases, and the second and fourth communicating portions 714 for anal cleaning communicating with the second communicating portion 712 and the first bypass flow The flow rate of the washing water flowing through the flow path of the main flow passage 51 for anus communication that communicates via the path 74f also gradually decreases. Thereafter, the fourth state is reached, and the residual cleaning water in the anus cleaning main channel 51 and the cleaning water supply channel 91 is discharged. In this way, when shifting from the first state, which is the cleaning state, to the fourth state, which is the drain state, from the second state, the flow rate of the cleaning water is reduced, and the drain state is set in the faded state. Even immediately before the ejection of the washing water from the nozzle device 46 stops, the washing water is not ejected intensely, and the user is not uncomfortable.
[0085]
Further, since the third flow rate adjusting groove 713b moves away from the third outlet port along the rotation direction of the rotary plate 72 and decreases in cross-sectional area as it approaches the second drain port 716, the third communication portion 713 and the slit portion The cross-sectional area of the portion of the third flow rate adjusting groove 713b facing the slit portion 721 when moving from the third state where the 721 faces to the fifth state where the second drain port 716 and the slit portion 721 face each other is: As the amount of rotation of the rotating plate 72 increases, the flow rate of the cleaning water flowing through the flow path of the bidet cleaning main flow path 61 communicating with the third communication portion 713 gradually decreases. Thereafter, the fifth cleaning state is reached, and the remaining cleaning water in the cleaning water supply channel 91 communicating with the slit portion 721 is discharged from the second drain channel 74e via the second drain port 716. In this way, when shifting from the third state, which is the cleaning state, to the fifth state, which is the drain state, the flow rate of the cleaning water is reduced and the drain state is set in the faded state. Even immediately before the washing water stops being blown out, the washing water does not blow out strongly, and the user is not uncomfortable.
[0086]
【The invention's effect】
As described above, according to the present invention, in the human body local cleaning device, the flow path switching means for switching the communication between the cleaning water supply path and each flow path is configured in a compact manner, and each flow path after cleaning It is possible to remove the residual pressure from the inside so that the user does not feel uncomfortable.
[Brief description of the drawings]
FIG. 1 is an overall perspective view of a human body local cleaning device according to an embodiment of the present invention.
FIG. 2 is a diagram showing a main body and functional units in the main body in the embodiment of the present invention.
FIG. 3 is an external view and a partial cross-sectional view of a case, an anus cleaning nozzle device, and a bidet cleaning nozzle device according to an embodiment of the present invention, and also shows a connection configuration thereof.
4 is a partial cross-sectional view of the rotary valve when viewed from the direction of an arrow A in FIG.
5 is a cross-sectional view taken along the line BB in FIG. 4, and shows the structure of the inner wall surface of the case in the embodiment of the present invention.
6A and 6B are front views showing the configuration of a movable plate and a fixed plate in the embodiment of the present invention. FIG. 6A shows the movable plate and FIG. 6B shows the fixed plate.
7A and 7B are diagrams showing a relative positional relationship between the fixed plate and the movable plate in the embodiment of the present invention, in which FIG. 7A is in a first state and FIG. 7B is in a second state. 7C shows the third state, FIG. 7D shows the fourth state, and FIG. 7E shows the fifth state.
FIG. 8 is a cross-sectional view of an anal cleaning nozzle in the prior art.
[Explanation of symbols]
1 ... Human body local cleaning device
2 Toilet bowl
4 ... Body
41 ... Toilet seat
42 ... Toilet lid
43 ... Function part
432 ... Control board, 433 ... Washing water tank, 438 ... Flow path switching means
44 ... Case
45 ... Operation panel
46 ... Anal cleaning nozzle device
461 ... anal cleaning main nozzle hole, 462 ... anal cleaning sub nozzle hole
47 ... Bidet cleaning nozzle device
471 ... Bidet cleaning nozzle hole
51 ... Main flow path for anal cleaning (first flow path)
52 ... Sub-flow channel for anal cleaning (second flow channel)
61 ... Bidet cleaning channel (third channel)
71 ... Fixed plate
711 ... 1st communication part
711a: first outlet port, 711b: first flow rate adjusting groove (first flow rate adjusting unit)
712 ... 2nd communication part
712a ... second outlet port, 712b ... second flow rate adjusting groove (second flow rate adjusting portion)
713 ... 3rd communication part
713a ... third outlet port, 713b ... third flow rate adjusting groove (third flow rate adjusting unit)
714 ... Fourth communication part
714a ... fourth outlet port, 714b ... fourth flow rate adjusting groove (fourth flow rate adjusting portion)
715 ... 1st drain port, 716 ... 2nd drain port, 717 ... Communication hole
72 ... Rotating plate
721 ... slit part, 722 ... first communication window part, 723 ... second communication window part
74 ... Case
74a ... 1st communication channel, 74b ... 2nd communication channel, 74c ... 3rd communication channel, 74d ... 1st drain channel, 74e ... 2nd drain channel, 74f ... 1st bypass flow path (bypass flow path), 74g ... 2nd bypass flow path
75 ... Motor
8 ... Microcomputer (control means)
91 ... Washing water supply flow path

Claims (3)

Cleaning means for cleaning the human body part;
A first flow path, a second flow path, and a third flow path respectively communicating with the cleaning means;
A washing water tank for storing washing water for washing the human body part,
A cleaning water supply passage communicating with the cleaning water tank;
A first communication part communicating with the first flow path, a second communication part communicating with the second flow path, a third communication part communicating with the third flow path, and a drain port communicating with the atmosphere. The formed fixed plate, the slit portion that is rotatably attached to the fixed plate and through which the wash water supplied from the wash water tank flows, the first communication portion, and the drain port can communicate with each other, and the first A flow path switching means comprising a rotating plate formed with a communication window portion capable of communicating the three communication portions and the drain port;
The first state in which the slit portion and the first communication portion face each other and the cleaning water flows to the first communication portion, and the slit portion and the second communication portion face each other to supply the cleaning water to the second state. A second state in which the fluid flows to the communication portion; a third state in which the slit portion and the third communication portion face each other and the cleaning water flows to the third communication portion; and the first communication portion by the communication window portion. The rotating plate so as to be able to selectively take the fourth state in which the drain port communicates with the drain port and the fifth state in which the third communicating portion communicates with the drain port through the communication window. Control means for controlling the rotation of the
The fixed plate is formed with a fourth communication portion that communicates with the first communication portion by a first bypass channel, and the slit portion and the fourth communication portion face each other in the second state. Human body local cleaning device. Cleaning means for cleaning the human body part;
A first flow path, a second flow path, and a third flow path respectively communicating with the cleaning means;
A washing water tank for storing washing water for washing the human body part,
A cleaning water supply passage communicating with the cleaning water tank;
A first communication part communicating with the first flow path, a second communication part communicating with the second flow path, a third communication part communicating with the third flow path, and a drain port communicating with the atmosphere. The formed fixed plate, the slit portion that is rotatably attached to the fixed plate and through which the wash water supplied from the wash water tank flows, the first communication portion, and the drain port can communicate with each other, and the first A flow path switching means comprising a rotating plate in which a communication window portion capable of communicating the three communication portions and the drain port is formed;
A first state in which the slit portion and the first communication portion face each other to allow cleaning water to flow to the first communication portion, and the slit portion and the second communication portion face each other to supply the cleaning water to the second state. A second state in which the fluid flows to the communication portion; a third state in which the slit portion and the third communication portion face each other and the cleaning water flows to the third communication portion; the first communication portion by the communication window portion; The rotating plate so as to be able to selectively take the fourth state in which the drain port communicates with the drain port and the fifth state in which the third communicating portion communicates with the drain port through the communication window. Control means for controlling the rotation of
With
The communication window portion includes a first communication window portion and a second communication window portion. In the fourth state, the first communication window portion communicates with the drain port, and the fifth state. In the second communication window portion, the third communication portion and the drain port communicate with each other,
  A communication hole is formed in the fixing plate and the drain port includes a first drain port and a second drain port, and the communication hole communicates with the second drain port by a second bypass flow path. In the fourth state, the first communication window and the first drain port communicate with each other through the first communication window, and the communication hole and the slit portion face each other. In the fifth state, the second communication The human body local cleaning apparatus, wherein the third communication portion and the first drain port communicate with each other through a window portion, and the slit portion and the second drain port face each other. The first communication portion changes a flow rate of the wash water flowing in the first flow path as the rotary plate rotates in the first state, and a first outlet port communicating with the first flow path. Including a first flow rate adjusting unit,
The second communication portion changes a flow rate of the wash water flowing in the second flow path as the rotary plate rotates in the second state, and a second outlet port communicating with the second flow path. A second flow rate adjustment unit
The third communicating portion changes a flow rate of the wash water flowing through the third flow path in accordance with the rotation of the rotating plate in the third state, and a third outlet port communicating with the third flow path. A third flow rate controller
The fourth communication portion changes a flow rate of the wash water flowing in the first bypass flow path in accordance with the rotation of the rotary plate in the second state, and a fourth outlet port communicating with the first bypass flow path. A fourth flow rate controller
The first flow rate adjusting portion is a first flow rate adjusting groove whose cross-sectional area is reduced as it moves away from the first outlet port along the rotation direction of the rotary plate,
The second flow rate adjusting portion is a second flow rate adjusting groove whose cross-sectional area is reduced as it moves away from the second outlet port along the rotation direction of the rotary plate,
The third flow rate adjusting portion is a third flow rate adjusting groove whose cross-sectional area is reduced as it moves away from the third outlet port along the rotation direction of the rotary plate,
3. The fourth flow rate adjusting portion according to claim 1, wherein the fourth flow rate adjusting portion is a fourth flow rate adjusting groove whose cross-sectional area is reduced as it moves away from the fourth outlet port along the rotation direction of the rotary plate. The human body local cleaning apparatus according to any one of the above.

Images