JP2011153463A - Toilet apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a toilet apparatus which illuminates a remote control satisfactorily from a toilet apparatus body, regardless of the installed position of the remote control. <P>SOLUTION: When a human body approaches a Western-style toilet bowl 10, a light receiving element (a human body detecting sensor) 60 of a toilet seat box 12 detects the human body, causing an LED 21 to emit light. When a cover body 31 of the remote control 30 is opened, irradiation direction adjusting switches 32a-32d are turned into an operable state. These irradiation direction adjusting switches 32a-32d are operated to adjust the irradiation direction of the LED 21 so that the LED 21 irradiates the remote control 30, to complete initial setting. The remote control 30 can be illuminated satisfactorily, by adjusting the irradiation direction of the LED 21. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a toilet device having a toilet device body provided in a toilet and a remote controller for operating the toilet device body, and in particular, the toilet device body includes light irradiation means for illuminating the remote controller. It relates to toilet equipment.

  Toilet equipment that can be operated by operating a remote controller installed on the wall surface in the toilet room is widely used.

  When operating the remote control of such toilet equipment, the operator's hand, head, shelves in the toilet room, doors, etc. may block room lighting, and the remote control may be difficult to see due to these shadows. In addition, there is a case where the user wants to use the toilet without turning on the main lighting of the toilet room so that the user does not wake up at night.

  Japanese Patent Application Laid-Open No. 9-111842 describes that the switch piece of each switch of the remote control is made transparent, and the LED installed on the back side of the switch piece is caused to emit light, thereby improving the visibility of the switch.

  Further, paragraph 0045 of Japanese Patent Application Laid-Open No. 2008-175060 describes that the remote control is illuminated by remote control illumination installed in the toilet equipment body.

JP-A-9-111842 JP 2008-175060 A

  When the LED provided on the back side of each switch of the remote control is caused to emit light as in Patent Document 1, there is a problem that the power consumption of the remote control is increased and the battery life of the remote control is shortened.

  Further, when the remote control is illuminated by the remote control illumination installed in the toilet device body as in Patent Document 2, it is necessary to install the remote control on an extension line in the irradiation direction of the remote control illumination. receive. Further, depending on the toilet room, there is a case where a remote controller has to be installed at a location off the extension line. In this case, the remote controller cannot be sufficiently illuminated.

  An object of the present invention is to solve the above-mentioned problems and to provide a toilet device capable of satisfactorily illuminating the remote control from the toilet device body regardless of the installation position of the remote control.

  A toilet device according to the present invention (Claim 1) is a toilet device having a toilet device body provided in a toilet and a remote controller for operating the toilet device body, and the toilet device body illuminates the remote controller. In the toilet apparatus provided with the light irradiation means for the light irradiation means, the light irradiation means can change the irradiation direction.

  The toilet device according to claim 2 is characterized in that, in claim 1, the light irradiation means is capable of manually changing the irradiation direction.

  A toilet device according to a third aspect of the present invention is the toilet device according to the first or second aspect, further comprising irradiation direction adjusting means for changing the irradiation direction of the light irradiation means.

  The toilet device according to claim 4 is characterized in that, in claim 3, the irradiation direction adjusting means can be operated by operating the remote controller and / or the operation unit of the toilet device body. is there.

  The toilet device according to claim 5 is the toilet device according to claim 3 or 4, wherein the remote controller has means for transmitting a position information signal, and the toilet device body receives the position information signal and receives the position of the remote controller. Remote control position detecting means for detecting the irradiation direction, and the irradiation direction adjusting means adjusts the irradiation direction based on the position information signal so that the irradiation position of the light irradiation means coincides with the detection position of the remote control. It has an automatic adjustment function to adjust.

  The toilet device according to claim 6 is the toilet device body according to claim 5, wherein the toilet device body includes a human body detection unit that detects a human body approaching the toilet device body, and a human body detection signal transmission unit that transmits a human body detection signal to the remote controller. The remote control has a human body detection signal receiving means, and the position information signal transmitting means transmits the position information signal when the human body detection signal receiving means receives the human body detection signal. It is characterized by being possible.

  The toilet device according to claim 7 is the toilet device according to any one of claims 1 to 6, wherein the remote controller detects light from the standby state when the light detector detects light. Control means capable of switching to a communicable state.

  The toilet device according to claim 8 is the toilet device according to claim 7, wherein the light irradiating means can irradiate the specific modulated light, and the control means detects the specific modulated light. The remote controller can be switched from the standby state to the communicable state when the communication is performed.

  The toilet device according to claim 9 is characterized in that, in claim 7 or 8, the remote control has a solar cell, and the solar cell also serves as the light detection means.

  In the toilet device of the present invention (Claim 1), the light irradiation means installed in the toilet device body can change the irradiation direction. For this reason, even if the remote control is installed at an arbitrary location on the wall surface of the toilet room, the irradiation direction of the light irradiation means can be changed to irradiate the remote control reliably and efficiently, and power saving can be achieved.

  This light irradiation means may be capable of manually changing the irradiation direction (claim 2). Further, the light irradiation means may be capable of changing the irradiation direction by an irradiation direction adjusting means such as an electric motor (Claim 3). In this case, the irradiation direction adjusting means is operated by the remote controller and / or the toilet equipment body. It is preferable that the vehicle can be steered by operating the unit (claim 4).

  6. The toilet device according to claim 5, wherein the irradiation direction adjusting means adjusts the irradiation position so that the irradiation position of the light irradiation means coincides with the detection position of the remote control based on the position information signal from the remote control. It has a function. Thereby, the illumination position is automatically adjusted by operating the automatic adjustment function at the time of initial setting or the like, so that the user is not required to adjust the irradiation position.

  In the toilet device according to claim 6, when the human body is detected, the irradiation direction adjusting means automatically adjusts the irradiation position of the light irradiation means. This eliminates the user's trouble of operating the automatic adjustment function at the time of initial setting or the like.

  In the toilet device according to claim 7, the remote controller detects the light, and the control unit can switch the remote controller from the standby state to the communicable state when the light detector detects the light. Have Thereby, when the light irradiation means of the toilet equipment body irradiates the remote controller, the remote controller can be used. Further, when the light irradiation means does not irradiate the remote control, the remote control enters a standby state, and power saving is achieved.

  In the toilet device according to claim 8, the light irradiation means can emit specific modulated light (digital modulated light such as pulse modulated light, analog modulated light such as amplitude modulated light, etc.), The control means can switch the remote control from the standby state to the communicable state when the light detection means detects the specific modulated light. This makes it possible to maintain the remote control in a standby state even in an environment where natural light from a toilet room window or illumination in the toilet room is irradiated to the remote control, thereby saving power. Further, when specific modulated light is irradiated from the light irradiation means of the toilet device toward the remote controller, the remote controller becomes communicable, so that the remote controller can be used reliably.

  As in claim 9, the remote control has a solar cell, and when the solar cell also serves as a light detection means, the number of parts can be reduced.

It is a perspective view in the toilet room where the Western-style toilet bowl which has the toilet equipment which concerns on embodiment was installed. It is the perspective view which looked at the western style toilet bowl of FIG. 1 from the other side. It is a top view of the western style toilet bowl of FIG. It is a block diagram of the toilet apparatus of FIG. It is a perspective view of the western style toilet bowl which has the toilet equipment main body of the toilet equipment which concerns on another embodiment. It is a block diagram of the toilet equipment of FIG. It is a block diagram of different toilet equipment. It is sectional drawing which shows an example of a contact-type remote control. It is a block diagram which shows an example of a non-contact-type remote control. It is a perspective view in the toilet room where the Western style toilet bowl which has the toilet equipment which concerns on another embodiment was installed. (A) is a top view of the toilet seat box of FIG. 10, (b) is a longitudinal cross-sectional view of the toilet seat box of FIG.

  Hereinafter, embodiments will be described with reference to the drawings.

<First Embodiment>
FIG. 1 is a perspective view of a toilet room in which a Western-style toilet having the toilet device according to the embodiment is installed, FIG. 2 is a perspective view of the Western-style toilet viewed from the opposite side, and FIG. A plan view and FIG. 4 are block diagrams of the toilet equipment.

  As shown in FIG. 1, a toilet seat box 12 as a toilet device body is installed on the upper surface of the rear part of the Western-style toilet 10, and a toilet seat 14 and a toilet lid 16 are pivotally supported by the toilet seat box 12 so as to be freely tilted. A manual flush handle 18 is provided on the right side surface of this toilet seat box 12 (the right side surface for a toilet seat occupant; the same applies hereinafter). Further, on the upper left corner of the toilet seat box 12, a sensor arrangement portion 12a made of an infrared transmitting material and a light irradiation portion 20 made of a visible light transmitting material are provided.

  The electric circuit in the toilet seat box 12 is supplied with power from a commercial power supply (AC 100 V) via a cord and a plug (not shown).

  This western style toilet 10 can supply tap water via a hose and a stop cock (not shown).

  A remote control mounting bracket (not shown) is attached to the left wall surface of the toilet room, and the remote control 30 is detachably hooked on the remote control mounting bracket.

  In this embodiment, the remote controller 30 has a rectangular thin box shape. A lid 31 is provided in the lower half of the front surface of the remote controller 30, and the lower part of the side surface of the lid body 31 is rotatably attached to the lower part of the side surface of the remote controller via a hinge. The lid 31 has a shower switch 30a and a bidet switch 30b for cleaning the buttock, a drying switch 30c for blowing warm air, a cleaning strength adjustment dial 30d for adjusting the cleaning strength, and a stop for stopping the cleaning and drying. A switch 30s is provided. Further, a light detection means 37 for detecting light is provided above the switch 30 c of the lid 31 of the remote controller 30. In the lower half of the front surface of the main body of the remote controller 30 covered with the lid 31, irradiation direction adjustment switches 32a to 32d for operating the irradiation direction adjustment means 22 of the LED 21, which will be described later, are provided. A solar cell 30 g is provided in the upper half of the front surface of the remote controller 30. The electric power generated by the solar cell 30g can be stored by a capacitor (not shown) provided in the remote controller 30. On the upper surface of the remote controller 30, there are provided a large flash switch 30e for supplying a large amount (for example, about 6 L) of washing water to the Western-style toilet 10, and a small boy flash switch 30f for supplying a small amount (for example, 5 L) of cleaning water. ing.

  A transmitting element 36 that transmits a signal toward a light receiving element 60 (described later) in the toilet seat box 12 is provided on the front upper portion of the remote controller 30.

  A light receiving element 60 (FIG. 4) for receiving infrared signal light from the transmitting element 36 of the remote controller 30 is provided inside the sensor arrangement portion 12a of the toilet seat box 12, and a reception signal obtained from the light receiving element 60 is provided. Is input to the control circuit 54 (FIG. 4). The light receiving element 60 also functions as a human body detection sensor that receives infrared rays emitted from a human body approaching the western-style toilet 10, and detects the human body.

  Further, inside the light irradiation unit 20 of the toilet seat box 12, an LED 21 as a light irradiation means for illuminating the remote controller 30, a first motor for rotating the irradiation direction of the LED 21 in the vertical direction, and a rotation in the horizontal direction. Irradiation direction adjusting means 22 comprising a second motor to be moved is provided (FIG. 4). When the irradiation direction adjustment switches 32a and 32b of the remote controller 30 are operated, the first motor is operated, and the irradiation direction of the LED 21 moves upward and downward (α direction in FIG. 3). When the irradiation direction adjustment switches 32c and 32d are operated, the second motor is operated, and the irradiation direction of the LED 21 is moved to the left and right (the θ direction in FIG. 3). The light emitted from the LED 21 has directivity by a lens or the like.

  As shown in FIG. 4, each device whose operation is controlled by the control circuit 54 is installed in the toilet seat box 12. Each device is configured to operate as follows by the switches 30 a to 30 f and 30 s of the remote controller 30.

  When the shower switch 30a is pressed, the valve 50 is opened, the shower nozzle 38A provided in the toilet seat box 12 moves forward, hot water is jetted from the tip, and shower washing (anal washing) of the user's buttocks is performed. When the bidet switch 30b is pressed, the valve 52 is opened, and the bidet nozzle 38B provided in the main body of the toilet seat box 12 is similarly operated, and warm water is ejected from the tip of the bidet nozzle 38B. Is done. In this cleaning, water from the pipe 40 in the toilet seat box connected to the hose and the stop cock is heated by the heater 44 in the hot water tank 42, and then the shower nozzle 38A or the bidet nozzle 38B through the pipe 46 or 48. Sent to. In addition, the opening degree of the valves 50 and 52 is controlled by turning the cleaning strength adjustment dial 30d, and the cleaning strength (warm water ejection amount) is adjusted.

  When the drying switch 30c is pressed, the warm air fan composed of the blower 56 and the air heater 58 in the toilet seat box 12 is operated, and the warm air is blown to the human body to dry.

  When the stop switch 30s is pressed, the operation of the shower nozzle, the bidet nozzle or the hot air fan is stopped. By operating the flash switch 30e (large) or 30f (small), the valve 74 or the valves 74 and 76 are opened, water is supplied into the toilet bowl of the Western-style toilet 10, and the filth is discharged. These valves 74 and 76 are provided in pipes 70 and 72 that receive water from the hose and the stop cock. The pipe 70 supplies water to the rim of the toilet bowl, and the pipe 72 supplies water to the trap section (jet hole section) of the toilet bowl.

  When the large flush switch 30e is pressed, the valve 74 is first opened for a predetermined time, the bowl surface is washed by the rim water supply, and then the valve 76 is opened for a predetermined time, generating siphon in the trap portion to remove dirt. Discharge. In this case, a total of about 6 L of water is supplied.

  When the small flush switch 30f is pressed, only the valve 74 is opened for the required time, and the bowl surface is washed with about 2 L of water and the trap water is replaced. However, as a matter of course, the operation of the valves 74 and 76 when the flash switches 30e and 30f are pressed is not limited to the above case. For example, when either of these flash switches 30e and 30f is pressed, the valve 74 is first opened for a predetermined time, the valve 76 is then opened for a predetermined time, and then the valve 74 is opened again for a predetermined time. The valve opening time (predetermined time) of these valves 74 and 76 may be made different between the flash switch 30e and the flash switch 30f.

[Initial setting]
After the toilet device configured as described above is installed in the toilet room, the following initial setting is performed.

  When there is no person in the toilet room, the remote controller 30 is in a standby mode. In this standby mode, the switches 30a-30f, 30s, 32a-32d are inoperable, and the transmitting element 36 is incapable of transmitting signals. However, in this standby mode, the light detection means 37 can detect light, and can store the electric power generated by the solar cell 30g in a capacitor (not shown) inside the remote control.

  When the human body approaches the Western-style toilet 10, the light receiving element (human body detection sensor) 60 of the toilet seat box 12 detects the human body, and the LED 21 emits light. Here, when the lid 31 of the remote controller 30 is opened, the irradiation direction adjustment switches 32a to 32d are further operable in the standby mode. The irradiation direction adjustment switches 32 a to 32 d are operated to adjust the irradiation direction of the LED 21 so that the LED 21 irradiates the remote controller 30. Thereby, the remote control 30 is favorably illuminated by the LED 21. In this way, the initial setting is completed.

[When using the toilet]
When using the toilet device initially set as described above, the toilet device operates as follows.

  When the light receiving element (human body detection sensor) 60 does not detect a human body, the remote controller 30 is in a standby mode. As described above, in this standby mode, the light detection means 37 can detect the light from the LED 21, but the switches 30a to 30f, 30s and 32a to 32d are inoperable, and the transmitting element 36 is The signal cannot be transmitted. Thereby, the power consumption of the remote controller 30 can be suppressed.

  When the user approaches the Western-style toilet 10 in this standby mode, the light receiving element (human body detection sensor) 60 detects the human body, the LED 21 emits light, and the remote controller 30 is spot-lit. As a result, the light detection sensor 37 of the remote controller 30 detects light having a predetermined intensity or more, and the remote controller 30 is switched to the remote control operable mode. In the remote control operable mode, the switches 30a to 30f and 30s can be further operated in the standby mode, and the transmitting element 36 can transmit a signal.

  In this remote control operable mode, when the user operates each of the switches 30a to 30f and 30s of the remote control 30, each device of the toilet device operates as described above.

  When the user leaves the toilet room and the light receiving element (human body detection sensor) 60 detects no human body, the LED 21 is turned off. As a result, the light detection sensor 37 of the remote controller 30 does not detect light of a predetermined intensity or higher, and the remote controller 30 returns to the standby mode.

  According to the present embodiment, the remote controller 30 can be favorably illuminated by adjusting the irradiation direction of the LED 21. In addition, the remote controller 30 is in a remote control operable mode, so that the remote controller can be operated reliably.

  Further, when the LED 21 does not illuminate the remote controller 30, the remote controller 30 is in a standby mode, so that power saving can be achieved.

  In the present embodiment, when the light detection means 37 of the remote controller 30 exceeds a predetermined intensity, the standby mode is changed to the remote control operable mode. For this reason, by setting this predetermined intensity to a value greater than the intensity of sunlight from the toilet room window or light from the toilet room lighting, it is possible to prevent malfunctions resulting in remote control operation mode due to these lights, thereby saving power. Is achieved. As a matter of course, the predetermined intensity is set to a value smaller than the intensity of light emitted from the LED 21.

  In this embodiment, the irradiation direction of the LED 21 is adjusted by the irradiation direction adjusting means 22 composed of two motors, but instead of or together with this, the irradiation direction of the LED 21 can be directly adjusted by hand. May be. For example, in FIGS. 1 and 2, the light irradiation unit 20 made of a visible light transmitting material is detachable from the toilet seat box 12 or can be opened and closed. When adjusting the irradiation direction of LED21, this light irradiation part 20 is removed or opened, LED21 is moved by hand, and the irradiation direction is adjusted. When the irradiation direction adjusting means 22 is omitted, the irradiation direction adjusting switches 32a to 32d of the remote controller 30 are also omitted.

  In the present embodiment, when the light detection means 37 of the remote controller 30 detects light of a predetermined intensity or higher, the standby mode is switched to the remote control operable mode. However, the present invention is not limited to this. When the pulsed light is detected, the mode may be switched to the remote control operable mode. In this case, the LED 21 that can emit a specific pulsed light is used. The specific pulse light pattern is stored in advance in the control circuit 54 of the remote controller 30. When the specific pulsed light is emitted from the LED 21 toward the remote controller 30, the light detection means 37 detects it, and the control circuit 54 compares it with the pattern stored in advance. Switch to. If it does in this way, the malfunctioning which the remote control 30 switches to remote control operation possible mode by sunlight or toilet room illumination is prevented reliably, and power saving is achieved.

  In the present embodiment, the light detection means 37 is provided in the remote controller 30, but the solar cell 30g may also serve as the light detection means.

<Second Embodiment>
In the present embodiment, the adjustment of the irradiation direction of the LED 21 is made easier than in the first embodiment.

  FIG. 5 is a perspective view of a Western style toilet having the toilet device according to the present embodiment, and FIG. 6 is a block diagram of the toilet device.

In the present embodiment, remote control position information signal transmission means 33 is provided on the front upper surface of remote control 30. As this position information signal transmission means 33, an IC tag or the like is used.
Further, an irradiation direction automatic adjustment switch 34 for automatically adjusting the irradiation direction of the LED 21 is provided on the right side of the irradiation direction adjustment switches 32a to 32d of the remote controller 30.

  Sensor arrangement portions 12b and 12c made of a radio wave transmitting material are provided on the left side surface and the upper surface of the toilet seat box 12. The sensor placement portion 12a is also made of a radio wave transmitting material. Remote sensor position detection sensors 61a to 61c for receiving signals from the position information signal transmitting means 33 of the remote controller 30 are provided in the sensor placement units 12a to 12c, respectively. The obtained reception signal is input to the control circuit 54. As these remote control position detection sensors 61a to 61c, an IC tag recorder or the like is used.

  Other configurations are the same as those of the toilet apparatus of the first embodiment, and the same reference numerals indicate the same parts.

[Initial setting]
After the toilet device configured as described above is installed in the toilet room, the following initial setting is performed.

  When there is no person in the toilet room, the remote controller 30 is in a standby mode. In this standby mode, the switches 30a to 30f, 30s, 32a to 32d, 34 are inoperable, and the transmitting element 36 and the position information signal transmitting means 33 are incapable of transmitting signals. However, in this standby mode, the light detection means 37 can detect the light from the LED 21 and can store the electric power generated by the solar cell 30g in a capacitor (not shown) inside the remote control.

  When the human body approaches the Western-style toilet 10, the light receiving element (human body detection sensor) 60 of the toilet seat box 12 detects the human body, and the LED 21 emits light. Here, when the lid 31 of the remote controller 30 is opened, the irradiation direction adjustment switches 32a to 32d and 34 are further operable in the standby mode, and the position information signal transmission means 33 is capable of transmitting a signal. Become. Here, when the irradiation direction automatic adjustment switch 34 of the remote control 30 is operated, the position information signal transmission means 33 of the remote control 30 transmits a position signal, and the remote control position detection sensors 61a to 61c of the toilet seat box 12 receive and control circuit 54. Is input. The control circuit 54 calculates the installation position of the remote controller 30 based on the reception time difference between the position signals of the sensors 61 a to 61 c, operates the irradiation direction adjusting means 22 of the LED 21, and irradiates so that the LED 21 irradiates the remote controller 30. Adjust the direction. Thereby, the remote control 30 is favorably illuminated by the LED 21. In this way, the initial setting is completed.

  When the toilet is used, the toilet device operates in the same manner as in the first embodiment.

  In this embodiment, the irradiation direction of the LED 21 can be adjusted only by operating the irradiation direction automatic adjustment switch 34, and the initial setting is easy.

  However, the irradiation direction automatic adjustment switch 34 and the irradiation direction adjustment switches 32a to 32d may be used in combination. For example, after the irradiation direction automatic adjustment switch 34 is operated to automatically adjust the irradiation direction of the LED 21, the irradiation direction adjustment switches 32 a to 32 d may be further operated to make fine adjustments. Further, these irradiation direction adjustment switches 32a to 32d may be omitted.

<Third Embodiment>
In the third embodiment, the irradiation direction of the LED 21 is automatically adjusted without performing the initial setting. FIG. 7 is a block diagram of a toilet device according to the present embodiment.

  As shown in FIG. 7, the toilet seat box 12 is provided with a transmitting element (human body detection signal transmitting means) 62 for transmitting a signal when the light receiving element (human body detection sensor) 60 detects a human body. Further, the remote controller 30 is provided with a receiving element (human body detection signal receiving means) 39 for receiving a signal from the transmitting element 62. Other structures are the same as those in FIGS. 5 and 6, and the same reference numerals indicate the same parts.

  In this toilet device, the initial setting is omitted. When using toilet equipment, the toilet equipment operates as follows.

  When the light receiving element (human body detection sensor) 60 does not detect a human body, the remote controller 30 is in a standby mode. In this standby mode, the switches 30a to 30f, 30s, 32a to 32e, and 34 cannot be operated, the transmitting element 36 and the position information signal transmitting means 33 cannot transmit signals, and the light detecting means 37. However, the light from the LED 21 cannot be detected. However, in this standby mode, the receiving element 39 can receive a signal, and the electric power generated by the solar cell 30g can be stored in a capacitor (not shown) inside the remote control. Thereby, the power consumption of the remote controller 30 can be suppressed.

  When the user approaches the Western-style toilet 10 in this standby mode, the light receiving element (human body detection sensor) 60 of the toilet seat box 12 detects the human body and transmits a signal from the transmitting element 62. When the receiving element 39 of the remote controller 30 receives this signal, the remote controller 30 enters the remote control operable mode. In this remote control operable mode, the switches 30a to 30f and 30s can be further operated in the standby mode, the transmitting element 36 and the position information signal transmitting means 33 can transmit signals, and the light detecting means 37 The light from the LED 21 can be detected.

  In this remote control operable mode, the position information signal transmission means 33 of the remote control 30 transmits a position signal. The position signals are received by the remote control position detection sensors 61 a to 61 c of the toilet seat box 12 and input to the control circuit 54. The control circuit 54 calculates the installation position of the remote controller 30 based on the reception time difference of the position signals of the sensors 61a to 61c, and operates the irradiation direction adjusting means 22 of the LED 21 to adjust the LED 21 to irradiate the remote controller 30. At the same time, the LED 21 is turned on.

  In this state, the operation of each device of the toilet device by operating the switches 30a to 30f and 30s of the remote controller 30 is the same as in the first embodiment.

  In this embodiment, the irradiation direction of the LED 21 can be automatically adjusted without performing initial setting.

<Modification of Third Embodiment>
In the third embodiment, the remote control operable mode is set when the receiving element 39 of the remote controller 30 receives the human body detection signal transmitted from the transmitting element 62 of the toilet seat box 12 (when receiving the human body detection signal). As a modification thereof, the remote control operable mode may be set after the human body detection signal is received.

  Even in this modification, in FIG. 7, when the light receiving element (human body detection sensor) 60 does not detect a human body, the remote controller 30 is in a standby mode similar to that of the third embodiment. Yes.

  When the user approaches the Western-style toilet 10 in this standby mode, the light receiving element (human body detection sensor) 60 of the toilet seat box 12 detects the human body and transmits a signal from the transmitting element 62.

  When this signal is received by the receiving element 39 of the remote controller 30, the remote controller 30 enters the semi-standby mode. In the quasi-standby mode, in the standby mode, the position information signal transmission unit 33 can further transmit a signal, and the light detection unit 37 can detect the light from the LED 21.

  In this quasi-standby mode, the position information signal transmission means 33 of the remote controller 30 transmits a position signal, which is received by the remote control position detection sensors 61 a to 61 c and input to the control circuit 54. The control circuit 54 calculates the installation position of the remote controller 30 based on the reception time difference of the position signals of the sensors 61a to 61c, and operates the irradiation direction adjusting means 22 of the LED 21 to adjust the LED 21 to irradiate the remote controller 30. At the same time, the LED 21 is turned on. As described above, when the irradiation direction of the LED 21 is adjusted and the LED 21 irradiates the remote controller 30, the light detection sensor 37 of the remote controller 30 detects light having a predetermined intensity or more, and the remote controller 30 performs the third operation. The remote control operable mode is the same as in the embodiment.

  In this remote control operable mode, when the user operates the switches 30a to 30f and 30s of the remote control 30, each device of the toilet device is activated.

  In this embodiment, the irradiation direction of the LED 21 is automatically adjusted without performing initial setting.

<Other embodiments>
In the above embodiment, the various switches of the remote controller 30 may be contact type or non-contact type.

  FIG. 8 is a schematic cross-sectional view showing an example of a contact-type remote controller. The outer shell of the remote control 80 in FIG. 8 is composed of a rectangular thin box-shaped main body 81. A solar cell 30g, a light detection means 37, and a resin sheet 84b are provided on the front surface (upper surface in FIG. 8) of the main body 81. In addition, a capacitor 86 for storing electric power generated by the solar cell 30g and a substrate 82 are provided inside the main body 81. On the substrate 82, a control circuit 83, a switch element 84a, and a transmitting element 36 that transmits an operation signal when the switch element 84a is turned on are installed. The tip of the switch element 84a (the upper end in FIG. 8) is in contact with the lower surface of the resin sheet 84b. The switch 84 is constituted by the switch element 84a and the resin sheet 84b. The control circuit 83 is connected to the solar cell 30g, the light detection means 37, the capacitor 86, the switch element 84a, and the transmission element 36 by a cord. In FIG. 8, one switch 84 is provided for ease of explanation, but a plurality of switches 84 are actually provided.

  In the remote controller 80 configured as described above, when the user presses the resin sheet 84b, the switch element 84a on the back side of the resin sheet 84b is turned on, and an operation signal is transmitted from the transmitting element 36 toward the toilet seat box.

  FIG. 9 is a schematic block diagram showing an example of a non-contact type remote controller. The remote controller 90 of FIG. 9 is also provided with a light detection means 37 for detecting the ambient brightness. In addition to the light detection means 37, light sensors 91a to 91c are also provided on the back side of three operation switches (not shown) provided on the remote controller 90. The light detection means 37 and the optical sensors 91 a to 91 c are connected to the illuminance comparison circuit 92. The solar battery 30g and the capacitor power circuit 93 are connected, and the power generated by the solar battery 30g can be stored in the capacitor power circuit 93. A transmission circuit 94 is provided, and the transmission circuit 94, the illuminance comparison circuit 92, and the capacitor power supply circuit 93 are connected to each other.

  In the remote controller 90 configured as described above, when there is no human body in the toilet room, the remote controller 90 is in a standby mode. In this standby mode, the optical sensors 91a to 91c are in a non-detectable state, and the transmission circuit 94 is incapable of transmission. However, the light detection means 37, the illuminance comparison circuit 92, the solar battery 30g, and the capacitor power supply circuit 93 are in an activated state.

  When a user enters the toilet room in this standby mode, light is emitted from the LED of a toilet seat box (not shown) toward the remote controller 90, and the light detection means 37 of the remote controller 90 detects this light, and the remote controller 90 can be operated by the remote controller. Switch to mode. In the remote control operable mode, in the standby mode, the optical sensors 91a to 91c can be further detected, and the transmission circuit 94 can transmit.

  In this remote control operable mode, when the user does not bring his hand close to the switch, the illuminance difference between the optical sensors 91a to 91c and the light detection means 37 is less than a predetermined value, so that the illuminance comparison circuit 92 is operated by the switch. Judge that there is no.

  In this remote control operable mode, when the user brings a finger close to any switch (for example, a switch provided with the optical sensor 91a), the switch becomes a shadow of the finger. As a result, the illuminance detected by the photosensor (photosensor 91a) on the back side of the switch becomes weak, and an illuminance difference of a predetermined value or more is generated between the photosensor (photosensor 91a) and the photodetection means 37. Thereby, the illuminance comparison circuit 92 detects the operation of the switch (a switch provided with the optical sensor 91a), and the communication transmission circuit 94 transmits an operation signal toward the toilet seat box. Thereby, the device corresponding to the switch (the switch provided with the optical sensor 91a) is activated or stopped.

  The non-contact type remote controller 90 is clean because it can be operated without directly touching the switch. Moreover, according to this remote control 90, since the presence or absence of switch operation is determined based on the illuminance difference between the optical sensors 91a to 91c and the light detecting means 37, the switch can be accurately performed without being affected by the intensity of the illuminance in the toilet room. The presence or absence of an operation can be determined.

  The above embodiment is an example of the present invention, and the present invention is not limited to the above embodiment.

  For example, in the above embodiment, the toilet device is a left-only toilet device in which a remote controller is installed on the left wall surface, and the light irradiation unit 20 and the sensor arrangement units 12 a to 12 c are installed on the left side of the toilet seat box 12. However, these light irradiation part 20 and sensor arrangement | positioning parts 12a-12c may be installed in the right side of the toilet seat box 12, and it may be used as a toilet apparatus only for right, and may be installed in both right and left sides, and may be used as a toilet apparatus for both right and left.

  Further, an LED and a mirror may be provided in the toilet seat box so that the light from the LED is reflected by the mirror and then irradiated to the remote control. FIG. 10 is a perspective view of a toilet room in which a Western-style toilet equipped with such a toilet seat box 12A is installed, and FIG. 11 (a) is a horizontal sectional view of the toilet seat box 12A in FIG. (B) is the longitudinal cross-sectional view which cut | disconnected the toilet seat box 12A of FIG. 10 so that it might pass along the light irradiation part 20B in the plane parallel to the left and right side surfaces.

  As shown in FIG. 10, a toilet seat box 12A is provided on the upper surface of the rear part of the Western-style toilet 10A. In addition, the code | symbol 14A is a toilet seat and the code | symbol 16A is a toilet lid. A remote control 30A is provided on the left wall surface of the toilet room. A sensor arrangement portion 12d is provided on the right side of the upper surface of the toilet seat box 12A, and light irradiation portions 20A and 20B are provided on the left and right sides of the front surface of the toilet seat box 12A. Mirrors (reflecting plates) 21a to 21c are provided at the center, right side (left side in FIG. 11A) and right side in the toilet seat box 12A, respectively. These mirrors 21a to 21c are rotated in the horizontal direction (arrow direction in FIG. 11 (a)) and the vertical direction (arrow direction in FIG. 11 (b)) by the irradiation position adjusting means 22 in FIG. It is possible to move. LED21 is installed in the position facing the center mirror 21a.

  In the toilet device configured in this way, the remote control 30A is installed on the left wall surface, so the mirror 21a is directed as shown by the solid line in FIG. 11 (a), and the light from the LED 21 The light is reflected by the mirror 21c, further passes through the light irradiation unit 20B, and irradiates the remote controller 30A. If the remote controller 30A is installed on the right wall surface, the mirror 21a is directed as indicated by the dotted line in FIG. 11A, and the light from the LED 21 is reflected by the mirror 21a and the mirror 21b. Further, the remote controller 30A is irradiated through the light irradiation unit 20A. Note that the angles of the mirror 21c and the mirror 21b are adjusted in the same manner as in the above-described embodiment according to the installation position on the wall surface of the remote controller 30A. When the mirrors 21a to 21c are used as described above, the cost can be reduced because only one LED 21 is required even in a left and right toilet device.

  In the above-described embodiment, the irradiation direction adjustment switches 32a to 32d and the irradiation direction automatic adjustment switch 34 are provided in the remote controller 30, but may be provided in the toilet seat box 12 instead of or together with it.

  A dry battery may be used instead of the solar battery 30g. The LED 21 may be water cooled by water flowing through the pipe 40 in the toilet seat box 12.

  In FIG. 3, the angle formed between the direction of the light emitted from the LED 21 and the vertical line on the front surface of the remote controller 30 increases toward the front of the toilet room of the remote controller 30 (the lower side of FIG. 3). The darker the front side of the room (the lower side of FIG. 3). For this reason, you may make it make the intensity | strength of the light radiate | emitted from LED21 increase so that the toilet room front side (lower side of FIG. 3). As a result, the entire front surface of the remote controller 30 can be illuminated well.

  In FIG. 3, when the light receiving element (human body detection sensor) 60 of the toilet seat box 12 detects a human body, the LED 21 illuminates the floor surface in front of the western-style toilet 10 for a predetermined time (for example, 1 to 3 seconds), and then the initial stage. You may control the irradiation direction adjustment means 22 so that it may face the irradiation direction adjusted by the setting (namely, the direction which irradiates the remote control 30). In this case, the user can safely move to the Western-style toilet 10 while checking his / her feet. The time for which this LED 21 illuminates the front floor is not limited to the above case. For example, a toilet lid opening detection sensor may be installed, and may be from when the light receiving element (human body detection sensor) 60 detects a human body to when the toilet lid opening detection sensor detects opening.

  The toilet device body may be a sheet-type toilet device body attached to an existing toilet seat.

DESCRIPTION OF SYMBOLS 10 Western style toilet 12 Toilet seat box 30 Remote control 32a-32d Irradiation direction adjustment switch 30g Solar cell 33 Position information signal transmission means 34 Irradiation direction automatic adjustment switch 36 Transmission element 37 Photodetection means 39 Reception element 54 Control circuit 60 Light reception element 61a-61c
62 Transmitting element 90 Remote control 91a, 91b, 91c Optical sensor 92 Illuminance comparison circuit

Claims (9)

A toilet device having a toilet device body provided in a toilet and a remote controller for operating the toilet device body,
In the toilet device provided with light irradiation means for the toilet device body to illuminate the remote control,
The toilet device characterized in that the light irradiation means can change the irradiation direction.   The toilet device according to claim 1, wherein the light irradiation means can manually change the irradiation direction.   The toilet device according to claim 1, further comprising an irradiation direction adjusting unit that changes an irradiation direction of the light irradiation unit.   4. The toilet device according to claim 3, wherein the irradiation direction adjusting means is steerable by operating the remote controller and / or an operation unit of the toilet device body. In Claim 3 or 4, this remote control has a means to transmit a position information signal,
The toilet equipment body has remote control position detecting means for receiving the position information signal and detecting the position of the remote control,
The irradiation direction adjusting means has an automatic adjustment function for adjusting the irradiation direction so that the irradiation position of the light irradiation means matches the detection position of the remote controller based on the position information signal. machine. In claim 5, the toilet device main body has a human body detection means for detecting a human body approaching the toilet equipment main body, and a human body detection signal transmission means for transmitting a human body detection signal to the remote control,
The remote control has a human body detection signal receiving means,
The toilet device characterized in that the position information signal transmitting means can transmit the position information signal when the human body detection signal receiving means receives the human body detection signal.   7. The remote controller according to claim 1, wherein the remote controller detects the light, and the remote controller can switch the remote controller from a standby state to a communicable state when the light detector detects the light. And a toilet device. In claim 7, the light irradiation means is capable of irradiating specific modulated light,
The toilet device characterized in that the control means can switch the remote control from a standby state to a communicable state when the light detection means detects the specific modulated light.   The toilet device according to claim 7 or 8, wherein the remote controller includes a solar cell, and the solar cell also serves as the light detection unit.

Images