JP3567816B2 - Hot wire automatic switch for toilet - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a toilet hot-wire automatic switch that detects a person entering and leaving a toilet room by detecting a heat ray radiated from a human body, and controls a lighting load and a ventilation fan disposed in the toilet room. is there.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a hot wire automatic switch for a toilet that turns on an illumination load and operates a ventilation fan according to a person entering or leaving a toilet room has been used. This type of hot wire automatic switch for a toilet includes a human sensor that detects the presence or absence of a person by using a heat sensor (generally using a pyroelectric infrared sensor) that detects a heat ray emitted from the human body. It is determined whether or not a person is present in the toilet room based on the output of (1) (JP-A-6-249777). That is, as shown in the right half of FIG. 11A, when the surroundings are dark like at night, when a person enters the toilet room at time t2, the lighting load is turned on as shown in FIG. 11 (b), the operation of the ventilation fan is started, and when the person leaves the toilet room, the lighting load is turned off. After that, the operation maintenance time AT1 is configured to stop the ventilation fan after the operation of the ventilation fan is continued. I have. Further, as shown in the left half of FIG. 11A, when the surroundings are bright as in the daytime, the lighting load is not turned on even if a person enters the toilet room at time t1, but the person enters and leaves the room. , The ventilation fan is operated in the same manner as when the surroundings are dark as shown in FIG. Here, the broken line portion in FIG. 11B indicates a period during which the lighting load is not turned on but a person is present in the toilet room.
[0003]
The human sensor is configured to output a detection signal when a person moves by detecting a change in the heat dose, and the heat dose does not change even if the person is in the field of view. Otherwise, no detection signal can be obtained from the human sensor. In other words, if the lighting load is turned on only when the detection signal is obtained, the lighting load is turned off when the movement of the person stops, even though the person is within the field of view of the heat ray sensor. is there. Therefore, a configuration is adopted in which a predetermined lighting holding time is timed from the time when the detection signal is generated every time the detection signal is generated, and lighting of the illumination load is continued during the time limit. In other words, if a detection signal is generated during the time period of the lighting holding time, the lighting holding time is again set to be timed again from that time, and the state where the detection signal is not obtained from the human sensor is the lighting holding time. Until it reaches the point, it is assumed that a person exists. When the lighting holding time expires by such an operation, it is determined that the person has left the toilet room. Then, the operation maintenance time AT1 for continuing the operation of the ventilation fan is timed after the expiration of the lighting holding time.
[0004]
It is considered that the lighting holding time needs to be adjusted according to the installation environment. Therefore, the lighting holding time can be adjusted also in the above-described publication. That is, the period AT2 'in FIG. 11C is variable. Also, the state and the detection signal in which the lighting load is interlocked with the detection signal from the human sensor so that it is possible to cope with a case where only the ventilation fan is interlocked with the human sensor without interlocking the light load with the human sensor. A changeover switch is provided so that the on or off state can be selected manually regardless of the operation.
[0005]
For example, when a human sensor is mounted on the ceiling, a container 30 having a flange portion 31 that comes into contact with the ceiling surface is used as shown in FIG. Is provided with a lens 34. An operation knob 13 'for adjusting the lighting holding time and an operation knob 17' for adjusting the changeover switch are exposed on the lower surface of the flange portion 31. Further, as a conventional configuration, there is also a configuration as shown in FIG. 13 in which the lighting holding time cannot be adjusted.
[0006]
[Problems to be solved by the invention]
By the way, in the above-mentioned conventional configuration, since the operation maintenance time of the ventilation fan is fixedly set, the operation maintenance time cannot be adjusted according to the installation environment such as the size of the toilet room, for example. Therefore, it is required that the operation maintenance time can be adjusted. In addition, when cleaning the ventilation fan, it is desirable to stop the ventilation fan and continuously turn on the lighting load. However, there is no means for stopping only the ventilation fan, which is inconvenient.
[0007]
The present invention has been made in view of the above circumstances, and a purpose thereof is a hot-wire toilet system for toilets, which has improved convenience by making it possible to adjust or change the operation state of the ventilation fan according to the installation environment and the purpose of use. It is to provide an automatic switch.
[0010]
[Means for Solving the Problems]
The invention according to claim 1 is a human sensor that detects the presence or absence of a person by detecting a heat ray radiated from a human body, and detects the entry and exit of a person into and from a toilet room by the output of the human sensor. Outputs a lighting control signal to turn on the lighting load during the period until the state where no person is detected reaches the specified lighting holding time after the presence of a person in the toilet room is detected by the sense sensor, and at least the lighting holding time expires Control means for outputting a ventilation fan control signal for continuing the operation of the ventilation fan for a prescribed operation maintenance time later, a first opening / closing unit for controlling lighting on / off of a lighting load, and a second opening / closing unit for controlling operation / stop of the ventilation fan. And a first changeover switch for manually selecting a state in which the on / off of the first opening / closing section is linked to the lighting control signal and a state in which the first opening / closing section is turned on or off independently of the lighting control signal A second input for manually selecting a first input terminal to be connected and a state in which the ON / OFF of the second opening / closing section is linked to the operation control signal and a state in which the ON / OFF is turned on independently of the operation control signal. and a second input terminal to which changeover switch is connected, is shall attached to a ceiling surface.
[0011]
The invention of claim 2 is the invention of claim 1, the first and second changeover switch is to be attached to the wall of the toilet room.
[0012]
According to a third aspect of the present invention, in the first or second aspect of the present invention, a brightness sensor for detecting the ambient illuminance is added, and the control means controls the illumination when the ambient illuminance detected by the brightness sensor is equal to or more than a specified value. The control of the first opening / closing unit by the signal is invalidated to keep the lighting load in the off state.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
(First Embodiment)
As shown in FIG. 1, the toilet hot wire automatic switch according to the present embodiment includes a power supply terminal T1 to which a commercial power supply is connected, a first output terminal T2 to which a lighting load is connected, and a ventilating fan. 2 output terminals T3. The commercial power supply connected to the power supply terminal T1 is rectified and stabilized in the constant voltage circuit 11 and outputs a DC constant voltage. Power from the internal circuit is supplied from the constant voltage circuit 11.
[0014]
The presence or absence of a person in the toilet room is detected by a human sensor 12 having a heat ray sensor (using a pyroelectric infrared sensor). The pyroelectric infrared sensor is a differential type sensor that generates an output voltage having an amplitude corresponding to a change in the received heat dose, and when the output voltage of the hot-wire sensor changes by a predetermined threshold or more, the motion sensor 12 detects Outputs a pulse-like detection signal. Further, the pyroelectric infrared sensor used for the human sensor 12 does not move even if the person is present in the visual field, and the output voltage cannot be obtained unless the heat dose changes. No detection signal is obtained. In other words, if the lighting load is turned on only when the detection signal is obtained, the lighting load is turned off when the movement of the person stops, even though the person is within the field of view of the heat ray sensor. is there. Therefore, a configuration is adopted in which a timer 10a that limits the predetermined lighting holding time from the time of generation of the detection signal for each generation of the detection signal is provided, and the lighting load is continued to be turned on during the timed operation of the timer 10a. That is, the timer 10a is configured to perform a timed operation when triggered by the detection signal and to be able to trigger again.
[0015]
The timer 10a is constituted by a microcomputer 10 as control means, and a lighting holding time setting volume 13 for adjusting the time limit of the timer 10a is also connected to the microcomputer 10. In the lighting holding time setting volume 13, the time limit of the timer 10a can be adjusted in a range from about 10 seconds to about 6 minutes. Further, a brightness sensor 14 for detecting ambient brightness is connected to the microcomputer 10, and when the ambient illuminance detected by the brightness sensor 14 is equal to or more than a specified value, the control of the illumination load is invalidated and the illumination load is turned off. Keep in condition.
[0016]
The microcomputer 10 supplies an illumination control signal and a ventilation fan control signal to the open / close control units 15 and 16 in accordance with the outputs of the human sensor 12 and the brightness sensor 14, respectively, and opens and closes the open / close control units 15 and 16 to thereby load the lighting load. And control the ventilation fan. The opening / closing portions 15 and 16 include a switch element. As the switch element, a three-terminal bidirectional thyristor (triac) or an electromagnetic relay is used. The switch element is provided between the power terminal T1 and each of the output terminals T2 and T3. Has been inserted.
[0017]
By the way, the specified value for the ambient illuminance detected by the brightness sensor 14 is selected in a plurality of stages (two stages in the present embodiment) by the brightness setting switch 14a. The brightness setting switch 14a can also select a state in which the output of the brightness sensor 14 is invalidated. Further, a changeover switch 17 is connected to the microcomputer 10 so as to open and close the opening / closing portions 15 and 16 in conjunction with the detection of a person by the human sensor 12, and to both the automatic mode regardless of the detection output of the human sensor 12. Three modes can be selected: an off mode in which the open / close sections 15 and 16 are kept off, and an on mode in which the open / close sections 15 and 16 are kept on regardless of the detection output of the human sensor 12.
[0018]
In the microcomputer 10 according to the present embodiment, the open / close unit 16 that controls the ventilation fan is turned on at the same time as the open / close unit 15 that controls the lighting load, and the operation maintenance time that is set from about 1 minute to about 5 minutes after the open / close unit 15 is turned off. A function is also provided to control the opening / closing unit 16 to be turned off when the time has elapsed. The operation maintenance time can be adjusted by an operation maintenance time setting volume 18 connected to the microcomputer 10.
[0019]
The body 30 of the above-described hot wire automatic switch has a flange portion 31 at a lower end portion as shown in FIG. 2, and a housing portion (on the back side in FIG. 2: not shown) on the upper surface side of the flange portion 31. It is formed in the shape provided. In order to mount the container 30 on the ceiling surface, the housing portion is inserted into a mounting hole (not shown) formed in the ceiling surface, and the flange portion 31 is brought into contact with the lower surface of the peripheral portion of the mounting hole, and fixed in this state. The container 30 is fixed to the ceiling surface using a tool. That is, when a switch box (not shown) is provided in the ceiling, a box screw (not shown) screwed into the switch box through a box hole 32 formed in the flange portion 31 is used as a fixture. In the case where the switch box is not used, a clamp plate (not shown) which is connected to the flange portion 31 and can clamp the ceiling plate with the flange portion 31 is used as a fixture, and The holding plate is screwed into a tightening screw that can be rotated through the provided insertion hole 33, and the distance between the holding plate and the flange portion 31 is changed by the rotation of the tightening screw. That is, the clamping plate is screwed to the clamping screw, and after inserting the housing part into the mounting hole, the clamping screw is rotated to bring the clamping plate closer to the flange portion 31, and the gap between the clamping plate and the flange portion 31 is set. Hold the periphery of the mounting hole with. If a switch box is not used, a wood screw inserted into the box hole 32 can be screwed to the ceiling material and directly attached.
[0020]
When the container 30 is attached to the ceiling as described above, the housing portion is stored in the ceiling. The flange portion 31 exposed from the ceiling surface to the lower surface side is provided with a lens 34 for allowing a heat ray to be incident on the human sensor 12, and on the lower surface side of the flange portion 31, a lighting holding time setting volume 13, a brightness setting switch 14 a, Each operation unit of the changeover switch 17 and the operation maintenance time setting volume 18 is exposed. However, the lower surface side of the flange portion 31 is covered with a decorative plate (not shown) except for the lens 34, and these operation portions are normally hidden. The decorative plate is detachably engaged with the flange portion 31 and can be detached from the flange portion 31 when operating the above-described operation portion.
[0021]
Next, the operation will be described. Now, it is assumed that the brightness setting switch 14a selects the state of opening and closing the opening / closing unit 15 in accordance with the ambient illuminance detected by the brightness sensor 14, and the changeover switch 17 selects the automatic mode. In this case, when the surroundings become dark and the surrounding illuminance detected by the brightness sensor 14 becomes lower than the specified value set by the brightness setting switch 14a, the presence or absence of the detection of a person by the human sensor 12 is determined according to the presence or absence of the human sensor 12. Opening / closing parts 15 and 16 are controlled. However, since the opening / closing unit 16 is used for controlling the ventilation fan, the opening / closing unit 16 is controlled according to the presence or absence of the detection of a person by the human sensor 12 regardless of the surrounding illuminance.
[0022]
That is, when the surroundings are bright as shown in the left half of FIG. 3A, the opening / closing unit 15 that controls the lighting load detects the person at the time t1 by the human sensor 12 as shown in FIG. Is also kept off. Here, a period AT2 indicated by a broken line in FIG. 3C indicates a period during which the timer 10a performs the timed operation by detecting a person. The timed operation of the timer 10a is started from the time when the detection signal is generated, and when the detection signal is generated again from the human sensor 12 during the timed operation of the timer 10a (lighting holding time), the timer 10a is retriggered (lighting holding time). Timed again). That is, the timer 10a continues the timed operation while the next detection signal is obtained during the timed operation of the timer 10a. Accordingly, a period AT2 indicated by a broken line in FIG. 3C indicates a period from when a person enters the toilet room until the person leaves the room. Here, the point in time when the state in which no person is detected by the human sensor continues for the lighting holding time is defined as the point in time of leaving the room. On the other hand, the opening / closing unit 16 for controlling the ventilation fan is turned on when a person enters the toilet room as shown in FIG. 3B, and when the person leaves the toilet room (when the lighting holding time has expired). When the operation maintenance time (for example, 5 minutes) AT1 elapses from the start, the operation is turned off. The operation maintenance time AT1 is variable by the operation maintenance time setting volume 18.
[0023]
When the surroundings are dark as shown in the right half of FIG. 3A, the opening / closing unit 15 for controlling the lighting load is turned on at the time t2 when a person is detected by the human sensor 12 as shown in FIG. 3C. become. After the opening / closing section 15 is turned on, the timer 10a is retriggered when the detection signal is again generated from the human sensor 12 during the timed operation of the timer 10a, similarly to the case where the surroundings are bright, and the timer 10a starts the timed operation. continue. The opening / closing unit 15 keeps the ON state during the period AT2 in which the timed operation of the timer 10a is continued. On the other hand, the opening and closing unit 16 for controlling the ventilation fan operates in the same manner as when the surroundings are bright, and turns on when the timer 10a starts the timed operation as shown in FIG. After that, the operation is continued until the operation maintaining time AT1 elapses.
[0024]
As is clear from the above description of operation, when the surroundings are dark, when a person enters the toilet room, the lighting load is turned on and the ventilation fan starts operating, and when the person leaves the room (the state where no person is detected is only the lighting holding time). The lighting load is turned off (if continued), and then the ventilation fan stops when the operation maintaining time AT1 has elapsed. Also, when the surroundings are bright, the lighting load does not turn on even when a person enters the room, but the ventilation fan starts operating, and the ventilation fan stops when the operation maintaining time AT1 elapses after the person leaves the room.
[0025]
In the above example, the case where the operation is changed according to the detection of the ambient illuminance by the brightness sensor 14 has been described. However, when there is no window in the toilet in an apartment house or the like, the lighting load is set when a person enters regardless of the ambient illuminance. Must be turned on, and in this case, the brightness sensor 14 may be disabled by the brightness setting switch 14a.
[0026]
In the above-described example, the lighting hold time setting volume 13 and the operation holding time setting volume 18 are provided in order to make the lighting holding time and the operation holding time variable. When it is not necessary to adjust according to the installation environment, for example, when the toilet room is a standard product or when the toilet room is used simply, as shown in FIG. 4, the lighting holding time setting is changed from the configuration shown in FIG. The volume 13 and the operation maintenance time setting volume 18 may be omitted, and the lighting maintenance time and the operation maintenance time may be fixedly set. In this configuration, since the holding time setting volume 13 and the operation maintaining time setting volume 18 are not required, the number of parts is reduced. In the case of this configuration, the container 30 is as shown in FIG. The configurations shown in FIGS. 4 and 5 are the same as the configurations shown in FIGS. 1 and 2 except that the lighting holding time and the operation maintaining time are fixedly set.
[0027]
(Second embodiment)
In the present embodiment, as shown in FIG. 6, two changeover switches 17a and 17b are provided in place of the changeover switch 17 used in the configuration of the first embodiment shown in FIG. That is, in the automatic mode, the changeover switch 17 in the first embodiment causes both the open / close sections 15 and 16 to operate in conjunction with the detection output of the human sensor 12, and both the open / close sections 15 and 16 in the ON mode and the OFF mode. In the present embodiment, three modes can be selected for each of the opening / closing sections 15 and 16, although the control is performed so as to be kept on or off. That is, in the changeover switch 17a, there are an automatic mode in which the opening / closing unit 15 is controlled in conjunction with the detection output of the human sensor 12, a switching mode in which the opening / closing unit 15 is kept off regardless of the detection output of the human sensor 12, It is possible to select three modes, that is, an on mode in which the opening / closing unit 15 is kept on regardless of the detection output of the human sensor 12, and the changeover switch 17b operates the opening / closing unit 16 in conjunction with the detection output of the human sensor 12. An automatic mode for controlling, an off mode for keeping the opening / closing section 16 off regardless of the detection output of the human sensor 12, and an on mode for keeping the opening / closing section 16 on regardless of the detection output of the human sensor 12. Three modes can be selected. Here, in this embodiment, the operation maintenance time setting volume for adjusting the operation maintenance time of the ventilation fan is omitted.
[0028]
As shown in FIG. 7, the operation unit of the lighting-holding time setting volume 13, the changeover switch 17a, and the changeover switch 17b is provided on the body 30 of the hot-wire automatic switch according to the present embodiment. Other configurations are the same as those of the first embodiment.
[0029]
If the configuration of the present embodiment is adopted, for example, when cleaning the ventilation fan, if the switch 17b on the ventilation fan side is set to the off mode and the switch 17a on the lighting load side is set to the on mode, the ventilation fan is stopped. Lighting can be secured and the ventilation fan can be easily cleaned. In addition, when the ventilation fan is operated continuously for sufficient drying after cleaning, the changeover switch 17b on the ventilation fan side may be set to the ON mode.
[0030]
(Third embodiment)
As shown in FIG. 8, the present embodiment corresponds to signal control units 19a and 19b and signal control units 19a and 19b instead of the two changeover switches 17a and 17b in the second embodiment shown in FIG. The input terminals T4 and T5 are provided so that a switching signal can be externally supplied to the microcomputer 10. As shown in FIG. 10, changeover switches 20a and 20b capable of selecting three modes are connected to input terminals T4 and T5 via a two-wire connection line Ls. As shown in FIG. 10B, each of the changeover switches 20a and 20b is a rotary switch, and includes a rotary knob M capable of selecting three positions. That is, the microcomputer 10 is provided with the signal control units 19a and 19b for transmitting the three states by two wires. Here, a signal for identifying three states is transmitted by changing the line voltage of the connection line Ls. That is, in the signal control units 19a and 19b, a current is limited and an appropriate voltage is applied between the switch lines Ls, and the changeover switches 20a and 20b are switched via Zener diodes having different Zener voltages for each mode. The configuration is such that the lines Ls are short-circuited. With such a configuration, the line voltage of the switch line Ls changes for each mode. Therefore, the signal control units 19a and 19b detect which mode is selected by the changeover switches 20a and 20b by detecting the change in the line voltage. You can know if you are.
[0031]
In the present embodiment, the changeover switch 17 is provided as in the first embodiment, and the changeover switches 20a and 20b become effective when the automatic mode is selected by the changeover switch 17. That is, the mode switch is given priority by the changeover switch 17. In this embodiment, an operation maintenance time setting volume for adjusting the operation maintenance time of the ventilation fan is omitted.
[0032]
In this embodiment, since the lighting holding time setting volume 13, the brightness setting switch 14a, and the changeover switch 17 are provided on the body, the same operation unit as the conventional configuration shown in FIG. 12 is provided. However, since two input terminals T4 and T5 are provided in addition to the power terminal T1 and the two output terminals T2 and T3, as shown in FIG. 9, the body 30 of the hot-wire automatic switch IS (see FIG. 10) is provided. An electric wire insertion hole 36 constituting the power terminal T1, the output terminals T2, T3, and the input terminals T4, T5 is opened on the upper surface of the housing portion 35 projecting from the upper surface of the flange portion 31. That is, the power supply terminal T1, the output terminals T2, T3, and the input terminals T4, T5 are quick-connecting terminals using a locking spring made of a leaf spring. The distal end is configured to be locked by using the spring force of the locking spring. A release hole 37 is formed in the vicinity of the wire insertion hole 36. If the tip of a flathead screwdriver or the like is inserted into the release hole 37, the locking spring can be bent to release the locked state of the wire. It has become. The structure of this type of quick connection terminal is well known.
[0033]
In actual use, as shown in FIG. 10, the hot wire automatic switch IS described in the present embodiment is attached to the ceiling surface 22 of the toilet room 21, and the lighting load and the ventilation fan are connected to the output terminals T2 and T3, respectively. Are connected via a load line Ld, and changeover switches 20a and 20b are connected to the input terminals T4 and T5 respectively via a two-wire switch line Ls. The changeover switches 20a and 20b are mounted on the wall surface in the toilet room so that a user in the toilet room can easily operate the switch. A commercial power supply is connected to the power supply terminal T1 via the electric wire Lp. Other configurations and operations are the same as those of the second embodiment.
[0036]
【The invention's effect】
The invention according to claim 1 is a human sensor that detects the presence or absence of a person by detecting a heat ray radiated from a human body, and detects the entry and exit of a person into and from a toilet room by the output of the human sensor. Outputs a lighting control signal to turn on the lighting load until the state where no person is detected reaches the specified lighting holding time after the presence of a person in the toilet room is detected by the sense sensor, and at least the lighting holding time expires Control means for outputting a ventilation fan control signal for continuing the operation of the ventilation fan for a prescribed operation maintenance time later, a first opening / closing unit for controlling lighting on / off of a lighting load, and a second opening / closing unit for controlling operation / stop of the ventilation fan. And a first changeover switch for manually selecting a state in which the on / off of the first opening / closing section is linked to the lighting control signal and a state in which the first opening / closing section is turned on or off independently of the lighting control signal A second input for manually selecting a first input terminal to be connected and a state in which the ON / OFF of the second opening / closing section is linked to the operation control signal and a state in which the ON / OFF is turned on independently of the operation control signal. and a second input terminal to which changeover switch is connected, is shall attached to a ceiling surface, individually selected and a state in which keeping the on or off to synchronize with the respective motion sensor for the lighting load and ventilators Therefore, the lighting load and the ventilation fan can be operated in accordance with the use situation. For example, when cleaning the ventilation fan, the changeover switch can be set to stop the ventilation fan and turn on the illumination load, thereby improving the convenience. Moreover, since the changeover switch is provided separately, the changeover switch can be provided at a position where the changeover switch can be easily operated without being restricted by the position of the human sensor.
[0037]
The invention of claim 2 is the invention of claim 1, which first and second changeover switch is attached to the wall of the toilet room, by operating manually the switch which is arranged in the wall of the toilet room Since the lighting load and the operation mode of the ventilation fan can be selected, the operation mode can be easily selected by the user of the toilet room.
[0038]
According to a third aspect of the present invention, in the first or second aspect , a brightness sensor for detecting the ambient illuminance is added, and the control means controls the illumination when the ambient illuminance detected by the brightness sensor is equal to or greater than a specified value. The control of the first opening / closing unit by the signal is invalidated to keep the lighting load in a non-lighting state, and the lighting load is not turned on when the ambient illuminance is high as in the daytime, thereby suppressing unnecessary power consumption. Can be.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of the present invention.
FIG. 2 is a bottom view of the same as above with a decorative plate removed.
FIG. 3 is an operation explanatory diagram of the above.
FIG. 4 is a block diagram showing a reference example.
FIG. 5 is a bottom view of the reference example shown in FIG. 4 with a decorative plate removed.
FIG. 6 is a block diagram showing a second embodiment of the present invention.
FIG. 7 is a bottom view of the above with the decorative plate removed.
FIG. 8 is a block diagram showing a third embodiment of the present invention.
FIG. 9 is a plan view showing a state in which a decorative plate is removed in the same.
10A is a connection diagram illustrating an example of use of the above, and FIG. 10B is a front view of a changeover switch used in the above embodiment.
FIG. 11 is a diagram illustrating the operation of a conventional configuration.
FIG. 12 is a bottom view of the same as above with a decorative plate removed.
FIG. 13 is a bottom view of another conventional configuration with a decorative plate removed.
[Explanation of symbols]
Reference Signs List 10 Microcomputer 10a Timer 12 Human sensor 13 Lighting holding time setting volume 14 Brightness sensors 15, 16 Opening / closing unit 17 Switching switch 17a, 17b Switching switch 18 Operation maintaining time setting volume 19a, 19b Signal control unit 20a, 20b Switching switch T4 T5 input terminal

Claims (3)

A human sensor that detects the presence or absence of a person by detecting heat rays radiated from the human body, and detects the entry and exit of a person into the toilet room by the output of the human sensor, and the human sensor detects the presence or absence of the person in the toilet room. Outputs a lighting control signal to turn on the lighting load during a period from when a person enters the room until the state in which no person is detected reaches the specified lighting holding time, and at least after the expiration of the lighting holding time, the specified operation maintenance time a second switching unit for controlling a control means for outputting a ventilation fan control signal to continue the operation of the ventilation fan, a first opening and closing part for controlling the turning on and off of the lighting load, the operation and stop of the ventilator, first A first changeover switch for manually selecting a state in which the on / off of the opening / closing section is linked to the lighting control signal and a state in which the opening / closing section is turned on or off independently of the lighting control signal is connected to the first switch; A power terminal and a second changeover switch for manually selecting a state in which the ON / OFF of the second opening / closing section is linked to the operation control signal and a state in which the second open / close section is turned ON or OFF independently of the operation control signal are connected. and a second input terminal, toilet hot-wire automatic switch, wherein Rukoto attached to a ceiling surface. The hot wire automatic switch for a toilet according to claim 1, wherein the first and second changeover switches are mounted on a wall of the toilet room . A brightness sensor for detecting the ambient illuminance is added. When the ambient illuminance detected by the brightness sensor is equal to or more than a specified value, the control unit invalidates the control of the first opening / closing unit by the illumination control signal to reduce the illumination load. The hot-wire automatic switch for toilet according to claim 1 or 2, wherein the automatic switch is kept off .

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