JP3707316B2 - Local cleaning equipment - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a structure of a local cleaning apparatus that ejects cleaning water for local cleaning.
[0002]
[Prior art]
With respect to this local cleaning apparatus, the following is desired for local cleaning. For example, discharge of water locally causes discomfort to the user, and thus it is necessary to warm the discharged wash water in advance. In addition, it is also necessary to maintain the temperature of the hot water for local cleaning from the initial use to the end of use regardless of the amount of use. Therefore, a relatively large-capacity hot water tank has been incorporated into the local cleaning device. A toilet seat and a toilet lid are rotatably attached to the apparatus body, and the apparatus body is attached to the rear part of the toilet. Then, a cleaning nozzle for jetting cleaning water for local cleaning to the apparatus body, a hot water tank for heating the cleaning water and securing abundant appropriate temperature cleaning water, and hot water heated in the hot water tank. All the members necessary for local cleaning, such as a pump for supplying water to the pump and a control unit for controlling the ejection of cleaning water ejected from the cleaning nozzle, were attached. For this reason, the conventional apparatus main body has become a large thing which has the side protrusion part which protruded largely outside the toilet bowl.
[0003]
[Problems to be solved by the invention]
As described above, it is always necessary to secure abundant hot water for cleaning and to incorporate the accompanying equipment, but the installation space for the local cleaning device in the toilet is limited, so the device must be downsized. ing.
Various techniques have been proposed to satisfy such a requirement. For example, Japanese Patent Application Laid-Open No. 5-285066 discloses that the bulk of the apparatus main body is increased to secure a storage space for various members necessary for local cleaning. If it does in this way, the side protrusion part which protruded larger than the toilet bowl main body can be eliminated, and it is possible to secure the installation space in the toilet.
In such a local cleaning device that eliminates the side protrusions, the side protrusions have been eliminated to improve the design, but only the water supply connection part protrudes to the side. Becomes very noticeable and gives a sense of incongruity. Furthermore, even though the side protrusions are eliminated so that it can be installed even in a narrow toilet space, the water supply connection part is not installed due to obstruction.
[0004]
[Means for solving the problem, operation and effect]
  In order to solve the above-mentioned problem, in the invention of claim 1, in the local cleaning apparatus provided with a case attached to the rear part of the toilet bowl, and provided with accompanying equipment such as a heat exchanger in the case,A water supply connection portion formed in a substantially L shape, in which a side rising wall on at least one side of the case is inclined to a bottom surface side, and a water supply pipe is connected to a corner portion made of the inclined surface, While the end to which the tube is connected is disposed downward, the end is pivotably disposed so as to protrude toward the side of the case when the toilet width is large.aboutThus, when installing the local cleaning device in a wide toilet, the trouble of not attaching the purchased local cleaning device can be eliminated by turning the water supply connecting portion and directing the connecting portion in the lateral direction. MoreoverThe design is not impaired without conspicuous the water supply connection part.
[0005]
  In the invention of claim 2, in addition to the invention of claim 1,Providing a protruding portion that protrudes laterally from the inclined surface and covering the water supply connecting portion with the protruding portion can prevent force from being applied to the water supply connecting portion during packaging or the like.
[0006]
  In the invention of claim 3,ContractIn addition to the invention of Claim 2,By providing the notch in the protruding portion, the water supply connecting portion can be protruded from the notch when the water supply connecting portion is rotated.
[0007]
  In the invention of claim 4, in addition to the invention of claim 3,Since the maintenance member is provided in a relatively conspicuous portion by providing the maintenance member in the protruding portion, the user is not confused when performing maintenance.
[0008]
  In the invention of claim 5,ContractIn addition to the invention of claim 4,By using a drain plug as the maintenance member, it is immediately possible to know where the user should operate when draining water, and there is no confusion.
[0009]
  In the invention of claim 6, the claimOf any one of 1-5In addition to the invention,Since the power supply cord for supplying power is provided on the inclined surface, the construction can be performed only on the same side, so that the apparatus can be attached as long as there is a construction space only on one side.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments will be described below with reference to the drawings. FIG. 1 is a perspective view showing an overall configuration of a sanitary washing device according to an embodiment of the present invention with the toilet seat and toilet lid removed, and FIG. 2 is a perspective view showing the overall configuration with the toilet lid opened. 3 is a perspective view showing the overall configuration of the toilet lid and toilet seat lying down, FIG. 4 is a plan view, FIG. 5 is a schematic front view, FIG. 6 is a schematic left side view, FIG. 7 is a schematic right side view, and FIG. 9 is a right side view of the apparatus main body, and FIGS. 10 and 11 are exploded perspective views of the apparatus main body 30 (interior equipment omitted).
[0013]
(Explanation of overall appearance parts configuration)
In the figure, 10 is a toilet lid, 20 is a toilet seat, and 30 is a cleaning device body. The toilet lid 10 and the toilet seat 20 are rotatably supported by the cleaning device main body 30 via the hinge block 40 and the soft closing unit 50.
[0014]
(Description of the apparatus main body 30)
The apparatus main body (case) 30 attached to the rear part of the Western-style toilet is composed of an upper case 31 and a lower case 35 that form an outer shell of the apparatus, and interior equipment (accompanying apparatus) described later, and the upper case 31 is inclined forward. 31a is provided. The inclined portion 31a is formed so as to overlap with the inclined portion 20f on the lower surface of the toilet seat 20 in the lying state of the toilet seat 20, and the inclined angle is substantially the same as the extension angle of the cleaning nozzle described later. Further, a toilet seat / toilet lid support portion 31b is formed continuously with the inclined portion 31a. The toilet seat / toilet lid support portion 31b is formed with inclined concave portions 31c and 31c that are continuous with the inclined portion 31a on the left and right sides of the bulging portion that is raised at the center. Engaging protrusions 32 and 32 that engage with the hinge block 40 are provided on the side wall surfaces 31 d and 31 d of the central raised portion. This toilet seat / toilet lid support portion 31b has an arcuate shape concentric with the rotation center axis of the toilet lid 10 and the toilet seat 20 at the top of the toilet seat / toilet lid support portion 31b, to the end point position where the rear end of the toilet lid 10 opens from the toilet lid 10 fall position. A curved surface portion 31f having a substantially similar shape is provided on the locus to be drawn. The curved surface portion 31f is provided with a display portion opening 31g for displaying a driving state and the like, and a human body detection sensor opening 31h for detecting a user seated on the toilet seat 20. The curved surface portion 31f has a barrel shape having the largest curvature at the center and a smaller diameter as it goes to the left and right. The substantially flat surface 31p that maintains the height of the toilet lid 10 from the substantially open position portion is used. An operation unit 33a is provided on the left side surface of the upper case 31, and a remote control receiving unit 33b is provided on the upper left rear surface. Then, by covering the barrel-shaped curved surface portion 31f with the nameplate 34, the display portion opening 31g and the human body detection sensor opening 30h are closed.
[0015]
A semi-transparent smoke plate 34a is integrally formed on the nameplate 34 at a portion corresponding to the human body detection sensor opening 31h, and a transparent portion 34b is integrally formed at a position corresponding to the display portion opening 31g. Further, four heat caulking projections 34 c are provided on the back side, and heat caulking is performed in the heat caulking hole 31 x provided in the upper case 31, and the heat caulking protrusion 34 c is integrated with the upper case 31. This nameplate 34 is formed by two-color molding, the lower surface is pearl tone, the upper surface is a transparent plate, the pearl tone base side is formed with characters, display portion openings, and human body detection sensor openings, all of which are formed by the upper transparent plate. To cover.
The display unit is arranged at a position where the user can see the toilet seat and the toilet lid supported by the toilet seat / toilet lid support unit, regardless of whether the toilet lid is closed or opened. That is, when the toilet lid is closed in a lying state, the display unit is exposed to the rear side of the rear end of the toilet seat, and when the toilet seat is opened, the display unit is below the lower end of the toilet seat. When standing on the toilet, you can see it in a comfortable position.
A light receiving window made of a semi-transparent smoke plate is provided at a corner portion including the left side, top surface, and back surface of the upper case 31 so as to easily input a remote control signal to a light receiving element described later so as to block the opening 33b. By installing this light receiving window at the corner including at least two of the side, top, and back, it is possible to pick up signals dramatically compared to the conventional light receiving window only on one surface. The remote control signal can be weakened and the battery life of the remote control can be extended.
[0016]
As shown in the perspective view of FIG. 68, the both-side rising walls of the lower case 35 are inclined surfaces (inclined portions) 35a toward the bottom surface side. The inclined portion 35a corresponds to a corner portion between the side surface and the bottom surface of the case. The lower inclined portion of the lower case 35 is provided with a toilet seat cord outlet 35b, a power cord outlet 35c to which a power cord from an indoor power outlet is connected, and a protruding portion 35d protruding sideways from the inclined portion. On the side, an optional cord outlet 35e for supplying power and signals to optional equipment such as an automatic toilet cleaning unit is provided. The lower part of the projecting portion 35d is notched, and a water supply connection port 35f (notched portion) and a drain plug opening 35g are provided on the side. On the back surface of the lower case, a standing wall 35k is provided for attaching a label that describes a production number or the like. The other parts of the upper case 31 and the lower case 35 will be described together with the explanation of the respective interior parts.
[0017]
The connection structure of the upper case 31 and the lower case 35 will be described. On the front side of the upper case 31, there are provided engaging claws 31j and 31j provided on the inner side of the hanging wall 31i suspended from the front surface of the inclined part 31a, and positioning restraint projections 31k and 31k provided on the inner side of the inclined part 3a. Second engagement claws 31m, 31m provided on the back wall 31l of the case 31 are provided. The lower case 35 is provided with engaging protrusions 35i, 35i on the front wall 35h, and position restricting boss holes 35j, 35j on the bottom surface, and the second engaging protrusions 35l, 35l are provided on the rear wall 35k of the lower case 35. Provide. With this configuration, the position restricting convex portions 31k, 31k are aligned with the position restricting boss holes 35j, 35j, and when the front portion of the upper case 31 is pushed into the lower case 35, the engaging claws 31j, 31j are elastically deformed and engaged. The protrusions 35i and 35i ride on, and the engaging claws 31j and 31j engage with the engaging protrusions 35i and 35i. Next, the rear part is pushed in, while the second engagement claws 31m and 31m are elastically deformed, the second engagement protrusions 35l and 35l are ridden, and the second engagement claws 31m and 31m are moved to the second engagement protrusions 35l and 35l. Engage with. Thereby, the upper case 31 and the lower case 35 are integrated. In this embodiment, screwing is performed to strengthen the connection at the engaging portion between the second engaging claw 31m and the second engaging protrusion 35l, but this screwing may be omitted. good.
The alignment line A on the side surfaces of the upper case 31 and the lower case 35 is an extension of the line B drawn by the lower end of the toilet seat, and the inclined portions 35a are provided on both sides of the lower case 35. Becomes a shadow, and it is difficult to see the exit, so it gives a very compact impression. Further, the protruding portion 35d is conspicuous on the contrary, and can recognize a maintenance working portion such as drainage.
In this way, the apparatus main body 30 in which the upper case 31 and the lower case 35 are connected to each other has a volume of about 120 mm, and for an adult, the apparatus body 30 can be held between the thumb and middle finger of one hand. Yes, it is very convenient when installing a local cleaning device. In addition, since the entire device is thin, it can be packed in a small size, so it is easy to carry and the packing material can be downsized.
[0018]
(Description of toilet lid 10)
The toilet lid 10 has a concave lid portion 10a that closes the opening of the toilet and has an upper surface that warps upward toward the rear side. The hinge lid 40 and the soft closing unit 50 are provided on both sides of the rear end. The hinge portion 10b is rotatably supported by the toilet seat / toilet lid support portion 31b. The hinge portion 10b extends from the lid portion 10a with a connecting portion 10c curved and inclined downward from the lid portion 10a. The inclination angle of the connecting portion 10c in the toilet lid 1 lying down state is substantially the same as the inclination angle of the inclined portion 31a, and the lower end portions of the both end side walls of the connecting portion 10c are separated from the upper surface of the inclined portion 31a by a predetermined distance (in this embodiment, 2 mm The gap is formed so as to be substantially coincident with the gap. Further, the hinge portion 10b forms a storage portion 10d for storing the soft closing unit 50 inside thereof. The upper curved surface portion 10e of the hinge portion 10b is formed to extend inward from the storage portion 10d so as to cover the toilet seat hinge portion 20c and the hinge block 40, which will be described later, in the toilet lid 10 lying down state, and the upper portion is substantially the curved surface portion 31f. It is formed in a similar concentric arc shape and a continuous surface with the curved surface portion 31f.
[0019]
(Description of toilet seat 20)
The toilet seat 20 has a seat portion 20b having an opening 20a at the center, and is rotatably supported by the toilet seat / toilet lid support portion 31b on both sides of the rear portion via a hinge block 40 and a soft closing unit 50. Hinge part 20c. The hinge portion 20c extends from the seat portion 20b via a connecting portion 20d that is curved and inclined upward from the seat portion 20b. Further, the hinge portion 20c is provided with a storage portion 20e having a storage opening 20g for penetrating and storing the soft closing unit 50 therein. The upper curved surface portion 20h of the hinge portion 20c is formed to extend inward from the storage portion 20e so as to cover the hinge block 40 in the toilet seat 20 lying down state. It is formed with a curvature that is smaller than the thickness of the toilet lid 1. An inclined portion 20f is formed on the lower surface of the connecting portion 20d of the toilet seat 20.
In addition, a recess capable of accommodating the folded connection portion 10c of the toilet lid 10 is formed at the rear side end of the seat surface 20b of the toilet seat 20, so that the toilet lid 10 and the toilet lid 10 are in a lying state. The connecting portion 10c is formed so that the lower end edge thereof is aligned with the lower end edge of the outer peripheral portion of the toilet lid 10 so as to be aligned with a horizontal end, and the horizontal end portion is in the vicinity of the inclined portion 31a of the apparatus main body 30. It is formed so as to be stretched.
[0020]
(Explanation of relationship between toilet lid 10, toilet seat 20, and apparatus main body 30)
Since the toilet lid 10, the toilet seat 20, and the apparatus main body 30 are configured as described above, the curved surface portion 31f of the apparatus main body 30 and the curved surface portion 10e of the toilet lid 10 are concentric arcs when the toilet lid 10 and the toilet seat 20 are lying down. Because it forms a continuous surface, it gives a clean impression. This clean impression has succeeded in further strengthening the impression because the side surfaces of the toilet lid 10 and the toilet seat 20 are formed on the same plane as the side surface of the apparatus main body 30. In addition, since the hinge portion 20c is also concentric, even if the toilet lid 10 is opened, the neat impression is not changed. In addition, the left and right sides of the toilet seat / toilet lid support portion 31b are inclined recesses 31c, and the toilet seat 10 and the hinge portions 10b and 20c of the toilet seat 20 are used as rotational spaces. Can be used as Further, the inside of the toilet seat / toilet lid support portion 31b is also effectively used as a storage space, and the apparatus main body 30 can be made compact.
Furthermore, the highest height position of the apparatus main body 30 is lower than the highest height position of the toilet lid 10 when the toilet lid 10 is lying down, that is, the upper surface of the flat surface 31p of the apparatus main body 30 is placed on the toilet seat 20 and the toilet lid 10. Therefore, the entire local cleaning device is made compact, and the ease of carrying the device is improved.
[0021]
The apparatus body 30 has a bulging portion between the hinge portions 10c and 20c of the toilet seat 20 and the toilet lid 10 that is substantially the same height as the highest height of the hinge portions 10c and 20c and accommodates functional components therein. Although formed, the maximum height position of the apparatus main body 30 mentioned here does not include this bulging portion.
Since this bulging part is just fit between the left and right hinge parts 10c, 20c, there is a sense of unity with the hinge parts 10c, 20c. Therefore, since there is no member that rises higher than that in the rear part of the toilet lid 10 or the toilet seat 20, the compactness of the local cleaning device has been made more conspicuous.
Further, the center of the concentric arc and the rotation center of the toilet lid 10 and the toilet seat 20 are set to be substantially the same height as the flat surface 31p. By doing so, the rotation trajectories of the toilet lid 10 and the hinge portions 10b and 20c of the toilet seat 20 are not drawn on the rear side of the flat surface 31p, and it is not necessary to take an extra inclined recess 31c. The gap with the apparatus main body 30 can be narrowed.
Furthermore, the height and the curved surface R of the bulging part of the apparatus main body 30 and the part of the toilet lid 10 on the outer side in the axial direction are made substantially equal.
With the toilet lid 10 closed, the gap between the end of the toilet lid 10 and the apparatus main body 30, the gap between the end of the toilet seat 20 and the apparatus main body 30, and the gap between the toilet seat 20 and the toilet lid 10 are as follows. Each was set as a minute gap having a substantially uniform dimension of about 2 mm. The minute gap is maintained at a close dimension even when the toilet seat and the toilet lid are opened. Therefore, it was possible to have a substantially full flat surface with few bumps on the surface and eliminate gaps between the main body of the conventional local cleaning device and the recess between the toilet lid and the like. Therefore, the design of the product is greatly improved, and even if dirt is attached to the gap, it is not noticeable.
[0022]
(Description of hinge block 4 and soft closing unit 5)
FIG. 12 is a schematic cross-sectional view showing a connecting structure of the toilet lid 10 and the toilet seat 20 with respect to the apparatus main body 30. The connecting structure includes a hinge block 40 and a soft closing unit 50. The soft closing unit 50 provides a resistance when the toilet lid 10 and the toilet seat 20 are closed, and a shock absorber (not shown) so as to operate gently. And a hinge shaft 52. The hinge body 51 is rotatable with respect to the hinge shaft 52. The hinge body 51 and its surroundings are configured to be hidden by the upper surface of the toilet lid 10 and the toilet seat 20. The hinge block 40 is provided with a support hole 40a for inserting and fixing the hinge shaft 52 therein. A recess 40 b is provided on the bottom of the hinge block 40 in correspondence with the engagement protrusion 32 provided on the apparatus main body 30.
A hinge block 40 for connecting the toilet lid 10 and the toilet seat 20 to the apparatus main body 30 is fixed by fitting a recess 40b into an engagement protrusion 32 provided on the apparatus main body 30.
A positioning recess 20j is provided in a part of the opening 20g of the storage part 20e, and a positioning convex part 51a is provided in a part of the hinge body 51. One of the storage parts 20e provided at the base end part of the toilet seat 20 is hinged by this unevenness. It fixes so that it may rotate integrally with the trunk | drum 51, and the hinge trunk | drum 51 is penetrated and connected in the other accommodating part 20e, and it pivotally supports. Further, a positioning recess 10f is provided in a part of the storage part 10d, and a positioning convex part 51b is provided in a part of the hinge body part 51. The toilet lid 10 on the opposite side of the storage part 20e fixed to the toilet seat by the unevenness is provided. The storage portion 10 d provided at the base end is fixed so as to rotate integrally with the hinge body 51, and the other storage portion 10 d is pivotally supported with respect to the hinge body 51.
[0023]
FIG. 13 is a perspective view showing a connecting structure of the hinge block 40, the support cover 41, and the engagement protrusion 32 provided on the apparatus main body 30. In the figure, the hinge block 40 is provided with a cover 41 made of resin or the like, and a support hole 40a provided in a slightly concentric manner with the support hole 40a is provided with a rotation hole 41a having substantially the same shape as the support guide 40b. Are pivotally supported so that the hinge block 40 and the cover 41 are integrated. A lock claw 41b is provided inside the bottom of the cover 41, and a handle 41c is provided integrally on one side. The front wall of the engagement protrusion 32 is provided with a locking groove 32a that engages with the lock claw 41b. A second lock claw 41d is provided on the inner side of the base end of the side wall of the cover 41, and a second locking groove 40c for elastically engaging the second lock claw 41d is provided on the side wall of the hinge block 40. The engaging projection 32 having a tapered shape is inserted into and fitted into the recess of the hinge block 40.
[0024]
FIG. 14 is a cross-sectional view showing a state in which the hinge block 40, the support cover 41, and the engagement protrusion 32 of the apparatus main body 30 are connected. The support cover 41 is provided with a folded portion 41e and has a substantially L-shaped cross section. The lock claw 41b shown in FIG. 13 is formed integrally with the folded portion 41e to ensure strength.
In order to guide the second lock claw 41d to the second locking groove 40c, the groove 40d is formed shallower than the second locking groove 40c on a concentric arc with the support hole 40a provided in the side wall of the hinge block 40. Further, a raised portion 40e is provided between the second locking groove 40c and the groove 40d so that the second locking claw 41d and the second locking groove 40c are securely locked. Thus, since the auxiliary lock mechanism is formed by elastically engaging the second lock claw 41d and the second locking groove 40c, the lock claw 41b and the locking groove 32a are not elastically engaged but merely engaged. Therefore, it is easy to adjust the locking force and ensure the durability of the locking claw 41b. This also increases the degree of design freedom.
A rib 40f is provided inside the hinge block 40, and is structured to be fitted to the engaging protrusion 32. The fitting adjustment with the engaging protrusion 32 is performed by adjusting the height of the rib 40f.
[0025]
FIG. 15 is a cross-sectional view showing a connected state of the hinge block 40, the support cover 41, and the apparatus main body 30. As is apparent from the figure, in the connected state, the lock claw 41b is engaged with the locking groove 32a. In this state, the hinge block 40 and the engagement protrusion 32 are not disengaged. At this time, the rotation direction is also regulated by the second lock claw 41 d of the cover 41 and the second locking groove 40 c of the hinge block 4. When it is desired to release the engagement, a finger is put on the handle 41c to release the elastic engagement between the second lock claw 41d and the second locking groove 40c, and the cover 41 is rotated to thereby lock the lock claw 41b. And the locking groove 32a are released, and the toilet seat 20 and the like are lifted upward to disengage the hinge block 40 from the apparatus main body 30.
Further, when attaching the toilet seat 2 or the like, the hinge block 4 is inserted into the engaging projection 3e. Since the engagement protrusion 3e is thinner toward the outer tip, the hinge block 4 can be easily inserted, and the toilet seat 2 can be attached easily.
The downward force of the support hole 40 a of the hinge block 40 due to the load of the toilet seat 20 is received by the contact portion between the lower end of the hinge block 40 and the apparatus main body 30. When receiving a downward load on the surface of the apparatus main body 30, the entire casing may bend and damage internal components, and therefore reinforcing ribs are provided on the back surface of the upper case 31 of the apparatus main body 30.
[0026]
(Description of the composition of interior parts)
16A is a perspective view of the apparatus main body 3 with the upper case 31 removed, FIG. 16B is a perspective view with the control unit further removed, and FIG. 17 is an exploded perspective view with each unit removed. In the figure, 60 is a valve unit, 70 is a heat exchange unit, 90 is a flow control, pulsation unit, 110 is a nozzle unit, 130 is a drying and deodorizing unit, 150 is an auxiliary operation unit, 160 is a first control unit, and 170 is a first control unit. 2 control units.
[0027]
(Description of valve unit 60)
18 is an exploded perspective view of the valve unit 60, FIG. 19 is a partial cross-sectional view, FIGS. 20 and 21 are perspective views in an assembled state, and FIGS. 22 and 23 are views before installation in the lower case 3B. FIG. 24 and FIG. 25 show perspective views in a state of being installed in the lower case 3B. In the figure, 61 is a valve housing, 62 is a water supply connection part, 63 is a water drain plug, 64 is a triac for controlling a hot water heater, 64a is a heat radiating plate of the triac 64, 61a is a flow path forming plate and a remote control light receiving part mounting plate, 65 is a pressure regulating valve, 65a is a pressure regulating valve opening closing plate, 61b is a second flow path forming plate / remote control light receiving portion mounting plate, 66 is an electromagnetic valve, 67 is an outflow connection pipe, and 68 is an inlet temperature thermistor.
The valve housing 61 has an attachment opening 61c for attaching the water supply connection portion 62, a drainage opening 61d normally closed by the water drain plug 63, an attachment through hole 61e for attaching the heat radiating plate 64a, and a flow path formation. A flow path forming groove 61f for mounting the plate / remote control light receiving mounting plate 61a to form a flow path, a mounting through hole 61g for mounting the pressure regulating valve 65, and a second flow path forming plate / remote control light receiving mounting plate 61b are mounted. A second flow path forming groove 61h for forming a flow path, a mounting opening 61i for mounting the electromagnetic valve 66, and a mounting opening 61j for mounting the outflow connection pipe 67 are provided. As shown in FIG. 19, a check valve 69 is provided in the mounting through-hole 61e, and the bypass passage 61 and the water that communicate with the flow path forming groove 61f from the drain opening 61d without passing through the check valve 69 are provided. A main flow path 61l communicating with the flow path forming groove 61f through the check valve 69 from the opening 61d is provided. Accordingly, the flow of water during normal use is as follows: water supply connection 62 → opening 61c → opening 61d → main flow path 61l → (radiating plate 64a) → check valve 69 (through hole 61e) → groove 61f → pressure regulating valve 65 → through hole 61g → (blocking plate 65a) → groove 61h → electromagnetic valve 66 → opening 61i → opening 61j → outflow connecting pipe 67.
[0028]
The water supply connection portion 62 is formed in a substantially L shape, and is provided with a male screw portion 62a to which a flexible pipe is screwed and connected at one end, and a fitting insertion portion 62b that is rotatably fitted and fixed to the valve housing 61 at the other end. . Further, the fitting insertion portion 62b is provided with a groove 62c for fitting an O-ring (not shown) and a retaining flange 62d. With such a configuration, the fitting insertion portion 62b of the water supply connection portion 62 is inserted into the opening 61c of the housing 61, and then the substantially U-shaped attachment member 62e is fixed to the housing 61 with a screw, thereby preventing the retaining flange 62d. Is restrained and fixed to the housing 61 so as to be rotatable up and down. In addition, although the external thread part 62a of the water supply connection part 62 is normally installed facing downward, when a toilet bowl width is large, a toilet bowl interferes and cannot be attached. Therefore, when attaching to such a wide toilet bowl, the water supply connection portion 62 is rotated, and the male screw portion 62a of the water supply connection portion 62 protrudes sideways from the water supply connection port 35f provided in the lower case 35. And connect to a flexible pipe (not shown). Therefore, even a wide toilet bowl is not attached.
[0029]
The drain plug 63 includes a knob 63a and a plug body 63b. A round hole 63c for connection to the plug body 63b is formed in the center of the knob 63a, and a female screw for connection to the housing 61 is provided inside. Is formed. The plug body 63b has a mounting portion 63d to the knob 63a and an O-ring groove and a base end portion 63f that supports one end of the strainer 63e, a flange portion 63g that supports the other end of the strainer 63e, and a water stop provided at the tip. It consists of a valve part 63h. The attachment portion 63d is structured to be rotatable in the round hole 63c and not to be detached. An O-ring is fitted in the groove provided in the base end portion 63f to prevent water from leaking from the opening 61d when the drain plug 63 is attached. Similarly, the O-ring of the water stop valve 63h prevents water from entering the opening 61d from the bypass passage 61k. With this configuration, at the time of draining water, the knob 63a and the casing 61 are unscrewed, and then the knob 63a is pulled off to remove the drain plug 63 from the casing 61. At this time, since the knob 63a and the plug main body 63b are configured to be rotatable, the plug main body 63b does not rotate and the rotational force is not transmitted to the O-ring, so that the durability can be increased. When the drain plug 63 is removed, the water in the valve unit 60 is discharged to the outside through the bypass 61k, the main channel 61l, and the opening 61c by its own weight.
[0030]
The remote control light receiver 169 includes a hole 61q provided in the flow path forming plate / remote control light receiving mounting plate 61a and the second flow path forming plate / remote control light receiving mounting plate 61b, and protrusions provided on both sides of the remote control light receiver 169. It is clamped and fixed to the valve unit 60 by 169a.
[0031]
The valve unit 60 is fixed after the water supply connecting portion 62 and the drain plug 63 are drawn out from the opening 35x below the protruding portion 35d and the side opening 35g provided at the bottom corner portion of the lower case 35, respectively. Two mounting portions 61m and 61n formed integrally with the valve housing 61 are screwed and fixed to bosses 36a and 36b provided on the lower case 35, and an overturn prevention flange 61p formed integrally with the valve housing 61 is provided on the upper case. This is done by pressing from the top with the tip of the screw used to connect 31 and the lower case 35.
[0032]
Further, the bulk when the valve unit 60 is housed in the state where it is assembled to the lower case 35 is about 110 to 120 mm, and it is almost the same as the bulk obtained by taking a movable margin (about 10 mm) of the tube in the nozzle unit 110 (about 110 mm) described later. Same height.
[0033]
(Description of heat exchange unit 70 (heating mechanism))
26 is an exploded perspective view of the instantaneous heat exchange unit 70, FIG. 27 is a sectional view, FIG. 28 is a perspective view in a state where it is installed in the lower case 35, and FIG. 29 is a plan view.
The heat exchange unit 70 includes a heat exchange part 7A, a temperature stabilization part 7B, and a tapping part 7C. The heat exchanging portion 7A includes a cylindrical ceramic heater 71, a substantially cylindrical heat exchanger 72, a bimetal switch 73, a drain plug 74, and a thermal fuse 75. The cylindrical ceramic heater 71 is integrally provided with a mounting flange 71a for closing one side of the open end of the heat exchanger 72 by glass sealing or the like. The heat exchanger 72 is composed of a substantially cylindrical cylinder 72a and a connection open chamber 72b connected to the temperature stabilizing portion 7B. A ceramic heater mounting part 72c is provided on one side of the open end of the cylindrical casing 72a, a drain plug mounting part 72d is provided on the other side, and a bimetal mounting opening 72e is provided through the side wall surface of the cylindrical casing 72a. The bimetal switch 73 includes a heat transfer plate 73a, a pressing member 73b, and a bimetal switch main body 73c, and is attached to the bimetal mounting opening 72e with four screws by the pressing member 73b via the heat transfer plate 73a. The drain plug 74 is composed of a spring receiver 74a, a water stop spring 74b, a drain valve body 74c, a rubber valve seat 74d, and a closing lid 74e. The drain lid mounting portion 72d is connected with three screws by the closing lid 74e. Install. The thermal fuse 75 is clamped and fixed by a fuse mounting portion (not shown) integrally formed on the outer periphery of the cylindrical casing 72a and a fuse mounting portion 75b integrally formed on the thermal fuse mounting plate 75a. The attachment is performed by attaching the thermal fuse attachment plate 75a to the cylindrical casing 72a with one screw. Above the temperature fuse mounting portion (not shown) of the cylindrical housing 72, a water-preventing cover 72f is integrally provided so that the temperature fuse portion is not flooded. A heat transfer opening 72g and a communication hole 72h are provided in a partition wall between the cylindrical housing 72a and the connection opening chamber 72b, and a lower chamber 72i that forms a lower part of the float switch storage chamber is formed above the heat transfer opening 72g. The heat transfer hole 72g is closed with a metal heat transfer plate 72j. Further, a communication groove 72k that connects the communication hole 72h and the lower chamber 72i is formed in the connection opening chamber 72b. Further, a connecting flange 72l is formed around the communication hole 72h, the lower chamber 72i, and the communication groove 72k.
[0034]
The temperature stabilizing unit 7B includes a flow path forming body 76, a hot water temperature detection thermistor 77 that detects the temperature of the hot water, a float switch 78 that detects the presence or absence of water, and a float chamber closing lid 79. The flow path forming body 76 includes a flange 76a for attachment to the heat exchanger 72 and a storage chamber 76b for storing the float switch 78. The flange 76a extends from the flange covering the communication hole 72h and the communication groove 72k. The flange extending portion 76c is provided with a thermistor mounting hole 76d for inserting and fixing the hot water temperature detecting thermistor 77. The flange extending portion 76c, the communication hole 72h, and the communication groove 72k form a communication flow path 70a that connects the heat exchanging portion 7A and the float storage chamber 76b. The storage chamber 76b includes a hanging portion 76e that hangs downward from the flange 76a and a cylindrical portion 76f that extends upward and opens the upper end. The hanging portion 76e is inserted into the lower chamber 72i and is transmitted at the lower end of the hanging portion 72i. The heat plate 72j is pressed and fixed, and the heat transfer hole 72g is closed. A connecting opening 76g that communicates with the hot water outlet 7C is formed above the side wall of the cylindrical portion 72f, and a connecting portion 76h is formed extending from the communicating opening 76g. A float chamber closing lid 79 in which a float switch 78 is integrated is fixed to the open upper end portion of the cylindrical portion 76f with screws.
[0035]
The hot water discharge section 7C has a safety valve unit 81 for preventing a pressure higher than a predetermined pressure from being applied to the secondary device when an abnormality occurs in the hot water forming body 80 and the pressure regulating valve 65, and the hot water temperature is high enough to cause burns. In this case, the limit thermistor 82 for forcibly shutting off the energization of the heater 71 and the vacuum breaker 83 for taking in air downstream without water flow are constituted. The hot water forming body 80 includes a connection convex portion 80a for connecting to the temperature stabilizing portion 7B, a limit thermistor mounting portion 80b, a safety valve mounting portion 80c, and a vacuum breaker mounting portion 80d. In connection with the flow path configuration, the connection convex portion 80a and the thermistor mounting portion 80b are disposed on substantially the same plane, and the safety valve mounting portion 80c and the vacuum breaker mounting portion 80d are opposed to each other in a substantially straight line. The connection convex portion 80a includes an insertion portion 80e inserted into the connection portion 76h and a mounting flange 80f. The safety valve mounting portion 80c includes a safety valve insertion portion 80g and a fixing screw portion 80h. The safety valve unit 81 includes a safety valve body 81a, a pressure setting spring 81b, a relief passage 81c, a fixing flange 81d, and a valve body pressing member 81f integrally including an insertion portion 81e in which an O-ring groove is formed on the outer periphery, and the insertion portion 81e. Is inserted into the insertion portion 80g, and the fixing flange 81d is fixed to the fixing screw portion 80h with a screw to be integrated with the hot water forming body 80. An overflow outflow passage 81g is formed in the valve body pressing member 81f. With such a configuration, normally, the valve body 81a is pressed against the safety valve seat 80i formed on the hot water forming body 80 by the spring 81b and stopped, but when a water pressure of a predetermined pressure or more is applied, the safety valve body 81a Is opened, and water begins to flow out from the overflow outflow passage 81g, and the pressure of the water flowing out from the outflow port 83c is adjusted to a predetermined pressure or less. The vacuum breaker 83 includes a cap 83d having a vacuum breaker valve body 83a, an air intake / overflow port 83b, and an outflow port 83c. With this configuration, when the vacuum breaker 83 is not passing water, the vacuum breaker valve body 83a is seated on the vacuum breaker valve seat 80j formed on the hot water forming body 80 by gravity, and the valve formed on the cap 83d when water flows. Sit on the seat 83e. The other end of the resin tube connected to the overflow outlet path 81g of the safety valve 80 and the overflow port 83b of the vacuum breaker 83 is fixed to a discharge toy 36v formed on the front surface of the center of the lower case 35. Therefore, the overflowed water is discharged into the toilet along the discharge toy 36v.
[0036]
The heat exchanging unit 70 is assembled by screwing and fixing the heat exchanging part 7A and the temperature stabilizing part 7B with the flange 72l and the flange 76a through the packing, and further connecting the temperature stabilizing part 7B and the hot water outlet part 7C with an O-ring. This is done by screwing and fixing the connecting portion 76h and the flange 80f.
The heat exchange unit 70 is attached to the lower case 35 by screwing attachment flanges 72m and 72n provided on the diagonal of the cylindrical casing 72a to bosses 36c and 36d provided on the lower case 35.
[0037]
With the above configuration, the water introduced from the outflow connection pipe 67 of the valve unit 60 to the heat exchange unit 70 via the connection tube is in a flowing state, and the internal flow path 71b of the cylindrical ceramic heater 71, the ceramic heater 71, and the cylindrical casing. 72a, and is introduced into the float storage chamber 76b through the communication hole 72h and the communication channel 70a. The storage chamber 76b has a capacity of about 10 to 20 cc, ensures an operation stroke of the float switch 78, functions as a stirring chamber, and minimizes temperature hunting. The hot water stabilized by the storage chamber 76b pushes the vacuum valve body 83a through the communication opening 76g and the flow path 80i formed in the hot water outlet portion 7C, and is led out to the outlet 83c.
In addition, the volume of the heat exchange unit 70 in the state assembled | attached to the lower case 35 shall be about 110 thru | or 120 mm, and is substantially the same as the volume which took the movable allowance (about 10 mm) of the tube for the nozzle unit 110 (about 110 mm in bulk) mentioned later. The height.
[0038]
(Description of flow and pulsation unit 90)
30 is an exploded perspective view of the flow adjustment and pulsation unit 90, FIG. 31 is a plan view of the flow adjustment and pulsation unit 90, FIG. 32A is a sectional view of the flow adjustment subunit 92, and FIG. FIG. 33 is a plan view of the stator 92f and the rotor 92d of the sub unit 92. FIG. 33 shows the superposition state ((a) 0 degree, (b) 60 of the notch groove 92m and the flow adjusting groove 92p at each rotational position of the flow adjusting subunit 92. 34, FIG. 34 shows the relationship between the notch groove 92m and the flow adjustment groove 92p at the rotation angle of the flow adjustment subunit 82. FIG. 35 is a cross-sectional view of the pulsation subunit 94, and FIG. 36 is a perspective view illustrating flow adjustment and attachment of the pulsation unit 90. FIG.
The flow adjustment / pulsation unit 90 includes a flow adjustment subunit 92, a pulsation subunit 94, and an anti-vibration plate 96. The mounting holes 92a, 92b provided in the flow adjustment subunit 92 are connected to the mounting bosses 96a, 96b of the anti-vibration unit 96. Secure with screws. The pulsation subunit 94 is fixed to the mounting bosses 96c and 96d of the vibration isolating plate 96 by screwing the mounting holes 94u and 94v provided substantially diagonally through the vibration isolating rubbers 95a and 95b. In addition, annular grooves 94c and 94d are provided at the other diagonal lower end of the pulsation subunit 94, and arc-shaped ribs 96e and 96f are provided on the corresponding diagonal upper surfaces of the vibration isolation plate 96, respectively. , 95d.
[0039]
(Explanation of anti-vibration plate 96)
The anti-vibration plate 96 is provided with an outer ring wall 96g around the mounting surface to which the flow adjustment subunit 92 and the pulsation subunit 94 are attached, and a discharge toy 96h is provided one step lower than the mounting surface. With this configuration, condensed water and the like to the flow adjustment subunit 92 and the pulsation subunit 94 are discharged to the toilet through the discharge toy 96h and the lower case 35. Further, one corner portion of the outer ring wall 96g is formed to extend upward, and the inner wall side is a tube guide wall 96i that connects the flow control subunit 92 and the pulsation subunit 94. A U-shaped rib 96j is provided, and the U-shaped rib 96j collectively holds wiring such as a power line and a control line to the flow adjustment subunit 92 and the pulsation subunit 94. Mounting holes 96k and 96l are provided on one diagonal of the vibration isolation plate 96, and arc-shaped recesses 96m and 96n are provided on the other diagonal lower surface. Further, the outer ring wall 96g is provided with a substantially T-shaped protrusion 96p protruding forward, and the protrusion 96p is used for fastening and fixing the tube connected from the flow adjustment subunit 92 to the nozzle unit 110 with a string or the like (not shown). Used for The flow adjustment and attachment to the lower case 35 of the pulsation unit 90 will be described later.
[0040]
(Description of flow control subunit 92)
The flow adjustment subunit 92 mainly includes a flow adjustment body 92a, a flow adjustment motor 92b, a rotor shaft 92c, a rotor 92d, a rotor spring 92e, and a stator 92f. The flow control body 92a is provided with an inflow elbow 92g, a bypass port 92h, an outflow port 92i, and a functional part storage chamber 92j, and a rotor shaft 92c, a rotor 92d, a rotor spring 92e, and a stator 92f are stored in the functional part storage chamber 92j. The A Y-packing 92r is fitted around the rotor shaft 92c to ensure watertightness between the rotor shaft 92c and the functional portion storage chamber 92j, and a connecting recess 92s is integrally connected to the output shaft of the flow control motor 92b above the rotor shaft. Is provided. Further, the rotor shaft 92c and the rotor 92d are integrated so as not to be rotatable by a position restricting boss 92k. The rotor spring 92e is fitted between the rotor 92d and the rotor shaft 92c, presses the rotor 92d toward the stator 92f, and ensures the water tightness of the surfaces of the rotor 92d and the stator 92f. The stator 92f is constrained by a cut groove 92q, and is fixedly integrated with the flow adjustment body 92a by screws through seal packings 92t and 92u so as not to rotate.
The rotor 92d is provided with a fan-shaped notch groove 92m, and the stator 92f is provided with a bypass hole 92n for guiding water to the bypass port 92h and a flow adjusting groove 92p for adjusting the flow rate toward the outflow port 92i to guide water.
With the above configuration, the rotation of the flow adjustment motor 92b is transmitted to the rotor 92d via the rotor shaft 92c, and the superposition state of the notch groove 92m of the rotor 92d and the bypass hole 92n or the flow adjustment groove 92p of the stator 92f is changed. Flow rate adjustment or flow path switching as shown in 34 is performed.
[0041]
(Pulsation subunit 94)
The pulsation subunit 94 includes a water inlet body 94a, a solenoid 94b, a water outlet body 94c, a cylindrical inner cylinder 94d, a substantially cylindrical pole 94e, a substantially cylindrical plunger 94f, a buffer spring 94g, a biasing spring 94h, and a U-shaped cross section. The outer shell 94i has a shape. The elastic force of the urging spring 94h is set to be larger than the elastic force of the buffer spring 94g. The solenoid 94b includes a cylindrical bobbin 94p made of resin and non-magnetic material, a winding 94q made of copper or the like wound around the cylindrical bobbin 94p, and an inner yoke 94r having a U-shaped cross section made of a magnetic material such as iron surrounding the outer periphery of the bobbin 94p. Consists of. An inner cylinder 94d is fitted in the bobbin 94p, and a pole 94e, a buffer spring 94g, a plunger 94f, and a biasing spring 94h are incorporated in the inner cylinder 94d, and the flange portion 94j of the water inlet body 94a and the flange portion 94k of the water outlet body 94c are provided. The outer yoke 94i and the inner yoke 94r are sandwiched and integrated. A check valve 94l is disposed in the plunger 94f.
With the above configuration, when the solenoid 94b is energized, a closed magnetic circuit is formed as follows: inner yoke 94r → pole 94e → plunger 94f → yoke 94i, and the plunger 94f resists the elastic force of the biasing spring 94h. Suctioned to the 94e side. At this time, water in the chamber 94m formed between the pole 94e and the plunger 94f is pumped to the side of the water discharge body 94c, and is sent from the hot water outlet 94t to the nozzle unit 110 via the resin tube. When the energization of the solenoid 94b is cut off, the plunger 94f is pushed back by the biasing spring 94h. At that time, the check valve 94l in the plunger 94f is opened, and the water in the incoming water body 94a flows from the flow adjustment subunit 92 into the chamber 94m. In this embodiment, the energization to the solenoid 94b is turned on / off at 70 Hz to 100 Hz. Since the shock wave is generated on the primary side when the plunger 94f is pushed back, an accumulator 94n is provided in the water entering body 94a in order to cancel it.
Since the pulsation unit 94 is driven at 70 Hz to 100 Hz, a large vibration is generated. Since this also causes noise, as described above, the pulsation unit 94 is fixed to the vibration isolation plate 96 with vibration isolation rubber. Furthermore, since this is not sufficient, the mounting holes 96k, 96l of the vibration isolating plate 96 are screwed and fixed to the mounting bosses 36e, 36f via the vibration isolating rubbers 95e, 95f, and the annular groove 96m, 96n is brought into contact with and locked to the substantially cross boss 36g and the substantially boss 36h via vibration-proof rubber (not shown). In addition, in order to increase the mass of the vibration isolation plate 94, the flow adjustment subunit 92 is integrated with screws. By performing multi-stage vibration isolation in this way, vibration transmission to the lower case 35 can be minimized.
[0042]
In addition, since the vacuum breaker is provided in a device such as the pulsation unit 94 that generates such pressure fluctuation, the operation of the vacuum breaker 97 becomes unstable. FIG. 61 is an enlarged view of a main part for explaining the vacuum breaker 97 used in the present invention. In the figure, an air inflow passage 97d is provided in the water discharge body 94c, and a vacuum breaker valve body 97a is provided to close the air inflow passage 97d when water pressure is applied. A ring-shaped restricting member 97e for restricting the movement of the vacuum breaker valve element 97a is provided, and the restricting member 97e is attached to the other spring side by a temperature-sensitive spring 97b and a bias spring 97c made of a shape memory element. The vacuum breaker valve element 97a is indirectly urged by acting so as to act. As shown in FIG. 62, the temperature-sensitive spring 97b contracts at a low temperature and expands at a high temperature, and its transformation point is 20 ° C. to 30 ° C.
With this configuration, when water is not passed, the temperature of the vacuum breaker 97 is lowered to about room temperature, and the regulating member 97e is pushed down to the position of FIG. 61 (a) by the biasing force of the bias spring 97c. It is done. At this time, since no water pressure is applied, the valve body 97a opens the air inlet 97d. In addition, since the communication passage 97f is provided in the valve body 97a, the atmosphere is introduced from the air inflow passage 97d to the hot water outlet 94t, and the staying water in the pipe downstream from the hot water outlet 94t becomes nozzle ejection holes 113d and 113e described later. , 113f. When hot water adjusted to an appropriate temperature by the heat exchange unit 70 is supplied, the valve element 97a closes the air inlet 97d by water pressure. Since the urging force of the temperature sensitive spring 97b is increased by the temperature of the hot water, the regulating member 97e is pushed up to the air inlet side against the bias spring 97c. Therefore, the valve body 97a is restrained, and even if a negative pressure is generated on the side of the hot water outlet 94t during the hot water, the air inlet 97d is not opened. That is, the temperature-sensitive spring 97b serves as an operation limiting unit that does not operate the vacuum breaker when the cleaning water has a predetermined water temperature or higher.
Therefore, regardless of whether the vacuum breaker 97 that opens and closes due to a change in water pressure is provided in the vicinity of the pulsation unit 94 that fluctuates the pressure of the cleaning water, the vacuum breaker valve body 97a is maintained while hot water is supplied as the cleaning water. Opening and closing operations are not performed, and no abnormal noise or the like occurs.
[0043]
(Description of nozzle unit 110)
37 is an exploded perspective view of the nozzle unit 110, FIG. 38 is an exploded perspective view of the channel switching unit 100, FIG. 39 is a sectional view of the channel switching unit 100, FIG. 40 is a sectional view of the nozzle body 111, and FIG. FIG. 42 is a sectional view of the head 113, and FIG.
The nozzle unit 110 includes a flow path switching unit 100, a nozzle body 111, and a nozzle drive unit 120. The flow path switching unit 100 is integrated with the rear end of the nozzle body 111, and the nozzle body 111 is slidable on the nozzle drive unit 120. Attached to.
[0044]
(Description of flow path switching unit 100)
The flow path switching unit 100 includes a switching motor 101, a motor mounting plate 102, a transmission shaft 103, a sealing material 104, a flow path switching body 105 having an inflow hole 105a, a switching rotor 106 having a notch groove 106a, and a buttocks 1 outflow port 107a. , A switching stator 107 having a bottom 2 outflow port 107b and a bidet outflow port 107c.
[0045]
(Description of nozzle body 111)
The nozzle body 111 includes a nozzle body 112, a nozzle head 113, a packing 114, and an inflow elbow 115. A storage portion 112a for storing the flow path switching unit 100 is provided at the rear end of the nozzle body 112, and one of the storage portions 112a is provided. An inflow hole 112b is provided on the side wall, and an inflow elbow 115 is integrated into the inflow hole 112b by bonding or welding. A connecting portion 112c to the nozzle drive unit is provided on the other side wall of the storage portion 112a. Inside the nozzle body 112 is formed a butt 1 flow path 112d on the upper side, a butt 2 flow path 112e and a bidet flow path 112f on the lower side, and a butt 1 connection protrusion 112g and a butt 2 connection protrusion at the tip. 112h, a bidet connection projection 112i is provided.
The rear end of the nozzle head 113 is provided with a butt 1 communication channel 113a, a butt 2 communication channel 113b, and a bidet communication channel 113c, between the projections 112g, h, i and the channels 113a, b, c. The packing 114 is interposed. At the tip of the nozzle head 113, a bottom 1 ejection hole 113d, a bottom 2 ejection hole 113e, and a bidet ejection hole 113f are provided in this order from the back. The buttocks 1 ejection hole 113d and the flow path 113a are formed as straight flow paths, but the outflow ports 107b and 107c, the flow paths 112e and 112f, and the communication flow paths 113b and 113c are arranged so as to be shifted from the center. The bottom 2 ejection hole 113e, the bidet ejection hole 113f, the bottom 2 communication channel 113b, and the bidet communication channel 113c are formed eccentrically as shown in FIG.
In the vicinity of the inflow elbow 115 of the nozzle body 112, a U-shaped wiring storage rib 112j for binding and fixing the wiring of the flow path switching unit 100 is provided.
[0046]
(Description of nozzle drive unit 120)
The nozzle drive unit 120 includes a nozzle support base 123 that slidably supports the nozzle body 111, a nozzle drive motor 124 attached to the left rear side of the nozzle support base 123, and a right side rear side of the nozzle support base 123 to drive the nozzle. Large pulley 125 that is non-rotatably fixed to the motor 124, a stopper 126 that is attached to the rear end of the nozzle support base 123 and restrains the movement of the nozzle body 111, and two pieces that are attached to the front end of the nozzle support base 123 and the stopper 126. The small pulley 127, the large pulley 125, the small pulley 127, and the connecting portion 112c of the nozzle main body 111 are attached to the timing belt 128 that transmits the drive of the motor to the nozzle main body 111, and the timing belt is attached to the nozzle support base 123 so as to be movable up and down. Tensioner for adjusting slack 129. A timing belt detachment stop 123c is provided on the right side of the nozzle support 123.
A nozzle cleaning chamber 121 is provided at the tip of the nozzle support base 123, and a cleaning port 122 connected to the bypass port 92h of the flow control subunit 92 by a resin tube is formed on the side thereof.
[0047]
(Mounting of nozzle unit 110)
The nozzle unit 110 is attached by sliding the nozzle unit 110 in the front-rear direction along the left-right motion restricting wall 36k of the lower case 35, and the upper-lower motion restricting rib 36i provided on the lower case 35 with the attachment flange 123a provided on the drive unit 120. The mounting flange 123b is screwed to a boss 36i provided on the lower case 35.
With the above-described configuration, the forward / reverse rotation of the nozzle motor 124 is transmitted to the nozzle body 111 by the timing belt 128, and can reciprocate between the two small pulleys 127 along the inclination of the nozzle support base 123. Further, when the nozzle body 111 is housed, the nozzle head 113 is in the nozzle cleaning chamber 121, and the nozzle head 113 is cleaned with water supplied from the cleaning port 122.
As described above, the angle of the expansion / contraction direction of the nozzle body 111 is substantially the same as that of the inclined portion 31a of the upper case 31, but this inclination angle (30 to 40 degrees from the horizontal plane) is obtained by the applicant's many years of research. It is an optimum angle for aiming at the buttocks and bidet from the single nozzle body 111, and is also an optimum angle for absorbing variations in sitting position, physique and the like.
In this embodiment, the nozzle unit 110 has a bulk of about 110 mm, and the bulk of the substantially flat surface 31p of the upper case is 120 mm. The nozzle body has a height with a margin of about 10 mm. This is because the tube for supplying water to 111 needs to move together with the nozzle main body 111, so that this movable space is secured. This margin is minimally required. If this margin is not available, the tube is pressed by the upper case 31 and the nozzle unit 110, and the tube is eventually damaged. The depth of the nozzle unit 110 is about 160 mm, which is also substantially equal to the depth of the upper case.
[0048]
(Drying and deodorizing unit 130)
43 is an exploded perspective view of the drying / deodorizing unit 130, FIG. 44 is a perspective view of the drying flow path forming upper body 131, FIG. 45 is a perspective view of the drying flow path forming lower body 132, and FIG. 47 is a perspective view in an assembled state, FIG. 48 is (a) rear view, (b) front view, (c) plan view, FIG. 49 is a plan view with a part cut away, and FIG. 50 is dry. It is the side view and perspective view of a heater.
The drying / deodorizing unit 130 includes a drying channel forming upper body 131, a drying channel forming lower body 132, a sewage intrusion prevention wall 133, a drying heater 134, a drying heater storage box 135, a drying thermistor 136, and a drying fan 137. The apparatus 139 includes a clogging prevention filter 141, a deodorizing flow path forming lower body 142, a deodorizing flow path forming upper body 143, a deodorizing catalyst 144, and a deodorizing fan 145.
[0049]
(Description of drying device 139 (warm air generating mechanism))
The drying flow path forming upper body 131 includes an outer wall surface 131a, an upper wall surface 131b, an inner wall surface 131c, and a deodorizing flow path forming surface 131d. The drying flow path forming upper body 131 has a lower surface on the outer wall surface 131a and the inner wall surface 131c. Three protruding projections for housing the drying heater 134 (not shown), one drying thermistor housing projection projecting sideways, and one heater wire extracting projection 131v projecting sideways are provided. Further, a mounting portion 131t to the lower case 35 is provided on the outer wall surface 131a. Further, the end of the drying flow path forming upper body 131 is thinner than the rear end portion 131v to form a drying fan insertion allowance.
The upper wall surface 131b includes an inclined surface 131h and a drying heater storage surface 131i, and a protruding wall 131j protruding upward is provided on the inclined surface 131g. The protruding wall 131j functions as a guide for a resin tube that connects the bypass port 92h of the flow control subunit 92 and the cleaning port 122 of the nozzle unit 110. Further, a resin tube is sandwiched between the inclined surface 131g and the inclined portion 31a of the upper case 31, and the resin tube prevents sewage from entering the deodorizing motor 145 side.
A deodorizing flow path forming portion 131d is formed on the side of the inner wall surface 131c. The deodorizing flow path forming portion 131d surrounds the back wall surface 131l and the upper wall surface 131b and surrounds the deodorizing flow path forming upper surface 131m and the deodorizing suction port 132k. The peripheral wall 131p is provided with an engaging recess with the drying flow path lower body 132 and a mounting portion 131q to the lower case 35. Further, a drying motor mounting portion 131w and a deodorizing flow path forming lower body 142 mounting portion 131z are provided at the rear of the rear wall surface 131l.
A sewage ingress prevention wall 133 hinge receiver 131y is provided on the front surface of the drying flow path forming upper body 131, and hinges 133a are provided on both sides of the sewage ingress prevention wall 133.
[0050]
The drying flow path forming lower body 132 includes an outer wall surface 132a, a bottom surface 132b, an inner wall surface 132c, and a deodorizing flow path forming surface 132d. The outer wall surface 132a and the inner wall surface 132c of the drying flow path forming lower body 132 are for accommodating the drying heater 134. Three notches 132e, one notch 132f for storing the drying thermistor 136, one notch 132v for heater wire extraction, and a notch 132g for attaching a drying fan 137 are provided at the rear end. The bottom surface 132b in the vicinity of the mounting notch 132g is made thinner toward the front, and the outer wall surface 132a in the vicinity is formed so as to be elastically deformable. Further, the outer wall surface 132a is provided with a mounting portion 132t to the lower case 35. Further, a stopper rib 132v is provided at the rear end of the drying flow path forming lower body 132 to form a drying fan insertion allowance.
The bottom surface 132b includes an inclined surface 132h and a drying heater installation surface 132i, and a hanging wall 132j hanging downward is provided on the back side of the inclined surface 132g, and a deodorizing suction port 132k is formed by the opening 36l of the lower case 35. The clogging prevention filter 141 locking opening 132u is provided on the side wall of the hanging wall 132j.
[0051]
A deodorizing flow path forming surface 132d is formed on the side of the inner wall surface 132c. The deodorizing flow path forming surface 132d is composed of a back wall surface 132l, a bottom surface 132m, and a front wall 132n. A peripheral wall 132p surrounding the deodorizing suction port 132k is connected to the front wall 132n. An engaging claw with the body 131 and a mounting portion 132q to the lower case 35 are provided. Further, between the front wall 132n and the peripheral wall 132p, a clogging prevention filter 141 mounting opening 132r and a hook 132s for temporarily fixing the deodorizing flow path forming lower body 142 are provided. The clogging prevention filter 141 is provided with a locking projection 141a and an elastic locking piece 141b. The locking projection 141a is inserted into the opening 132u, and the elastic locking piece 141b is elastically engaged with the mounting opening 132r. A clogging prevention filter 141 is attached to the opening 132k.
[0052]
The drying heater 134 has two support plates 134a and 134b having heat resistance, such as mica, joined to each other by engaging a slit formed in a symmetrical line portion, and sandwiching one end in the longitudinal direction with a fixing metal 134c. A main body 134d having an X-shaped cross section is formed integrally, and a plurality of concave portions 134e and concave portions 134f are formed at equal intervals on the ridge line portions of the supports 134a and 134b that are the peripheral portions of the main body 134d. The recess 134e is formed with an inclination. In addition, this inclination is reversed between the upper and lower ridge lines. In the outer periphery of the main body 134d configured as described above, that is, on the ridge line portions of the support plates 134a and 134b, several coil-shaped heating wires 134g are alternately inserted into the recesses 134e formed on the ridge lines. And it winds so that it may become a spiral shape from one side of each support body 134a, 134b toward the other side. The support 134b is made of two mica plates, and the thermal fuse 134 is sandwiched between the two mica plates, and is inserted between the two mica plates. The hot wire 134g, the heating wire 134g, the thermal fuse 134h, the thermal fuse 134h, and the lead wire lead-out portion 134j are connected to each other. The drying heater 134 thus connected is stored in a drying heater storage box 135 and unitized. Note that the three attachment portions 134k provided on the support 134a protrude outward from the slits 135a provided on the storage box. Conventionally, the thermal fuse 134h is installed on the support plate 134b, and the connection is also made on the support plate 134b. However, since the connection is made between the two mica plates, the drying heater 134 is used. Can be made thinner than before. Moreover, since the recessed part 134e was inclined and provided, it can be made hard to come off at the time of winding the coil field heating wire 134g, and workability | operativity improves.
The drying fan 137 is integrated with a motor (not shown) at the center, the lower part is a suction port (not shown), and the peripheral end is a discharge port 137a. In addition, two attachment portions 137b and 137c are provided around the drying fan 137. The drying fan 137 also serves as the deodorizing fan 145.
[0053]
With the above configuration, the drying device 139 is assembled as follows. The thermistor 136 is inserted into the drying thermistor housing notch 132f of the drying flow path forming lower body 132, the attachment portion 134k of the drying heater housing box 135 containing the drying heater 134 is fitted into the heater housing notch 132e, and the heater wire is taken out. After taking out the lead wire for the heater from the notch 132v, several snap-fit structures (not shown) provided on the outer wall surface 131a of the drying channel forming upper body 131 and the outer wall surface 132a of the drying channel forming lower body 132; These are integrated with a snap fit structure (not shown) provided on the peripheral wall 131p of the dry flow path forming upper body 131 and the peripheral wall 132p of the dry flow path forming lower body 132. At this time, the heater mounting portion 134k is brought into the notch in the drying heater housing projection (not shown), the thermistor 136 in the drying thermistor housing projection, and the heater lead wire in the heater wire take-out projection 131v. Be bound. Further, the inner wall surface 131c of the drying flow path forming upper body 131 and the inner wall surface 132c of the drying flow path forming lower body 132 are engaged with each other, and the outer wall surfaces 131a and 132a, the inner wall surfaces 131c and 132c, the upper wall surface 131b, and the bottom surface 132b. And form a drying air passage. A sewage intrusion prevention wall 133 is attached to the terminal opening 139a of the drying air passage by a hinge part 133a and a hinge receiver 131y. When there is no air blowing, the opening 139a is closed by the sewage invasion prevention wall 133. The sewage intrusion prevention wall 133 is pushed open to open the opening 139a. At the start end 139b of the drying air passage, a drying fan insertion allowance for the drying flow path forming upper body 131 rear end 131v and a drying fan insertion allowance due to the stopper rib 132v at the rear end of the drying flow path forming lower body 132 are formed. The air outlet 137a of the drying fan 137 is inserted into this insertion allowance. In this insertion, the attachment portion 137c is fitted between the drying motor attachment portion 131w and the drying motor attachment portion 132w, and the drying fan 137 is turned around the insertion portion to insert the air outlet 137a into the opening 139b. At this time, the protrusion of the drying fan 137 (also serving as a snap fit portion for assembly) is elastically engaged and temporarily fixed in the mounting notch 132g. Thereafter, the drying device 139 is assembled by fixing and integrating the motor attachment portion 131w, the attachment portion 137c, and the motor attachment portion 132w with screws.
[0054]
(Deodorizer 140)
The deodorizing flow path forming lower body 142 includes a motor mounting surface 142a having a suction opening 142b in the center, a suction duct forming wall 142c provided recessed from the opening 142b, a deodorizing flow path forming upper surface 142d extending from the mounting surface 142a, A motor restraint wall 142e provided protruding from the edge of the upper surface 142d, a catalyst housing lower part 142f for housing the deodorizing catalyst 144, and a side wall 142g for forming a communication channel for connecting the catalyst housing lower part 142f and the mounting surface 142a. To do. Note that two right and left restraining claws 142h are provided on the side wall of the catalyst housing lower portion 142f. Further, a hanging wall 142i that hangs down on the rear surface of the boundary portion between the mounting surface 142a and the upper surface 142d, a boss 142j, 142k for fixing the deodorizing motor 145 on the mounting surface 142a, and a drying device 139 on the upper surface 142d. Each of the mounting portions 142l is provided.
The deodorizing flow path forming lower body 143 includes an inclined surface 143a and a catalyst housing upper part 143b, and an insertion port 143c for inserting the air outlet 145a of the deodorizing motor 145 is formed at the front end of the inclined surface 143a. Further, two right and left restraint pieces 143d for snap fitting are provided on the side wall of the catalyst housing upper part 143b.
The deodorization catalyst 144 is the same as that conventionally used, and is obtained by forming activated carbon or the like into a honeycomb shape.
[0055]
With the above configuration, the deodorizing apparatus 140 is assembled as follows. The deodorizing catalyst 144 is inserted into the catalyst housing lower part 142f of the deodorizing flow path forming lower body 142, and the deodorizing flow path forming upper body 143 has a snap fit structure (elastic engagement of the restricting claw 142h and the restricting piece 143d) with the deodorizing flow path forming lower body 142. To integrate.
The blower outlet 145a of the deodorizing fan 145 is inserted into the deodorizing fan insertion port formed by the side wall 142g of the deodorizing flow path forming lower body 142 and the insertion port 143c of the deodorizing flow path forming upper body 143, and the deodorizing motor 145 is mounted. Place on the mounting surface 142a. At that time, the attachment portions 145b and 145c of the deodorizing motor 145 are fixed to the fixing bosses 142j and 142k, the outer periphery of the deodorizing motor 145 is the motor restraining wall 142e, and the suction port (not shown) of the deodorizing motor 145 is the opening 142b. Set each one. Thereafter, the mounting portions 145b and 145c are integrated by fixing them to the fixing bosses 142j and 142k.
[0056]
(Description of assembly of drying device 139 and deodorizing device 140)
The drying device 139 and the deodorizing device 140 assembled as described above are assembled as follows. The deodorizing flow path forming upper surface 131m of the drying device 139 and the edge portions 131m1, 132d1 of the deodorizing flow path forming surface 132d are respectively provided with the suction duct forming wall 142c of the deodorizing device 140 and the edge portions 142c1, 142e1 of the motor restraining wall 142e. insert. At that time, the hanging wall 142i of the deodorizing device is elastically engaged with and temporarily fixed to the hook 132s of the drying device 139. Thereafter, the attachment portion 142l is integrated with the attachment portion 131z by screwing.
With the above configuration, the bad odor sucked from the deodorization suction port 132k provided in the lower part of the drying air passage is removed from the introduction duct 140a formed by the deodorization flow path forming upper surface 131m, the peripheral wall 131p, and the peripheral wall 132p. The air is sucked into the deodorizing fan suction port (not shown) through the guide duct 140b, the suction duct forming wall 142c, and the opening 142b formed by the forming lower surface 132m and the deodorizing flow path forming upper surface 142d, and then from the outlet 145a to the deodorizing catalyst 144. It is sent out and discharged into the toilet room through the air outlet 32x formed on the back surface of the upper case 31 by being deodorized by adsorption and deodorization of the catalyst 144.
Further, air is sucked into the drying fan 137 from the lower suction space 140S of the lower case 35 and the drying / deodorizing unit 13, and the sucked air is heated by the drying heater 134 and blows warm air from the terminal opening 139a. The hot air thermistor 136 detects the hot air temperature and controls the energization of the drying heater 134 so as to reach a predetermined temperature.
The drying and deodorizing unit 130 is attached to the lower case 35 by attaching the attachment portions 131t and 132t to the attachment boss 36j provided on the lower case 35, the attachment portions 131q and 132q to the attachment boss 36k, and the attachment portion 137b to the attachment boss 36m. It is done by fixing the screw to.
[0057]
(Auxiliary operation unit 150)
FIG. 51 shows an enlarged perspective view of the auxiliary operation unit 150. The auxiliary operation unit 150 includes a switch board 151 on which switches are arranged, a switch board 151 including a switch board 151 and a switch board (not shown) configured to detect the fall state of the toilet lid, and a mounting board 152 attached to the case and a toilet lid fall It consists of a detection switch board (not shown). The mounting board 152 includes an insertion guide 36q provided on the lower case 35, a lower restriction portion 152a inserted into the insertion guide 36q, an upper restriction portion 152b sandwiched between two ribs 32a provided on the upper case 31, and a rib provided on the upper case 31. A pressing portion 152c pressed by 32b, an insertion guide 152d for inserting a toilet lid fall detection switch board (not shown), a fixing claw 152e for fixing a toilet lid fall detection switch board (not shown), and a fixing for fixing the switch board 151. A claw 152f and a guide projection 152g for inserting a guide hole 151a provided in the switch board 151 are provided. In addition, a holding piece 152 h for holding the wiring of the switch board 151 together is provided on the side peripheral portion of the mounting board 152. Note that the toilet lid fall detection switch board (not shown) detects the lying state of the toilet lid by sensing the magnetic force of the magnet 10x housed in the hinge portion of the toilet lid 10. As shown in FIG. 10, a switch opening 33e is provided on the side surface of the upper case 31, and a transmission plate 33c that is elastically deformable and can contact the switch board 151 when deformed is inserted into the opening 33e. The sheet 33d is integrally attached to the upper case 31.
[0058]
(First control unit 160)
As shown in FIGS. 16 to 17, the first control unit 160 includes a potting case 160a and a control board (not shown). The potting case 160a has a hinge receiver 36r provided on the lower case 35 at the lower end. A hinge shaft 161 is rotatably supported, and a fixing hole 162 is fixed to the boss 36t of the lower case 35 on the side wall. A control board on which an element for controlling the AC load is mainly arranged is arranged on the surface of the potting case 160a, and a human body detection sensor 165 and a buzzer 167 for generating an abnormal state notification or a remote control signal reception confirmation sound are arranged on the back side. Mounted. Further, the water-preventing wall 36t provided near the center of the lower case 35 and the side wall of the potting case 160a prevent the control board from being wetted. On the left side wall of the potting case 160a, a mounting portion 168 for attaching a toilet seat fall detection switch board (not shown) made of a Hall IC or the like for detecting that the toilet seat 20 is in a fallen state is integrally formed. By detecting the magnetic force of the magnet 20x provided in the hinge portion of the toilet seat 20 by the toilet seat fall detection switch board, the lying state is detected.
[0059]
FIG. 63 shows a mounting structure of the human body detection sensor 165. Reference numeral 160b denotes a positioning boss for accommodating the spring 160f therein, and 160c denotes a mounting boss having a small diameter portion 160d and a large diameter portion 160e and having a screw groove formed therein, and is integrally formed on the back surface of the potting case 160a. . The human body detection sensor 165 includes a sensor mounting base 165a and a sensor substrate 165f on which a light emitting element and a light receiving element are mounted. A position restraint 165b and an annular boss 165c are provided on the lower surface of the sensor mounting base 165a, and an attachment hole 165g is provided in the annular boss 165c. The attachment hole 165g is larger than the small diameter portion 160d of the potting case 160a. The diameter is smaller than that of the large diameter portion 160e. The human body detection sensor 165 is attached with the position restraint 165b fitted into the positioning boss 160b and the annular boss 165c engaged with the mounting boss 160c. It is performed by screwing and fixing to. Accordingly, upward slipping is prevented by the lapping margin between the position restraining rod 165b and the positioning boss 160b and the washer 165e, but the mounting hole 165g and the small diameter portion 165d, and the annular boss 165c and the large diameter portion 165e have a margin. Therefore, it is fixed so that it can move left and right and up and down accordingly. The upper case 31 is provided with a position restricting rib 32d as a correction member. The position restricting rib 32d has a larger distance below the width of the human body detection sensor 165, and the human body as it goes upward. The interval is substantially the same as the width of the detection sensor 165. Accordingly, when the upper case 31 is attached to the lower case 35, the human body is biased downward against the spring 160f while sandwiching both sides of the human body detection sensor 165 with the position restraining ribs 32d provided on the upper case 31. The mounting position of the detection sensor 165 is finely adjusted, and is restrained and fixed at the final position.
[0060]
(Second control unit 170)
FIG. 64 shows a schematic top view of the second control unit 170.
The second control unit 170 includes a crank-shaped potting case 170a and two control boards 171 and 172 on which elements for controlling DC load are mainly arranged. The potting case 170a extends downward 4 A mounting leg 170b of the book, a wiring holding part 170c that collectively holds the wiring of the control board and each interior device, a tube holding part 170d that is integrally formed on the back surface of the potting case 170a, and a wiring receiving rib that is integrally formed on the side wall of the potting case 170a 170e is provided. A display board 175 is attached to a transformer 170f which is one of the components of the control board. The potting case 170a has a crank shape, and an open portion 170g that opens the space at the rear end of the nozzle unit 110 is provided to secure a moving space for the resin tube connected to the nozzle unit. Further, by providing a hinge space 170 h in the front, the inclined recesses 31 c can be formed on the left and right of the upper case 31. The control board 171 and the control board 172 are connected by a connector 171a and a connector 172a, and a connector for connecting a connection wiring of a load such as a motor is arranged on the outer peripheral side 171b of the control board 171 so that the control board 171 is arranged. This facilitates pattern formation. Further, heat dissipating parts are intensively arranged on the substrate 172 located below the central raised portion of the toilet seat / toilet lid support 31b having the most clearance with the upper case 31. Thereby, deformation of the upper case 31 due to heat generation of the substrate is prevented. The display substrate 175 is provided with light emitting elements such as LEDs, and the light is shown through a display opening provided in the upper case 31, but the relative position between the upper case 31 and the display substrate 175 is due to manufacturing variations. If it is shifted, the area other than the display opening appears to shine, which gives the user a sense of incongruity. In the present embodiment, a means for preventing the user from feeling uncomfortable even if a positional shift due to manufacturing variations occurs by providing a diffusing means on the front surface of a light emitting element such as an LED and turning off the light. This diffusing means is performed, for example, by providing a lattice rib in a lens shape or by providing a diffusing lens.
[0061]
(Remote control 180)
FIG. 52 shows a front view of the remote controller 180. The remote control 180 is provided with a butt 1 cleaning switch 181, a butt 2 cleaning switch 182, a bidet cleaning switch 183, and a stop switch 184, and a signal is transmitted to the light receiver 169 of the apparatus main body 30 by the projection LED 185. . A cover 186 is provided on the surface of the remote controller 180 to conceal the relatively infrequently used switch group 189 and the liquid crystal display unit 188 such as a deodorizing switch, a nozzle cleaning switch, and a power saving switch provided in the concealing unit. Among the switch group 189 that is relatively infrequently used, the opening group 187 so that the switch 189 with a medium use frequency such as a move on / off switch, a massage on / off switch, a temperature control switch, and a flow rate control switch can be operated even when the cover 186 is concealed. And an opening 188b is provided so as to expose a display portion of the liquid crystal display portion 188 relating to a switch having a medium use frequency. A light emitting LED is arranged inside the smoke 190 and transmits an infrared signal to the light receiving unit 169 of the apparatus main body 30.
[0062]
Next, a more specific embodiment of the remote controller will be described with reference to FIGS.
A toilet flushing switch “Large flow” and “Large flow” are provided on the uppermost surface in the front view of FIG. As for this switch, “Large flow” on the left is a toilet flushing switch for stool, and “Small flow” is a toilet flushing switch for small use. A laterally long protrusion is provided near the front of the switch, and consideration is given so that it can be clearly seen that it is an operation switch. The projection also serves to prevent the small item from falling when a small item (light item such as a hairpin) is temporarily placed on the top surface of the remote control. Note that this toilet flushing switch may not be provided, but only a switch for remotely operating only the operation of the local washing apparatus may be provided.
In addition, immediately below the toilet flushing switch in the figure, in order from the left side of the drawing, “stop switch”, “wet washing switch (butt 1 washing switch)”, “soft washing switch (butt 2 washing switch)”, “bidet” “Cleaning switch” and “drying switch” are arranged in parallel. Since this portion is the most frequently used switch of the local washing apparatus, the size of the switch button is increased to make it easy to understand. In addition, each switch itself is a quadrangle and is almost flush with the front surface of the remote control, so that it can be designed to be an operation switch by design, a small protrusion (stop switch) or embossing ( The round part of other switches is provided. Further, these switches are different from the switches of the conventional remote controller in that the operation switches are continuous from end to end of the remote controller with the sides of the squares adjacent to each other. As a result, the size of each switch can be increased, which increases the target at the time of operation and facilitates the operation. For low-sighted people, the main operation switches are arranged in a horizontal row, so that there is a design unit and individual switches in the switch group can be identified by touching with a fingertip. It is very easy to operate.
52, since the drying switch is arranged at the position of the floodlight LED in the embodiment of FIG. 52, in the embodiment of FIG. 53, the floodlight LED is built in the back side of the toilet flushing switch, and the side wall of the toilet flushing switch is arranged. LED light is emitted from the light projecting section.
[0063]
Further, immediately below the main operation switch, a setting change switch unit for changing various setting values for cleaning and drying is provided on the operation surface hidden by the lid. Among the many setting change switches, when the lid is closed, moving cleaning is turned on and off, massage cleaning is turned on and off, the strength of the water is adjusted, and the front and back of the nozzle cleaning position is adjusted, and the liquid and the liquid are displayed. The display unit is exposed to the surface side from the opening group opened in the lid, and each switch can be operated. In addition, when the lid is opened, a power saving function setting switch, a nozzle cleaning switch (nozzle cleaning switch), a hot water temperature setting switch, a toilet seat temperature setting switch, a drying temperature setting switch, and a deodorizing on / off switch are provided. . Furthermore, in addition to the display of the water flow and the washing position, the central liquid crystal display unit displays the setting conditions of the power saving mechanism, the numerical display of the hot water temperature, the numerical display of the toilet seat heating temperature, the drying temperature (high, medium, low), deodorization The presence or absence of can be displayed.
[0064]
The display content of the liquid crystal display unit will be described in detail. The “timer power saving” display in the upper left of the display section displays characters only when the power saving timer is switched on. Under the “power saving time” below, a time selected from a plurality of set times of 3, 6, and 9 hours is selectively displayed. The “Auto power saving” below it displays characters only when auto power saving is turned on. The automatic power saving means that the usage history of the local cleaning device is memorized and the usage state is estimated by the device itself. The quantity is energized. The water display below is a bar line display up to the water selected by the user by operating the strength switch. Further, the cleaning position display below it indicates the cleaning position selected by the front / rear adjustment switch by the nozzle ejection picture selection display. In addition, the mark which gave the quadruple circle to the black circle shown between a water flow display and a washing | cleaning position display blinks for several seconds only at the time of operation of each operation switch. If this display blinks when the switch is operated, it can be assumed that the remote control circuit is normal and that the local cleaning device itself is abnormal. If this display does not blink even when the switch is operated, the remote control circuit or structure Therefore, there is an advantage that it is possible to guess that there is an abnormality, and it is easy to identify the abnormal part. Subsequently, the hot water temperature display in the upper right part of the liquid crystal display unit digitally displays the set hot water temperature. The toilet seat heating temperature display below it digitally displays the set toilet seat heating temperature. The drying temperature display below it selectively displays a drying temperature selected from high, medium and low. The deodorizing display below the deodorizing character is displayed when the deodorizing switch is turned on.
As explained above, only the setting values that are frequently changed according to the user's preference among various setting values for cleaning and drying can be changed without opening the lid, and only the changed parts can be seen from the outside. It has become. Accordingly, while many of the many setting switches are covered at the bottom of the lid, only the setting switches that are used daily by the user are exposed to the outside to improve usability.
[0065]
In addition, on / off movement cleaning, on / off massage cleaning, water strength adjustment, and front / rear adjustment of the nozzle cleaning position are arranged in a line on the front side of the lid, and two switches In the switch that switches one function in pairs (water strength adjustment, washing position adjustment switch), the paired switches are connected by a protruding rib shorter than the switch. For this reason, there is a design unity, and individual switches of the switch group can be identified by touching with a fingertip.
In addition, when adjusting the water flow or cleaning position, the switch displays a “strong” or “weak” indication on the surface of a small circular switch that can be pressed with a fingertip. This is identified by the character display of the part. Therefore, no characters are written on the lid provided with the switch or the operation surface itself, so that the characters are not rubbed and disappeared during a long period of use, and a clean appearance is obtained.
[0066]
Among the setting change switches, the switch that is hidden by the lid when the lid is closed is not a mechanism that prohibits the operation of the switch when the lid is closed. There is a possibility that the setting is changed regardless of the intention of the user because the switch is pushed without knowing. In order to prevent this malfunction, a switch malfunction prevention unit is provided on the back surface of the lid as shown in the sectional view. This switch absorption part has a contact wall that makes contact with the operation surface provided with the switch so that there is no further pressing when the lid is pushed to the switch side, and the inside of the contact wall is recessed. The switch housing portion accommodates the switch head so that the switch is not pushed in when the contact wall comes into contact with the operation surface. By providing this switch malfunction prevention part corresponding to the switch that is hidden by the lid when the lid is closed, for example, the cleaning temperature and toilet seat temperature will not be raised or lowered without the user's knowledge. Can be prevented.
[0067]
(Outlet 195 for optional equipment)
FIG. 65A shows a schematic rear view of the optional device outlet 195, and FIG. 65B shows a schematic exploded perspective view of the optional device outlet 195. As shown in FIG.
In the lower suction space 140S of the drying unit 140, an outlet 195 for optional equipment is provided at the right rear corner of the lower case 35.
The optional equipment outlet 195 includes a waterproof bush 196 made of an elastic member such as rubber and an outlet receptacle 197. The waterproof bush 196 includes a closing piece 196a divided into four parts and a fitting portion 196b into which the outlet receptacle 197 is fitted. The outlet receptacle 197 includes a negative pole 197a, a positive pole 197b, An attachment portion 197 c for attachment to the lower case 35 and a connection line 197 d for connection to the second control unit 170 are configured. By inserting the outlet 198 of the optional device into the optional device outlet 195 configured as described above, the closing piece 196a made of an elastic member is expanded and the outlet 198 and the outlet receptacle 197 are electrically connected. Thus, power is supplied to the optional equipment from the local cleaning device. When the optional device is not connected, the closing piece 196a prevents intrusion of dust or the like in the case. An optional device includes a remote control toilet cleaning unit (not shown).
[0068]
(Explanation of body attachment / detachment detection mechanism and drainage mechanism)
Also in this embodiment, a mechanism for attaching and detaching the local cleaning device main body proposed in JP-A-8-326130 is provided. The attachment / detachment mechanism by engagement between the hook-shaped protrusion and the hook-shaped recess is exactly the same as that disclosed in JP-A-8-326130, and will not be described in the present application, but is different in the body attachment / detachment detection mechanism and the drainage mechanism. Will be described with reference to FIG. In the figure, 1 is an engaging member fixed to a toilet (not shown), 2 is a draining lever, 3 is an attachment / detachment detection bar, and 4 is an attachment / detachment detection switch. 1 is provided with a protruding portion 1a. The drain lever 2 is formed in an L shape with a drain plug urging portion 2a for biasing the drain plug 74 and a guide portion 2b for operating along the inner wall surface of the lower case 35. A draining operation handle 2c protruding outward from a draining lever opening 38 provided in the lower case 35, and a slide groove 2d are provided on the rear surface of the guide portion 2b. A spring (not shown) is disposed on the rotation shaft 3a of the attachment / detachment detection bar 3, and the attachment / detachment detection bar 3 is normally urged toward the attachment / detachment detection switch 4 by the torsional force of the spring. A protrusion 3 b is provided on the upper end surface of the attachment / detachment detection bar 3, and the protrusion 3 b is disposed so as to interfere with the lower end of the slide groove of the drain lever 2. The attachment / detachment detection switch 4 is composed of a micro switch or the like, and the switch is turned on and off by turning the switch rod 4a.
[0069]
Next, the operation will be described. As shown in FIG. 66 (a), when the apparatus main body 30 including the lower case 35 is attached to the engaging member 1, the attachment / detachment detection bar 3 is opened outward against the torsional force of the spring by the protrusion 1a. Hold in state. At this time, since the protrusion 3b and the slide groove 2d are in contact with each other, the drain lever 2 cannot be moved. As shown in FIG. 66 (b), when the apparatus main body 30 is detached from the engaging member 1, the attachment / detachment detection bar 3 pushes the switch rod 4a of the attachment / detachment detection switch 4 by the torsional force of the spring, and switches it on. At this time, since the protrusion 3b moves to the right in the drawing to the middle of the slide groove 2d, a movement allowance is secured between the protrusion 3b and the slide groove 2d, and the drain lever 2 can be operated. In this state, as shown in FIG. 66 (c), when the draining handle 2c is operated to the right side in the figure, the drain valve body 74c of the drain plug 74 is pushed in by the drain plug urging portion 2a, and the rubber Water is discharged from a drain hole 39 (see FIG. 17) which is separated from the valve seat 74d and provided in the lower surface of the lower case 35. When the apparatus main body 30 is reattached to the engaging member 1 as shown in FIG. 66 (d) in a state where the drainage operation handle 2c is forgotten to be returned, the protrusion 1a causes the attachment / detachment detection bar 3 to resist the spring torsional force. Then, the attachment / detachment detection switch 4 is turned off, and the drainage lever 2 is pushed back to the original position by the projection 3b and the slide groove 2d. Therefore, even if the draining lever 2 is forgotten to be returned to the original state after the draining operation, the draining operation is canceled by attaching the apparatus main body 30 and can be returned to the normal use state.
[0070]
(Description of operation)
55 is a block diagram of the water channel system, FIG. 56 is a time chart when the buttocks 1 cleaning switch is operated, FIG. 57 is a flowchart of the pre-cleaning mode, and FIG. 58 is a flowchart of the trunk cleaning mode 1. FIG. 67 shows a modification of the time chart.
When the user sits on the toilet seat 20, the human body detection sensor 165 detects the seating. This detection signal makes a transition from the standby mode to the wastewater mode. In the waste water mode, energization of the electromagnetic valve 66 and the ceramic heater 71 is started, and the flow control subunit 92 is shifted to the position where both the bypass port 92h and the outflow port 92i are in the open state. Water is discharged from all of the buttocks 2 ejection hole 113e, the bidet ejection hole 113f, and the cleaning port 122 to clean the nozzle head 113. When a predetermined time (15 seconds in this embodiment) elapses from sitting or a predetermined temperature (30 ° C. in this embodiment) is detected by the limit thermistor 68, the energization to the solenoid valve 66 and the ceramic heater 71 is stopped, and the water discharge mode is set. Ends and shifts to thermal insulation mode. In the heat retention mode, only about 20 to 100 W of the watt capacity 1200 W of the ceramic heater 71 is used. This is because, in the case of the hot water storage type, a structure that facilitates natural convection is adopted, but since the heat exchange unit 70 of the present invention is an instantaneous type, it is a structure in which natural convection is unlikely to occur, so there is no water flow. If full power supply of 1200 W is performed, nucleate boiling (heated only at a specific location) will occur, and heat accumulation will occur, and hunting (hot water and cold water will be discharged unsteadily at indefinite cycles) This is because there is a possibility of causing a state to be performed. In addition, since the amount of hot water storage is very small (about 10 to 20 cc in this embodiment), the hot water in the heat exchange unit 70 is not cooled even if it is low wattage.
[0071]
When the buttocks 1 cleaning switch 181 is pressed, the mode shifts from the heat retaining mode to the pre-cleaning mode. In the pre-cleaning mode, the flow path of the flow path switching unit 100 is switched to the buttocks 1 flow path 107a. When this switching operation is completed, the flow control subunit 92 is shifted to the bypass hole 92n side, and at the same time, the electromagnetic valve 66 and ceramic The energization of the heater 71 is started, and the nozzle head 113 is cleaned from the cleaning port 122. The tapping temperature detected by the limit thermistor 68 continues within a predetermined temperature (30 ° C. to set temperature + 2.5 ° C. in this embodiment) for a predetermined time (1.5 seconds in this embodiment) or for a predetermined time (this embodiment) In the example, after 5 seconds), the pre-cleaning mode shifts to the nozzle body cleaning mode 1. In the nozzle body cleaning mode 1, energization of the nozzle motor 124 is started, and the nozzle body 111 is moved to a predetermined position. At that time, since the hot water remains discharged from the bypass port 92h, the body portion of the nozzle body 111 can be cleaned. When the movement of the nozzle main body 111 to the predetermined position is completed, the nozzle body cleaning mode 1 is shifted to the soft start mode. In the soft start mode, the flow adjustment subunit 92 is switched from the bypass hole 92n to the flow adjustment groove 92p. The pulsation subunit 94 is driven in accordance with the timing at which the rotor 92d of the flow adjustment subunit 92 moves to a position three steps lower than the set flow rate, and the butt cleaning is started. When the movement of the rotor 92d to the set flow rate is completed, the mode shifts from the soft start mode to the main cleaning mode. The reason why the pulsating subunit 94 is operated several steps before the set flow rate is that air is contained in the washing water flow path at the start of cleaning, and therefore a loud sound is generated when the pulsating subunit 94 is operated. Therefore, the sound is suppressed and pulsation is generated at a flow rate smaller than the set flow rate. When the set flow rate is small and the pulsation subunit 94 cannot be operated from three steps before, the pulsation subunit 94 is operated after reaching the set flow rate.
In this cleaning mode, the set flow rate is cleaned.
[0072]
When the stop switch 184 is pressed, the nozzle body part cleaning mode 2 is shifted from the main cleaning mode. In the nozzle body cleaning 2, the flow control subunit 92 is switched from the flow control groove 92p to the bypass hole 92n, and when the transition to the bypass hole 92n is completed, the nozzle motor 124 is energized and the nozzle main body 111 is stored in the apparatus main body 30. At the same time, the flow path switching unit 100 is shifted to a position where all of the flow paths 117a, 117b, and 117c are opened. At this time, since the hot water remains from the bypass hole 92n, the body portion of the nozzle body 111 is washed. When the storage of the nozzle body 111 is completed, the mode shifts from the nozzle body cleaning mode to the post-cleaning mode. In the post-cleaning mode, the flow control subunit 92 is switched from the bypass hole 92n to the flow control groove 92p, and the pulsation subunit 94 is driven to eject hot water from the ejection holes 113d, 113e, 113f, and the nozzle The head 113 is cleaned. After a predetermined time (3 seconds in this embodiment) has elapsed, the energization of the solenoid valve 66 and the heater 71 is stopped, and the post-cleaning mode is shifted to the water draining / warming mode. In the water draining / warming mode, first, the vacuum breaker 83 is activated to discharge the accumulated water in the flow path from the vacuum breaker 83 to the flow control subunit 92. Then, the staying water temperature near the vacuum breaker 97 is lowered, the urging force of the temperature-sensitive spring 97b is weakened, the vacuum breaker 97 is operated, and the staying water from the flow control subunit 92 to the nozzle unit 110 is discharged. In the local cleaning apparatus of the present invention, the pulsation unit 94 and the like are made of a resin material that is easy to cool, so that water is drained shortly after cleaning. When the user finishes the use and leaves, the flow adjustment subunit 92 shifts to a position where only the bypass flow path, which is the initial position, is opened. During this time, the heat exchange unit 70 is controlled in the above-described heat retention mode.
[0073]
The accumulated water is discharged when the vacuum breaker valve body 97a that has blocked the air inflow passage 97d when the water pressure is present (during dynamic pressure) becomes static pressure after the cleaning is completed. This is an operation using a so-called water pressure difference in the pipe, which is performed by introducing the pipe into the pipe. Instead, the temperature-sensitive spring is operated according to the temperature of the washing water, and when the washing water is equal to or higher than the predetermined temperature, the valve body 97a is closed and the washing water is not discharged, so that the washing water becomes low temperature. It is also possible to use a water draining mechanism based only on the water temperature, in which the valve body 97a is opened, the atmosphere is introduced from the air inflow passage 97d, and the accumulated water is discharged. However, since the response speed is slower when the temperature changes than when the washing water pressure is changed, it is not a good idea, and it is more effective to combine the vacuum breaker 97 and the operation limiting means based on the water temperature.
[0074]
When the hip 2 switch 182 and the bidet switch 183 are operated, the control is performed by replacing the hip 1 flow path 107a described above with the hip 2 flow path 107b and the bidet flow path 107c.
[0075]
FIG. 59 shows a conceptual diagram of control of the heat exchange unit 70 in each mode during sitting. In the wastewater mode, feed-forward control (hereinafter referred to as FF1) by the incoming water temperature thermistor 68 is performed. In order to perform this FF1 in as short a time as possible, excessive energization with a target temperature of 60 ° C. is performed. The energization amount calculation formula at this time is
W (FF1) = α1 × (60−Thc)
(W: input wattage, α1: gain, Thc: detection temperature of incoming water temperature thermistor 68)
It is.
In addition, if 40 degreeC is detected by the hot water temperature detection thermistor 77, it will transfer to a heat retention mode from a waste water mode. In the heat retention mode, feedback control (hereinafter referred to as FB1) by the hot water temperature detection thermistor 77 is performed. In FB1, excessive feedback control is performed with the maximum value of the heater energization amount being 20 W and the target temperature being 60 ° C. When the butt 1 cleaning switch 181 (or the butt 2 cleaning switch 182 or the bidet cleaning switch 183) is operated during the heat retention mode, the mode shifts from the heat retention mode to the pre-cleaning mode to the post-cleaning mode. In the pre-cleaning mode to the post-cleaning mode, initial feedforward control (hereinafter referred to as FF2) is performed. In this FF2, excessive energization with the target temperature set to (set temperature + 20 ° C.) is performed. The energization amount calculation formula at this time is
W (FF2) = α2 × (Tt + 20−Thc)
(W: input wattage, α2: gain, Tt: set temperature, Thc: detection temperature of incoming water temperature thermistor 68)
It is.
[0076]
When the limit thermistor 82 detects (set temperature −5 ° C.), it shifts to feedback control (hereinafter referred to as FB2) + feedforward control (hereinafter referred to as FF3). This FB2 is Fordback control by the hot water temperature detection thermistor 77 with target temperature = set temperature, and FF3 is feedforward control with the target temperature set as the set temperature. The energization amount calculation formula at this time is
W (FB2 + FF3) = α3 × (Tt−Thc) + GP (Tt−Thh) + GI (Tt−Thh) + WI ′ + GD (Thh′−Thh)
(W: input wattage, α3: gain, Tt: set temperature, Thc: detection temperature of incoming water temperature thermistor 68, Thh: detection temperature of hot water temperature detection thermistor 77, GP: proportional gain, GI: integral gain, GD: differential gain , WI ': previous integral input wattage, Thh': detection value of the previous hot water temperature detection thermistor 77)
It is.
When the limit thermistor 82 detects (set temperature −2.5 ° C.), the FB 2 performs Ford back control (hereinafter referred to as FB 3) with the gain changed. The energization amount calculation formula at this time is
W (FB3 + FF3) = α3 × (Tt−Thc) + GP (Tt−Thh) + (GI ′ (Tt−Thh) + WI ′) + GD ′ (Thh′−Thh)
(W: input wattage, α3: gain, Tt: set temperature, Thc: detection temperature of the incoming water temperature thermistor 68, Thh: detection temperature of the hot water temperature detection thermistor 77, GP: proportional gain, GI ′: integral gain (GI ′> GI), GD ': differential gain (GD' <GD), WI ': previous integral input wattage, Thh': detection value of the previous hot water temperature detection thermistor 77)
It is.
If the limit thermistor 82 detects the set temperature to (set temperature + 1.5 ° C.), the energization amount up to the previous time is maintained. Further, when the limit thermistor 82 detects (set temperature + 1.5 ° C.) or more, the control is performed with FB2 + FF3.
[0077]
To organize the above
(Set temperature -5 ° C) ... FF2
From (set temperature -5 ° C) to (set temperature -2.5 ° C) ... FF3 + FB2
From (set temperature -1.5 ° C) to set temperature ... FF3 + FB3
From set temperature (set temperature + 1.5 ° C) ··············· maintain the previous energization
From (set temperature + 1.5 ° C) to (set temperature + 2.5 ° C) ... FF3 + FB3
(Set temperature + 2.5 ° C) or more ... FF3 + FB2
The reason why the control equation is changed according to the detected temperature of the limit thermistor 82 is to suppress the overshoot because the local portion is a very sensitive portion and reacts sensitively to the overshoot. Further, the portion where the limit thermistor 82 is disposed can detect a stable temperature after being stirred.
[0078]
In the modification of the time chart shown in FIG. 67, as compared with the term chart of FIG. 56, when the seating is detected, the waste water used last time is jetted from the buttocks 1 flow path 107a, and the buttocks 1 washing switch 181 is used. When is pushed, the point that the pre-cleaning operation of the nozzle is performed by injection from the bypass port 92h is greatly different.
[0079]
FIG. 60 shows experimental data when water breakage occurred during use using the local cleaning apparatus of the present invention which performed the above control.
From this data, it can be seen that in the water breakage, the temperature is over the set temperature at about 1/3 of the input heat amount that is originally required. If energization is continued as it is, the heat exchange unit 70 may be burned out. Therefore, if the state of about 1/3 of the originally required heat input continues for 5 seconds or more, it is determined that the water is shut off. To stop the control.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an overall configuration of a local washing apparatus according to an embodiment of the present invention with a toilet seat 20 and a toilet lid 10 removed.
FIG. 2 is a perspective view showing the overall configuration of the local cleaning apparatus according to the embodiment of the present invention with the toilet lid 10 open.
FIG. 3 is a perspective view showing the overall configuration of the local cleaning device according to the embodiment of the present invention when the toilet lid 10 and the toilet seat 20 are lying down.
FIG. 4 is a plan view of a local cleaning apparatus according to an embodiment of the present invention.
FIG. 5 is a schematic front view of a local cleaning apparatus according to an embodiment of the present invention.
FIG. 6 is a schematic left side view of a local cleaning apparatus according to an embodiment of the present invention.
FIG. 7 is a schematic right side view of a local cleaning apparatus according to an embodiment of the present invention.
FIG. 8 is a schematic rear view of a local cleaning apparatus according to an embodiment of the present invention.
FIG. 9 is a right side view of the apparatus body with the toilet lid and toilet seat removed from the local cleaning apparatus according to the embodiment of the present invention.
FIG. 10 is an exploded perspective view of the apparatus main body 30 (interior equipment omitted) of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 11 is an exploded perspective view of the apparatus main body 30 (interior equipment omitted) of the local cleaning apparatus according to the embodiment of the present invention.
12 is a schematic cross-sectional view showing the connecting structure of the toilet lid 10 and the toilet seat 20 with respect to the apparatus main body 30 of the local cleaning apparatus according to the embodiment of the present invention.
13 is a perspective view showing a connection structure of the hinge block 40, the support cover 41, and the engagement protrusion 32 provided on the apparatus main body 30 of the local cleaning apparatus according to the embodiment of the present invention. FIG.
14 is a cross-sectional view showing a state in which the hinge block 40 and the support cover 41 of the local cleaning device according to the embodiment of the present invention are connected to the engagement protrusion 32 of the device body 30. FIG.
15 is a cross-sectional view showing a state in which the hinge block 40, the support cover 41, and the apparatus main body 30 are connected to each other in the local cleaning apparatus according to the embodiment of the present invention.
FIG. 16A is a perspective view of the apparatus main body 30 with the upper case 31 removed;
(B) The perspective view which removed control units 160 and 170
FIG. 17 is an exploded perspective view in which each unit of the local cleaning apparatus according to the embodiment of the present invention is removed.
FIG. 18 is an exploded perspective view of the valve unit 60 of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 19 is a partial sectional view of the valve unit 60 of the local cleaning device according to the embodiment of the present invention.
FIG. 20 is a perspective view of the local cleaning apparatus according to the embodiment of the present invention with the valve unit 60 assembled.
FIG. 21 is a perspective view of the local cleaning apparatus according to the embodiment of the present invention with the valve unit 60 assembled.
22 is a perspective view of a state before the valve unit 60 of the local cleaning device according to the embodiment of the present invention is installed in the lower case 35. FIG.
23 is a perspective view of a state before the valve unit 60 of the local cleaning device according to the embodiment of the present invention is installed in the lower case 35. FIG.
24 is a perspective view of the local cleaning apparatus according to the embodiment of the present invention with the valve unit 60 installed in the lower case 35. FIG.
25 is a perspective view of the local cleaning apparatus according to the embodiment of the present invention with the valve unit 60 installed in the lower case 35. FIG.
FIG. 26 is an exploded perspective view of the heat exchange unit 70 of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 27 is a sectional view of the heat exchange unit 70 of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 28 is a perspective view of the local cleaning apparatus according to the embodiment of the present invention when installed in the lower case 35 of the heat exchange unit 70.
FIG. 29 is a plan view of the heat exchange unit 70 of the local cleaning apparatus according to the embodiment of the present invention.
30 is an exploded perspective view of the flow and pulsation unit 90 of the local cleaning device according to the embodiment of the present invention. FIG.
FIG. 31 is a plan view of the flow control and pulsation unit 90 of the local cleaning device according to the embodiment of the present invention.
FIG. 32A is an enlarged sectional view of the pulsation unit 90 of the flow adjustment of the local cleaning device according to the embodiment of the present invention,
(B) Plan view of stator and rotor of flow adjustment and pulsation unit 90
FIG. 33 is a view showing the state of superposition of the notch groove 92m and the flow adjustment groove 92p at each rotational position of the flow adjustment subunit 82 of the flow adjustment / pulsation unit 90 according to the embodiment of the present invention ((a) 0 degree, (b ) 60 degrees, (c) 120 degrees, (d) 180 degrees, (e) 240 degrees, (f) 300 degrees)
FIG. 34 shows a polymerization area of the notch groove 92m and the flow adjustment groove 92p at the rotation angle of the flow adjustment subunit 82 of the flow adjustment / pulsation unit 90 according to the embodiment of the present invention.
35 is a cross-sectional view of the pulsation subunit 94 of the flow and pulsation unit 90 according to an embodiment of the present invention. FIG.
FIG. 36 is a perspective view for explaining the flow adjustment of the local cleaning device according to the embodiment of the present invention and the attachment of the pulsation unit 90;
FIG. 37 is an exploded perspective view of the nozzle unit 110 of the local cleaning device according to the embodiment of the present invention.
FIG. 38 is an exploded perspective view of the flow path switching unit 100 of the nozzle unit 110 according to the embodiment of the present invention.
FIG. 39 is a sectional view of the flow path switching unit 100 of the nozzle unit 110 according to the embodiment of the present invention.
40 is a cross-sectional view of the nozzle body 111 of the nozzle unit 110 according to the embodiment of the present invention. FIG.
41 is a sectional view of the nozzle head 113 of the nozzle unit 110 according to the embodiment of the present invention. FIG.
FIG. 42 is an explanatory diagram of mounting of the nozzle unit of the nozzle unit 110 according to the embodiment of the present invention.
43 is an exploded perspective view of the drying and deodorizing unit 130 of the local cleaning apparatus according to the embodiment of the present invention. FIG.
44 is an enlarged view of the drying flow path forming upper body 131 of FIG. 43. FIG.
45 is an enlarged view of the drying flow path forming lower body 132 of FIG. 43. FIG.
46 is an enlarged view of the deodorizing flow path forming lower body 142 of FIG. 43. FIG.
47 is a perspective view of the local cleaning apparatus according to the embodiment of the present invention in the assembled state of the drying and deodorizing unit 130. FIG.
FIG. 48 (a) is a rear view of the drying and deodorizing unit 130 of the local cleaning device according to the embodiment of the present invention;
(B) Front view of drying and deodorizing unit 130 of the local cleaning device according to the embodiment of the present invention,
(C) Plan view of the drying and deodorizing unit 130 of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 49 is a plan view in which a part of the drying and deodorizing unit 130 is cut away in the local cleaning apparatus according to the embodiment of the present invention.
FIG. 50 is a side view and a perspective view of a drying heater of the drying and deodorizing unit 130 according to the embodiment of the present invention.
FIG. 51 is an enlarged perspective view of the auxiliary operation unit 150 of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 52 is a front view of the remote controller 180 of the local cleaning apparatus according to the embodiment of the present invention.
52 is a view showing a modification of the remote control of FIG. 52, (a) a plan view, (b) a right side view of the lid closed state, (c) a front view of the lid closed state, and (d) a lid open state. Front view
54 is a cross-sectional view showing a switch malfunction prevention unit of the remote control of FIG.
FIG. 55 is a block diagram of a water channel system of a local cleaning apparatus according to an embodiment of the present invention.
FIG. 56 is a waterway system time chart of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 57 is a flowchart of a pre-cleaning mode of the local cleaning device according to the embodiment of the present invention.
FIG. 58 is a flowchart of the trunk cleaning mode 1 of the local cleaning apparatus according to the embodiment of the present invention.
FIG. 59 is a conceptual diagram of control in each mode of the heat exchange unit 70 according to the embodiment of the present invention.
FIG. 60 shows experimental data at the time of water outage of the local cleaning device according to the example of the present invention.
FIG. 61 is an enlarged view of a main part for explaining a vacuum breaker 97 used in the present invention.
FIG. 62 is a characteristic diagram of a temperature-sensitive spring used in the present invention.
FIG. 63 is a human body detection sensor 165 according to an embodiment of the present invention and a mounting explanatory diagram.
FIG. 64 is a schematic top view of the second control unit 170 according to an embodiment of the present invention.
65A is a schematic rear view of an optional equipment outlet 195 according to an embodiment of the present invention, and FIG. 65B is a schematic exploded perspective view of an optional equipment outlet 195 according to an embodiment of the present invention.
66 is an explanatory diagram of a body attachment / detachment detection mechanism and a drainage mechanism according to an embodiment of the present invention. FIG.
67 is a modification of the channel time chart of the local cleaning apparatus according to the embodiment of the present invention (modification of FIG. 56).
68A and 68B are diagrams showing a state of vertical movement of the water supply connection part according to the embodiment of the present invention, in which FIG. 68A is a perspective view of the water supply connection part facing downward, and FIG. Perspective view with the side facing
[Explanation of symbols]
30 ... Cleaning device body (case)
31 ... Upper case
35… Lower case
35d ... Projection
35f ... Notch
62 ... Water supply connection
63… Drain plug (maintenance member)

Claims (6)

In the local cleaning device comprising a case attached to the rear part of the toilet bowl, and an accompanying device such as a heat exchanger in the case,
The side rising wall on at least one side of the case is an inclined surface inclined to the bottom surface side,
A water supply connecting portion formed in a substantially L-shape that is connected to a water supply pipe at a corner portion formed of the inclined surface is disposed with an end portion to which the water supply pipe is connected facing downward, while a toilet bowl width is In the case of being large , the local cleaning apparatus is characterized in that the end portion is rotatably arranged so as to project toward the side of the case . The local cleaning apparatus according to claim 1 , wherein a protruding portion that protrudes laterally from the inclined surface is provided, and the water supply connection portion is covered by the protruding portion. The local cleaning apparatus according to claim 2 , wherein a notch is provided in the projecting portion. 4. The local cleaning apparatus according to claim 3 , wherein a maintenance member is provided on the projecting portion. 5. The local cleaning apparatus according to claim 4 , wherein the maintenance member is a drain plug. 6. The local cleaning apparatus according to claim 1, wherein a power cord for supplying power is provided on the inclined surface .

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